Comment, Constructor, Destructor, Define, Enum, Exec, Extern, Include, Friend, Fn codes member proc usage reductions

remove raw member def from code types, reduction on CodeAttributes
Progress on member proc usage reduction (CodeParam, CodeSpecifiers)
2025-07-01 03:11:03 -07:00 · 2024-12-02 16:59:13 -05:00 · 2024-12-02 11:20:31 -05:00 · 2024-12-02 10:58:24 -05:00 · 2024-12-02 04:12:09 -05:00 · 2024-12-02 03:18:52 -05:00
136 changed files with 17967 additions and 24660 deletions
--- a/.gitignore
+++ b/.gitignore
@ -28,3 +28,7 @@ release/**
 **/Unreal/*.cpp
 ! **/Unreal/validate.unreal.cpp
 project/auxillary/vis_ast/dependencies/temp
 test/gen/original
 singleheader/gen/scratch.hpp
 test/gen/scratch.cpp
 gen_c_library/gen
--- a/.vscode/bookmarks.json
+++ b/.vscode/bookmarks.json
@ -0,0 +1,14 @@
 {
 	"files": [
 		{
 			"path": "project/auxillary/vis_ast/dependencies/temp/raylib-master/src/rcamera.h",
 			"bookmarks": [
 				{
 					"line": 140,
 					"column": 14,
 					"label": ""
 				}
 			]
 		}
 	]
 }
--- a/.vscode/launch.json
+++ b/.vscode/launch.json
@ -41,6 +41,15 @@
 			"cwd": "${workspaceFolder}/singleheader/",
 			"visualizerFile": "${workspaceFolder}/scripts/gencpp.natvis"
 		},
 		{
 			"type": "cppvsdbg",
 			"request": "launch",
 			"name": "Debug unreal vsdbg",
 			"program": "${workspaceFolder}/unreal_engine/build/unreal.exe",
 			"args": [],
 			"cwd": "${workspaceFolder}/unreal_engine/",
 			"visualizerFile": "${workspaceFolder}/scripts/gencpp.natvis"
 		},
 		{
 			"type": "cppvsdbg",
 			"request": "launch",
@ -49,6 +58,15 @@
 			"args": [],
 			"cwd": "${workspaceFolder}/project/auxillary/vis_ast/dependencies/temp/raylib-master/src/",
 			"visualizerFile": "${workspaceFolder}/scripts/gencpp.natvis"
 		},
 		{
 			"type": "cppvsdbg",
 			"request": "launch",
 			"name": "Debug VIS AST",
 			"program": "${workspaceFolder}/project/auxillary/vis_ast/binaries/vis_ast.exe",
 			"args": [],
 			"cwd": "${workspaceFolder}/project/auxillary/vis_ast/binaries/",
 			"visualizerFile": "${workspaceFolder}/scripts/gencpp.natvis"
 		}
 	]
 }
--- a/.vscode/settings.json
+++ b/.vscode/settings.json
@ -30,7 +30,17 @@
 		"list": "cpp",
 		"xhash": "cpp",
 		"glfw3.h": "c",
-		"stdbool.h": "c"
+		"stdbool.h": "c",
 		"objbase.h": "c",
 		"mmreg.h": "c",
 		"mmsystem.h": "c",
 		"propidl.h": "c",
 		"android_native_app_glue.h": "c",
 		"raylib.h": "c",
 		"*.m": "cpp",
 		"atomic": "cpp",
 		"gen.h": "c",
 		"string_ops.hpp": "c"
 	},
 	"C_Cpp.intelliSenseEngineFallback": "disabled",
 	"mesonbuild.configureOnOpen": true,
@ -42,5 +52,7 @@
 		"**/.vscode": true,
 		"**/.vs": true,
 		"**/sanity.gen.hpp": true
-	}
+	},
 	"autoHide.autoHidePanel": false,
 	"autoHide.autoHideSideBar": false
 }
--- a/Readme.md
+++ b/Readme.md
@ -10,7 +10,9 @@ Its not meant to be a black box metaprogramming utility, it should be easy to in
 ## Notes
-**On Partial Hiatus: Working on handmade hero for now. Only fixes will be pushed as I come across them until I get what I want done from the series**
+**On Partial Hiatus: Life has got me tackling other issues..**  
 I will be passively updating the library with bug fixes and minor improvements as I use it for my personal projects.  
 There won't be any major reworks or features to this thing for a while.
 This project is still in development (very much an alpha state), so expect bugs and missing features.  
 See [issues](https://github.com/Ed94/gencpp/issues) for a list of known bugs or todos.
@ -65,7 +67,7 @@ Example using each construction interface:
 Validation and construction through a functional interface.
 ```cpp
-Code t_uw           = def_type( name(uw) );
+Code t_uw           = def_type( name(usize) );
 Code t_allocator    = def_type( name(allocator) );
 Code t_string_const = def_type( name(char), def_specifiers( args( ESpecifier::Const, ESpecifier::Ptr ) ));
@ -88,8 +90,8 @@ Validation through ast construction.
 Code header = parse_struct( code(
    struct ArrayHeader
    {
-        uw        Num;
+        usize        Num;
-        uw        Capacity;
+        usize        Capacity;
        allocator Allocator;
    };
 ));
@ -104,8 +106,8 @@ No validation, just glorified text injection.
 Code header = code_str(
    struct ArrayHeader
    {
-        uw        Num;
+        usize        Num;
-        uw        Capacity;
+        usize        Capacity;
        allocator Allocator;
    };
 );
@ -121,8 +123,8 @@ All three constrcuton interfaces will generate the following C code:
 ```cpp
 struct ArrayHeader
 {
-    uw        Num;
+    usize        Num;
-    uw        Capacity;
+    usize        Capacity;
    allocator Allocator;
 };
 ```
--- a/docs/AST_Design.md
+++ b/docs/AST_Design.md
@ -1,11 +1,3 @@
 # Forward
 Was never satisfied with how I did the wrap of the management of the AST.  
 For C++, the current design may be as good as it gets for the limitations of the langauge.
 I'll at least try in this issue to brainstorm something simpiler without losing ergonomics.  
 This will also be a good place to document the current design.
 ## Current Design
 `AST` is the actual managed node object for the library.  
@ -22,10 +14,8 @@ The simpliest being just a type alias.
 using Code = AST*;
 ```
-This is what the genc library would have to use due to its constraints of a langauge.
+This is what the genc library would have to use due to its constraints of a langauge.  
-Anything else and it would either be an unergonomic mess of struct wrapping with a mess of macros & procedures to interface with it.
+The actual content per type of AST is covered within [AST_Types.md](AST_Types.md).
 Further, to provide intuitive filters on the AST, there are AST types (covered in [AST_Types.md](AST_Types.md)).
 These are pure PODS that just have the lay members relevant to the type of AST node they represent.  
 Each of them has a Code type alias specific to it.
@ -35,3 +25,20 @@ Again, the simpliest case for these would be a type alias.
 ```cpp
 using struct AST_Typedef CodeTypedef;
 ```
 As of November 21st, 2023, the AST has had a strict layout for how its content is laid out.  
 This will be abandoned during its redesign that will occur starting with support for statments & expressions for either execution and type declarations.  
 Having a strict layout is too resctrictive vs allowing each AST type to have maximum control over the layout.
 The redesign will occur after the following todos are addressed:
 * [Improvements Lexer & Token struct#27](https://github.com/Ed94/gencpp/issues/27)
 * [Generalize AST Flags to a single 4-byte flag#42](https://github.com/Ed94/gencpp/issues/42)
 * [AST-Code Object Redesign.#38](https://github.com/Ed94/gencpp/issues/38)
 * [Code-AST Documentation#40](https://github.com/Ed94/gencpp/issues/40)
 * [AST::debug_str() improvements#33](https://github.com/Ed94/gencpp/issues/33)
 * [AST::is_equal implemented and works with singleheader-test#31](https://github.com/Ed94/gencpp/issues/31)
 * [Parser : Add ability to have a parse failure and continue with errors recorded.#35](https://github.com/Ed94/gencpp/issues/35)
 * [Scanner : Add CodeFile#29](https://github.com/Ed94/gencpp/issues/29)
 * [Auxiliary : AST visual debugger#36](https://github.com/Ed94/gencpp/issues/36)
--- a/docs/AST_Types.md
+++ b/docs/AST_Types.md
@ -19,12 +19,13 @@ These are containers representing a scope body of a definition that can be of th
 Fields:
 ```cpp
-Code         Front;
+Code           Front;
-Code         Back;
+Code           Back;
-Code         Parent;
+parser::Token* Tok;
-StringCached Name;
+Code           Parent;
-CodeT        Type;
+StringCached   Name;
-s32          NumEntries;
+CodeT          Type;
 s32            NumEntries;
 ```
 The `Front` member represents the start of the link list and `Back` the end.
@ -48,12 +49,13 @@ Represent standard or vendor specific C/C++ attributes.
 Fields:
 ```cpp
-StringCached  Content;
+StringCached   Content;
-Code          Prev;
+Code           Prev;
-Code          Next;
+Code           Next;
-Code          Parent;
+parser::Token* Tok;
-StringCached  Name;
+Code           Parent;
-CodeT         Type;
+StringCached   Name;
 CodeT          Type;
 ```
 Serialization:
@ -71,12 +73,13 @@ Stores a comment.
 Fields:
 ```cpp
-StringCached  Content;
+StringCached   Content;
-Code          Prev;
+Code           Prev;
-Code          Next;
+Code           Next;
-Code          Parent;
+parser::Token* Tok;
-StringCached  Name;
+Code           Parent;
-CodeT         Type;
+StringCached   Name;
 CodeT          Type;
 ```
 Serialization:
@ -101,6 +104,7 @@ CodeType       ParentType;
 CodeBody       Body;
 CodeType       Prev;       // Used to store references to interfaces
 CodeType       Next;       // Used to store references to interfaces
 parser::Token* Tok;
 Code           Parent;
 StringCached   Name;
 CodeT          Type;
@ -128,14 +132,16 @@ You'll notice that only one parent type is supported only with parent access. Th
 Fields:
 ```cpp
-CodeComment InlineCmt;  // Only supported by forward declarations
+CodeComment    InlineCmt;  // Only supported by forward declarations
-Code        InitializerList;
+Code           InitializerList;
-CodeParam   Params;
+CodeParam      Params;
-Code        Body;
+Code           Body;
-Code        Prev;
+Code           Prev;
-Code        Next;
+Code           Next;
-Code        Parent;
+parser::Token* Tok;
-CodeT       Type;
+Code           Parent;
 StringCached   Name;
 CodeT          Type;
 ```
 Serialization:
@ -150,6 +156,12 @@ Serialization:
 {
    <Body>
 }
 // Constructor Source Implementation
 <Specs> <Parent>::~<Parent->Name>( <Params> ) <Specs>
 {
    <Body>
 }
 ```
 ## Define
@ -159,12 +171,13 @@ Represents a preprocessor define
 Fields:
 ```cpp
-StringCached  Content;
+StringCached   Content;
-Code          Prev;
+Code           Prev;
-Code          Next;
+Code           Next;
-Code          Parent;
+parser::Token* Tok;
-StringCached  Name;
+Code           Parent;
-CodeT         Type;
+StringCached   Name;
 CodeT          Type;
 ```
 Serialization:
@ -183,7 +196,9 @@ CodeSpecifiers Specs;
 Code           Body;
 Code           Prev;
 Code           Next;
 parser::Token* Tok;
 Code           Parent;
 StringCached   Name;
 CodeT          Type;
 ```
@ -198,6 +213,12 @@ Serialization:
 {
    <Body>
 }
 // Destructor Source Implementation
 <Specs> <Parent>::~<Parent->Name>( <Params> ) <Specs>
 {
    <Body>
 }
 ```
 ## Enum
@ -211,6 +232,7 @@ CodeType       UnderlyingType;
 CodeBody       Body;
 Code           Prev;
 Code           Next;
 parser::Token* Tok;
 Code           Parent;
 StringCached   Name;
 CodeT          Type;
@ -238,12 +260,13 @@ Will be obsolute when function body parsing is implemented.
 Fields:
 ```cpp
-StringCached Content;
+StringCached   Content;
-Code         Prev;
+Code           Prev;
-Code         Next;
+Code           Next;
-Code         Parent;
+parser::Token* Tok;
-StringCached Name;
+Code           Parent;
-CodeT        Type;
+StringCached   Name;
 CodeT          Type;
 ```
 Serialization:
@ -257,12 +280,13 @@ Serialization:
 Fields:
 ```cpp
-CodeBody     Body;
+CodeBody       Body;
-Code         Prev;
+Code           Prev;
-Code         Next;
+Code           Next;
-Code         Parent;
+parser::Token* Tok;
-StringCached Name;
+Code           Parent;
-CodeT        Type;
+StringCached   Name;
 CodeT          Type;
 ```
 Serialization:
@ -279,12 +303,13 @@ extern "<Name>"
 Fields:
 ```cpp
-StringCached Content;
+StringCached   Content;
-Code         Prev;
+Code           Prev;
-Code         Next;
+Code           Next;
-Code         Parent;
+Code           Parent;
-StringCached Name;
+parser::Token* Tok;
-CodeT        Type;
+StringCached   Name;
 CodeT          Type;
 ```
 Serialization:
@ -300,13 +325,14 @@ This library (until its necessary become some third-party library to do otherwis
 Fields:
 ```cpp
-CodeComment  InlineCmt;
+CodeComment    InlineCmt;
-Code         Declaration;
+Code           Declaration;
-Code         Prev;
+Code           Prev;
-Code         Next;
+Code           Next;
-Code         Parent;
+parser::Token* Tok;
-StringCached Name;
+Code           Parent;
-CodeT        Type;
+StringCached   Name;
 CodeT          Type;
 ```
 Serialization:
@ -327,8 +353,9 @@ CodeType       ReturnType;
 CodeParam      Params;
 CodeBody       Body;
 Code           Prev;
 Code           Parent;
 Code           Next;
 parser::Token* Tok;
 Code           Parent;
 StringCached   Name;
 CodeT          Type;
 ModuleFlag     ModuleFlags;
@ -352,12 +379,13 @@ Serialization:
 Fields:
 ```cpp
-Code         Prev;
+Code           Prev;
-Code         Next;
+Code           Next;
-Code         Parent;
+parser::Token* Tok;
-StringCached Name;
+Code           Parent;
-CodeT        Type;
+StringCached   Name;
-ModuleFlag   ModuleFlags;
+CodeT          Type;
 ModuleFlag     ModuleFlags;
 ```
 Serialization:
@ -371,13 +399,14 @@ Serialization:
 Fields:
 ```cpp
-CodeBody     Body;
+CodeBody       Body;
-Code         Prev;
+Code           Prev;
-Code         Next;
+Code           Next;
-Code         Parent;
+parser::Token* Tok;
-StringCached Name;
+Code           Parent;
-CodeT        Type;
+StringCached   Name;
-ModuleFlag   ModuleFlags;
+CodeT          Type;
 ModuleFlag     ModuleFlags;
 ```
 Serialization:
@ -402,6 +431,7 @@ CodeParam      Params;
 CodeBody       Body;
 Code           Prev;
 Code           Next;
 parser::Token* Tok;
 Code           Parent;
 StringCached   Name;
 CodeT          Type;
@ -433,6 +463,7 @@ CodeType       ValueType;
 CodeBody       Body;
 Code           Prev;
 Code           Next;
 parser::Token* Tok;
 Code           Parent;
 StringCached   Name;
 CodeT          Type;
@ -451,25 +482,29 @@ Serialization:
 }
 ```
-## Parameters
+## Parameters (AST_Param)
 Fields:
 ```cpp
-CodeType     ValueType;
+CodeType       ValueType;
-Code         Value;
+Code           Macro;
-CodeParam    Last;
+Code           Value;
-CodeParam    Next;
+CodeParam      Last;
-Code         Parent;
+CodeParam      Next;
-StringCached Name;
+parser::Token* Tok;
-CodeT        Type;
+Code           Parent;
-s32          NumEntries;
+StringCached   Name;
 CodeT          Type;
 s32            NumEntries;
 ```
 Serialization:
 ```cpp
-<ValueType> <Name>, <Next>... <Last>
+<Macro>, <Next> ... <Last>
 <Macro> <ValueType> <Name>, <Next>... <Last>
 ```
 ## Pragma
@ -477,12 +512,13 @@ Serialization:
 Fields:
 ```cpp
-StringCached Content;
+StringCached   Content;
-Code         Prev;
+Code           Prev;
-Code         Next;
+Code           Next;
-Code         Parent;
+parser::Token* Tok;
-StringCached Name;
+Code           Parent;
-CodeT        Type;
+StringCached   Name;
 CodeT          Type;
 ```
 Serialization:
@ -496,12 +532,13 @@ Serialization:
 Fields:
 ```cpp
-StringCached Content;
+StringCached  Content;
-Code         Prev;
+Code          Prev;
-Code         Next;
+Code          Next;
-Code         Parent;
+paser::Token* Tok;
-StringCached Name;
+Code          Parent;
-CodeT        Type;
+StringCached  Name;
 CodeT         Type;
 ```
 Serialization:
@ -515,13 +552,15 @@ Serialization:
 Fields:
 ```cpp
-SpecifierT        ArrSpecs[ AST::ArrSpecs_Cap ];
+SpecifierT     ArrSpecs[ AST_ArrSpecs_Cap ];
-Code              Prev;
+CodeSpecifiers NextSpecs;
-Code              Next;
+Code           Prev;
-Code              Parent;
+Code           Next;
-StringCached      Name;
+parser::Token* Tok;
-CodeT             Type;
+Code           Parent;
-s32               NumEntries;
+StringCached   Name;
 CodeT          Type;
 s32            NumEntries;
 ```
 Serialization:
@ -535,14 +574,15 @@ Serialization:
 Fields:
 ```cpp
-CodeParam    Params;
+CodeParam      Params;
-Code         Declaration;
+Code           Declaration;
-Code         Prev;
+Code           Prev;
-Code         Next;
+Code           Next;
-Code         Parent;
+parser::Token* Tok;
-StringCached Name;
+Code           Parent;
-CodeT        Type;
+StringCached   Name;
-ModuleFlag   ModuleFlags;
+CodeT          Type;
 ModuleFlag     ModuleFlags;
 ```
 Serialization:
@ -567,6 +607,7 @@ CodeParam      Params;
 Code           ArrExpr;
 Code           Prev;
 Code           Next;
 parser::Token* Tok;
 Code           Parent;
 StringCached   Name;
 CodeT          Type;
@ -582,20 +623,21 @@ Serialization:
 ## Typedef
 Behave as usual except function or macro typedefs.  
-Those don't use the underlying type field as everything was serialized under the Name field.
+Those (macros) don't use the underlying type field as everything was serialized under the Name field.
 Fields:
 ```cpp
-CodeComment  InlineCmt;
+CodeComment   InlineCmt;
-Code         UnderlyingType;
+Code          UnderlyingType;
-Code         Prev;
+Code          Prev;
-Code         Next;
+Code          Next;
-Code         Parent;
+parse::Token* Tok
-StringCached Name;
+Code          Parent;
-CodeT        Type;
+StringCached  Name;
-ModuleFlag   ModuleFlags;
+CodeT         Type;
-b32          IsFunction;
+ModuleFlag    ModuleFlags;
 b32           IsFunction;
 ```
 Serialization:
@ -605,7 +647,8 @@ Serialization:
 <ModuleFlags> typedef <UnderlyingType> <Name>; <InlineCmt>
 // Functions
-<ModuleFlags> typedef <Name>; <InlineCmt>
+<ModuleFlags> typedef <ReturnType> <Name>( <Parameters> ); <InlineCmt>
 <ModuleFlags> typedef <ReturnType> ( <Expression that yeilds an Identifier signature> )( <Parameters> ); <InlineCmt>
 ```
 ## Union
@ -617,6 +660,7 @@ CodeAttributes Attributes;
 CodeBody       Body;
 Code           Prev;
 Code           Next;
 parser::Token* Tok;
 Code           Parent;
 StringCached   Name;
 CodeT          Type;
@ -642,6 +686,7 @@ CodeAttributes Attributes;
 CodeType       UnderlyingType;
 Code           Prev;
 Code           Next;
 parser::Token* Tok;
 Code           Parent;
 StringCached   Name;
 CodeT          Type;
@ -660,6 +705,8 @@ Serialization:
 ## Variable
 [Algo](./Parser_Algo.md:)
 Fields:
 ```cpp
@ -669,8 +716,10 @@ CodeSpecifiers Specs;
 CodeType       ValueType;
 Code           BitfieldSize;
 Code           Value;
 CodeVar        NextVar;
 Code           Prev;
 Code           Next;
 parser::Token* Tok;
 Code           Parent;
 StringCached   Name;
 CodeT          Type;
@ -681,8 +730,8 @@ Serialization:
 ```cpp
 // Regular
-<ModuleFlags> <Attributes> <Specs> <ValueType> <Name> = <Value>; <InlineCmt>
+<ModuleFlags> <Attributes> <Specs> <ValueType> <Name> = <Value>, NextVar ...; <InlineCmt>
 // Bitfield
-<ModuleFlags> <Attributes> <Specs> <ValueType> <Name> : <BitfieldSize> = <Value>; <InlineCmt>
+<ModuleFlags> <Attributes> <Specs> <ValueType> <Name> : <BitfieldSize> = <Value>, NextVar ...; <InlineCmt>
 ```
--- a/docs/Parser_Algo.md
+++ b/docs/Parser_Algo.md
@ -1,40 +1,51 @@
 # Parser's Algorithim
-gencpp uses a hand-written recursive descent parser. Both the lexer and parser handle a full C/C++ file in a single pass.
+gencpp uses a hand-written recursive descent parser. Both the lexer and parser currently handle a full C/C++ file in a single pass.
 ## Notable implementation background
 ### Lexer
 The lex procedure does the lexical pass of content provided as a `StrC` type.
-The tokens are stored (for now) in `gen::Parser::Tokens`.
+The tokens are stored (for now) in `gen::parser::Tokens`.
 Fields:
 ```cpp
 Array<Token> Arr;
 s32          Idx;
 ```
 What token types are supported can be found in [ETokType.csv](../project/enums/ETokType.csv) you can also find the token types in [ETokType.h](../project/components/gen/etoktype.cpp) , which is the generated enum from the csv file.
-Tokens are defined with the struct `gen::Parser::Token`:
+Tokens are defined with the struct `gen::parser::Token`:
 Fields:
 ```cpp
 char const* Text;
 sptr        Length;
 TokType     Type;
 s32         Line;
 s32         Column;
-bool 	    IsAssign;
+u32         Flags;
 ```
-`IsAssign` is a flag that is set when the token is an assignment operator. Which is used for various purposes:
+Flags is a bitfield made up of TokFlags (Token Flags):
-* Using statment assignment
+* `TF_Operator` : Any operator token used in expressions
-* Parameter argument default value assignment
+* `TF_Assign`
-* Variable declaration initialization assignment
+  * Using statment assignment
  * Parameter argument default value assignment
  * Variable declaration initialization assignment
 * `TF_Preprocess` : Related to a preprocessing directive
 * `TF_Preprocess_Cond` : A preprocess conditional
 * `TF_Attribute` : An attribute token
 * `TF_AccessSpecifier` : An accesor operation token
 * `TF_Specifier` : One of the specifier tokens
 * `TF_EndDefinition` : Can be interpreted as an end definition for a scope.
 * `TF_Formatting` : Considered a part of the formatting
 * `TF_Literal` : Anything considered a literal by C++.
 I plan to replace IsAssign with a general flags field and properly keep track of all operator types instead of abstracting it away to `ETokType::Operator`.
@ -53,12 +64,12 @@ Traversing the tokens is done with the following interface macros:
 ### Parser
-The parser has a limited user interface, only specific types of definitions or statements are expected to be provided by the user directly when using to construct an AST dynamically (See SOA for example). It however does attempt to provide capability to parse a full C/C++ from production codebases. 
+The parser has a limited user interface, only specific types of definitions or statements are expected to be provided by the user directly when using to construct an AST dynamically (See SOA for example). It however does attempt to provide capability to parse a full C/C++ from production codebases.
 Each public user interface procedure has the following format:
 ```cpp
-CodeStruct parse_<definition type>( StrC def )
+<code type> parse_<definition type>( StrC def )
 {
    check_parse_args( def );
    using namespace Parser;
@ -76,14 +87,616 @@ The most top-level parsing procedure used for C/C++ file parsing is `parse_globa
 It uses a helper procedure called `parse_global_nspace`.
-Each internal procedure will be 
+Each internal procedure will have the following format:
-## parse_global_nspace
+```cpp
 internal
 <code type> parse_<definition_type>( <empty or contextual params> )
 {
    push_scope();
-1. Make sure the type provided to the helper function is a `Namespace_Body`, `Global_Body`, `Export_Body`, `Extern_Linkage_body`.
+    ...
-2. If its not a `Global_Body` eat the opening brace for the scope.
+
-3. 
+    <code type> result = (<code type>) make_code();
    ...
    Context.pop();
    return result;
 }
 ```
 Below is an outline of the general alogirithim used for these internal procedures. The intention is to provide a basic briefing to aid the user in traversing the actual code definitions. These appear in the same order as they are in the `parser.cpp` file
 ***NOTE: This is still heavily in an alpha state. A large swaph of this can change, make sure these docs are up to date before considering them 1:1 with the repo commit your considering.***
 ## `parse_array_decl`
 1. Check if its an array declaration with no expression.
    1. Consume and return empty array declaration
 2. Opening square bracket
 3. Consume expression
 4. Closing square bracket
 5. If adjacent opening bracket
    1. Repeat array declaration parse until no brackets remain
 ## `parse_assignment_expression`
 1. Eat the assignment operator
 2. Make sure there is content or at least an end statement after.
 3. Flatten the assignment expression to an untyped Code string.
 ## `parse_attributes`
 1. Check for standard attribute
 2. Check for GNU attribute
 3. Check for MSVC attribute
 4. Check for a token registered as an attribute
  a. Check and grab the arguments of a token registered of an attribute if it has any.
 5. Repeat for chained attributes. Flatten them to a single attribute AST node.
 ## `parse_class_struct`
 1. Check for export module specifier
 2. class or struct keyword
 3. `parse_attributes`
 4. If identifier : `parse_identifier`
 5. Parse inherited parent or interfaces
 6. If opening curly brace : `parse_class_struct_body`
 7. If not an inplace definition
    1. End statement
    2. Check for inline comment
 ## `parse_class_struct_body`
 1. Opening curly brace
 2. Parse the body (Possible options):
    1. Ignore dangling end statements
    2. Newline : ast constant
    3. Comment : `parse_comment`
    4. Access_Public : ast constant
    5. Access_Protected : ast constant
    6. Access_Private : ast constant
    7. Decl_Class : `parse_complicated_definition`
    8. Decl_Enum : `parse_complicated_definition`
    9. Decl_Friend : `parse_friend`
    10. Decl_Operator : `parse_operator_cast`
    11. Decl_Struct : `parse_complicated_definition`
    12. Decl_Template : `parse_template`
    13. Decl_Typedef : `parse_typedef`
    14. Decl_Union : `parse_complicated_definition`
    15. Decl_Using : `parse_using`
    16. Operator == '~'
        1. `parse_destructor`
    17. Preprocess_Define : `parse_define`
    18. Preprocess_Include : `parse_include`
    19. Preprocess_Conditional (if, ifdef, ifndef, elif, else, endif) : `parse_preprocess_cond` or else/endif ast constant
    20. Preprocess_Macro : `parse_simple_preprocess`
    21. Preprocess_Pragma : `parse_pragma`
    22. Preprocess_Unsupported : `parse_simple_preprocess`
    23. StaticAssert : `parse_static_assert`
    24. The following compound into a resolved definition or declaration:
        1. Attributes (Standard, GNU, MSVC) : `parse_attributes`
        2. Specifiers (consteval, constexpr, constinit, explicit, forceinline, inline, mutable, neverinline, static, volatile, virtual)
        3. Possible Destructor : `parse_destructor`
        4. Possible User defined operator cast : `parse_operator_cast`
        5. Possible Constructor : `parse_constructor`
        6. Something that has the following: (identifier, const, unsigned, signed, short, long, bool, char, int, double)
            1. Possible Constructor `parse_constructor`
            2. Possible Operator, Function, or varaible : `parse_operator_function_or_variable`
    25. Something completely unknown (will just make untyped...) : `parse_untyped`
 ## `parse_comment`
 1. Just wrap the token into a cached string ( the lexer did the processing )
 ## `parse_compilcated_definition`
 This is a helper function used by the following functions to help resolve a declaration or definition:
 * `parse_class_struct_body`
 * `parse_global_nspace`
 * `parse_union`
 A portion of the code in `parse_typedef` is very similar to this as both have to resolve a similar issue.
 1. Look ahead to the termination token (End statement)
 2. Check to see if it fits the pattern for a forward declare
 3. If the previous token was an identifier ( `token[-1]` ):
    1. Look back one more token : `[-2]`
    2. If the token has a closing brace its an inplace definition
    3. If the `token[-2]` is an identifier & `token[-3]` is the declaration type, its a variable using a namespaced type.
    4. If the `token[-2]` is an indirection, then its a variable using a namespaced/forwarded type.
    5. If the `token[-2]` is an assign classifier, and the starting tokens were the which type with possible `class` token after, its an enum forward declaration.
    6. If any of the above is the case, `parse_operator_function_or_variable`
 4. If the `token[2]` is a vendor fundamental type (builtin) then it is an enum forward declaration.
 5. If the previous token was a closing curly brace, its a definition : `parse_forward_or_definition`
 6. If the previous token was a closing square brace, its an array definition : `parse_operator_function_or_variable`
 ## `parse_define`
 1. Define directive
 2. Get identifier
 3. Get Content (Optional)
 ## `parse_forward_or_definition`
 * Parse any of the following for either a forward declaration or definition:
    1. Decl_Class : `parse_class`
    2. Decl_Enum : `parse_enum`
    3. Decl_Struct : `parse_struct`
    4. Decl_Union : `parse_union`
 ## `parse_function_after_name`
 This is needed as a function defintion is not easily resolvable early on, as such this function handles resolving a function
 after its been made ceratin that the type of declaration or definition is indeed for a function signature.
 By the point this function is called the following are known : export module flag, attributes, specifiers, return type, & name
 1. `parse_parameters`
 2. parse postfix specifiers (we do not check if the specifier here is correct or not to be here... yet)
 3. If there is a body : `parse_body`
 4. Otherwise :
     1. Statment end
     2. Check for inline comment
 ## `parse_function_body`
 Currently there is no actual parsing of the function body. Any content with the braces is shoved into an execution AST node.
 In the future statements and expressions will be parsed.
 1. Open curly brace
 2. Grab all tokens between the brace and the closing brace, shove them in a execution AST node.
 3. Closing curly brace
 ## `parse_global_nspace`
 1. Make sure this is being called for a valid type (namespace, global body, export body, linkage body)
 2. If its not a global body, consume the opening curly brace
 3. Parse the body (Possible options):
    1. Ignore dangling end statements
    2. NewLine : ast constant
    3. Comment : `parse_comment`
    4. Decl_Cass : `parse_complicated_definition`
    5. Decl_Enum : `parse_complicated_definition`
    6. Decl_Extern_Linkage : `parse_extern_link`
    7. Decl_Namespace : `parse_namespace`
    8. Decl_Struct : `parse_complicated_definition`
    9. Decl_Template : `parse_template`
    10. Decl_Typedef : `parse_typedef`
    11. Decl_Union : `parse_complicated_definition`
    12. Decl_Using : `parse_using`
    13. Preprocess_Define : `parse_define`
    14. Preprocess_Include : `parse_include`
    15. Preprocess_If, IfDef, IfNotDef, Elif : `parse_preprocess_cond`
    16. Preprocess_Else : ast constant
    17. Preprocess_Endif : ast constant
    18. Preprocess_Macro : `parse_simple_preprocess`
    19. Preprocess_Pragma : `parse_pragma`
    20. Preprocess_Unsupported : `parse_simple_preprocess`
    21. StaticAssert : `parse_static_assert`
    22. Module_Export : `parse_export_body`
    23. Module_Import : NOT_IMPLEMENTED
    24. The following compound into a resolved definition or declaration:
        1. Attributes ( Standard, GNU, MSVC, Macro ) : `parse_attributes`
        2. Specifiers ( consteval, constexpr, constinit, extern, forceinline, global, inline, internal_linkage, neverinline, static )
        3. Is either ( identifier, const specifier, long, short, signed, unsigned, bool, char, double, int)
            1. Attempt to parse as constrcutor or destructor : `parse_global_nspace_constructor_destructor`
            2. If its an operator cast (definition outside class) : `parse_operator_cast`
            3. Its an operator, function, or varaible : `parse_operator_function_or_varaible`
 4. If its not a global body, consume the closing curly brace
 ## `parse_global_nspace_constructor_destructor`
 1. Look ahead for the start of the arguments for a possible constructor/destructor
 2. Go back past the identifier
 3. Check to see if its a destructor by checking for the `~`
 4. Continue the next token should be a `::`
 5. Determine if the next valid identifier (ignoring possible template parameters) is the same as the first identifier of the function.
 6. If it is we have either a constructor or destructor so parse using their respective functions (`parse_constructor`, `parse_destructor`).
 ## `parse_identifier`
 This is going to get heavily changed down the line to have a more broken down "identifier expression" so that the qualifier, template args, etc, can be distinguished between the targeted identifier.  
 The function can parse all of them, however the AST node compresses them all into a string.
 1. Consume first identifier
 2. `parse_template_args`
 3. While there is a static symbol accessor ( `::` )
    1. Consume `::`
    2. Consume member identifier
    3. `parse_template args` (for member identifier)
    4. If a `~` is encounted and the scope is for a destructor's identifier, do not consume it and return with what parsed.
 ## `parse_include`
 1. Consume include directive
 2. Consume the path
 ## `parse_operator_after_ret_type`
 This is needed as a operator defintion is not easily resolvable early on, as such this function handles resolving a operator after its been made ceratin that the type of declaration or definition is indeed for a operator signature.
 By the point this function is called the following are known : export module flag, attributes, specifiers, return type
 1. If there is any qualifiers for the operator, parse them
 2. Consume operator keyword
 3. Determine the operator type (This will be offloaded to the lexer moreso than how it is now) & consume
 4. `parse_params`
 5. If there is no parameters this is operator is a member of pointer if its symbols is a *.
 6. Parse postfix specifiers
 7. If there is a opening curly brace, `parse function_body`
 8. Otherwise: consume end statement, check for inline comment.
 ## `parse_operator_function_or_variable`
 When this function is called, attribute and specifiers may have been resolved, however what comes next can still be either an operator, function, or varaible.
 1. Check for preprocessor macro, if there is one : `parse_simple_preprocess`
 2. `parse_type` (Does the bulk of the work)
 3. Begin lookahead to see if we get qualifiers or we eventually find the operator declaration
 4. If we find an operator keyword : `parse_operator_after_ret_type`
 5. otherwise :
    1. `parse_identifier`
    2. If we se a opening parenthesis (capture start), its a function : `parse_function_after_name`
    3. Its a variable : `parse_variable_after_name`
 ## `parse_pragma`
 1. Consume pragma directive
 2. Process the token content into cached string
 ## `parse_params`
 1. Consume either a `(` or `<` based on `use_template_capture` arg
 2. If the we immdiately find a closing token, consume it and finish.
 3. If we encounter a varadic argument, consume it and return a `param_varadic` ast constant
 4. `parse_type`
 5. If we have a macro, parse it (Unreal has macros as tags to parameters and or as entire arguments).
 6. So long as next token isn't a comma
  a. If we have an identifier
    1. Consume it
    2. Check for assignment:
      a. Consume assign operator
      b. Parse the expression
 7. While we continue to encounter commas
    a. Consume them
    b. Repeat steps 3 to 6.2.b
 8. Consume the closing token
 ## `parse_preprocess_cond`
 1. Parse conditional directive
 2. Process directive's content expression
 ## `parse_simple_preprocess`
 There is still decent room for improvement in this setup. Right now the entire macro's relevant tokens are shoved into an untyped AST. It would be better to store it instead in an `AST_Macro` node instead down the line.
 1. Consume the macro token
 2. Check for an opening curly brace
    1. Consume opening curly brace
    2. Until the closing curly is encountered consume all tokens.
    3. If the parent context is a typedef
        1. Check for end stement
            1. Consume it
            2. Consume potential inline comment
 3. Otherwise do steps 3 to 3.1.2
 4. Shove it all in an untyped string
 ## `parse_static_assert`
 1. Consume static assert and opening curly brace
 2. Consume all tokens until the the closing brace is reached.
 3. Consume curly brace and end statement
 4. Place all tokens within braces into a content for the assert.
 ## `parse_template_args`
 This will get changed heavily once we have better support for typename expressions
 1. Consume opening angle bracket
 2. Consume all tokens until closing angle bracket
 3. Consme closing angle bracket
 4. Return the currtok with the ammended length.
 ## `parse_variable_after_name`
 This is needed as a variable defintion is not easily resolvable early on, it takes a long evaluation period before its known that the declaration or definition is a variable. As such this function handles resolving a variable.
 By the point this function is called the following are known : export module flag, attributes, specifiers, value type, name
 1. If its an assignment, parse the assignment expression (currently to an untyped string)
 2. If its an opening curly brace, parse the expression within (currnelty to an untyped stirng).
    1. Consume the closing curly brace
 3. If its a `:`, we're dealing with bitfield definition:
    1. Consume the assign classifier
    2. Consume the expression (currently to an untyped string)
 4. If a comma is encountered : `parse_variable declaration_list`
 5. Consume statement end
 6. Check for inline comment
 ## `parse_variable_declaration_list`
 1. Consume the comma
 2. Parse specifiers
 3. `parse_variable_after_name`
 ## `parse_class`
 1. `parse_class_struct`
 ## `parse_constructor`
 This currently doesn't support postfix specifiers (planning to in the future)
 1. `parse_identifier`
 2. `parse_parameters`
 3. If currtok is a `:`
    1. Consume `:`
    2. Parse the initializer list
    3. `parse_function_body`
 4. If currtok is an opening curly brace
    1. `parse_function_body`
 5. Otherwise:
    1. Consume statement end
    2. Check for inline comment
 ## `parse_destructor`
 1. Check for and consume virtual specifier
 2. Check for the `~` operator
 3. `parse_identifier`
 4. Consume opening and closing parenthesis
 5. Check for assignment operator:
    1. Consume assignment op
    2. Consume pure specifier `0`
 6. If not pure virtual & currtok is opening curly brace:
    1. `parse_function_body`
 7. Otherwise:
    1. Consume end statement
    2. If currtok is comment : `parse_comment`
 ## `parse_enum`
 1. Consume enum token
 2. Check for and consume class token
 3. `parse_attributes`
 4. If there is an identifier consume it
 5. Check for a `:`
    1. Consume `:`
    2. `parse_type`
 6. If there is a body parse it (Consume `{`):
    1. Newline : ast constant
    2. Comment : `parse_comment`
    3. Preprocess_Define : `parse_define`
    4. Preprocess_Conditional (if, ifdef, ifndef, elif ) : `parse_preprocess_cond`
    5. Preprocess_Else : ast constant
    6. Preprocess_Endif : ast constant
    7. Preprocess_Macro : `parse_simple_preprocess`
    8. Preprocess_Pragma : `parse_pragma`
    9. Preprocess_Unsupported : `parse_smple_preprocess`
    10. An actual enum entry
        1. Consume identifier
        2. If there is an assignment operator:
            1. Consume operator
            2. Consume the expression (assigned to untyped string for now)
            3. If a macro is encountered consume it (Unreal UMETA macro support)
        3. If there is a comma, consume it
 ## `parse_export_body`
 1. `parse_global_nspace`
 ## `parse_extern_link_body`
 1. `parse_global_nspace`
 ## `parse_extern_link`
 1. Consume Decl_Extern_Linkage
 2. Consume the linkage identifier
 3. `parse_extern_link_body`
 ## `parse_friend`
 1. Consume `friend`
 2. `parse_type`
 3. If the currok is an identifier its a function declaration or definition
   1. `parse_function_after_name`
 4. Consume end statement so long as its not a function definion
 5. Check for inline comment, `parse_comment` if exists
 ## `parse_function`
 1. Check and parse for `export`
 2. `parse_attributes`
 3. Parse specifiers
 4. `parse_type`
 5. `parse_identifier`
 6. `parse_function_after_name`
 ## `parse_namespace`
 1. Consume namespace declaration
 2. Parse identifier
 3. `parse_global_namespace`
 ## `parse_operator`
 1. Check for and parse export declaration
 2. `parse_attributes`
 3. Parse specifiers
 4. `parse_type`
 5. `parse_operator_after_ret_type`
 ## `parse_operator_cast`
 1. Look for and parse a qualifier namespace for the cast (in-case this is defined outside the class's scope)
 2. Consume operator declaration
 3. `parse_type`
 4. Consume opening and closing parethesis
 5. Check for a const qualifiying specifier
 6. Check to see if this is a definition (`{`)
    1. Consume `{`
    2. Parse body to untyped string (parsing statement and expressions not supported yet)
    3. Consume `}`
 7. Otherwise:
    1. Consume end statement
    2. Check for and consume comment : `parse_comment`
-## parse_type
+## `parse_struct`
 1. `parse_class_struct`
 ## `parse_template`
 Note: This currently doesn't support templated operator casts (going to need to add support for it)
 1. Check for and parse export declaration
 2. Consume template declaration
 3. `parse_params`
 4. Parse for any of the following:
   1. Decl_Class : `parse_class`
   2. Decl_Struct : `parse_struct`
   3. Decl_Union : `parse_union`
   4. Decl_Using : `parse_using`
   5. The following compound into a resolved definition or declaration:
       1. `parse_attributes`
       2. Parse specifiers
       3. Attempt to parse as constructor or destructor: `parse_global_nspace_constructor_destructor`
       4. Otherwise: `parse_operator_function_or_variable`
 ## `parse_type`
 This function's implementation is awful and not done correctly. It will most likely be overhauled in the future as I plan to segement the AST_Type into several AST varaints along with sub-types to help produce robust type expressions.  
 Hopefully I won't need to make authentic type expressions as I was hopeing to avoid that...
 ### Current Algorithim
 Anything that is in the qualifier capture of the function typename is treated as an expression abstracted as an untyped string
 1. `parse_attributes`
 2. Parse specifiers
 3. If the `parse_type` was called from a template parse, check to see if class was used instead of typname and consume as name.
 4. This is where things get ugly for each of these depend on what the next token is.
    1. If its an in-place definition of a class, enum, struct, or union:
    2. If its a decltype (Not supported yet but draft impl there)
    3. If its a compound native type expression (unsigned, char, short, long, int, float, dobule, etc )
    4. Ends up being a regular type alias of an identifier
 5. Parse specifiers (postfix)
 6. We need to now look ahead to see If we're dealing with a function typename
 7. If wer're dealing with a function typename:
    1. Shove the specifiers, and identifier code we have so far into a return type typename's Name (untyped string)
        1. Reset the specifiers code for the top-level typeanme
    2. Check to see if the next token is an identifier:
        1. `parse_identifier`
    3. Check to see if the next token is capture start and is not the last capture ("qualifier capture"):
        1. Consume `(`
        2. Consume expresssion between capture
        3. Consume `)`
    4. `parse_params`
    5. Parse postfix specifiers
 8. Check for varaidic argument (param pack) token:
   1. Consume varadic argument token
 ### WIP - Alternative Algorithim
 Currently wrapped up via macro: `GEN_USE_NEW_TYPENAME_PARSING`
 Anything that is in the qualifier capture of the function typename is treated as an expression abstracted as an untyped string
 1. `parse_attributes`
 2. Parse specifiers (prefix)
 3. This is where things get ugly for each of these depend on what the next token is.
    1. If its an in-place definition of a class, enum, struct, or union:
    2. If its a decltype (Not supported yet but draft impl there)
    3. If its a compound native type expression (unsigned, char, short, long, int, float, dobule, etc )
    4. Ends up being a regular type alias of an identifier
 4. Parse specifiers (postfix)
    1. If any specifiers are found populate specifiers code with them.
 5. We need to now look ahead to see If we're dealing with a function typename
 6. If wer're dealing with a function typename:
    1. Shove the specifiers, and identifier code we have so far into a return type typename's Name (untyped string)
        1. Reset the specifiers code for the top-level typename
    2. Check to see if the next token is an identifier:
        1. `parse_identifier`
    3. Check to see if the next token is capture start and is not the last capture ("qualifier capture"):
        1. Consume `(`
        2. Parse binding specifiers
        3. `parse_identifier`
        4. `parse_parameters` -> params_nested
        5. Consume `)`
        6. Construct a nested function typename definition for the qualifier `Name`
    4. `parse_params` - > params
    5. Parse postfix specifiers
 7. Check for varaidic argument (param pack) token:
   1. Consume varadic argument token
 ### **Later: Algorithim based on typename expressions**
 ## `parse_typedef`
 1. Check for export module specifier
 2. typedef keyword
 3. If its a preprocess macro: Get the macro name
 4. Else:
   1. Check to see if its a complicated definition (in-place enum, class, struct, union)
   2. If its a complicated definition:
       1. Perform the look ahead similar to `parse_complicated_definition`'s implementation
       2. Check to see if its a forward declaration : `parse_forward_declaration`
       3. If end[-1] is an identifier:
           1. Its either an in-place, varaible type qualified identifier, or indirection type:
              1. `parse_foward_or_definition`
       4. else if end[-1] is a closing curly brace
           1. Its a definition: `parse_forward_or_definition`
       5. else if end[-1] is a closing square brace
           2. Its an array definition: `parse_type`
   3. Else : `parse-type`
   4. Check for identifier : Consume the token
   5. `parse_array_decl`
 5. Consume end statement
 6. Check for inline comment : `parse_comment`
 ## `parse_union`
 1. Check for export module specifier
 2. union keyword
 3. `parse_attributes`
 4. Check for identifier
 5. Parse the body (Possible options):
    1. Newline
    2. Comment
    3. Decl_Class
    4. Decl_Enum
    5. Decl_Struct
    6. Decl_Union
    7. Preprocess_Define
    8. Preprocess_Conditional (if, ifdef, ifndef, elif, else, endif)
    9. Preprocess_Macro
    10. Preprocess_Pragma
    11. Unsupported preprocess directive
    12. Variable
 6. If its not an inplace definiton: End Statement
 ## `parse_using`
 1. Check for export module specifier
 2. using keyword
 3. Check to see if its a using namespace
 4. Get the identifier
 5. If its a regular using declaration:
    1. `parse_attributes`
    2. `parse_type`
    3. `parse_array_decl`
 6. End statement
 7. Check for inline comment
 ## `parse_variable`
 1. Check for export module specifier
 2. `parse_attributes`
 3. `parse specifiers`
 4. `parse_type`
 5. `parse_identifier`
 6. `parse_variable_after_name`
--- a/docs/Parsing.md
+++ b/docs/Parsing.md
@ -2,7 +2,7 @@
 The library features a naive parser tailored for only what the library needs to construct the supported syntax of C++ into its AST.
-This parser does not, and should not do the compiler's job. By only supporting this minimal set of features, the parser is kept (so far) around 5500 loc. I hope to keep it under 10k loc worst case.
+This parser does not, and should not do the compiler's job. By only supporting this minimal set of features, the parser is kept (so far) around ~5600 loc. I hope to keep it under 10k loc worst case.
 You can think of this parser of a frontend parser vs a semantic parser. Its intuitively similar to WYSIWYG. What you precerive as the syntax from the user-side before the compiler gets a hold of it, is what you get.
@ -73,7 +73,7 @@ The lexing and parsing takes shortcuts from whats expected in the standard.
 * The parse API treats any execution scope definitions with no validation and are turned into untyped Code ASTs.
  * *This includes the assignment of variables.*
 * Attributes ( `[[]]` (standard), `__declspec` (Microsoft), or `__attribute__` (GNU) )
-  * Assumed to *come before specifiers* (`const`, `constexpr`, `extern`, `static`, etc) for a function
+  * Assumed to *come before specifiers* (`const`, `constexpr`, `extern`, `static`, etc) for a function or right afterthe return type.
  * Or in the usual spot for class, structs, (*right after the declaration keyword*)
  * typedefs have attributes with the type (`parse_type`)
 * Parsing attributes can be extended to support user defined macros by defining `GEN_DEFINE_ATTRIBUTE_TOKENS` (see `gen.hpp` for the formatting)
--- a/docs/Readme.md
+++ b/docs/Readme.md
@ -25,6 +25,8 @@ This library was written in a subset of C++ where the following are not used at
 * Exceptions
 Polymorphic & Member-functions are used as an ergonomic choice, along with a conserative use of operator overloads.  
 The base library itself does not use anything but C-like features to allow for generating a derviative compatiable with C (WIP).
 There are only 4 template definitions in the entire library. (`Array<Type>`, `Hashtable<Type>`, `swap<Type>`, and `AST/Code::cast<Type>`)
 Two generic templated containers are used throughout the library:
@ -65,7 +67,7 @@ As mentioned in root readme, the user is provided Code objects by calling the co
 The AST is managed by the library and provided to the user via its interface.  
 However, the user may specifiy memory configuration.
-Data layout of AST struct:
+Data layout of AST struct (Subject to heavily change with upcoming redesign):
 ```cpp
 union {
@ -82,6 +84,7 @@ union {
            AST*  ValueType;       // Parameter, Variable
        };
        union {
            AST*  Macro;           // Parameters
            AST*  BitfieldSize;    // Variable (Class/Struct Data Member)
            AST*  Params;          // Constructor, Function, Operator, Template, Typename
        };
@ -98,7 +101,7 @@ union {
    };
    StringCached  Content;          // Attributes, Comment, Execution, Include
    struct {
-        SpecifierT ArrSpecs[AST::ArrSpecs_Cap]; // Specifiers
+        SpecifierT ArrSpecs[AST_ArrSpecs_Cap]; // Specifiers
        AST*       NextSpecs;                   // Specifiers
    };
 };
@ -135,7 +138,7 @@ The width dictates how much the static array can hold before it must give way to
 ```cpp
 constexpr static
-uw ArrSpecs_Cap =
+usize ArrSpecs_Cap =
 (
    AST_POD_Size
    - sizeof(AST*) * 3
@ -157,7 +160,7 @@ Data Notes:
  * Most of the work is just defining the allocation procedure:
 ```cpp
-    void* ( void* allocator_data, AllocType type, sw size, sw alignment, void* old_memory, sw old_size, u64 flags );
+    void* ( void* allocator_data, AllocType type, ssize size, ssize alignment, void* old_memory, ssize old_size, u64 flags );
 ```
 * ASTs are wrapped for the user in a Code struct which is a wrapper for a AST* type.
@ -461,6 +464,7 @@ The AST and constructors will be able to validate that the arguments provided fo
 * If return type must match a parameter
 * If number of parameters is correct
 * If added as a member symbol to a class or struct, that operator matches the requirements for the class (types match up)
 * There is no support for validating new & delete operations (yet)
 The user is responsible for making sure the code types provided are correct
 and have the desired specifiers assigned to them beforehand.
--- a/gen_c_library/c_library.cpp
+++ b/gen_c_library/c_library.cpp
@ -0,0 +1,398 @@
 #define GEN_DEFINE_LIBRARY_CODE_CONSTANTS
 #define GEN_ENFORCE_STRONG_CODE_TYPES
 #define GEN_EXPOSE_BACKEND
 #define GEN_SUPPORT_CPP_MEMBER_FEATURES 1
 #define GEN_SUPPORT_CPP_REFERENCES      1
 #include "../project/gen.cpp"
 #include "helpers/push_ignores.inline.hpp"
 #include "helpers/helper.hpp"
 GEN_NS_BEGIN
 #include "dependencies/parsing.cpp"
 GEN_NS_END
 #include "auxillary/builder.hpp"
 #include "auxillary/builder.cpp"
 #include "auxillary/scanner.hpp"
 #include <cstdlib>   // for system()
 #include "components/memory.fixed_arena.hpp"
 #include "components/misc.hpp"
 #include "components/containers.array.hpp"
 #include "components/containers.hashtable.hpp"
 using namespace gen;
 constexpr char const* generation_notice =
 "// This file was generated automatially by gencpp's c_library.cpp"
 "(See: https://github.com/Ed94/gencpp)\n\n";
 constexpr StrC roll_own_dependencies_guard_start = txt(R"(
 //! If its desired to roll your own dependencies, define GEN_ROLL_OWN_DEPENDENCIES before including this file.
 // Dependencies are derived from the c-zpl library: https://github.com/zpl-c/zpl
 #ifndef GEN_ROLL_OWN_DEPENDENCIES
 )");
 constexpr StrC roll_own_dependencies_guard_end = txt(R"(
 // GEN_ROLL_OWN_DEPENDENCIES
 #endif
 )");
 constexpr StrC implementation_guard_start = txt(R"(
 #pragma region GENCPP IMPLEMENTATION GUARD
 #if defined(GEN_IMPLEMENTATION) && ! defined(GEN_IMPLEMENTED)
 #	define GEN_IMPLEMENTED
 )");
 constexpr StrC implementation_guard_end = txt(R"(
 #endif
 #pragma endregion GENCPP IMPLEMENTATION GUARD
 )");
 void format_file( char const* path )
 {
 	String resolved_path = String::make(GlobalAllocator, to_str(path));
 	String style_arg = String::make(GlobalAllocator, txt("-style=file:"));
 	style_arg.append("../scripts/.clang-format ");
 	// Need to execute clang format on the generated file to get it to match the original.
 	#define clang_format      "clang-format "
 	#define cf_format_inplace "-i "
 	#define cf_verbose        "-verbose "
 	String command = String::make( GlobalAllocator, clang_format );
 	command.append( cf_format_inplace );
 	command.append( cf_verbose );
 	command.append( style_arg );
 	command.append( resolved_path );
 		log_fmt("\tRunning clang-format on file:\n");
 		system( command );
 		log_fmt("\tclang-format finished reformatting.\n");
 	#undef cf_cmd
 	#undef cf_format_inplace
 	#undef cf_style
 	#undef cf_verbse
 }
 Code dump_to_scratch_and_retireve( Code code )
 {
 	Builder ecode_file_temp = Builder::open("gen/scratch.hpp");
 	ecode_file_temp.print(code);
 	ecode_file_temp.write();
 	format_file("gen/scratch.hpp");
 	Code result = scan_file( "gen/scratch.hpp" );
 	remove("gen/scratch.hpp");
 	return result;
 }
 CodeBody parse_file( const char* path )
 {
 	FileContents file = file_read_contents( GlobalAllocator, true, path );
 	CodeBody     code = parse_global_body( { file.size, (char const*)file.data } );
 	log_fmt("\nParsed: %s\n", path);
 	return code;
 }
 int gen_main()
 {
 #define project_dir "../project/"
 	gen::init();
 	Code push_ignores           = scan_file( project_dir "helpers/push_ignores.inline.hpp" );
 	Code pop_ignores            = scan_file( project_dir "helpers/pop_ignores.inline.hpp" );
 	Code c_library_header_start = scan_file( "components/header_start.hpp" );
 	Builder
 	header = Builder::open( "gen/gen.h" );
 	header.print_fmt( generation_notice );
 	header.print_fmt("#pragma once\n\n");
 	header.print( push_ignores );
 	// Headers
 	{
 		header.print( c_library_header_start );
 		Code platform     = scan_file( project_dir "dependencies/platform.hpp" );
 		Code macros       = scan_file( project_dir "dependencies/macros.hpp" );
 		Code basic_types  = scan_file( project_dir "dependencies/basic_types.hpp" );
 		Code debug        = scan_file( project_dir "dependencies/debug.hpp" );
 		header.print_fmt( roll_own_dependencies_guard_start );
 		header.print( platform );
 		header.print_fmt( "\nGEN_NS_BEGIN\n" );
 		header.print( macros );
 		header.print( basic_types );
 		header.print( debug );
 		CodeBody parsed_memory = parse_file( project_dir "dependencies/memory.hpp" );
 		CodeBody memory        = def_body(ECode::Global_Body);
 		for ( Code entry = parsed_memory.begin(); entry != parsed_memory.end(); ++ entry )
 		{
 			switch (entry->Type)
 			{
 				case ECode::Using:
 				{
 					log_fmt("REPLACE THIS MANUALLY: %S\n", entry->Name);
 					CodeUsing   using_ver   = cast(CodeUsing, entry);
 					CodeTypedef typedef_ver = def_typedef(using_ver->Name, using_ver->UnderlyingType);
 					memory.append(typedef_ver);
 				}
 				break;
 				case ECode::Function_Fwd:
 				{
 					CodeFn fn = cast(CodeFn, entry);
 					if ( fn->Name.is_equal(txt("free")) )
 					{
 						fn->Name = get_cached_string(txt("gen_free_ptr"));
 					}
 					memory.append(entry);
 				}
 				break;
 				case ECode::Function:
 				{
 					CodeFn fn = cast(CodeFn, entry);
 					s32 constexpr_found = fn->Specs.remove( ESpecifier::Constexpr );
 					if (constexpr_found > -1) {
 						log_fmt("Found constexpr: %S\n", entry->to_string());
 						fn->Specs.append(ESpecifier::Inline);
 					}
 					if ( fn->Name.is_equal(txt("free")) )
 					{
 						fn->Name = get_cached_string(txt("gen_free_ptr"));
 					}
 					memory.append(entry);
 				}
 				break;
 				case ECode::Template:
 				{
 					CodeTemplate tmpl = cast(CodeTemplate, entry);
 					if ( tmpl->Declaration->Name.contains(txt("swap")))
 					{
 						CodeBody macro_swap = parse_global_body( txt(R"(
 #define swap( a, b )              \
 	do                            \
 	{                             \
 		typeof( a ) temp = ( a ); \
 		( a )            = ( b ); \
 		( b )            = temp;  \
 	} while ( 0 )
 )"
 						));
 						memory.append(macro_swap);
 					}
 				}
 				break;
 				case ECode::Class:
 				case ECode::Struct:
 				{
 					CodeBody body     = entry->Body->operator CodeBody();
 					CodeBody new_body = def_body( entry->Body->Type );
 					for ( Code body_entry = body.begin(); body_entry != body.end(); ++ body_entry ) switch
 					(body_entry->Type) {
 						case ECode::Preprocess_If:
 						{
 							ignore_preprocess_cond_block(txt("GEN_SUPPORT_CPP_MEMBER_FEATURES"), body_entry, body );
 						}
 						break;
 						default:
 							new_body.append(body_entry);
 						break;
 					}
 					entry->Body = rcast(AST*, new_body.ast);
 					memory.append(entry);
 				}
 				break;
 				case ECode::Preprocess_If:
 				{
 					b32 found = ignore_preprocess_cond_block(txt("GEN_SUPPORT_CPP_MEMBER_FEATURES"), entry, parsed_memory );
 					if (found) break;
 					memory.append(entry);
 				}
 				break;
 				case ECode::Preprocess_IfDef:
 				{
 					b32 found = ignore_preprocess_cond_block(txt("GEN_INTELLISENSE_DIRECTIVES"), entry, parsed_memory );
 					if (found) break;
 					memory.append(entry);
 				}
 				break;
 				case ECode::Preprocess_Pragma:
 				{
 					b32 found = swap_pragma_region_implementation( txt("FixedArena"), gen_fixed_arenas, entry, memory);
 					if (found) break;
 					memory.append(entry);
 				}
 				break;
 				default: {
 					memory.append(entry);
 				}
 				break;
 			}
 		}
 		header.print( dump_to_scratch_and_retireve(memory) );
 		Code string_ops = scan_file( project_dir "dependencies/string_ops.hpp" );
 		header.print( string_ops );
 		CodeBody printing_parsed = parse_file( project_dir "dependencies/printing.hpp" );
 		CodeBody printing        = def_body(ECode::Global_Body);
 		for ( Code entry = printing_parsed.begin(); entry != printing_parsed.end(); ++ entry )
 		{
 			switch (entry->Type)
 			{
 				case ECode::Preprocess_IfDef:
 				{
 					b32 found = ignore_preprocess_cond_block(txt("GEN_INTELLISENSE_DIRECTIVES"), entry, printing_parsed );
 					if (found) break;
 					printing.append(entry);
 				}
 				break;
 				case ECode::Variable:
 				{
 					if (contains(entry->Name, txt("Msg_Invalid_Value")))
 					{
 						CodeDefine define = def_define(entry->Name, entry->Value->Content);
 						printing.append(define);
 						continue;
 					}
 					printing.append(entry);
 				}
 				break;
 				default:
 					printing.append(entry);
 				break;
 			}
 		}
 		header.print(dump_to_scratch_and_retireve(printing));
 		CodeBody containers = def_body(ECode::Global_Body);
 		{
 			containers.append( def_pragma(code(region Containers)));
 			containers.append( gen_array_base() );
 			containers.append( gen_hashtable_base() );
 			containers.append( def_pragma(code(endregion Containers)));
 		}
 		header.print(fmt_newline);
 		header.print(dump_to_scratch_and_retireve(containers));
 		Code hashing = scan_file( project_dir "dependencies/hashing.hpp" );
 		header.print( hashing );
 		CodeBody parsed_strings = parse_file( project_dir "dependencies/strings.hpp" );
 		CodeBody strings        = def_body(ECode::Global_Body);
 		for ( Code entry = parsed_strings.begin(); entry != parsed_strings.end(); ++ entry )
 		{
 			switch (entry->Type)
 			{
 				case ECode::Preprocess_If:
 				{
 					ignore_preprocess_cond_block(txt("! GEN_COMPILER_C"), entry, parsed_strings);
 				}
 				break;
 				case ECode::Preprocess_IfDef:
 				{
 					ignore_preprocess_cond_block(txt("GEN_INTELLISENSE_DIRECTIVES"), entry, parsed_strings );
 				}
 				break;
 				case ECode::Struct_Fwd:
 				{
 					if ( entry->Name.is_equal(txt("String")) )
 					{
 						CodeTypedef c_def = parse_typedef(code( typedef char* String; ));
 						strings.append(c_def);
 						strings.append(fmt_newline);
 						++ entry;
 						continue;
 					}
 					strings.append(entry);
 				}
 				break;
 				case ECode::Struct:
 				{
 					CodeBody body     = entry->Body->operator CodeBody();
 					CodeBody new_body = def_body( entry->Body->Type );
 					for ( Code body_entry = body.begin(); body_entry != body.end(); ++ body_entry ) switch
 					(body_entry->Type) {
 						case ECode::Preprocess_If:
 						{
 							b32 found = ignore_preprocess_cond_block(txt("! GEN_COMPILER_C"), body_entry, body );
 							if (found) break;
 							new_body.append(body_entry);
 						}
 						break;
 						default:
 							new_body.append(body_entry);
 						break;
 					}
 					entry->Body = rcast(AST*, new_body.ast);
 					strings.append(entry);
 				}
 				break;
 				default:
 					strings.append(entry);
 				break;
 			}
 		}
 		header.print(dump_to_scratch_and_retireve(strings));
 		Code filesystem = scan_file( project_dir "dependencies/filesystem.hpp" );
 		Code timing = scan_file( project_dir "dependencies/timing.hpp" );
 		// header.print( filesystem );
 		// header.print( timing );
 		header.print_fmt( "\nGEN_NS_END\n" );
 		header.print_fmt( roll_own_dependencies_guard_end );
 		Code types      = scan_file( project_dir "components/types.hpp" );
 		Code ast        = scan_file( project_dir "components/ast.hpp" );
 		Code ast_types  = scan_file( project_dir "components/ast_types.hpp" );
 		Code code_types = scan_file( project_dir "components/code_types.hpp" );
 		Code interface  = scan_file( project_dir "components/interface.hpp" );
 		Code inlines 	= scan_file( project_dir "components/inlines.hpp" );
 		Code header_end = scan_file( project_dir "components/header_end.hpp" );
 		CodeBody ecode       = gen_ecode     ( project_dir "enums/ECode.csv" );
 		CodeBody eoperator   = gen_eoperator ( project_dir "enums/EOperator.csv" );
 		CodeBody especifier  = gen_especifier( project_dir "enums/ESpecifier.csv" );
 		CodeBody ast_inlines = gen_ast_inlines();
 #if 0
 		header.print_fmt("#pragma region Types\n");
 		header.print( types );
 		header.print( fmt_newline );
 		header.print( dump_to_scratch_and_retireve( ecode ));
 		header.print( fmt_newline );
 		header.print( dump_to_scratch_and_retireve( eoperator ));
 		header.print( fmt_newline );
 		header.print( dump_to_scratch_and_retireve( especifier ));
 		header.print( fmt_newline );
 		header.print_fmt("#pragma endregion Types\n\n");
 	#endif
 	}
 	header.print( pop_ignores );
 	header.write();
 	// format_file( "gen/gen.h" );
 	gen::deinit();
 	return 0;
 #undef project_dir
 }
--- a/gen_c_library/components/containers.array.hpp
+++ b/gen_c_library/components/containers.array.hpp
@ -0,0 +1,295 @@
 #pragma once
 #include "../project/gen.hpp"
 using namespace gen;
 CodeBody gen_array_base()
 {
 	CodeTypedef td_header = parse_typedef( code( typedef struct ArrayHeader ArrayHeader; ));
 	CodeStruct  header    = parse_struct( code(
 		struct ArrayHeader
 		{
 			AllocatorInfo Allocator;
 			usize         Capacity;
 			usize         Num;
 		};
 	));
 	// Code grow_formula = untyped_str( txt( "#define gen_array_grow_formula( value ) ( 2 * value + 8 )\n" ));
 	Code get_header   = untyped_str( txt( "#define array_get_header( Type, self ) ( (ArrayHeader*)( self ) - 1)\n" ));
 	return def_global_body( args( fmt_newline, td_header, header, get_header, fmt_newline ) );
 };
 CodeBody gen_array( StrC type, StrC array_name )
 {
 	String array_type = String::fmt_buf( GlobalAllocator, "%.*s", array_name.Len, array_name.Ptr );
 	String fn         = String::fmt_buf( GlobalAllocator, "%.*s", array_name.Len, array_name.Ptr );
 	str_to_lower(fn.Data);
 #pragma push_macro( "GEN_ASSERT" )
 #undef GEN_ASSERT
 	CodeBody result = parse_global_body( token_fmt( "array_type", (StrC)array_type, "fn", (StrC)fn, "type", (StrC)type
 	, stringize(
 		typedef <type>* <array_type>;
 		<array_type> <fn>_init           ( AllocatorInfo allocator );
 		<array_type> <fn>_init_reserve   ( AllocatorInfo allocator, usize capacity );
 		bool         <fn>_append         ( <array_type>*  self, <type> value );
 		bool         <fn>_append_items   ( <array_type>*  self, <type>* items, usize item_num );
 		bool         <fn>_append_at      ( <array_type>*  self, <type> item, usize idx );
 		bool         <fn>_append_items_at( <array_type>*  self, <type>* items, usize item_num, usize idx );
 		<type>*      <fn>_back           ( <array_type>  self );
 		void         <fn>_clear          ( <array_type>  self );
 		bool         <fn>_fill		     ( <array_type>  self, usize begin, usize end, <type> value );
 		void         <fn>_free           ( <array_type>  self );
 		bool         <fn>_grow           ( <array_type>* self, usize min_capacity );
 		usize        <fn>_num            ( <array_type>  self );
 		<type>       <fn>_pop 	         ( <array_type>  self );
 		bool         <fn>_reserve        ( <array_type>* self, usize new_capacity );
 		bool         <fn>_resize         ( <array_type>* self, usize num );
 		bool         <fn>_set_capacity   ( <array_type>* self, usize new_capacity );
 		<array_type> <fn>_init( AllocatorInfo allocator )
 		{
 			return <fn>_init_reserve( allocator, array_grow_formula( 0 ) );
 		}
 		<array_type> <fn>_init_reserve( AllocatorInfo allocator, usize capacity )
 		{
 			ArrayHeader* header = cast(ArrayHeader*, alloc( allocator, sizeof(ArrayHeader) + sizeof(<type>) * capacity ) );
 			if ( header == NULL )
 				return NULL;
 			header->Allocator = allocator;
 			header->Capacity  = capacity;
 			header->Num       = 0;
 			return cast( <type>*, header + 1 );
 		}
 		bool <fn>_append( <array_type>* self, <type> value )
 		{
 			ArrayHeader* header = get_header( * self );
 			if ( header->Num == header->Capacity )
 			{
 				if ( ! <fn>_grow( self, header->Capacity))
 					return false;
 				header = get_header( * self );
 			}
 			(* self)[ header->Num ] = value;
 			header->Num++;
 			return true;
 		}
 		bool <fn>_append_items( <array_type>* self, <type>* items, usize item_num )
 		{
 			ArrayHeader* header = get_header( * self );
 			if ( header->Num + item_num > header->Capacity )
 			{
 				if ( ! <fn>_grow( self, header->Capacity + item_num ))
 					return false;
 				header = get_header( * self );
 			}
 			mem_copy( (* self) + header->Num, items, sizeof(<type>) * item_num );
 			header->Num += item_num;
 			return true;
 		}
 		bool <fn>_append_at( <array_type>* self, <type> item, usize idx )
 		{
 			ArrayHeader* header = get_header( * self );
 			if ( idx >= header->Num )
 				idx = header->Num - 1;
 			if ( idx < 0 )
 				idx = 0;
 			if ( header->Capacity < header->Num + 1 )
 			{
 				if ( ! <fn>_grow( self, header->Capacity + 1 ) )
 					return false;
 				header = get_header( * self );
 			}
 			<array_type> target = (* self) + idx;
 			mem_move( target + 1, target, (header->Num - idx) * sizeof(<type>) );
 			header->Num++;
 			return true;
 		}
 		bool <fn>_append_items_at( <array_type>* self, <type>* items, usize item_num, usize idx )
 		{
 			ArrayHeader* header = get_header( * self );
 			if ( idx >= header->Num )
 			{
 				return <fn>_append_items( self, items, item_num );
 			}
 			if ( item_num > header->Capacity )
 			{
 				if ( ! <fn>_grow( self, item_num + header->Capacity ) )
 					return false;
 				header = get_header( * self );
 			}
 			<type>* target = (* self) + idx + item_num;
 			<type>* src    = (* self) + idx;
 			mem_move( target, src, (header->Num - idx) * sizeof(<type>) );
 			mem_copy( src, items, item_num * sizeof(<type>) );
 			header->Num += item_num;
 			return true;
 		}
 		<type>* <fn>_back( <array_type> self )
 		{
 			ArrayHeader* header = get_header( self );
 			if ( header->Num == 0 )
 				return NULL;
 			return self + header->Num - 1;
 		}
 		void <fn>_clear( <array_type> self )
 		{
 			ArrayHeader* header = get_header( self );
 			header->Num = 0;
 		}
 		bool <fn>_fill( <array_type> self, usize begin, usize end, <type> value )
 		{
 			ArrayHeader* header = get_header( self );
 			if ( begin < 0 || end >= header->Num )
 				return false;
 			for ( ssize idx = begin; idx < end; idx ++ )
 				self[ idx ] = value;
 			return true;
 		}
 		void <fn>_free( <array_type> self )
 		{
 			ArrayHeader* header = get_header( self );
 			free( header->Allocator, header );
 			self = NULL;
 		}
 		bool <fn>_grow( <array_type>* self, usize min_capacity )
 		{
 			ArrayHeader* header      = get_header( *self );
 			usize       new_capacity = array_grow_formula( header->Capacity );
 			if ( new_capacity < min_capacity )
 				new_capacity = min_capacity;
 			return <fn>_set_capacity( self, new_capacity );
 		}
 		usize <fn>_num( <array_type> self )
 		{
 			return get_header(self)->Num;
 		}
 		<type> <fn>_pop( <array_type> self )
 		{
 			ArrayHeader* header = get_header( self );
 			GEN_ASSERT( header->Num > 0 );
 			<type> result = self[ header->Num - 1 ];
 			header->Num--;
 			return result;
 		}
 		void <fn>_remove_at( <array_type> self, usize idx )
 		{
 			ArrayHeader* header = get_header( self );
 			GEN_ASSERT( idx < header->Num );
 			mem_move( self + idx, self + idx + 1, sizeof( <type> ) * ( header->Num - idx - 1 ) );
 			header->Num--;
 		}
 		bool <fn>_reserve( <array_type>* self, usize new_capacity )
 		{
 			ArrayHeader* header = get_header( * self );
 			if ( header->Capacity < new_capacity )
 				return <fn>_set_capacity( self, new_capacity );
 			return true;
 		}
 		bool <fn>_resize( <array_type>* self, usize num )
 		{
 			ArrayHeader* header = get_header( * self );
 			if ( header->Capacity < num )
 			{
 				if ( ! <fn>_grow( self, num ) )
 					return false;
 				header = get_header( * self );
 			}
 			header->Num = num;
 			return true;
 		}
 		bool <fn>_set_capacity( <array_type>* self, usize new_capacity )
 		{
 			ArrayHeader* header = get_header( * self );
 			if ( new_capacity == header->Capacity )
 				return true;
 			if ( new_capacity < header->Num )
 				header->Num = new_capacity;
 			usize       size       = sizeof( ArrayHeader ) + sizeof( <type> ) * new_capacity;
 			ArrayHeader* new_header = cast( ArrayHeader*, alloc( header->Allocator, size ));
 			if ( new_header == NULL )
 				return false;
 			mem_move( new_header, header, sizeof( ArrayHeader ) + sizeof( <type> ) * header->Num );
 			free( header->Allocator, & header );
 			new_header->Capacity = new_capacity;
 			* self = cast( <type>*, new_header + 1 );
 			return true;
 		}
 	)));
 #pragma pop_macro( "GEN_ASSERT" )
 	return def_global_body( args(
 		def_pragma( to_str( str_fmt_buf( "region %S", array_type ))),
 		fmt_newline,
 		result,
 		fmt_newline,
 		def_pragma( to_str( str_fmt_buf( "endregion %S", array_type ))),
 		fmt_newline
 	));
 };
 // CodeBody gen_
--- a/gen_c_library/components/containers.hashtable.hpp
+++ b/gen_c_library/components/containers.hashtable.hpp
@ -0,0 +1,354 @@
 #pragma once
 #include "../project/gen.hpp"
 #include "containers.array.hpp"
 using namespace gen;
 CodeBody gen_hashtable_base()
 {
 	return parse_global_body( code(
 		typedef struct HT_FindResult HT_FindResult;
 		struct HT_FindResult
 		{
 			ssize HashIndex;
 			ssize PrevIndex;
 			ssize EntryIndex;
 		};
 	));
 }
 CodeBody gen_hashtable( StrC type, StrC hashtable_name )
 {
 	String
 	fn = String::make_reserve( GlobalAllocator, hashtable_name.Len + sizeof("gen") );
 	fn.append_fmt( "%.*s", hashtable_name.Len, hashtable_name.Ptr );
 	str_to_lower(fn.Data);
 	String
 	tbl_type = String::make_reserve( GlobalAllocator, hashtable_name.Len + sizeof("gen") );
 	tbl_type.append_fmt( "%.*s", hashtable_name.Len, hashtable_name.Ptr );
 	String name_lower = String::make( GlobalAllocator, hashtable_name );
 	str_to_lower( name_lower.Data );
 	String hashtable_entry   = String::fmt_buf( GlobalAllocator, "HTE_%.*s",     hashtable_name.Len, hashtable_name.Ptr );
 	String entry_array_name  = String::fmt_buf( GlobalAllocator, "Arr_HTE_%.*s", hashtable_name.Len, hashtable_name.Ptr );
 	String entry_array_fn_ns = String::fmt_buf( GlobalAllocator, "arr_hte_%.*s", name_lower.length(), name_lower.Data );
 	CodeBody hashtable_types = parse_global_body( token_fmt(
 		"type",        (StrC) type,
 		"tbl_name",    (StrC) hashtable_name,
 		"tbl_type",    (StrC) tbl_type,
 	stringize(
 		typedef struct HTE_<tbl_name> HTE_<tbl_name>;
 		struct HTE_<tbl_name>
 		{
 			u64    Key;
 			ssize  Next;
 			<type> Value;
 		};
 		typedef void (* <tbl_type>_MapProc)    ( <tbl_type> self, u64 key, <type> value );
 		typedef void (* <tbl_type>_MapMutProc) ( <tbl_type> self, u64 key, <type>* value );
 	)));
 	CodeBody entry_array = gen_array( hashtable_entry, entry_array_name );
 #pragma push_macro( "GEN_ASSERT" )
 #pragma push_macro( "GEN_ASSERT_NOT_NULL" )
 #undef GEN_ASSERT
 #undef GEN_ASSERT_NOT_NULL
 	CodeBody hashtable_def = parse_global_body( token_fmt(
 		"type",           (StrC) type,
 		"tbl_name",       (StrC) hashtable_name,
 		"tbl_type",       (StrC) tbl_type,
 		"fn",             (StrC) fn,
 		"entry_type",     (StrC) hashtable_entry,
 		"array_entry",    (StrC) entry_array_name,
 		"fn_array",       (StrC) entry_array_fn_ns,
 	stringize(
 		typedef struct <tbl_type> <tbl_type>;
 		struct <tbl_type>
 		{
 			Array_ssize   Hashes;
 			<array_entry> Entries;
 		};
 		<tbl_type> <fn>_make        ( AllocatorInfo allocator );
 		<tbl_type> <fn>_make_reserve( AllocatorInfo allocator, ssize num );
 		void       <fn>_clear       ( <tbl_type> self );
 		void       <fn>_destroy     ( <tbl_type> self );
 		<type>*    <fn>_get         ( <tbl_type> self, u64 key );
 		void       <fn>_map         ( <tbl_type> self, <tbl_type>_MapProc map_proc );
 		void       <fn>_map_mut     ( <tbl_type> self, <tbl_type>_MapMutProc map_proc );
 		void       <fn>_grow        ( <tbl_type>* self );
 		void       <fn>_rehash      ( <tbl_type>* self, ssize new_num );
 		void       <fn>_rehash_fast ( <tbl_type> self );
 		void       <fn>_remove      ( <tbl_type> self, u64 key );
 		void       <fn>_remove_entry( <tbl_type> self, ssize idx );
 		void       <fn>_set         ( <tbl_type>* self, u64 key, <type> value );
 		ssize         <fn>_slot        ( <tbl_type> self, u64 key );
 		ssize            <fn>__add_entry( <tbl_type> self, u64 key );
 		HT_FindResult <fn>__find     ( <tbl_type> self, u64 key );
 		b32           <fn>__full     ( <tbl_type> self );
 		<tbl_type> <fn>_make( AllocatorInfo allocator )
 		{
 			<tbl_type>
 			result        = { NULL, NULL };
 			result.Hashes  = array_ssize_make( allocator );
 			result.Entries = <fn_array>_make( allocator );
 			return result;
 		}
 		<tbl_type> <fn>_make_reserve( AllocatorInfo allocator, ssize num )
 		{
 			<tbl_type>
 			result         = { NULL, NULL };
 			result.Hashes  = array_ssize_make_reserve( allocator, num );
 			result.Entries = <fn_array>_make_reserve( allocator, num );
 			return result;
 		}
 		void <fn>_clear( <tbl_type> self )
 		{
 			for ( ssize idx = 0; idx < array_header( self.Hashes )->Num; idx++ )
 				self.Hashes[idx] = -1;
 			array_ssize_clear( self.Hashes );
 			<fn_array>_clear( self.Entries );
 		}
 		void <fn>_destroy( <tbl_type> self )
 		{
 			if ( self.Hashes && self.Entries )
 			{
 				array_ssize_free( self.Hashes );
 				<fn_array>_free( self.Entries );
 			}
 		}
 		<type>* <fn>_get( <tbl_type> self, u64 key )
 		{
 			ssize idx = <fn>__find( self, key ).EntryIndex;
 			if ( idx > 0 )
 				return & self.Entries[idx].Value;
 			return NULL;
 		}
 		void <fn>_map( <tbl_type> self, <tbl_type>_MapProc map_proc )
 		{
 			GEN_ASSERT_NOT_NULL( map_proc );
 			for ( ssize idx = 0; idx < array_header( self.Entries )->Num; idx++ )
 			{
 				map_proc( self, self.Entries[idx].Key, self.Entries[idx].Value );
 			}
 		}
 		void <fn>_map_mut( <tbl_type> self, <tbl_type>_MapMutProc map_proc )
 		{
 			GEN_ASSERT_NOT_NULL( map_proc );
 			for ( ssize idx = 0; idx < array_header( self.Entries )->Num; idx++ )
 			{
 				map_proc( self, self.Entries[idx].Key, & self.Entries[idx].Value );
 			}
 		}
 		void <fn>_grow( <tbl_type>* self )
 		{
 			ssize new_num = array_grow_formula( array_header( self->Entries )->Num );
 			<fn>_rehash( self, new_num );
 		}
 		void <fn>_rehash( <tbl_type>* self, ssize new_num )
 		{
 			ssize idx;
 			ssize last_added_index;
 			ArrayHeader* old_hash_header    = array_header( self->Hashes );
 			ArrayHeader* old_entries_header = array_header( self->Entries );
 			<tbl_type> new_tbl = <fn>_make_reserve( old_hash_header->Allocator, old_hash_header->Num );
 			ArrayHeader* new_hash_header = array_header( new_tbl.Hashes );
 			for ( idx = 0; idx < new_hash_header->Num; idx++ )
 				new_tbl.Hashes[idx] = -1;
 			for ( idx = 0; idx < old_entries_header->Num; idx++ )
 			{
 				<entry_type>*  entry;
 				HT_FindResult  find_result;
 				if ( new_hash_header->Num == 0 )
 					<fn>_grow( & new_tbl );
 				entry            = & self->Entries[ idx ];
 				find_result      = <fn>__find( new_tbl, entry->Key );
 				last_added_index = <fn>__add_entry( new_tbl, entry->Key );
 				if ( find_result.PrevIndex < 0 )
 					new_tbl.Hashes[ find_result.HashIndex ] = last_added_index;
 				else
 					new_tbl.Entries[ find_result.PrevIndex ].Next = last_added_index;
 				new_tbl.Entries[ last_added_index ].Next  = find_result.EntryIndex;
 				new_tbl.Entries[ last_added_index ].Value = entry->Value;
 			}
 			<fn>_destroy( *self );
 			* self = new_tbl;
 		}
 		void <fn>_rehash_fast( <tbl_type> self )
 		{
 			ssize idx;
 			for ( idx = 0; idx < array_header( self.Entries )->Num; idx++ )
 				self.Entries[ idx ].Next = -1;
 			for ( idx = 0; idx < array_header( self.Hashes )->Num; idx++ )
 				self.Hashes[ idx ] = -1;
 			for ( idx = 0; idx < array_header( self.Entries )->Num; idx++ )
 			{
 				<entry_type>*     entry;
 				HT_FindResult find_result;
 				entry       = & self.Entries[ idx ];
 				find_result = <fn>__find( self, entry->Key );
 				if ( find_result.PrevIndex < 0 )
 					self.Hashes[ find_result.HashIndex ] = idx;
 				else
 					self.Entries[ find_result.PrevIndex ].Next = idx;
 			}
 		}
 		void <fn>_remove( <tbl_type> self, u64 key )
 		{
 			HT_FindResult find_result = <fn>__find( self, key );
 			if ( find_result.EntryIndex >= 0 )
 			{
 				<fn_array>_remove_at( self.Entries, find_result.EntryIndex );
 				<fn>_rehash_fast( self );
 			}
 		}
 		void <fn>_remove_entry( <tbl_type> self, ssize idx )
 		{
 			<fn_array>_remove_at( self.Entries, idx );
 		}
 		void <fn>_set( <tbl_type>* self, u64 key, <type> value )
 		{
 			ssize            idx;
 			HT_FindResult find_result;
 			if ( array_header( self->Hashes )->Num == 0 )
 				<fn>_grow( self );
 			find_result = <fn>__find( * self, key );
 			if ( find_result.EntryIndex >= 0 )
 			{
 				idx = find_result.EntryIndex;
 			}
 			else
 			{
 				idx = <fn>__add_entry( * self, key );
 				if ( find_result.PrevIndex >= 0 )
 				{
 					self->Entries[ find_result.PrevIndex ].Next = idx;
 				}
 				else
 				{
 					self->Hashes[ find_result.HashIndex ] = idx;
 				}
 			}
 			self->Entries[ idx ].Value = value;
 			if ( <fn>__full( * self ) )
 				<fn>_grow( self );
 		}
 		ssize <fn>_slot( <tbl_type> self, u64 key )
 		{
 			for ( ssize idx = 0; idx < array_header( self.Hashes )->Num; ++idx )
 				if ( self.Hashes[ idx ] == key )
 					return idx;
 			return -1;
 		}
 		ssize <fn>__add_entry( <tbl_type> self, u64 key )
 		{
 			ssize idx;
 			<entry_type> entry = { key, -1 };
 			idx = array_header( self.Entries )->Num;
 			<fn_array>_append( & self.Entries, entry );
 			return idx;
 		}
 		HT_FindResult <fn>__find( <tbl_type> self, u64 key )
 		{
 			HT_FindResult result = { -1, -1, -1 };
 			ArrayHeader* hash_header = array_header( self.Hashes );
 			if ( hash_header->Num > 0 )
 			{
 				result.HashIndex  = key % hash_header->Num;
 				result.EntryIndex = self.Hashes[ result.HashIndex ];
 				while ( result.EntryIndex >= 0 )
 				{
 					if ( self.Entries[ result.EntryIndex ].Key == key )
 						break;
 					result.PrevIndex  = result.EntryIndex;
 					result.EntryIndex = self.Entries[ result.EntryIndex ].Next;
 				}
 			}
 			return result;
 		}
 		b32 <fn>__full( <tbl_type> self )
 		{
 			ArrayHeader* hash_header    = array_header( self.Hashes );
 			ArrayHeader* entries_header = array_header( self.Entries );
 			return 0.75f * hash_header->Num < entries_header->Num;
 		}
 	)));
 #pragma pop_macro( "GEN_ASSERT" )
 #pragma pop_macro( "GEN_ASSERT_NOT_NULL" )
 	char const* cmt_str = str_fmt_buf( "Name: %.*s Type: %.*s"
 		, tbl_type.length(), tbl_type.Data
 		, type.Len, type.Ptr );
 	return def_global_body(args(
 		def_pragma( to_str( str_fmt_buf( "region %S", tbl_type ))),
 		fmt_newline,
 		hashtable_types,
 		fmt_newline,
 		entry_array,
 		hashtable_def,
 		fmt_newline,
 		def_pragma( to_str( str_fmt_buf( "endregion %S", tbl_type ))),
 		fmt_newline
 	));
 }
--- a/gen_c_library/components/header_start.hpp
+++ b/gen_c_library/components/header_start.hpp
@ -0,0 +1,14 @@
 /*
 	gencpp: An attempt at "simple" staged metaprogramming for c/c++.
 	See Readme.md for more information from the project repository.
 	Public Address:
 	https://github.com/Ed94/gencpp
 	This is a single header C-Library variant.
 	Define GEN_IMPLEMENTATION before including this file in a single compilation unit.
 */
 #if ! defined(GEN_DONT_ENFORCE_GEN_TIME_GUARD) && ! defined(GEN_TIME)
 #	error Gen.hpp : GEN_TIME not defined
 #endif
--- a/gen_c_library/components/memory.fixed_arena.hpp
+++ b/gen_c_library/components/memory.fixed_arena.hpp
@ -0,0 +1,122 @@
 #pragma once
 #include "../project/gen.hpp"
 using namespace gen;
 CodeBody gen_fixed_arenas()
 {
 	CodeBody result = def_body(ECode::Global_Body);
 	result.append(def_pragma(txt("region FixedArena")));
 	char const* template_struct = stringize(
 		struct FixedArena_<Name>
 		{
 			char  memory[<Size>];
 			Arena arena;
 		};
 	);
 	char const* template_interface = stringize(
 		inline
 		void fixed_arena_init_<Name>(FixedArena_<Name>* result) {
 			zero_size(& result->memory[0], <Size>);
 			result->arena = arena_init_from_memory(& result->memory[0], <Size>);
 		}
 		inline
 		ssize fixed_arena_size_remaining_<Name>(FixedArena_<Name>* fixed_arena, ssize alignment) {
 			return size_remaining(fixed_arena->arena, alignment);
 		}
 	);
 	CodeStruct arena_struct_1kb   = parse_struct( token_fmt_impl( 3, "Name", txt("1KB"),   "Size", txt("kilobytes(1)"),   template_struct ));
 	CodeStruct arena_struct_4kb   = parse_struct( token_fmt_impl( 3, "Name", txt("4KB"),   "Size", txt("kilobytes(4)"),   template_struct ));
 	CodeStruct arena_struct_8kb   = parse_struct( token_fmt_impl( 3, "Name", txt("8KB"),   "Size", txt("kilobytes(8)"),   template_struct ));
 	CodeStruct arena_struct_16kb  = parse_struct( token_fmt_impl( 3, "Name", txt("16KB"),  "Size", txt("kilobytes(16)"),  template_struct ));
 	CodeStruct arena_struct_32kb  = parse_struct( token_fmt_impl( 3, "Name", txt("32KB"),  "Size", txt("kilobytes(32)"),  template_struct ));
 	CodeStruct arena_struct_64kb  = parse_struct( token_fmt_impl( 3, "Name", txt("64KB"),  "Size", txt("kilobytes(64)"),  template_struct ));
 	CodeStruct arena_struct_128kb = parse_struct( token_fmt_impl( 3, "Name", txt("128KB"), "Size", txt("kilobytes(128)"), template_struct ));
 	CodeStruct arena_struct_256kb = parse_struct( token_fmt_impl( 3, "Name", txt("256KB"), "Size", txt("kilobytes(256)"), template_struct ));
 	CodeStruct arena_struct_512kb = parse_struct( token_fmt_impl( 3, "Name", txt("512KB"), "Size", txt("kilobytes(512)"), template_struct ));
 	CodeStruct arena_struct_1mb   = parse_struct( token_fmt_impl( 3, "Name", txt("1MB"),   "Size", txt("megabytes(1)"),   template_struct ));
 	CodeStruct arena_struct_2mb   = parse_struct( token_fmt_impl( 3, "Name", txt("2MB"),   "Size", txt("megabytes(2)"),   template_struct ));
 	CodeStruct arena_struct_4mb   = parse_struct( token_fmt_impl( 3, "Name", txt("4MB"),   "Size", txt("megabytes(4)"),   template_struct ));
 	CodeBody arena_interface_1kb   = parse_global_body( token_fmt_impl( 3, "Name", txt("1KB"),   "Size", txt("kilobytes(1)"),    template_interface ));
 	CodeBody arena_interface_4kb   = parse_global_body( token_fmt_impl( 3, "Name", txt("4KB"),   "Size", txt("kilobytes(4)"),    template_interface ));
 	CodeBody arena_interface_8kb   = parse_global_body( token_fmt_impl( 3, "Name", txt("8KB"),   "Size", txt("kilobytes(8)"),    template_interface ));
 	CodeBody arena_interface_16kb  = parse_global_body( token_fmt_impl( 3, "Name", txt("16KB"),  "Size", txt("kilobytes(16)"),   template_interface ));
 	CodeBody arena_interface_32kb  = parse_global_body( token_fmt_impl( 3, "Name", txt("32KB"),  "Size", txt("kilobytes(32)"),   template_interface ));
 	CodeBody arena_interface_64kb  = parse_global_body( token_fmt_impl( 3, "Name", txt("64KB"),  "Size", txt("kilobytes(64)"),   template_interface ));
 	CodeBody arena_interface_128kb = parse_global_body( token_fmt_impl( 3, "Name", txt("128KB"), "Size", txt("kilobytes(128)"), template_interface ));
 	CodeBody arena_interface_256kb = parse_global_body( token_fmt_impl( 3, "Name", txt("256KB"), "Size", txt("kilobytes(256)"), template_interface ));
 	CodeBody arena_interface_512kb = parse_global_body( token_fmt_impl( 3, "Name", txt("512KB"), "Size", txt("kilobytes(512)"), template_interface ));
 	CodeBody arena_interface_1mb   = parse_global_body( token_fmt_impl( 3, "Name", txt("1MB"),   "Size", txt("megabytes(1)"),   template_interface ));
 	CodeBody arena_interface_2mb   = parse_global_body( token_fmt_impl( 3, "Name", txt("2MB"),   "Size", txt("megabytes(2)"),   template_interface ));
 	CodeBody arena_interface_4mb   = parse_global_body( token_fmt_impl( 3, "Name", txt("4MB"),   "Size", txt("megabytes(4)"),   template_interface ));
 	result.append(arena_struct_1kb);
 	result.append(arena_struct_4kb);
 	result.append(arena_struct_8kb);
 	result.append(arena_struct_16kb);
 	result.append(arena_struct_32kb);
 	result.append(arena_struct_128kb);
 	result.append(arena_struct_256kb);
 	result.append(arena_struct_512kb);
 	result.append(arena_struct_1mb);
 	result.append(arena_struct_2mb);
 	result.append(arena_struct_4mb);
 	result.append(arena_interface_1kb);
 	result.append(arena_interface_4kb);
 	result.append(arena_interface_8kb);
 	result.append(arena_interface_16kb);
 	result.append(arena_interface_32kb);
 	result.append(arena_interface_128kb);
 	result.append(arena_interface_256kb);
 	result.append(arena_interface_512kb);
 	result.append(arena_interface_1mb);
 	result.append(arena_interface_2mb);
 	result.append(arena_interface_4mb);
 	CodeDefine def = def_define(txt("fixed_arena_allocator_info(fixed_arena)"), code({ arena_allocator_proc, & fixed_arena.arena }) );
 	result.append(def);
 	result.append(parse_global_body(txt(R"(
 #define fixed_arena_init(expr) _Generic((expr), \
    FixedArena_1KB*   : fixed_arena_init_1KB,   \
    FixedArena_4KB*   : fixed_arena_init_4KB,   \
    FixedArena_8KB*   : fixed_arena_init_8KB,   \
    FixedArena_16KB*  : fixed_arena_init_16KB,  \
    FixedArena_32KB*  : fixed_arena_init_32KB,  \
    FixedArena_64KB*  : fixed_arena_init_64KB,  \
    FixedArena_128KB* : fixed_arena_init_128KB, \
    FixedArena_256KB* : fixed_arena_init_256KB, \
    FixedArena_512KB* : fixed_arena_init_512KB, \
    FixedArena_1MB*   : fixed_arena_init_1MB,   \
    FixedArena_2MB*   : fixed_arena_init_2MB,   \
    FixedArena_4MB*   : fixed_arena_init_4MB    \
 )(expr)
 #define fixed_arena_size_remaining(expr, alignment) _Generic((expr), \
    FixedArena_1KB*   : fixed_arena_size_remaining_1KB,              \
    FixedArena_4KB*   : fixed_arena_size_remaining_4KB,              \
    FixedArena_8KB*   : fixed_arena_size_remaining_8KB,              \
    FixedArena_16KB*  : fixed_arena_size_remaining_16KB,             \
    FixedArena_32KB*  : fixed_arena_size_remaining_32KB,             \
    FixedArena_64KB*  : fixed_arena_size_remaining_64KB,             \
    FixedArena_128KB* : fixed_arena_size_remaining_128KB,            \
    FixedArena_256KB* : fixed_arena_size_remaining_256KB,            \
    FixedArena_512KB* : fixed_arena_size_remaining_512KB,            \
    FixedArena_1MB*   : fixed_arena_size_remaining_1MB,              \
    FixedArena_2MB*   : fixed_arena_size_remaining_2MB,              \
    FixedArena_4MB*   : fixed_arena_size_remaining_4MB               \
 )(expr, alignment)
 )"
 	)));
 	result.append(def_pragma(txt("endregion FixedArena")));
 	return result;
 }
--- a/gen_c_library/components/misc.hpp
+++ b/gen_c_library/components/misc.hpp
@ -0,0 +1,72 @@
 // #pragma once
 // #include "../project/gen.hpp"
 // using namespace gen;
 using SwapContentProc = CodeBody(void);
 b32 ignore_preprocess_cond_block( StrC cond_sig, Code& entry_iter, CodeBody& body )
 {
 	b32 found = false;
 	CodePreprocessCond cond = cast(CodePreprocessCond, entry_iter);
 	if ( cond->Content.contains(cond_sig) )
 	{
 		log_fmt("Preprocess cond found: %S\n", cond->Content);
 		found = true;
 		s32 depth = 1;
 		++ entry_iter; for(b32 continue_for = true; continue_for && entry_iter != body.end(); ) switch
 		(entry_iter->Type) {
 			case ECode::Preprocess_If:
 			case ECode::Preprocess_IfDef:
 			case ECode::Preprocess_IfNotDef:
 				depth ++;
 			break;
 			case ECode::Preprocess_EndIf:
 			{
 				depth --;
 				if (depth == 0) {
 					continue_for = false;
 					break;
 				}
 			}
 			break;
 			default:
 				++ entry_iter;
 			break;
 		}
 	}
 	return found;
 }
 bool swap_pragma_region_implementation( StrC region_name, SwapContentProc* swap_content, Code& entry_iter, CodeBody& body )
 {
 	bool found = false;
 	CodePragma possible_region = cast(CodePragma, entry_iter);
 	String region_sig    = string_fmt_buf(GlobalAllocator, "region %s",    region_name.Ptr);
 	String endregion_sig = string_fmt_buf(GlobalAllocator, "endregion %s", region_name.Ptr);
 	if ( possible_region->Content.contains(region_sig))
 	{
 		found = true;
 		// body.append(possible_region);
 		body.append(swap_content());
 		++ entry_iter; for(b32 continue_for = true; continue_for; ++entry_iter) switch
 		(entry_iter->Type) {
 			case ECode::Preprocess_Pragma:
 			{
 				CodePragma possible_end_region = cast(CodePragma, entry_iter);
 				if ( possible_end_region->Content.contains(endregion_sig) ) {
 					// body.append(possible_end_region);
 					continue_for = false;
 				}
 			}
 			break;
 		}
 		body.append(entry_iter);
 	}
 	return found;
 }
--- a/gen_c_library/gen.c
+++ b/gen_c_library/gen.c
@ -0,0 +1,7 @@
 #define GEN_IMPLEMENTATION
 #include "gen/gen.h"
 int main()
 {
 	// init();
 }
--- a/gen_singleheader/Readme.md
+++ b/gen_singleheader/Readme.md
@ -1,4 +1,4 @@
 # Singleheader
-Creates a single header file version of the library using `gen.singleheader.cpp`.
+Creates a single header file version of the library using `singleheader.cpp`.
 Follows the same convention seen in the gb, stb, and zpl libraries.
--- a/gen_singleheader/components/header_start.hpp
+++ b/gen_singleheader/components/header_start.hpp
@ -12,12 +12,3 @@
 #if ! defined(GEN_DONT_ENFORCE_GEN_TIME_GUARD) && ! defined(GEN_TIME)
 #	error Gen.hpp : GEN_TIME not defined
 #endif
 #ifdef GEN_DONT_USE_NAMESPACE
 #	define GEN_NS_BEGIN
 #	define GEN_NS_END
 #else
 #	define GEN_NS_BEGIN namespace gen {
 #	define GEN_NS_END   }
 #endif
--- a/gen_singleheader/singleheader.cpp
+++ b/gen_singleheader/singleheader.cpp
@ -1,6 +1,8 @@
 #define GEN_DEFINE_LIBRARY_CODE_CONSTANTS
 #define GEN_ENFORCE_STRONG_CODE_TYPES
 #define GEN_EXPOSE_BACKEND
 #define GEN_SUPPORT_CPP_MEMBER_FEATURES 1
 #define GEN_SUPPORT_CPP_REFERENCES      0
 #include "gen.cpp"
 #include "helpers/push_ignores.inline.hpp"
@ -14,6 +16,8 @@ GEN_NS_END
 #include "auxillary/builder.cpp"
 #include "auxillary/scanner.hpp"
 #include <cstdlib>   // for system()
 using namespace gen;
 constexpr char const* generation_notice =
@ -35,7 +39,6 @@ constexpr StrC roll_own_dependencies_guard_start = txt(R"(
 //! If its desired to roll your own dependencies, define GEN_ROLL_OWN_DEPENDENCIES before including this file.
 // Dependencies are derived from the c-zpl library: https://github.com/zpl-c/zpl
 #ifndef GEN_ROLL_OWN_DEPENDENCIES
 )");
 constexpr StrC roll_own_dependencies_guard_end = txt(R"(
@ -48,6 +51,42 @@ global bool generate_builder = true;
 global bool generate_editor  = true;
 global bool generate_scanner = true;
 void format_file( char const* path )
 {
 	String resolved_path = String::make(GlobalAllocator, to_str(path));
 	String style_arg = String::make(GlobalAllocator, txt("-style=file:"));
 	style_arg.append("../scripts/.clang-format ");
 	// Need to execute clang format on the generated file to get it to match the original.
 	#define clang_format      "clang-format "
 	#define cf_format_inplace "-i "
 	#define cf_verbose        "-verbose "
 	String command = String::make( GlobalAllocator, clang_format );
 	command.append( cf_format_inplace );
 	command.append( cf_verbose );
 	command.append( style_arg );
 	command.append( resolved_path );
 		log_fmt("\tRunning clang-format on file:\n");
 		system( command );
 		log_fmt("\tclang-format finished reformatting.\n");
 	#undef cf_cmd
 	#undef cf_format_inplace
 	#undef cf_style
 	#undef cf_verbse
 }
 Code dump_to_scratch_and_retireve( Code code )
 {
 	Builder ecode_file_temp = Builder::open("gen/scratch.hpp");
 	ecode_file_temp.print(code);
 	ecode_file_temp.write();
 	format_file("gen/scratch.hpp");
 	Code result = scan_file( "gen/scratch.hpp" );
 	remove("gen/scratch.hpp");
 	return result;
 }
 int gen_main()
 {
 #define project_dir "../project/"
@ -69,7 +108,7 @@ int gen_main()
 		if ( generate_gen_dep )
 		{
-			Code header_start = scan_file( project_dir "dependencies/header_start.hpp" );
+			Code platform     = scan_file( project_dir "dependencies/platform.hpp" );
 			Code macros       = scan_file( project_dir "dependencies/macros.hpp" );
 			Code basic_types  = scan_file( project_dir "dependencies/basic_types.hpp" );
 			Code debug        = scan_file( project_dir "dependencies/debug.hpp" );
@ -83,7 +122,7 @@ int gen_main()
 			Code timing       = scan_file( project_dir "dependencies/timing.hpp" );
 			header.print_fmt( roll_own_dependencies_guard_start );
-			header.print( header_start );
+			header.print( platform );
 			header.print_fmt( "\nGEN_NS_BEGIN\n" );
 			header.print( macros );
@ -113,6 +152,7 @@ int gen_main()
 		Code types      = scan_file( project_dir "components/types.hpp" );
 		Code ast        = scan_file( project_dir "components/ast.hpp" );
 		Code ast_types  = scan_file( project_dir "components/ast_types.hpp" );
 		Code code_types = scan_file( project_dir "components/code_types.hpp" );
 		Code interface  = scan_file( project_dir "components/interface.hpp" );
 		Code inlines 	= scan_file( project_dir "components/inlines.hpp" );
 		Code header_end = scan_file( project_dir "components/header_end.hpp" );
@ -126,13 +166,18 @@ int gen_main()
 		header.print_fmt("#pragma region Types\n");
 		header.print( types );
-		header.print( ecode );
+		header.print( fmt_newline );
-		header.print( eoperator );
+		header.print( dump_to_scratch_and_retireve( ecode ));
-		header.print( especifier );
+		header.print( fmt_newline );
 		header.print( dump_to_scratch_and_retireve( eoperator ));
 		header.print( fmt_newline );
 		header.print( dump_to_scratch_and_retireve( especifier ));
 		header.print( fmt_newline );
 		header.print_fmt("#pragma endregion Types\n\n");
 		header.print_fmt("#pragma region AST\n");
 		header.print( ast );
 		header.print( code_types );
 		header.print( ast_types );
 		header.print_fmt("\n#pragma endregion AST\n");
@ -140,7 +185,8 @@ int gen_main()
 		header.print_fmt( "\n#pragma region Inlines\n" );
 		header.print( inlines );
-		header.print( ast_inlines );
+		header.print( dump_to_scratch_and_retireve( ast_inlines ));
 		header.print( fmt_newline );
 		header.print_fmt( "#pragma endregion Inlines\n" );
 		header.print( header_end );
@ -187,7 +233,7 @@ int gen_main()
 			if ( generate_scanner )
 			{
 				header.print_fmt( "\n#pragma region Parsing\n" );
-			header.print( scan_file( project_dir "dependencies/parsing.cpp" ) );
+				header.print( scan_file( project_dir "dependencies/parsing.cpp" ) );
 				header.print_fmt( "#pragma endregion Parsing\n\n" );
 			}
@ -195,16 +241,19 @@ int gen_main()
 			header.print_fmt( roll_own_dependencies_guard_end );
 		}
-		Code static_data 	 = scan_file( project_dir "components/static_data.cpp" );
+		Code static_data 	   = scan_file( project_dir "components/static_data.cpp" );
-		Code ast_case_macros = scan_file( project_dir "components/ast_case_macros.cpp" );
+		Code ast_case_macros   = scan_file( project_dir "components/ast_case_macros.cpp" );
-		Code ast             = scan_file( project_dir "components/ast.cpp" );
+		Code ast               = scan_file( project_dir "components/ast.cpp" );
-		Code interface       = scan_file( project_dir "components/interface.cpp" );
+		Code code              = scan_file( project_dir "components/code_serialization.cpp" );
-		Code upfront         = scan_file( project_dir "components/interface.upfront.cpp" );
+		Code interface         = scan_file( project_dir "components/interface.cpp" );
-		Code parsing         = scan_file( project_dir "components/interface.parsing.cpp" );
+		Code upfront           = scan_file( project_dir "components/interface.upfront.cpp" );
-		Code untyped         = scan_file( project_dir "components/interface.untyped.cpp" );
+		Code lexer             = scan_file( project_dir "components/lexer.cpp" );
 		Code parser            = scan_file( project_dir "components/parser.cpp" );
 		Code parsing_interface = scan_file( project_dir "components/interface.parsing.cpp" );
 		Code untyped           = scan_file( project_dir "components/interface.untyped.cpp" );
 		CodeBody etoktype      = gen_etoktype( project_dir "enums/ETokType.csv", project_dir "enums/AttributeTokens.csv" );
-		CodeNS   parser_nspace = def_namespace( name(Parser), def_namespace_body( args(etoktype)) );
+		CodeNS   parser_nspace = def_namespace( name(parser), def_namespace_body( args(etoktype)) );
 		header.print_fmt( "\nGEN_NS_BEGIN\n");
 		header.print( static_data );
@ -212,14 +261,17 @@ int gen_main()
 		header.print_fmt( "#pragma region AST\n\n" );
 		header.print( ast_case_macros );
 		header.print( ast );
 		header.print( code );
 		header.print_fmt( "#pragma endregion AST\n\n" );
 		header.print_fmt( "#pragma region Interface\n" );
 		header.print( interface );
 		header.print( upfront );
 		header.print_fmt( "\n#pragma region Parsing\n\n" );
-		header.print( parser_nspace );
+		header.print( dump_to_scratch_and_retireve(parser_nspace) );
-		header.print( parsing );
+		header.print( lexer );
 		header.print( parser );
 		header.print( parsing_interface );
 		header.print_fmt( "\n#pragma endregion Parsing\n" );
 		header.print( untyped );
 		header.print_fmt( "\n#pragma endregion Interface\n\n");
--- a/gen_unreal_engine/Readme.md
+++ b/gen_unreal_engine/Readme.md
@ -0,0 +1,3 @@
 # Unreal Engine Version Generator
 This generates a variant of gencpp thats compatiable with use as a thirdparty module within a plugin or module of an Unreal Project or the Engine itself.
--- a/gen_unreal_engine/components/header_start.hpp
+++ b/gen_unreal_engine/components/header_start.hpp
@ -0,0 +1,31 @@
 /*
 	gencpp: An attempt at "simple" staged metaprogramming for c/c++.
 	See Readme.md for more information from the project repository.
 	Public Address:
 	https://github.com/Ed94/gencpp
 	This is a variant intended for use with Unreal Engine 5
 */
 #if ! defined(GEN_DONT_ENFORCE_GEN_TIME_GUARD) && ! defined(GEN_TIME)
 #	error Gen.hpp : GEN_TIME not defined
 #endif
 //! If its desired to roll your own dependencies, define GEN_ROLL_OWN_DEPENDENCIES before including this file.
 // Dependencies are derived from the c-zpl library: https://github.com/zpl-c/zpl
 #ifndef GEN_ROLL_OWN_DEPENDENCIES
 #	include "gen.dep.hpp"
 #endif
 #ifndef GEN_NS_BEGIN
 #	ifdef GEN_DONT_USE_NAMESPACE
 #		define GEN_NS
 #		define GEN_NS_BEGIN
 #		define GEN_NS_END
 #	else
 #		define GEN_NS       gen::
 #		define GEN_NS_BEGIN namespace gen {
 #		define GEN_NS_END   }
 #	endif
 #endif
--- a/gen_unreal_engine/components/src_start.cpp
+++ b/gen_unreal_engine/components/src_start.cpp
@ -0,0 +1,5 @@
 #if ! defined(GEN_DONT_ENFORCE_GEN_TIME_GUARD) && ! defined(GEN_TIME)
 #	error Gen.hpp : GEN_TIME not defined
 #endif
 #include "gen.hpp"
--- a/gen_unreal_engine/enums/AttributeTokens.csv
+++ b/gen_unreal_engine/enums/AttributeTokens.csv
@ -0,0 +1,7 @@
 API_Export,            GEN_API_Export_Code
 API_Import,            GEN_API_Import_Code
 COREUOBJECT_API,       COREUOBJECT_API
 ENGINE_API,            ENGINE_API
 GAMEPLAYABILITIES_API, GAMEPLAYABILITIES_API
 UMG_API,               UMG_API
 UE_DEPRECATED,         UE_DEPRECATED
--- a/gen_unreal_engine/unreal.cpp
+++ b/gen_unreal_engine/unreal.cpp
@ -0,0 +1,397 @@
 #define GEN_DEFINE_LIBRARY_CODE_CONSTANTS
 #define GEN_ENFORCE_STRONG_CODE_TYPES
 #define GEN_EXPOSE_BACKEND
 #include "gen.cpp"
 #include "helpers/push_ignores.inline.hpp"
 #include "helpers/helper.hpp"
 GEN_NS_BEGIN
 #include "dependencies/parsing.cpp"
 GEN_NS_END
 #include "auxillary/builder.hpp"
 #include "auxillary/builder.cpp"
 #include "auxillary/scanner.hpp"
 #include <cstdlib>   // for system()
 using namespace gen;
 constexpr char const* generation_notice =
 "// This file was generated automatially by gencpp's unreal.cpp "
 "(See: https://github.com/Ed94/gencpp)\n\n";
 constexpr StrC implementation_guard_start = txt(R"(
 #pragma region GENCPP IMPLEMENTATION GUARD
 #if defined(GEN_IMPLEMENTATION) && ! defined(GEN_IMPLEMENTED)
 #	define GEN_IMPLEMENTED
 )");
 constexpr StrC implementation_guard_end = txt(R"(
 #endif
 #pragma endregion GENCPP IMPLEMENTATION GUARD
 )");
 constexpr StrC roll_own_dependencies_guard_start = txt(R"(
 //! If its desired to roll your own dependencies, define GEN_ROLL_OWN_DEPENDENCIES before including this file.
 // Dependencies are derived from the c-zpl library: https://github.com/zpl-c/zpl
 #ifndef GEN_ROLL_OWN_DEPENDENCIES
 )");
 constexpr StrC roll_own_dependencies_guard_end = txt(R"(
 // GEN_ROLL_OWN_DEPENDENCIES
 #endif
 )");
 global bool generate_gen_dep = true;
 global bool generate_builder = true;
 global bool generate_editor  = true;
 global bool generate_scanner = true;
 void format_file( char const* path )
 {
 	String resolved_path = String::make(GlobalAllocator, to_str(path));
 	String style_arg = String::make(GlobalAllocator, txt("-style=file:"));
 	style_arg.append("../scripts/.clang-format ");
 	// Need to execute clang format on the generated file to get it to match the original.
 	#define clang_format      "clang-format "
 	#define cf_format_inplace "-i "
 	#define cf_verbose        "-verbose "
 	String command = String::make( GlobalAllocator, clang_format );
 	command.append( cf_format_inplace );
 	command.append( cf_verbose );
 	command.append( style_arg );
 	command.append( resolved_path );
 		log_fmt("\tRunning clang-format on file:\n");
 		system( command );
 		log_fmt("\tclang-format finished reformatting.\n");
 	#undef cf_cmd
 	#undef cf_format_inplace
 	#undef cf_style
 	#undef cf_verbse
 }
 Code dump_to_scratch_and_retireve( Code code )
 {
 	Builder ecode_file_temp = Builder::open("gen/scratch.hpp");
 	ecode_file_temp.print(code);
 	ecode_file_temp.write();
 	format_file("gen/scratch.hpp");
 	Code result = scan_file( "gen/scratch.hpp" );
 	remove("gen/scratch.hpp");
 	return result;
 }
 int gen_main()
 {
 #define project_dir "../project/"
 	gen::init();
 	Code push_ignores        = scan_file( project_dir "helpers/push_ignores.inline.hpp" );
 	Code pop_ignores         = scan_file( project_dir "helpers/pop_ignores.inline.hpp" );
 	Code ue_forceinline = code_str(FORCEINLINE);
 	// Code
 	// gen_dep.hpp
 	{
 		CodeBody macros = def_body( CodeT::Global_Body );
 		{
 			FileContents content    = file_read_contents( GlobalAllocator, true, project_dir "dependencies/macros.hpp" );
 			CodeBody     ori_macros = parse_global_body( StrC { content.size, (char const*)content.data });
 			for (Code	code =  ori_macros.begin();
 						code != ori_macros.end();
 						++ code )
 			{
 				switch (code->Type)
 				{
 					using namespace ECode;
 					case Preprocess_Define:
 					{
 						CodeDefine define = code.cast<CodeDefine>();
 						if ( define->Name.starts_with(txt("global")) )
 						{
 							macros.append(parse_global_body(txt("#define global // Global variables")));
 							continue;
 						}
 						macros.append(define);
 					}
 					break;
 					default:
 						macros.append(code);
 					break;
 				}
 			}
 		}
 		Code platform     = scan_file( project_dir "dependencies/platform.hpp" );
 		Code basic_types  = scan_file( project_dir "dependencies/basic_types.hpp" );
 		Code debug        = scan_file( project_dir "dependencies/debug.hpp" );
 		Code memory	      = scan_file( project_dir "dependencies/memory.hpp" );
 		Code string_ops   = scan_file( project_dir "dependencies/string_ops.hpp" );
 		Code printing     = scan_file( project_dir "dependencies/printing.hpp" );
 		Code containers   = scan_file( project_dir "dependencies/containers.hpp" );
 		Code hashing 	  = scan_file( project_dir "dependencies/hashing.hpp" );
 		Code strings      = scan_file( project_dir "dependencies/strings.hpp" );
 		Code filesystem   = scan_file( project_dir "dependencies/filesystem.hpp" );
 		Code timing       = scan_file( project_dir "dependencies/timing.hpp" );
 		Builder
 		header = Builder::open("gen/gen.dep.hpp");
 		header.print_fmt( generation_notice );
 		header.print( pragma_once );
 		header.print( push_ignores );
 		header.print( platform );
 		header.print_fmt( "\nGEN_NS_BEGIN\n" );
 		header.print( fmt_newline);
 		header.print( dump_to_scratch_and_retireve(macros) );
 		header.print( basic_types );
 		header.print( debug );
 		header.print( memory );
 		header.print( string_ops );
 		header.print( printing );
 		header.print( containers );
 		header.print( hashing );
 		header.print( strings );
 		header.print( filesystem );
 		header.print( timing );
 		header.print_fmt( "\nGEN_NS_END\n" );
 		header.print( fmt_newline );
 		header.print( pop_ignores );
 		header.write();
 	}
 	// gen_dep.cpp
 	{
 		Code src_start  = scan_file( project_dir "dependencies/src_start.cpp" );
 		Code debug      = scan_file( project_dir "dependencies/debug.cpp" );
 		Code string_ops = scan_file( project_dir "dependencies/string_ops.cpp" );
 		Code printing   = scan_file( project_dir "dependencies/printing.cpp" );
 		Code memory     = scan_file( project_dir "dependencies/memory.cpp" );
 		Code hashing    = scan_file( project_dir "dependencies/hashing.cpp" );
 		Code strings    = scan_file( project_dir "dependencies/strings.cpp" );
 		Code filesystem = scan_file( project_dir "dependencies/filesystem.cpp" );
 		Code timing     = scan_file( project_dir "dependencies/timing.cpp" );
 		Builder
 		src = Builder::open( "gen/gen.dep.cpp" );
 		src.print_fmt( generation_notice );
 		src.print( def_include(txt("gen.dep.hpp")));
 		src.print( fmt_newline );
 		src.print( push_ignores );
 		src.print( src_start );
 		src.print_fmt( "\nGEN_NS_BEGIN\n" );
 		src.print( debug );
 		src.print( string_ops );
 		src.print( printing );
 		src.print( hashing );
 		src.print( memory );
 		src.print( strings );
 		src.print( filesystem );
 		src.print( timing );
 		src.print_fmt( "\nGEN_NS_END\n" );
 		src.print( fmt_newline );
 		src.print( pop_ignores );
 		src.write();
 	}
 	// gen.hpp
 	{
 		Code header_start = scan_file(             "components/header_start.hpp" );
 		Code types        = scan_file( project_dir "components/types.hpp" );
 		Code ast          = scan_file( project_dir "components/ast.hpp" );
 		Code ast_types    = scan_file( project_dir "components/ast_types.hpp" );
 		Code code_types   = scan_file( project_dir "components/code_types.hpp" );
 		Code interface    = scan_file( project_dir "components/interface.hpp" );
 		Code inlines      = scan_file( project_dir "components/inlines.hpp" );
 		Code header_end   = scan_file( project_dir "components/header_end.hpp" );
 		CodeBody ecode       = gen_ecode     ( project_dir "enums/ECode.csv" );
 		CodeBody eoperator   = gen_eoperator ( project_dir "enums/EOperator.csv" );
 		CodeBody especifier  = gen_especifier( project_dir "enums/ESpecifier.csv" );
 		CodeBody ast_inlines = gen_ast_inlines();
 		Builder
 		header = Builder::open( "gen/gen.hpp" );
 		header.print_fmt( generation_notice );
 		header.print_fmt( "#pragma once\n\n" );
 		header.print( push_ignores );
 		header.print( fmt_newline );
 		header.print( header_start );
 		header.print_fmt( "\nGEN_NS_BEGIN\n\n" );
 		header.print_fmt( "#pragma region Types\n" );
 		header.print( types );
 		header.print( fmt_newline );
 		header.print( dump_to_scratch_and_retireve(ecode) );
 		header.print( fmt_newline );
 		header.print( dump_to_scratch_and_retireve(eoperator) );
 		header.print( fmt_newline );
 		header.print( dump_to_scratch_and_retireve(especifier) );
 		header.print( fmt_newline );
 		header.print_fmt( "#pragma endregion Types\n\n" );
 		header.print_fmt( "#pragma region AST\n" );
 		header.print( ast );
 		header.print( code_types );
 		header.print( ast_types );
 		header.print_fmt( "\n#pragma endregion AST\n" );
 		header.print( interface );
 		header.print_fmt( "\n#pragma region Inlines\n" );
 		header.print( inlines );
 		header.print( fmt_newline );
 		header.print( dump_to_scratch_and_retireve(ast_inlines) );
 		header.print( fmt_newline );
 		header.print_fmt( "#pragma endregion Inlines\n" );
 		header.print( header_end );
 		header.print_fmt( "GEN_NS_END\n\n" );
 		header.print( pop_ignores );
 		header.write();
 	}
 	// gen.cpp
 	{
 		Code        src_start          = scan_file(             "components/src_start.cpp" );
 		Code        static_data 	   = scan_file( project_dir "components/static_data.cpp" );
 		Code        ast_case_macros    = scan_file( project_dir "components/ast_case_macros.cpp" );
 		Code        ast			       = scan_file( project_dir "components/ast.cpp" );
 		Code        code_serialization = scan_file( project_dir "components/code_serialization.cpp" );
 		Code        interface	       = scan_file( project_dir "components/interface.cpp" );
 		Code        upfront 	       = scan_file( project_dir "components/interface.upfront.cpp" );
 		Code        lexer              = scan_file( project_dir "components/lexer.cpp" );
 		Code        parser             = scan_file( project_dir "components/parser.cpp" );
 		Code 	    parsing_interface  = scan_file( project_dir "components/interface.parsing.cpp" );
 		Code        untyped 	       = scan_file( project_dir "components/interface.untyped.cpp" );
 		// Note(Ed): The Attribute tokens need to be expanded and regenerated on a per-project/installation of this library for a specific codebase of Unreal.
 		// We can support an arbitrary set of modules or plugin apis for parsing
 		// but its up to the user to define them all (This will just provide whats I've used up till now).
 		CodeBody etoktype         = gen_etoktype( project_dir "enums/ETokType.csv", "enums/AttributeTokens.csv" );
 		CodeNS   nspaced_etoktype = def_namespace( name(parser), def_namespace_body( args(etoktype)) );
 		Builder
 		src = Builder::open( "gen/gen.cpp" );
 		src.print_fmt( generation_notice );
 		src.print( push_ignores );
 		src.print( fmt_newline );
 		src.print( src_start );
 		src.print( fmt_newline );
 		src.print_fmt( "GEN_NS_BEGIN\n");
 		src.print( static_data );
 		src.print_fmt( "\n#pragma region AST\n\n" );
 		src.print( ast_case_macros );
 		src.print( ast );
 		src.print( code_serialization );
 		src.print_fmt( "\n#pragma endregion AST\n" );
 		src.print_fmt( "\n#pragma region Interface\n" );
 		src.print( interface );
 		src.print( upfront );
 		src.print_fmt( "\n#pragma region Parsing\n\n" );
 		src.print( dump_to_scratch_and_retireve(nspaced_etoktype) );
 		src.print( lexer );
 		src.print( parser );
 		src.print( parsing_interface );
 		src.print( untyped );
 		src.print_fmt( "\n#pragma endregion Parsing\n\n" );
 		src.print_fmt( "#pragma endregion Interface\n\n" );
 		src.print_fmt( "GEN_NS_END\n\n");
 		src.print( pop_ignores );
 		src.write();
 	}
 	// gen_builder.hpp
 	{
 		Code builder = scan_file( project_dir "auxillary/builder.hpp" );
 		Builder
 		header = Builder::open( "gen/gen.builder.hpp" );
 		header.print_fmt( generation_notice );
 		header.print( push_ignores );
 		header.print( fmt_newline );
 		header.print_fmt( "#pragma once\n\n" );
 		header.print( def_include( txt("gen.hpp") ));
 		header.print_fmt( "\nGEN_NS_BEGIN\n" );
 		header.print( builder );
 		header.print_fmt( "GEN_NS_END\n" );
 		header.print( fmt_newline );
 		header.print( pop_ignores );
 		header.write();
 	}
 	// gen_builder.cpp
 	{
 		Code builder = scan_file( project_dir "auxillary/builder.cpp" );
 		Builder
 		src = Builder::open( "gen/gen.builder.cpp" );
 		src.print_fmt( generation_notice );
 		src.print( push_ignores );
 		src.print( fmt_newline );
 		src.print( def_include( txt("gen.builder.hpp") ) );
 		src.print_fmt( "\nGEN_NS_BEGIN\n" );
 		src.print( builder );
 		src.print_fmt( "\nGEN_NS_END\n" );
 		src.print( fmt_newline );
 		src.print( pop_ignores );
 		src.write();
 	}
 	// gen_scanner.hpp
 	{
 		Code parsing = scan_file( project_dir "dependencies/parsing.hpp" );
 		Code scanner = scan_file( project_dir "auxillary/scanner.hpp" );
 		Builder
 		header = Builder::open( "gen/gen.scanner.hpp" );
 		header.print_fmt( generation_notice );
 		header.print_fmt( "#pragma once\n\n" );
 		header.print( push_ignores );
 		header.print( fmt_newline );
 		header.print( def_include( txt("gen.hpp") ) );
 		header.print_fmt( "\nGEN_NS_BEGIN\n" );
 		header.print( parsing );
 		header.print( scanner );
 		header.print_fmt( "GEN_NS_END\n" );
 		header.print( fmt_newline );
 		header.print( pop_ignores );
 		header.write();
 	}
 	// gen.scanner.cpp
 	{
 		Code parsing = scan_file( project_dir "dependencies/parsing.cpp" );
 		Code scanner = scan_file( project_dir "auxillary/scanner.cpp" );
 		Builder
 		src = Builder::open( "gen/gen.scanner.cpp" );
 		src.print_fmt( generation_notice );
 		src.print( push_ignores );
 		src.print( fmt_newline );
 		src.print( def_include( txt("gen.scanner.hpp") ) );
 		src.print_fmt( "\nGEN_NS_BEGIN\n" );
 		src.print( parsing );
 		// src.print( scanner );
 		src.print_fmt( "GEN_NS_END\n" );
 		src.print( fmt_newline );
 		src.print( pop_ignores );
 		src.write();
 	}
 }
--- a/gencpp.10x
+++ b/gencpp.10x
@ -6,20 +6,22 @@
 		<SyncFiles>true</SyncFiles>
 		<Recursive>true</Recursive>
 		<ShowEmptyFolders>true</ShowEmptyFolders>
 		<IncludeFilesWithoutExt>false</IncludeFilesWithoutExt>
 		<IsVirtual>false</IsVirtual>
 		<IsFolder>false</IsFolder>
 		<BuildCommand>pwsh ./scripts/build.ps1 msvc debug bootstrap</BuildCommand>
 		<RebuildCommand></RebuildCommand>
 		<BuildFileCommand></BuildFileCommand>
-		<CleanCommand>psh ./scripts/clean.ps1</CleanCommand>
+		<CleanCommand>pwsh ./scripts/clean.ps1</CleanCommand>
 		<BuildWorkingDirectory></BuildWorkingDirectory>
 		<CancelBuild></CancelBuild>
-		<RunCommand>./test/gen/build/gencpp.exe</RunCommand>
+		<Exe>./test/gen/build/gencpp.exe</Exe>
-		<RunCommandWorkingDirectory></RunCommandWorkingDirectory>
+		<Args></Args>
 		<WorkingDirectory></WorkingDirectory>
 		<DebugCommand>pwsh ./scripts/build.ps1</DebugCommand>
 		<ExePathCommand>./test/gen/build/gencpp.exe</ExePathCommand>
 		<DebugSln></DebugSln>
 		<UseVisualStudioEnvBat>true</UseVisualStudioEnvBat>
 		<CaptureExeOutput>false</CaptureExeOutput>
 		<Configurations>
 			<Configuration>Debug</Configuration>
 			<Configuration>Release</Configuration>
@ -43,6 +45,9 @@
 			<Define>GEN_TIME</Define>
 			<Define>GEN_SYSTEM_WINDOWS</Define>
 			<Define>GEN_INTELLISENSE_DIRECTIVES</Define>
 			<Define>GEN_EXECUTION_EXPRESSION_SUPPORT</Define>
 			<Define>GEN_BENCHMARK</Define>
 			<Define>GEN_COMPILER_MSVC</Define>
 		</Defines>
 		<ConfigProperties>
 			<ConfigAndPlatform>
--- a/gencpp.vcxproj
+++ b/gencpp.vcxproj
@ -262,6 +262,7 @@
    <ClInclude Include="project\auxillary\scanner.hpp" />
    <ClInclude Include="project\components\ast.hpp" />
    <ClInclude Include="project\components\ast_types.hpp" />
    <ClInclude Include="project\components\code_types.hpp" />
    <ClInclude Include="project\components\gen\ast_inlines.hpp" />
    <ClInclude Include="project\components\gen\ecode.hpp" />
    <ClInclude Include="project\components\gen\eoperator.hpp" />
@ -313,11 +314,14 @@
    <ClCompile Include="project\bootstrap.cpp" />
    <ClCompile Include="project\components\ast.cpp" />
    <ClCompile Include="project\components\ast_case_macros.cpp" />
    <ClCompile Include="project\components\code_serialization.cpp" />
    <ClCompile Include="project\components\gen\etoktype.cpp" />
    <ClCompile Include="project\components\interface.cpp" />
    <ClCompile Include="project\components\interface.parsing.cpp" />
    <ClCompile Include="project\components\interface.untyped.cpp" />
    <ClCompile Include="project\components\interface.upfront.cpp" />
    <ClCompile Include="project\components\lexer.cpp" />
    <ClCompile Include="project\components\parser.cpp" />
    <ClCompile Include="project\components\src_start.cpp" />
    <ClCompile Include="project\components\static_data.cpp" />
    <ClCompile Include="project\dependencies\debug.cpp" />
@ -362,6 +366,9 @@
    <Content Include="scripts\helpers\target_arch.psm1" />
    <Content Include="scripts\refactor.ps1" />
  </ItemGroup>
  <ItemGroup>
    <Folder Include="singleheader\gen\" />
  </ItemGroup>
  <Import Project="$(VCTargetsPath)\Microsoft.Cpp.targets" />
  <ImportGroup Label="ExtensionTargets">
  </ImportGroup>
--- a/gencpp.vcxproj.filters
+++ b/gencpp.vcxproj.filters
@ -42,9 +42,6 @@
    <ClCompile Include="test\test.parsing.cpp">
      <Filter>Source Files</Filter>
    </ClCompile>
    <ClCompile Include="project\components\temp\etoktype.cpp">
      <Filter>Source Files</Filter>
    </ClCompile>
    <ClCompile Include="project\components\ast.cpp">
      <Filter>Source Files</Filter>
    </ClCompile>
@ -66,9 +63,6 @@
    <ClCompile Include="project\components\static_data.cpp">
      <Filter>Source Files</Filter>
    </ClCompile>
    <ClCompile Include="project\components\untyped.cpp">
      <Filter>Source Files</Filter>
    </ClCompile>
    <ClCompile Include="project\bootstrap.cpp">
      <Filter>Source Files</Filter>
    </ClCompile>
@ -132,6 +126,18 @@
    <ClCompile Include="project\components\gen\etoktype.cpp">
      <Filter>Source Files</Filter>
    </ClCompile>
    <ClCompile Include="project\Example.cpp">
      <Filter>Source Files</Filter>
    </ClCompile>
    <ClCompile Include="project\components\parser.cpp">
      <Filter>Source Files</Filter>
    </ClCompile>
    <ClCompile Include="project\components\lexer.cpp">
      <Filter>Source Files</Filter>
    </ClCompile>
    <ClCompile Include="project\components\code_serialization.cpp">
      <Filter>Source Files</Filter>
    </ClCompile>
  </ItemGroup>
  <ItemGroup>
    <ClInclude Include="project\gen.hpp">
@ -182,18 +188,6 @@
    <ClInclude Include="test\upfront.hpp">
      <Filter>Header Files</Filter>
    </ClInclude>
    <ClInclude Include="project\components\temp\ast_inlines.hpp">
      <Filter>Header Files</Filter>
    </ClInclude>
    <ClInclude Include="project\components\temp\ecode.hpp">
      <Filter>Header Files</Filter>
    </ClInclude>
    <ClInclude Include="project\components\temp\eoperator.hpp">
      <Filter>Header Files</Filter>
    </ClInclude>
    <ClInclude Include="project\components\temp\especifier.hpp">
      <Filter>Header Files</Filter>
    </ClInclude>
    <ClInclude Include="project\components\ast.hpp">
      <Filter>Header Files</Filter>
    </ClInclude>
@ -293,6 +287,9 @@
    <ClInclude Include="test\CURSED_TYPEDEF.h">
      <Filter>Header Files</Filter>
    </ClInclude>
    <ClInclude Include="project\components\code_types.hpp">
      <Filter>Header Files</Filter>
    </ClInclude>
  </ItemGroup>
  <ItemGroup>
    <None Include=".editorconfig" />
@ -305,7 +302,6 @@
    <None Include="test\Readme.md" />
    <None Include="scripts\genccp.natstepfilter" />
    <None Include="scripts\gencpp.refactor" />
    <None Include="project\components\temp\Readme.md" />
    <None Include="project\enums\AttributeTokens.csv" />
    <None Include="project\enums\ECode.csv" />
    <None Include="project\enums\EOperator.csv" />
--- a/project/Readme.md
+++ b/project/Readme.md
@ -10,8 +10,7 @@ Just like the `gen.<hpp/cpp>` they include their components: `dependencies/<depe
 Code not making up the core library is located in `auxiliary/<auxiliary_name>.<hpp/cpp>`. These are optional extensions or tools for the library.
-**TODO : Right now the library is not finished, as such the first self-hosting iteration is still WIP**  
+Both libraries use *pre-generated* (self-hosting I guess) version of the library to then generate the latest version of itself.
 Both libraries use *pre-generated* (self-hosting I guess) version of the library to then generate the latest version of itself.  
 The default `gen.bootstrap.cpp` located in the project folder is meant to be produce a standard segmented library, where the components of the library  
 have relatively dedicated header and source files. Dependencies included at the top of the file and each header starting with a pragma once.  
@ -31,6 +30,13 @@ Feature Macros:
 * `GEN_ROLL_OWN_DEPENDENCIES` : Optional override so that user may define the dependencies themselves.
 * `GEN_DONT_ALLOW_INVALID_CODE` (Not implemented yet) : Will fail when an invalid code is constructed, parsed, or serialized.
 By default the base library implementation strictly uses a C-like interface. This is to allow for the generation of a C-variant of the library using [gen_c_library](../gen_c_library/). However, the library was written in C++ and supports some of its features:
 * `GEN_SUPPORT_CPP_REFERENCES` : Will enable support for reference interface on some definitions
 * `GEN_SUPPORT_CPP_MEMBER_FEATURES` : Will enable support for definitions to have their interface as members.
 *Note: A variant of the C++ library could be generated where those additonal support features are removed (see gen_c_library implementation for an idea of how)*
 ## On multi-threading
 Currently unsupported. I want the library to be *stable* and *correct*, with the addition of exhausting all basic single-threaded optimizations before I consider multi-threading.
@ -52,7 +58,7 @@ Names or Content fields are interned strings and thus showed be cached using `ge
 The library has its code segmented into component files, use it to help create a derived version without needing to have to rewrite a generated file directly or build on top of the header via composition or inheritance.
-The parser is documented under `docs/Parsing.md` and `docs/Parser_Algo.md`.  
+The parser is documented under `docs/Parsing.md` and `docs/Parser_Algo.md`.
 ## A note on compilation and runtime generation speed
--- a/project/auxillary/builder.cpp
+++ b/project/auxillary/builder.cpp
@ -7,14 +7,13 @@ Builder Builder::open( char const* path )
 	Builder result;
 	FileError error = file_open_mode( & result.File, EFileMode_WRITE, path );
 	if ( error != EFileError_NONE )
 	{
 		log_failure( "gen::File::open - Could not open file: %s", path);
 		return result;
 	}
-	result.Buffer = String::make_reserve( GlobalAllocator, Builder_StrBufferReserve );
+	result.Buffer = string_make_reserve( GlobalAllocator, Builder_StrBufferReserve );
 	// log_fmt("$Builder - Opened file: %s\n", result.File.filename );
 	return result;
@ -22,20 +21,20 @@ Builder Builder::open( char const* path )
 void Builder::pad_lines( s32 num )
 {
-	Buffer.append( "\n" );
+	append( & Buffer,  "\n" );
 }
 void Builder::print( Code code )
 {
-	String   str = code->to_string();
+	String   str = to_string(code);
-	// const sw len = str.length();
+	// const ssize len = str.length();
 	// log_fmt( "%s - print: %.*s\n", File.filename, len > 80 ? 80 : len, str.Data );
-	Buffer.append( str );
+	append( & Buffer, str );
 }
 void Builder::print_fmt( char const* fmt, ... )
 {
-	sw   res;
+	ssize   res;
 	char buf[ GEN_PRINTF_MAXLEN ] = { 0 };
 	va_list va;
@ -44,17 +43,17 @@ void Builder::print_fmt( char const* fmt, ... )
 	va_end( va );
 	// log_fmt( "$%s - print_fmt: %.*s\n", File.filename, res > 80 ? 80 : res, buf );
-	Buffer.append( buf, res );
+	append( & Buffer, buf, res );
 }
 void Builder::write()
 {
-	bool result = file_write( & File, Buffer, Buffer.length() );
+	b32 result = file_write( & File, Buffer, length(Buffer) );
 	if ( result == false )
 		log_failure("gen::File::write - Failed to write to file: %s\n", file_name( & File ) );
 	log_fmt( "Generated: %s\n", File.filename );
 	file_close( & File );
-	Buffer.free();
+	free(& Buffer);
 }
--- a/project/auxillary/gen_template.hpp
+++ b/project/auxillary/gen_template.hpp
@ -0,0 +1,23 @@
 #ifdef GEN_INTELLISENSE_DIRECTIVES
 #	pragma once
 #	include "../gen.hpp"
 #endif
 /*
 	Explicitly generates a resolved definition of a cpp template definition.
 	TODO(Ed): Needs implementing for the C-library variant.
 	TODO(Ed): We need a non <token> syntax subst implemtnation for Strings for this to work. It must subst keywords directly based on template parameter names.
 	This is only meant to be used on relatively trivial templates, where the type or numeric is mostly a 'duck' type.
 	It cannot parse complex template parameters.
 	The varadic args should correspond 1:1 with the type of objects the generator expects from the template's parameters.alignas.
 */
 CodeOperator gen_operator_template( CodeTemplate template, ... );
 CodeFn       gen_func_template( CodeTemplate template, ...  );
 Code         gen_class_struct_template( CodeTemplate template, ... );
 Code gen_template( CodeTemplate template, ... );
 Code gen_template( StrC template, StrC instantiation );
--- a/project/auxillary/scanner.cpp
+++ b/project/auxillary/scanner.cpp
@ -1 +1,5 @@
-#include "scanner.hpp"
+#ifdef GEN_INTELLISENSE_DIRECTIVES
 #	include "scanner.hpp"
 #endif
--- a/project/auxillary/scanner.hpp
+++ b/project/auxillary/scanner.hpp
@ -6,6 +6,7 @@
 // This is a simple file reader that reads the entire file into memory.
 // It has an extra option to skip the first few lines for undesired includes.
 // This is done so that includes can be kept in dependency and component files so that intellisense works.
 inline
 Code scan_file( char const* path )
 {
 	FileInfo file;
@ -16,15 +17,15 @@ Code scan_file( char const* path )
 		GEN_FATAL( "scan_file: Could not open: %s", path );
 	}
-	sw fsize = file_size( & file );
+	ssize fsize = file_size( & file );
 	if ( fsize <= 0 )
 	{
 		GEN_FATAL("scan_file: %s is empty", path );
 	}
-	String str = String::make_reserve( GlobalAllocator, fsize );
+	String str = string_make_reserve( GlobalAllocator, fsize );
 		file_read( & file, str, fsize );
-		str.get_header().Length = fsize;
+		get_header(str)->Length = fsize;
 	// Skip GEN_INTELLISENSE_DIRECTIVES preprocessor blocks
 	// Its designed so that the directive should be the first thing in the file.
@ -96,12 +97,12 @@ Code scan_file( char const* path )
 					if ( (scanner + 2) >= ( str.Data + fsize ) )
 					{
 						mem_move( str, scanner, left );
-						str.get_header().Length = left;
+						get_header(str)->Length = left;
 						break;
 					}
 					mem_move( str, scanner, left );
-					str.get_header().Length = left;
+					get_header(str)->Length = left;
 					break;
 				}
--- a/project/auxillary/vis_ast/build.ps1
+++ b/project/auxillary/vis_ast/build.ps1
@ -1,106 +0,0 @@
 Clear-Host
 $path_root     = git rev-parse --show-toplevel
 $path_scripts  = Join-Path $path_root 'scripts'
 $target_arch        = Join-Path $path_scripts 'helpers/target_arch.psm1'
 $devshell           = Join-Path $path_scripts 'helpers/devshell.ps1'
 $format_cpp	        = Join-Path $path_scripts 'helpers/format_cpp.psm1'
 $incremental_checks = Join-Path $path_scripts 'helpers/incremental_checks.ps1'
 $vendor_toolchain   = Join-Path $path_scripts 'helpers/vendor_toolchain.ps1'
 $path_project  = Join-Path $path_root     'project'
 $path_aux      = Join-Path $path_project  'auxillary'
 $path_vis_root = Join-Path $path_aux      'vis_ast'
 $path_binaries = Join-Path $path_vis_root 'binaries'
 $path_build    = Join-Path $path_vis_root 'build'
 $path_code     = Join-Path $path_vis_root 'code'
 $path_win32    = Join-Path $path_code     'win32'
 Import-Module $target_arch
 Import-Module $format_cpp
 #region Arguments
 $vendor           = $null
 $optimize         = $null
 $debug 	          = $null
 $analysis	      = $false
 $dev              = $false
 $verbose          = $null
 $platform         = $null
 $module_specified = $false
 [array] $vendors = @( "clang", "msvc" )
 # This is a really lazy way of parsing the args, could use actual params down the line...
 if ( $args ) { $args | ForEach-Object {
 switch ($_){
 { $_ -in $vendors }   { $vendor    = $_; break }
 "optimize"            { $optimize  = $true }
 "debug"               { $debug     = $true }
 "analysis"            { $analysis  = $true }
 "dev"                 { $dev       = $true }
 "verbose"             { $verbose   = $true }
 "platform"            { $platform  = $true; $module_specified = $true }
 }
 }}
 #endregion Argument
 if ( -not $module_specified )
 {
 	$platform = $true
 }
 # Load up toolchain configuraion
 . $vendor_toolchain
 . $incremental_checks
 write-host "Building Vis AST with $vendor"
 if ( (Test-Path $path_build) -eq $false ) {
 	New-Item $path_build -ItemType Directory
 }
 if ( (Test-Path $path_binaries) -eq $false ) {
 	New-Item $path_binaries -ItemType Directory
 }
 $includes = @(
 	$paht_code
 )
 # Microsoft
 $lib_gdi32  = 'Gdi32.lib'
 $lib_xinput = 'Xinput.lib'
 $lib_user32 = 'User32.lib'
 $lib_winmm  = 'Winmm.lib'
 $stack_size = 1024 * 1024 * 4
 $compiler_args = @(
 	($flag_define + 'UNICODE'),
 	($flag_define + '_UNICODE')
 	( $flag_define + 'INTELLISENSE_DIRECTIVES=0'),
 	# ($flag_set_stack_size + $stack_size)
 	$flag_wall
 	$flag_warnings_as_errors
 	$flag_optimize_intrinsics
 )
 if ( $dev ) {
 	$compiler_args += ( $flag_define + 'Build_Development=1' )
 }
 else {
 	$compiler_args += ( $flag_define + 'Build_Development=0' )
 }
 $linker_args = @(
 	$flag_link_win_subsystem_windows,
 	$flag_link_optiiize_references
 )
 $unit       = join-path $path_code     'vis_ast_windows.cpp'
 $executable = join-path $path_binaries 'vis_ast.exe'
 $build_result = build-simple $path_build $includes $compiler_args $linker_args $unit $executable
--- a/project/auxillary/vis_ast/code/platform/macros.hpp
+++ b/project/auxillary/vis_ast/code/platform/macros.hpp
@ -1,24 +0,0 @@
 #if INTELLISENSE_DIRECTIVES
 #include "vendor/compiler.hpp"
 #endif
 #define global        static // Global variables
 #define internal      static // Internal linkage
 #define local_persist static // Local Persisting variables
 #define api_c extern "C"
 #define ccast( type, value ) ( const_cast< type >( (value) ) )
 #define pcast( type, value ) ( * reinterpret_cast< type* >( & ( value ) ) )
 #define rcast( type, value ) reinterpret_cast< type >( value )
 #define scast( type, value ) static_cast< type >( value )
 #define do_once()   for ( local_persist b32 once = true; once; once = false )
 #define stmt( ... ) do { __VA_ARGS__; } while ( 0 )
 #define array_count( array ) ( sizeof( array ) / sizeof( ( array )[0] ) )
 #define kilobytes( x ) ( ( x ) * ( s64 )( 1024 ) )
 #define megabytes( x ) ( kilobytes( x ) * ( s64 )( 1024 ) )
 #define gigabytes( x ) ( megabytes( x ) * ( s64 )( 1024 ) )
 #define terabytes( x ) ( gigabytes( x ) * ( s64 )( 1024 ) )
--- a/project/auxillary/vis_ast/code/platform/vendor/arch.hpp
+++ b/project/auxillary/vis_ast/code/platform/vendor/arch.hpp
@ -1,9 +0,0 @@
 // Platform architecture
 #if defined( _WIN64 ) || defined( __x86_64__ ) || defined( _M_X64 ) || defined( __64BIT__ ) || defined( __powerpc64__ ) || defined( __ppc64__ ) || defined( __aarch64__ )
 #	ifndef ARCH_64_BIT
 #		define ARCH_64_BIT 1
 #	endif
 #else
 #	error A 32-bit architecture is not supported
 #endif
--- a/project/auxillary/vis_ast/code/platform/vendor/compiler.hpp
+++ b/project/auxillary/vis_ast/code/platform/vendor/compiler.hpp
@ -1,21 +0,0 @@
 // Platform compiler
 #if defined( _MSC_VER )
 #	define Compiler_MSVC 1
 #elif defined( __clang__ )
 #	define Compiler_Clang 1
 #else
 #	error "Unknown compiler"
 #endif
 #if defined( __has_attribute )
 #	define HAS_ATTRIBUTE( attribute ) __has_attribute( attribute )
 #else
 #	define HAS_ATTRIBUTE( attribute ) ( 0 )
 #endif
 #ifdef Compiler_Clang
 #	define compiler_decorated_func_name __PRETTY_NAME__
 #elif defined(Compiler_MSVC)
 #	define compiler_decorated_func_name __FUNCDNAME__
 #endif
--- a/project/auxillary/vis_ast/code/platform/vendor/compiler_ignores.hpp
+++ b/project/auxillary/vis_ast/code/platform/vendor/compiler_ignores.hpp
@ -1,34 +0,0 @@
 #pragma once
 #if INTELLISENSE_DIRECTIVES
 #include "compiler.hpp"
 #endif
 #ifdef Compiler_MSVC
 #pragma warning( disable: 4201 ) // Support for non-standard nameless struct or union extesnion
 #pragma warning( disable: 4100 ) // Support for unreferenced formal parameters
 #pragma warning( disable: 4800 ) // Support implicit conversion to bools
 #pragma warning( disable: 4365 ) // Support for signed/unsigned mismatch auto-conversion
 #pragma warning( disable: 4189 ) // Support for unused variables
 #pragma warning( disable: 4514 ) // Support for unused inline functions
 #pragma warning( disable: 4505 ) // Support for unused static functions
 #pragma warning( disable: 5045 ) // Compiler will insert Spectre mitigation for memory load if /Qspectre switch specified
 #pragma warning( disable: 5264 ) // Support for 'const' variables unused
 #pragma warning( disable: 4820 ) // Support auto-adding padding to structs
 #pragma warning( disable: 4711 ) // Support automatic inline expansion
 #pragma warning( disable: 4710 ) // Support automatic inline expansion
 #pragma warning( disable: 4805 ) // Support comparisons of s32 to bool.
 #pragma warning( disable: 5246 ) // Support for initialization of subobject without braces.
 #endif
 #ifdef Compiler_Clang
 #pragma clang diagnostic push
 #pragma clang diagnostic ignored "-Wunused-const-variable"
 #pragma clang diagnostic ignored "-Wswitch"
 #pragma clang diagnostic ignored "-Wunused-variable"
 #pragma clang diagnostic ignored "-Wunused-local-typedef"
 #pragma clang diagnostic ignored "-Wunknown-pragmas"
 #pragma clang diagnostic ignored "-Wvarargs"
 #pragma clang diagnostic ignored "-Wunused-function"
 #pragma clang diagnostic ignored "-Wunused-but-set-variable"
 #pragma clang diagnostic ignored "-Wmissing-braces"
 #endif
--- a/project/auxillary/vis_ast/code/platform/vendor/os.hpp
+++ b/project/auxillary/vis_ast/code/platform/vendor/os.hpp
@ -1,21 +0,0 @@
 // Platform OS detection
 #if defined( _WIN32 ) || defined( _WIN64 )
 #	ifndef System_Windows
 #		define System_Windows 1
 #	endif
 #elif defined( __APPLE__ ) && defined( __MACH__ )
 #	ifndef System_MacOS
 #		define System_MacOS 1
 #	endif
 #elif defined( __unix__ )
 #	if defined( __linux__ )
 #		ifndef System_Linux
 #			define System_linux 1
 #		endif
 #	else
 #		error This UNIX operating system is not supported
 #	endif
 #else
 #	error This operating system is not supported
 #endif
--- a/project/auxillary/vis_ast/code/platform/win32/launch.cpp
+++ b/project/auxillary/vis_ast/code/platform/win32/launch.cpp
@ -1,8 +0,0 @@
 #if INTELLISENSE_DIRECTIVES
 #include "win32.hpp"
 #endif
 int __stdcall WinMain( HINSTANCE instance, HINSTANCE prev_instance, char* commandline, int num_cmd_show)
 {
 	return 0;
 }
--- a/project/auxillary/vis_ast/code/platform/win32/types.hpp
+++ b/project/auxillary/vis_ast/code/platform/win32/types.hpp
@ -1 +0,0 @@
 using HINSTANCE = void*;
--- a/project/auxillary/vis_ast/code/vis_ast_windows.cpp
+++ b/project/auxillary/vis_ast/code/vis_ast_windows.cpp
@ -1,10 +0,0 @@
 #include "platform/vendor/arch.hpp"
 #include "platform/vendor/compiler.hpp"
 #include "platform/vendor/compiler_ignores.hpp"
 #include "platform/vendor/os.hpp"
 #include "platform/macros.hpp"
 #include "platform/win32/types.hpp"
 #include "platform/win32/launch.cpp"
--- a/project/auxillary/vis_ast/dependencies/raylib/include/config.h
+++ b/project/auxillary/vis_ast/dependencies/raylib/include/config.h
@ -1,226 +0,0 @@
 /**********************************************************************************************
 *
 *   raylib configuration flags
 *
 *   This file defines all the configuration flags for the different raylib modules
 *
 *   LICENSE: zlib/libpng
 *
 *   Copyright (c) 2018-2023 Ahmad Fatoum & Ramon Santamaria (@raysan5)
 *
 *   This software is provided "as-is", without any express or implied warranty. In no event
 *   will the authors be held liable for any damages arising from the use of this software.
 *
 *   Permission is granted to anyone to use this software for any purpose, including commercial
 *   applications, and to alter it and redistribute it freely, subject to the following restrictions:
 *
 *     1. The origin of this software must not be misrepresented; you must not claim that you
 *     wrote the original software. If you use this software in a product, an acknowledgment
 *     in the product documentation would be appreciated but is not required.
 *
 *     2. Altered source versions must be plainly marked as such, and must not be misrepresented
 *     as being the original software.
 *
 *     3. This notice may not be removed or altered from any source distribution.
 *
 **********************************************************************************************/
 #ifndef CONFIG_H
 #define RL_CONFIG_H
 //------------------------------------------------------------------------------------
 // Module selection - Some modules could be avoided
 // Mandatory modules: rcore, rlgl, utils
 //------------------------------------------------------------------------------------
 #define RL_SUPPORT_MODULE_RSHAPES   1
 #define RL_SUPPORT_MODULE_RTEXTURES 1
 #define RL_SUPPORT_MODULE_RTEXT     1    // WARNING: It requires SUPPORT_MODULE_RTEXTURES to load sprite font textures
 #define RL_SUPPORT_MODULE_RMODELS   1
 #define RL_SUPPORT_MODULE_RAUDIO    1
 //------------------------------------------------------------------------------------
 // Module: rcore - Configuration Flags
 //------------------------------------------------------------------------------------
 // Camera module is included (rcamera.h) and multiple predefined cameras are available: free, 1st/3rd person, orbital
 #define RL_SUPPORT_CAMERA_SYSTEM 1
 // Gestures module is included (rgestures.h) to support gestures detection: tap, hold, swipe, drag
 #define RL_SUPPORT_GESTURES_SYSTEM 1
 // Mouse gestures are directly mapped like touches and processed by gestures system
 #define RL_SUPPORT_MOUSE_GESTURES 1
 // Reconfigure standard input to receive key inputs, works with SSH connection.
 #define RL_SUPPORT_SSH_KEYBOARD_RPI 1
 // Setting a higher resolution can improve the accuracy of time-out intervals in wait functions.
 // However, it can also reduce overall system performance, because the thread scheduler switches tasks more often.
 #define RL_SUPPORT_WINMM_HIGHRES_TIMER 1
 // Use busy wait loop for timing sync, if not defined, a high-resolution timer is set up and used
 // #define SUPPORT_BUSY_WAIT_LOOP          1
 // Use a partial-busy wait loop, in this case frame sleeps for most of the time, but then runs a busy loop at the end for accuracy
 #define RL_SUPPORT_PARTIALBUSY_WAIT_LOOP 1
 // Allow automatic screen capture of current screen pressing F12, defined in KeyCallback()
 #define RL_SUPPORT_SCREEN_CAPTURE 1
 // Allow automatic gif recording of current screen pressing CTRL+F12, defined in KeyCallback()
 #define RL_SUPPORT_GIF_RECORDING 1
 // Support CompressData() and DecompressData() functions
 #define RL_SUPPORT_COMPRESSION_API 1
 // Support automatic generated events, loading and recording of those events when required
 // #define SUPPORT_EVENTS_AUTOMATION       1
 // Support custom frame control, only for advance users
 // By default EndDrawing() does this job: draws everything + SwapScreenBuffer() + manage frame timing + PollInputEvents()
 // Enabling this flag allows manual control of the frame processes, use at your own risk
 // #define SUPPORT_CUSTOM_FRAME_CONTROL    1
 // rcore: Configuration values
 //------------------------------------------------------------------------------------
 #define RL_MAX_FILEPATH_CAPACITY  8192    // Maximum file paths capacity
 #define RL_MAX_FILEPATH_LENGTH    4096    // Maximum length for filepaths (Linux PATH_MAX default value)
 #define RL_MAX_KEYBOARD_KEYS      512    // Maximum number of keyboard keys supported
 #define RL_MAX_MOUSE_BUTTONS      8      // Maximum number of mouse buttons supported
 #define RL_MAX_GAMEPADS           4      // Maximum number of gamepads supported
 #define RL_MAX_GAMEPAD_AXIS       8      // Maximum number of axis supported (per gamepad)
 #define RL_MAX_GAMEPAD_BUTTONS    32     // Maximum number of buttons supported (per gamepad)
 #define RL_MAX_TOUCH_POINTS       8      // Maximum number of touch points supported
 #define RL_MAX_KEY_PRESSED_QUEUE  16     // Maximum number of keys in the key input queue
 #define RL_MAX_CHAR_PRESSED_QUEUE 16     // Maximum number of characters in the char input queue
 #define RL_MAX_DECOMPRESSION_SIZE 64    // Max size allocated for decompression in MB
 //------------------------------------------------------------------------------------
 // Module: rlgl - Configuration values
 //------------------------------------------------------------------------------------
 // Enable OpenGL Debug Context (only available on OpenGL 4.3)
 // #define RLGL_ENABLE_OPENGL_DEBUG_CONTEXT       1
 // Show OpenGL extensions and capabilities detailed logs on init
 // #define RLGL_SHOW_GL_DETAILS_INFO              1
 // #define RL_DEFAULT_BATCH_BUFFER_ELEMENTS    4096    // Default internal render batch elements limits
 // Default shader vertex attribute names to set location points
 // NOTE: When a new shader is loaded, the following locations are tried to be set for convenience
 //------------------------------------------------------------------------------------
 // Module: rshapes - Configuration Flags
 //------------------------------------------------------------------------------------
 // Use QUADS instead of TRIANGLES for drawing when possible
 // Some lines-based shapes could still use lines
 #define RL_SUPPORT_QUADS_DRAW_MODE 1
 //------------------------------------------------------------------------------------
 // Module: rtextures - Configuration Flags
 //------------------------------------------------------------------------------------
 // Selecte desired fileformats to be supported for image data loading
 #define RL_SUPPORT_FILEFORMAT_PNG 1
 // #define SUPPORT_FILEFORMAT_BMP      1
 // #define SUPPORT_FILEFORMAT_TGA      1
 // #define SUPPORT_FILEFORMAT_JPG      1
 #define RL_SUPPORT_FILEFORMAT_GIF 1
 #define RL_SUPPORT_FILEFORMAT_QOI 1
 // #define SUPPORT_FILEFORMAT_PSD      1
 #define RL_SUPPORT_FILEFORMAT_DDS 1
 // #define SUPPORT_FILEFORMAT_HDR      1
 // #define SUPPORT_FILEFORMAT_PIC          1
 // #define SUPPORT_FILEFORMAT_KTX      1
 // #define SUPPORT_FILEFORMAT_ASTC     1
 // #define SUPPORT_FILEFORMAT_PKM      1
 // #define SUPPORT_FILEFORMAT_PVR      1
 // #define SUPPORT_FILEFORMAT_SVG      1
 // Support image export functionality (.png, .bmp, .tga, .jpg, .qoi)
 #define RL_SUPPORT_IMAGE_EXPORT 1
 // Support procedural image generation functionality (gradient, spot, perlin-noise, cellular)
 #define RL_SUPPORT_IMAGE_GENERATION 1
 // Support multiple image editing functions to scale, adjust colors, flip, draw on images, crop...
 // If not defined, still some functions are supported: ImageFormat(), ImageCrop(), ImageToPOT()
 #define RL_SUPPORT_IMAGE_MANIPULATION 1
 //------------------------------------------------------------------------------------
 // Module: rtext - Configuration Flags
 //------------------------------------------------------------------------------------
 // Default font is loaded on window initialization to be available for the user to render simple text
 // NOTE: If enabled, uses external module functions to load default raylib font
 #define RL_SUPPORT_DEFAULT_FONT 1
 // Selected desired font fileformats to be supported for loading
 #define RL_SUPPORT_FILEFORMAT_FNT 1
 #define RL_SUPPORT_FILEFORMAT_TTF 1
 // Support text management functions
 // If not defined, still some functions are supported: TextLength(), TextFormat()
 #define RL_SUPPORT_TEXT_MANIPULATION 1
 // On font atlas image generation [GenImageFontAtlas()], add a 3x3 pixels white rectangle
 // at the bottom-right corner of the atlas. It can be useful to for shapes drawing, to allow
 // drawing text and shapes with a single draw call [SetShapesTexture()].
 #define RL_SUPPORT_FONT_ATLAS_WHITE_REC 1
 // rtext: Configuration values
 //------------------------------------------------------------------------------------
 #define RL_MAX_TEXT_BUFFER_LENGTH 1024    // Size of internal static buffers used on some functions:
 // TextFormat(), TextSubtext(), TextToUpper(), TextToLower(), TextToPascal(), TextSplit()
 #define RL_MAX_TEXTSPLIT_COUNT 128    // Maximum number of substrings to split: TextSplit()
 //------------------------------------------------------------------------------------
 // Module: rmodels - Configuration Flags
 //------------------------------------------------------------------------------------
 // Selected desired model fileformats to be supported for loading
 #define RL_SUPPORT_FILEFORMAT_OBJ  1
 #define RL_SUPPORT_FILEFORMAT_MTL  1
 #define RL_SUPPORT_FILEFORMAT_IQM  1
 #define RL_SUPPORT_FILEFORMAT_GLTF 1
 #define RL_SUPPORT_FILEFORMAT_VOX  1
 #define RL_SUPPORT_FILEFORMAT_M3D  1
 // Support procedural mesh generation functions, uses external par_shapes.h library
 // NOTE: Some generated meshes DO NOT include generated texture coordinates
 #define RL_SUPPORT_MESH_GENERATION 1
 // rmodels: Configuration values
 //------------------------------------------------------------------------------------
 #define RL_MAX_MATERIAL_MAPS       12    // Maximum number of shader maps supported
 #define RL_MAX_MESH_VERTEX_BUFFERS 7     // Maximum vertex buffers (VBO) per mesh
 //------------------------------------------------------------------------------------
 // Module: raudio - Configuration Flags
 //------------------------------------------------------------------------------------
 // Desired audio fileformats to be supported for loading
 #define RL_SUPPORT_FILEFORMAT_WAV 1
 #define RL_SUPPORT_FILEFORMAT_OGG 1
 #define RL_SUPPORT_FILEFORMAT_MP3 1
 #define RL_SUPPORT_FILEFORMAT_QOA 1
 // #define SUPPORT_FILEFORMAT_FLAC         1
 #define RL_SUPPORT_FILEFORMAT_XM  1
 #define RL_SUPPORT_FILEFORMAT_MOD 1
 // raudio: Configuration values
 //------------------------------------------------------------------------------------
 #define RL_AUDIO_DEVICE_FORMAT            ma_format_f32    // Device output format (miniaudio: float-32bit)
 #define RL_AUDIO_DEVICE_CHANNELS          2                // Device output channels: stereo
 #define RL_AUDIO_DEVICE_SAMPLE_RATE       0                // Device sample rate (device default)
 #define RL_MAX_AUDIO_BUFFER_POOL_CHANNELS 16    // Maximum number of audio pool channels
 //------------------------------------------------------------------------------------
 // Module: utils - Configuration Flags
 //------------------------------------------------------------------------------------
 // Standard file io library (stdio.h) included
 #define RL_SUPPORT_STANDARD_FILEIO 1
 // Show TRACELOG() output messages
 // NOTE: By default LOG_DEBUG traces not shown
 #define RL_SUPPORT_TRACELOG 1
 // #define SUPPORT_TRACELOG_DEBUG          1
 // utils: Configuration values
 //------------------------------------------------------------------------------------
 #define RL_MAX_TRACELOG_MSG_LENGTH 256    // Max length of one trace-log message
 #endif
 // CONFIG_H
--- a/project/auxillary/vis_ast/dependencies/raylib/include/raylib.h
+++ b/project/auxillary/vis_ast/dependencies/raylib/include/raylib.h
--- a/project/auxillary/vis_ast/dependencies/raylib/include/raymath.h
+++ b/project/auxillary/vis_ast/dependencies/raylib/include/raymath.h
--- a/project/auxillary/vis_ast/dependencies/raylib/include/rcamera.h
+++ b/project/auxillary/vis_ast/dependencies/raylib/include/rcamera.h
@ -1,595 +0,0 @@
 /*******************************************************************************************
 *
 *   rcamera - Basic camera system with support for multiple camera modes
 *
 *   CONFIGURATION:
 *       #define RCAMERA_IMPLEMENTATION
 *           Generates the implementation of the library into the included file.
 *           If not defined, the library is in header only mode and can be included in other headers
 *           or source files without problems. But only ONE file should hold the implementation.
 *
 *       #define RCAMERA_STANDALONE
 *           If defined, the library can be used as standalone as a camera system but some
 *           functions must be redefined to manage inputs accordingly.
 *
 *   CONTRIBUTORS:
 *       Ramon Santamaria:   Supervision, review, update and maintenance
 *       Christoph Wagner:   Complete redesign, using raymath (2022)
 *       Marc Palau:         Initial implementation (2014)
 *
 *
 *   LICENSE: zlib/libpng
 *
 *   Copyright (c) 2022-2023 Christoph Wagner (@Crydsch) & Ramon Santamaria (@raysan5)
 *
 *   This software is provided "as-is", without any express or implied warranty. In no event
 *   will the authors be held liable for any damages arising from the use of this software.
 *
 *   Permission is granted to anyone to use this software for any purpose, including commercial
 *   applications, and to alter it and redistribute it freely, subject to the following restrictions:
 *
 *     1. The origin of this software must not be misrepresented; you must not claim that you
 *     wrote the original software. If you use this software in a product, an acknowledgment
 *     in the product documentation would be appreciated but is not required.
 *
 *     2. Altered source versions must be plainly marked as such, and must not be misrepresented
 *     as being the original software.
 *
 *     3. This notice may not be removed or altered from any source distribution.
 *
 **********************************************************************************************/
 #ifndef RCAMERA_H
 #define RL_RCAMERA_H
 //----------------------------------------------------------------------------------
 // Defines and Macros
 //----------------------------------------------------------------------------------
 // Function specifiers definition
 // Function specifiers in case library is build/used as a shared library (Windows)
 // NOTE: Microsoft specifiers to tell compiler that symbols are imported/exported from a .dll
 #if defined( _WIN32 )
 #if defined( BUILD_LIBTYPE_SHARED )
 #if defined( __TINYC__ )
 #define RL___declspec( x ) __attribute__( ( x ) )
 #endif
 #elif defined( USE_LIBTYPE_SHARED )
 #endif
 #endif
 #ifndef RLAPI
 #endif
 #if defined( RCAMERA_STANDALONE )
 #define RL_CAMERA_CULL_DISTANCE_NEAR 0.01
 #define RL_CAMERA_CULL_DISTANCE_FAR  1000.0
 #else
 #define RL_CAMERA_CULL_DISTANCE_NEAR RL_CULL_DISTANCE_NEAR
 #define RL_CAMERA_CULL_DISTANCE_FAR  RL_CULL_DISTANCE_FAR
 #endif
 //----------------------------------------------------------------------------------
 // Types and Structures Definition
 // NOTE: Below types are required for standalone usage
 //----------------------------------------------------------------------------------
 #if defined( RCAMERA_STANDALONE )
 // Vector2, 2 components
 typedef struct Vector2
 {
 	f32 x;    // Vector x component
 	f32 y;    // Vector y component
 } Vector2;
 // Vector3, 3 components
 typedef struct Vector3
 {
 	f32 x;    // Vector x component
 	f32 y;    // Vector y component
 	f32 z;    // Vector z component
 } Vector3;
 // Matrix, 4x4 components, column major, OpenGL style, right-handed
 typedef struct Matrix
 {
 	f32 m0, m4, m8, m12;     // Matrix first row (4 components)
 	f32 m1, m5, m9, m13;     // Matrix second row (4 components)
 	f32 m2, m6, m10, m14;    // Matrix third row (4 components)
 	f32 m3, m7, m11, m15;    // Matrix fourth row (4 components)
 } Matrix;
 // Camera type, defines a camera position/orientation in 3d space
 typedef struct Camera3D
 {
 	Vector3 position;      // Camera position
 	Vector3 target;        // Camera target it looks-at
 	Vector3 up;            // Camera up vector (rotation over its axis)
 	f32     fovy;          // Camera field-of-view apperture in Y (degrees) in perspective, used as near plane width in orthographic
 	s32     projection;    // Camera projection type: CAMERA_PERSPECTIVE or CAMERA_ORTHOGRAPHIC
 } Camera3D;
 typedef Camera3D Camera;    // Camera type fallback, defaults to Camera3D
 // Camera projection
 typedef enum
 {
 	Camera_Perspective = 0,    // Perspective projection
 	Camera_Orthographic        // orthographic projection
 } CameraProjection;
 // Camera system modes
 typedef enum
 {
 	Camera_Custom = 0,      // Camera custom, controlled by user (UpdateCamera() does nothing)
 	Camera_Free,            // Camera free mode
 	Camera_Orbital,         // Camera orbital, around target, zoom supported
 	Camera_First_Person,    // Camera first person
 	Camera_Third_Person     // camera third person
 } CameraMode;
 #endif
 //----------------------------------------------------------------------------------
 // Global Variables Definition
 //----------------------------------------------------------------------------------
 //...
 //----------------------------------------------------------------------------------
 // Module Functions Declaration
 //----------------------------------------------------------------------------------
 #if defined( __cplusplus )
 namespace raylib
 {
 	extern "C"
 	{
 // Prevents name mangling of functions
 #endif
 		RLAPI Vector3 get_camera_forward( Camera* camera );
 		RLAPI Vector3 get_camera_up( Camera* camera );
 		RLAPI Vector3 get_camera_right( Camera* camera );
 		// Camera movement
 		RLAPI void camera_move_forward( Camera* camera, f32 distance, bool moveInWorldPlane );
 		RLAPI void camera_move_up( Camera* camera, f32 distance );
 		RLAPI void camera_move_right( Camera* camera, f32 distance, bool moveInWorldPlane );
 		RLAPI void camera_move_to_target( Camera* camera, f32 delta );
 		// Camera rotation
 		RLAPI void camera_yaw( Camera* camera, f32 angle, bool rotateAroundTarget );
 		RLAPI void camera_pitch( Camera* camera, f32 angle, bool lockView, bool rotateAroundTarget, bool rotateUp );
 		RLAPI void camera_roll( Camera* camera, f32 angle );
 		RLAPI Matrix get_camera_view_matrix( Camera* camera );
 		RLAPI Matrix get_camera_projection_matrix( Camera* camera, f32 aspect );
 #if defined( __cplusplus )
 	}
 }
 #endif
 #endif
 // RCAMERA_H
 /***********************************************************************************
 *
 *   CAMERA IMPLEMENTATION
 *
 ************************************************************************************/
 #if defined( RCAMERA_IMPLEMENTATION )
 #include "raymath.h"
 // Required for vector maths:
 // Vector3Add()
 // Vector3Subtract()
 // Vector3Scale()
 // Vector3Normalize()
 // Vector3Distance()
 // Vector3CrossProduct()
 // Vector3RotateByAxisAngle()
 // Vector3Angle()
 // Vector3Negate()
 // MatrixLookAt()
 // MatrixPerspective()
 // MatrixOrtho()
 // MatrixIdentity()
 // raylib required functionality:
 // GetMouseDelta()
 // GetMouseWheelMove()
 // IsKeyDown()
 // IsKeyPressed()
 // GetFrameTime()
 //----------------------------------------------------------------------------------
 // Defines and Macros
 //----------------------------------------------------------------------------------
 #define RL_CAMERA_MOVE_SPEED     0.09f
 #define RL_CAMERA_ROTATION_SPEED 0.03f
 #define RL_CAMERA_PAN_SPEED      0.2f
 // Camera mouse movement sensitivity
 #define RL_CAMERA_MOUSE_MOVE_SENSITIVITY                  0.003f    // TODO: it should be independant of framerate
 #define RL_CAMERA_MOUSE_SCROLL_SENSITIVITY                1.5f
 #define RL_CAMERA_ORBITAL_SPEED                           0.5f    // Radians per second
 #define RL_CAMERA_FIRST_PERSON_STEP_TRIGONOMETRIC_DIVIDER 8.0f
 #define RL_CAMERA_FIRST_PERSON_STEP_DIVIDER               30.0f
 #define RL_CAMERA_FIRST_PERSON_WAVING_DIVIDER             200.0f
 // PLAYER (used by camera)
 #define RL_PLAYER_MOVEMENT_SENSITIVITY 20.0f
 //----------------------------------------------------------------------------------
 // Types and Structures Definition
 //----------------------------------------------------------------------------------
 //...
 //----------------------------------------------------------------------------------
 // Global Variables Definition
 //----------------------------------------------------------------------------------
 //...
 //----------------------------------------------------------------------------------
 // Module specific Functions Declaration
 //----------------------------------------------------------------------------------
 //...
 //----------------------------------------------------------------------------------
 // Module Functions Definition
 //----------------------------------------------------------------------------------
 // Returns the cameras forward vector (normalized)
 Vector3 get_camera_forward( Camera* camera )
 {
 	return Vector3Normalize( Vector3Subtract( camera->target, camera->position ) );
 }
 // Returns the cameras up vector (normalized)
 // Note: The up vector might not be perpendicular to the forward vector
 Vector3 get_camera_up( Camera* camera )
 {
 	return Vector3Normalize( camera->up );
 }
 // Returns the cameras right vector (normalized)
 Vector3 get_camera_right( Camera* camera )
 {
 	Vector3 forward = GetCameraForward( camera );
 	Vector3 up      = GetCameraUp( camera );
 	return Vector3CrossProduct( forward, up );
 }
 // Moves the camera in its forward direction
 void camera_move_forward( Camera* camera, f32 distance, bool moveInWorldPlane )
 {
 	Vector3 forward = GetCameraForward( camera );
 	if ( moveInWorldPlane )
 	{
 		// Project vector onto world plane
 		forward.y = 0;
 		forward   = Vector3Normalize( forward );
 	}
 	// Scale by distance
 	forward = Vector3Scale( forward, distance );
 	// Move position and target
 	camera->position = Vector3Add( camera->position, forward );
 	camera->target   = Vector3Add( camera->target, forward );
 }
 // Moves the camera in its up direction
 void camera_move_up( Camera* camera, f32 distance )
 {
 	Vector3 up = GetCameraUp( camera );
 	// Scale by distance
 	up = Vector3Scale( up, distance );
 	// Move position and target
 	camera->position = Vector3Add( camera->position, up );
 	camera->target   = Vector3Add( camera->target, up );
 }
 // Moves the camera target in its current right direction
 void camera_move_right( Camera* camera, f32 distance, bool moveInWorldPlane )
 {
 	Vector3 right = GetCameraRight( camera );
 	if ( moveInWorldPlane )
 	{
 		// Project vector onto world plane
 		right.y = 0;
 		right   = Vector3Normalize( right );
 	}
 	// Scale by distance
 	right = Vector3Scale( right, distance );
 	// Move position and target
 	camera->position = Vector3Add( camera->position, right );
 	camera->target   = Vector3Add( camera->target, right );
 }
 // Moves the camera position closer/farther to/from the camera target
 void camera_move_to_target( Camera* camera, f32 delta )
 {
 	float distance = Vector3Distance( camera->position, camera->target );
 	// Apply delta
 	distance += delta;
 	// Distance must be greater than 0
 	if ( distance <= 0 )
 		distance = 0.001f;
 	// Set new distance by moving the position along the forward vector
 	Vector3 forward  = GetCameraForward( camera );
 	camera->position = Vector3Add( camera->target, Vector3Scale( forward, -distance ) );
 }
 // Rotates the camera around its up vector
 // Yaw is "looking left and right"
 // If rotateAroundTarget is false, the camera rotates around its position
 // Note: angle must be provided in radians
 void camera_yaw( Camera* camera, f32 angle, bool rotateAroundTarget )
 {
 	Vector3 up = GetCameraUp( camera );
 	// View vector
 	Vector3 targetPosition = Vector3Subtract( camera->target, camera->position );
 	// Rotate view vector around up axis
 	targetPosition = Vector3RotateByAxisAngle( targetPosition, up, angle );
 	if ( rotateAroundTarget )
 	{
 		// Move position relative to target
 		camera->position = Vector3Subtract( camera->target, targetPosition );
 	}
 	else    // rotate around camera.position
 	{
 		// Move target relative to position
 		camera->target = Vector3Add( camera->position, targetPosition );
 	}
 }
 // Rotates the camera around its right vector, pitch is "looking up and down"
 //  - lockView prevents camera overrotation (aka "somersaults")
 //  - rotateAroundTarget defines if rotation is around target or around its position
 //  - rotateUp rotates the up direction as well (typically only usefull in CAMERA_FREE)
 // NOTE: angle must be provided in radians
 void camera_pitch( Camera* camera, f32 angle, bool lockView, bool rotateAroundTarget, bool rotateUp )
 {
 	Vector3 up = GetCameraUp( camera );
 	// View vector
 	Vector3 targetPosition = Vector3Subtract( camera->target, camera->position );
 	if ( lockView )
 	{
 		// In these camera modes we clamp the Pitch angle
 		// to allow only viewing straight up or down.
 		// Clamp view up
 		float maxAngleUp  = Vector3Angle( up, targetPosition );
 		maxAngleUp       -= 0.001f;    // avoid numerical errors
 		if ( angle > maxAngleUp )
 			angle = maxAngleUp;
 		// Clamp view down
 		float maxAngleDown  = Vector3Angle( Vector3Negate( up ), targetPosition );
 		maxAngleDown       *= -1.0f;     // downwards angle is negative
 		maxAngleDown       += 0.001f;    // avoid numerical errors
 		if ( angle < maxAngleDown )
 			angle = maxAngleDown;
 	}
 	// Rotation axis
 	Vector3 right = GetCameraRight( camera );
 	// Rotate view vector around right axis
 	targetPosition = Vector3RotateByAxisAngle( targetPosition, right, angle );
 	if ( rotateAroundTarget )
 	{
 		// Move position relative to target
 		camera->position = Vector3Subtract( camera->target, targetPosition );
 	}
 	else    // rotate around camera.position
 	{
 		// Move target relative to position
 		camera->target = Vector3Add( camera->position, targetPosition );
 	}
 	if ( rotateUp )
 	{
 		// Rotate up direction around right axis
 		camera->up = Vector3RotateByAxisAngle( camera->up, right, angle );
 	}
 }
 // Rotates the camera around its forward vector
 // Roll is "turning your head sideways to the left or right"
 // Note: angle must be provided in radians
 void camera_roll( Camera* camera, f32 angle )
 {
 	Vector3 forward = GetCameraForward( camera );
 	// Rotate up direction around forward axis
 	camera->up = Vector3RotateByAxisAngle( camera->up, forward, angle );
 }
 // Returns the camera view matrix
 Matrix get_camera_view_matrix( Camera* camera )
 {
 	return MatrixLookAt( camera->position, camera->target, camera->up );
 }
 // Returns the camera projection matrix
 Matrix get_camera_projection_matrix( Camera* camera, f32 aspect )
 {
 	if ( camera->projection == CAMERA_PERSPECTIVE )
 	{
 		return MatrixPerspective( camera->fovy * DEG2RAD, aspect, CAMERA_CULL_DISTANCE_NEAR, CAMERA_CULL_DISTANCE_FAR );
 	}
 	else if ( camera->projection == CAMERA_ORTHOGRAPHIC )
 	{
 		double top   = camera->fovy / 2.0;
 		double right = top * aspect;
 		return MatrixOrtho( -right, right, -top, top, CAMERA_CULL_DISTANCE_NEAR, CAMERA_CULL_DISTANCE_FAR );
 	}
 	return MatrixIdentity();
 }
 #if ! defined( RCAMERA_STANDALONE )
 // Update camera position for selected mode
 // Camera mode: CAMERA_FREE, CAMERA_FIRST_PERSON, CAMERA_THIRD_PERSON, CAMERA_ORBITAL or CUSTOM
 void update_camera( Camera* camera, s32 mode )
 {
 	Vector2 mousePositionDelta = GetMouseDelta();
 	bool moveInWorldPlane      = ( ( mode == CAMERA_FIRST_PERSON ) || ( mode == CAMERA_THIRD_PERSON ) );
 	bool rotateAroundTarget    = ( ( mode == CAMERA_THIRD_PERSON ) || ( mode == CAMERA_ORBITAL ) );
 	bool lockView              = ( ( mode == CAMERA_FIRST_PERSON ) || ( mode == CAMERA_THIRD_PERSON ) || ( mode == CAMERA_ORBITAL ) );
 	bool rotateUp              = false;
 	if ( mode == CAMERA_ORBITAL )
 	{
 		// Orbital can just orbit
 		Matrix  rotation = MatrixRotate( GetCameraUp( camera ), CAMERA_ORBITAL_SPEED * GetFrameTime() );
 		Vector3 view     = Vector3Subtract( camera->position, camera->target );
 		view             = Vector3Transform( view, rotation );
 		camera->position = Vector3Add( camera->target, view );
 	}
 	else
 	{
 		// Camera rotation
 		if ( IsKeyDown( KEY_DOWN ) )
 			CameraPitch( camera, -CAMERA_ROTATION_SPEED, lockView, rotateAroundTarget, rotateUp );
 		if ( IsKeyDown( KEY_UP ) )
 			CameraPitch( camera, CAMERA_ROTATION_SPEED, lockView, rotateAroundTarget, rotateUp );
 		if ( IsKeyDown( KEY_RIGHT ) )
 			CameraYaw( camera, -CAMERA_ROTATION_SPEED, rotateAroundTarget );
 		if ( IsKeyDown( KEY_LEFT ) )
 			CameraYaw( camera, CAMERA_ROTATION_SPEED, rotateAroundTarget );
 		if ( IsKeyDown( KEY_Q ) )
 			CameraRoll( camera, -CAMERA_ROTATION_SPEED );
 		if ( IsKeyDown( KEY_E ) )
 			CameraRoll( camera, CAMERA_ROTATION_SPEED );
 		// Camera movement
 		if ( ! IsGamepadAvailable( 0 ) )
 		{
 			// Camera pan (for CAMERA_FREE)
 			if ( ( mode == CAMERA_FREE ) && ( IsMouseButtonDown( MOUSE_BUTTON_MIDDLE ) ) )
 			{
 				const Vector2 mouseDelta = GetMouseDelta();
 				if ( mouseDelta.x > 0.0f )
 					CameraMoveRight( camera, CAMERA_PAN_SPEED, moveInWorldPlane );
 				if ( mouseDelta.x < 0.0f )
 					CameraMoveRight( camera, -CAMERA_PAN_SPEED, moveInWorldPlane );
 				if ( mouseDelta.y > 0.0f )
 					CameraMoveUp( camera, -CAMERA_PAN_SPEED );
 				if ( mouseDelta.y < 0.0f )
 					CameraMoveUp( camera, CAMERA_PAN_SPEED );
 			}
 			else
 			{
 				// Mouse support
 				CameraYaw( camera, -mousePositionDelta.x * CAMERA_MOUSE_MOVE_SENSITIVITY, rotateAroundTarget );
 				CameraPitch( camera, -mousePositionDelta.y * CAMERA_MOUSE_MOVE_SENSITIVITY, lockView, rotateAroundTarget, rotateUp );
 			}
 			// Keyboard support
 			if ( IsKeyDown( KEY_W ) )
 				CameraMoveForward( camera, CAMERA_MOVE_SPEED, moveInWorldPlane );
 			if ( IsKeyDown( KEY_A ) )
 				CameraMoveRight( camera, -CAMERA_MOVE_SPEED, moveInWorldPlane );
 			if ( IsKeyDown( KEY_S ) )
 				CameraMoveForward( camera, -CAMERA_MOVE_SPEED, moveInWorldPlane );
 			if ( IsKeyDown( KEY_D ) )
 				CameraMoveRight( camera, CAMERA_MOVE_SPEED, moveInWorldPlane );
 		}
 		else
 		{
 			// Gamepad controller support
 			CameraYaw( camera, -( GetGamepadAxisMovement( 0, GAMEPAD_AXIS_RIGHT_X ) * 2 ) * CAMERA_MOUSE_MOVE_SENSITIVITY, rotateAroundTarget );
 			CameraPitch(
 			    camera,
 			    -( GetGamepadAxisMovement( 0, GAMEPAD_AXIS_RIGHT_Y ) * 2 ) * CAMERA_MOUSE_MOVE_SENSITIVITY,
 			    lockView,
 			    rotateAroundTarget,
 			    rotateUp
 			);
 			if ( GetGamepadAxisMovement( 0, GAMEPAD_AXIS_LEFT_Y ) <= -0.25f )
 				CameraMoveForward( camera, CAMERA_MOVE_SPEED, moveInWorldPlane );
 			if ( GetGamepadAxisMovement( 0, GAMEPAD_AXIS_LEFT_X ) <= -0.25f )
 				CameraMoveRight( camera, -CAMERA_MOVE_SPEED, moveInWorldPlane );
 			if ( GetGamepadAxisMovement( 0, GAMEPAD_AXIS_LEFT_Y ) >= 0.25f )
 				CameraMoveForward( camera, -CAMERA_MOVE_SPEED, moveInWorldPlane );
 			if ( GetGamepadAxisMovement( 0, GAMEPAD_AXIS_LEFT_X ) >= 0.25f )
 				CameraMoveRight( camera, CAMERA_MOVE_SPEED, moveInWorldPlane );
 		}
 		if ( mode == CAMERA_FREE )
 		{
 			if ( IsKeyDown( KEY_SPACE ) )
 				CameraMoveUp( camera, CAMERA_MOVE_SPEED );
 			if ( IsKeyDown( KEY_LEFT_CONTROL ) )
 				CameraMoveUp( camera, -CAMERA_MOVE_SPEED );
 		}
 	}
 	if ( ( mode == CAMERA_THIRD_PERSON ) || ( mode == CAMERA_ORBITAL ) || ( mode == CAMERA_FREE ) )
 	{
 		// Zoom target distance
 		CameraMoveToTarget( camera, -GetMouseWheelMove() );
 		if ( IsKeyPressed( KEY_KP_SUBTRACT ) )
 			CameraMoveToTarget( camera, 2.0f );
 		if ( IsKeyPressed( KEY_KP_ADD ) )
 			CameraMoveToTarget( camera, -2.0f );
 	}
 }
 #endif
 // !RCAMERA_STANDALONE
 // Update camera movement, movement/rotation values should be provided by user
 void update_camera_pro( Camera* camera, Vector3 movement, Vector3 rotation, f32 zoom )
 {
 	bool lockView           = true;
 	bool rotateAroundTarget = false;
 	bool rotateUp           = false;
 	bool moveInWorldPlane   = true;
 	// Camera rotation
 	CameraPitch( camera, -rotation.y * DEG2RAD, lockView, rotateAroundTarget, rotateUp );
 	CameraYaw( camera, -rotation.x * DEG2RAD, rotateAroundTarget );
 	CameraRoll( camera, rotation.z * DEG2RAD );
 	// Camera movement
 	CameraMoveForward( camera, movement.x, moveInWorldPlane );
 	CameraMoveRight( camera, movement.y, moveInWorldPlane );
 	CameraMoveUp( camera, movement.z );
 	// Zoom target distance
 	CameraMoveToTarget( camera, zoom );
 }
 #endif
 // RCAMERA_IMPLEMENTATION
--- a/project/auxillary/vis_ast/dependencies/raylib/include/rcore.h
+++ b/project/auxillary/vis_ast/dependencies/raylib/include/rcore.h
@ -1,233 +0,0 @@
 /**********************************************************************************************
 *
 *   rcore - Common types and globals (all platforms)
 *
 *   LIMITATIONS:
 *       - Limitation 01
 *       - Limitation 02
 *
 *   POSSIBLE IMPROVEMENTS:
 *       - Improvement 01
 *       - Improvement 02
 *
 *
 *   LICENSE: zlib/libpng
 *
 *   Copyright (c) 2013-2023 Ramon Santamaria (@raysan5) and contributors
 *
 *   This software is provided "as-is", without any express or implied warranty. In no event
 *   will the authors be held liable for any damages arising from the use of this software.
 *
 *   Permission is granted to anyone to use this software for any purpose, including commercial
 *   applications, and to alter it and redistribute it freely, subject to the following restrictions:
 *
 *     1. The origin of this software must not be misrepresented; you must not claim that you
 *     wrote the original software. If you use this software in a product, an acknowledgment
 *     in the product documentation would be appreciated but is not required.
 *
 *     2. Altered source versions must be plainly marked as such, and must not be misrepresented
 *     as being the original software.
 *
 *     3. This notice may not be removed or altered from any source distribution.
 *
 **********************************************************************************************/
 #ifndef RCORE_H
 #define RCORE_H
 #include "raylib.h"
 #include "utils.h"    // Required for: TRACELOG() macros
 #include "rlgl.h"    // Required for: graphics layer functionality
 #define RAYMATH_IMPLEMENTATION
 #include "raymath.h"    // Required for: Vector2/Vector3/Matrix functionality
 #include <stdlib.h>    // Required for: srand(), rand(), atexit()
 #include <stdio.h>     // Required for: sprintf() [Used in OpenURL()]
 #include <string.h>    // Required for: strrchr(), strcmp(), strlen(), memset()
 #include <time.h>      // Required for: time() [Used in InitTimer()]
 #include <math.h>      // Required for: tan() [Used in BeginMode3D()], atan2f() [Used in LoadVrStereoConfig()]
 //----------------------------------------------------------------------------------
 // Defines and Macros
 //----------------------------------------------------------------------------------
 #ifndef MAX_FILEPATH_CAPACITY
 #define MAX_FILEPATH_CAPACITY 8192    // Maximum capacity for filepath
 #endif
 #ifndef MAX_FILEPATH_LENGTH
 #define MAX_FILEPATH_LENGTH 4096    // Maximum length for filepaths (Linux PATH_MAX default value)
 #endif
 #ifndef MAX_KEYBOARD_KEYS
 #define MAX_KEYBOARD_KEYS 512    // Maximum number of keyboard keys supported
 #endif
 #ifndef MAX_MOUSE_BUTTONS
 #define MAX_MOUSE_BUTTONS 8    // Maximum number of mouse buttons supported
 #endif
 #ifndef MAX_GAMEPADS
 #define MAX_GAMEPADS 4    // Maximum number of gamepads supported
 #endif
 #ifndef MAX_GAMEPAD_AXIS
 #define MAX_GAMEPAD_AXIS 8    // Maximum number of axis supported (per gamepad)
 #endif
 #ifndef MAX_GAMEPAD_BUTTONS
 #define MAX_GAMEPAD_BUTTONS 32    // Maximum number of buttons supported (per gamepad)
 #endif
 #ifndef MAX_TOUCH_POINTS
 #define MAX_TOUCH_POINTS 8    // Maximum number of touch points supported
 #endif
 #ifndef MAX_KEY_PRESSED_QUEUE
 #define MAX_KEY_PRESSED_QUEUE 16    // Maximum number of keys in the key input queue
 #endif
 #ifndef MAX_CHAR_PRESSED_QUEUE
 #define MAX_CHAR_PRESSED_QUEUE 16    // Maximum number of characters in the char input queue
 #endif
 #ifndef MAX_DECOMPRESSION_SIZE
 #define MAX_DECOMPRESSION_SIZE 64    // Maximum size allocated for decompression in MB
 #endif
 // Flags operation macros
 #define FLAG_SET( n, f )    ( ( n ) |= ( f ) )
 #define FLAG_CLEAR( n, f )  ( ( n ) &= ~( f ) )
 #define FLAG_TOGGLE( n, f ) ( ( n ) ^= ( f ) )
 #define FLAG_CHECK( n, f )  ( ( n ) & ( f ) )
 #if ( defined( __linux__ ) || defined( PLATFORM_WEB ) ) && ( _POSIX_C_SOURCE < 199309L )
 #undef _POSIX_C_SOURCE
 #define _POSIX_C_SOURCE 199309L    // Required for: CLOCK_MONOTONIC if compiled with c99 without gnu ext.
 #endif
 //----------------------------------------------------------------------------------
 // Types and Structures Definition
 //----------------------------------------------------------------------------------
 typedef struct
 {
 	int x;
 	int y;
 } Point;
 typedef struct
 {
 	unsigned int width;
 	unsigned int height;
 } Size;
 // Core global state context data
 typedef struct CoreData
 {
 	struct
 	{
 		const char*  title;               // Window text title const pointer
 		unsigned int flags;               // Configuration flags (bit based), keeps window state
 		bool         ready;               // Check if window has been initialized successfully
 		bool         fullscreen;          // Check if fullscreen mode is enabled
 		bool         shouldClose;         // Check if window set for closing
 		bool         resizedLastFrame;    // Check if window has been resized last frame
 		bool         eventWaiting;        // Wait for events before ending frame
 		Point  position;            // Window position (required on fullscreen toggle)
 		Point  previousPosition;    // Window previous position (required on borderless windowed toggle)
 		Size   display;             // Display width and height (monitor, device-screen, LCD, ...)
 		Size   screen;              // Screen width and height (used render area)
 		Size   previousScreen;      // Screen previous width and height (required on borderless windowed toggle)
 		Size   currentFbo;          // Current render width and height (depends on active fbo)
 		Size   render;              // Framebuffer width and height (render area, including black bars if required)
 		Point  renderOffset;        // Offset from render area (must be divided by 2)
 		Size   screenMin;           // Screen minimum width and height (for resizable window)
 		Size   screenMax;           // Screen maximum width and height (for resizable window)
 		Matrix screenScale;         // Matrix to scale screen (framebuffer rendering)
 		char**       dropFilepaths;    // Store dropped files paths pointers (provided by GLFW)
 		unsigned int dropFileCount;    // Count dropped files strings
 	} Window;
 	struct
 	{
 		const char* basePath;    // Base path for data storage
 	} Storage;
 	struct
 	{
 		struct
 		{
 			int  exitKey;                                  // Default exit key
 			char currentKeyState[ MAX_KEYBOARD_KEYS ];     // Registers current frame key state
 			char previousKeyState[ MAX_KEYBOARD_KEYS ];    // Registers previous frame key state
 			// NOTE: Since key press logic involves comparing prev vs cur key state, we need to handle key repeats specially
 			char keyRepeatInFrame[ MAX_KEYBOARD_KEYS ];    // Registers key repeats for current frame.
 			int keyPressedQueue[ MAX_KEY_PRESSED_QUEUE ];    // Input keys queue
 			int keyPressedQueueCount;                        // Input keys queue count
 			int charPressedQueue[ MAX_CHAR_PRESSED_QUEUE ];    // Input characters queue (unicode)
 			int charPressedQueueCount;                         // Input characters queue count
 		} Keyboard;
 		struct
 		{
 			Vector2 offset;              // Mouse offset
 			Vector2 scale;               // Mouse scaling
 			Vector2 currentPosition;     // Mouse position on screen
 			Vector2 previousPosition;    // Previous mouse position
 			int  cursor;            // Tracks current mouse cursor
 			bool cursorHidden;      // Track if cursor is hidden
 			bool cursorOnScreen;    // Tracks if cursor is inside client area
 			char    currentButtonState[ MAX_MOUSE_BUTTONS ];     // Registers current mouse button state
 			char    previousButtonState[ MAX_MOUSE_BUTTONS ];    // Registers previous mouse button state
 			Vector2 currentWheelMove;                            // Registers current mouse wheel variation
 			Vector2 previousWheelMove;                           // Registers previous mouse wheel variation
 		} Mouse;
 		struct
 		{
 			int     pointCount;                                // Number of touch points active
 			int     pointId[ MAX_TOUCH_POINTS ];               // Point identifiers
 			Vector2 position[ MAX_TOUCH_POINTS ];              // Touch position on screen
 			char    currentTouchState[ MAX_TOUCH_POINTS ];     // Registers current touch state
 			char    previousTouchState[ MAX_TOUCH_POINTS ];    // Registers previous touch state
 		} Touch;
 		struct
 		{
 			int   lastButtonPressed;                                             // Register last gamepad button pressed
 			int   axisCount[ MAX_GAMEPADS ];                                     // Register number of available gamepad axis
 			bool  ready[ MAX_GAMEPADS ];                                         // Flag to know if gamepad is ready
 			char  name[ MAX_GAMEPADS ][ 64 ];                                    // Gamepad name holder
 			char  currentButtonState[ MAX_GAMEPADS ][ MAX_GAMEPAD_BUTTONS ];     // Current gamepad buttons state
 			char  previousButtonState[ MAX_GAMEPADS ][ MAX_GAMEPAD_BUTTONS ];    // Previous gamepad buttons state
 			float axisState[ MAX_GAMEPADS ][ MAX_GAMEPAD_AXIS ];                 // Gamepad axis state
 		} Gamepad;
 	} Input;
 	struct
 	{
 		double                 current;         // Current time measure
 		double                 previous;        // Previous time measure
 		double                 update;          // Time measure for frame update
 		double                 draw;            // Time measure for frame draw
 		double                 frame;           // Time measure for one frame
 		double                 target;          // Desired time for one frame, if 0 not applied
 		unsigned long long int base;            // Base time measure for hi-res timer (PLATFORM_ANDROID, PLATFORM_DRM)
 		unsigned int           frameCounter;    // Frame counter
 	} Time;
 } CoreData;
 //----------------------------------------------------------------------------------
 // Global Variables Definition
 //----------------------------------------------------------------------------------
 extern CoreData CORE;
 #endif
--- a/project/auxillary/vis_ast/dependencies/raylib/include/rgestures.h
+++ b/project/auxillary/vis_ast/dependencies/raylib/include/rgestures.h
@ -1,594 +0,0 @@
 /**********************************************************************************************
 *
 *   rgestures - Gestures system, gestures processing based on input events (touch/mouse)
 *
 *   CONFIGURATION:
 *       #define RGESTURES_IMPLEMENTATION
 *           Generates the implementation of the library into the included file.
 *           If not defined, the library is in header only mode and can be included in other headers
 *           or source files without problems. But only ONE file should hold the implementation.
 *
 *       #define RGESTURES_STANDALONE
 *           If defined, the library can be used as standalone to process gesture events with
 *           no external dependencies.
 *
 *   CONTRIBUTORS:
 *       Marc Palau:         Initial implementation (2014)
 *       Albert Martos:      Complete redesign and testing (2015)
 *       Ian Eito:           Complete redesign and testing (2015)
 *       Ramon Santamaria:   Supervision, review, update and maintenance
 *
 *
 *   LICENSE: zlib/libpng
 *
 *   Copyright (c) 2014-2023 Ramon Santamaria (@raysan5)
 *
 *   This software is provided "as-is", without any express or implied warranty. In no event
 *   will the authors be held liable for any damages arising from the use of this software.
 *
 *   Permission is granted to anyone to use this software for any purpose, including commercial
 *   applications, and to alter it and redistribute it freely, subject to the following restrictions:
 *
 *     1. The origin of this software must not be misrepresented; you must not claim that you
 *     wrote the original software. If you use this software in a product, an acknowledgment
 *     in the product documentation would be appreciated but is not required.
 *
 *     2. Altered source versions must be plainly marked as such, and must not be misrepresented
 *     as being the original software.
 *
 *     3. This notice may not be removed or altered from any source distribution.
 *
 **********************************************************************************************/
 #ifndef RGESTURES_H
 #define RGESTURES_H
 #ifndef PI
 #define PI 3.14159265358979323846
 #endif
 //----------------------------------------------------------------------------------
 // Defines and Macros
 //----------------------------------------------------------------------------------
 #ifndef MAX_TOUCH_POINTS
 #define MAX_TOUCH_POINTS 8    // Maximum number of touch points supported
 #endif
 //----------------------------------------------------------------------------------
 // Types and Structures Definition
 // NOTE: Below types are required for standalone usage
 //----------------------------------------------------------------------------------
 // Boolean type
 #if ( defined( __STDC__ ) && __STDC_VERSION__ >= 199901L ) || ( defined( _MSC_VER ) && _MSC_VER >= 1800 )
 #include <stdbool.h>
 #elif ! defined( __cplusplus ) && ! defined( bool ) && ! defined( RL_BOOL_TYPE )
 typedef enum bool
 {
 	false = 0,
 	true  = ! false
 } bool;
 #endif
 #if ! defined( RL_VECTOR2_TYPE )
 // Vector2 type
 typedef struct Vector2
 {
 	float x;
 	float y;
 } Vector2;
 #endif
 #if defined( RGESTURES_STANDALONE )
 // Gestures type
 // NOTE: It could be used as flags to enable only some gestures
 typedef enum
 {
 	GESTURE_NONE        = 0,
 	GESTURE_TAP         = 1,
 	GESTURE_DOUBLETAP   = 2,
 	GESTURE_HOLD        = 4,
 	GESTURE_DRAG        = 8,
 	GESTURE_SWIPE_RIGHT = 16,
 	GESTURE_SWIPE_LEFT  = 32,
 	GESTURE_SWIPE_UP    = 64,
 	GESTURE_SWIPE_DOWN  = 128,
 	GESTURE_PINCH_IN    = 256,
 	GESTURE_PINCH_OUT   = 512
 } Gesture;
 #endif
 typedef enum
 {
 	TOUCH_ACTION_UP = 0,
 	TOUCH_ACTION_DOWN,
 	TOUCH_ACTION_MOVE,
 	TOUCH_ACTION_CANCEL
 } TouchAction;
 // Gesture event
 typedef struct
 {
 	int     touchAction;
 	int     pointCount;
 	int     pointId[ MAX_TOUCH_POINTS ];
 	Vector2 position[ MAX_TOUCH_POINTS ];
 } GestureEvent;
 //----------------------------------------------------------------------------------
 // Global Variables Definition
 //----------------------------------------------------------------------------------
 //...
 //----------------------------------------------------------------------------------
 // Module Functions Declaration
 //----------------------------------------------------------------------------------
 #if defined( __cplusplus )
 extern "C"
 {    // Prevents name mangling of functions
 #endif
 	void ProcessGestureEvent( GestureEvent event );    // Process gesture event and translate it into gestures
 	void UpdateGestures( void );                       // Update gestures detected (must be called every frame)
 #if defined( RGESTURES_STANDALONE )
 	void SetGesturesEnabled( unsigned int flags );    // Enable a set of gestures using flags
 	bool IsGestureDetected( int gesture );            // Check if a gesture have been detected
 	int  GetGestureDetected( void );                  // Get latest detected gesture
 	float   GetGestureHoldDuration( void );    // Get gesture hold time in seconds
 	Vector2 GetGestureDragVector( void );      // Get gesture drag vector
 	float   GetGestureDragAngle( void );       // Get gesture drag angle
 	Vector2 GetGesturePinchVector( void );     // Get gesture pinch delta
 	float   GetGesturePinchAngle( void );      // Get gesture pinch angle
 #endif
 #if defined( __cplusplus )
 }
 #endif
 #endif    // RGESTURES_H
 /***********************************************************************************
 *
 *   RGESTURES IMPLEMENTATION
 *
 ************************************************************************************/
 #if defined( RGESTURES_IMPLEMENTATION )
 #if defined( RGESTURES_STANDALONE )
 #if defined( _WIN32 )
 #if defined( __cplusplus )
 extern "C"
 {    // Prevents name mangling of functions
 #endif
 	// Functions required to query time on Windows
 	int __stdcall QueryPerformanceCounter( unsigned long long int* lpPerformanceCount );
 	int __stdcall QueryPerformanceFrequency( unsigned long long int* lpFrequency );
 #if defined( __cplusplus )
 }
 #endif
 #elif defined( __linux__ )
 #if _POSIX_C_SOURCE < 199309L
 #undef _POSIX_C_SOURCE
 #define _POSIX_C_SOURCE 199309L    // Required for CLOCK_MONOTONIC if compiled with c99 without gnu ext.
 #endif
 #include <sys/time.h>    // Required for: timespec
 #include <time.h>        // Required for: clock_gettime()
 #include <math.h>    // Required for: sqrtf(), atan2f()
 #endif
 #if defined( __APPLE__ )    // macOS also defines __MACH__
 #include <mach/clock.h>     // Required for: clock_get_time()
 #include <mach/mach.h>      // Required for: mach_timespec_t
 #endif
 #endif
 //----------------------------------------------------------------------------------
 // Defines and Macros
 //----------------------------------------------------------------------------------
 #define FORCE_TO_SWIPE  0.2f      // Swipe force, measured in normalized screen units/time
 #define MINIMUM_DRAG    0.015f    // Drag minimum force, measured in normalized screen units (0.0f to 1.0f)
 #define DRAG_TIMEOUT    0.3f      // Drag minimum time for web, measured in seconds
 #define MINIMUM_PINCH   0.005f    // Pinch minimum force, measured in normalized screen units (0.0f to 1.0f)
 #define TAP_TIMEOUT     0.3f      // Tap minimum time, measured in seconds
 #define PINCH_TIMEOUT   0.3f      // Pinch minimum time, measured in seconds
 #define DOUBLETAP_RANGE 0.03f     // DoubleTap range, measured in normalized screen units (0.0f to 1.0f)
 //----------------------------------------------------------------------------------
 // Types and Structures Definition
 //----------------------------------------------------------------------------------
 // Gestures module state context [136 bytes]
 typedef struct
 {
 	unsigned int current;         // Current detected gesture
 	unsigned int enabledFlags;    // Enabled gestures flags
 	struct
 	{
 		int     firstId;              // Touch id for first touch point
 		int     pointCount;           // Touch points counter
 		double  eventTime;            // Time stamp when an event happened
 		Vector2 upPosition;           // Touch up position
 		Vector2 downPositionA;        // First touch down position
 		Vector2 downPositionB;        // Second touch down position
 		Vector2 downDragPosition;     // Touch drag position
 		Vector2 moveDownPositionA;    // First touch down position on move
 		Vector2 moveDownPositionB;    // Second touch down position on move
 		Vector2 previousPositionA;    // Previous position A to compare for pinch gestures
 		Vector2 previousPositionB;    // Previous position B to compare for pinch gestures
 		int     tapCounter;           // TAP counter (one tap implies TOUCH_ACTION_DOWN and TOUCH_ACTION_UP actions)
 	} Touch;
 	struct
 	{
 		bool   resetRequired;    // HOLD reset to get first touch point again
 		double timeDuration;     // HOLD duration in seconds
 	} Hold;
 	struct
 	{
 		Vector2 vector;       // DRAG vector (between initial and current position)
 		float   angle;        // DRAG angle (relative to x-axis)
 		float   distance;     // DRAG distance (from initial touch point to final) (normalized [0..1])
 		float   intensity;    // DRAG intensity, how far why did the DRAG (pixels per frame)
 	} Drag;
 	struct
 	{
 		double startTime;    // SWIPE start time to calculate drag intensity
 	} Swipe;
 	struct
 	{
 		Vector2 vector;      // PINCH vector (between first and second touch points)
 		float   angle;       // PINCH angle (relative to x-axis)
 		float   distance;    // PINCH displacement distance (normalized [0..1])
 	} Pinch;
 } GesturesData;
 //----------------------------------------------------------------------------------
 // Global Variables Definition
 //----------------------------------------------------------------------------------
 static GesturesData GESTURES = {
 	.Touch.firstId = -1,
 	.current       = GESTURE_NONE,         // No current gesture detected
 	.enabledFlags  = 0b0000001111111111    // All gestures supported by default
 };
 //----------------------------------------------------------------------------------
 // Module specific Functions Declaration
 //----------------------------------------------------------------------------------
 static float  rgVector2Angle( Vector2 initialPosition, Vector2 finalPosition );
 static float  rgVector2Distance( Vector2 v1, Vector2 v2 );
 static double rgGetCurrentTime( void );
 //----------------------------------------------------------------------------------
 // Module Functions Definition
 //----------------------------------------------------------------------------------
 // Enable only desired gestures to be detected
 void SetGesturesEnabled( unsigned int flags )
 {
 	GESTURES.enabledFlags = flags;
 }
 // Check if a gesture have been detected
 bool IsGestureDetected( unsigned int gesture )
 {
 	if ( ( GESTURES.enabledFlags & GESTURES.current ) == gesture )
 		return true;
 	else
 		return false;
 }
 // Process gesture event and translate it into gestures
 void ProcessGestureEvent( GestureEvent event )
 {
 	// Reset required variables
 	GESTURES.Touch.pointCount = event.pointCount;    // Required on UpdateGestures()
 	if ( GESTURES.Touch.pointCount == 1 )    // One touch point
 	{
 		if ( event.touchAction == TOUCH_ACTION_DOWN )
 		{
 			GESTURES.Touch.tapCounter++;    // Tap counter
 			// Detect GESTURE_DOUBLE_TAP
 			if ( ( GESTURES.current == GESTURE_NONE ) && ( GESTURES.Touch.tapCounter >= 2 )
 			     && ( ( rgGetCurrentTime() - GESTURES.Touch.eventTime ) < TAP_TIMEOUT )
 			     && ( rgVector2Distance( GESTURES.Touch.downPositionA, event.position[ 0 ] ) < DOUBLETAP_RANGE ) )
 			{
 				GESTURES.current          = GESTURE_DOUBLETAP;
 				GESTURES.Touch.tapCounter = 0;
 			}
 			else    // Detect GESTURE_TAP
 			{
 				GESTURES.Touch.tapCounter = 1;
 				GESTURES.current          = GESTURE_TAP;
 			}
 			GESTURES.Touch.downPositionA    = event.position[ 0 ];
 			GESTURES.Touch.downDragPosition = event.position[ 0 ];
 			GESTURES.Touch.upPosition       = GESTURES.Touch.downPositionA;
 			GESTURES.Touch.eventTime        = rgGetCurrentTime();
 			GESTURES.Swipe.startTime        = rgGetCurrentTime();
 			GESTURES.Drag.vector            = ( Vector2 ) { 0.0f, 0.0f };
 		}
 		else if ( event.touchAction == TOUCH_ACTION_UP )
 		{
 			// A swipe can happen while the current gesture is drag, but (specially for web) also hold, so set upPosition for both cases
 			if ( GESTURES.current == GESTURE_DRAG || GESTURES.current == GESTURE_HOLD )
 				GESTURES.Touch.upPosition = event.position[ 0 ];
 			// NOTE: GESTURES.Drag.intensity dependent on the resolution of the screen
 			GESTURES.Drag.distance  = rgVector2Distance( GESTURES.Touch.downPositionA, GESTURES.Touch.upPosition );
 			GESTURES.Drag.intensity = GESTURES.Drag.distance / ( float )( ( rgGetCurrentTime() - GESTURES.Swipe.startTime ) );
 			// Detect GESTURE_SWIPE
 			if ( ( GESTURES.Drag.intensity > FORCE_TO_SWIPE ) && ( GESTURES.current != GESTURE_DRAG ) )
 			{
 				// NOTE: Angle should be inverted in Y
 				GESTURES.Drag.angle = 360.0f - rgVector2Angle( GESTURES.Touch.downPositionA, GESTURES.Touch.upPosition );
 				if ( ( GESTURES.Drag.angle < 30 ) || ( GESTURES.Drag.angle > 330 ) )
 					GESTURES.current = GESTURE_SWIPE_RIGHT;    // Right
 				else if ( ( GESTURES.Drag.angle >= 30 ) && ( GESTURES.Drag.angle <= 150 ) )
 					GESTURES.current = GESTURE_SWIPE_UP;    // Up
 				else if ( ( GESTURES.Drag.angle > 150 ) && ( GESTURES.Drag.angle < 210 ) )
 					GESTURES.current = GESTURE_SWIPE_LEFT;    // Left
 				else if ( ( GESTURES.Drag.angle >= 210 ) && ( GESTURES.Drag.angle <= 330 ) )
 					GESTURES.current = GESTURE_SWIPE_DOWN;    // Down
 				else
 					GESTURES.current = GESTURE_NONE;
 			}
 			else
 			{
 				GESTURES.Drag.distance  = 0.0f;
 				GESTURES.Drag.intensity = 0.0f;
 				GESTURES.Drag.angle     = 0.0f;
 				GESTURES.current        = GESTURE_NONE;
 			}
 			GESTURES.Touch.downDragPosition = ( Vector2 ) { 0.0f, 0.0f };
 			GESTURES.Touch.pointCount       = 0;
 		}
 		else if ( event.touchAction == TOUCH_ACTION_MOVE )
 		{
 			GESTURES.Touch.moveDownPositionA = event.position[ 0 ];
 			if ( GESTURES.current == GESTURE_HOLD )
 			{
 				if ( GESTURES.Hold.resetRequired )
 					GESTURES.Touch.downPositionA = event.position[ 0 ];
 				GESTURES.Hold.resetRequired = false;
 				// Detect GESTURE_DRAG
 				if ( ( rgGetCurrentTime() - GESTURES.Touch.eventTime ) > DRAG_TIMEOUT )
 				{
 					GESTURES.Touch.eventTime = rgGetCurrentTime();
 					GESTURES.current         = GESTURE_DRAG;
 				}
 			}
 			GESTURES.Drag.vector.x = GESTURES.Touch.moveDownPositionA.x - GESTURES.Touch.downDragPosition.x;
 			GESTURES.Drag.vector.y = GESTURES.Touch.moveDownPositionA.y - GESTURES.Touch.downDragPosition.y;
 		}
 	}
 	else if ( GESTURES.Touch.pointCount == 2 )    // Two touch points
 	{
 		if ( event.touchAction == TOUCH_ACTION_DOWN )
 		{
 			GESTURES.Touch.downPositionA     = event.position[ 0 ];
 			GESTURES.Touch.downPositionB     = event.position[ 1 ];
 			GESTURES.Touch.previousPositionA = GESTURES.Touch.downPositionA;
 			GESTURES.Touch.previousPositionB = GESTURES.Touch.downPositionB;
 			// GESTURES.Pinch.distance = rgVector2Distance(GESTURES.Touch.downPositionA, GESTURES.Touch.downPositionB);
 			GESTURES.Pinch.vector.x    = GESTURES.Touch.downPositionB.x - GESTURES.Touch.downPositionA.x;
 			GESTURES.Pinch.vector.y    = GESTURES.Touch.downPositionB.y - GESTURES.Touch.downPositionA.y;
 			GESTURES.current           = GESTURE_HOLD;
 			GESTURES.Hold.timeDuration = rgGetCurrentTime();
 		}
 		else if ( event.touchAction == TOUCH_ACTION_MOVE )
 		{
 			GESTURES.Pinch.distance          = rgVector2Distance( GESTURES.Touch.moveDownPositionA, GESTURES.Touch.moveDownPositionB );
 			GESTURES.Touch.moveDownPositionA = event.position[ 0 ];
 			GESTURES.Touch.moveDownPositionB = event.position[ 1 ];
 			GESTURES.Pinch.vector.x          = GESTURES.Touch.moveDownPositionB.x - GESTURES.Touch.moveDownPositionA.x;
 			GESTURES.Pinch.vector.y          = GESTURES.Touch.moveDownPositionB.y - GESTURES.Touch.moveDownPositionA.y;
 			if ( ( rgVector2Distance( GESTURES.Touch.previousPositionA, GESTURES.Touch.moveDownPositionA ) >= MINIMUM_PINCH )
 			     || ( rgVector2Distance( GESTURES.Touch.previousPositionB, GESTURES.Touch.moveDownPositionB ) >= MINIMUM_PINCH ) )
 			{
 				if ( rgVector2Distance( GESTURES.Touch.previousPositionA, GESTURES.Touch.previousPositionB )
 				     > rgVector2Distance( GESTURES.Touch.moveDownPositionA, GESTURES.Touch.moveDownPositionB ) )
 					GESTURES.current = GESTURE_PINCH_IN;
 				else
 					GESTURES.current = GESTURE_PINCH_OUT;
 			}
 			else
 			{
 				GESTURES.current           = GESTURE_HOLD;
 				GESTURES.Hold.timeDuration = rgGetCurrentTime();
 			}
 			// NOTE: Angle should be inverted in Y
 			GESTURES.Pinch.angle = 360.0f - rgVector2Angle( GESTURES.Touch.moveDownPositionA, GESTURES.Touch.moveDownPositionB );
 		}
 		else if ( event.touchAction == TOUCH_ACTION_UP )
 		{
 			GESTURES.Pinch.distance   = 0.0f;
 			GESTURES.Pinch.angle      = 0.0f;
 			GESTURES.Pinch.vector     = ( Vector2 ) { 0.0f, 0.0f };
 			GESTURES.Touch.pointCount = 0;
 			GESTURES.current          = GESTURE_NONE;
 		}
 	}
 	else if ( GESTURES.Touch.pointCount > 2 )    // More than two touch points
 	{
 		// TODO: Process gesture events for more than two points
 	}
 }
 // Update gestures detected (must be called every frame)
 void UpdateGestures( void )
 {
 	// NOTE: Gestures are processed through system callbacks on touch events
 	// Detect GESTURE_HOLD
 	if ( ( ( GESTURES.current == GESTURE_TAP ) || ( GESTURES.current == GESTURE_DOUBLETAP ) ) && ( GESTURES.Touch.pointCount < 2 ) )
 	{
 		GESTURES.current           = GESTURE_HOLD;
 		GESTURES.Hold.timeDuration = rgGetCurrentTime();
 	}
 	// Detect GESTURE_NONE
 	if ( ( GESTURES.current == GESTURE_SWIPE_RIGHT ) || ( GESTURES.current == GESTURE_SWIPE_UP ) || ( GESTURES.current == GESTURE_SWIPE_LEFT )
 	     || ( GESTURES.current == GESTURE_SWIPE_DOWN ) )
 	{
 		GESTURES.current = GESTURE_NONE;
 	}
 }
 // Get latest detected gesture
 int GetGestureDetected( void )
 {
 	// Get current gesture only if enabled
 	return ( GESTURES.enabledFlags & GESTURES.current );
 }
 // Hold time measured in ms
 float GetGestureHoldDuration( void )
 {
 	// NOTE: time is calculated on current gesture HOLD
 	double time = 0.0;
 	if ( GESTURES.current == GESTURE_HOLD )
 		time = rgGetCurrentTime() - GESTURES.Hold.timeDuration;
 	return ( float )time;
 }
 // Get drag vector (between initial touch point to current)
 Vector2 GetGestureDragVector( void )
 {
 	// NOTE: drag vector is calculated on one touch points TOUCH_ACTION_MOVE
 	return GESTURES.Drag.vector;
 }
 // Get drag angle
 // NOTE: Angle in degrees, horizontal-right is 0, counterclockwise
 float GetGestureDragAngle( void )
 {
 	// NOTE: drag angle is calculated on one touch points TOUCH_ACTION_UP
 	return GESTURES.Drag.angle;
 }
 // Get distance between two pinch points
 Vector2 GetGesturePinchVector( void )
 {
 	// NOTE: Pinch distance is calculated on two touch points TOUCH_ACTION_MOVE
 	return GESTURES.Pinch.vector;
 }
 // Get angle between two pinch points
 // NOTE: Angle in degrees, horizontal-right is 0, counterclockwise
 float GetGesturePinchAngle( void )
 {
 	// NOTE: pinch angle is calculated on two touch points TOUCH_ACTION_MOVE
 	return GESTURES.Pinch.angle;
 }
 //----------------------------------------------------------------------------------
 // Module specific Functions Definition
 //----------------------------------------------------------------------------------
 // Get angle from two-points vector with X-axis
 static float rgVector2Angle( Vector2 v1, Vector2 v2 )
 {
 	float angle = atan2f( v2.y - v1.y, v2.x - v1.x ) * ( 180.0f / PI );
 	if ( angle < 0 )
 		angle += 360.0f;
 	return angle;
 }
 // Calculate distance between two Vector2
 static float rgVector2Distance( Vector2 v1, Vector2 v2 )
 {
 	float result;
 	float dx = v2.x - v1.x;
 	float dy = v2.y - v1.y;
 	result   = ( float )sqrt( dx * dx + dy * dy );
 	return result;
 }
 // Time measure returned are seconds
 static double rgGetCurrentTime( void )
 {
 	double time = 0;
 #if ! defined( RGESTURES_STANDALONE )
 	time = GetTime();
 #else
 #if defined( _WIN32 )
 	unsigned long long int clockFrequency, currentTime;
 	QueryPerformanceFrequency( &clockFrequency );    // BE CAREFUL: Costly operation!
 	QueryPerformanceCounter( &currentTime );
 	time = ( double )currentTime / clockFrequency;    // Time in seconds
 #endif
 #if defined( __linux__ )
 	// NOTE: Only for Linux-based systems
 	struct timespec now;
 	clock_gettime( CLOCK_MONOTONIC, &now );
 	unsigned long long int nowTime = ( unsigned long long int )now.tv_sec * 1000000000LLU + ( unsigned long long int )now.tv_nsec;    // Time in nanoseconds
 	time                           = ( ( double )nowTime * 1e-9 );    // Time in seconds
 #endif
 #if defined( __APPLE__ )
 	// #define CLOCK_REALTIME  CALENDAR_CLOCK    // returns UTC time since 1970-01-01
 	// #define CLOCK_MONOTONIC SYSTEM_CLOCK      // returns the time since boot time
 	clock_serv_t    cclock;
 	mach_timespec_t now;
 	host_get_clock_service( mach_host_self(), SYSTEM_CLOCK, &cclock );
 	// NOTE: OS X does not have clock_gettime(), using clock_get_time()
 	clock_get_time( cclock, &now );
 	mach_port_deallocate( mach_task_self(), cclock );
 	unsigned long long int nowTime = ( unsigned long long int )now.tv_sec * 1000000000LLU + ( unsigned long long int )now.tv_nsec;    // Time in nanoseconds
 	time                           = ( ( double )nowTime * 1e-9 );    // Time in seconds
 #endif
 #endif
 	return time;
 }
 #endif    // RGESTURES_IMPLEMENTATION
--- a/project/auxillary/vis_ast/dependencies/raylib/include/rlgl.h
+++ b/project/auxillary/vis_ast/dependencies/raylib/include/rlgl.h
--- a/project/auxillary/vis_ast/dependencies/raylib/include/utils.h
+++ b/project/auxillary/vis_ast/dependencies/raylib/include/utils.h
@ -1,82 +0,0 @@
 /**********************************************************************************************
 *
 *   raylib.utils - Some common utility functions
 *
 *
 *   LICENSE: zlib/libpng
 *
 *   Copyright (c) 2014-2023 Ramon Santamaria (@raysan5)
 *
 *   This software is provided "as-is", without any express or implied warranty. In no event
 *   will the authors be held liable for any damages arising from the use of this software.
 *
 *   Permission is granted to anyone to use this software for any purpose, including commercial
 *   applications, and to alter it and redistribute it freely, subject to the following restrictions:
 *
 *     1. The origin of this software must not be misrepresented; you must not claim that you
 *     wrote the original software. If you use this software in a product, an acknowledgment
 *     in the product documentation would be appreciated but is not required.
 *
 *     2. Altered source versions must be plainly marked as such, and must not be misrepresented
 *     as being the original software.
 *
 *     3. This notice may not be removed or altered from any source distribution.
 *
 **********************************************************************************************/
 #ifndef UTILS_H
 #define UTILS_H
 #if defined( PLATFORM_ANDROID )
 #include <stdio.h>                    // Required for: FILE
 #include <android/asset_manager.h>    // Required for: AAssetManager
 #endif
 #if defined( SUPPORT_TRACELOG )
 #define TRACELOG( level, ... ) TraceLog( level, __VA_ARGS__ )
 #if defined( SUPPORT_TRACELOG_DEBUG )
 #define TRACELOGD( ... ) TraceLog( LOG_DEBUG, __VA_ARGS__ )
 #else
 #define TRACELOGD( ... ) ( void )0
 #endif
 #else
 #define TRACELOG( level, ... ) ( void )0
 #define TRACELOGD( ... )       ( void )0
 #endif
 //----------------------------------------------------------------------------------
 // Some basic Defines
 //----------------------------------------------------------------------------------
 #if defined( PLATFORM_ANDROID )
 #define fopen( name, mode ) android_fopen( name, mode )
 #endif
 //----------------------------------------------------------------------------------
 // Types and Structures Definition
 //----------------------------------------------------------------------------------
 //...
 //----------------------------------------------------------------------------------
 // Global Variables Definition
 //----------------------------------------------------------------------------------
 // Nop...
 //----------------------------------------------------------------------------------
 // Module Functions Declaration
 //----------------------------------------------------------------------------------
 #if defined( __cplusplus )
 extern "C"
 {    // Prevents name mangling of functions
 #endif
 #if defined( PLATFORM_ANDROID )
 	void  InitAssetManager( AAssetManager* manager, const char* dataPath );    // Initialize asset manager from android app
 	FILE* android_fopen( const char* fileName, const char* mode );             // Replacement for fopen() -> Read-only!
 #endif
 #if defined( __cplusplus )
 }
 #endif
 #endif    // UTILS_H
--- a/project/auxillary/vis_ast/dependencies/raylib/raylib.c
+++ b/project/auxillary/vis_ast/dependencies/raylib/raylib.c
@ -1,8 +0,0 @@
 #include "raudio.c"
 #include "rcore.c"
 #include "rglfw.c"
 #include "rmodels.c"
 #include "rshapes.c"
 #include "rtext.c"
 #include "rtextures.c"
 #include "rutils.c"
--- a/project/auxillary/vis_ast/dependencies/raylib/raylib.refactor
+++ b/project/auxillary/vis_ast/dependencies/raylib/raylib.refactor
@ -1,9 +0,0 @@
 __VERSION 1
 word SUPPORT_MODULE_RSHAPES,   RL_SUPPORT_MODULE_RSHAPES
 word SUPPORT_MODULE_RTEXTURES, RL_SUPPORT_MODULE_RTEXTURES
 word SUPPORT_MODULE_RTEXT,     RL_SUPPORT_MODULE_RTEXT
 word SUPPORT_MODULE_RMODELS,   RL_SUPPORT_MODULE_RMODELS
 word SUPPORT_MODULE_RAUDIO,    RL_SUPPORT_MODULE_RAUDIO
--- a/project/auxillary/vis_ast/dependencies/raylib/raylib_refactor.cpp
+++ b/project/auxillary/vis_ast/dependencies/raylib/raylib_refactor.cpp
@ -1,290 +0,0 @@
 #define GEN_DEFINE_LIBRARY_CODE_CONSTANTS
 #define GEN_BENCHMARK
 #define GEN_ENFORCE_STRONG_CODE_TYPES
 // #define GEN_IMPLEMENTATION
 #include "gen.cpp"
 #include "gen.builder.cpp"
 constexpr char const* path_config    = "config.h";
 constexpr char const* path_raylib    = "raylib.h";
 constexpr char const* path_raymath   = "raymath.h";
 constexpr char const* path_rcamera   = "rcamera.h";
 constexpr char const* path_rcore     = "rcore.h";
 constexpr char const* path_rgestures = "rgestures.h";
 constexpr char const* path_rgl       = "rgl.h";
 constexpr char const* path_rtext     = "rtext.h";
 using namespace gen;
 StringCached upper_snake_to_mixed_snake(StringCached str)
 {
    local_persist String scratch = String::make_reserve(GlobalAllocator, kilobytes(1));
    scratch.clear();
    bool capitalizeNext = true;
    for (s32 index = 0; index < str.length(); ++index)
    {
        char c = str[index];
        if (c == '_')
        {
            scratch.append(c);
            capitalizeNext = true;
        }
        else if (capitalizeNext)
        {
            if (c >= 'a' && c <= 'z')
            {
                scratch.append(c - 32); // Convert to uppercase
            }
            else
            {
                scratch.append(c);
            }
            capitalizeNext = false;
        }
        else
        {
            if (c >= 'A' && c <= 'Z')
            {
                scratch.append(c + 32); // Convert to lowercase
            }
            else
            {
                scratch.append(c);
            }
        }
    }
    StringCached result = get_cached_string(scratch);
    return result;
 }
 StringCached pascal_to_lower_snake(StringCached str)
 {
    local_persist String scratch = String::make_reserve(GlobalAllocator, kilobytes(1));
    scratch.clear();
    for (s32 index = 0; index < str.length(); ++index)
    {
        char c = str[index];
        char next = (index + 1 < str.length()) ? str[index + 1] : '\0'; // Ensure we don't go out of bounds
        // Whitelist check for "2D" and "3D"
        if ((c == '2' || c == '3' | c == '4') && (next == 'D' || next == 'd'))
        {
            if (index > 0) // If it's not the start of the string, append an underscore
            {
                char* prev = str.Data + index - 1;
                if (*prev != '_') // Avoid double underscores
                {
                    scratch.append('_');
                }
            }
            scratch.append(c);
            scratch.append('d'); // Convert to lowercase
            index++; // Skip the next character since we've already processed it
            continue;
        }
        if (c >= 'A' && c <= 'Z')
        {
            char* prev = (index > 0) ? str.Data + index - 1 : nullptr;
            if ((index > 0 && prev && *prev >= 'a' && *prev <= 'z') || 
                (prev && char_is_digit(*prev) && (next >= 'A' && next <= 'Z')))
            {
                scratch.append('_');
            }
            scratch.append(c + 32);
        }
        else if (char_is_digit(c) && (next >= 'A' && next <= 'Z')) // Check for a number followed by an uppercase letter
        {
            scratch.append(c);
            scratch.append('_');
        }
        else
        {
            scratch.append(c);
        }
    }
    StringCached result = get_cached_string(scratch);
    return result;
 }
 void refactor_enum( CodeEnum& code )
 {
 	for ( Code elem : code->Body )
 	{
 		if ( elem->Type == ECode::Untyped )
 		{
 			elem->Content = upper_snake_to_mixed_snake( elem->Content );
 		}
 	}
 }
 void refactor_typename( CodeType& type )
 {
 	local_persist CodeType t_unsigned_char      = parse_type( code(unsigned char) );
 	local_persist CodeType t_unsigned_char_ptr  = parse_type( code(unsigned char*) );
 	local_persist CodeType t_unsigned_short_ptr	= parse_type( code(unsigned short*) );
 	local_persist CodeType t_int                = parse_type( code(int) );
 	local_persist CodeType t_int_ptr 		    = parse_type( code(int*) );
 	local_persist CodeType t_unsigned_int       = parse_type( code(unsigned int) );
 	local_persist CodeType t_float 	            = parse_type( code(float) );
 	local_persist CodeType t_float_ptr          = parse_type( code(float*) );
 	local_persist CodeType t_f32_ptr = parse_type( code(f32*) );
 	local_persist CodeType t_u8_ptr  = parse_type( code(u8*) );
 	local_persist CodeType t_s32_ptr = parse_type( code(s32*) );
 	String type_str = type.to_string();
 	if ( str_compare( type_str, t_unsigned_char.to_string() ) == 0 )
 	{
 		type.ast = t_u8.ast;
 	}
 	if ( str_compare( type_str, t_unsigned_char_ptr.to_string() ) == 0 )
 	{
 		type.ast = t_u8_ptr.ast;
 	}
 	if ( str_compare( type_str, t_unsigned_short_ptr.to_string() ) == 0 )
 	{
 		type.ast = t_u8_ptr.ast;
 	}
 	if ( str_compare( type_str, t_int.to_string() ) == 0 )
 	{
 		type.ast = t_s32.ast;
 	}
 	if ( str_compare( type_str, t_int_ptr.to_string() ) == 0 )
 	{
 		type.ast = t_s32_ptr.ast;
 	}
 	if ( str_compare( type_str, t_unsigned_int.to_string() ) == 0 )
 	{
 		type.ast = t_u32.ast;
 	}
 	if ( str_compare( type_str, t_float.to_string() ) == 0 )
 	{
 		type.ast = t_f32.ast;
 	}
 	if ( str_compare( type_str, t_float_ptr.to_string() ) == 0 )
 	{
 		type.ast = t_f32_ptr.ast;
 	}
 }
 void refactor_fn( CodeFn& fn )
 {
 	fn->Name = pascal_to_lower_snake( fn->Name );
 	for ( CodeParam param : fn->Params )
 	{
 		refactor_typename( param->ValueType );
 	}
 }
 void refactor_struct( CodeStruct& code )
 {
 	for ( Code field : code->Body )
 	{
 		if ( field->Type == ECode::Variable )
 		{
 			CodeVar var = field.cast<CodeVar>();
 			refactor_typename( var->ValueType );
 		}
 	}
 }
 void refactor_file( char const* path )
 {
 	FileContents contents = file_read_contents( GlobalAllocator, true, path );
 	CodeBody     code     = parse_global_body( { contents.size, rcast(char const*, contents.data) } );
 	String name_scratch = String::make_reserve( GlobalAllocator, kilobytes(1) );
 	// CodeBody includes 
 	// CodeBody nspace_body = def_body( ECode::Namespace );
 	CodeBody new_code = def_body( ECode::Global_Body );
 	for ( Code elem : code )
 	{
 		if ( elem->Type == ECode::Preprocess_Define )
 		{
 			if ( str_compare( elem->Name, txt("RL"), 2 ) == 0 || str_compare( elem->Name, txt("RAYLIB"), 6 ) == 0 )
 				continue;
 			name_scratch.append_fmt( "%RL_%S", elem->Name );
 			elem->Name = get_cached_string( name_scratch );
 			name_scratch.clear();
 		}
 		if ( elem->Type == ECode::Enum )
 		{
 			refactor_enum( elem.cast<CodeEnum>() );
 		}
 		if ( elem->Type == ECode::Typedef )
 		{
 			CodeTypedef td = elem.cast<CodeTypedef>();
 			if ( td->UnderlyingType->Type == ECode::Enum )
 			{
 				CodeEnum code = td->UnderlyingType.cast<CodeEnum>();
 				refactor_enum( code );
 			}
 			if ( td->UnderlyingType->Type == ECode::Struct )
 			{
 				CodeStruct code = td->UnderlyingType.cast<CodeStruct>();
 				refactor_struct( code );
 			}
 		}
 		if ( elem->Type == ECode::Struct )
 		{
 			refactor_struct( elem.cast<CodeStruct>() );
 		}
 		if ( elem->Type == ECode::Function || elem->Type == ECode::Function_Fwd )
 		{
 			refactor_fn( elem.cast<CodeFn>() );
 		}
 		if ( elem->Type == ECode::Extern_Linkage )
 		{
 			CodeBody body = elem.cast<CodeExtern>()->Body;
 			for ( Code elem : body )
 			{
 				if ( elem->Type == ECode::Function || elem->Type == ECode::Function_Fwd )
 				{
 					refactor_fn( elem.cast<CodeFn>() );
 				}
 			}
 			Code nspace = def_namespace( txt("raylib"), def_namespace_body( args(elem) ) );
 			elem = nspace;
 		}
 		new_code.append( elem );
 	}
 	Builder builder = Builder::open( path );
 	builder.print( new_code );
 	builder.write();
 }
 int gen_main()
 {
 	gen::init();
 	refactor_file( path_config );
 	refactor_file( path_raylib );
 	refactor_file( path_raymath );
 	refactor_file( path_rcamera );
 	return 0;
 }
--- a/project/auxillary/vis_ast/readme.md
+++ b/project/auxillary/vis_ast/readme.md
@ -1,10 +0,0 @@
 # Vis AST
 AST visualizer for gencpp
 This is a early start to creating frontend tooling for c/c++ using gencpp as a core component.  
 I'll be exploring creating an AST explorer for this library with raylib as the graphical & general platform vendor for dependencies that go beyond the scope of gencpp.
 For now I'll have its build script in this file, however it will heavily rely on gencpp's helper scripts.
 Whatever sort of UX tooling I setup for this will be reused for the other tools I'll be creating for gencpp.
--- a/project/auxillary/vis_ast/rebuild.ps1
+++ b/project/auxillary/vis_ast/rebuild.ps1
--- a/project/auxillary/vis_ast/update_deps.ps1
+++ b/project/auxillary/vis_ast/update_deps.ps1
@ -1,178 +0,0 @@
 Clear-Host
 $path_root     = git rev-parse --show-toplevel
 $path_scripts  = Join-Path $path_root 'scripts'
 $target_arch        = Join-Path $path_scripts 'helpers/target_arch.psm1'
 $devshell           = Join-Path $path_scripts 'helpers/devshell.ps1'
 $format_cpp	        = Join-Path $path_scripts 'helpers/format_cpp.psm1'
 $incremental_checks = Join-Path $path_scripts 'helpers/incremental_checks.ps1'
 $vendor_toolchain   = Join-Path $path_scripts 'helpers/vendor_toolchain.ps1'
 $path_project  = Join-Path $path_root     'project'
 $path_aux      = Join-Path $path_project  'auxillary'
 $path_vis_root = Join-Path $path_aux      'vis_ast'
 $path_binaries = Join-Path $path_vis_root 'binaries'
 $path_deps = Join-Path $path_vis_root 'dependencies'
 $path_temp = Join-Path $path_deps     'temp'
 Import-Module $target_arch
 Import-Module $format_cpp
 #region Arguments
 $vendor           = $null
 $optimize         = $null
 $debug 	          = $null
 $analysis	      = $false
 $dev              = $false
 $verbose          = $null
 [array] $vendors = @( "clang", "msvc" )
 # This is a really lazy way of parsing the args, could use actual params down the line...
 if ( $args ) { $args | ForEach-Object {
 switch ($_){
 { $_ -in $vendors }   { $vendor    = $_; break }
 "optimize"            { $optimize  = $true }
 "debug"               { $debug     = $true }
 "analysis"            { $analysis  = $true }
 "dev"                 { $dev       = $true }
 "verbose"             { $verbose   = $true }
 }
 }}
 #endregion Argument
 # Load up toolchain configuraion
 . $vendor_toolchain
 . $incremental_checks
 # Clear out the current content first
 # remove-item $path_temp -Recurse
 # New-Item -ItemType Directory -Path $path_temp
 if ( -not (Test-Path $path_binaries) ) {
 	New-Item -ItemType Directory -Path $path_binaries
 }
 function setup-raylib {
 	$path_raylib     = join-path $path_deps   'raylib'
 	$path_raylib_inc = join-path $path_raylib 'include'
 	$path_raylib_lib = join-path $path_raylib 'lib'
 	if ( test-path $path_raylib_inc ) {
 		remove-item $path_raylib_inc -recurse
 		remove-item $path_raylib_lib -recurse
 	}
 	new-item -path $path_raylib_inc -ItemType Directory
 	new-item -path $path_raylib_lib -ItemType Directory
 	$url_raylib_zip  = 'https://github.com/raysan5/raylib/archive/refs/heads/master.zip'
 	$path_raylib_zip = join-path $path_temp 'raylib.zip'
 	$path_raylib_master      = join-path $path_temp          'raylib-master'
 	$path_raylib_src         = join-path $path_raylib_master 'src'
 	$path_raylib_glfw_inc    = join-path $path_raylib_src    'external/glfw/include'
 	remove-item $path_raylib_master -Recurse
 	# invoke-webrequest -uri $url_raylib_zip   -outfile $path_raylib_zip
 	expand-archive    -path $path_raylib_zip -destinationpath $path_temp
 	write-host "Building raylib with $vendor"
 	$path_build = Join-Path $path_raylib 'build'
 	if ( (Test-Path $path_build) -eq $false ) {
 		New-Item $path_build -ItemType Directory
 	}
 	$raylib_headers = Get-ChildItem -Path $path_raylib_src -Filter "*.h" -File
 	$raylib_modules = get-childitem -path $path_raylib_src -filter "*.c" -file
 	# Refactor raylib
 	if ( $true ) {
 	# if ( $false ) {
 		$path_gencpp = join-path $path_root 'project/gen'
 		$includes = @(
 			$path_gencpp
 		)
 		$compiler_args = @(
 			($flag_define + 'GEN_TIME')
 		)
 		$linker_args = @(
 		)
 		$unit       = join-path $path_raylib 'raylib_refactor.cpp'
 		$executable = join-path $path_build  'raylib_refactor.exe'
 		$build_result = build-simple $path_build $includes $compiler_args $linker_args $unit $executable
 		Push-Location $path_raylib_src
 			if ( Test-Path( $executable ) ) {
 				Measure-Command { & $executable
 						| ForEach-Object {
 							write-host `t $_ -ForegroundColor Green
 						}
 					}
 			}
 		Pop-Location
 		push-location $path_scripts
 		# Time to format
 		$fmt_includes = @()
 		foreach ( $header in $raylib_headers ) {
 			$fmt_includes +=  split-path $header -leaf
 		}
 		foreach ( $module in $raylib_modules ) {
 			$fmt_includes +=  split-path $module -leaf
 		}
 		format-cpp $path_raylib_src $fmt_includes $null
 		pop-location
 	}
 	# Build raylib
 	if ( $false ) {
 		# Microsoft
 		$lib_gdi32   = 'Gdi32.lib'
 		$lib_shell32 = 'Shell32.lib'
 		$lib_xinput  = 'Xinput.lib'
 		$lib_user32  = 'User32.lib'
 		$lib_winmm   = 'Winmm.lib'
 		$includes = @(
 			$path_raylib_src,
 			$path_raylib_glfw_inc
 		)
 		foreach ($include in $includes) {
 			write-host $include
 		}
 		$compiler_args = @(
 			($flag_define + 'PLATFORM_DESKTOP'),
 			($flag_define + 'BUILD_LIBTYPE_SHARED')
 		)
 		$linker_args   = @(
 			$flag_link_dll,
 			# $lib_xinput,
 			$lib_gdi32,
 			$lib_shell32,
 			$lib_user32,
 			$lib_winmm
 		)
 		# $unit = join-path $path_raylib     'raylib.c'
 		$dll  = join-path $path_raylib_lib 'raylib.dll'
 		# $build_result = build-simple $path_build $includes $compiler_args $linker_args $unit $dll
 		$build_result = build $path_build $includes $compiler_args $linker_args $raylib_modules $dll
 	}
 	# Move headers to used include
 	foreach ($header in $raylib_headers) {
 		Copy-Item -Path $header -Destination (join-path $path_raylib_inc (split-path $header -Leaf))
 	}
 }
 setup-raylib
--- a/project/bootstrap.cpp
+++ b/project/bootstrap.cpp
@ -1,6 +1,8 @@
 #define GEN_DEFINE_LIBRARY_CODE_CONSTANTS
 #define GEN_ENFORCE_STRONG_CODE_TYPES
 #define GEN_EXPOSE_BACKEND
 #define GEN_SUPPORT_CPP_MEMBER_FEATURES 0
 #define GEN_SUPPORT_CPP_REFERENCES      0
 #include "gen.cpp"
 #include "helpers/push_ignores.inline.hpp"
@ -20,16 +22,56 @@ constexpr char const* generation_notice =
 "// This file was generated automatially by gencpp's bootstrap.cpp "
 "(See: https://github.com/Ed94/gencpp)\n\n";
 #include <cstdlib>   // for system()
 void format_file( char const* path )
 {
 	String resolved_path = string_make(GlobalAllocator, to_str(path));
 	String style_arg = string_make(GlobalAllocator, txt("-style=file:"));
 	append( & style_arg, "../scripts/.clang-format ");
 	// Need to execute clang format on the generated file to get it to match the original.
 	#define clang_format      "clang-format "
 	#define cf_format_inplace "-i "
 	#define cf_verbose        "-verbose "
 	String command = string_make( GlobalAllocator, clang_format );
 	append( & command, cf_format_inplace );
 	append( & command, cf_verbose );
 	append( & command, style_arg );
 	append( & command, resolved_path );
 		log_fmt("\tRunning clang-format on file:\n");
 		system( command );
 		log_fmt("\tclang-format finished reformatting.\n");
 	#undef cf_cmd
 	#undef cf_format_inplace
 	#undef cf_style
 	#undef cf_verbse
 }
 Code dump_to_scratch_and_retireve( Code code )
 {
 	Builder ecode_file_temp = Builder::open("gen/scratch.hpp");
 	ecode_file_temp.print(code);
 	ecode_file_temp.write();
 	format_file("gen/scratch.hpp");
 	Code result = scan_file( "gen/scratch.hpp" );
 	remove("gen/scratch.hpp");
 	return result;
 }
 int gen_main()
 {
 	gen::init();
 	// PreprocessorDefines.append("GEN_NS");
 	Code push_ignores = scan_file( "helpers/push_ignores.inline.hpp" );
 	Code pop_ignores  = scan_file( "helpers/pop_ignores.inline.hpp" );
 	// gen_dep.hpp
 	{
-		Code header_start = scan_file( "dependencies/header_start.hpp" );
+		Code platform     = scan_file( "dependencies/platform.hpp" );
 		Code macros 	  = scan_file( "dependencies/macros.hpp" );
 		Code basic_types  = scan_file( "dependencies/basic_types.hpp" );
 		Code debug        = scan_file( "dependencies/debug.hpp" );
@ -45,8 +87,8 @@ int gen_main()
 		Builder
 		header = Builder::open("gen/gen.dep.hpp");
 		header.print_fmt( generation_notice );
-		header.print_fmt( "// This file is intended to be included within gen.hpp (There is no pragma diagnostic ignores)\n\n" );
+		header.print_fmt( "// This file is intended to be included within gen.hpp (There is no pragma diagnostic ignores)\n" );
-		header.print( header_start );
+		header.print( platform );
 		header.print_fmt( "\nGEN_NS_BEGIN\n" );
 		header.print( macros );
@ -80,7 +122,7 @@ int gen_main()
 		Builder
 		src = Builder::open( "gen/gen.dep.cpp" );
 		src.print_fmt( generation_notice );
-		src.print_fmt( "// This file is intended to be included within gen.cpp (There is no pragma diagnostic ignores)\n\n" );
+		src.print_fmt( "// This file is intended to be included within gen.cpp (There is no pragma diagnostic ignores)\n" );
 		src.print( src_start );
 		src.print_fmt( "\nGEN_NS_BEGIN\n" );
@ -112,6 +154,7 @@ int gen_main()
 		Code types        = scan_file( "components/types.hpp" );
 		Code ast          = scan_file( "components/ast.hpp" );
 		Code ast_types    = scan_file( "components/ast_types.hpp" );
 		Code code_types   = scan_file( "components/code_types.hpp" );
 		Code interface    = scan_file( "components/interface.hpp" );
 		Code inlines      = scan_file( "components/inlines.hpp" );
 		Code header_end   = scan_file( "components/header_end.hpp" );
@ -131,13 +174,18 @@ int gen_main()
 		header.print_fmt( "#pragma region Types\n" );
 		header.print( types );
-		header.print( ecode );
+		header.print( fmt_newline);
-		header.print( eoperator );
+		header.print( dump_to_scratch_and_retireve(ecode) );
-		header.print( especifier );
+		header.print( fmt_newline);
 		header.print( dump_to_scratch_and_retireve(eoperator) );
 		header.print( fmt_newline);
 		header.print( dump_to_scratch_and_retireve(especifier) );
 		header.print( fmt_newline);
 		header.print_fmt( "#pragma endregion Types\n\n" );
 		header.print_fmt( "#pragma region AST\n" );
 		header.print( ast );
 		header.print( code_types );
 		header.print( ast_types );
 		header.print_fmt( "\n#pragma endregion AST\n" );
@ -146,7 +194,8 @@ int gen_main()
 		header.print_fmt( "\n#pragma region Inlines\n" );
 		header.print( inlines );
 		header.print( fmt_newline );
-		header.print( ast_inlines );
+		header.print( dump_to_scratch_and_retireve(ast_inlines) );
 		header.print( fmt_newline );
 		header.print_fmt( "#pragma endregion Inlines\n" );
 		header.print( header_end );
@ -181,38 +230,44 @@ int gen_main()
 	// gen.cpp
 	{
-		Code        src_start       = scan_file( "components/src_start.cpp" );
+		Code        src_start          = scan_file( "components/src_start.cpp" );
-		Code        static_data 	= scan_file( "components/static_data.cpp" );
+		Code        static_data 	   = scan_file( "components/static_data.cpp" );
-		Code        ast_case_macros = scan_file( "components/ast_case_macros.cpp" );
+		Code        ast_case_macros    = scan_file( "components/ast_case_macros.cpp" );
-		Code        ast			    = scan_file( "components/ast.cpp" );
+		Code        ast			       = scan_file( "components/ast.cpp" );
-		Code        interface	    = scan_file( "components/interface.cpp" );
+		Code        code_serialization = scan_file( "components/code_serialization.cpp" );
-		Code        upfront 	    = scan_file( "components/interface.upfront.cpp" );
+		Code        interface	       = scan_file( "components/interface.cpp" );
-		Code 	    parsing 	    = scan_file( "components/interface.parsing.cpp" );
+		Code        upfront 	       = scan_file( "components/interface.upfront.cpp" );
-		Code        untyped 	    = scan_file( "components/interface.untyped.cpp" );
+		Code        lexer              = scan_file( "components/lexer.cpp" );
 		Code        parser             = scan_file( "components/parser.cpp" );
 		Code 	    parsing_interface  = scan_file( "components/interface.parsing.cpp" );
 		Code        untyped 	       = scan_file( "components/interface.untyped.cpp" );
 		CodeBody etoktype         = gen_etoktype( "enums/ETokType.csv", "enums/AttributeTokens.csv" );
-		CodeNS   nspaced_etoktype = def_namespace( name(Parser), def_namespace_body( args(etoktype)) );
+		CodeNS   nspaced_etoktype = def_namespace( name(parser), def_namespace_body( args(etoktype)) );
 		Builder
 		src = Builder::open( "gen/gen.cpp" );
 		src.print_fmt( generation_notice );
 		src.print( push_ignores );
 		src.print( src_start );
-		src.print_fmt( "GEN_NS_BEGIN\n");
+		src.print_fmt( "\nGEN_NS_BEGIN\n");
 		src.print( static_data );
 		src.print_fmt( "\n#pragma region AST\n\n" );
 		src.print( ast_case_macros );
 		src.print( ast );
 		src.print( code_serialization );
 		src.print_fmt( "\n#pragma endregion AST\n" );
 		src.print_fmt( "\n#pragma region Interface\n" );
 		src.print( interface );
 		src.print( upfront );
 		src.print_fmt( "\n#pragma region Parsing\n\n" );
-		src.print( nspaced_etoktype );
+		src.print( dump_to_scratch_and_retireve(nspaced_etoktype) );
-		src.print( parsing );
+		src.print( lexer );
 		src.print( parser );
 		src.print( parsing_interface );
 		src.print( untyped );
 		src.print_fmt( "\n#pragma endregion Parsing\n\n" );
 		src.print_fmt( "#pragma endregion Interface\n\n" );
@ -270,7 +325,7 @@ int gen_main()
 		header.print_fmt( "\nGEN_NS_BEGIN\n" );
 		header.print( parsing );
 		header.print( scanner );
-		header.print_fmt( "GEN_NS_END\n" );
+		header.print_fmt( "\nGEN_NS_END\n" );
 		header.write();
 	}
@ -285,7 +340,7 @@ int gen_main()
 		src.print( def_include( txt("gen.scanner.hpp") ) );
 		src.print_fmt( "\nGEN_NS_BEGIN\n" );
 		src.print( parsing );
-		src.print( scanner );
+		// src.print( scanner );
 		src.print_fmt( "GEN_NS_END\n" );
 		src.write();
 	}
--- a/project/components/ast.cpp
+++ b/project/components/ast.cpp
--- a/project/components/ast.hpp
+++ b/project/components/ast.hpp
@ -11,6 +11,7 @@ struct AST_Body;
 struct AST_Attributes;
 struct AST_Comment;
 struct AST_Constructor;
 // struct AST_BaseClass;
 struct AST_Class;
 struct AST_Define;
 struct AST_Destructor;
@ -28,6 +29,42 @@ struct AST_Param;
 struct AST_Pragma;
 struct AST_PreprocessCond;
 struct AST_Specifiers;
 #if GEN_EXECUTION_EXPRESSION_SUPPORT
 struct AST_Expr;
 struct AST_Expr_Assign;
 struct AST_Expr_Alignof;
 struct AST_Expr_Binary;
 struct AST_Expr_CStyleCast;
 struct AST_Expr_FunctionalCast;
 struct AST_Expr_CppCast;
 struct AST_Expr_ProcCall;
 struct AST_Expr_Decltype;
 struct AST_Expr_Comma;  // TODO(Ed) : This is a binary op not sure if it needs its own AST...
 struct AST_Expr_AMS;    // Access Member Symbol
 struct AST_Expr_Sizeof;
 struct AST_Expr_Subscript;
 struct AST_Expr_Ternary;
 struct AST_Expr_UnaryPrefix;
 struct AST_Expr_UnaryPostfix;
 struct AST_Expr_Element;
 struct AST_Stmt;
 struct AST_Stmt_Break;
 struct AST_Stmt_Case;
 struct AST_Stmt_Continue;
 struct AST_Stmt_Decl;
 struct AST_Stmt_Do;
 struct AST_Stmt_Expr;  // TODO(Ed) : Is this distinction needed? (Should it be a flag instead?)
 struct AST_Stmt_Else;
 struct AST_Stmt_If;
 struct AST_Stmt_For;
 struct AST_Stmt_Goto;
 struct AST_Stmt_Label;
 struct AST_Stmt_Switch;
 struct AST_Stmt_While;
 #endif
 struct AST_Struct;
 struct AST_Template;
 struct AST_Type;
@ -36,42 +73,103 @@ struct AST_Union;
 struct AST_Using;
 struct AST_Var;
-struct Code;
+#if GEN_COMPILER_C
-struct CodeBody;
+#define Define_Code(Type) typedef AST_##Type* Code##Type
-// These are to offer ease of use and optionally strong type safety for the AST.
+#else
-struct CodeAttributes;
+#define Define_Code(Type) struct Code##Type
-struct CodeComment;
+#endif
 struct CodeClass;
 struct CodeConstructor;
 struct CodeDefine;
 struct CodeDestructor;
 struct CodeEnum;
 struct CodeExec;
 struct CodeExtern;
 struct CodeInclude;
 struct CodeFriend;
 struct CodeFn;
 struct CodeModule;
 struct CodeNS;
 struct CodeOperator;
 struct CodeOpCast;
 struct CodeParam;
 struct CodePreprocessCond;
 struct CodePragma;
 struct CodeSpecifiers;
 struct CodeStruct;
 struct CodeTemplate;
 struct CodeType;
 struct CodeTypedef;
 struct CodeUnion;
 struct CodeUsing;
 struct CodeVar;
-namespace Parser
+#if GEN_COMPILER_C
 typedef AST* code;
 #else
 struct Code;
 #endif
 Define_Code(Body);
 // These are to offer ease of use and optionally strong type safety for the AST.
 Define_Code(Attributes);
 // struct CodeBaseClass;
 Define_Code(Comment);
 Define_Code(Class);
 Define_Code(Constructor);
 Define_Code(Define);
 Define_Code(Destructor);
 Define_Code(Enum);
 Define_Code(Exec);
 Define_Code(Extern);
 Define_Code(Include);
 Define_Code(Friend);
 Define_Code(Fn);
 Define_Code(Module);
 Define_Code(NS);
 Define_Code(Operator);
 Define_Code(OpCast);
 Define_Code(Param);
 Define_Code(PreprocessCond);
 Define_Code(Pragma);
 Define_Code(Specifiers);
 #if GEN_EXECUTION_EXPRESSION_SUPPORT
 Define_Code(Expr);
 Define_Code(Expr_Assign);
 Define_Code(Expr_Alignof);
 Define_Code(Expr_Binary);
 Define_Code(Expr_CStyleCast);
 Define_Code(Expr_FunctionalCast);
 Define_Code(Expr_CppCast);
 Define_Code(Expr_Element);
 Define_Code(Expr_ProcCall);
 Define_Code(Expr_Decltype);
 Define_Code(Expr_Comma);
 Define_Code(Expr_AMS); // Access Member Symbol
 Define_Code(Expr_Sizeof);
 Define_Code(Expr_Subscript);
 Define_Code(Expr_Ternary);
 Define_Code(Expr_UnaryPrefix);
 Define_Code(Expr_UnaryPostfix);
 Define_Code(Stmt);
 Define_Code(Stmt_Break);
 Define_Code(Stmt_Case);
 Define_Code(Stmt_Continue);
 Define_Code(Stmt_Decl);
 Define_Code(Stmt_Do);
 Define_Code(Stmt_Expr);
 Define_Code(Stmt_Else);
 Define_Code(Stmt_If);
 Define_Code(Stmt_For);
 Define_Code(Stmt_Goto);
 Define_Code(Stmt_Label);
 Define_Code(Stmt_Switch);
 Define_Code(Stmt_While);
 #endif
 Define_Code(Struct);
 Define_Code(Template);
 Define_Code(Type);
 Define_Code(Typedef);
 Define_Code(Union);
 Define_Code(Using);
 Define_Code(Var);
 #undef Define_Code
 namespace parser
 {
 	struct Token;
 }
 #if ! GEN_COMPILER_C
 template< class Type> forceinline Type tmpl_cast( Code self ) { return * rcast( Type*, & self ); }
 #endif
 char const* debug_str (Code code);
 Code        duplicate (Code code);
 bool        is_equal  (Code code, Code other);
 bool        is_body   (Code code);
 bool        is_valid  (Code code);
 void        set_global(Code code);
 String      to_string (Code code);
 #if ! GEN_COMPILER_C
 /*
 	AST* wrapper
 	- Not constantly have to append the '*' as this is written often..
@ -79,56 +177,56 @@ namespace Parser
 */
 struct Code
 {
-#	pragma region Statics
+	AST* ast;
 	// Used to identify ASTs that should always be duplicated. (Global constant ASTs)
 	static Code Global;
-	// Used to identify invalid generated code.
+#	define Using_Code( Typename )                                                     \
-	static Code Invalid;
+	char const* debug_str()                { return GEN_NS debug_str(* this); }       \
-#	pragma endregion Statics
+	Code        duplicate()                { return GEN_NS duplicate(* this); }	      \
 	bool        is_equal( Code other )     { return GEN_NS is_equal(* this, other); } \
 	bool        is_body()                  { return GEN_NS is_body(* this); }         \
 	bool        is_valid()                 { return GEN_NS is_valid(* this); }        \
 	void        set_global()               { return GEN_NS set_global(* this); }
-#	define Using_Code( Typename )          \
+#	define Using_CodeOps( Typename )                                         \
-	char const* debug_str();               \
+	Typename&   operator = ( AST* other );                                   \
-	Code        duplicate();			   \
+	Typename&   operator = ( Code other );                                   \
-	bool        is_equal( Code other );    \
+	bool        operator ==( Code other ) { return (AST*)ast == other.ast; } \
-	bool        is_valid();                \
+	bool        operator !=( Code other ) { return (AST*)ast != other.ast; } \
 	void        set_global();              \
 	String      to_string();               \
 	Typename&   operator = ( AST* other ); \
 	Typename&   operator = ( Code other ); \
 	bool        operator ==( Code other ); \
 	bool        operator !=( Code other ); \
 	operator bool();
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code( Code );
 	String to_string() { return GEN_NS to_string(* this); }
 #endif
-	template< class Type >
+	Using_CodeOps( Code );
 	Type cast()
 	{
 		return * rcast( Type*, this );
 	}
-	AST* operator ->()
+	AST* operator ->() { return ast; }
 	{
 		return ast;
 	}
 	Code& operator ++();
 	// TODO(Ed) : Remove this overload.
 	auto& operator*()
 	{
 		local_persist thread_local
 		Code NullRef = { nullptr };
 		if ( ast == nullptr )
 			return NullRef;
 		return *this;
 	}
 	AST* ast;
 #ifdef GEN_ENFORCE_STRONG_CODE_TYPES
 #	define operator explicit operator
 #endif
 	operator CodeBody() const;
 	operator CodeAttributes() const;
 	// operator CodeBaseClass() const;
 	operator CodeComment() const;
 	operator CodeConstructor() const;
 	operator CodeDestructor() const;
 	operator CodeClass() const;
 	operator CodeConstructor() const;
 	operator CodeDefine() const;
 	operator CodeDestructor() const;
 	operator CodeExec() const;
 	operator CodeEnum() const;
 	operator CodeExtern() const;
@ -150,9 +248,17 @@ struct Code
 	operator CodeUnion() const;
 	operator CodeUsing() const;
 	operator CodeVar() const;
 	operator CodeBody() const;
 	#undef operator
 };
 #endif
 #pragma region Statics
 // Used to identify ASTs that should always be duplicated. (Global constant ASTs)
 extern Code Code_Global;
 // Used to identify invalid generated code.
 extern Code Code_Invalid;
 #pragma endregion Statics
 struct Code_POD
 {
@ -164,32 +270,68 @@ static_assert( sizeof(Code) == sizeof(Code_POD), "ERROR: Code is not POD" );
 // Desired width of the AST data structure.
 constexpr int const AST_POD_Size = 128;
 void        append       ( AST* self, AST* other );
 char const* debug_str    ( AST* self );
 AST*        duplicate    ( AST* self );
 Code*       entry        ( AST* self, u32 idx );
 bool        has_entries  ( AST* self );
 bool        is_body      ( AST* self );
 bool        is_equal     ( AST* self, AST* other );
 String      to_string    ( AST* self );
 void        to_string    ( AST* self, String* result );
 char const* type_str     ( AST* self );
 bool        validate_body( AST* self );
 #if GEN_CPP_SUPPORT_REFERENCES
 void        append   ( AST& self, AST& other ) { return append(& self, & other); }
 bool        is_body  ( AST& self )             { return is_body(& self); }
 bool        is_equal ( AST& self, AST& other ) { return is_equal(& self, & other); }
 char const* debug_str( AST& self )             { return debug_str( & self ); }
 String      to_string( AST& self )             { return to_string( & self ); }
 char const* type_str ( AST& self )             { return type_str( & self ); }
 #endif
 constexpr static
 int AST_ArrSpecs_Cap =
 (
 		AST_POD_Size
 		- sizeof(AST*) * 3
 		- sizeof(parser::Token*)
 		- sizeof(AST*)
 		- sizeof(StringCached)
 		- sizeof(CodeT)
 		- sizeof(ModuleFlag)
 		- sizeof(int)
 )
 / sizeof(int) - 1; // -1 for 4 extra bytes
 /*
 	Simple AST POD with functionality to seralize into C++ syntax.
 */
 struct AST
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 #	pragma region Member Functions
-	void        append     ( AST* other );
+	void        append     ( AST* other )  { GEN_NS append(this, other); }
-	char const* debug_str  ();
+	char const* debug_str  ()              { return GEN_NS debug_str(this); }
-	AST*        duplicate  ();
+	AST*        duplicate  ()              { return GEN_NS duplicate(this); }
-	Code&       entry      ( u32 idx );
+	Code*       entry      ( u32 idx )     { return GEN_NS entry(this, idx); }
-	bool        has_entries();
+	bool        has_entries()              { return GEN_NS has_entries(this); }
-	bool        is_equal   ( AST* other );
+	bool        is_equal   ( AST* other )  { return GEN_NS is_equal(this, other); }
-	char const* type_str();
+	bool        is_body()                  { return GEN_NS is_body(this); }
-	bool        validate_body();
+	char const* type_str()                 { return GEN_NS type_str(this); }
 	bool        validate_body()            { return GEN_NS validate_body(this); }
-	neverinline String to_string();
+	String to_string()                 { return GEN_NS to_string(this); }
 	void   to_string( String& result ) { return GEN_NS to_string(this, & result); }
-	template< class Type >
+#	pragma endregion Member Functions
-	Type cast()
+#endif
 	{
 		return * this;
 	}
 	operator Code();
 	operator CodeBody();
 	operator CodeAttributes();
 	// operator CodeBaseClass();
 	operator CodeComment();
 	operator CodeConstructor();
 	operator CodeDestructor();
@ -216,21 +358,6 @@ struct AST
 	operator CodeUnion();
 	operator CodeUsing();
 	operator CodeVar();
 #	pragma endregion Member Functions
 	constexpr static
 	int ArrSpecs_Cap =
 	(
 			AST_POD_Size
 			- sizeof(AST*) * 3
 			- sizeof(Parser::Token*)
 			- sizeof(AST*)
 			- sizeof(StringCached)
 			- sizeof(CodeT)
 			- sizeof(ModuleFlag)
 			- sizeof(int)
 	)
 	/ sizeof(int) - 1; // -1 for 4 extra bytes
 	union {
 		struct
@ -246,24 +373,26 @@ struct AST
 				AST*  ValueType;       // Parameter, Variable
 			};
 			union {
 				AST*  Macro;           // Parameter
 				AST*  BitfieldSize;    // Variable (Class/Struct Data Member)
 				AST*  Params;          // Constructor, Function, Operator, Template, Typename
 			};
 			union {
 				AST*  ArrExpr;          // Typename
-				AST*  Body;             // Class, Constructr, Destructor, Enum, Function, Namespace, Struct, Union
+				AST*  Body;             // Class, Constructor, Destructor, Enum, Friend, Function, Namespace, Struct, Union
 				AST*  Declaration;      // Friend, Template
 				AST*  Value;            // Parameter, Variable
 			};
 			union {
 				AST*  NextVar;          // Variable; Possible way to handle comma separated variables declarations. ( , NextVar->Specs NextVar->Name NextVar->ArrExpr = NextVar->Value )
 				AST*  SuffixSpecs;      // Only used with typenames, to store the function suffix if typename is function signature. ( May not be needed )
 				AST*  PostNameMacro;     // Only used with parameters for specifically UE_REQUIRES (Thanks Unreal)
 			};
 		};
 		StringCached  Content;          // Attributes, Comment, Execution, Include
 		struct {
-			SpecifierT ArrSpecs[ArrSpecs_Cap]; // Specifiers
+			SpecifierT ArrSpecs[AST_ArrSpecs_Cap]; // Specifiers
-			AST*       NextSpecs;                   // Specifiers; If ArrSpecs is full, then NextSpecs is used.
+			AST*       NextSpecs;              // Specifiers; If ArrSpecs is full, then NextSpecs is used.
 		};
 	};
 	union {
@ -275,10 +404,11 @@ struct AST
 		AST* Next;
 		AST* Back;
 	};
-	Parser::Token*    Token; // Reference to starting token, only avaialble if it was derived from parsing.
+	parser::Token*    Token; // Reference to starting token, only avaialble if it was derived from parsing.
 	AST*              Parent;
 	StringCached      Name;
 	CodeT             Type;
 //	CodeFlag          CodeFlags;
 	ModuleFlag        ModuleFlags;
 	union {
 		b32           IsFunction;  // Used by typedef to not serialize the name field.
@ -286,6 +416,8 @@ struct AST
 		OperatorT     Op;
 		AccessSpec    ParentAccess;
 		s32           NumEntries;
 		s32           VarConstructorInit;  // Used by variables to know that initialization is using a constructor expression instead of an assignment expression.
 		b32           EnumUnderlyingMacro; // Used by enums incase the user wants to wrap underlying type specification in a macro
 	};
 };
@ -305,23 +437,25 @@ struct AST_POD
 				AST*  ValueType;       // Parameter, Variable
 			};
 			union {
 				AST*  Macro;           // Parameter
 				AST*  BitfieldSize;    // Variable (Class/Struct Data Member)
 				AST*  Params;          // Constructor, Function, Operator, Template, Typename
 			};
 			union {
 				AST*  ArrExpr;          // Typename
-				AST*  Body;             // Class, Constructr, Destructor, Enum, Function, Namespace, Struct, Union
+				AST*  Body;             // Class, Constructr, Destructor, Enum, Friend, Function, Namespace, Struct, Union
 				AST*  Declaration;      // Friend, Template
 				AST*  Value;            // Parameter, Variable
 			};
 			union {
 				AST*  NextVar;          // Variable; Possible way to handle comma separated variables declarations. ( , NextVar->Specs NextVar->Name NextVar->ArrExpr = NextVar->Value )
 				AST*  SuffixSpecs;      // Only used with typenames, to store the function suffix if typename is function signature. ( May not be needed )
 				AST*  PostNameMacro;    // Only used with parameters for specifically UE_REQUIRES (Thanks Unreal)
 			};
 		};
 		StringCached  Content;          // Attributes, Comment, Execution, Include
 		struct {
-			SpecifierT ArrSpecs[AST::ArrSpecs_Cap]; // Specifiers
+			SpecifierT ArrSpecs[AST_ArrSpecs_Cap]; // Specifiers
 			AST*       NextSpecs;                   // Specifiers; If ArrSpecs is full, then NextSpecs is used.
 		};
 	};
@ -334,10 +468,11 @@ struct AST_POD
 		AST* Next;
 		AST* Back;
 	};
-	Parser::Token*    Token; // Reference to starting token, only avaialble if it was derived from parsing.
+	parser::Token*    Token; // Reference to starting token, only avaialble if it was derived from parsing.
 	AST*              Parent;
 	StringCached      Name;
 	CodeT             Type;
 	CodeFlag          CodeFlags;
 	ModuleFlag        ModuleFlags;
 	union {
 		b32           IsFunction;  // Used by typedef to not serialize the name field.
@ -345,16 +480,10 @@ struct AST_POD
 		OperatorT     Op;
 		AccessSpec    ParentAccess;
 		s32           NumEntries;
 		s32           VarConstructorInit; // Used by variables to know that initialization is using a constructor expression instead of an assignment expression.
 	};
 };
 struct test {
 	SpecifierT ArrSpecs[AST::ArrSpecs_Cap]; // Specifiers
 	AST* NextSpecs;                   // Specifiers; If ArrSpecs is full, then NextSpecs is used.
 };
 constexpr int pls = sizeof(test);
 // Its intended for the AST to have equivalent size to its POD.
 // All extra functionality within the AST namespace should just be syntatic sugar.
 static_assert( sizeof(AST)     == sizeof(AST_POD), "ERROR: AST IS NOT POD" );
@ -362,259 +491,4 @@ static_assert( sizeof(AST_POD) == AST_POD_Size,    "ERROR: AST POD is not size o
 // Used when the its desired when omission is allowed in a definition.
 #define NoCode      { nullptr }
-#define CodeInvalid (* Code::Invalid.ast) // Uses an implicitly overloaded cast from the AST to the desired code type.
+#define InvalidCode (* Code_Invalid.ast) // Uses an implicitly overloaded cast from the AST to the desired code type.
 #pragma region Code Types
 struct CodeBody
 {
 	Using_Code( CodeBody );
 	void append( Code other )
 	{
 		raw()->append( other.ast );
 	}
 	void append( CodeBody body )
 	{
 		for ( Code entry : body )
 		{
 			append( entry );
 		}
 	}
 	bool has_entries()
 	{
 		return rcast( AST*, ast )->has_entries();
 	}
 	AST* raw()
 	{
 		return rcast( AST*, ast );
 	}
 	AST_Body* operator->()
 	{
 		return ast;
 	}
 	operator Code()
 	{
 		return * rcast( Code*, this );
 	}
 #pragma region Iterator
 	Code begin()
 	{
 		if ( ast )
 			return { rcast( AST*, ast)->Front };
 		return { nullptr };
 	}
 	Code end()
 	{
 		return { rcast(AST*, ast)->Back->Next };
 	}
 #pragma endregion Iterator
 	AST_Body* ast;
 };
 struct CodeClass
 {
 	Using_Code( CodeClass );
 	void add_interface( CodeType interface );
 	AST* raw()
 	{
 		return rcast( AST*, ast );
 	}
 	operator Code()
 	{
 		return * rcast( Code*, this );
 	}
 	AST_Class* operator->()
 	{
 		if ( ast == nullptr )
 		{
 			log_failure("Attempt to dereference a nullptr");
 			return nullptr;
 		}
 		return ast;
 	}
 	AST_Class* ast;
 };
 struct CodeParam
 {
 	Using_Code( CodeParam );
 	void append( CodeParam other );
 	CodeParam get( s32 idx );
 	bool has_entries();
 	AST* raw()
 	{
 		return rcast( AST*, ast );
 	}
 	AST_Param* operator->()
 	{
 		if ( ast == nullptr )
 		{
 			log_failure("Attempt to dereference a nullptr!");
 			return nullptr;
 		}
 		return ast;
 	}
 	operator Code()
 	{
 		return { (AST*)ast };
 	}
 #pragma region Iterator
 	CodeParam begin()
 	{
 		if ( ast )
 			return { ast };
 		return { nullptr };
 	}
 	CodeParam end()
 	{
 		// return { (AST_Param*) rcast( AST*, ast)->Last };
 		return { nullptr };
 	}
 	CodeParam& operator++();
 	CodeParam operator*()
 	{
 		return * this;
 	}
 #pragma endregion Iterator
 	AST_Param* ast;
 };
 struct CodeSpecifiers
 {
 	Using_Code( CodeSpecifiers );
 	bool append( SpecifierT spec )
 	{
 		if ( ast == nullptr )
 		{
 			log_failure("CodeSpecifiers: Attempted to append to a null specifiers AST!");
 			return false;
 		}
 		if ( raw()->NumEntries == AST::ArrSpecs_Cap )
 		{
 			log_failure("CodeSpecifiers: Attempted to append over %d specifiers to a specifiers AST!", AST::ArrSpecs_Cap );
 			return false;
 		}
 		raw()->ArrSpecs[ raw()->NumEntries ] = spec;
 		raw()->NumEntries++;
 		return true;
 	}
 	s32 has( SpecifierT spec )
 	{
 		for ( s32 idx = 0; idx < raw()->NumEntries; idx++ )
 		{
 			if ( raw()->ArrSpecs[ raw()->NumEntries ] == spec )
 				return idx;
 		}
 		return -1;
 	}
 	AST* raw()
 	{
 		return rcast( AST*, ast );
 	}
 	AST_Specifiers* operator->()
 	{
 		if ( ast == nullptr )
 		{
 			log_failure("Attempt to dereference a nullptr!");
 			return nullptr;
 		}
 		return ast;
 	}
 	operator Code()
 	{
 		return { (AST*) ast };
 	}
 #pragma region Iterator
 	SpecifierT* begin()
 	{
 		if ( ast )
 			return & raw()->ArrSpecs[0];
 		return nullptr;
 	}
 	SpecifierT* end()
 	{
 		return raw()->ArrSpecs + raw()->NumEntries;
 	}
 #pragma endregion Iterator
 	AST_Specifiers* ast;
 };
 struct CodeStruct
 {
 	Using_Code( CodeStruct );
 	void add_interface( CodeType interface );
 	AST* raw()
 	{
 		return rcast( AST*, ast );
 	}
 	operator Code()
 	{
 		return * rcast( Code*, this );
 	}
 	AST_Struct* operator->()
 	{
 		if ( ast == nullptr )
 		{
 			log_failure("Attempt to dereference a nullptr");
 			return nullptr;
 		}
 		return ast;
 	}
 	AST_Struct* ast;
 };
 #define Define_CodeType( Typename )     \
 	struct Code##Typename               \
 	{                                   \
 		Using_Code( Code ## Typename ); \
 		AST*            raw();          \
 		operator        Code();         \
 		AST_##Typename* operator->();   \
 		AST_##Typename* ast;            \
 	}
 Define_CodeType( Attributes );
 Define_CodeType( Comment );
 Define_CodeType( Constructor );
 Define_CodeType( Define );
 Define_CodeType( Destructor );
 Define_CodeType( Enum );
 Define_CodeType( Exec );
 Define_CodeType( Extern );
 Define_CodeType( Include );
 Define_CodeType( Friend );
 Define_CodeType( Fn );
 Define_CodeType( Module );
 Define_CodeType( NS );
 Define_CodeType( Operator );
 Define_CodeType( OpCast );
 Define_CodeType( Pragma );
 Define_CodeType( PreprocessCond );
 Define_CodeType( Template );
 Define_CodeType( Type );
 Define_CodeType( Typedef );
 Define_CodeType( Union );
 Define_CodeType( Using );
 Define_CodeType( Var );
 #undef Define_CodeType
 #undef Using_Code
 #pragma endregion Code Types
--- a/project/components/ast_types.hpp
+++ b/project/components/ast_types.hpp
@ -1,6 +1,6 @@
 #ifdef GEN_INTELLISENSE_DIRECTIVES
 #	pragma once
-#	include "ast.hpp"
+#	include "code_types.hpp"
 #endif
 #pragma region AST Types
@ -12,10 +12,10 @@
 struct AST_Body
 {
-	char              _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+	char              _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	Code              Front;
 	Code              Back;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
@ -27,12 +27,12 @@ static_assert( sizeof(AST_Body) == sizeof(AST), "ERROR: AST_Body is not the same
 struct AST_Attributes
 {
 	union {
-		char          _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char          _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		StringCached  Content;
 	};
 	Code              Prev;
 	Code              Next;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
@ -40,15 +40,32 @@ struct AST_Attributes
 };
 static_assert( sizeof(AST_Attributes) == sizeof(AST), "ERROR: AST_Attributes is not the same size as AST");
 #if 0
 struct AST_BaseClass
 {
 	union {
 		char          _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	Code              Prev;
 	Code              Next;
 	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
 	char              _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_BaseClass) == sizeof(AST), "ERROR: AST_BaseClass is not the same size as AST");
 #endif
 struct AST_Comment
 {
 	union {
-		char          _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char          _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		StringCached  Content;
 	};
 	Code              Prev;
 	Code              Next;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
@ -59,7 +76,7 @@ static_assert( sizeof(AST_Comment) == sizeof(AST), "ERROR: AST_Comment is not th
 struct AST_Class
 {
 	union {
-		char                _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char                _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			CodeComment     InlineCmt; // Only supported by forward declarations
@ -73,7 +90,7 @@ struct AST_Class
 	};
 	CodeType                Prev;
 	CodeType                Next;
-	Parser::Token*          Token;
+	parser::Token*          Tok;
 	Code                    Parent;
 	StringCached            Name;
 	CodeT                   Type;
@ -85,7 +102,7 @@ static_assert( sizeof(AST_Class) == sizeof(AST), "ERROR: AST_Class is not the sa
 struct AST_Constructor
 {
 	union {
-		char               _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char               _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			CodeComment    InlineCmt; // Only supported by forward declarations
@ -99,9 +116,9 @@ struct AST_Constructor
 	};
 	Code              Prev;
 	Code              Next;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
-	char              _PAD_NAME_[ sizeof(StringCached) ];
+	StringCached      Name;
 	CodeT             Type;
 	char              _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
@ -110,12 +127,12 @@ static_assert( sizeof(AST_Constructor) == sizeof(AST), "ERROR: AST_Constructor i
 struct AST_Define
 {
 	union {
-		char          _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char          _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		StringCached  Content;
 	};
 	Code              Prev;
 	Code              Next;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
@ -126,7 +143,7 @@ static_assert( sizeof(AST_Define) == sizeof(AST), "ERROR: AST_Define is not the
 struct AST_Destructor
 {
 	union {
-		char               _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char               _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			CodeComment    InlineCmt;
@ -139,9 +156,9 @@ struct AST_Destructor
 	};
 	Code                   Prev;
 	Code                   Next;
-	Parser::Token*         Token;
+	parser::Token*         Tok;
 	Code                   Parent;
-	char                   _PAD_NAME_[ sizeof(StringCached) ];
+	StringCached           Name;
 	CodeT                  Type;
 	char                   _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
@ -150,38 +167,38 @@ static_assert( sizeof(AST_Destructor) == sizeof(AST), "ERROR: AST_Destructor is
 struct AST_Enum
 {
 	union {
-		char               _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char               _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			CodeComment    InlineCmt;
 			CodeAttributes Attributes;
 			char           _PAD_SPEC_  [ sizeof(AST*) ];
 			CodeType       UnderlyingType;
-			char	       _PAD_PARAMS_[ sizeof(AST*) ];
+			Code           UnderlyingTypeMacro;
 			CodeBody       Body;
 			char 	       _PAD_PROPERTIES_2_[ sizeof(AST*) ];
 		};
 	};
 	Code                   Prev;
 	Code                   Next;
-	Parser::Token*         Token;
+	parser::Token*         Tok;
 	Code                   Parent;
 	StringCached           Name;
 	CodeT                  Type;
 	ModuleFlag             ModuleFlags;
-	char 			       _PAD_UNUSED_[ sizeof(u32) ];
+	b32                    EnumUnderlyingMacro;
 };
 static_assert( sizeof(AST_Enum) == sizeof(AST), "ERROR: AST_Enum is not the same size as AST");
 struct AST_Exec
 {
 	union {
-		char          _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char          _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		StringCached  Content;
 	};
 	Code              Prev;
 	Code              Next;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
@ -189,10 +206,267 @@ struct AST_Exec
 };
 static_assert( sizeof(AST_Exec) == sizeof(AST), "ERROR: AST_Exec is not the same size as AST");
 #if GEN_EXECUTION_EXPRESSION_SUPPORT
 struct AST_Expr
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr) == sizeof(AST), "ERROR: AST_Expr is not the same size as AST");
 struct AST_Expr_Assign
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_Assign) == sizeof(AST), "ERROR: AST_Expr_Assign is not the same size as AST");
 struct AST_Expr_Alignof
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_Alignof) == sizeof(AST), "ERROR: AST_Expr_Alignof is not the same size as AST");
 struct AST_Expr_Binary
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_Binary) == sizeof(AST), "ERROR: AST_Expr_Binary is not the same size as AST");
 struct AST_Expr_CStyleCast
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_CStyleCast) == sizeof(AST), "ERROR: AST_Expr_CStyleCast is not the same size as AST");
 struct AST_Expr_FunctionalCast
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_FunctionalCast) == sizeof(AST), "ERROR: AST_Expr_FunctionalCast is not the same size as AST");
 struct AST_Expr_CppCast
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_CppCast) == sizeof(AST), "ERROR: AST_Expr_CppCast is not the same size as AST");
 struct AST_Expr_ProcCall
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_ProcCall) == sizeof(AST), "ERROR: AST_Expr_Identifier is not the same size as AST");
 struct AST_Expr_Decltype
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_Decltype) == sizeof(AST), "ERROR: AST_Expr_Decltype is not the same size as AST");
 struct AST_Expr_Comma
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_Comma) == sizeof(AST), "ERROR: AST_Expr_Comma is not the same size as AST");
 struct AST_Expr_AMS
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_AMS) == sizeof(AST), "ERROR: AST_Expr_AMS is not the same size as AST");
 struct AST_Expr_Sizeof
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_Sizeof) == sizeof(AST), "ERROR: AST_Expr_Sizeof is not the same size as AST");
 struct AST_Expr_Subscript
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_Subscript) == sizeof(AST), "ERROR: AST_Expr_Subscript is not the same size as AST");
 struct AST_Expr_Ternary
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_Ternary) == sizeof(AST), "ERROR: AST_Expr_Ternary is not the same size as AST");
 struct AST_Expr_UnaryPrefix
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_UnaryPrefix) == sizeof(AST), "ERROR: AST_Expr_UnaryPrefix is not the same size as AST");
 struct AST_Expr_UnaryPostfix
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_UnaryPostfix) == sizeof(AST), "ERROR: AST_Expr_UnaryPostfix is not the same size as AST");
 struct AST_Expr_Element
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Expr_Element) == sizeof(AST), "ERROR: AST_Expr_Element is not the same size as AST");
 #endif
 struct AST_Extern
 {
 	union {
-		char          _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char          _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			char      _PAD_PROPERTIES_[ sizeof(AST*) * 5 ];
@ -202,7 +476,7 @@ struct AST_Extern
 	};
 	Code              Prev;
 	Code              Next;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
@ -213,12 +487,12 @@ static_assert( sizeof(AST_Extern) == sizeof(AST), "ERROR: AST_Extern is not the
 struct AST_Include
 {
 	union {
-		char          _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char          _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		StringCached  Content;
 	};
 	Code              Prev;
 	Code              Next;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
@ -229,7 +503,7 @@ static_assert( sizeof(AST_Include) == sizeof(AST), "ERROR: AST_Include is not th
 struct AST_Friend
 {
 	union {
-		char            _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char            _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			CodeComment InlineCmt;
@ -240,7 +514,7 @@ struct AST_Friend
 	};
 	Code              Prev;
 	Code              Next;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
@ -251,7 +525,7 @@ static_assert( sizeof(AST_Friend) == sizeof(AST), "ERROR: AST_Friend is not the
 struct AST_Fn
 {
 	union {
-		char               _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char               _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			CodeComment     InlineCmt;
@ -265,7 +539,7 @@ struct AST_Fn
 	};
 	Code                    Prev;
 	Code                    Next;
-	Parser::Token*          Token;
+	parser::Token*          Tok;
 	Code                    Parent;
 	StringCached            Name;
 	CodeT                   Type;
@ -276,10 +550,10 @@ static_assert( sizeof(AST_Fn) == sizeof(AST), "ERROR: AST_Fn is not the same siz
 struct AST_Module
 {
-	char              _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+	char              _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	Code              Prev;
 	Code              Next;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
@ -291,7 +565,7 @@ static_assert( sizeof(AST_Module) == sizeof(AST), "ERROR: AST_Module is not the
 struct AST_NS
 {
 	union {
-		char          _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char          _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct {
 			char 	  _PAD_PROPERTIES_[ sizeof(AST*) * 5 ];
 			CodeBody  Body;
@ -300,7 +574,7 @@ struct AST_NS
 	};
 	Code              Prev;
 	Code              Next;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
@ -312,7 +586,7 @@ static_assert( sizeof(AST_NS) == sizeof(AST), "ERROR: AST_NS is not the same siz
 struct AST_Operator
 {
 	union {
-		char                _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char                _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			CodeComment     InlineCmt;
@ -326,7 +600,7 @@ struct AST_Operator
 	};
 	Code           Prev;
 	Code           Next;
-	Parser::Token* Token;
+	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
@ -338,7 +612,7 @@ static_assert( sizeof(AST_Operator) == sizeof(AST), "ERROR: AST_Operator is not
 struct AST_OpCast
 {
 	union {
-		char               _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char               _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			CodeComment    InlineCmt;
@ -352,7 +626,7 @@ struct AST_OpCast
 	};
 	Code              Prev;
 	Code              Next;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
@ -363,19 +637,20 @@ static_assert( sizeof(AST_OpCast) == sizeof(AST), "ERROR: AST_OpCast is not the
 struct AST_Param
 {
 	union {
-		char          _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char          _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			char 	  _PAD_PROPERTIES_2_[ sizeof(AST*) * 3 ];
 			CodeType  ValueType;
-			char 	  _PAD_PROPERTIES_[ sizeof(AST*) ];
+			Code      Macro;
 			Code      Value;
-			char 	  _PAD_PROPERTIES_3_[ sizeof(AST*) ];
+			Code     PostNameMacro; // Thanks Unreal
 			// char     _PAD_PROPERTIES_3_[sizeof( AST* )];
 		};
 	};
 	CodeParam         Last;
 	CodeParam         Next;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
@ -387,12 +662,12 @@ static_assert( sizeof(AST_Param) == sizeof(AST), "ERROR: AST_Param is not the sa
 struct AST_Pragma
 {
 	union {
-		char          _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char          _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		StringCached  Content;
 	};
 	Code              Prev;
 	Code              Next;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
@ -403,12 +678,12 @@ static_assert( sizeof(AST_Pragma) == sizeof(AST), "ERROR: AST_Pragma is not the
 struct AST_PreprocessCond
 {
 	union {
-		char          _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char          _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		StringCached  Content;
 	};
 	Code              Prev;
 	Code              Next;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
@ -418,23 +693,235 @@ static_assert( sizeof(AST_PreprocessCond) == sizeof(AST), "ERROR: AST_Preprocess
 struct AST_Specifiers
 {
-	SpecifierT        ArrSpecs[ AST::ArrSpecs_Cap ];
+	SpecifierT        ArrSpecs[ AST_ArrSpecs_Cap ];
 	CodeSpecifiers    NextSpecs;
 	Code              Prev;
 	Code              Next;
-	Parser::Token*    Token;
+	parser::Token*    Tok;
 	Code              Parent;
 	StringCached      Name;
 	CodeT             Type;
 	char 			  _PAD_UNUSED_[ sizeof(ModuleFlag) ];
 	s32               NumEntries;
 };
-	static_assert( sizeof(AST_Specifiers) == sizeof(AST), "ERROR: AST_Specifier is not the same size as AST");
+static_assert( sizeof(AST_Specifiers) == sizeof(AST), "ERROR: AST_Specifier is not the same size as AST");
 #if GEN_EXECUTION_EXPRESSION_SUPPORT
 struct AST_Stmt
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Stmt) == sizeof(AST), "ERROR: AST_Stmt is not the same size as AST");
 struct AST_Stmt_Break
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Stmt_Break) == sizeof(AST), "ERROR: AST_Stmt_Break is not the same size as AST");
 struct AST_Stmt_Case
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Stmt_Case) == sizeof(AST), "ERROR: AST_Stmt_Case is not the same size as AST");
 struct AST_Stmt_Continue
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Stmt_Continue) == sizeof(AST), "ERROR: AST_Stmt_Continue is not the same size as AST");
 struct AST_Stmt_Decl
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Stmt_Decl) == sizeof(AST), "ERROR: AST_Stmt_Decl is not the same size as AST");
 struct AST_Stmt_Do
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Stmt_Do) == sizeof(AST), "ERROR: AST_Stmt_Do is not the same size as AST");
 struct AST_Stmt_Expr
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Stmt_Expr) == sizeof(AST), "ERROR: AST_Stmt_Expr is not the same size as AST");
 struct AST_Stmt_Else
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Stmt_Else) == sizeof(AST), "ERROR: AST_Stmt_Else is not the same size as AST");
 struct AST_Stmt_If
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Stmt_If) == sizeof(AST), "ERROR: AST_Stmt_If is not the same size as AST");
 struct AST_Stmt_For
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Stmt_For) == sizeof(AST), "ERROR: AST_Stmt_For is not the same size as AST");
 struct AST_Stmt_Goto
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Stmt_Goto) == sizeof(AST), "ERROR: AST_Stmt_Goto is not the same size as AST");
 struct AST_Stmt_Label
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Stmt_Label) == sizeof(AST), "ERROR: AST_Stmt_Label is not the same size as AST");
 struct AST_Stmt_Switch
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Stmt_Switch) == sizeof(AST), "ERROR: AST_Stmt_Switch is not the same size as AST");
 struct AST_Stmt_While
 {
 	union {
 		char _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 	};
 	CodeExpr       Prev;
 	CodeExpr       Next;
 	parser::Token* Tok;
 	Code           Parent;
 	StringCached   Name;
 	CodeT          Type;
 	char           _PAD_UNUSED_[ sizeof(ModuleFlag) + sizeof(u32) ];
 };
 static_assert( sizeof(AST_Stmt_While) == sizeof(AST), "ERROR: AST_Stmt_While is not the same size as AST");
 #endif
 struct AST_Struct
 {
 	union {
-		char               _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char               _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			CodeComment    InlineCmt;
@ -448,7 +935,7 @@ struct AST_Struct
 	};
 	CodeType               Prev;
 	CodeType               Next;
-	Parser::Token*         Token;
+	parser::Token*         Tok;
 	Code                   Parent;
 	StringCached           Name;
 	CodeT                  Type;
@ -460,7 +947,7 @@ static_assert( sizeof(AST_Struct) == sizeof(AST), "ERROR: AST_Struct is not the
 struct AST_Template
 {
 	union {
-		char               _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char               _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			char 	       _PAD_PROPERTIES_[ sizeof(AST*) * 4 ];
@ -471,7 +958,7 @@ struct AST_Template
 	};
 	Code                   Prev;
 	Code                   Next;
-	Parser::Token*         Token;
+	parser::Token*         Tok;
 	Code                   Parent;
 	StringCached           Name;
 	CodeT                  Type;
@ -480,10 +967,40 @@ struct AST_Template
 };
 static_assert( sizeof(AST_Template) == sizeof(AST), "ERROR: AST_Template is not the same size as AST");
 #if 0
 // WIP... The type ast is going to become more advanced and lead to a major change to AST design.
 struct AST_Type
 {
 	union {
-		char               _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char               _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			char           _PAD_INLINE_CMT_[ sizeof(AST*) ];
 			CodeAttributes Attributes;
 			CodeSpecifiers Specs;
 			Code           QualifierID;
 			// CodeType       ReturnType;      // Only used for function signatures
 			// CodeParam      Params;          // Only used for function signatures
 			Code           ArrExpr;
 			// CodeSpecifiers SpecsFuncSuffix; // Only used for function signatures
 		};
 	};
 	Code                   Prev;
 	Code                   Next;
 	parser::Token*         Tok;
 	Code                   Parent;
 	StringCached           Name;
 	CodeT                  Type;
 	char 			       _PAD_UNUSED_[ sizeof(ModuleFlag) ];
 	b32                    IsParamPack;
 };
 static_assert( sizeof(AST_Type) == sizeof(AST), "ERROR: AST_Type is not the same size as AST");
 #endif
 struct AST_Type
 {
 	union {
 		char               _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			char           _PAD_INLINE_CMT_[ sizeof(AST*) ];
@ -497,7 +1014,7 @@ struct AST_Type
 	};
 	Code                   Prev;
 	Code                   Next;
-	Parser::Token*         Token;
+	parser::Token*         Tok;
 	Code                   Parent;
 	StringCached           Name;
 	CodeT                  Type;
@ -509,7 +1026,7 @@ static_assert( sizeof(AST_Type) == sizeof(AST), "ERROR: AST_Type is not the same
 struct AST_Typedef
 {
 	union {
-		char               _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char               _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			CodeComment    InlineCmt;
@ -520,7 +1037,7 @@ struct AST_Typedef
 	};
 	Code                   Prev;
 	Code                   Next;
-	Parser::Token*         Token;
+	parser::Token*         Tok;
 	Code                   Parent;
 	StringCached           Name;
 	CodeT                  Type;
@ -532,7 +1049,7 @@ static_assert( sizeof(AST_Typedef) == sizeof(AST), "ERROR: AST_Typedef is not th
 struct AST_Union
 {
 	union {
-		char               _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char               _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			char           _PAD_INLINE_CMT_[ sizeof(AST*) ];
@ -544,7 +1061,7 @@ struct AST_Union
 	};
 	Code                   Prev;
 	Code                   Next;
-	Parser::Token*         Token;
+	parser::Token*         Tok;
 	Code                   Parent;
 	StringCached           Name;
 	CodeT                  Type;
@ -556,7 +1073,7 @@ static_assert( sizeof(AST_Union) == sizeof(AST), "ERROR: AST_Union is not the sa
 struct AST_Using
 {
 	union {
-		char                _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char                _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			CodeComment     InlineCmt;
@ -568,7 +1085,7 @@ struct AST_Using
 	};
 	Code                    Prev;
 	Code                    Next;
-	Parser::Token*          Token;
+	parser::Token*          Tok;
 	Code                    Parent;
 	StringCached            Name;
 	CodeT                   Type;
@ -580,7 +1097,7 @@ static_assert( sizeof(AST_Using) == sizeof(AST), "ERROR: AST_Using is not the sa
 struct AST_Var
 {
 	union {
-		char               _PAD_[ sizeof(SpecifierT) * AST::ArrSpecs_Cap + sizeof(AST*) ];
+		char               _PAD_[ sizeof(SpecifierT) * AST_ArrSpecs_Cap + sizeof(AST*) ];
 		struct
 		{
 			CodeComment    InlineCmt;
@ -594,12 +1111,12 @@ struct AST_Var
 	};
 	Code                   Prev;
 	Code                   Next;
-	Parser::Token*         Token;
+	parser::Token*         Tok;
 	Code                   Parent;
 	StringCached           Name;
 	CodeT                  Type;
 	ModuleFlag             ModuleFlags;
-	char 			       _PAD_UNUSED_[ sizeof(u32) ];
+	s32                    VarConstructorInit;
 };
 static_assert( sizeof(AST_Var) == sizeof(AST), "ERROR: AST_Var is not the same size as AST");
--- a/project/components/code_serialization.cpp
+++ b/project/components/code_serialization.cpp
--- a/project/components/code_types.hpp
+++ b/project/components/code_types.hpp
@ -0,0 +1,968 @@
 #ifdef GEN_INTELLISENSE_DIRECTIVES
 #pragma once
 #include "ast.hpp"
 #endif
 void   append           ( CodeBody body, Code     other );
 void   append           ( CodeBody body, CodeBody other );
 String to_string        ( CodeBody body );
 void   to_string        ( CodeBody body, String* result );
 void   to_string_export ( CodeBody body, String* result );
 Code begin( CodeBody body);
 Code end  ( CodeBody body );
 void   add_interface( CodeClass self, CodeType interface );
 String to_string    ( CodeClass self );
 void   to_string_def( CodeClass self, String* result );
 void   to_string_fwd( CodeClass self, String* result );
 void      append     (CodeParam params, CodeParam param );
 CodeParam get        (CodeParam params, s32 idx);
 bool      has_entries(CodeParam params );
 String    to_string  (CodeParam params );
 void      to_string  (CodeParam params, String* result );
 CodeParam begin(CodeParam params);
 CodeParam end  (CodeParam params);
 bool   append   (CodeSpecifiers specifiers, SpecifierT spec);
 s32    has      (CodeSpecifiers specifiers, SpecifierT spec);
 s32    remove   (CodeSpecifiers specifiers, SpecifierT to_remove );
 String to_string(CodeSpecifiers specifiers);
 void   to_string(CodeSpecifiers specifiers, String* result);
 SpecifierT* begin(CodeSpecifiers specifiers );
 SpecifierT* end  (CodeSpecifiers specifiers);
 void   add_interface(CodeStruct self, CodeType interface);
 String to_string    (CodeStruct self);
 void   to_string_fwd(CodeStruct self, String* result);
 void   to_string_def(CodeStruct self, String* result);
 String to_string(CodeAttributes attributes);
 String to_string(CodeComment    comment );
 String to_string    (CodeConstructor constructor);
 void   to_string_def(CodeConstructor constructor, String* result );
 void   to_string_fwd(CodeConstructor constructor, String* result );
 String to_string(CodeDefine define);
 void   to_string(CodeDefine define, String* result);
 String to_string    (CodeDestructor destructor);
 void   to_string_def(CodeDestructor destructor, String* result );
 void   to_string_fwd(CodeDestructor destructor, String* result );
 String to_string          (CodeEnum self);
 void   to_string_def      (CodeEnum self, String* result );
 void   to_string_fwd      (CodeEnum self, String* result );
 void   to_string_class_def(CodeEnum self, String* result );
 void   to_string_class_fwd(CodeEnum self, String* result );
 String to_string(CodeExec exec);
 void to_string(CodeExtern self, String* result);
 String to_string(CodeInclude include);
 void   to_string(CodeInclude include, String* result);
 String to_string(CodeFriend self);
 void   to_string(CodeFriend self, String* result);
 String to_string    (CodeFn self);
 void   to_string_def(CodeFn self, String* result);
 void   to_string_fwd(CodeFn self, String* result);
 #pragma region Code Types
 // These structs are not used at all by the C vairant.
 #if ! GEN_COMPILER_C
 // stati_assert( GEN_COMPILER_C, "This should not be compiled with the C-library" );
 struct CodeBody
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code( CodeBody );
 	void append( Code other )    { return GEN_NS append( *this, other ); }
 	void append( CodeBody body ) { return GEN_NS append(*this, body); }
 	bool has_entries()           { return GEN_NS has_entries(rcast( AST*, ast )); }
 	String to_string()                        { return GEN_NS to_string(* this); }
 	void   to_string( String& result )        { return GEN_NS to_string(* this, & result ); }
 	void   to_string_export( String& result ) { return GEN_NS to_string_export(* this, & result); }
 	Code begin() { return GEN_NS begin(* this); }
 	Code end()   { return GEN_NS end(* this); }
 #endif
 	Using_CodeOps( CodeBody );
 	operator Code() { return * rcast( Code*, this ); }
 	AST_Body* operator->() { return ast; }
 	AST_Body* ast;
 };
 struct CodeClass
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code( CodeClass );
 	void add_interface( CodeType interface );
 	String to_string();
 	void   to_string_def( String& result );
 	void   to_string_fwd( String& result );
 #endif
 	Using_CodeOps( CodeClass );
 	operator Code() { return * rcast( Code*, this ); }
 	AST_Class* operator->()
 	{
 		if ( ast == nullptr )
 		{
 			log_failure("Attempt to dereference a nullptr");
 			return nullptr;
 		}
 		return ast;
 	}
 	AST_Class* ast;
 };
 struct CodeParam
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code( CodeParam );
 	void      append( CodeParam other );
 	CodeParam get( s32 idx );
 	bool      has_entries();
 	String    to_string();
 	void      to_string( String& result );
 #endif
 	Using_CodeOps( CodeParam );
 	AST_Param* operator->()
 	{
 		if ( ast == nullptr )
 		{
 			log_failure("Attempt to dereference a nullptr!");
 			return nullptr;
 		}
 		return ast;
 	}
 	operator Code()       { return { (AST*)ast }; }
 	CodeParam operator*() { return * this; }
 	CodeParam& operator++();
 	AST_Param* ast;
 };
 struct CodeSpecifiers
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code( CodeSpecifiers );
 	bool   append( SpecifierT spec )      { return GEN_NS append(* this, spec); }
 	s32    has( SpecifierT spec )         { return GEN_NS has(* this, spec); }
 	s32    remove( SpecifierT to_remove ) { return GEN_NS remove(* this, to_remove); }
 	String to_string()                    { return GEN_NS to_string(* this ); }
 	void   to_string( String& result )    { return GEN_NS to_string(* this, & result); }
 #endif
 	Using_CodeOps(CodeSpecifiers);
 	operator Code() { return { (AST*) ast }; }
 	AST_Specifiers* operator->()
 	{
 		if ( ast == nullptr )
 		{
 			log_failure("Attempt to dereference a nullptr!");
 			return nullptr;
 		}
 		return ast;
 	}
 	AST_Specifiers* ast;
 };
 struct CodeStruct
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code( CodeStruct );
 	void add_interface( CodeType interface );
 	String to_string();
 	void   to_string_fwd( String& result );
 	void   to_string_def( String& result );
 #endif
 	Using_CodeOps( CodeStruct );
 	operator Code() { return * rcast( Code*, this ); }
 	AST_Struct* operator->()
 	{
 		if ( ast == nullptr )
 		{
 			log_failure("Attempt to dereference a nullptr");
 			return nullptr;
 		}
 		return ast;
 	}
 	AST_Struct* ast;
 };
 struct CodeAttributes
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code(CodeAttributes);
 	String to_string();
 #endif
 	Using_CodeOps(CodeAttributes);
 	operator Code();
 	AST_Attributes *operator->();
 	AST_Attributes *ast;
 };
 // Define_CodeType( BaseClass );
 struct CodeComment
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code(CodeComment);
 	String to_string() { return GEN_NS to_string(* this); }
 #endif
 	Using_CodeOps(CodeComment);
 	operator Code();
 	AST_Comment *operator->();
 	AST_Comment *ast;
 };
 struct CodeConstructor
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code( CodeConstructor );
 	String to_string()                     { return GEN_NS to_string(* this); }
 	void   to_string_def( String& result ) { return GEN_NS to_string_def(* this, & result); }
 	void   to_string_fwd( String& result ) { return GEN_NS to_string_fwd(* this, & result); }
 #endif
 	Using_CodeOps(CodeConstructor);
 	operator         Code();
 	AST_Constructor* operator->();
 	AST_Constructor* ast;
 };
 struct CodeDefine
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code( CodeDefine );
 	String to_string()                 { return GEN_NS to_string(* this); }
 	void   to_string( String& result ) { return GEN_NS to_string(* this, & result); }
 #endif
 	Using_CodeOps(CodeDefine);
 	operator    Code();
 	AST_Define* operator->();
 	AST_Define* ast;
 };
 struct CodeDestructor
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code( CodeDestructor );
 	String to_string()                     { return GEN_NS to_string(* this); }
 	void   to_string_def( String& result ) { return GEN_NS to_string_def(* this, & result); }
 	void   to_string_fwd( String& result ) { return GEN_NS to_string_fwd(* this, & result); }
 #endif
 	Using_CodeOps(CodeDestructor);
 	operator         Code();
 	AST_Destructor* operator->();
 	AST_Destructor* ast;
 };
 struct CodeEnum
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code( CodeEnum );
 	String to_string()                            { return GEN_NS to_string(* this); }
 	void   to_string_def( String& result )        { return GEN_NS to_string_def(* this); }
 	void   to_string_fwd( String& result )        { return GEN_NS to_string_fwd(* this); }
 	void   to_string_class_def( String& result )  { return GEN_NS to_string_class_def(* this); }
 	void   to_string_class_fwd( String& result )  { return GEN_NS to_string_class_fwd(* this); }
 #endif
 	Using_CodeOps(CodeEnum);
 	operator  Code();
 	AST_Enum* operator->();
 	AST_Enum* ast;
 };
 struct CodeExec
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code(CodeExec);
 	String to_string() { return GEN_NS to_string(* this); }
 #endif
 	Using_CodeOps(CodeExec);
 	operator Code();
 	AST_Exec *operator->();
 	AST_Exec *ast;
 };
 #if GEN_EXECUTION_EXPRESSION_SUPPORT
 struct CodeExpr
 {
 	Using_Code( CodeExpr );
 	void to_string( String& result );
 	AST*      raw();
 	operator  Code();
 	AST_Expr* operator->();
 	AST_Expr* ast;
 };
 struct CodeExpr_Assign
 {
 	Using_Code( CodeExpr_Assign );
 	void to_string( String& result );
 	AST*             raw();
 	operator         Code();
 	AST_Expr_Assign* operator->();
 	AST_Expr_Assign* ast;
 };
 struct CodeExpr_Alignof
 {
 	Using_Code( CodeExpr_Alignof );
 	void to_string( String& result );
 	AST*              raw();
 	operator          Code();
 	AST_Expr_Alignof* operator->();
 	AST_Expr_Alignof* ast;
 };
 struct CodeExpr_Binary
 {
 	Using_Code( CodeExpr_Binary );
 	void to_string( String& result );
 	AST*             raw();
 	operator         Code();
 	AST_Expr_Binary* operator->();
 	AST_Expr_Binary* ast;
 };
 struct CodeExpr_CStyleCast
 {
 	Using_Code( CodeExpr_CStyleCast );
 	void to_string( String& result );
 	AST*                 raw();
 	operator             Code();
 	AST_Expr_CStyleCast* operator->();
 	AST_Expr_CStyleCast* ast;
 };
 struct CodeExpr_FunctionalCast
 {
 	Using_Code( CodeExpr_FunctionalCast );
 	void to_string( String& result );
 	AST*                     raw();
 	operator                 Code();
 	AST_Expr_FunctionalCast* operator->();
 	AST_Expr_FunctionalCast* ast;
 };
 struct CodeExpr_CppCast
 {
 	Using_Code( CodeExpr_CppCast );
 	void to_string( String& result );
 	AST*              raw();
 	operator          Code();
 	AST_Expr_CppCast* operator->();
 	AST_Expr_CppCast* ast;
 };
 struct CodeExpr_Element
 {
 	Using_Code( CodeExpr_Element );
 	void to_string( String& result );
 	AST*              raw();
 	operator          Code();
 	AST_Expr_Element* operator->();
 	AST_Expr_Element* ast;
 };
 struct CodeExpr_ProcCall
 {
 	Using_Code( CodeExpr_ProcCall );
 	void to_string( String& result );
 	AST*               raw();
 	operator           Code();
 	AST_Expr_ProcCall* operator->();
 	AST_Expr_ProcCall* ast;
 };
 struct CodeExpr_Decltype
 {
 	Using_Code( CodeExpr_Decltype );
 	void to_string( String& result );
 	AST*      raw();
 	operator  Code();
 	AST_Expr_Decltype* operator->();
 	AST_Expr_Decltype* ast;
 };
 struct CodeExpr_Comma
 {
 	Using_Code( CodeExpr_Comma );
 	void to_string( String& result );
 	AST*      raw();
 	operator  Code();
 	AST_Expr_Comma* operator->();
 	AST_Expr_Comma* ast;
 };
 struct CodeExpr_AMS
 {
 	Using_Code( CodeExpr_AMS );
 	void to_string( String& result );
 	AST*          raw();
 	operator      Code();
 	AST_Expr_AMS* operator->();
 	AST_Expr_AMS* ast;
 };
 struct CodeExpr_Sizeof
 {
 	Using_Code( CodeExpr_Sizeof );
 	void to_string( String& result );
 	AST*             raw();
 	operator         Code();
 	AST_Expr_Sizeof* operator->();
 	AST_Expr_Sizeof* ast;
 };
 struct CodeExpr_Subscript
 {
 	Using_Code( CodeExpr_Subscript );
 	void to_string( String& result );
 	AST*                raw();
 	operator            Code();
 	AST_Expr_Subscript* operator->();
 	AST_Expr_Subscript* ast;
 };
 struct CodeExpr_Ternary
 {
 	Using_Code( CodeExpr_Ternary );
 	void to_string( String& result );
 	AST*              raw();
 	operator          Code();
 	AST_Expr_Ternary* operator->();
 	AST_Expr_Ternary* ast;
 };
 struct CodeExpr_UnaryPrefix
 {
 	Using_Code( CodeExpr_UnaryPrefix );
 	void to_string( String& result );
 	AST*                  raw();
 	operator              Code();
 	AST_Expr_UnaryPrefix* operator->();
 	AST_Expr_UnaryPrefix* ast;
 };
 struct CodeExpr_UnaryPostfix
 {
 	Using_Code( CodeExpr_UnaryPostfix );
 	void to_string( String& result );
 	AST*                   raw();
 	operator               Code();
 	AST_Expr_UnaryPostfix* operator->();
 	AST_Expr_UnaryPostfix* ast;
 };
 #endif
 struct CodeExtern
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code( CodeExtern );
 	void to_string( String& result ) { return GEN_NS to_string(* this, & result); }
 #endif
 	Using_CodeOps(CodeExtern);
 	operator    Code();
 	AST_Extern* operator->();
 	AST_Extern* ast;
 };
 struct CodeInclude
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code( CodeInclude );
 	String to_string()                  { return GEN_NS to_string(* this); }
 	void   to_string( String& result )  { return GEN_NS to_string(* this, & result); }
 #endif
 	Using_CodeOps(CodeInclude);
 	operator     Code();
 	AST_Include* operator->();
 	AST_Include* ast;
 };
 struct CodeFriend
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code( CodeFriend );
 	String to_string()                 { return GEN_NS to_string(* this); }
 	void   to_string( String& result ) { return GEN_NS to_string(* this, & result); }
 #endif
 	Using_CodeOps(CodeFriend);
 	operator    Code();
 	AST_Friend* operator->();
 	AST_Friend* ast;
 };
 struct CodeFn
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 	Using_Code( CodeFn );
 	String to_string()                     { return GEN_NS to_string(* this); }
 	void   to_string_def( String& result ) { return GEN_NS to_string_def(* this); }
 	void   to_string_fwd( String& result ) { return GEN_NS to_string_fwd(* this); }
 #endif
 	Using_CodeOps(CodeFn);
 	operator Code();
 	AST_Fn*  operator->();
 	AST_Fn*  ast;
 };
 struct CodeModule
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES || 1
 	Using_Code( CodeModule );
 	String to_string();
 	void   to_string( String& result );
 #endif
 	Using_CodeOps(CodeModule);
 	operator    Code();
 	AST_Module* operator->();
 	AST_Module* ast;
 };
 struct CodeNS
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES || 1
 	Using_Code( CodeNS );
 	String to_string();
 	void   to_string( String& result );
 #endif
 	Using_CodeOps(CodeNS);
 	operator Code();
 	AST_NS*  operator->();
 	AST_NS*  ast;
 };
 struct CodeOperator
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES || 1
 	Using_Code( CodeOperator );
 	String to_string();
 	void   to_string_def( String& result );
 	void   to_string_fwd( String& result );
 #endif
 	Using_CodeOps(CodeOperator);
 	operator      Code();
 	AST_Operator* operator->();
 	AST_Operator* ast;
 };
 struct CodeOpCast
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES || 1
 	Using_Code( CodeOpCast );
 	String to_string();
 	void   to_string_def( String& result );
 	void   to_string_fwd( String& result );
 #endif
 	Using_CodeOps(CodeOpCast);
 	operator    Code();
 	AST_OpCast* operator->();
 	AST_OpCast* ast;
 };
 struct CodePragma
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES || 1
 	Using_Code( CodePragma );
 	String to_string();
 	void   to_string( String& result );
 #endif
 	Using_CodeOps( CodePragma );
 	operator    Code();
 	AST_Pragma* operator->();
 	AST_Pragma* ast;
 };
 struct CodePreprocessCond
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES || 1
 	Using_Code( CodePreprocessCond );
 	String to_string();
 	void   to_string_if( String& result );
 	void   to_string_ifdef( String& result );
 	void   to_string_ifndef( String& result );
 	void   to_string_elif( String& result );
 	void   to_string_else( String& result );
 	void   to_string_endif( String& result );
 #endif
 	Using_CodeOps( CodePreprocessCond );
 	operator            Code();
 	AST_PreprocessCond* operator->();
 	AST_PreprocessCond* ast;
 };
 #if GEN_EXECUTION_EXPRESSION_SUPPORT
 struct CodeStmt
 {
 	Using_Code( CodeStmt );
 	String to_string();
 	void   to_string( String& result );
 	AST*      raw();
 	operator  Code();
 	AST_Stmt* operator->();
 	AST_Stmt* ast;
 };
 struct CodeStmt_Break
 {
 	Using_Code( CodeStmt_Break );
 	String to_string();
 	void   to_string( String& result );
 	AST*            raw();
 	operator        Code();
 	AST_Stmt_Break* operator->();
 	AST_Stmt_Break* ast;
 };
 struct CodeStmt_Case
 {
 	Using_Code( CodeStmt_Case );
 	String to_string();
 	void   to_string( String& result );
 	AST*           raw();
 	operator       Code();
 	AST_Stmt_Case* operator->();
 	AST_Stmt_Case* ast;
 };
 struct CodeStmt_Continue
 {
 	Using_Code( CodeStmt_Continue );
 	String to_string();
 	void   to_string( String& result );
 	AST*               raw();
 	operator           Code();
 	AST_Stmt_Continue* operator->();
 	AST_Stmt_Continue* ast;
 };
 struct CodeStmt_Decl
 {
 	Using_Code( CodeStmt_Decl );
 	String to_string();
 	void   to_string( String& result );
 	AST*           raw();
 	operator       Code();
 	AST_Stmt_Decl* operator->();
 	AST_Stmt_Decl* ast;
 };
 struct CodeStmt_Do
 {
 	Using_Code( CodeStmt_Do );
 	String to_string();
 	void   to_string( String& result );
 	AST*         raw();
 	operator     Code();
 	AST_Stmt_Do* operator->();
 	AST_Stmt_Do* ast;
 };
 struct CodeStmt_Expr
 {
 	Using_Code( CodeStmt_Expr );
 	String to_string();
 	void   to_string( String& result );
 	AST*           raw();
 	operator       Code();
 	AST_Stmt_Expr* operator->();
 	AST_Stmt_Expr* ast;
 };
 struct CodeStmt_Else
 {
 	Using_Code( CodeStmt_Else );
 	String to_string();
 	void   to_string( String& result );
 	AST*           raw();
 	operator       Code();
 	AST_Stmt_Else* operator->();
 	AST_Stmt_Else* ast;
 };
 struct CodeStmt_If
 {
 	Using_Code( CodeStmt_If );
 	String to_string();
 	void   to_string( String& result );
 	AST*         raw();
 	operator     Code();
 	AST_Stmt_If* operator->();
 	AST_Stmt_If* ast;
 };
 struct CodeStmt_For
 {
 	Using_Code( CodeStmt_For );
 	String to_string();
 	void   to_string( String& result );
 	AST*          raw();
 	operator      Code();
 	AST_Stmt_For* operator->();
 	AST_Stmt_For* ast;
 };
 struct CodeStmt_Goto
 {
 	Using_Code( CodeStmt_Goto );
 	String to_string();
 	void   to_string( String& result );
 	AST*           raw();
 	operator       Code();
 	AST_Stmt_Goto* operator->();
 	AST_Stmt_Goto* ast;
 };
 struct CodeStmt_Label
 {
 	Using_Code( CodeStmt_Label );
 	String to_string();
 	void   to_string( String& result );
 	AST*            raw();
 	operator        Code();
 	AST_Stmt_Label* operator->();
 	AST_Stmt_Label* ast;
 };
 struct CodeStmt_Switch
 {
 	Using_Code( CodeStmt_Switch );
 	String to_string();
 	void   to_string( String& result );
 	AST*           raw();
 	operator       Code();
 	AST_Stmt_Switch* operator->();
 	AST_Stmt_Switch* ast;
 };
 struct CodeStmt_While
 {
 	Using_Code( CodeStmt_While );
 	String to_string();
 	void   to_string( String& result );
 	AST*           raw();
 	operator       Code();
 	AST_Stmt_While* operator->();
 	AST_Stmt_While* ast;
 };
 #endif
 struct CodeTemplate
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES || 1
 	Using_Code( CodeTemplate );
 	String to_string();
 	void   to_string( String& result );
 #endif
 	Using_CodeOps( CodeTemplate );
 	operator      Code();
 	AST_Template* operator->();
 	AST_Template* ast;
 };
 struct CodeType
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES || 1
 	Using_Code( CodeType );
 	String to_string();
 	void   to_string( String& result );
 #endif
 	Using_CodeOps( CodeType );
 	operator  Code();
 	AST_Type* operator->();
 	AST_Type* ast;
 };
 struct CodeTypedef
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES || 1
 	Using_Code( CodeTypedef );
 	String to_string();
 	void   to_string( String& result );
 #endif
 	Using_CodeOps( CodeTypedef );
 	operator     Code();
 	AST_Typedef* operator->();
 	AST_Typedef* ast;
 };
 struct CodeUnion
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES || 1
 	Using_Code( CodeUnion );
 	String to_string();
 	void   to_string( String& result );
 #endif
 	Using_CodeOps(CodeUnion);
 	operator   Code();
 	AST_Union* operator->();
 	AST_Union* ast;
 };
 struct CodeUsing
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES || 1
 	Using_Code( CodeUsing );
 	String to_string();
 	void   to_string( String& result );
 	void   to_string_ns( String& result );
 #endif
 	Using_CodeOps(CodeUsing);
 	operator   Code();
 	AST_Using* operator->();
 	AST_Using* ast;
 };
 struct CodeVar
 {
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES || 1
 	Using_Code( CodeVar );
 	String to_string();
 	void   to_string( String& result );
 #endif
 	Using_CodeOps(CodeVar);
 	operator Code();
 	AST_Var* operator->();
 	AST_Var* ast;
 };
 #undef Define_CodeType
 #undef Using_Code
 #undef Using_CodeOps
 #if GEN_SUPPORT_CPP_REFERENCES
 void to_string_export( CodeBody body, String& result ) { return to_string_export(body, & result); };
 #endif
 #endif //if ! GEN_COMPILER_C
 #pragma endregion Code Types
--- a/project/components/gen/ast_inlines.hpp
+++ b/project/components/gen/ast_inlines.hpp
--- a/project/components/gen/ecode.hpp
+++ b/project/components/gen/ecode.hpp
@ -72,71 +72,71 @@ namespace ECode
 		NumTypes
 	};
-	StrC to_str( Type type )
+	inline StrC to_str( Type type )
 	{
 		local_persist StrC lookup[] {
-			{sizeof( "Invalid" ),              "Invalid"            },
+			{ sizeof( "Invalid" ),             "Invalid"             },
-			{ sizeof( "Untyped" ),             "Untyped"            },
+			{ sizeof( "Untyped" ),             "Untyped"             },
-			{ sizeof( "NewLine" ),             "NewLine"            },
+			{ sizeof( "NewLine" ),             "NewLine"             },
-			{ sizeof( "Comment" ),             "Comment"            },
+			{ sizeof( "Comment" ),             "Comment"             },
-			{ sizeof( "Access_Private" ),      "Access_Private"     },
+			{ sizeof( "Access_Private" ),      "Access_Private"      },
-			{ sizeof( "Access_Protected" ),    "Access_Protected"   },
+			{ sizeof( "Access_Protected" ),    "Access_Protected"    },
-			{ sizeof( "Access_Public" ),       "Access_Public"      },
+			{ sizeof( "Access_Public" ),       "Access_Public"       },
-			{ sizeof( "PlatformAttributes" ),  "PlatformAttributes" },
+			{ sizeof( "PlatformAttributes" ),  "PlatformAttributes"  },
-			{ sizeof( "Class" ),               "Class"              },
+			{ sizeof( "Class" ),               "Class"               },
-			{ sizeof( "Class_Fwd" ),           "Class_Fwd"          },
+			{ sizeof( "Class_Fwd" ),           "Class_Fwd"           },
-			{ sizeof( "Class_Body" ),          "Class_Body"         },
+			{ sizeof( "Class_Body" ),          "Class_Body"          },
-			{ sizeof( "Constructor" ),         "Constructor"        },
+			{ sizeof( "Constructor" ),         "Constructor"         },
-			{ sizeof( "Constructor_Fwd" ),     "Constructor_Fwd"    },
+			{ sizeof( "Constructor_Fwd" ),     "Constructor_Fwd"     },
-			{ sizeof( "Destructor" ),          "Destructor"         },
+			{ sizeof( "Destructor" ),          "Destructor"          },
-			{ sizeof( "Destructor_Fwd" ),      "Destructor_Fwd"     },
+			{ sizeof( "Destructor_Fwd" ),      "Destructor_Fwd"      },
-			{ sizeof( "Enum" ),                "Enum"               },
+			{ sizeof( "Enum" ),                "Enum"                },
-			{ sizeof( "Enum_Fwd" ),            "Enum_Fwd"           },
+			{ sizeof( "Enum_Fwd" ),            "Enum_Fwd"            },
-			{ sizeof( "Enum_Body" ),           "Enum_Body"          },
+			{ sizeof( "Enum_Body" ),           "Enum_Body"           },
-			{ sizeof( "Enum_Class" ),          "Enum_Class"         },
+			{ sizeof( "Enum_Class" ),          "Enum_Class"          },
-			{ sizeof( "Enum_Class_Fwd" ),      "Enum_Class_Fwd"     },
+			{ sizeof( "Enum_Class_Fwd" ),      "Enum_Class_Fwd"      },
-			{ sizeof( "Execution" ),           "Execution"          },
+			{ sizeof( "Execution" ),           "Execution"           },
-			{ sizeof( "Export_Body" ),         "Export_Body"        },
+			{ sizeof( "Export_Body" ),         "Export_Body"         },
-			{ sizeof( "Extern_Linkage" ),      "Extern_Linkage"     },
+			{ sizeof( "Extern_Linkage" ),      "Extern_Linkage"      },
-			{ sizeof( "Extern_Linkage_Body" ), "Extern_Linkage_Body"},
+			{ sizeof( "Extern_Linkage_Body" ), "Extern_Linkage_Body" },
-			{ sizeof( "Friend" ),              "Friend"             },
+			{ sizeof( "Friend" ),              "Friend"              },
-			{ sizeof( "Function" ),            "Function"           },
+			{ sizeof( "Function" ),            "Function"            },
-			{ sizeof( "Function_Fwd" ),        "Function_Fwd"       },
+			{ sizeof( "Function_Fwd" ),        "Function_Fwd"        },
-			{ sizeof( "Function_Body" ),       "Function_Body"      },
+			{ sizeof( "Function_Body" ),       "Function_Body"       },
-			{ sizeof( "Global_Body" ),         "Global_Body"        },
+			{ sizeof( "Global_Body" ),         "Global_Body"         },
-			{ sizeof( "Module" ),              "Module"             },
+			{ sizeof( "Module" ),              "Module"              },
-			{ sizeof( "Namespace" ),           "Namespace"          },
+			{ sizeof( "Namespace" ),           "Namespace"           },
-			{ sizeof( "Namespace_Body" ),      "Namespace_Body"     },
+			{ sizeof( "Namespace_Body" ),      "Namespace_Body"      },
-			{ sizeof( "Operator" ),            "Operator"           },
+			{ sizeof( "Operator" ),            "Operator"            },
-			{ sizeof( "Operator_Fwd" ),        "Operator_Fwd"       },
+			{ sizeof( "Operator_Fwd" ),        "Operator_Fwd"        },
-			{ sizeof( "Operator_Member" ),     "Operator_Member"    },
+			{ sizeof( "Operator_Member" ),     "Operator_Member"     },
-			{ sizeof( "Operator_Member_Fwd" ), "Operator_Member_Fwd"},
+			{ sizeof( "Operator_Member_Fwd" ), "Operator_Member_Fwd" },
-			{ sizeof( "Operator_Cast" ),       "Operator_Cast"      },
+			{ sizeof( "Operator_Cast" ),       "Operator_Cast"       },
-			{ sizeof( "Operator_Cast_Fwd" ),   "Operator_Cast_Fwd"  },
+			{ sizeof( "Operator_Cast_Fwd" ),   "Operator_Cast_Fwd"   },
-			{ sizeof( "Parameters" ),          "Parameters"         },
+			{ sizeof( "Parameters" ),          "Parameters"          },
-			{ sizeof( "Preprocess_Define" ),   "Preprocess_Define"  },
+			{ sizeof( "Preprocess_Define" ),   "Preprocess_Define"   },
-			{ sizeof( "Preprocess_Include" ),  "Preprocess_Include" },
+			{ sizeof( "Preprocess_Include" ),  "Preprocess_Include"  },
-			{ sizeof( "Preprocess_If" ),       "Preprocess_If"      },
+			{ sizeof( "Preprocess_If" ),       "Preprocess_If"       },
-			{ sizeof( "Preprocess_IfDef" ),    "Preprocess_IfDef"   },
+			{ sizeof( "Preprocess_IfDef" ),    "Preprocess_IfDef"    },
-			{ sizeof( "Preprocess_IfNotDef" ), "Preprocess_IfNotDef"},
+			{ sizeof( "Preprocess_IfNotDef" ), "Preprocess_IfNotDef" },
-			{ sizeof( "Preprocess_ElIf" ),     "Preprocess_ElIf"    },
+			{ sizeof( "Preprocess_ElIf" ),     "Preprocess_ElIf"     },
-			{ sizeof( "Preprocess_Else" ),     "Preprocess_Else"    },
+			{ sizeof( "Preprocess_Else" ),     "Preprocess_Else"     },
-			{ sizeof( "Preprocess_EndIf" ),    "Preprocess_EndIf"   },
+			{ sizeof( "Preprocess_EndIf" ),    "Preprocess_EndIf"    },
-			{ sizeof( "Preprocess_Pragma" ),   "Preprocess_Pragma"  },
+			{ sizeof( "Preprocess_Pragma" ),   "Preprocess_Pragma"   },
-			{ sizeof( "Specifiers" ),          "Specifiers"         },
+			{ sizeof( "Specifiers" ),          "Specifiers"          },
-			{ sizeof( "Struct" ),              "Struct"             },
+			{ sizeof( "Struct" ),              "Struct"              },
-			{ sizeof( "Struct_Fwd" ),          "Struct_Fwd"         },
+			{ sizeof( "Struct_Fwd" ),          "Struct_Fwd"          },
-			{ sizeof( "Struct_Body" ),         "Struct_Body"        },
+			{ sizeof( "Struct_Body" ),         "Struct_Body"         },
-			{ sizeof( "Template" ),            "Template"           },
+			{ sizeof( "Template" ),            "Template"            },
-			{ sizeof( "Typedef" ),             "Typedef"            },
+			{ sizeof( "Typedef" ),             "Typedef"             },
-			{ sizeof( "Typename" ),            "Typename"           },
+			{ sizeof( "Typename" ),            "Typename"            },
-			{ sizeof( "Union" ),               "Union"              },
+			{ sizeof( "Union" ),               "Union"               },
-			{ sizeof( "Union_Body" ),          "Union_Body"         },
+			{ sizeof( "Union_Body" ),          "Union_Body"          },
-			{ sizeof( "Using" ),               "Using"              },
+			{ sizeof( "Using" ),               "Using"               },
-			{ sizeof( "Using_Namespace" ),     "Using_Namespace"    },
+			{ sizeof( "Using_Namespace" ),     "Using_Namespace"     },
-			{ sizeof( "Variable" ),            "Variable"           },
+			{ sizeof( "Variable" ),            "Variable"            },
 		};
-		return lookup[ type ];
+		return lookup[type];
 	}
 }    // namespace ECode
--- a/project/components/gen/eoperator.hpp
+++ b/project/components/gen/eoperator.hpp
@ -52,57 +52,65 @@ namespace EOperator
 		PtrToMemOfPtr,
 		FunctionCall,
 		Comma,
 		New,
 		NewArray,
 		Delete,
 		DeleteArray,
 		NumOps
 	};
-	StrC to_str( Type op )
+	inline StrC to_str( Type op )
 	{
 		local_persist StrC lookup[] {
-			{sizeof( "INVALID" ), "INVALID"},
+			{ sizeof( "INVALID" ),  "INVALID"  },
-			{ sizeof( "=" ),      "="      },
+			{ sizeof( "=" ),        "="        },
-			{ sizeof( "+=" ),     "+="     },
+			{ sizeof( "+=" ),       "+="       },
-			{ sizeof( "-=" ),     "-="     },
+			{ sizeof( "-=" ),       "-="       },
-			{ sizeof( "*=" ),     "*="     },
+			{ sizeof( "*=" ),       "*="       },
-			{ sizeof( "/=" ),     "/="     },
+			{ sizeof( "/=" ),       "/="       },
-			{ sizeof( "%=" ),     "%="     },
+			{ sizeof( "%=" ),       "%="       },
-			{ sizeof( "&=" ),     "&="     },
+			{ sizeof( "&=" ),       "&="       },
-			{ sizeof( "|=" ),     "|="     },
+			{ sizeof( "|=" ),       "|="       },
-			{ sizeof( "^=" ),     "^="     },
+			{ sizeof( "^=" ),       "^="       },
-			{ sizeof( "<<=" ),    "<<="    },
+			{ sizeof( "<<=" ),      "<<="      },
-			{ sizeof( ">>=" ),    ">>="    },
+			{ sizeof( ">>=" ),      ">>="      },
-			{ sizeof( "++" ),     "++"     },
+			{ sizeof( "++" ),       "++"       },
-			{ sizeof( "--" ),     "--"     },
+			{ sizeof( "--" ),       "--"       },
-			{ sizeof( "+" ),      "+"      },
+			{ sizeof( "+" ),        "+"        },
-			{ sizeof( "-" ),      "-"      },
+			{ sizeof( "-" ),        "-"        },
-			{ sizeof( "!" ),      "!"      },
+			{ sizeof( "!" ),        "!"        },
-			{ sizeof( "+" ),      "+"      },
+			{ sizeof( "+" ),        "+"        },
-			{ sizeof( "-" ),      "-"      },
+			{ sizeof( "-" ),        "-"        },
-			{ sizeof( "*" ),      "*"      },
+			{ sizeof( "*" ),        "*"        },
-			{ sizeof( "/" ),      "/"      },
+			{ sizeof( "/" ),        "/"        },
-			{ sizeof( "%" ),      "%"      },
+			{ sizeof( "%" ),        "%"        },
-			{ sizeof( "~" ),      "~"      },
+			{ sizeof( "~" ),        "~"        },
-			{ sizeof( "&" ),      "&"      },
+			{ sizeof( "&" ),        "&"        },
-			{ sizeof( "|" ),      "|"      },
+			{ sizeof( "|" ),        "|"        },
-			{ sizeof( "^" ),      "^"      },
+			{ sizeof( "^" ),        "^"        },
-			{ sizeof( "<<" ),     "<<"     },
+			{ sizeof( "<<" ),       "<<"       },
-			{ sizeof( ">>" ),     ">>"     },
+			{ sizeof( ">>" ),       ">>"       },
-			{ sizeof( "&&" ),     "&&"     },
+			{ sizeof( "&&" ),       "&&"       },
-			{ sizeof( "||" ),     "||"     },
+			{ sizeof( "||" ),       "||"       },
-			{ sizeof( "==" ),     "=="     },
+			{ sizeof( "==" ),       "=="       },
-			{ sizeof( "!=" ),     "!="     },
+			{ sizeof( "!=" ),       "!="       },
-			{ sizeof( "<" ),      "<"      },
+			{ sizeof( "<" ),        "<"        },
-			{ sizeof( ">" ),      ">"      },
+			{ sizeof( ">" ),        ">"        },
-			{ sizeof( "<=" ),     "<="     },
+			{ sizeof( "<=" ),       "<="       },
-			{ sizeof( ">=" ),     ">="     },
+			{ sizeof( ">=" ),       ">="       },
-			{ sizeof( "[]" ),     "[]"     },
+			{ sizeof( "[]" ),       "[]"       },
-			{ sizeof( "*" ),      "*"      },
+			{ sizeof( "*" ),        "*"        },
-			{ sizeof( "&" ),      "&"      },
+			{ sizeof( "&" ),        "&"        },
-			{ sizeof( "->" ),     "->"     },
+			{ sizeof( "->" ),       "->"       },
-			{ sizeof( "->*" ),    "->*"    },
+			{ sizeof( "->*" ),      "->*"      },
-			{ sizeof( "()" ),     "()"     },
+			{ sizeof( "()" ),       "()"       },
-			{ sizeof( "," ),      ","      },
+			{ sizeof( "," ),        ","        },
 			{ sizeof( "new" ),      "new"      },
 			{ sizeof( "new[]" ),    "new[]"    },
 			{ sizeof( "delete" ),   "delete"   },
 			{ sizeof( "delete[]" ), "delete[]" },
 		};
-		return lookup[ op ];
+		return lookup[op];
 	}
 }    // namespace EOperator
--- a/project/components/gen/especifier.hpp
+++ b/project/components/gen/especifier.hpp
@ -28,67 +28,67 @@ namespace ESpecifier
 		RValue,
 		Static,
 		Thread_Local,
 		Volatile,
 		Virtual,
 		Const,
 		Final,
 		NoExceptions,
 		Override,
 		Pure,
 		Volatile,
 		NumSpecifiers
 	};
-	bool is_trailing( Type specifier )
+	inline bool is_trailing( Type specifier )
 	{
 		return specifier > Virtual;
 	}
-	StrC to_str( Type type )
+	inline StrC to_str( Type type )
 	{
 		local_persist StrC lookup[] {
-			{sizeof( "INVALID" ),        "INVALID"      },
+			{ sizeof( "INVALID" ),       "INVALID"       },
-			{ sizeof( "consteval" ),     "consteval"    },
+			{ sizeof( "consteval" ),     "consteval"     },
-			{ sizeof( "constexpr" ),     "constexpr"    },
+			{ sizeof( "constexpr" ),     "constexpr"     },
-			{ sizeof( "constinit" ),     "constinit"    },
+			{ sizeof( "constinit" ),     "constinit"     },
-			{ sizeof( "explicit" ),      "explicit"     },
+			{ sizeof( "explicit" ),      "explicit"      },
-			{ sizeof( "extern" ),        "extern"       },
+			{ sizeof( "extern" ),        "extern"        },
-			{ sizeof( "forceinline" ),   "forceinline"  },
+			{ sizeof( "forceinline" ),   "forceinline"   },
-			{ sizeof( "global" ),        "global"       },
+			{ sizeof( "global" ),        "global"        },
-			{ sizeof( "inline" ),        "inline"       },
+			{ sizeof( "inline" ),        "inline"        },
-			{ sizeof( "internal" ),      "internal"     },
+			{ sizeof( "internal" ),      "internal"      },
-			{ sizeof( "local_persist" ), "local_persist"},
+			{ sizeof( "local_persist" ), "local_persist" },
-			{ sizeof( "mutable" ),       "mutable"      },
+			{ sizeof( "mutable" ),       "mutable"       },
-			{ sizeof( "neverinline" ),   "neverinline"  },
+			{ sizeof( "neverinline" ),   "neverinline"   },
-			{ sizeof( "*" ),             "*"            },
+			{ sizeof( "*" ),             "*"             },
-			{ sizeof( "&" ),             "&"            },
+			{ sizeof( "&" ),             "&"             },
-			{ sizeof( "register" ),      "register"     },
+			{ sizeof( "register" ),      "register"      },
-			{ sizeof( "&&" ),            "&&"           },
+			{ sizeof( "&&" ),            "&&"            },
-			{ sizeof( "static" ),        "static"       },
+			{ sizeof( "static" ),        "static"        },
-			{ sizeof( "thread_local" ),  "thread_local" },
+			{ sizeof( "thread_local" ),  "thread_local"  },
-			{ sizeof( "volatile" ),      "volatile"     },
+			{ sizeof( "virtual" ),       "virtual"       },
-			{ sizeof( "virtual" ),       "virtual"      },
+			{ sizeof( "const" ),         "const"         },
-			{ sizeof( "const" ),         "const"        },
+			{ sizeof( "final" ),         "final"         },
-			{ sizeof( "final" ),         "final"        },
+			{ sizeof( "noexcept" ),      "noexcept"      },
-			{ sizeof( "noexcept" ),      "noexcept"     },
+			{ sizeof( "override" ),      "override"      },
-			{ sizeof( "override" ),      "override"     },
+			{ sizeof( "= 0" ),           "= 0"           },
-			{ sizeof( "= 0" ),           "= 0"          },
+			{ sizeof( "volatile" ),      "volatile"      },
 		};
-		return lookup[ type ];
+		return lookup[type];
 	}
-	Type to_type( StrC str )
+	inline Type to_type( StrC str )
 	{
-		local_persist u32 keymap[ NumSpecifiers ];
+		local_persist u32 keymap[NumSpecifiers];
 		do_once_start for ( u32 index = 0; index < NumSpecifiers; index++ )
 		{
-			StrC enum_str   = to_str( ( Type )index );
+			StrC enum_str = to_str( (Type)index );
-			keymap[ index ] = crc32( enum_str.Ptr, enum_str.Len - 1 );
+			keymap[index] = crc32( enum_str.Ptr, enum_str.Len - 1 );
 		}
 		do_once_end u32 hash = crc32( str.Ptr, str.Len );
 		for ( u32 index = 0; index < NumSpecifiers; index++ )
 		{
-			if ( keymap[ index ] == hash )
+			if ( keymap[index] == hash )
-				return ( Type )index;
+				return (Type)index;
 		}
 		return Invalid;
 	}
--- a/project/components/gen/etoktype.cpp
+++ b/project/components/gen/etoktype.cpp
@ -5,11 +5,11 @@
 // This file was generated automatially by gencpp's bootstrap.cpp (See: https://github.com/Ed94/gencpp)
-namespace Parser
+namespace parser
 {
 	namespace ETokType
 	{
-#define GEN_DEFINE_ATTRIBUTE_TOKENS Entry( API_Export, GEN_API_Export_Code ) Entry( API_Import, GEN_API_Import_Code )
+#define GEN_DEFINE_ATTRIBUTE_TOKENS Entry( Attribute_API_Export, "GEN_API_Export_Code" ) Entry( Attribute_API_Import, "GEN_API_Import_Code" )
 		enum Type : u32
 		{
@ -92,10 +92,12 @@ namespace Parser
 			Statement_End,
 			StaticAssert,
 			String,
 			Type_Typename,
 			Type_Unsigned,
 			Type_Signed,
 			Type_Short,
 			Type_Long,
 			Type_bool,
 			Type_char,
 			Type_int,
 			Type_double,
@ -106,126 +108,128 @@ namespace Parser
 			Type_MS_W64,
 			Varadic_Argument,
 			__Attributes_Start,
-			API_Export,
+			Attribute_API_Export,
-			API_Import,
+			Attribute_API_Import,
 			NumTokens
 		};
-		StrC to_str( Type type )
+		inline StrC to_str( Type type )
 		{
 			local_persist StrC lookup[] {
-				{sizeof( "__invalid__" ),          "__invalid__"        },
+				{ sizeof( "__invalid__" ),         "__invalid__"         },
-				{ sizeof( "private" ),             "private"            },
+				{ sizeof( "private" ),             "private"             },
-				{ sizeof( "protected" ),           "protected"          },
+				{ sizeof( "protected" ),           "protected"           },
-				{ sizeof( "public" ),              "public"             },
+				{ sizeof( "public" ),              "public"              },
-				{ sizeof( "." ),                   "."                  },
+				{ sizeof( "." ),                   "."                   },
-				{ sizeof( "::" ),                  "::"                 },
+				{ sizeof( "::" ),                  "::"                  },
-				{ sizeof( "&" ),                   "&"                  },
+				{ sizeof( "&" ),                   "&"                   },
-				{ sizeof( "&&" ),                  "&&"                 },
+				{ sizeof( "&&" ),                  "&&"                  },
-				{ sizeof( ":" ),                   ":"                  },
+				{ sizeof( ":" ),                   ":"                   },
-				{ sizeof( "[[" ),                  "[["                 },
+				{ sizeof( "[[" ),                  "[["                  },
-				{ sizeof( "]]" ),                  "]]"                 },
+				{ sizeof( "]]" ),                  "]]"                  },
-				{ sizeof( "{" ),                   "{"                  },
+				{ sizeof( "{" ),                   "{"                   },
-				{ sizeof( "}" ),                   "}"                  },
+				{ sizeof( "}" ),                   "}"                   },
-				{ sizeof( "[" ),                   "["                  },
+				{ sizeof( "[" ),                   "["                   },
-				{ sizeof( "]" ),                   "]"                  },
+				{ sizeof( "]" ),                   "]"                   },
-				{ sizeof( "(" ),                   "("                  },
+				{ sizeof( "(" ),                   "("                   },
-				{ sizeof( ")" ),                   ")"                  },
+				{ sizeof( ")" ),                   ")"                   },
-				{ sizeof( "__comment__" ),         "__comment__"        },
+				{ sizeof( "__comment__" ),         "__comment__"         },
-				{ sizeof( "__comment_end__" ),     "__comment_end__"    },
+				{ sizeof( "__comment_end__" ),     "__comment_end__"     },
-				{ sizeof( "__comment_start__" ),   "__comment_start__"  },
+				{ sizeof( "__comment_start__" ),   "__comment_start__"   },
-				{ sizeof( "__character__" ),       "__character__"      },
+				{ sizeof( "__character__" ),       "__character__"       },
-				{ sizeof( "," ),                   ","                  },
+				{ sizeof( "," ),                   ","                   },
-				{ sizeof( "class" ),               "class"              },
+				{ sizeof( "class" ),               "class"               },
-				{ sizeof( "__attribute__" ),       "__attribute__"      },
+				{ sizeof( "__attribute__" ),       "__attribute__"       },
-				{ sizeof( "__declspec" ),          "__declspec"         },
+				{ sizeof( "__declspec" ),          "__declspec"          },
-				{ sizeof( "enum" ),                "enum"               },
+				{ sizeof( "enum" ),                "enum"                },
-				{ sizeof( "extern" ),              "extern"             },
+				{ sizeof( "extern" ),              "extern"              },
-				{ sizeof( "friend" ),              "friend"             },
+				{ sizeof( "friend" ),              "friend"              },
-				{ sizeof( "module" ),              "module"             },
+				{ sizeof( "module" ),              "module"              },
-				{ sizeof( "namespace" ),           "namespace"          },
+				{ sizeof( "namespace" ),           "namespace"           },
-				{ sizeof( "operator" ),            "operator"           },
+				{ sizeof( "operator" ),            "operator"            },
-				{ sizeof( "struct" ),              "struct"             },
+				{ sizeof( "struct" ),              "struct"              },
-				{ sizeof( "template" ),            "template"           },
+				{ sizeof( "template" ),            "template"            },
-				{ sizeof( "typedef" ),             "typedef"            },
+				{ sizeof( "typedef" ),             "typedef"             },
-				{ sizeof( "using" ),               "using"              },
+				{ sizeof( "using" ),               "using"               },
-				{ sizeof( "union" ),               "union"              },
+				{ sizeof( "union" ),               "union"               },
-				{ sizeof( "__identifier__" ),      "__identifier__"     },
+				{ sizeof( "__identifier__" ),      "__identifier__"      },
-				{ sizeof( "import" ),              "import"             },
+				{ sizeof( "import" ),              "import"              },
-				{ sizeof( "export" ),              "export"             },
+				{ sizeof( "export" ),              "export"              },
-				{ sizeof( "__new_line__" ),        "__new_line__"       },
+				{ sizeof( "__new_line__" ),        "__new_line__"        },
-				{ sizeof( "__number__" ),          "__number__"         },
+				{ sizeof( "__number__" ),          "__number__"          },
-				{ sizeof( "__operator__" ),        "__operator__"       },
+				{ sizeof( "__operator__" ),        "__operator__"        },
-				{ sizeof( "#" ),                   "#"                  },
+				{ sizeof( "#" ),                   "#"                   },
-				{ sizeof( "define" ),              "define"             },
+				{ sizeof( "define" ),              "define"              },
-				{ sizeof( "if" ),                  "if"                 },
+				{ sizeof( "if" ),                  "if"                  },
-				{ sizeof( "ifdef" ),               "ifdef"              },
+				{ sizeof( "ifdef" ),               "ifdef"               },
-				{ sizeof( "ifndef" ),              "ifndef"             },
+				{ sizeof( "ifndef" ),              "ifndef"              },
-				{ sizeof( "elif" ),                "elif"               },
+				{ sizeof( "elif" ),                "elif"                },
-				{ sizeof( "else" ),                "else"               },
+				{ sizeof( "else" ),                "else"                },
-				{ sizeof( "endif" ),               "endif"              },
+				{ sizeof( "endif" ),               "endif"               },
-				{ sizeof( "include" ),             "include"            },
+				{ sizeof( "include" ),             "include"             },
-				{ sizeof( "pragma" ),              "pragma"             },
+				{ sizeof( "pragma" ),              "pragma"              },
-				{ sizeof( "__macro_content__" ),   "__macro_content__"  },
+				{ sizeof( "__macro_content__" ),   "__macro_content__"   },
-				{ sizeof( "__macro__" ),           "__macro__"          },
+				{ sizeof( "__macro__" ),           "__macro__"           },
-				{ sizeof( "__unsupported__" ),     "__unsupported__"    },
+				{ sizeof( "__unsupported__" ),     "__unsupported__"     },
-				{ sizeof( "alignas" ),             "alignas"            },
+				{ sizeof( "alignas" ),             "alignas"             },
-				{ sizeof( "const" ),               "const"              },
+				{ sizeof( "const" ),               "const"               },
-				{ sizeof( "consteval" ),           "consteval"          },
+				{ sizeof( "consteval" ),           "consteval"           },
-				{ sizeof( "constexpr" ),           "constexpr"          },
+				{ sizeof( "constexpr" ),           "constexpr"           },
-				{ sizeof( "constinit" ),           "constinit"          },
+				{ sizeof( "constinit" ),           "constinit"           },
-				{ sizeof( "explicit" ),            "explicit"           },
+				{ sizeof( "explicit" ),            "explicit"            },
-				{ sizeof( "extern" ),              "extern"             },
+				{ sizeof( "extern" ),              "extern"              },
-				{ sizeof( "final" ),               "final"              },
+				{ sizeof( "final" ),               "final"               },
-				{ sizeof( "forceinline" ),         "forceinline"        },
+				{ sizeof( "forceinline" ),         "forceinline"         },
-				{ sizeof( "global" ),              "global"             },
+				{ sizeof( "global" ),              "global"              },
-				{ sizeof( "inline" ),              "inline"             },
+				{ sizeof( "inline" ),              "inline"              },
-				{ sizeof( "internal" ),            "internal"           },
+				{ sizeof( "internal" ),            "internal"            },
-				{ sizeof( "local_persist" ),       "local_persist"      },
+				{ sizeof( "local_persist" ),       "local_persist"       },
-				{ sizeof( "mutable" ),             "mutable"            },
+				{ sizeof( "mutable" ),             "mutable"             },
-				{ sizeof( "neverinline" ),         "neverinline"        },
+				{ sizeof( "neverinline" ),         "neverinline"         },
-				{ sizeof( "override" ),            "override"           },
+				{ sizeof( "override" ),            "override"            },
-				{ sizeof( "static" ),              "static"             },
+				{ sizeof( "static" ),              "static"              },
-				{ sizeof( "thread_local" ),        "thread_local"       },
+				{ sizeof( "thread_local" ),        "thread_local"        },
-				{ sizeof( "volatile" ),            "volatile"           },
+				{ sizeof( "volatile" ),            "volatile"            },
-				{ sizeof( "virtual" ),             "virtual"            },
+				{ sizeof( "virtual" ),             "virtual"             },
-				{ sizeof( "*" ),                   "*"                  },
+				{ sizeof( "*" ),                   "*"                   },
-				{ sizeof( ";" ),                   ";"                  },
+				{ sizeof( ";" ),                   ";"                   },
-				{ sizeof( "static_assert" ),       "static_assert"      },
+				{ sizeof( "static_assert" ),       "static_assert"       },
-				{ sizeof( "__string__" ),          "__string__"         },
+				{ sizeof( "__string__" ),          "__string__"          },
-				{ sizeof( "unsigned" ),            "unsigned"           },
+				{ sizeof( "typename" ),            "typename"            },
-				{ sizeof( "signed" ),              "signed"             },
+				{ sizeof( "unsigned" ),            "unsigned"            },
-				{ sizeof( "short" ),               "short"              },
+				{ sizeof( "signed" ),              "signed"              },
-				{ sizeof( "long" ),                "long"               },
+				{ sizeof( "short" ),               "short"               },
-				{ sizeof( "char" ),                "char"               },
+				{ sizeof( "long" ),                "long"                },
-				{ sizeof( "int" ),                 "int"                },
+				{ sizeof( "bool" ),                "bool"                },
-				{ sizeof( "double" ),              "double"             },
+				{ sizeof( "char" ),                "char"                },
-				{ sizeof( "__int8" ),              "__int8"             },
+				{ sizeof( "int" ),                 "int"                 },
-				{ sizeof( "__int16" ),             "__int16"            },
+				{ sizeof( "double" ),              "double"              },
-				{ sizeof( "__int32" ),             "__int32"            },
+				{ sizeof( "__int8" ),              "__int8"              },
-				{ sizeof( "__int64" ),             "__int64"            },
+				{ sizeof( "__int16" ),             "__int16"             },
-				{ sizeof( "_W64" ),                "_W64"               },
+				{ sizeof( "__int32" ),             "__int32"             },
-				{ sizeof( "..." ),                 "..."                },
+				{ sizeof( "__int64" ),             "__int64"             },
-				{ sizeof( "__attrib_start__" ),    "__attrib_start__"   },
+				{ sizeof( "_W64" ),                "_W64"                },
-				{ sizeof( "GEN_API_Export_Code" ), "GEN_API_Export_Code"},
+				{ sizeof( "..." ),                 "..."                 },
-				{ sizeof( "GEN_API_Import_Code" ), "GEN_API_Import_Code"},
+				{ sizeof( "__attrib_start__" ),    "__attrib_start__"    },
 				{ sizeof( "GEN_API_Export_Code" ), "GEN_API_Export_Code" },
 				{ sizeof( "GEN_API_Import_Code" ), "GEN_API_Import_Code" },
 			};
-			return lookup[ type ];
+			return lookup[type];
 		}
-		Type to_type( StrC str )
+		inline Type to_type( StrC str )
 		{
-			local_persist u32 keymap[ NumTokens ];
+			local_persist u32 keymap[NumTokens];
 			do_once_start for ( u32 index = 0; index < NumTokens; index++ )
 			{
-				StrC enum_str   = to_str( ( Type )index );
+				StrC enum_str = to_str( (Type)index );
-				keymap[ index ] = crc32( enum_str.Ptr, enum_str.Len - 1 );
+				keymap[index] = crc32( enum_str.Ptr, enum_str.Len - 1 );
 			}
 			do_once_end u32 hash = crc32( str.Ptr, str.Len );
 			for ( u32 index = 0; index < NumTokens; index++ )
 			{
-				if ( keymap[ index ] == hash )
+				if ( keymap[index] == hash )
-					return ( Type )index;
+					return (Type)index;
 			}
 			return Invalid;
 		}
@ -234,4 +238,4 @@ namespace Parser
 	using TokType = ETokType::Type;
-}    // namespace Parser
+}    // namespace parser
--- a/project/components/header_end.hpp
+++ b/project/components/header_end.hpp
@ -42,7 +42,7 @@ constexpr s32 InitSize_DataArrays = 16;
 // NOTE: This limits the maximum size of an allocation
 // If you are generating a string larger than this, increase the size of the bucket here.
-constexpr uw  Global_BucketSize         = GEN_GLOBAL_BUCKET_SIZE;
+constexpr usize  Global_BucketSize         = GEN_GLOBAL_BUCKET_SIZE;
 constexpr s32 CodePool_NumBlocks        = GEN_CODEPOOL_NUM_BLOCKS;
 constexpr s32 SizePer_StringArena       = GEN_SIZE_PER_STRING_ARENA;
@ -63,7 +63,6 @@ extern CodeAttributes attrib_api_import;
 extern Code module_global_fragment;
 extern Code module_private_fragment;
 // Exposed, but this is really used for parsing.
 extern Code fmt_newline;
 extern CodePragma pragma_once;
@ -123,8 +122,8 @@ extern CodeType t_typename;
 	extern CodeType t_u32;
 	extern CodeType t_u64;
-	extern CodeType t_sw;
+	extern CodeType t_ssize;
-	extern CodeType t_uw;
+	extern CodeType t_usize;
 	extern CodeType t_f32;
 	extern CodeType t_f64;
@ -134,6 +133,7 @@ extern CodeType t_typename;
 #pragma region Macros
 #ifndef token_fmt
 #	define gen_main main
 #	define __ NoCode
@ -152,9 +152,15 @@ extern CodeType t_typename;
 	// Takes a format string (char const*) and a list of tokens (StrC) and returns a StrC of the formatted string.
 #	define token_fmt( ... ) GEN_NS token_fmt_impl( (num_args( __VA_ARGS__ ) + 1) / 2, __VA_ARGS__ )
 #endif
 #pragma endregion Macros
 // Used by the lexer to persistently treat all these identifiers as preprocessor defines.
 // Populate with strings via gen::get_cached_string.
 // Functional defines must have format: id( ;at minimum to indicate that the define is only valid with arguments.
 extern Array< StringCached > PreprocessorDefines;
 #ifdef GEN_EXPOSE_BACKEND
 	// Global allocator used for data with process lifetime.
--- a/project/components/inlines.hpp
+++ b/project/components/inlines.hpp
@ -3,60 +3,148 @@
 #include "interface.hpp"
 #endif
-void AST::append( AST* other )
+inline
 void append( AST* self, AST* other )
 {
 	GEN_ASSERT(self  != nullptr);
 	GEN_ASSERT(other != nullptr);
 	if ( other->Parent )
-		other = other->duplicate();
+		other = duplicate(other);
-	other->Parent = this;
+	other->Parent = self;
-	if ( Front == nullptr )
+	if ( self->Front == nullptr )
 	{
-		Front = other;
+		self->Front = other;
-		Back  = other;
+		self->Back  = other;
-		NumEntries++;
+		self->NumEntries++;
 		return;
 	}
 	AST*
-		Current       = Back;
+	Current       = self->Back;
 	Current->Next = other;
 	other->Prev   = Current;
-	Back          = other;
+	self->Back    = other;
-	NumEntries++;
+	self->NumEntries++;
 }
-Code& AST::entry( u32 idx )
+inline
 Code* entry( AST* self, u32 idx )
 {
-	AST** current = & Front;
+	GEN_ASSERT(self != nullptr);
 	AST** current = & self->Front;
 	while ( idx >= 0 && current != nullptr )
 	{
 		if ( idx == 0 )
-			return * rcast( Code*, current);
+			return rcast( Code*, current);
 		current = & ( * current )->Next;
 		idx--;
 	}
-	return * rcast( Code*, current);
+	return rcast( Code*, current);
 }
-bool AST::has_entries()
+inline
 bool has_entries(AST* self)
 {
-	return NumEntries;
+	GEN_ASSERT(self != nullptr);
 	return self->NumEntries > 0;
 }
-char const* AST::type_str()
+inline
 bool is_body(AST* self)
 {
-	return ECode::to_str( Type );
+	GEN_ASSERT(self != nullptr);
 	switch (self->Type)
 	{
 		case ECode::Enum_Body:
 		case ECode::Class_Body:
 		case ECode::Union_Body:
 		case ECode::Export_Body:
 		case ECode::Global_Body:
 		case ECode::Struct_Body:
 		case ECode::Function_Body:
 		case ECode::Namespace_Body:
 		case ECode::Extern_Linkage_Body:
 			return true;
 	}
 	return false;
 }
 inline
 char const* type_str(AST* self)
 {
 	GEN_ASSERT(self != nullptr);
 	return ECode::to_str( self->Type );
 }
 inline
 AST::operator Code()
 {
 	return { this };
 }
 #pragma region Code
 inline
 char const* debug_str( Code code )
 {
 	if ( code.ast == nullptr )
 		return "Code::debug_str: AST is null!";
 	return debug_str( code.ast );
 }
 inline
 Code duplicate( Code code )
 {
 	if ( code.ast == nullptr )
 	{
 		log_failure("Code::duplicate: Cannot duplicate code, AST is null!");
 		return Code_Invalid;
 	}
 	return { duplicate(code.ast) };
 }
 inline
 bool is_body(Code code)
 {
 	if ( code.ast == nullptr )
 	{
 		return is_body(code.ast);
 	}
 	return false;
 }
 inline
 bool is_equal( Code self, Code other )
 {
 	if ( self.ast == nullptr || other.ast == nullptr )
 	{
 		// Just check if they're both null.
 		// log_failure( "Code::is_equal: Cannot compare code, AST is null!" );
 		return self.ast == nullptr && other.ast == nullptr;
 	}
 	return is_equal( self.ast, other.ast );
 }
 inline
 bool is_valid(Code self)
 {
 	return self.ast != nullptr && self.ast->Type != CodeT::Invalid;
 }
 inline
 void set_global(Code self)
 {
 	if ( self.ast == nullptr )
 	{
 		log_failure("Code::set_global: Cannot set code as global, AST is null!");
 		return;
 	}
 	self->Parent = Code_Global.ast;
 }
 inline
 Code& Code::operator ++()
 {
 	if ( ast )
@ -64,14 +152,52 @@ Code& Code::operator ++()
 	return *this;
 }
 #pragma endregion Code
-void CodeClass::add_interface( CodeType type )
+#pragma region CodeBody
 inline
 void append( CodeBody self, Code other )
 {
-	CodeType possible_slot = ast->ParentType;
+	GEN_ASSERT(other.ast != nullptr);
 	if (is_body(other)) {
 		append( self, cast(CodeBody, other) );
 		return;
 	}
 	append( rcast(AST*, self.ast), other.ast );
 }
 inline
 void append( CodeBody self, CodeBody body )
 {
 	GEN_ASSERT(self.ast != nullptr);
 	for ( Code entry : body ) {
 		append( self, entry );
 	}
 }
 inline
 Code begin( CodeBody body) {
 	if ( body.ast )
 		return { rcast( AST*, body.ast)->Front };
 	return { nullptr };
 }
 inline
 Code end(CodeBody body ){
 	return { rcast(AST*, body.ast)->Back->Next };
 }
 #pragma endregion CodeBody
 #pragma region CodeClass
 inline
 void add_interface( CodeClass self, CodeType type )
 {
 	GEN_ASSERT(self.ast !=nullptr);
 	CodeType possible_slot = self->ParentType;
 	if ( possible_slot.ast )
 	{
 		// Were adding an interface to parent type, so we need to make sure the parent type is public.
-		ast->ParentAccess = AccessSpec::Public;
+		self->ParentAccess = AccessSpec_Public;
 		// If your planning on adding a proper parent,
 		// then you'll need to move this over to ParentType->next and update ParentAccess accordingly.
 	}
@ -83,14 +209,18 @@ void CodeClass::add_interface( CodeType type )
 	possible_slot.ast = type.ast;
 }
 #pragma endregion CodeClass
-void CodeParam::append( CodeParam other )
+#pragma region CodeParam
 inline
 void append( CodeParam appendee, CodeParam other )
 {
-	AST* self  = (AST*) ast;
+	GEN_ASSERT(appendee.ast != nullptr);
 	AST* self  = cast(Code, appendee).ast;
 	AST* entry = (AST*) other.ast;
 	if ( entry->Parent )
-		entry = entry->duplicate();
+		entry = GEN_NS duplicate( entry );
 	entry->Parent = self;
@ -106,40 +236,144 @@ void CodeParam::append( CodeParam other )
 	self->Last       = entry;
 	self->NumEntries++;
 }
-
+inline
-CodeParam CodeParam::get( s32 idx )
+CodeParam get(CodeParam self, s32 idx )
 {
-	CodeParam param = *this;
+	GEN_ASSERT(self.ast != nullptr);
 	CodeParam param = * self;
 	do
 	{
 		if ( ! ++ param )
 			return { nullptr };
-		return { (AST_Param*) param.raw()->Next };
+		param = { (AST_Param*) cast(Code, param)->Next };
 	}
 	while ( --idx );
-	return { nullptr };
+	return param;
 }
-
+inline
-bool CodeParam::has_entries()
+bool has_entries(CodeParam self)
 {
-	return ast->NumEntries > 0;
+	GEN_ASSERT(self.ast != nullptr);
 	return self->NumEntries > 0;
 }
-
+inline
 CodeParam& CodeParam::operator ++()
 {
 	ast = ast->Next.ast;
 	return * this;
 }
-
+inline
-void CodeStruct::add_interface( CodeType type )
+CodeParam begin(CodeParam params)
 {
-	CodeType possible_slot = ast->ParentType;
+	if ( params.ast )
 		return { params.ast };
 	return { nullptr };
 }
 inline
 CodeParam end(CodeParam params)
 {
 	// return { (AST_Param*) rcast( AST*, ast)->Last };
 	return { nullptr };
 }
 #pragma endregion CodeParam
 #pragma region CodeSpecifiers
 inline
 bool append(CodeSpecifiers self, SpecifierT spec )
 {
 	if ( self.ast == nullptr )
 	{
 		log_failure("CodeSpecifiers: Attempted to append to a null specifiers AST!");
 		return false;
 	}
 	if ( self->NumEntries == AST_ArrSpecs_Cap )
 	{
 		log_failure("CodeSpecifiers: Attempted to append over %d specifiers to a specifiers AST!", AST_ArrSpecs_Cap );
 		return false;
 	}
 	self->ArrSpecs[ self->NumEntries ] = spec;
 	self->NumEntries++;
 	return true;
 }
 inline
 s32 has(CodeSpecifiers self, SpecifierT spec)
 {
 	GEN_ASSERT(self.ast != nullptr);
 	for ( s32 idx = 0; idx < self->NumEntries; idx++ ) {
 		if ( self->ArrSpecs[ idx ] == spec )
 			return idx;
 	}
 	return -1;
 }
 inline
 s32 remove( CodeSpecifiers self, SpecifierT to_remove )
 {
 	AST_Specifiers* ast = self.ast;
 	if ( ast == nullptr )
 	{
 		log_failure("CodeSpecifiers: Attempted to append to a null specifiers AST!");
 		return -1;
 	}
 	if ( self->NumEntries == AST_ArrSpecs_Cap )
 	{
 		log_failure("CodeSpecifiers: Attempted to append over %d specifiers to a specifiers AST!", AST_ArrSpecs_Cap );
 		return -1;
 	}
 	s32 result = -1;
 	s32 curr = 0;
 	s32 next = 0;
 	for(; next < self->NumEntries; ++ curr, ++ next)
 	{
 		SpecifierT spec = self->ArrSpecs[next];
 		if (spec == to_remove)
 		{
 			result = next;
 			next ++;
 			if (next >= self->NumEntries)
 				break;
 			spec = self->ArrSpecs[next];
 		}
 		self->ArrSpecs[ curr ] = spec;
 	}
 	if (result > -1) {
 		self->NumEntries --;
 	}
 	return result;
 }
 inline
 SpecifierT* begin(CodeSpecifiers self)
 {
 	if ( self.ast )
 		return & self->ArrSpecs[0];
 	return nullptr;
 }
 inline
 SpecifierT* end(CodeSpecifiers self)
 {
 	return self->ArrSpecs + self->NumEntries;
 }
 #pragma endregion CodeSpecifiers
 #pragma region CodeStruct
 inline
 void add_interface(CodeStruct self, CodeType type )
 {
 	CodeType possible_slot = self->ParentType;
 	if ( possible_slot.ast )
 	{
 		// Were adding an interface to parent type, so we need to make sure the parent type is public.
-		ast->ParentAccess = AccessSpec::Public;
+		self->ParentAccess = AccessSpec_Public;
 		// If your planning on adding a proper parent,
 		// then you'll need to move this over to ParentType->next and update ParentAccess accordingly.
 	}
@ -151,7 +385,10 @@ void CodeStruct::add_interface( CodeType type )
 	possible_slot.ast = type.ast;
 }
 #pragma endregion Code
 #pragma region Interface
 inline
 CodeBody def_body( CodeT type )
 {
 	switch ( type )
@ -170,7 +407,7 @@ CodeBody def_body( CodeT type )
 		default:
 			log_failure( "def_body: Invalid type %s", (char const*)ECode::to_str(type) );
-			return (CodeBody)Code::Invalid;
+			return (CodeBody)Code_Invalid;
 	}
 	Code
@ -179,7 +416,8 @@ CodeBody def_body( CodeT type )
 	return (CodeBody)result;
 }
-StrC token_fmt_impl( sw num, ... )
+inline
 StrC token_fmt_impl( ssize num, ... )
 {
 	local_persist thread_local
 	char buf[GEN_PRINTF_MAXLEN] = { 0 };
@ -187,8 +425,9 @@ StrC token_fmt_impl( sw num, ... )
 	va_list va;
 	va_start(va, num );
-	sw result = token_fmt_va(buf, GEN_PRINTF_MAXLEN, num, va);
+	ssize result = token_fmt_va(buf, GEN_PRINTF_MAXLEN, num, va);
 	va_end(va);
 	return { result, buf };
 }
 #pragma endregion Interface
--- a/project/components/interface.cpp
+++ b/project/components/interface.cpp
@ -1,15 +1,17 @@
 #ifdef GEN_INTELLISENSE_DIRECTIVES
 #pragma once
-#include "ast.cpp"
+#include "code_serialization.cpp"
 #endif
-internal void init_parser();
+namespace parser {
-internal void deinit_parser();
+internal void init();
 internal void deinit();
 }
 internal
-void* Global_Allocator_Proc( void* allocator_data, AllocType type, sw size, sw alignment, void* old_memory, sw old_size, u64 flags )
+void* Global_Allocator_Proc( void* allocator_data, AllocType type, ssize size, ssize alignment, void* old_memory, ssize old_size, u64 flags )
 {
-	Arena* last = & Global_AllocatorBuckets.back();
+	Arena* last = back(& Global_AllocatorBuckets);
 	switch ( type )
 	{
@ -17,18 +19,18 @@ void* Global_Allocator_Proc( void* allocator_data, AllocType type, sw size, sw a
 		{
 			if ( ( last->TotalUsed + size ) > last->TotalSize )
 			{
-				Arena bucket = Arena::init_from_allocator( heap(), Global_BucketSize );
+				Arena bucket = arena_init_from_allocator( heap(), Global_BucketSize );
 				if ( bucket.PhysicalStart == nullptr )
 					GEN_FATAL( "Failed to create bucket for Global_AllocatorBuckets");
-				if ( ! Global_AllocatorBuckets.append( bucket ) )
+				if ( ! append( & Global_AllocatorBuckets, bucket ) )
 					GEN_FATAL( "Failed to append bucket to Global_AllocatorBuckets");
-				last = & Global_AllocatorBuckets.back();
+				last = back(& Global_AllocatorBuckets);
 			}
-			return alloc_align( * last, size, alignment );
+			return alloc_align( allocator_info(last), size, alignment );
 		}
 		case EAllocation_FREE:
 		{
@ -44,15 +46,15 @@ void* Global_Allocator_Proc( void* allocator_data, AllocType type, sw size, sw a
 		{
 			if ( last->TotalUsed + size > last->TotalSize )
 			{
-				Arena bucket = Arena::init_from_allocator( heap(), Global_BucketSize );
+				Arena bucket = arena_init_from_allocator( heap(), Global_BucketSize );
 				if ( bucket.PhysicalStart == nullptr )
 					GEN_FATAL( "Failed to create bucket for Global_AllocatorBuckets");
-				if ( ! Global_AllocatorBuckets.append( bucket ) )
+				if ( ! append( & Global_AllocatorBuckets, bucket ) )
 					GEN_FATAL( "Failed to append bucket to Global_AllocatorBuckets");
-				last = & Global_AllocatorBuckets.back();
+				last = back(& Global_AllocatorBuckets);
 			}
 			void* result = alloc_align( last->Backing, size, alignment );
@ -72,74 +74,74 @@ void* Global_Allocator_Proc( void* allocator_data, AllocType type, sw size, sw a
 internal
 void define_constants()
 {
-	Code::Global          = make_code();
+	Code_Global                         = make_code();
-	Code::Global->Name    = get_cached_string( txt("Global Code") );
+	scast(String, Code_Global->Name)    = get_cached_string( txt("Global Code") );
-	Code::Global->Content = Code::Global->Name;
+	scast(String, Code_Global->Content) = Code_Global->Name;
-	Code::Invalid = make_code();
+	Code_Invalid = make_code();
-	Code::Invalid.set_global();
+	set_global(Code_Invalid);
-	t_empty          = (CodeType) make_code();
+	t_empty       = (CodeType) make_code();
-	t_empty->Type    = ECode::Typename;
+	t_empty->Type = ECode::Typename;
-	t_empty->Name    = get_cached_string( txt("") );
+	t_empty->Name = get_cached_string( txt("") );
-	t_empty.set_global();
+	set_global(t_empty);
 	access_private       = make_code();
 	access_private->Type = ECode::Access_Private;
-	access_private->Name = get_cached_string( txt("private:") );
+	access_private->Name = get_cached_string( txt("private:\n") );
-	access_private.set_global();
+	set_global(access_private);
 	access_protected       = make_code();
 	access_protected->Type = ECode::Access_Protected;
-	access_protected->Name = get_cached_string( txt("protected:") );
+	access_protected->Name = get_cached_string( txt("protected:\n") );
-	access_protected.set_global();
+	set_global(access_protected);
 	access_public       = make_code();
 	access_public->Type = ECode::Access_Public;
-	access_public->Name = get_cached_string( txt("public:") );
+	access_public->Name = get_cached_string( txt("public:\n") );
-	access_public.set_global();
+	set_global(access_public);
 	attrib_api_export = def_attributes( code(GEN_API_Export_Code));
-	attrib_api_export.set_global();
+	set_global(attrib_api_export);
 	attrib_api_import = def_attributes( code(GEN_API_Import_Code));
-	attrib_api_import.set_global();
+	set_global(attrib_api_import);
 	module_global_fragment          = make_code();
 	module_global_fragment->Type    = ECode::Untyped;
 	module_global_fragment->Name    = get_cached_string( txt("module;") );
 	module_global_fragment->Content = module_global_fragment->Name;
-	module_global_fragment.set_global();
+	set_global(module_global_fragment);
 	module_private_fragment          = make_code();
 	module_private_fragment->Type    = ECode::Untyped;
 	module_private_fragment->Name    = get_cached_string( txt("module : private;") );
 	module_private_fragment->Content = module_private_fragment->Name;
-	module_private_fragment.set_global();
+	set_global(module_private_fragment);
 	fmt_newline = make_code();
 	fmt_newline->Type = ECode::NewLine;
-	fmt_newline.set_global();
+	set_global(fmt_newline);
 	pragma_once          = (CodePragma) make_code();
 	pragma_once->Type    = ECode::Preprocess_Pragma;
 	pragma_once->Name    = get_cached_string( txt("once") );
 	pragma_once->Content = pragma_once->Name;
-	pragma_once.set_global();
+	set_global(pragma_once);
 	param_varadic            = (CodeType) make_code();
 	param_varadic->Type      = ECode::Parameters;
 	param_varadic->Name      = get_cached_string( txt("...") );
 	param_varadic->ValueType = t_empty;
-	param_varadic.set_global();
+	set_global(param_varadic);
 	preprocess_else = (CodePreprocessCond) make_code();
 	preprocess_else->Type = ECode::Preprocess_Else;
-	preprocess_else.set_global();
+	set_global(preprocess_else);
 	preprocess_endif = (CodePreprocessCond) make_code();
 	preprocess_endif->Type = ECode::Preprocess_EndIf;
-	preprocess_endif.set_global();
+	set_global(preprocess_endif);
 #	define def_constant_code_type( Type_ )   \
 		t_##Type_ = def_type( name(Type_) ); \
@ -167,8 +169,8 @@ void define_constants()
 	def_constant_code_type( u32 );
 	def_constant_code_type( u64 );
-	def_constant_code_type( sw );
+	def_constant_code_type( ssize );
-	def_constant_code_type( uw );
+	def_constant_code_type( usize );
 	def_constant_code_type( f32 );
 	def_constant_code_type( f64 );
@ -178,7 +180,7 @@ void define_constants()
 #	define def_constant_spec( Type_, ... )                                  \
 		spec_##Type_ = def_specifiers( num_args(__VA_ARGS__), __VA_ARGS__); \
-		spec_##Type_.set_global();
+		set_global(spec_##Type_);
 #	pragma push_macro("forceinline")
 #	pragma push_macro("global")
@ -216,7 +218,7 @@ void define_constants()
 	def_constant_spec( volatile, 	     ESpecifier::Volatile)
 	spec_local_persist = def_specifiers( 1, ESpecifier::Local_Persist );
-	spec_local_persist.set_global();
+	set_global(spec_local_persist);
 #	pragma pop_macro("forceinline")
 #	pragma pop_macro("global")
@ -224,6 +226,10 @@ void define_constants()
 #	pragma pop_macro("local_persist")
 #	pragma pop_macro("neverinline")
 #	pragma push_macro("enum_underlying")
 #	pragma pop_macro("enum_underlying")
 #	undef def_constant_spec
 }
@ -233,28 +239,27 @@ void init()
 	{
 		GlobalAllocator = AllocatorInfo { & Global_Allocator_Proc, nullptr };
-		Global_AllocatorBuckets = Array<Arena>::init_reserve( heap(), 128 );
+		Global_AllocatorBuckets = array_init_reserve<Arena>( heap(), 128 );
 		if ( Global_AllocatorBuckets == nullptr )
 			GEN_FATAL( "Failed to reserve memory for Global_AllocatorBuckets");
-		Arena bucket = Arena::init_from_allocator( heap(), Global_BucketSize );
+		Arena bucket = arena_init_from_allocator( heap(), Global_BucketSize );
 		if ( bucket.PhysicalStart == nullptr )
 			GEN_FATAL( "Failed to create first bucket for Global_AllocatorBuckets");
-		Global_AllocatorBuckets.append( bucket );
+		append( & Global_AllocatorBuckets, bucket );
 	}
 	// Setup the arrays
 	{
-		CodePools = Array<Pool>::init_reserve( Allocator_DataArrays, InitSize_DataArrays );
+		CodePools = array_init_reserve<Pool>( Allocator_DataArrays, InitSize_DataArrays );
 		if ( CodePools == nullptr )
 			GEN_FATAL( "gen::init: Failed to initialize the CodePools array" );
-		StringArenas = Array<Arena>::init_reserve( Allocator_DataArrays, InitSize_DataArrays );
+		StringArenas = array_init_reserve<Arena>( Allocator_DataArrays, InitSize_DataArrays );
 		if ( StringArenas == nullptr )
 			GEN_FATAL( "gen::init: Failed to initialize the StringArenas array" );
@ -262,92 +267,97 @@ void init()
 	// Setup the code pool and code entries arena.
 	{
-		Pool code_pool = Pool::init( Allocator_CodePool, CodePool_NumBlocks, sizeof(AST) );
+		Pool code_pool = pool_init( Allocator_CodePool, CodePool_NumBlocks, sizeof(AST) );
 		if ( code_pool.PhysicalStart == nullptr )
 			GEN_FATAL( "gen::init: Failed to initialize the code pool" );
-		CodePools.append( code_pool );
+		append( & CodePools, code_pool );
-		LexArena = Arena::init_from_allocator( Allocator_Lexer, LexAllocator_Size );
+		LexArena = arena_init_from_allocator( Allocator_Lexer, LexAllocator_Size );
-		Arena string_arena = Arena::init_from_allocator( Allocator_StringArena, SizePer_StringArena );
+		Arena string_arena = arena_init_from_allocator( Allocator_StringArena, SizePer_StringArena );
 		if ( string_arena.PhysicalStart == nullptr )
 			GEN_FATAL( "gen::init: Failed to initialize the string arena" );
-		StringArenas.append( string_arena );
+		append( & StringArenas, string_arena );
 	}
 	// Setup the hash tables
 	{
-		StringCache = StringTable::init( Allocator_StringTable );
+		StringCache = hashtable_init<StringCached>(Allocator_StringTable);
 		if ( StringCache.Entries == nullptr )
 			GEN_FATAL( "gen::init: Failed to initialize the StringCache");
 	}
 	// Preprocessor Defines
 	PreprocessorDefines = array_init_reserve<StringCached>( GlobalAllocator, kilobytes(1) );
 	define_constants();
-	init_parser();
+	parser::init();
 }
 void deinit()
 {
-	uw index = 0;
+	usize index = 0;
-	uw left  = CodePools.num();
+	usize left  = num(CodePools);
 	do
 	{
 		Pool* code_pool = & CodePools[index];
-		code_pool->free();
+		free(code_pool);
 		index++;
 	}
 	while ( left--, left );
 	index = 0;
-	left  = StringArenas.num();
+	left  = num(StringArenas);
 	do
 	{
 		Arena* string_arena = & StringArenas[index];
-		string_arena->free();
+		free(string_arena);
 		index++;
 	}
 	while ( left--, left );
-	StringCache.destroy();
+	destroy(& StringCache);
-	CodePools.free();
+	free( & CodePools);
-	StringArenas.free();
+	free( & StringArenas);
-	LexArena.free();
+	free(& LexArena);
 	free(& PreprocessorDefines);
 	index = 0;
-	left  = Global_AllocatorBuckets.num();
+	left  = num(Global_AllocatorBuckets);
 	do
 	{
 		Arena* bucket = & Global_AllocatorBuckets[ index ];
-		bucket->free();
+		free(bucket);
 		index++;
 	}
 	while ( left--, left );
-	Global_AllocatorBuckets.free();
+	free(Global_AllocatorBuckets);
-	deinit_parser();
+	parser::deinit();
 }
 void reset()
 {
 	s32 index = 0;
-	s32 left  = CodePools.num();
+	s32 left  = num(CodePools);
 	do
 	{
 		Pool* code_pool = & CodePools[index];
-		code_pool->clear();
+		clear(* code_pool);
 		index++;
 	}
 	while ( left--, left );
 	index = 0;
-	left  = StringArenas.num();
+	left  = num(StringArenas);
 	do
 	{
 		Arena* string_arena = & StringArenas[index];
@ -356,28 +366,28 @@ void reset()
 	}
 	while ( left--, left );
-	StringCache.clear();
+	clear(StringCache);
 	define_constants();
 }
 AllocatorInfo get_string_allocator( s32 str_length )
 {
-	Arena* last = & StringArenas.back();
+	Arena* last = back(& StringArenas);
-	uw size_req = str_length + sizeof(String::Header) + sizeof(char*);
+	usize size_req = str_length + sizeof(StringHeader) + sizeof(char*);
-	if ( last->TotalUsed + size_req > last->TotalSize )
+	if ( last->TotalUsed + ssize(size_req) > last->TotalSize )
 	{
-		Arena new_arena = Arena::init_from_allocator( Allocator_StringArena, SizePer_StringArena );
+		Arena new_arena = arena_init_from_allocator( Allocator_StringArena, SizePer_StringArena );
-		if ( ! StringArenas.append( new_arena ) )
+		if ( ! append( & StringArenas, new_arena ) )
 			GEN_FATAL( "gen::get_string_allocator: Failed to allocate a new string arena" );
-		last = & StringArenas.back();
+		last = back(& StringArenas);
 	}
-	return * last;
+	return allocator_info(last);
 }
 // Will either make or retrive a code string.
@ -386,14 +396,14 @@ StringCached get_cached_string( StrC str )
 	s32 hash_length = str.Len > kilobytes(1) ? kilobytes(1) : str.Len;
 	u64 key         = crc32( str.Ptr, hash_length );
 	{
-		StringCached* result = StringCache.get( key );
+		StringCached* result = get(StringCache, key );
 		if ( result )
 			return * result;
 	}
-	String result = String::make( get_string_allocator( str.Len ), str );
+	String result = string_make( get_string_allocator( str.Len ), str );
-	StringCache.set( key, result );
+	set<StringCached>(& StringCache, key, result );
 	return result;
 }
@ -401,33 +411,33 @@ StringCached get_cached_string( StrC str )
 // Used internally to retireve a Code object form the CodePool.
 Code make_code()
 {
-	Pool* allocator = & CodePools.back();
+	Pool* allocator = back( & CodePools);
 	if ( allocator->FreeList == nullptr )
 	{
-		Pool code_pool = Pool::init( Allocator_CodePool, CodePool_NumBlocks, sizeof(AST) );
+		Pool code_pool = pool_init( Allocator_CodePool, CodePool_NumBlocks, sizeof(AST) );
 		if ( code_pool.PhysicalStart == nullptr )
 			GEN_FATAL( "gen::make_code: Failed to allocate a new code pool - CodePool allcoator returned nullptr." );
-		if ( ! CodePools.append( code_pool ) )
+		if ( ! append( & CodePools, code_pool ) )
 			GEN_FATAL( "gen::make_code: Failed to allocate a new code pool - CodePools failed to append new pool." );
-		allocator = & CodePools.back();
+		allocator = back( & CodePools);
 	}
-	Code result { rcast( AST*, alloc( * allocator, sizeof(AST) )) };
+	Code result { rcast( AST*, alloc( allocator_info(allocator), sizeof(AST) )) };
-	// mem_set( result.ast, 0, sizeof(AST) );
+	mem_set( result.ast, 0, sizeof(AST) );
-	result->Type = ECode::Invalid;
+	// result->Type = ECode::Invalid;
-	result->Content     = { nullptr };
+	// result->Content     = { nullptr };
-	result->Prev        = { nullptr };
+	// result->Prev        = { nullptr };
-	result->Next        = { nullptr };
+	// result->Next        = { nullptr };
-	result->Token		= nullptr;
+	// result->Token		= nullptr;
-	result->Parent      = { nullptr };
+	// result->Parent      = { nullptr };
-	result->Name        = { nullptr };
+	// result->Name        = { nullptr };
-	result->Type        = ECode::Invalid;
+	// result->Type        = ECode::Invalid;
-	result->ModuleFlags = ModuleFlag::Invalid;
+	// result->ModuleFlags = ModuleFlag::Invalid;
-	result->NumEntries  = 0;
+	// result->NumEntries  = 0;
 	return result;
 }
--- a/project/components/interface.hpp
+++ b/project/components/interface.hpp
@ -29,7 +29,6 @@ StringCached get_cached_string( StrC str );
 Code make_code();
 // Set these before calling gen's init() procedure.
 // Data
 void set_allocator_data_arrays ( AllocatorInfo data_array_allocator );
 void set_allocator_code_pool   ( AllocatorInfo pool_allocator );
@ -45,9 +44,9 @@ CodeComment    def_comment   ( StrC content );
 CodeClass def_class( StrC name
 	, Code           body         = NoCode
-	, CodeType       parent       = NoCode, AccessSpec access = AccessSpec::Default
+	, CodeType       parent       = NoCode, AccessSpec access = AccessSpec_Default
 	, CodeAttributes attributes   = NoCode
-	, ModuleFlag     mflags       = ModuleFlag::None
+	, ModuleFlag     mflags       = ModuleFlag_None
 	, CodeType*      interfaces   = nullptr, s32 num_interfaces = 0 );
 CodeConstructor def_constructor( CodeParam params = NoCode, Code initializer_list = NoCode, Code body = NoCode );
@ -57,9 +56,9 @@ CodeDefine def_define( StrC name, StrC content );
 CodeDestructor def_destructor( Code body = NoCode, CodeSpecifiers specifiers = NoCode );
 CodeEnum def_enum( StrC name
-	, Code         body      = NoCode,      CodeType       type       = NoCode
+	, Code         body      = NoCode,           CodeType       type       = NoCode
-	, EnumT        specifier = EnumRegular, CodeAttributes attributes = NoCode
+	, EnumT        specifier = EnumDecl_Regular, CodeAttributes attributes = NoCode
-	, ModuleFlag   mflags    = ModuleFlag::None );
+	, ModuleFlag   mflags    = ModuleFlag_None );
 CodeExec   def_execution  ( StrC content );
 CodeExtern def_extern_link( StrC name, Code body );
@ -68,16 +67,16 @@ CodeFriend def_friend     ( Code symbol );
 CodeFn def_function( StrC name
 	, CodeParam      params     = NoCode, CodeType       ret_type   = NoCode, Code body = NoCode
 	, CodeSpecifiers specifiers = NoCode, CodeAttributes attributes = NoCode
-	, ModuleFlag mflags     = ModuleFlag::None );
+	, ModuleFlag mflags     = ModuleFlag_None );
 CodeInclude   def_include  ( StrC content, bool foreign = false );
-CodeModule    def_module   ( StrC name,            ModuleFlag mflags = ModuleFlag::None );
+CodeModule    def_module   ( StrC name,            ModuleFlag mflags = ModuleFlag_None );
-CodeNS        def_namespace( StrC name, Code body, ModuleFlag mflags = ModuleFlag::None );
+CodeNS        def_namespace( StrC name, Code body, ModuleFlag mflags = ModuleFlag_None );
 CodeOperator def_operator( OperatorT op, StrC nspace
 	, CodeParam      params     = NoCode, CodeType       ret_type   = NoCode, Code body = NoCode
 	, CodeSpecifiers specifiers = NoCode, CodeAttributes attributes = NoCode
-	, ModuleFlag     mflags     = ModuleFlag::None );
+	, ModuleFlag     mflags     = ModuleFlag_None );
 CodeOpCast def_operator_cast( CodeType type, Code body = NoCode, CodeSpecifiers specs = NoCode );
@ -90,27 +89,27 @@ CodeSpecifiers def_specifier( SpecifierT specifier );
 CodeStruct def_struct( StrC name
 	, Code           body       = NoCode
-	, CodeType       parent     = NoCode, AccessSpec access = AccessSpec::Default
+	, CodeType       parent     = NoCode, AccessSpec access = AccessSpec_Default
 	, CodeAttributes attributes = NoCode
-	, ModuleFlag     mflags     = ModuleFlag::None
+	, ModuleFlag     mflags     = ModuleFlag_None
 	, CodeType*      interfaces = nullptr, s32 num_interfaces = 0 );
-CodeTemplate def_template( CodeParam params, Code definition, ModuleFlag mflags = ModuleFlag::None );
+CodeTemplate def_template( CodeParam params, Code definition, ModuleFlag mflags = ModuleFlag_None );
 CodeType    def_type   ( StrC name, Code arrayexpr = NoCode, CodeSpecifiers specifiers = NoCode, CodeAttributes attributes = NoCode );
-CodeTypedef def_typedef( StrC name, Code type, CodeAttributes attributes = NoCode, ModuleFlag mflags = ModuleFlag::None );
+CodeTypedef def_typedef( StrC name, Code type, CodeAttributes attributes = NoCode, ModuleFlag mflags = ModuleFlag_None );
-CodeUnion def_union( StrC name, Code body, CodeAttributes attributes = NoCode, ModuleFlag mflags = ModuleFlag::None );
+CodeUnion def_union( StrC name, Code body, CodeAttributes attributes = NoCode, ModuleFlag mflags = ModuleFlag_None );
 CodeUsing def_using( StrC name, CodeType type = NoCode
 	, CodeAttributes attributess = NoCode
-	, ModuleFlag     mflags      = ModuleFlag::None );
+	, ModuleFlag     mflags      = ModuleFlag_None );
 CodeUsing def_using_namespace( StrC name );
 CodeVar def_variable( CodeType type, StrC name, Code value = NoCode
 	, CodeSpecifiers specifiers = NoCode, CodeAttributes attributes = NoCode
-	, ModuleFlag     mflags     = ModuleFlag::None );
+	, ModuleFlag     mflags     = ModuleFlag_None );
 // Constructs an empty body. Use AST::validate_body() to check if the body is was has valid entries.
 CodeBody def_body( CodeT type );
@ -145,6 +144,42 @@ CodeBody       def_union_body      ( s32 num, Code* codes );
 #pragma region Parsing
 // TODO(Ed) : Implmeent the new parser API design.
 #if 0
 namespace parser {
 	struct StackNode
 	{
 		StackNode* Prev;
 		Token Start;
 		Token Name;       // The name of the AST node (if parsed)
 		StrC  FailedProc; // The name of the procedure that failed
 	};
 	// Stack nodes are allocated the error's allocator
 	struct Error
 	{
 		String     message;
 		StackNode* context_stack;
 	};
 }
 struct ParseInfo
 {
 	Arena FileMem;
 	Arena TokMem;
 	Arena CodeMem;
 	FileContents         FileContent;
 	Array<parser::Token> Tokens;
 	Array<parser::Error> Errors;
 	// Errors are allocated to a dedicated general arena.
 };
 CodeBody parse_file( StrC path );
 #endif
 CodeClass       parse_class        ( StrC class_def       );
 CodeConstructor parse_constructor  ( StrC constructor_def );
 CodeDestructor  parse_destructor   ( StrC destructor_def  );
@ -169,9 +204,9 @@ CodeVar         parse_variable     ( StrC var_def         );
 #pragma region Untyped text
-sw   token_fmt_va( char* buf, uw buf_size, s32 num_tokens, va_list va );
+ssize   token_fmt_va( char* buf, usize buf_size, s32 num_tokens, va_list va );
 //! Do not use directly. Use the token_fmt macro instead.
-StrC token_fmt_impl( sw, ... );
+StrC token_fmt_impl( ssize, ... );
 Code untyped_str      ( StrC content);
 Code untyped_fmt      ( char const* fmt, ... );
--- a/project/components/interface.parsing.cpp
+++ b/project/components/interface.parsing.cpp
--- a/project/components/interface.untyped.cpp
+++ b/project/components/interface.untyped.cpp
@ -3,10 +3,10 @@
 #include "interface.parsing.cpp"
 #endif
-sw token_fmt_va( char* buf, uw buf_size, s32 num_tokens, va_list va )
+ssize token_fmt_va( char* buf, usize buf_size, s32 num_tokens, va_list va )
 {
 	char const* buf_begin = buf;
-	sw          remaining = buf_size;
+	ssize       remaining = buf_size;
 	local_persist
 	Arena tok_map_arena;
@ -16,8 +16,8 @@ sw token_fmt_va( char* buf, uw buf_size, s32 num_tokens, va_list va )
 		local_persist
 		char tok_map_mem[ TokenFmt_TokenMap_MemSize ];
-		tok_map_arena = Arena::init_from_memory( tok_map_mem, sizeof(tok_map_mem) );
+		tok_map_arena = arena_init_from_memory( tok_map_mem, sizeof(tok_map_mem) );
-		tok_map       = HashTable<StrC>::init( tok_map_arena );
+		tok_map       = hashtable_init<StrC>( allocator_info(& tok_map_arena) );
 		s32 left = num_tokens - 1;
@ -27,8 +27,7 @@ sw token_fmt_va( char* buf, uw buf_size, s32 num_tokens, va_list va )
 			StrC        value = va_arg( va, StrC );
 			u32 key = crc32( token, str_len(token) );
-
+			set(& tok_map, key, value );
 			tok_map.set( key, value );
 		}
 	}
@ -37,7 +36,7 @@ sw token_fmt_va( char* buf, uw buf_size, s32 num_tokens, va_list va )
 	while ( current )
 	{
-		sw len = 0;
+		ssize len = 0;
 		while ( current && current != '<' && remaining )
 		{
@ -64,11 +63,11 @@ sw token_fmt_va( char* buf, uw buf_size, s32 num_tokens, va_list va )
 			char const* token = fmt + 1;
 			u32       key   = crc32( token, tok_len );
-			StrC*     value = tok_map.get( key );
+			StrC*     value = get(tok_map, key );
 			if ( value )
 			{
-				sw          left = value->Len;
+				ssize          left = value->Len;
 				char const* str  = value->Ptr;
 				while ( left-- )
@ -94,10 +93,10 @@ sw token_fmt_va( char* buf, uw buf_size, s32 num_tokens, va_list va )
 		}
 	}
-	tok_map.clear();
+	clear(tok_map);
-	tok_map_arena.free();
+	free(& tok_map_arena);
-	sw result = buf_size - remaining;
+	ssize result = buf_size - remaining;
 	return result;
 }
@ -107,7 +106,7 @@ Code untyped_str( StrC content )
 	if ( content.Len == 0 )
 	{
 		log_failure( "untyped_str: empty string" );
-		return CodeInvalid;
+		return InvalidCode;
 	}
 	Code
@ -119,7 +118,7 @@ Code untyped_str( StrC content )
 	if ( result->Name == nullptr )
 	{
 		log_failure( "untyped_str: could not cache string" );
-		return CodeInvalid;
+		return InvalidCode;
 	}
 	return result;
@ -130,7 +129,7 @@ Code untyped_fmt( char const* fmt, ...)
 	if ( fmt == nullptr )
 	{
 		log_failure( "untyped_fmt: null format string" );
-		return CodeInvalid;
+		return InvalidCode;
 	}
 	local_persist thread_local
@ -138,7 +137,7 @@ Code untyped_fmt( char const* fmt, ...)
 	va_list va;
 	va_start(va, fmt);
-	sw length = str_fmt_va(buf, GEN_PRINTF_MAXLEN, fmt, va);
+	ssize length = str_fmt_va(buf, GEN_PRINTF_MAXLEN, fmt, va);
 	va_end(va);
 	Code
@ -150,7 +149,7 @@ Code untyped_fmt( char const* fmt, ...)
 	if ( result->Name == nullptr )
 	{
 		log_failure( "untyped_fmt: could not cache string" );
-		return CodeInvalid;
+		return InvalidCode;
 	}
 	return result;
@ -161,7 +160,7 @@ Code untyped_token_fmt( s32 num_tokens, ... )
 	if ( num_tokens == 0 )
 	{
 		log_failure( "untyped_token_fmt: zero tokens" );
-		return CodeInvalid;
+		return InvalidCode;
 	}
 	local_persist thread_local
@ -169,7 +168,7 @@ Code untyped_token_fmt( s32 num_tokens, ... )
 	va_list va;
 	va_start(va, num_tokens);
-	sw length = token_fmt_va(buf, GEN_PRINTF_MAXLEN, num_tokens, va);
+	ssize length = token_fmt_va(buf, GEN_PRINTF_MAXLEN, num_tokens, va);
 	va_end(va);
 	Code
@ -181,7 +180,7 @@ Code untyped_token_fmt( s32 num_tokens, ... )
 	if ( result->Name == nullptr )
 	{
 		log_failure( "untyped_fmt: could not cache string" );
-		return CodeInvalid;
+		return InvalidCode;
 	}
 	return result;
--- a/project/components/interface.upfront.cpp
+++ b/project/components/interface.upfront.cpp
--- a/project/components/lexer.cpp
+++ b/project/components/lexer.cpp
--- a/project/components/parser.cpp
+++ b/project/components/parser.cpp
--- a/project/components/src_start.cpp
+++ b/project/components/src_start.cpp
@ -9,4 +9,3 @@
 #ifndef GEN_ROLL_OWN_DEPENDENCIES
 #	include "gen.dep.cpp"
 #endif
--- a/project/components/static_data.cpp
+++ b/project/components/static_data.cpp
@ -9,6 +9,7 @@
 global AllocatorInfo  GlobalAllocator;
 global Array<Arena>   Global_AllocatorBuckets;
 // TODO(Ed) : Make the code pool a dynamic arena
 global Array< Pool >  CodePools         = { nullptr };
 global Array< Arena > StringArenas      = { nullptr };
@ -81,6 +82,8 @@ global CodeType t_wchar_t;
 global CodeType t_class;
 global CodeType t_typename;
 global Array< StringCached > PreprocessorDefines;
 #ifdef GEN_DEFINE_LIBRARY_CODE_CONSTANTS
 global CodeType t_b32;
@ -94,8 +97,8 @@ global CodeType t_u16;
 global CodeType t_u32;
 global CodeType t_u64;
-global CodeType t_sw;
+global CodeType t_ssize;
-global CodeType t_uw;
+global CodeType t_usize;
 global CodeType t_f32;
 global CodeType t_f64;
--- a/project/components/types.hpp
+++ b/project/components/types.hpp
@ -3,7 +3,7 @@
 #include "header_start.hpp"
 #endif
-using LogFailType = sw(*)(char const*, ...);
+using LogFailType = ssize(*)(char const*, ...);
 // By default this library will either crash or exit if an error is detected while generating codes.
 // Even if set to not use GEN_FATAL, GEN_FATAL will still be used for memory failures as the library is unusable when they occur.
@ -13,63 +13,73 @@ using LogFailType = sw(*)(char const*, ...);
 	#define log_failure GEN_FATAL
 #endif
-enum class AccessSpec : u32
+enum AccessSpec enum_underlying(u32)
 {
-	Default,
+	AccessSpec_Default,
-	Public,
+	AccessSpec_Private,
-	Protected,
+	AccessSpec_Protected,
-	Private,
+	AccessSpec_Public,
-	Num_AccessSpec,
+	AccessSpec_Num_AccessSpec,
-	Invalid,
+	AccessSpec_Invalid,
 	AccessSpec_SizeDef = GEN_U32_MAX,
 };
 static_assert( size_of(AccessSpec) == size_of(u32), "AccessSpec not u32 size" );
 inline
 char const* to_str( AccessSpec type )
 {
 	local_persist
-	char const* lookup[ (u32)AccessSpec::Num_AccessSpec ] = {
+	char const* lookup[ (u32)AccessSpec_Num_AccessSpec ] = {
 		"",
 		"public",
 		"protected",
 		"private",
 		"protected",
 		"public",
 	};
-	if ( type > AccessSpec::Public )
+	if ( type > AccessSpec_Public )
 		return "Invalid";
 	return lookup[ (u32)type ];
 }
-
+enum CodeFlag enum_underlying(u32)
 enum CodeFlag : u32
 {
-	FunctionType  = bit(0),
+	CodeFlag_None          = 0,
-	ParamPack     = bit(1),
+	CodeFlag_FunctionType  = bit(0),
-	Module_Export = bit(2),
+	CodeFlag_ParamPack     = bit(1),
-	Module_Import = bit(3),
+	CodeFlag_Module_Export = bit(2),
 	CodeFlag_Module_Import = bit(3),
 	CodeFlag_SizeDef = GEN_U32_MAX,
 };
 static_assert( size_of(CodeFlag) == size_of(u32), "CodeFlag not u32 size" );
 // Used to indicate if enum definitoin is an enum class or regular enum.
-enum class EnumT : u8
+enum EnumDecl enum_underlying(u8)
 {
-	Regular,
+	EnumDecl_Regular,
-	Class
+	EnumDecl_Class,
 	EnumT_SizeDef = GEN_U8_MAX,
 };
 typedef u8 EnumT;
-constexpr EnumT EnumClass   = EnumT::Class;
+enum ModuleFlag enum_underlying(u32)
 constexpr EnumT EnumRegular = EnumT::Regular;
 enum class ModuleFlag : u32
 {
-	None    = 0,
+	ModuleFlag_None    = 0,
-	Export  = bit(0),
+	ModuleFlag_Export  = bit(0),
-	Import  = bit(1),
+	ModuleFlag_Import  = bit(1),
 	Num_ModuleFlags,
-	Invalid,
+	ModuleFlag_Invalid,
 };
 	ModuleFlag_SizeDef = GEN_U32_MAX,
 };
 static_assert( size_of(ModuleFlag) == size_of(u32), "ModuleFlag not u32 size" );
 inline
 StrC to_str( ModuleFlag flag )
 {
 	local_persist
@ -79,26 +89,25 @@ StrC to_str( ModuleFlag flag )
 		{ sizeof("import"), "import" },
 	};
-	if ( flag > ModuleFlag::Import )
+	if ( flag > ModuleFlag_Import )
 		return { sizeof("invalid"), "invalid" };
 	return lookup[ (u32)flag ];
 }
 inline
 ModuleFlag operator|( ModuleFlag A, ModuleFlag B)
 {
 	return (ModuleFlag)( (u32)A | (u32)B );
 }
-enum class EPreprocessCond : u32
+enum EPreprocessCond enum_underlying(u32)
 {
-	If,
+	PreprocessCond_If,
-	IfDef,
+	PreprocessCond_IfDef,
-	IfNotDef,
+	PreprocessCond_IfNotDef,
-	ElIf
+	PreprocessCond_ElIf,
 };
-constexpr EPreprocessCond PreprocessCond_If       = EPreprocessCond::If;
+	EPreprocessCond_SizeDef = GEN_U32_MAX,
-constexpr EPreprocessCond PreprocessCond_IfDef    = EPreprocessCond::IfDef;
+};
-constexpr EPreprocessCond PreprocessCond_IfNotDef = EPreprocessCond::IfNotDef;
+static_assert( size_of(EPreprocessCond) == size_of(u32), "EPreprocessCond not u32 size" );
 constexpr EPreprocessCond PreprocessCond_ElIf     = EPreprocessCond::ElIf;
--- a/project/dependencies/basic_types.hpp
+++ b/project/dependencies/basic_types.hpp
@ -1,5 +1,6 @@
 #ifdef GEN_INTELLISENSE_DIRECTIVES
 #	pragma once
 #	include "platform.hpp"
 #	include "macros.hpp"
 #endif
@ -47,21 +48,21 @@
 #if defined( GEN_COMPILER_MSVC )
 #	if _MSC_VER < 1300
 typedef unsigned char  u8;
-typedef signed char    s8;
+typedef signed   char  s8;
 typedef unsigned short u16;
-typedef signed short   s16;
+typedef signed   short s16;
 typedef unsigned int   u32;
-typedef signed int     s32;
+typedef signed   int   s32;
 #    else
 typedef unsigned __int8  u8;
-typedef signed __int8    s8;
+typedef signed   __int8  s8;
 typedef unsigned __int16 u16;
-typedef signed __int16   s16;
+typedef signed   __int16 s16;
 typedef unsigned __int32 u32;
-typedef signed __int32   s32;
+typedef signed   __int32 s32;
 #    endif
 typedef unsigned __int64 u64;
-typedef signed __int64   s64;
+typedef signed   __int64 s64;
 #else
 #	include <stdint.h>
@ -85,10 +86,10 @@ static_assert( sizeof( u16 ) == 2, "sizeof(u16) != 2" );
 static_assert( sizeof( u32 ) == 4, "sizeof(u32) != 4" );
 static_assert( sizeof( u64 ) == 8, "sizeof(u64) != 8" );
-typedef size_t    uw;
+typedef size_t    usize;
-typedef ptrdiff_t sw;
+typedef ptrdiff_t ssize;
-static_assert( sizeof( uw ) == sizeof( sw ), "sizeof(uw) != sizeof(sw)" );
+static_assert( sizeof( usize ) == sizeof( ssize ), "sizeof(usize) != sizeof(ssize)" );
 // NOTE: (u)zpl_intptr is only here for semantic reasons really as this library will only support 32/64 bit OSes.
 #if defined( _WIN64 )
@ -122,4 +123,21 @@ typedef s8  b8;
 typedef s16 b16;
 typedef s32 b32;
 typedef void*       mem_ptr;
 typedef void const* mem_ptr_const ;
 #if ! GEN_COMPILER_C
 template<typename Type> uptr to_uptr( Type* ptr ) { return (uptr)ptr; }
 template<typename Type> sptr to_sptr( Type* ptr ) { return (sptr)ptr; }
 template<typename Type> mem_ptr       to_mem_ptr      ( Type ptr ) { return (mem_ptr)      ptr; }
 template<typename Type> mem_ptr_const to_mem_ptr_const( Type ptr ) { return (mem_ptr_const)ptr; }
 #else
 #define to_utpr( ptr ) ((uptr)(ptr))
 #define to_stpr( ptr ) ((sptr)(ptr))
 #define to_mem_ptr( ptr)       ((mem_ptr)ptr)
 #define to_mem_ptr_const( ptr) ((mem_ptr)ptr)
 #endif
 #pragma endregion Basic Types
--- a/project/dependencies/containers.hpp
+++ b/project/dependencies/containers.hpp
--- a/project/dependencies/debug.hpp
+++ b/project/dependencies/debug.hpp
@ -24,7 +24,7 @@
 	{                                                                                        \
 		if ( ! ( cond ) )                                                                    \
 		{                                                                                    \
-			assert_handler( #cond, __FILE__, zpl_cast( s64 ) __LINE__, msg, ##__VA_ARGS__ ); \
+			assert_handler( #cond, __FILE__, scast( s64, __LINE__ ), msg, ##__VA_ARGS__ );   \
 			GEN_DEBUG_TRAP();                                                                \
 		}                                                                                    \
 	} while ( 0 )
@ -34,18 +34,14 @@
 // NOTE: Things that shouldn't happen with a message!
 #define GEN_PANIC( msg, ... ) GEN_ASSERT_MSG( 0, msg, ##__VA_ARGS__ )
 void assert_handler( char const* condition, char const* file, s32 line, char const* msg, ... );
 s32  assert_crash( char const* condition );
 void process_exit( u32 code );
 #if Build_Debug
 	#define GEN_FATAL( ... )                               \
 	do                                                     \
 	{                                                      \
 		local_persist thread_local                         \
 		char buf[GEN_PRINTF_MAXLEN] = { 0 };               \
-													       \
+		                                                   \
-		str_fmt(buf, GEN_PRINTF_MAXLEN, __VA_ARGS__); \
+		str_fmt(buf, GEN_PRINTF_MAXLEN, __VA_ARGS__);      \
 		GEN_PANIC(buf);                                    \
 	}                                                      \
 	while (0)
@ -53,11 +49,15 @@ void process_exit( u32 code );
 #	define GEN_FATAL( ... )                  \
 	do                                       \
-	{										 \
+	{                                        \
 		str_fmt_out_err( __VA_ARGS__ );      \
 		process_exit(1);                     \
-	}             					         \
+	}                                        \
 	while (0)
 #endif
 void assert_handler( char const* condition, char const* file, s32 line, char const* msg, ... );
 s32  assert_crash( char const* condition );
 void process_exit( u32 code );
 #pragma endregion Debug
--- a/project/dependencies/filesystem.cpp
+++ b/project/dependencies/filesystem.cpp
@ -7,10 +7,11 @@
 #if defined( GEN_SYSTEM_WINDOWS ) || defined( GEN_SYSTEM_CYGWIN )
-internal wchar_t* _alloc_utf8_to_ucs2( AllocatorInfo a, char const* text, sw* w_len_ )
+internal
 wchar_t* _alloc_utf8_to_ucs2( AllocatorInfo a, char const* text, ssize* w_len_ )
 {
 	wchar_t* w_text = NULL;
-	sw       len = 0, w_len = 0, w_len1 = 0;
+	ssize       len = 0, w_len = 0, w_len1 = 0;
 	if ( text == NULL )
 	{
 		if ( w_len_ )
@ -24,7 +25,7 @@ internal wchar_t* _alloc_utf8_to_ucs2( AllocatorInfo a, char const* text, sw* w_
 			*w_len_ = w_len;
 		return NULL;
 	}
-	w_len = MultiByteToWideChar( CP_UTF8, MB_ERR_INVALID_CHARS, text, zpl_cast( int ) len, NULL, 0 );
+	w_len = MultiByteToWideChar( CP_UTF8, MB_ERR_INVALID_CHARS, text, scast( int, len), NULL, 0 );
 	if ( w_len == 0 )
 	{
 		if ( w_len_ )
@ -32,7 +33,7 @@ internal wchar_t* _alloc_utf8_to_ucs2( AllocatorInfo a, char const* text, sw* w_
 		return NULL;
 	}
 	w_text = alloc_array( a, wchar_t, w_len + 1 );
-	w_len1 = MultiByteToWideChar( CP_UTF8, MB_ERR_INVALID_CHARS, text, zpl_cast( int ) len, w_text, zpl_cast( int ) w_len );
+	w_len1 = MultiByteToWideChar( CP_UTF8, MB_ERR_INVALID_CHARS, text, scast( int, len), w_text, scast( int, w_len) );
 	if ( w_len1 == 0 )
 	{
 		free( a, w_text );
@ -46,7 +47,8 @@ internal wchar_t* _alloc_utf8_to_ucs2( AllocatorInfo a, char const* text, sw* w_
 	return w_text;
 }
-internal GEN_FILE_SEEK_PROC( _win32_file_seek )
+internal
 GEN_FILE_SEEK_PROC( _win32_file_seek )
 {
 	LARGE_INTEGER li_offset;
 	li_offset.QuadPart = offset;
@ -60,12 +62,13 @@ internal GEN_FILE_SEEK_PROC( _win32_file_seek )
 	return true;
 }
-internal GEN_FILE_READ_AT_PROC( _win32_file_read )
+internal
 GEN_FILE_READ_AT_PROC( _win32_file_read )
 {
 	// unused( stop_at_newline );
 	b32 result = false;
 	_win32_file_seek( fd, offset, ESeekWhence_BEGIN, NULL );
-	DWORD size_ = zpl_cast( DWORD )( size > GEN_I32_MAX ? GEN_I32_MAX : size );
+	DWORD size_ = scast( DWORD, ( size > GEN_I32_MAX ? GEN_I32_MAX : size ));
 	DWORD bytes_read_;
 	if ( ReadFile( fd.p, buffer, size_, &bytes_read_, NULL ) )
 	{
@ -77,9 +80,10 @@ internal GEN_FILE_READ_AT_PROC( _win32_file_read )
 	return result;
 }
-internal GEN_FILE_WRITE_AT_PROC( _win32_file_write )
+internal
 GEN_FILE_WRITE_AT_PROC( _win32_file_write )
 {
-	DWORD size_ = zpl_cast( DWORD )( size > GEN_I32_MAX ? GEN_I32_MAX : size );
+	DWORD size_ = scast( DWORD, ( size > GEN_I32_MAX ? GEN_I32_MAX : size ));
 	DWORD bytes_written_;
 	_win32_file_seek( fd, offset, ESeekWhence_BEGIN, NULL );
 	if ( WriteFile( fd.p, buffer, size_, &bytes_written_, NULL ) )
@ -91,14 +95,16 @@ internal GEN_FILE_WRITE_AT_PROC( _win32_file_write )
 	return false;
 }
-internal GEN_FILE_CLOSE_PROC( _win32_file_close )
+internal
 GEN_FILE_CLOSE_PROC( _win32_file_close )
 {
 	CloseHandle( fd.p );
 }
 FileOperations const default_file_operations = { _win32_file_read, _win32_file_write, _win32_file_seek, _win32_file_close };
-neverinline GEN_FILE_OPEN_PROC( _win32_file_open )
+neverinline
 GEN_FILE_OPEN_PROC( _win32_file_open )
 {
 	DWORD    desired_access;
 	DWORD    creation_disposition;
@ -176,7 +182,8 @@ neverinline GEN_FILE_OPEN_PROC( _win32_file_open )
 #else    // POSIX
 #	include <fcntl.h>
-internal GEN_FILE_SEEK_PROC( _posix_file_seek )
+internal
 GEN_FILE_SEEK_PROC( _posix_file_seek )
 {
 #	if defined( GEN_SYSTEM_OSX )
 	s64 res = lseek( fd.i, offset, whence );
@ -190,10 +197,11 @@ internal GEN_FILE_SEEK_PROC( _posix_file_seek )
 	return true;
 }
-internal GEN_FILE_READ_AT_PROC( _posix_file_read )
+internal
 GEN_FILE_READ_AT_PROC( _posix_file_read )
 {
 	unused( stop_at_newline );
-	sw res = pread( fd.i, buffer, size, offset );
+	ssize res = pread( fd.i, buffer, size, offset );
 	if ( res < 0 )
 		return false;
 	if ( bytes_read )
@ -201,19 +209,20 @@ internal GEN_FILE_READ_AT_PROC( _posix_file_read )
 	return true;
 }
-internal GEN_FILE_WRITE_AT_PROC( _posix_file_write )
+internal
 GEN_FILE_WRITE_AT_PROC( _posix_file_write )
 {
-	sw  res;
+	ssize  res;
 	s64 curr_offset = 0;
 	_posix_file_seek( fd, 0, ESeekWhence_CURRENT, &curr_offset );
 	if ( curr_offset == offset )
 	{
 		// NOTE: Writing to stdout et al. doesn't like pwrite for numerous reasons
-		res = write( zpl_cast( int ) fd.i, buffer, size );
+		res = write( scast( int, fd.i), buffer, size );
 	}
 	else
 	{
-		res = pwrite( zpl_cast( int ) fd.i, buffer, size, offset );
+		res = pwrite( scast( int, fd.i), buffer, size, offset );
 	}
 	if ( res < 0 )
 		return false;
@ -222,14 +231,16 @@ internal GEN_FILE_WRITE_AT_PROC( _posix_file_write )
 	return true;
 }
-internal GEN_FILE_CLOSE_PROC( _posix_file_close )
+internal
 GEN_FILE_CLOSE_PROC( _posix_file_close )
 {
 	close( fd.i );
 }
 FileOperations const default_file_operations = { _posix_file_read, _posix_file_write, _posix_file_seek, _posix_file_close };
-neverinline GEN_FILE_OPEN_PROC( _posix_file_open )
+neverinline
 GEN_FILE_OPEN_PROC( _posix_file_open )
 {
 	s32 os_mode;
 	switch ( mode & GEN_FILE_MODES )
@ -292,7 +303,7 @@ FileInfo* file_get_standard( FileStandardType std )
 	if ( ! _std_file_set )
 	{
 #	define GEN__SET_STD_FILE( type, v ) \
-		_std_files[ type ].fd.p = v;     \
+		_std_files[ type ].fd.p = v;    \
 		_std_files[ type ].ops  = default_file_operations
 		GEN__SET_STD_FILE( EFileStandard_INPUT, GetStdHandle( STD_INPUT_HANDLE ) );
 		GEN__SET_STD_FILE( EFileStandard_OUTPUT, GetStdHandle( STD_OUTPUT_HANDLE ) );
@ -329,7 +340,7 @@ FileError file_close( FileInfo* f )
 		return EFileError_INVALID;
 	if ( f->filename )
-		free( heap(), zpl_cast( char* ) f->filename );
+		free( heap(), ccast( char*, f->filename ));
 #if defined( GEN_SYSTEM_WINDOWS )
 	if ( f->fd.p == INVALID_HANDLE_VALUE )
@ -364,14 +375,14 @@ FileError file_close( FileInfo* f )
 FileError file_new( FileInfo* f, FileDescriptor fd, FileOperations ops, char const* filename )
 {
 	FileError err = EFileError_NONE;
-	sw        len = str_len( filename );
+	ssize        len = str_len( filename );
 	f->ops             = ops;
 	f->fd              = fd;
 	f->dir             = nullptr;
 	f->last_write_time = 0;
 	f->filename        = alloc_array( heap(), char, len + 1 );
-	mem_copy( zpl_cast( char* ) f->filename, zpl_cast( char* ) filename, len + 1 );
+	mem_copy( ccast( char*, f->filename), ccast( char*, filename), len + 1 );
 	return err;
 }
@ -430,7 +441,7 @@ FileContents file_read_contents( AllocatorInfo a, b32 zero_terminate, char const
 	if ( file_open( &file, filepath ) == EFileError_NONE )
 	{
-		sw fsize = zpl_cast( sw ) file_size( &file );
+		ssize fsize = scast( ssize , file_size( &file ));
 		if ( fsize > 0 )
 		{
 			result.data = alloc( a, zero_terminate ? fsize + 1 : fsize );
@ -438,7 +449,7 @@ FileContents file_read_contents( AllocatorInfo a, b32 zero_terminate, char const
 			file_read_at( &file, result.data, result.size, 0 );
 			if ( zero_terminate )
 			{
-				u8* str      = zpl_cast( u8* ) result.data;
+				u8* str      = rcast( u8*, result.data);
 				str[ fsize ] = '\0';
 			}
 		}
@ -452,26 +463,28 @@ struct _memory_fd
 {
 	u8            magic;
 	u8*           buf;    //< zpl_array OR plain buffer if we can't write
-	sw            cursor;
+	ssize         cursor;
 	AllocatorInfo allocator;
 	FileStreamFlags flags;
-	sw              cap;
+	ssize           cap;
 };
 #define GEN__FILE_STREAM_FD_MAGIC 37
-GEN_DEF_INLINE FileDescriptor _file_stream_fd_make( _memory_fd* d );
+FileDescriptor _file_stream_fd_make( _memory_fd* d );
-GEN_DEF_INLINE _memory_fd*    _file_stream_from_fd( FileDescriptor fd );
+_memory_fd*    _file_stream_from_fd( FileDescriptor fd );
-GEN_IMPL_INLINE FileDescriptor _file_stream_fd_make( _memory_fd* d )
+inline
 FileDescriptor _file_stream_fd_make( _memory_fd* d )
 {
 	FileDescriptor fd = { 0 };
 	fd.p              = ( void* )d;
 	return fd;
 }
-GEN_IMPL_INLINE _memory_fd* _file_stream_from_fd( FileDescriptor fd )
+inline
 _memory_fd* _file_stream_from_fd( FileDescriptor fd )
 {
 	_memory_fd* d = ( _memory_fd* )fd.p;
 	GEN_ASSERT( d->magic == GEN__FILE_STREAM_FD_MAGIC );
@ -492,7 +505,7 @@ b8 file_stream_new( FileInfo* file, AllocatorInfo allocator )
 	d->allocator = allocator;
 	d->flags     = EFileStream_CLONE_WRITABLE;
 	d->cap       = 0;
-	d->buf       = Array<u8>::init( allocator );
+	d->buf       = array_init<u8>( allocator );
 	if ( ! d->buf )
 		return false;
@ -506,7 +519,7 @@ b8 file_stream_new( FileInfo* file, AllocatorInfo allocator )
 	return true;
 }
-b8 file_stream_open( FileInfo* file, AllocatorInfo allocator, u8* buffer, sw size, FileStreamFlags flags )
+b8 file_stream_open( FileInfo* file, AllocatorInfo allocator, u8* buffer, ssize size, FileStreamFlags flags )
 {
 	GEN_ASSERT_NOT_NULL( file );
 	_memory_fd* d = ( _memory_fd* )alloc( allocator, size_of( _memory_fd ) );
@ -518,7 +531,7 @@ b8 file_stream_open( FileInfo* file, AllocatorInfo allocator, u8* buffer, sw siz
 	d->flags     = flags;
 	if ( d->flags & EFileStream_CLONE_WRITABLE )
 	{
-		Array<u8> arr = Array<u8>::init_reserve( allocator, size );
+		Array<u8> arr = array_init_reserve<u8>( allocator, size );
 		d->buf = arr;
 		if ( ! d->buf )
@ -527,7 +540,7 @@ b8 file_stream_open( FileInfo* file, AllocatorInfo allocator, u8* buffer, sw siz
 		mem_copy( d->buf, buffer, size );
 		d->cap = size;
-		arr.get_header()->Num = size;
+		get_header(arr)->Num = size;
 	}
 	else
 	{
@ -543,7 +556,7 @@ b8 file_stream_open( FileInfo* file, AllocatorInfo allocator, u8* buffer, sw siz
 	return true;
 }
-u8* file_stream_buf( FileInfo* file, sw* size )
+u8* file_stream_buf( FileInfo* file, ssize* size )
 {
 	GEN_ASSERT_NOT_NULL( file );
 	_memory_fd* d = _file_stream_from_fd( file->fd );
@ -552,10 +565,11 @@ u8* file_stream_buf( FileInfo* file, sw* size )
 	return d->buf;
 }
-internal GEN_FILE_SEEK_PROC( _memory_file_seek )
+internal
 GEN_FILE_SEEK_PROC( _memory_file_seek )
 {
 	_memory_fd* d      = _file_stream_from_fd( fd );
-	sw          buflen = d->cap;
+	ssize          buflen = d->cap;
 	if ( whence == ESeekWhence_BEGIN )
 		d->cursor = 0;
@ -568,7 +582,8 @@ internal GEN_FILE_SEEK_PROC( _memory_file_seek )
 	return true;
 }
-internal GEN_FILE_READ_AT_PROC( _memory_file_read )
+internal
 GEN_FILE_READ_AT_PROC( _memory_file_read )
 {
 	// unused( stop_at_newline );
 	_memory_fd* d = _file_stream_from_fd( fd );
@ -578,25 +593,26 @@ internal GEN_FILE_READ_AT_PROC( _memory_file_read )
 	return true;
 }
-internal GEN_FILE_WRITE_AT_PROC( _memory_file_write )
+internal
 GEN_FILE_WRITE_AT_PROC( _memory_file_write )
 {
 	_memory_fd* d = _file_stream_from_fd( fd );
 	if ( ! ( d->flags & ( EFileStream_CLONE_WRITABLE | EFileStream_WRITABLE ) ) )
 		return false;
-	sw buflen   = d->cap;
+	ssize buflen   = d->cap;
-	sw extralen = max( 0, size - ( buflen - offset ) );
+	ssize extralen = max( 0, size - ( buflen - offset ) );
-	sw rwlen    = size - extralen;
+	ssize rwlen    = size - extralen;
-	sw new_cap  = buflen + extralen;
+	ssize new_cap  = buflen + extralen;
 	if ( d->flags & EFileStream_CLONE_WRITABLE )
 	{
 		Array<u8> arr = { d->buf };
-		if ( arr.get_header()->Capacity < new_cap )
+		if ( get_header(arr)->Capacity < usize(new_cap) )
 		{
-			if ( ! arr.grow( ( s64 )( new_cap ) ) )
+			if ( ! grow( & arr, ( s64 )( new_cap ) ) )
 				return false;
 			d->buf = arr;
 		}
@ -610,7 +626,7 @@ internal GEN_FILE_WRITE_AT_PROC( _memory_file_write )
 		mem_copy( d->buf + offset + rwlen, pointer_add_const( buffer, rwlen ), extralen );
 		d->cap = new_cap;
-		arr.get_header()->Capacity = new_cap;
+		get_header(arr)->Capacity = new_cap;
 	}
 	else
 	{
@ -622,7 +638,8 @@ internal GEN_FILE_WRITE_AT_PROC( _memory_file_write )
 	return true;
 }
-internal GEN_FILE_CLOSE_PROC( _memory_file_close )
+internal
 GEN_FILE_CLOSE_PROC( _memory_file_close )
 {
 	_memory_fd*   d         = _file_stream_from_fd( fd );
 	AllocatorInfo allocator = d->allocator;
@ -630,7 +647,7 @@ internal GEN_FILE_CLOSE_PROC( _memory_file_close )
 	if ( d->flags & EFileStream_CLONE_WRITABLE )
 	{
 		Array<u8> arr = { d->buf };
-		arr.free();
+		free(& arr);
 	}
 	free( allocator, d );
--- a/project/dependencies/filesystem.hpp
+++ b/project/dependencies/filesystem.hpp
@ -48,8 +48,8 @@ union FileDescriptor
 typedef struct FileOperations FileOperations;
 #define GEN_FILE_OPEN_PROC( name )     FileError name( FileDescriptor* fd, FileOperations* ops, FileMode mode, char const* filename )
-#define GEN_FILE_READ_AT_PROC( name )  b32 name( FileDescriptor fd, void* buffer, sw size, s64 offset, sw* bytes_read, b32 stop_at_newline )
+#define GEN_FILE_READ_AT_PROC( name )  b32 name( FileDescriptor fd, void* buffer, ssize size, s64 offset, ssize* bytes_read, b32 stop_at_newline )
-#define GEN_FILE_WRITE_AT_PROC( name ) b32 name( FileDescriptor fd, void const* buffer, sw size, s64 offset, sw* bytes_written )
+#define GEN_FILE_WRITE_AT_PROC( name ) b32 name( FileDescriptor fd, void const* buffer, ssize size, s64 offset, ssize* bytes_written )
 #define GEN_FILE_SEEK_PROC( name )     b32 name( FileDescriptor fd, s64 offset, SeekWhenceType whence, s64* new_offset )
 #define GEN_FILE_CLOSE_PROC( name )    void name( FileDescriptor fd )
@ -161,7 +161,7 @@ FileError file_open_mode( FileInfo* file, FileMode mode, char const* filename );
 	* @param  buffer Buffer to read to
 	* @param  size   Size to read
 	*/
-GEN_DEF_INLINE b32 file_read( FileInfo* file, void* buffer, sw size );
+b32 file_read( FileInfo* file, void* buffer, ssize size );
 /**
 	* Reads file at a specific offset
@ -171,7 +171,7 @@ GEN_DEF_INLINE b32 file_read( FileInfo* file, void* buffer, sw size );
 	* @param  offset     Offset to read from
 	* @param  bytes_read How much data we've actually read
 	*/
-GEN_DEF_INLINE b32 file_read_at( FileInfo* file, void* buffer, sw size, s64 offset );
+b32 file_read_at( FileInfo* file, void* buffer, ssize size, s64 offset );
 /**
 	* Reads file safely
@ -181,13 +181,13 @@ GEN_DEF_INLINE b32 file_read_at( FileInfo* file, void* buffer, sw size, s64 offs
 	* @param  offset     Offset to read from
 	* @param  bytes_read How much data we've actually read
 	*/
-GEN_DEF_INLINE b32 file_read_at_check( FileInfo* file, void* buffer, sw size, s64 offset, sw* bytes_read );
+b32 file_read_at_check( FileInfo* file, void* buffer, ssize size, s64 offset, ssize* bytes_read );
 struct FileContents
 {
 	AllocatorInfo allocator;
 	void*         data;
-	sw            size;
+	ssize            size;
 };
 constexpr b32 zero_terminate    = true;
@ -214,20 +214,20 @@ s64 file_size( FileInfo* file );
 	* @param  file
 	* @param  offset Offset to seek to
 	*/
-GEN_DEF_INLINE s64 file_seek( FileInfo* file, s64 offset );
+s64 file_seek( FileInfo* file, s64 offset );
 /**
 	* Seeks the file cursor to the end of the file
 	* @param  file
 	*/
-GEN_DEF_INLINE s64 file_seek_to_end( FileInfo* file );
+s64 file_seek_to_end( FileInfo* file );
 /**
 	* Returns the length from the beginning of the file we've read so far
 	* @param  file
 	* @return      Our current position in file
 	*/
-GEN_DEF_INLINE s64 file_tell( FileInfo* file );
+s64 file_tell( FileInfo* file );
 /**
 	* Writes to a file
@ -235,7 +235,7 @@ GEN_DEF_INLINE s64 file_tell( FileInfo* file );
 	* @param  buffer Buffer to read from
 	* @param  size   Size to read
 	*/
-GEN_DEF_INLINE b32 file_write( FileInfo* file, void const* buffer, sw size );
+b32 file_write( FileInfo* file, void const* buffer, ssize size );
 /**
 	* Writes to file at a specific offset
@ -245,7 +245,7 @@ GEN_DEF_INLINE b32 file_write( FileInfo* file, void const* buffer, sw size );
 	* @param  offset        Offset to write to
 	* @param  bytes_written How much data we've actually written
 	*/
-GEN_DEF_INLINE b32 file_write_at( FileInfo* file, void const* buffer, sw size, s64 offset );
+b32 file_write_at( FileInfo* file, void const* buffer, ssize size, s64 offset );
 /**
 	* Writes to file safely
@ -255,88 +255,7 @@ GEN_DEF_INLINE b32 file_write_at( FileInfo* file, void const* buffer, sw size, s
 	* @param  offset        Offset to write to
 	* @param  bytes_written How much data we've actually written
 	*/
-GEN_DEF_INLINE b32 file_write_at_check( FileInfo* file, void const* buffer, sw size, s64 offset, sw* bytes_written );
+b32 file_write_at_check( FileInfo* file, void const* buffer, ssize size, s64 offset, ssize* bytes_written );
 GEN_IMPL_INLINE s64 file_seek( FileInfo* f, s64 offset )
 {
 	s64 new_offset = 0;
 	if ( ! f->ops.read_at )
 		f->ops = default_file_operations;
 	f->ops.seek( f->fd, offset, ESeekWhence_BEGIN, &new_offset );
 	return new_offset;
 }
 GEN_IMPL_INLINE s64 file_seek_to_end( FileInfo* f )
 {
 	s64 new_offset = 0;
 	if ( ! f->ops.read_at )
 		f->ops = default_file_operations;
 	f->ops.seek( f->fd, 0, ESeekWhence_END, &new_offset );
 	return new_offset;
 }
 GEN_IMPL_INLINE s64 file_tell( FileInfo* f )
 {
 	s64 new_offset = 0;
 	if ( ! f->ops.read_at )
 		f->ops = default_file_operations;
 	f->ops.seek( f->fd, 0, ESeekWhence_CURRENT, &new_offset );
 	return new_offset;
 }
 GEN_IMPL_INLINE b32 file_read( FileInfo* f, void* buffer, sw size )
 {
 	s64 cur_offset = file_tell( f );
 	b32 result     = file_read_at( f, buffer, size, file_tell( f ) );
 	file_seek( f, cur_offset + size );
 	return result;
 }
 GEN_IMPL_INLINE b32 file_read_at( FileInfo* f, void* buffer, sw size, s64 offset )
 {
 	return file_read_at_check( f, buffer, size, offset, NULL );
 }
 GEN_IMPL_INLINE b32 file_read_at_check( FileInfo* f, void* buffer, sw size, s64 offset, sw* bytes_read )
 {
 	if ( ! f->ops.read_at )
 		f->ops = default_file_operations;
 	return f->ops.read_at( f->fd, buffer, size, offset, bytes_read, false );
 }
 GEN_IMPL_INLINE b32 file_write( FileInfo* f, void const* buffer, sw size )
 {
 	s64 cur_offset = file_tell( f );
 	b32 result     = file_write_at( f, buffer, size, file_tell( f ) );
 	file_seek( f, cur_offset + size );
 	return result;
 }
 GEN_IMPL_INLINE b32 file_write_at( FileInfo* f, void const* buffer, sw size, s64 offset )
 {
 	return file_write_at_check( f, buffer, size, offset, NULL );
 }
 GEN_IMPL_INLINE b32 file_write_at_check( FileInfo* f, void const* buffer, sw size, s64 offset, sw* bytes_written )
 {
 	if ( ! f->ops.read_at )
 		f->ops = default_file_operations;
 	return f->ops.write_at( f->fd, buffer, size, offset, bytes_written );
 }
 enum FileStreamFlags : u32
 {
@ -363,15 +282,103 @@ b8 file_stream_new( FileInfo* file, AllocatorInfo allocator );
 	* @param  size     Buffer's size
 	* @param  flags
 	*/
-b8 file_stream_open( FileInfo* file, AllocatorInfo allocator, u8* buffer, sw size, FileStreamFlags flags );
+b8 file_stream_open( FileInfo* file, AllocatorInfo allocator, u8* buffer, ssize size, FileStreamFlags flags );
 /**
 	* Retrieves the stream's underlying buffer and buffer size.
 	* @param file memory stream
 	* @param size (Optional) buffer size
 	*/
-u8* file_stream_buf( FileInfo* file, sw* size );
+u8* file_stream_buf( FileInfo* file, ssize* size );
 extern FileOperations const memory_file_operations;
 inline
 s64 file_seek( FileInfo* f, s64 offset )
 {
 	s64 new_offset = 0;
 	if ( ! f->ops.read_at )
 		f->ops = default_file_operations;
 	f->ops.seek( f->fd, offset, ESeekWhence_BEGIN, &new_offset );
 	return new_offset;
 }
 inline
 s64 file_seek_to_end( FileInfo* f )
 {
 	s64 new_offset = 0;
 	if ( ! f->ops.read_at )
 		f->ops = default_file_operations;
 	f->ops.seek( f->fd, 0, ESeekWhence_END, &new_offset );
 	return new_offset;
 }
 inline
 s64 file_tell( FileInfo* f )
 {
 	s64 new_offset = 0;
 	if ( ! f->ops.read_at )
 		f->ops = default_file_operations;
 	f->ops.seek( f->fd, 0, ESeekWhence_CURRENT, &new_offset );
 	return new_offset;
 }
 inline
 b32 file_read( FileInfo* f, void* buffer, ssize size )
 {
 	s64 cur_offset = file_tell( f );
 	b32 result     = file_read_at( f, buffer, size, file_tell( f ) );
 	file_seek( f, cur_offset + size );
 	return result;
 }
 inline
 b32 file_read_at( FileInfo* f, void* buffer, ssize size, s64 offset )
 {
 	return file_read_at_check( f, buffer, size, offset, NULL );
 }
 inline
 b32 file_read_at_check( FileInfo* f, void* buffer, ssize size, s64 offset, ssize* bytes_read )
 {
 	if ( ! f->ops.read_at )
 		f->ops = default_file_operations;
 	return f->ops.read_at( f->fd, buffer, size, offset, bytes_read, false );
 }
 inline
 b32 file_write( FileInfo* f, void const* buffer, ssize size )
 {
 	s64 cur_offset = file_tell( f );
 	b32 result     = file_write_at( f, buffer, size, file_tell( f ) );
 	file_seek( f, cur_offset + size );
 	return result;
 }
 inline
 b32 file_write_at( FileInfo* f, void const* buffer, ssize size, s64 offset )
 {
 	return file_write_at_check( f, buffer, size, offset, NULL );
 }
 inline
 b32 file_write_at_check( FileInfo* f, void const* buffer, ssize size, s64 offset, ssize* bytes_written )
 {
 	if ( ! f->ops.read_at )
 		f->ops = default_file_operations;
 	return f->ops.write_at( f->fd, buffer, size, offset, bytes_written );
 }
 #pragma endregion File Handling
--- a/project/dependencies/hashing.cpp
+++ b/project/dependencies/hashing.cpp
@ -27,11 +27,11 @@ global u32 const _crc32_table[ 256 ] = {
 	0xb40bbe37, 0xc30c8ea1, 0x5a05df1b, 0x2d02ef8d,
 };
-u32 crc32( void const* data, sw len )
+u32 crc32( void const* data, ssize len )
 {
-	sw        remaining;
+	ssize        remaining;
-	u32       result = ~( zpl_cast( u32 ) 0 );
+	u32       result = ~( scast( u32, 0) );
-	u8 const* c      = zpl_cast( u8 const* ) data;
+	u8 const* c      = rcast( u8 const*, data);
 	for ( remaining = len; remaining--; c++ )
 		result = ( result >> 8 ) ^ ( _crc32_table[ ( result ^ *c ) & 0xff ] );
 	return ~result;
@ -77,11 +77,11 @@ global u64 const _crc64_table[ 256 ] = {
 	0xa6df411fbfb21ca3ull, 0xdc0731d78f8795daull, 0x536fa08fdfd90e51ull, 0x29b7d047efec8728ull,
 };
-u64 crc64( void const* data, sw len )
+u64 crc64( void const* data, ssize len )
 {
-	sw        remaining;
+	ssize        remaining;
-	u64       result = ( zpl_cast( u64 ) 0 );
+	u64       result = ( scast( u64, 0) );
-	u8 const* c      = zpl_cast( u8 const* ) data;
+	u8 const* c      = rcast( u8 const*, data);
 	for ( remaining = len; remaining--; c++ )
 		result = ( result >> 8 ) ^ ( _crc64_table[ ( result ^ *c ) & 0xff ] );
 	return result;
--- a/project/dependencies/hashing.hpp
+++ b/project/dependencies/hashing.hpp
@ -5,7 +5,7 @@
 #pragma region Hashing
-u32 crc32( void const* data, sw len );
+u32 crc32( void const* data, ssize len );
-u64 crc64( void const* data, sw len );
+u64 crc64( void const* data, ssize len );
 #pragma endregion Hashing
--- a/project/dependencies/macros.hpp
+++ b/project/dependencies/macros.hpp
@ -1,52 +1,99 @@
 #ifdef GEN_INTELLISENSE_DIRECTIVES
-#	pragma once
+#   pragma once
 #	include "header_start.hpp"
 #endif
 #pragma region Macros
-#define zpl_cast( Type ) ( Type )
+#ifndef global
 // Keywords
 #define global        static    // Global variables
 #endif
 #ifndef internal
 #define internal      static    // Internal linkage
 #endif
 #ifndef local_persist
 #define local_persist static    // Local Persisting variables
 #ifdef GEN_COMPILER_MSVC
 #	define forceinline __forceinline
 #	define neverinline __declspec( noinline )
 #elif defined(GEN_COMPILER_GCC)
 #	define forceinline inline __attribute__((__always_inline__))
 #	define neverinline __attribute__( ( __noinline__ ) )
 #elif defined(GEN_COMPILER_CLANG)
 #if __has_attribute(__always_inline__)
 #	define forceinline inline __attribute__((__always_inline__))
 #	define neverinline __attribute__( ( __noinline__ ) )
 #else
 #	define forceinline
 #	define neverinline
 #endif
 #else
 #	define forceinline
 #	define neverinline
 #endif
-// Bits
+#ifndef api_c
 #define api_c extern "C"
 #endif
 #ifndef bit
 #define bit( Value )                             ( 1 << Value )
 #define bitfield_is_equal( Type, Field, Mask ) ( (Type(Mask) & Type(Field)) == Type(Mask) )
 #endif
 // Casting
-#define ccast( Type, Value ) ( * const_cast< Type* >( & (Value) ) )
+#if ! GEN_C_COMPILER
-#define pcast( Type, Value ) ( * reinterpret_cast< Type* >( & ( Value ) ) )
+#	ifndef cast
-#define rcast( Type, Value ) reinterpret_cast< Type >( Value )
+#	define cast( type, value ) (tmpl_cast<type>( value ))
-#define scast( Type, Value ) static_cast< Type >( Value )
+#	endif
 #	ifndef ccast
 #	define ccast( type, value ) ( const_cast< type >( (value) ) )
 #	endif
 #	ifndef pcast
 #	define pcast( type, value ) ( * reinterpret_cast< type* >( & ( value ) ) )
 #	endif
 #	ifndef rcast
 #	define rcast( type, value ) reinterpret_cast< type >( value )
 #	endif
 #	ifndef scast
 #	define scast( type, value ) static_cast< type >( value )
 #	endif
 #else
 #	ifndef cast
 #	define cast( type, value )  ( (type)(value) )
 #	endif
 #	ifndef ccast
 #	define ccast( type, value ) ( (type)(value) )
 #	endif
 #	ifndef pcast
 #	define pcast( type, value ) ( * (type*)(value) )
 #	endif
 #	ifndef rcast
 #	define rcast( type, value ) ( (type)(value) )
 #	endif
 #	ifndef scast
 #	define scast( type, value ) ( (type)(value) )
 #	endif
 #endif
-// Num Arguments (Varadics)
+#ifndef stringize
-// #if defined(__GNUC__) || defined(__clang__)
+#define stringize_va( ... ) #__VA_ARGS__
-// Supports 0-50 arguments
+#define stringize( ... )    stringize_va( __VA_ARGS__ )
 #endif
 #ifndef do_once
 #define do_once( statement ) for ( local_persist b32 once = true; once; once = false, (statement) )
 #define do_once_start      \
 	do                     \
 	{                      \
 		local_persist      \
 		bool done = false; \
 		if ( done )        \
 			break;         \
 		done = true;
 #define do_once_end        \
 	}                      \
 	while(0);
 #endif
 #ifndef labeled_scope_start
 #define labeled_scope_start if ( false ) {
 #define labeled_scope_end   }
 #endif
 #ifndef         compiler_decorated_func_name
 #   ifdef COMPILER_CLANG
 #       define  compiler_decorated_func_name __PRETTY_NAME__
 #   elif defined(COMPILER_MSVC)
 #   	define compiler_decorated_func_name __FUNCDNAME__
 #   endif
 #endif
 #ifndef num_args_impl
 #define num_args_impl( _0,                                 \
 		_1,  _2,  _3,  _4,  _5,  _6,  _7,  _8,  _9, _10,   \
 		_11, _12, _13, _14, _15, _16, _17, _18, _19, _20,  \
@ -61,7 +108,7 @@
 		N, ...                                             \
 	) N
-	// ## deletes preceding comma if _VA_ARGS__ is empty (GCC, Clang)
+// ## deletes preceding comma if _VA_ARGS__ is empty (GCC, Clang)
 #define num_args(...)                            \
 	num_args_impl(_, ## __VA_ARGS__,             \
 		100, 99, 98, 97, 96, 95, 94, 93, 92, 91, \
@ -76,93 +123,115 @@
 		 10,  9,  8,  7,  6,  5,  4,  3,  2,  1, \
 		 0                                       \
 	)
 #endif
-// #else
+#ifndef clamp
 // This doesn't work on latest msvc so I had to use /Zc:preprocessor flag.
 // Supports 1-50 arguments
 // #define num_args_impl(                                  \
 // 		_1,  _2,  _3,  _4,  _5,  _6,  _7,  _8,  _9, _10,   \
 // 		_11, _12, _13, _14, _15, _16, _17, _18, _19, _20,  \
 // 		_21, _22, _23, _24, _25, _26, _27, _28, _29, _30,  \
 // 		_31, _32, _33, _34, _35, _36, _37, _38, _39, _40,  \
 // 		_41, _42, _43, _44, _45, _46, _47, _48, _49, _50,  \
 // 		_51, _52, _53, _54, _55, _56, _57, _58, _59, _60,  \
 // 		_61, _62, _63, _64, _65, _66, _67, _68, _69, _70,  \
 // 		_71, _72, _73, _74, _75, _76, _77, _78, _79, _80,  \
 // 		_81, _82, _83, _84, _85, _86, _87, _88, _89, _90,  \
 // 		_91, _92, _93, _94, _95, _96, _97, _98, _99, _100, \
 // 		N, ...                                             \
 // 	) N
 // #define num_args(...)                         \
 // 	num_args_impl( __VA_ARGS__,                  \
 // 		100, 99, 98, 97, 96, 95, 94, 93, 92, 91, \
 // 		 90, 89, 88, 87, 86, 85, 84, 83, 82, 81, \
 // 		 80, 79, 78, 77, 76, 75, 74, 73, 72, 71, \
 // 		 70, 69, 68, 67, 66, 65, 64, 63, 62, 61, \
 // 		 60, 59, 58, 57, 56, 55, 54, 53, 52, 51, \
 // 		 50, 49, 48, 47, 46, 45, 44, 43, 42, 41, \
 // 		 50, 49, 48, 47, 46, 45, 44, 43, 42, 41, \
 // 		 40, 39, 38, 37, 36, 35, 34, 33, 32, 31, \
 // 		 30, 29, 28, 27, 26, 25, 24, 23, 22, 21, \
 // 		 20, 19, 18, 17, 16, 15, 14, 13, 12, 11, \
 // 		 10,  9,  8,  7,  6,  5,  4,  3,  2,  1  \
 // 	)
 // #endif
 // Stringizing
 #define stringize_va( ... ) #__VA_ARGS__
 #define stringize( ... )    stringize_va( __VA_ARGS__ )
 // Function do once
 #define do_once()          \
 	do                     \
 	{                      \
 		static             \
 		bool Done = false; \
 		if ( Done )        \
 			return;        \
 		Done = true;       \
 	}                      \
 	while(0)
 #define do_once_start      \
 	do                     \
 	{                      \
 		static             \
 		bool Done = false; \
 		if ( Done )        \
 			break;         \
 		Done = true;
 #define do_once_end        \
 	}                      \
 	while(0);
 #define labeled_scope_start if ( false ) {
 #define labeled_scope_end   }
 #define clamp( x, lower, upper )      min( max( ( x ), ( lower ) ), ( upper ) )
-#define count_of( x )                 ( ( size_of( x ) / size_of( 0 [ x ] ) ) / ( ( sw )( ! ( size_of( x ) % size_of( 0 [ x ] ) ) ) ) )
+#endif
 #ifndef count_of
 #define count_of( x )                 ( ( size_of( x ) / size_of( 0 [ x ] ) ) / ( ( ssize )( ! ( size_of( x ) % size_of( 0 [ x ] ) ) ) ) )
 #endif
 #ifndef is_between
 #define is_between( x, lower, upper ) ( ( ( lower ) <= ( x ) ) && ( ( x ) <= ( upper ) ) )
-#define max( a, b )                   ( ( a ) > ( b ) ? ( a ) : ( b ) )
+#endif
-#define min( a, b )                   ( ( a ) < ( b ) ? ( a ) : ( b ) )
+#ifndef size_of
-#define size_of( x )                  ( sw )( sizeof( x ) )
+#define size_of( x )                  ( ssize )( sizeof( x ) )
 #endif
-#if defined( _MSC_VER ) || defined( GEN_COMPILER_TINYC )
+#ifndef max
-#	define offset_of( Type, element ) ( ( GEN_NS( gen_sw ) ) & ( ( ( Type* )0 )->element ) )
+#define max( a, b ) ( (a > b) ? (a) : (b) )
 #endif
 #ifndef min
 #define min( a, b ) ( (a < b) ? (a) : (b) )
 #endif
 #if GEN_COMPILER_MSVC || GEN_COMPILER_TINYC
 #	define offset_of( Type, element ) ( ( GEN_NS( ssize ) ) & ( ( ( Type* )0 )->element ) )
 #else
 #	define offset_of( Type, element ) __builtin_offsetof( Type, element )
 #endif
-template< class Type >
+#ifndef        forceinline
-void swap( Type& a, Type& b )
+#	if GEN_COMPILER_MSVC
-{
+#		define forceinline __forceinline
-	Type tmp = a;
+#		define neverinline __declspec( noinline )
-	a = b;
+#	elif GEN_COMPILER_GCC
-	b = tmp;
+#		define forceinline inline __attribute__((__always_inline__))
-}
+#		define neverinline __attribute__( ( __noinline__ ) )
 #	elif GEN_COMPILER_CLANG
 #	if __has_attribute(__always_inline__)
 #		define forceinline inline __attribute__((__always_inline__))
 #		define neverinline __attribute__( ( __noinline__ ) )
 #	else
 #		define forceinline
 #		define neverinline
 #	endif
 #	else
 #		define forceinline
 #		define neverinline
 #	endif
 #endif
 #ifndef        neverinline
 #	if GEN_COMPILER_MSVC
 #		define neverinline __declspec( noinline )
 #	elif GEN_COMPILER_GCC
 #		define neverinline __attribute__( ( __noinline__ ) )
 #	elif GEN_COMPILER_CLANG
 #	if __has_attribute(__always_inline__)
 #		define neverinline __attribute__( ( __noinline__ ) )
 #	else
 #		define neverinline
 #	endif
 #	else
 #		define neverinline
 #	endif
 #endif
 #if !defined(GEN_SUPPORT_CPP_REFERENCES) && (GEN_COMPILER_C || __STDC_VERSION__ < 202311L)
 #	undef    GEN_SUPPORT_CPP_REFERENCES
 #	define   GEN_SUPPORT_CPP_REFERENCES 0
 #endif
 #if !defined(GEN_SUPPORT_CPP_MEMBER_FEATURES) && (GEN_COMPILER_C || __STDC_VERSION__ < 202311L)
 #	undef    GEN_SUPPORT_CPP_MEMBER_FEATURES
 #	define   GEN_SUPPORT_CPP_MEMBER_FEATURES 0
 #endif
 #if !defined(typeof) && (!GEN_COMPILER_C || __STDC_VERSION__ < 202311L)
 #	if ! GEN_COMPILER_C
 #		define typeof decltype
 #	elif defined(_MSC_VER)
 #		define typeof(x) __typeof(x)
 #	elif defined(__GNUC__) || defined(__clang__)
 #		define typeof(x) __typeof__(x)
 #	else
 #		error "Compiler not supported"
 #	endif
 #endif
 // This is intended to only really be used internally or with the C-library variant
 // C++ users can just use the for-range directly.
 #if GEN_COMPILER_C
 #	define foreach(Type, entry_id, iterable) for ( Type entry_id = begin(iterable); entry_id != end(iterable); entry_id = next(iterable, entry_id) )
 #else
 #	define foreach(Type, entry_id, iterable) for ( Type entry_id : iterable )
 #endif
 #if GEN_COMPILER_C
 #	if __STDC_VERSION__ >= 202311L
 #		define enum_underlying(type) : type
 #	else
 #		define enum_underlying(type)
 #   endif
 #else
 #	define enum_underlying(type) : type
 #endif
 #if GEN_COMPILER_C
 #	ifndef nullptr
 #		define nullptr NULL
 #	endif
 #endif
 #pragma endregion Macros
--- a/project/dependencies/memory.cpp
+++ b/project/dependencies/memory.cpp
@ -5,7 +5,7 @@
 #pragma region Memory
-void* mem_copy( void* dest, void const* source, sw n )
+void* mem_copy( void* dest, void const* source, ssize n )
 {
 	if ( dest == NULL )
 	{
@ -15,25 +15,25 @@ void* mem_copy( void* dest, void const* source, sw n )
 	return memcpy( dest, source, n );
 }
-void const* mem_find( void const* data, u8 c, sw n )
+void const* mem_find( void const* data, u8 c, ssize n )
 {
-	u8 const* s = zpl_cast( u8 const* ) data;
+	u8 const* s = rcast( u8 const*, data);
-	while ( ( zpl_cast( uptr ) s & ( sizeof( uw ) - 1 ) ) && n && *s != c )
+	while ( ( rcast( uptr, s) & ( sizeof( usize ) - 1 ) ) && n && *s != c )
 	{
 		s++;
 		n--;
 	}
 	if ( n && *s != c )
 	{
-		sw const* w;
+		ssize const* w;
-		sw        k = GEN__ONES * c;
+		ssize        k = GEN__ONES * c;
-		w           = zpl_cast( sw const* ) s;
+		w           = rcast( ssize const*, s);
-		while ( n >= size_of( sw ) && ! GEN__HAS_ZERO( *w ^ k ) )
+		while ( n >= size_of( ssize ) && ! GEN__HAS_ZERO( *w ^ k ) )
 		{
 			w++;
-			n -= size_of( sw );
+			n -= size_of( ssize );
 		}
-		s = zpl_cast( u8 const* ) w;
+		s = rcast( u8 const*, w);
 		while ( n && *s != c )
 		{
 			s++;
@ -41,7 +41,7 @@ void const* mem_find( void const* data, u8 c, sw n )
 		}
 	}
-	return n ? zpl_cast( void const* ) s : NULL;
+	return n ? rcast( void const*, s ) : NULL;
 }
 #define GEN_HEAP_STATS_MAGIC 0xDEADC0DE
@ -49,8 +49,8 @@ void const* mem_find( void const* data, u8 c, sw n )
 struct _heap_stats
 {
 	u32 magic;
-	sw  used_memory;
+	ssize  used_memory;
-	sw  alloc_count;
+	ssize  alloc_count;
 };
 global _heap_stats _heap_stats_info;
@ -61,13 +61,13 @@ void heap_stats_init( void )
 	_heap_stats_info.magic = GEN_HEAP_STATS_MAGIC;
 }
-sw heap_stats_used_memory( void )
+ssize heap_stats_used_memory( void )
 {
 	GEN_ASSERT_MSG( _heap_stats_info.magic == GEN_HEAP_STATS_MAGIC, "heap_stats is not initialised yet, call heap_stats_init first!" );
 	return _heap_stats_info.used_memory;
 }
-sw heap_stats_alloc_count( void )
+ssize heap_stats_alloc_count( void )
 {
 	GEN_ASSERT_MSG( _heap_stats_info.magic == GEN_HEAP_STATS_MAGIC, "heap_stats is not initialised yet, call heap_stats_init first!" );
 	return _heap_stats_info.alloc_count;
@ -82,11 +82,11 @@ void heap_stats_check( void )
 struct _heap_alloc_info
 {
-	sw    size;
+	ssize    size;
 	void* physical_start;
 };
-void* heap_allocator_proc( void* allocator_data, AllocType type, sw size, sw alignment, void* old_memory, sw old_size, u64 flags )
+void* heap_allocator_proc( void* allocator_data, AllocType type, ssize size, ssize alignment, void* old_memory, ssize old_size, u64 flags )
 {
 	void* ptr = NULL;
 	// unused( allocator_data );
@ -95,16 +95,16 @@ void* heap_allocator_proc( void* allocator_data, AllocType type, sw size, sw ali
 		alignment = GEN_DEFAULT_MEMORY_ALIGNMENT;
 #ifdef GEN_HEAP_ANALYSIS
-	sw alloc_info_size      = size_of( _heap_alloc_info );
+	ssize alloc_info_size      = size_of( _heap_alloc_info );
-	sw alloc_info_remainder = ( alloc_info_size % alignment );
+	ssize alloc_info_remainder = ( alloc_info_size % alignment );
-	sw track_size           = max( alloc_info_size, alignment ) + alloc_info_remainder;
+	ssize track_size           = max( alloc_info_size, alignment ) + alloc_info_remainder;
 	switch ( type )
 	{
 		case EAllocation_FREE :
 			{
 				if ( ! old_memory )
 					break;
-				_heap_alloc_info* alloc_info  = zpl_cast( _heap_alloc_info* ) old_memory - 1;
+				_heap_alloc_info* alloc_info  = rcast( _heap_alloc_info*, old_memory) - 1;
 				_heap_stats_info.used_memory -= alloc_info->size;
 				_heap_stats_info.alloc_count--;
 				old_memory = alloc_info->physical_start;
@ -195,11 +195,11 @@ void* heap_allocator_proc( void* allocator_data, AllocType type, sw size, sw ali
 #ifdef GEN_HEAP_ANALYSIS
 	if ( type == EAllocation_ALLOC )
 	{
-		_heap_alloc_info* alloc_info = zpl_cast( _heap_alloc_info* )( zpl_cast( char* ) ptr + alloc_info_remainder );
+		_heap_alloc_info* alloc_info = rcast( _heap_alloc_info*, rcast( char*, ptr) + alloc_info_remainder );
 		zero_item( alloc_info );
 		alloc_info->size              = size - track_size;
 		alloc_info->physical_start    = ptr;
-		ptr                           = zpl_cast( void* )( alloc_info + 1 );
+		ptr                           = rcast( void*, alloc_info + 1 );
 		_heap_stats_info.used_memory += alloc_info->size;
 		_heap_stats_info.alloc_count++;
 	}
@ -209,7 +209,7 @@ void* heap_allocator_proc( void* allocator_data, AllocType type, sw size, sw ali
 }
 #pragma region VirtualMemory
-VirtualMemory vm_from_memory( void* data, sw size )
+VirtualMemory vm_from_memory( void* data, ssize size )
 {
 	VirtualMemory vm;
 	vm.data = data;
@ -218,7 +218,7 @@ VirtualMemory vm_from_memory( void* data, sw size )
 }
 #if defined( GEN_SYSTEM_WINDOWS )
-VirtualMemory vm_alloc( void* addr, sw size )
+VirtualMemory vm_alloc( void* addr, ssize size )
 {
 	VirtualMemory vm;
 	GEN_ASSERT( size > 0 );
@ -234,7 +234,7 @@ b32 vm_free( VirtualMemory vm )
 	{
 		if ( VirtualQuery( vm.data, &info, size_of( info ) ) == 0 )
 			return false;
-		if ( info.BaseAddress != vm.data || info.AllocationBase != vm.data || info.State != MEM_COMMIT || info.RegionSize > zpl_cast( uw ) vm.size )
+		if ( info.BaseAddress != vm.data || info.AllocationBase != vm.data || info.State != MEM_COMMIT || info.RegionSize > scast( usize, vm.size) )
 		{
 			return false;
 		}
@ -246,7 +246,7 @@ b32 vm_free( VirtualMemory vm )
 	return true;
 }
-VirtualMemory vm_trim( VirtualMemory vm, sw lead_size, sw size )
+VirtualMemory vm_trim( VirtualMemory vm, ssize lead_size, ssize size )
 {
 	VirtualMemory new_vm = { 0 };
 	void*             ptr;
@ -270,7 +270,7 @@ b32 vm_purge( VirtualMemory vm )
 	return true;
 }
-sw virtual_memory_page_size( sw* alignment_out )
+ssize virtual_memory_page_size( ssize* alignment_out )
 {
 	SYSTEM_INFO info;
 	GetSystemInfo( &info );
@ -285,7 +285,7 @@ sw virtual_memory_page_size( sw* alignment_out )
 #	ifndef MAP_ANONYMOUS
 #		define MAP_ANONYMOUS MAP_ANON
 #	endif
-VirtualMemory vm_alloc( void* addr, sw size )
+VirtualMemory vm_alloc( void* addr, ssize size )
 {
 	VirtualMemory vm;
 	GEN_ASSERT( size > 0 );
@ -300,10 +300,10 @@ b32 vm_free( VirtualMemory vm )
 	return true;
 }
-VirtualMemory vm_trim( VirtualMemory vm, sw lead_size, sw size )
+VirtualMemory vm_trim( VirtualMemory vm, ssize lead_size, ssize size )
 {
 	void*  ptr;
-	sw trail_size;
+	ssize trail_size;
 	GEN_ASSERT( vm.size >= lead_size + size );
 	ptr        = pointer_add( vm.data, lead_size );
@ -322,10 +322,10 @@ b32 vm_purge( VirtualMemory vm )
 	return err != 0;
 }
-sw virtual_memory_page_size( sw* alignment_out )
+ssize virtual_memory_page_size( ssize* alignment_out )
 {
 	// TODO: Is this always true?
-	sw result = zpl_cast( sw ) sysconf( _SC_PAGE_SIZE );
+	ssize result = scast( ssize, sysconf( _SC_PAGE_SIZE ));
 	if ( alignment_out )
 		*alignment_out = result;
 	return result;
@ -334,7 +334,7 @@ sw virtual_memory_page_size( sw* alignment_out )
 #pragma endregion VirtualMemory
-void* Arena::allocator_proc( void* allocator_data, AllocType type, sw size, sw alignment, void* old_memory, sw old_size, u64 flags )
+void* arena_allocator_proc( void* allocator_data, AllocType type, ssize size, ssize alignment, void* old_memory, ssize old_size, u64 flags )
 {
 	Arena* arena = rcast(Arena*, allocator_data);
 	void*      ptr   = NULL;
@ -346,10 +346,10 @@ void* Arena::allocator_proc( void* allocator_data, AllocType type, sw size, sw a
 		case EAllocation_ALLOC :
 			{
 				void* end        = pointer_add( arena->PhysicalStart, arena->TotalUsed );
-				sw    total_size = align_forward_i64( size, alignment );
+				ssize    total_size = align_forward_i64( size, alignment );
 				// NOTE: Out of memory
-				if ( arena->TotalUsed + total_size > (sw) arena->TotalSize )
+				if ( arena->TotalUsed + total_size > (ssize) arena->TotalSize )
 				{
 					// zpl__printf_err("%s", "Arena out of memory\n");
 					GEN_FATAL("Arena out of memory! (Possibly could not fit for the largest size Arena!!)");
@ -384,9 +384,9 @@ void* Arena::allocator_proc( void* allocator_data, AllocType type, sw size, sw a
 	return ptr;
 }
-void* Pool::allocator_proc( void* allocator_data, AllocType type, sw size, sw alignment, void* old_memory, sw old_size, u64 flags )
+void* pool_allocator_proc( void* allocator_data, AllocType type, ssize size, ssize alignment, void* old_memory, ssize old_size, u64 flags )
 {
-	Pool* pool = zpl_cast( Pool* ) allocator_data;
+	Pool* pool = rcast( Pool*, allocator_data);
 	void* ptr  = NULL;
 	// unused( old_size );
@ -401,9 +401,9 @@ void* Pool::allocator_proc( void* allocator_data, AllocType type, sw size, sw al
 				GEN_ASSERT( alignment == pool->BlockAlign );
 				GEN_ASSERT( pool->FreeList != NULL );
-				next_free        = *zpl_cast( uptr* ) pool->FreeList;
+				next_free        = * rcast( uptr*, pool->FreeList);
 				ptr              = pool->FreeList;
-				pool->FreeList   = zpl_cast( void* ) next_free;
+				pool->FreeList   = rcast( void*, next_free);
 				pool->TotalSize += pool->BlockSize;
 				if ( flags & ALLOCATOR_FLAG_CLEAR_TO_ZERO )
@ -417,8 +417,8 @@ void* Pool::allocator_proc( void* allocator_data, AllocType type, sw size, sw al
 				if ( old_memory == NULL )
 					return NULL;
-				next             = zpl_cast( uptr* ) old_memory;
+				next             = rcast( uptr*, old_memory);
-				*next            = zpl_cast( uptr ) pool->FreeList;
+				*next            = rcast( uptr, pool->FreeList);
 				pool->FreeList   = old_memory;
 				pool->TotalSize -= pool->BlockSize;
 			}
@ -426,7 +426,7 @@ void* Pool::allocator_proc( void* allocator_data, AllocType type, sw size, sw al
 		case EAllocation_FREE_ALL :
 			{
-				sw    actual_block_size, block_index;
+				ssize    actual_block_size, block_index;
 				void* curr;
 				uptr* end;
@ -437,13 +437,13 @@ void* Pool::allocator_proc( void* allocator_data, AllocType type, sw size, sw al
 				curr = pool->PhysicalStart;
 				for ( block_index = 0; block_index < pool->NumBlocks - 1; block_index++ )
 				{
-					uptr* next = zpl_cast( uptr* ) curr;
+					uptr* next = rcast( uptr*, curr);
-					*next      = zpl_cast( uptr ) curr + actual_block_size;
+					* next     = rcast( uptr, curr) + actual_block_size;
 					curr       = pointer_add( curr, actual_block_size );
 				}
-				end            = zpl_cast( uptr* ) curr;
+				end            = rcast( uptr*, curr);
-				*end           = zpl_cast( uptr ) NULL;
+				* end          = scast( uptr, NULL);
 				pool->FreeList = pool->PhysicalStart;
 			}
 			break;
@ -457,11 +457,11 @@ void* Pool::allocator_proc( void* allocator_data, AllocType type, sw size, sw al
 	return ptr;
 }
-Pool Pool::init_align( AllocatorInfo backing, sw num_blocks, sw block_size, sw block_align )
+Pool pool_init_align( AllocatorInfo backing, ssize num_blocks, ssize block_size, ssize block_align )
 {
 	Pool pool = {};
-	sw    actual_block_size, pool_size, block_index;
+	ssize    actual_block_size, pool_size, block_index;
 	void *data, *curr;
 	uptr* end;
@ -495,16 +495,16 @@ Pool Pool::init_align( AllocatorInfo backing, sw num_blocks, sw block_size, sw b
 	return pool;
 }
-void Pool::clear()
+void clear(Pool& pool)
 {
-	sw    actual_block_size, block_index;
+	ssize actual_block_size, block_index;
 	void* curr;
 	uptr* end;
-	actual_block_size = BlockSize + BlockAlign;
+	actual_block_size = pool.BlockSize + pool.BlockAlign;
-	curr = PhysicalStart;
+	curr = pool.PhysicalStart;
-	for ( block_index = 0; block_index < NumBlocks - 1; block_index++ )
+	for ( block_index = 0; block_index < pool.NumBlocks - 1; block_index++ )
 	{
 		uptr* next = ( uptr* ) curr;
 		*next      = ( uptr  ) curr + actual_block_size;
@ -514,7 +514,7 @@ void Pool::clear()
 	end  =  ( uptr* ) curr;
 	*end =  ( uptr )  NULL;
-	FreeList = PhysicalStart;
+	pool.FreeList = pool.PhysicalStart;
 }
 #pragma endregion Memory
--- a/project/dependencies/memory.hpp
+++ b/project/dependencies/memory.hpp
@ -5,48 +5,56 @@
 #pragma region Memory
-#define kilobytes( x ) ( ( x ) * ( s64 )( 1024 ) )
+#define kilobytes( x ) (          ( x ) * ( s64 )( 1024 ) )
 #define megabytes( x ) ( kilobytes( x ) * ( s64 )( 1024 ) )
 #define gigabytes( x ) ( megabytes( x ) * ( s64 )( 1024 ) )
 #define terabytes( x ) ( gigabytes( x ) * ( s64 )( 1024 ) )
-#define GEN__ONES          ( zpl_cast( uw ) - 1 / GEN_U8_MAX )
+#define GEN__ONES          ( scast( GEN_NS usize, - 1) / GEN_U8_MAX )
 #define GEN__HIGHS         ( GEN__ONES * ( GEN_U8_MAX / 2 + 1 ) )
-#define GEN__HAS_ZERO( x ) ( ( ( x )-GEN__ONES ) & ~( x )&GEN__HIGHS )
+#define GEN__HAS_ZERO( x ) ( ( ( x ) - GEN__ONES ) & ~( x ) & GEN__HIGHS )
 template< class Type >
 void swap( Type& a, Type& b )
 {
 	Type tmp = a;
 	a = b;
 	b = tmp;
 }
 //! Checks if value is power of 2.
-GEN_DEF_INLINE b32 is_power_of_two( sw x );
+b32 is_power_of_two( ssize x );
 //! Aligns address to specified alignment.
-GEN_DEF_INLINE void* align_forward( void* ptr, sw alignment );
+void* align_forward( void* ptr, ssize alignment );
 //! Aligns value to a specified alignment.
-GEN_DEF_INLINE s64 align_forward_i64( s64 value, sw alignment );
+s64 align_forward_i64( s64 value, ssize alignment );
 //! Moves pointer forward by bytes.
-GEN_DEF_INLINE void* pointer_add( void* ptr, sw bytes );
+void* pointer_add( void* ptr, ssize bytes );
 //! Moves pointer forward by bytes.
-GEN_DEF_INLINE void const* pointer_add_const( void const* ptr, sw bytes );
+void const* pointer_add_const( void const* ptr, ssize bytes );
 //! Calculates difference between two addresses.
-GEN_DEF_INLINE sw pointer_diff( void const* begin, void const* end );
+ssize pointer_diff( void const* begin, void const* end );
 //! Copy non-overlapping memory from source to destination.
-void* mem_copy( void* dest, void const* source, sw size );
+void* mem_copy( void* dest, void const* source, ssize size );
 //! Search for a constant value within the size limit at memory location.
-void const* mem_find( void const* data, u8 byte_value, sw size );
+void const* mem_find( void const* data, u8 byte_value, ssize size );
 //! Copy memory from source to destination.
-GEN_DEF_INLINE void* mem_move( void* dest, void const* source, sw size );
+void* mem_move( void* dest, void const* source, ssize size );
 //! Set constant value at memory location with specified size.
-GEN_DEF_INLINE void* mem_set( void* data, u8 byte_value, sw size );
+void* mem_set( void* data, u8 byte_value, ssize size );
 //! @param ptr Memory location to clear up.
 //! @param size The size to clear up with.
-GEN_DEF_INLINE void zero_size( void* ptr, sw size );
+void zero_size( void* ptr, ssize size );
 //! Clears up an item.
 #define zero_item( t ) zero_size( ( t ), size_of( *( t ) ) )    // NOTE: Pass pointer of struct
@ -54,24 +62,23 @@ GEN_DEF_INLINE void zero_size( void* ptr, sw size );
 //! Clears up an array.
 #define zero_array( a, count ) zero_size( ( a ), size_of( *( a ) ) * count )
-enum AllocType : u8
+enum AllocType_Def //enum_underlying(u8)
 {
 	EAllocation_ALLOC,
 	EAllocation_FREE,
 	EAllocation_FREE_ALL,
 	EAllocation_RESIZE,
 };
 typedef enum AllocType_Def AllocType;
-using AllocatorProc = void* ( void* allocator_data, AllocType type
+typedef void*(AllocatorProc)( void* allocator_data, AllocType type, ssize size, ssize alignment, void* old_memory, ssize old_size, u64 flags );
 	, sw size, sw alignment
 	, void* old_memory, sw old_size
 	, u64 flags );
-struct AllocatorInfo
+struct AllocatorInfo_Def
 {
 	AllocatorProc* Proc;
 	void*          Data;
 };
 typedef struct AllocatorInfo_Def AllocatorInfo;
 enum AllocFlag
 {
@ -87,22 +94,22 @@ enum AllocFlag
 #endif
 //! Allocate memory with default alignment.
-GEN_DEF_INLINE void* alloc( AllocatorInfo a, sw size );
+void* alloc( AllocatorInfo a, ssize size );
 //! Allocate memory with specified alignment.
-GEN_DEF_INLINE void* alloc_align( AllocatorInfo a, sw size, sw alignment );
+void* alloc_align( AllocatorInfo a, ssize size, ssize alignment );
 //! Free allocated memory.
-GEN_DEF_INLINE void free( AllocatorInfo a, void* ptr );
+void free( AllocatorInfo a, void* ptr );
 //! Free all memory allocated by an allocator.
-GEN_DEF_INLINE void free_all( AllocatorInfo a );
+void free_all( AllocatorInfo a );
 //! Resize an allocated memory.
-GEN_DEF_INLINE void* resize( AllocatorInfo a, void* ptr, sw old_size, sw new_size );
+void* resize( AllocatorInfo a, void* ptr, ssize old_size, ssize new_size );
 //! Resize an allocated memory with specified alignment.
-GEN_DEF_INLINE void* resize_align( AllocatorInfo a, void* ptr, sw old_size, sw new_size, sw alignment );
+void* resize_align( AllocatorInfo a, void* ptr, ssize old_size, ssize new_size, ssize alignment );
 //! Allocate memory for an item.
 #define alloc_item( allocator_, Type ) ( Type* )alloc( allocator_, size_of( Type ) )
@ -114,20 +121,20 @@ GEN_DEF_INLINE void* resize_align( AllocatorInfo a, void* ptr, sw old_size, sw n
 /* define GEN_HEAP_ANALYSIS to enable this feature */
 /* call zpl_heap_stats_init at the beginning of the entry point */
 /* you can call zpl_heap_stats_check near the end of the execution to validate any possible leaks */
-void heap_stats_init( void );
+void  heap_stats_init( void );
-sw   heap_stats_used_memory( void );
+ssize heap_stats_used_memory( void );
-sw   heap_stats_alloc_count( void );
+ssize heap_stats_alloc_count( void );
-void heap_stats_check( void );
+void  heap_stats_check( void );
 //! Allocate/Resize memory using default options.
 //! Use this if you don't need a "fancy" resize allocation
-GEN_DEF_INLINE void* default_resize_align( AllocatorInfo a, void* ptr, sw old_size, sw new_size, sw alignment );
+void* default_resize_align( AllocatorInfo a, void* ptr, ssize old_size, ssize new_size, ssize alignment );
-void* heap_allocator_proc( void* allocator_data, AllocType type, sw size, sw alignment, void* old_memory, sw old_size, u64 flags );
+void* heap_allocator_proc( void* allocator_data, AllocType type, ssize size, ssize alignment, void* old_memory, ssize old_size, u64 flags );
 //! The heap allocator backed by operating system's memory manager.
-constexpr AllocatorInfo heap( void ) { return { heap_allocator_proc, nullptr }; }
+constexpr AllocatorInfo heap( void ) { AllocatorInfo allocator = { heap_allocator_proc, nullptr }; return allocator; }
 //! Helper to allocate memory using heap allocator.
 #define malloc( sz ) alloc( heap(), sz )
@ -135,203 +142,502 @@ constexpr AllocatorInfo heap( void ) { return { heap_allocator_proc, nullptr };
 //! Helper to free memory allocated by heap allocator.
 #define mfree( ptr ) free( heap(), ptr )
-GEN_IMPL_INLINE b32 is_power_of_two( sw x )
+struct VirtualMemory
 {
 	void*  data;
 	ssize size;
 };
 //! Initialize virtual memory from existing data.
 VirtualMemory vm_from_memory( void* data, ssize size );
 //! Allocate virtual memory at address with size.
 //! @param addr The starting address of the region to reserve. If NULL, it lets operating system to decide where to allocate it.
 //! @param size The size to serve.
 VirtualMemory vm_alloc( void* addr, ssize size );
 //! Release the virtual memory.
 b32 vm_free( VirtualMemory vm );
 //! Trim virtual memory.
 VirtualMemory vm_trim( VirtualMemory vm, ssize lead_size, ssize size );
 //! Purge virtual memory.
 b32 gen_vm_purge( VirtualMemory vm );
 //! Retrieve VM's page size and alignment.
 ssize gen_virtual_memory_page_size( ssize* alignment_out );
 #pragma region Arena
 struct Arena;
 AllocatorInfo allocator_info( Arena* arena );
 // Remove static keyword and rename allocator_proc
 void* arena_allocator_proc(void* allocator_data, AllocType type, ssize size, ssize alignment, void* old_memory, ssize old_size, u64 flags);
 // Add these declarations after the Arena struct
 Arena arena_init_from_allocator(AllocatorInfo backing, ssize size);
 Arena arena_init_from_memory   ( void* start, ssize size );
 Arena init_sub      (Arena* parent, ssize size);
 ssize alignment_of  (Arena* arena, ssize alignment);
 void  free          (Arena* arena);
 ssize size_remaining(Arena* arena, ssize alignment);
 // This id is defined by Unreal for asserts
 #pragma push_macro("check")
 #undef check
 void   check(Arena* arena);
 #pragma pop_macro("check")
 struct Arena
 {
 	AllocatorInfo Backing;
 	void*         PhysicalStart;
 	ssize         TotalSize;
 	ssize         TotalUsed;
 	ssize         TempCount;
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 #pragma region Member Mapping
 	forceinline operator AllocatorInfo() { return GEN_NS allocator_info(this); }
 	forceinline static void* allocator_proc( void* allocator_data, AllocType type, ssize size, ssize alignment, void* old_memory, ssize old_size, u64 flags ) { return GEN_NS arena_allocator_proc( allocator_data, type, size, alignment, old_memory, old_size, flags ); }
 	forceinline static Arena init_from_memory( void* start, ssize size )                                                                                      { return GEN_NS arena_init_from_memory( start, size ); }
 	forceinline static Arena init_from_allocator( AllocatorInfo backing, ssize size )                                                                         { return GEN_NS arena_init_from_allocator( backing, size ); }
 	forceinline static Arena init_sub( Arena& parent, ssize size )                                                                                            { return GEN_NS arena_init_from_allocator( parent.Backing, size ); }
 	forceinline        ssize alignment_of( ssize alignment )                                                                                                  { return GEN_NS alignment_of(this, alignment); }
 	forceinline        void  free()                                                                                                                           { return GEN_NS free(this);  }
 	forceinline        ssize size_remaining( ssize alignment )                                                                                                { return GEN_NS size_remaining(this, alignment); }
 // This id is defined by Unreal for asserts
 #pragma push_macro("check")
 #undef check
 	forceinline void check() { GEN_NS check(this); }
 #pragma pop_macro("check")
 #pragma endregion Member Mapping
 #endif
 };
 #if GEN_SUPPORT_CPP_REFERENCES
 forceinline AllocatorInfo allocator_info(Arena& arena )                 { return allocator_info(& arena); }
 forceinline Arena         init_sub      (Arena& parent, ssize size)     { return init_sub( & parent, size); }
 forceinline ssize         alignment_of  (Arena& arena, ssize alignment) { return alignment_of( & arena, alignment); }
 forceinline void          free          (Arena& arena)                  { return free(& arena); }
 forceinline ssize         size_remaining(Arena& arena, ssize alignment) { return size_remaining(& arena, alignment); }
 // This id is defined by Unreal for asserts
 #pragma push_macro("check")
 #undef check
 forceinline void check(Arena& arena) { return check(& arena); };
 #pragma pop_macro("check")
 #endif
 inline
 AllocatorInfo allocator_info( Arena* arena ) {
 	GEN_ASSERT(arena != nullptr);
 	return { arena_allocator_proc, arena };
 }
 inline
 Arena arena_init_from_memory( void* start, ssize size )
 {
 	Arena arena = {
 		{ nullptr, nullptr },
 		start,
 		size,
 		0,
 		0
 	};
 	return arena;
 }
 inline
 Arena arena_init_from_allocator(AllocatorInfo backing, ssize size) {
 	Arena result = {
 		backing,
 		alloc(backing, size),
 		size,
 		0,
 		0
 	};
 	return result;
 }
 inline
 Arena init_sub(Arena* parent, ssize size) {
 	GEN_ASSERT(parent != nullptr);
 	return arena_init_from_allocator(parent->Backing, size);
 }
 inline
 ssize alignment_of(Arena* arena, ssize alignment)
 {
 	GEN_ASSERT(arena != nullptr);
 	ssize alignment_offset, result_pointer, mask;
 	GEN_ASSERT(is_power_of_two(alignment));
 	alignment_offset = 0;
 	result_pointer  = (ssize)arena->PhysicalStart + arena->TotalUsed;
 	mask            = alignment - 1;
 	if (result_pointer & mask)
 	alignment_offset = alignment - (result_pointer & mask);
 	return alignment_offset;
 }
 #pragma push_macro("check")
 #undef check
 inline
 void check(Arena* arena)
 {
    GEN_ASSERT(arena != nullptr );
    GEN_ASSERT(arena->TempCount == 0);
 }
 #pragma pop_macro("check")
 inline
 void free(Arena* arena)
 {
 	GEN_ASSERT(arena != nullptr);
 	if (arena->Backing.Proc)
 	{
 		GEN_NS free(arena->Backing, arena->PhysicalStart);
 		arena->PhysicalStart = nullptr;
 	}
 }
 inline
 ssize size_remaining(Arena* arena, ssize alignment)
 {
 	GEN_ASSERT(arena != nullptr);
 	ssize result = arena->TotalSize - (arena->TotalUsed + alignment_of(arena, alignment));
 	return result;
 }
 #pragma endregion Arena
 #pragma region FixedArena
 template<s32 Size>
 struct FixedArena;
 template<s32 Size> FixedArena<Size> fixed_arena_init();
 template<s32 Size> AllocatorInfo    allocator_info(FixedArena<Size>* fixed_arena );
 template<s32 Size> ssize            size_remaining(FixedArena<Size>* fixed_arena, ssize alignment);
 #if GEN_SUPPORT_CPP_REFERENCES
 template<s32 Size> AllocatorInfo    allocator_info( FixedArena<Size>& fixed_arena )                { return allocator_info(& fixed_arena); }
 template<s32 Size> ssize            size_remaining(FixedArena<Size>& fixed_arena, ssize alignment) { return size_remaining( & fixed_arena, alignment); }
 #endif
 // Just a wrapper around using an arena with memory associated with its scope instead of from an allocator.
 // Used for static segment or stack allocations.
 template< s32 Size >
 struct FixedArena
 {
 	char  memory[Size];
 	Arena arena;
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 #pragma region Member Mapping
 	forceinline operator AllocatorInfo() { return GEN_NS allocator_info(this); }
 	forceinline static FixedArena init()                          { FixedArena result; GEN_NS fixed_arena_init<Size>(result); return result; }
 	forceinline ssize             size_remaining(ssize alignment) { GEN_NS size_remaining(this, alignment); }
 #pragma endregion Member Mapping
 #endif
 };
 template<s32 Size> inline
 AllocatorInfo allocator_info( FixedArena<Size>* fixed_arena ) {
 	GEN_ASSERT(fixed_arena);
 	return { arena_allocator_proc, & fixed_arena->arena };
 }
 template<s32 Size> inline
 void fixed_arena_init(FixedArena<Size>* result) {
    zero_size(& result->memory[0], Size);
    result->arena = arena_init_from_memory(& result->memory[0], Size);
 }
 template<s32 Size> inline
 ssize size_remaining(FixedArena<Size>* fixed_arena, ssize alignment) {
    return size_remaining(fixed_arena->arena, alignment);
 }
 using Arena_1KB   = FixedArena< kilobytes( 1 ) >;
 using Arena_4KB   = FixedArena< kilobytes( 4 ) >;
 using Arena_8KB   = FixedArena< kilobytes( 8 ) >;
 using Arena_16KB  = FixedArena< kilobytes( 16 ) >;
 using Arena_32KB  = FixedArena< kilobytes( 32 ) >;
 using Arena_64KB  = FixedArena< kilobytes( 64 ) >;
 using Arena_128KB = FixedArena< kilobytes( 128 ) >;
 using Arena_256KB = FixedArena< kilobytes( 256 ) >;
 using Arena_512KB = FixedArena< kilobytes( 512 ) >;
 using Arena_1MB   = FixedArena< megabytes( 1 ) >;
 using Arena_2MB   = FixedArena< megabytes( 2 ) >;
 using Arena_4MB   = FixedArena< megabytes( 4 ) >;
 #pragma endregion FixedArena
 #pragma region Pool
 struct Pool;
 void* pool_allocator_proc(void* allocator_data, AllocType type, ssize size, ssize alignment, void* old_memory, ssize old_size, u64 flags);
 Pool          pool_init(AllocatorInfo backing, ssize num_blocks, ssize block_size);
 Pool          pool_init_align(AllocatorInfo backing, ssize num_blocks, ssize block_size, ssize block_align);
 AllocatorInfo allocator_info(Pool* pool);
 void          clear(Pool* pool);
 void          free(Pool* pool);
 #if GEN_SUPPORT_CPP_REFERENCES
 AllocatorInfo allocator_info(Pool& pool);
 void          clear(Pool& pool);
 void          free(Pool& pool);
 #endif
 struct Pool
 {
 	AllocatorInfo Backing;
 	void*         PhysicalStart;
 	void*         FreeList;
 	ssize         BlockSize;
 	ssize         BlockAlign;
 	ssize         TotalSize;
 	ssize         NumBlocks;
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 #pragma region Member Mapping
    forceinline operator AllocatorInfo() { return GEN_NS allocator_info(this); }
    forceinline static void* allocator_proc(void* allocator_data, AllocType type, ssize size, ssize alignment, void* old_memory, ssize old_size, u64 flags) { return GEN_NS pool_allocator_proc(allocator_data, type, size, alignment, old_memory, old_size, flags); }
    forceinline static Pool  init(AllocatorInfo backing, ssize num_blocks, ssize block_size)                                                                { return GEN_NS pool_init(backing, num_blocks, block_size); }
    forceinline static Pool  init_align(AllocatorInfo backing, ssize num_blocks, ssize block_size, ssize block_align)                                       { return GEN_NS pool_init_align(backing, num_blocks, block_size, block_align); }
    forceinline        void  clear() { GEN_NS clear( this); }
    forceinline        void  free()  { GEN_NS free( this); }
 #pragma endregion
 #endif
 };
 inline
 AllocatorInfo allocator_info(Pool* pool) {
   return { pool_allocator_proc, pool };
 }
 inline
 Pool pool_init(AllocatorInfo backing, ssize num_blocks, ssize block_size) {
   return pool_init_align(backing, num_blocks, block_size, GEN_DEFAULT_MEMORY_ALIGNMENT);
 }
 inline
 void free(Pool* pool) {
   if(pool->Backing.Proc) {
       GEN_NS free(pool->Backing, pool->PhysicalStart);
   }
 }
 #pragma endregion Pool
 inline
 b32 is_power_of_two( ssize x ) {
 	if ( x <= 0 )
 		return false;
 	return ! ( x & ( x - 1 ) );
 }
-GEN_IMPL_INLINE void* align_forward( void* ptr, sw alignment )
+inline
 mem_ptr align_forward( void* ptr, ssize alignment )
 {
 	uptr p;
 	GEN_ASSERT( is_power_of_two( alignment ) );
 	uptr p       = to_uptr(ptr);
 	uptr forward = (p + ( alignment - 1 ) ) & ~( alignment - 1 );
-	p = zpl_cast( uptr ) ptr;
+	return to_mem_ptr(forward);
 	return zpl_cast( void* )( ( p + ( alignment - 1 ) ) & ~( alignment - 1 ) );
 }
-GEN_IMPL_INLINE s64 align_forward_i64( s64 value, sw alignment )
+inline s64 align_forward_i64( s64 value, ssize alignment ) { return value + ( alignment - value % alignment ) % alignment; }
-{
+
-	return value + ( alignment - value % alignment ) % alignment;
+inline void*       pointer_add      ( void*       ptr, ssize bytes ) { return rcast(void*,       rcast( u8*,        ptr) + bytes ); }
 inline void const* pointer_add_const( void const* ptr, ssize bytes ) { return rcast(void const*, rcast( u8 const*,  ptr) + bytes ); }
 inline sptr pointer_diff( mem_ptr_const begin, mem_ptr_const end ) {
 	return scast( ssize, rcast( u8 const*, end) - rcast(u8 const*, begin) );
 }
-GEN_IMPL_INLINE void* pointer_add( void* ptr, sw bytes )
+inline
 void* mem_move( void* destination, void const* source, ssize byte_count )
 {
-	return zpl_cast( void* )( zpl_cast( u8* ) ptr + bytes );
+	if ( destination == NULL )
 }
 GEN_IMPL_INLINE void const* pointer_add_const( void const* ptr, sw bytes )
 {
 	return zpl_cast( void const* )( zpl_cast( u8 const* ) ptr + bytes );
 }
 GEN_IMPL_INLINE sw pointer_diff( void const* begin, void const* end )
 {
 	return zpl_cast( sw )( zpl_cast( u8 const* ) end - zpl_cast( u8 const* ) begin );
 }
 GEN_IMPL_INLINE void* mem_move( void* dest, void const* source, sw n )
 {
 	if ( dest == NULL )
 	{
 		return NULL;
 	}
-	u8*       d = zpl_cast( u8* ) dest;
+	u8*       dest_ptr = rcast( u8*, destination);
-	u8 const* s = zpl_cast( u8 const* ) source;
+	u8 const* src_ptr  = rcast( u8 const*, source);
-	if ( d == s )
+	if ( dest_ptr == src_ptr )
-		return d;
+		return dest_ptr;
 	if ( s + n <= d || d + n <= s )    // NOTE: Non-overlapping
 		return mem_copy( d, s, n );
-	if ( d < s )
+	if ( src_ptr + byte_count <= dest_ptr || dest_ptr + byte_count <= src_ptr )    // NOTE: Non-overlapping
 		return mem_copy( dest_ptr, src_ptr, byte_count );
 	if ( dest_ptr < src_ptr )
 	{
-		if ( zpl_cast( uptr ) s % size_of( sw ) == zpl_cast( uptr ) d % size_of( sw ) )
+		if ( to_uptr(src_ptr) % size_of( ssize ) == to_uptr(dest_ptr) % size_of( ssize ) )
 		{
-			while ( zpl_cast( uptr ) d % size_of( sw ) )
+			while ( pcast( uptr, dest_ptr) % size_of( ssize ) )
 			{
-				if ( ! n-- )
+				if ( ! byte_count-- )
-					return dest;
+					return destination;
-				*d++ = *s++;
+
 				*dest_ptr++ = *src_ptr++;
 			}
-			while ( n >= size_of( sw ) )
+			while ( byte_count >= size_of( ssize ) )
 			{
-				*zpl_cast( sw* ) d  = *zpl_cast( sw* ) s;
+				* rcast(ssize*, dest_ptr)  = * rcast(ssize const*, src_ptr);
-				n                  -= size_of( sw );
+				byte_count -= size_of( ssize );
-				d                  += size_of( sw );
+				dest_ptr   += size_of( ssize );
-				s                  += size_of( sw );
+				src_ptr    += size_of( ssize );
 			}
 		}
-		for ( ; n; n-- )
+		for ( ; byte_count; byte_count-- )
-			*d++ = *s++;
+			*dest_ptr++ = *src_ptr++;
 	}
 	else
 	{
-		if ( ( zpl_cast( uptr ) s % size_of( sw ) ) == ( zpl_cast( uptr ) d % size_of( sw ) ) )
+		if ( ( to_uptr(src_ptr) % size_of( ssize ) ) == ( to_uptr(dest_ptr) % size_of( ssize ) ) )
 		{
-			while ( zpl_cast( uptr )( d + n ) % size_of( sw ) )
+			while ( to_uptr( dest_ptr + byte_count ) % size_of( ssize ) )
 			{
-				if ( ! n-- )
+				if ( ! byte_count-- )
-					return dest;
+					return destination;
-				d[ n ] = s[ n ];
+
 				dest_ptr[ byte_count ] = src_ptr[ byte_count ];
 			}
-			while ( n >= size_of( sw ) )
+			while ( byte_count >= size_of( ssize ) )
 			{
-				n                         -= size_of( sw );
+				byte_count                              -= size_of( ssize );
-				*zpl_cast( sw* )( d + n )  = *zpl_cast( sw* )( s + n );
+				* rcast(ssize*, dest_ptr + byte_count )  = * rcast( ssize const*, src_ptr + byte_count );
 			}
 		}
-		while ( n )
+		while ( byte_count )
-			n--, d[ n ] = s[ n ];
+			byte_count--, dest_ptr[ byte_count ] = src_ptr[ byte_count ];
 	}
-	return dest;
+	return destination;
 }
-GEN_IMPL_INLINE void* mem_set( void* dest, u8 c, sw n )
+inline
 void* mem_set( void* destination, u8 fill_byte, ssize byte_count )
 {
-	if ( dest == NULL )
+	if ( destination == NULL )
 	{
 		return NULL;
 	}
-	u8* s = zpl_cast( u8* ) dest;
+	ssize align_offset;
-	sw  k;
+	u8*   dest_ptr  = rcast( u8*, destination);
-	u32 c32 = ( ( u32 )-1 ) / 255 * c;
+	u32   fill_word = ( ( u32 )-1 ) / 255 * fill_byte;
-	if ( n == 0 )
+	if ( byte_count == 0 )
-		return dest;
+		return destination;
 	s[ 0 ] = s[ n - 1 ] = c;
 	if ( n < 3 )
 		return dest;
 	s[ 1 ] = s[ n - 2 ] = c;
 	s[ 2 ] = s[ n - 3 ] = c;
 	if ( n < 7 )
 		return dest;
 	s[ 3 ] = s[ n - 4 ] = c;
 	if ( n < 9 )
 		return dest;
-	k  = -zpl_cast( sptr ) s & 3;
+	dest_ptr[ 0 ] = dest_ptr[ byte_count - 1 ] = fill_byte;
-	s += k;
+	if ( byte_count < 3 )
-	n -= k;
+		return destination;
 	n &= -4;
-	*zpl_cast( u32* )( s + 0 )     = c32;
+	dest_ptr[ 1 ] = dest_ptr[ byte_count - 2 ] = fill_byte;
-	*zpl_cast( u32* )( s + n - 4 ) = c32;
+	dest_ptr[ 2 ] = dest_ptr[ byte_count - 3 ] = fill_byte;
-	if ( n < 9 )
+	if ( byte_count < 7 )
-		return dest;
+		return destination;
 	*zpl_cast( u32* )( s + 4 )      = c32;
 	*zpl_cast( u32* )( s + 8 )      = c32;
 	*zpl_cast( u32* )( s + n - 12 ) = c32;
 	*zpl_cast( u32* )( s + n - 8 )  = c32;
 	if ( n < 25 )
 		return dest;
 	*zpl_cast( u32* )( s + 12 )     = c32;
 	*zpl_cast( u32* )( s + 16 )     = c32;
 	*zpl_cast( u32* )( s + 20 )     = c32;
 	*zpl_cast( u32* )( s + 24 )     = c32;
 	*zpl_cast( u32* )( s + n - 28 ) = c32;
 	*zpl_cast( u32* )( s + n - 24 ) = c32;
 	*zpl_cast( u32* )( s + n - 20 ) = c32;
 	*zpl_cast( u32* )( s + n - 16 ) = c32;
-	k  = 24 + ( zpl_cast( uptr ) s & 4 );
+	dest_ptr[ 3 ] = dest_ptr[ byte_count - 4 ] = fill_byte;
-	s += k;
+	if ( byte_count < 9 )
-	n -= k;
+		return destination;
 	align_offset  = -to_sptr( dest_ptr ) & 3;
 	dest_ptr     += align_offset;
 	byte_count   -= align_offset;
 	byte_count   &= -4;
 	* rcast( u32*, ( dest_ptr + 0              ) ) = fill_word;
 	* rcast( u32*, ( dest_ptr + byte_count - 4 ) ) = fill_word;
 	if ( byte_count < 9 )
 		return destination;
 	* rcast( u32*, dest_ptr + 4 )               = fill_word;
 	* rcast( u32*, dest_ptr + 8 )               = fill_word;
 	* rcast( u32*, dest_ptr + byte_count - 12 ) = fill_word;
 	* rcast( u32*, dest_ptr + byte_count - 8 )  = fill_word;
 	if ( byte_count < 25 )
 		return destination;
 	* rcast( u32*, dest_ptr + 12 )              = fill_word;
 	* rcast( u32*, dest_ptr + 16 )              = fill_word;
 	* rcast( u32*, dest_ptr + 20 )              = fill_word;
 	* rcast( u32*, dest_ptr + 24 )              = fill_word;
 	* rcast( u32*, dest_ptr + byte_count - 28 ) = fill_word;
 	* rcast( u32*, dest_ptr + byte_count - 24 ) = fill_word;
 	* rcast( u32*, dest_ptr + byte_count - 20 ) = fill_word;
 	* rcast( u32*, dest_ptr + byte_count - 16 ) = fill_word;
 	align_offset  = 24 + to_uptr( dest_ptr ) & 4;
 	dest_ptr     += align_offset;
 	byte_count   -= align_offset;
 	{
-		u64 c64 = ( zpl_cast( u64 ) c32 << 32 ) | c32;
+		u64 fill_doubleword = ( scast( u64, fill_word) << 32 ) | fill_word;
-		while ( n > 31 )
+		while ( byte_count > 31 )
 		{
-			*zpl_cast( u64* )( s + 0 )  = c64;
+			* rcast( u64*, dest_ptr + 0 )  = fill_doubleword;
-			*zpl_cast( u64* )( s + 8 )  = c64;
+			* rcast( u64*, dest_ptr + 8 )  = fill_doubleword;
-			*zpl_cast( u64* )( s + 16 ) = c64;
+			* rcast( u64*, dest_ptr + 16 ) = fill_doubleword;
-			*zpl_cast( u64* )( s + 24 ) = c64;
+			* rcast( u64*, dest_ptr + 24 ) = fill_doubleword;
-			n -= 32;
+			byte_count -= 32;
-			s += 32;
+			dest_ptr += 32;
 		}
 	}
-	return dest;
+	return destination;
 }
-GEN_IMPL_INLINE void* alloc_align( AllocatorInfo a, sw size, sw alignment )
+inline
-{
+void* alloc_align( AllocatorInfo a, ssize size, ssize alignment ) {
 	return a.Proc( a.Data, EAllocation_ALLOC, size, alignment, nullptr, 0, GEN_DEFAULT_ALLOCATOR_FLAGS );
 }
-GEN_IMPL_INLINE void* alloc( AllocatorInfo a, sw size )
+inline
-{
+void* alloc( AllocatorInfo a, ssize size ) {
 	return alloc_align( a, size, GEN_DEFAULT_MEMORY_ALIGNMENT );
 }
-GEN_IMPL_INLINE void free( AllocatorInfo a, void* ptr )
+inline
-{
+void free( AllocatorInfo a, void* ptr ) {
 	if ( ptr != nullptr )
 		a.Proc( a.Data, EAllocation_FREE, 0, 0, ptr, 0, GEN_DEFAULT_ALLOCATOR_FLAGS );
 }
-GEN_IMPL_INLINE void free_all( AllocatorInfo a )
+inline
-{
+void free_all( AllocatorInfo a ) {
 	a.Proc( a.Data, EAllocation_FREE_ALL, 0, 0, nullptr, 0, GEN_DEFAULT_ALLOCATOR_FLAGS );
 }
-GEN_IMPL_INLINE void* resize( AllocatorInfo a, void* ptr, sw old_size, sw new_size )
+inline
-{
+void* resize( AllocatorInfo a, void* ptr, ssize old_size, ssize new_size ) {
 	return resize_align( a, ptr, old_size, new_size, GEN_DEFAULT_MEMORY_ALIGNMENT );
 }
-GEN_IMPL_INLINE void* resize_align( AllocatorInfo a, void* ptr, sw old_size, sw new_size, sw alignment )
+inline
-{
+void* resize_align( AllocatorInfo a, void* ptr, ssize old_size, ssize new_size, ssize alignment ) {
 	return a.Proc( a.Data, EAllocation_RESIZE, new_size, alignment, ptr, old_size, GEN_DEFAULT_ALLOCATOR_FLAGS );
 }
-GEN_IMPL_INLINE void* default_resize_align( AllocatorInfo a, void* old_memory, sw old_size, sw new_size, sw alignment )
+inline
 void* default_resize_align( AllocatorInfo a, void* old_memory, ssize old_size, ssize new_size, ssize alignment )
 {
 	if ( ! old_memory )
 		return alloc_align( a, new_size, alignment );
@ -351,207 +657,19 @@ GEN_IMPL_INLINE void* default_resize_align( AllocatorInfo a, void* old_memory, s
 	}
 	else
 	{
-		void* new_memory = alloc_align( a, new_size, alignment );
+		void*  new_memory = alloc_align( a, new_size, alignment );
 		if ( ! new_memory )
 			return nullptr;
 		mem_move( new_memory, old_memory, min( new_size, old_size ) );
 		free( a, old_memory );
 		return new_memory;
 	}
 }
-GEN_IMPL_INLINE void zero_size( void* ptr, sw size )
+inline
-{
+void zero_size( void* ptr, ssize size ) {
 	mem_set( ptr, 0, size );
 }
 struct VirtualMemory
 {
 	void*  data;
 	sw size;
 };
 //! Initialize virtual memory from existing data.
 VirtualMemory vm_from_memory( void* data, sw size );
 //! Allocate virtual memory at address with size.
 //! @param addr The starting address of the region to reserve. If NULL, it lets operating system to decide where to allocate it.
 //! @param size The size to serve.
 VirtualMemory vm_alloc( void* addr, sw size );
 //! Release the virtual memory.
 b32 vm_free( VirtualMemory vm );
 //! Trim virtual memory.
 VirtualMemory vm_trim( VirtualMemory vm, sw lead_size, sw size );
 //! Purge virtual memory.
 b32 gen_vm_purge( VirtualMemory vm );
 //! Retrieve VM's page size and alignment.
 sw gen_virtual_memory_page_size( sw* alignment_out );
 struct Arena
 {
 	static
 	void* allocator_proc( void* allocator_data, AllocType type, sw size, sw alignment, void* old_memory, sw old_size, u64 flags );
 	static
 	Arena init_from_memory( void* start, sw size )
 	{
 		return
 		{
 			{ nullptr, nullptr },
 			start,
 			size,
 			0,
 			0
 		};
 	}
 	static
 	Arena init_from_allocator( AllocatorInfo backing, sw size )
 	{
 		Arena result =
 		{
 		backing,
 		alloc( backing, size),
 		size,
 		0,
 		0
 		};
 		return result;
 	}
 	static
 	Arena init_sub( Arena& parent, sw size )
 	{
 		return init_from_allocator( parent.Backing, size );
 	}
 	sw alignment_of( sw alignment )
 	{
 		sw alignment_offset, result_pointer, mask;
 		GEN_ASSERT( is_power_of_two( alignment ) );
 		alignment_offset = 0;
 		result_pointer   = (sw) PhysicalStart + TotalUsed;
 		mask             = alignment - 1;
 		if ( result_pointer & mask )
 			alignment_offset = alignment - ( result_pointer & mask );
 		return alignment_offset;
 	}
 	void check()
 	{
 		GEN_ASSERT( TempCount == 0 );
 	}
 	void free()
 	{
 		if ( Backing.Proc )
 		{
 			gen::free( Backing, PhysicalStart );
 			PhysicalStart = nullptr;
 		}
 	}
 	sw size_remaining( sw alignment )
 	{
 		sw result = TotalSize - ( TotalUsed + alignment_of( alignment ) );
 		return result;
 	}
 	AllocatorInfo Backing;
 	void*         PhysicalStart;
 	sw            TotalSize;
 	sw            TotalUsed;
 	sw            TempCount;
 	operator AllocatorInfo()
 	{
 		return { allocator_proc, this };
 	}
 };
 // Just a wrapper around using an arena with memory associated with its scope instead of from an allocator.
 // Used for static segment or stack allocations.
 template< s32 Size >
 struct FixedArena
 {
 	static
 	FixedArena init()
 	{
 		FixedArena result = { Arena::init_from_memory( result.memory, Size ), {0} };
 		return result;
 	}
 	sw size_remaining( sw alignment )
 	{
 		return arena.size_remaining( alignment );
 	}
 	operator AllocatorInfo()
 	{
 		return { Arena::allocator_proc, &arena };
 	}
 	Arena arena;
 	char  memory[ Size ];
 };
 using Arena_1KB   = FixedArena< kilobytes( 1 ) >;
 using Arena_4KB   = FixedArena< kilobytes( 4 ) >;
 using Arena_8KB   = FixedArena< kilobytes( 8 ) >;
 using Arena_16KB  = FixedArena< kilobytes( 16 ) >;
 using Arena_32KB  = FixedArena< kilobytes( 32 ) >;
 using Arena_64KB  = FixedArena< kilobytes( 64 ) >;
 using Arena_128KB = FixedArena< kilobytes( 128 ) >;
 using Arena_256KB = FixedArena< kilobytes( 256 ) >;
 using Arena_512KB = FixedArena< kilobytes( 512 ) >;
 using Arena_1MB   = FixedArena< megabytes( 1 ) >;
 using Arena_2MB   = FixedArena< megabytes( 2 ) >;
 using Arena_4MB   = FixedArena< megabytes( 4 ) >;
 struct Pool
 {
 	static
 	void* allocator_proc( void* allocator_data, AllocType type, sw size, sw alignment, void* old_memory, sw old_size, u64 flags );
 	static
 	Pool init( AllocatorInfo backing, sw num_blocks, sw block_size )
 	{
 		return init_align( backing, num_blocks, block_size, GEN_DEFAULT_MEMORY_ALIGNMENT );
 	}
 	static
 	Pool init_align( AllocatorInfo backing, sw num_blocks, sw block_size, sw block_align );
 	void clear();
 	void free()
 	{
 		if ( Backing.Proc )
 		{
 			gen::free( Backing, PhysicalStart );
 		}
 	}
 	AllocatorInfo Backing;
 	void*         PhysicalStart;
 	void*         FreeList;
 	sw            BlockSize;
 	sw            BlockAlign;
 	sw            TotalSize;
 	sw            NumBlocks;
 	operator AllocatorInfo()
 	{
 		return { allocator_proc, this };
 	}
 };
 #pragma endregion Memory
--- a/project/dependencies/parsing.cpp
+++ b/project/dependencies/parsing.cpp
@ -23,7 +23,7 @@ u8 adt_make_branch( ADT_Node* node, AllocatorInfo backing, char const* name, b32
 	node->type   = type;
 	node->name   = name;
 	node->parent = parent;
-	node->nodes  = Array<ADT_Node>::init( backing );
+	node->nodes  = array_init<ADT_Node>( backing );
 	if ( ! node->nodes )
 		return EADT_ERROR_OUT_OF_MEMORY;
@ -36,12 +36,12 @@ u8 adt_destroy_branch( ADT_Node* node )
 	GEN_ASSERT_NOT_NULL( node );
 	if ( ( node->type == EADT_TYPE_OBJECT || node->type == EADT_TYPE_ARRAY ) && node->nodes )
 	{
-		for ( sw i = 0; i < node->nodes.num(); ++i )
+		for ( ssize i = 0; i < scast(ssize, num(node->nodes)); ++i )
 		{
 			adt_destroy_branch( node->nodes + i );
 		}
-		node->nodes.free();
+		free(& node->nodes);
 	}
 	return 0;
 }
@ -66,7 +66,7 @@ ADT_Node* adt_find( ADT_Node* node, char const* name, b32 deep_search )
 		return NULL;
 	}
-	for ( sw i = 0; i < node->nodes.num(); i++ )
+	for ( ssize i = 0; i < scast(ssize, num(node->nodes)); i++ )
 	{
 		if ( ! str_compare( node->nodes[ i ].name, name ) )
 		{
@ -76,7 +76,7 @@ ADT_Node* adt_find( ADT_Node* node, char const* name, b32 deep_search )
 	if ( deep_search )
 	{
-		for ( sw i = 0; i < node->nodes.num(); i++ )
+		for ( ssize i = 0; i < scast(ssize, num(node->nodes)); i++ )
 		{
 			ADT_Node* res = adt_find( node->nodes + i, name, deep_search );
@ -111,7 +111,7 @@ internal ADT_Node* _adt_get_value( ADT_Node* node, char const* value )
 				file_stream_open( &tmp, heap(), ( u8* )back, size_of( back ), EFileStream_WRITABLE );
 				adt_print_number( &tmp, node );
-				sw  fsize = 0;
+				ssize  fsize = 0;
 				u8* buf   = file_stream_buf( &tmp, &fsize );
 				if ( ! str_compare( ( char const* )buf, value ) )
@ -132,7 +132,7 @@ internal ADT_Node* _adt_get_value( ADT_Node* node, char const* value )
 internal ADT_Node* _adt_get_field( ADT_Node* node, char* name, char* value )
 {
-	for ( sw i = 0; i < node->nodes.num(); i++ )
+	for ( ssize i = 0; i < scast(ssize, num(node->nodes)); i++ )
 	{
 		if ( ! str_compare( node->nodes[ i ].name, name ) )
 		{
@ -207,7 +207,7 @@ ADT_Node* adt_query( ADT_Node* node, char const* uri )
 			/* run a value comparison against any child that is an object node */
 			else if ( node->type == EADT_TYPE_ARRAY )
 			{
-				for ( sw i = 0; i < node->nodes.num(); i++ )
+				for ( ssize i = 0; i < scast(ssize, num(node->nodes)); i++ )
 				{
 					ADT_Node* child = &node->nodes[ i ];
 					if ( child->type != EADT_TYPE_OBJECT )
@ -225,7 +225,7 @@ ADT_Node* adt_query( ADT_Node* node, char const* uri )
 		/* [value] */
 		else
 		{
-			for ( sw i = 0; i < node->nodes.num(); i++ )
+			for ( ssize i = 0; i < scast(ssize, num(node->nodes)); i++ )
 			{
 				ADT_Node* child = &node->nodes[ i ];
 				if ( _adt_get_value( child, l_b2 ) )
@ -256,8 +256,8 @@ ADT_Node* adt_query( ADT_Node* node, char const* uri )
 	/* handle array index lookup */
 	else
 	{
-		sw idx = ( sw )str_to_i64( buf, NULL, 10 );
+		ssize idx = ( ssize )str_to_i64( buf, NULL, 10 );
-		if ( idx >= 0 && idx < node->nodes.num() )
+		if ( idx >= 0 && idx < scast(ssize, num(node->nodes)) )
 		{
 			found_node = &node->nodes[ idx ];
@ -272,7 +272,7 @@ ADT_Node* adt_query( ADT_Node* node, char const* uri )
 	return found_node;
 }
-ADT_Node* adt_alloc_at( ADT_Node* parent, sw index )
+ADT_Node* adt_alloc_at( ADT_Node* parent, ssize index )
 {
 	if ( ! parent || ( parent->type != EADT_TYPE_OBJECT && parent->type != EADT_TYPE_ARRAY ) )
 	{
@ -282,15 +282,16 @@ ADT_Node* adt_alloc_at( ADT_Node* parent, sw index )
 	if ( ! parent->nodes )
 		return NULL;
-	if ( index < 0 || index > parent->nodes.num() )
+	if ( index < 0 || index > scast(ssize, num(parent->nodes)) )
 		return NULL;
 	ADT_Node o = { 0 };
 	o.parent   = parent;
-	if ( ! parent->nodes.append_at( o, index ) )
+	if ( ! append_at( & parent->nodes, o, index ) )
 		return NULL;
-	return parent->nodes + index;
+	ADT_Node* node = & parent->nodes[index];
 	return node;
 }
 ADT_Node* adt_alloc( ADT_Node* parent )
@ -303,7 +304,7 @@ ADT_Node* adt_alloc( ADT_Node* parent )
 	if ( ! parent->nodes )
 		return NULL;
-	return adt_alloc_at( parent, parent->nodes.num() );
+	return adt_alloc_at( parent, num(parent->nodes) );
 }
 b8 adt_set_obj( ADT_Node* obj, char const* name, AllocatorInfo backing )
@ -337,7 +338,7 @@ b8 adt_set_int( ADT_Node* obj, char const* name, s64 value )
 	return true;
 }
-ADT_Node* adt_move_node_at( ADT_Node* node, ADT_Node* new_parent, sw index )
+ADT_Node* adt_move_node_at( ADT_Node* node, ADT_Node* new_parent, ssize index )
 {
 	GEN_ASSERT_NOT_NULL( node );
 	GEN_ASSERT_NOT_NULL( new_parent );
@ -357,7 +358,7 @@ ADT_Node* adt_move_node( ADT_Node* node, ADT_Node* new_parent )
 	GEN_ASSERT_NOT_NULL( node );
 	GEN_ASSERT_NOT_NULL( new_parent );
 	GEN_ASSERT( new_parent->type == EADT_TYPE_ARRAY || new_parent->type == EADT_TYPE_OBJECT );
-	return adt_move_node_at( node, new_parent, new_parent->nodes.num() );
+	return adt_move_node_at( node, new_parent, num(new_parent->nodes) );
 }
 void adt_swap_nodes( ADT_Node* node, ADT_Node* other_node )
@ -366,8 +367,8 @@ void adt_swap_nodes( ADT_Node* node, ADT_Node* other_node )
 	GEN_ASSERT_NOT_NULL( other_node );
 	ADT_Node* parent                     = node->parent;
 	ADT_Node* other_parent               = other_node->parent;
-	sw        index                      = ( pointer_diff( parent->nodes, node ) / size_of( ADT_Node ) );
+	ssize        index                      = ( pointer_diff( parent->nodes, node ) / size_of( ADT_Node ) );
-	sw        index2                     = ( pointer_diff( other_parent->nodes, other_node ) / size_of( ADT_Node ) );
+	ssize        index2                     = ( pointer_diff( other_parent->nodes, other_node ) / size_of( ADT_Node ) );
 	ADT_Node  temp                       = parent->nodes[ index ];
 	temp.parent                          = other_parent;
 	other_parent->nodes[ index2 ].parent = parent;
@ -380,8 +381,8 @@ void adt_remove_node( ADT_Node* node )
 	GEN_ASSERT_NOT_NULL( node );
 	GEN_ASSERT_NOT_NULL( node->parent );
 	ADT_Node* parent = node->parent;
-	sw        index  = ( pointer_diff( parent->nodes, node ) / size_of( ADT_Node ) );
+	ssize        index  = ( pointer_diff( parent->nodes, node ) / size_of( ADT_Node ) );
-	parent->nodes.remove_at( index );
+	remove_at( parent->nodes, index );
 }
 ADT_Node* adt_append_obj( ADT_Node* parent, char const* name )
@ -389,7 +390,7 @@ ADT_Node* adt_append_obj( ADT_Node* parent, char const* name )
 	ADT_Node* o = adt_alloc( parent );
 	if ( ! o )
 		return NULL;
-	if ( adt_set_obj( o, name, parent->nodes.get_header()->Allocator ) )
+	if ( adt_set_obj( o, name, get_header(parent->nodes)->Allocator ) )
 	{
 		adt_remove_node( o );
 		return NULL;
@ -402,7 +403,9 @@ ADT_Node* adt_append_arr( ADT_Node* parent, char const* name )
 	ADT_Node* o = adt_alloc( parent );
 	if ( ! o )
 		return NULL;
-	if ( adt_set_arr( o, name, parent->nodes.get_header()->Allocator ) )
+
 	ArrayHeader* node_header = get_header(parent->nodes);
 	if ( adt_set_arr( o, name, node_header->Allocator ) )
 	{
 		adt_remove_node( o );
 		return NULL;
@ -447,7 +450,7 @@ char* adt_parse_number_strict( ADT_Node* node, char* base_str )
 	while ( *e )
 		++e;
-	while ( *p && ( str_find( "eE.+-", *p ) || char_is_hex_digit( *p ) ) )
+	while ( *p && ( char_first_occurence( "eE.+-", *p ) || char_is_hex_digit( *p ) ) )
 	{
 		++p;
 	}
@ -476,7 +479,7 @@ char* adt_parse_number( ADT_Node* node, char* base_str )
 	u8        node_props = 0;
 	/* skip false positives and special cases */
-	if ( ! ! str_find( "eE", *p ) || ( ! ! str_find( ".+-", *p ) && ! char_is_hex_digit( *( p + 1 ) ) && *( p + 1 ) != '.' ) )
+	if ( ! ! char_first_occurence( "eE", *p ) || ( ! ! char_first_occurence( ".+-", *p ) && ! char_is_hex_digit( *( p + 1 ) ) && *( p + 1 ) != '.' ) )
 	{
 		return ++base_str;
 	}
@ -484,7 +487,7 @@ char* adt_parse_number( ADT_Node* node, char* base_str )
 	node_type = EADT_TYPE_INTEGER;
 	neg_zero  = false;
-	sw   ib        = 0;
+	ssize   ib        = 0;
 	char buf[ 48 ] = { 0 };
 	if ( *e == '+' )
@ -550,9 +553,9 @@ char* adt_parse_number( ADT_Node* node, char* base_str )
 	f32  eb          = 10;
 	char expbuf[ 6 ] = { 0 };
-	sw   expi        = 0;
+	ssize   expi        = 0;
-	if ( *e && ! ! str_find( "eE", *e ) )
+	if ( *e && ! ! char_first_occurence( "eE", *e ) )
 	{
 		++e;
 		if ( *e == '+' || *e == '-' || char_is_digit( *e ) )
@ -595,7 +598,7 @@ char* adt_parse_number( ADT_Node* node, char* base_str )
 #ifndef GEN_PARSER_DISABLE_ANALYSIS
 		char *q = buf, *base_string = q, *base_string2 = q;
-		base_string           = zpl_cast( char* ) str_skip( base_string, '.' );
+		base_string           = ccast( char*, str_skip( base_string, '.' ));
 		*base_string          = '\0';
 		base_string2          = base_string + 1;
 		char* base_string_off = base_string2;
@ -748,7 +751,7 @@ ADT_Error adt_print_string( FileInfo* file, ADT_Node* node, char const* escaped_
 	{
 		p = str_skip_any( p, escaped_chars );
 		_adt_fprintf( file, "%.*s", pointer_diff( b, p ), b );
-		if ( *p && ! ! str_find( escaped_chars, *p ) )
+		if ( *p && ! ! char_first_occurence( escaped_chars, *p ) )
 		{
 			_adt_fprintf( file, "%s%c", escape_symbol, *p );
 			p++;
@ -816,13 +819,13 @@ u8 csv_parse_delimiter( CSV_Object* root, char* text, AllocatorInfo allocator, b
 	char* beginChar;
 	char* endChar;
-	sw columnIndex       = 0;
+	ssize columnIndex       = 0;
-	sw totalColumnIndex = 0;
+	ssize totalColumnIndex = 0;
 	do
 	{
 		char delimiter = 0;
-		currentChar = zpl_cast( char* ) str_trim( currentChar, false );
+		currentChar = ccast( char*, str_trim( currentChar, false ));
 		if ( *currentChar == 0 )
 			break;
@ -846,7 +849,7 @@ u8 csv_parse_delimiter( CSV_Object* root, char* text, AllocatorInfo allocator, b
 		#endif
 			do
 			{
-				endChar = zpl_cast( char* ) str_skip( endChar, '"' );
+				endChar = ccast( char*, str_skip( endChar, '"' ));
 				if ( *endChar && *( endChar + 1 ) == '"' )
 				{
@ -865,7 +868,7 @@ u8 csv_parse_delimiter( CSV_Object* root, char* text, AllocatorInfo allocator, b
 			}
 			*endChar    = 0;
-			currentChar = zpl_cast( char* ) str_trim( endChar + 1, true );
+			currentChar = ccast( char*, str_trim( endChar + 1, true ));
 			delimiter   = * currentChar;
 			/* unescape escaped quotes (so that unescaped text escapes :) */
@ -902,7 +905,7 @@ u8 csv_parse_delimiter( CSV_Object* root, char* text, AllocatorInfo allocator, b
 			if ( * endChar )
 			{
-				currentChar = zpl_cast( char* ) str_trim( endChar, true );
+				currentChar = ccast( char*, str_trim( endChar, true ));
 				while ( char_is_space( *( endChar - 1 ) ) )
 				{
@ -946,12 +949,12 @@ u8 csv_parse_delimiter( CSV_Object* root, char* text, AllocatorInfo allocator, b
 			}
 		}
-		if ( columnIndex >= root->nodes.num() )
+		if ( columnIndex >= scast(ssize, num(root->nodes)) )
 		{
 			adt_append_arr( root, NULL );
 		}
-		root->nodes[ columnIndex ].nodes.append( rowItem );
+		append( & root->nodes[ columnIndex ].nodes, rowItem );
 		if ( delimiter == delim )
 		{
@ -979,7 +982,7 @@ u8 csv_parse_delimiter( CSV_Object* root, char* text, AllocatorInfo allocator, b
 	}
 	while ( *currentChar );
-	if ( root->nodes.num() == 0 )
+	if (num( root->nodes) == 0 )
 	{
 		GEN_CSV_ASSERT( "unexpected end of input. stream is empty." );
 		error = ECSV_Error__UNEXPECTED_END_OF_INPUT;
@ -989,12 +992,12 @@ u8 csv_parse_delimiter( CSV_Object* root, char* text, AllocatorInfo allocator, b
 	/* consider first row as a header. */
 	if ( has_header )
 	{
-		for ( sw i = 0; i < root->nodes.num(); i++ )
+		for ( ssize i = 0; i < scast(ssize, num(root->nodes)); i++ )
 		{
 			CSV_Object* col = root->nodes + i;
 			CSV_Object* hdr = col->nodes;
 			col->name       = hdr->string;
-			col->nodes.remove_at( 0 );
+			remove_at(col->nodes, 0 );
 		}
 	}
@ -1057,11 +1060,11 @@ void csv_write_delimiter( FileInfo* file, CSV_Object* obj, char delimiter )
 	GEN_ASSERT_NOT_NULL( file );
 	GEN_ASSERT_NOT_NULL( obj );
 	GEN_ASSERT( obj->nodes );
-	sw cols = obj->nodes.num();
+	ssize cols = num(obj->nodes);
 	if ( cols == 0 )
 		return;
-	sw rows = obj->nodes[ 0 ].nodes.num();
+	ssize rows = num(obj->nodes[ 0 ].nodes);
 	if ( rows == 0 )
 		return;
@ -1069,7 +1072,7 @@ void csv_write_delimiter( FileInfo* file, CSV_Object* obj, char delimiter )
 	if ( has_headers )
 	{
-		for ( sw i = 0; i < cols; i++ )
+		for ( ssize i = 0; i < cols; i++ )
 		{
 			_csv_write_header( file, &obj->nodes[ i ] );
 			if ( i + 1 != cols )
@ -1080,9 +1083,9 @@ void csv_write_delimiter( FileInfo* file, CSV_Object* obj, char delimiter )
 		str_fmt_file( file, "\n" );
 	}
-	for ( sw r = 0; r < rows; r++ )
+	for ( ssize r = 0; r < rows; r++ )
 	{
-		for ( sw i = 0; i < cols; i++ )
+		for ( ssize i = 0; i < cols; i++ )
 		{
 			_csv_write_record( file, &obj->nodes[ i ].nodes[ r ] );
 			if ( i + 1 != cols )
@ -1099,9 +1102,10 @@ String csv_write_string_delimiter( AllocatorInfo a, CSV_Object* obj, char delimi
 	FileInfo tmp;
 	file_stream_new( &tmp, a );
 	csv_write_delimiter( &tmp, obj, delimiter );
-	sw     fsize;
+
 	ssize  fsize;
 	u8*    buf    = file_stream_buf( &tmp, &fsize );
-	String output = String::make_length( a, ( char* )buf, fsize );
+	String output = string_make_length( a, ( char* )buf, fsize );
 	file_close( &tmp );
 	return output;
 }
--- a/project/dependencies/parsing.hpp
+++ b/project/dependencies/parsing.hpp
@ -83,7 +83,7 @@ struct ADT_Node
 	union
 	{
 		char const*     string;
-		Array<ADT_Node> nodes;    ///< zpl_array
+		Array(ADT_Node) nodes;    ///< zpl_array
 		struct
 		{
@ -178,7 +178,7 @@ ADT_Node* adt_find( ADT_Node* node, char const* name, b32 deep_search );
 	* @param index
 	* @return zpl_adt_node * node
 	*/
-ADT_Node* adt_alloc_at( ADT_Node* parent, sw index );
+ADT_Node* adt_alloc_at( ADT_Node* parent, ssize index );
 /**
 	* @brief Allocate an unitialised node within a container.
@ -196,7 +196,7 @@ ADT_Node* adt_alloc( ADT_Node* parent );
 	* @param index
 	* @return zpl_adt_node * node
 	*/
-ADT_Node* adt_move_node_at( ADT_Node* node, ADT_Node* new_parent, sw index );
+ADT_Node* adt_move_node_at( ADT_Node* node, ADT_Node* new_parent, ssize index );
 /**
 	* @brief Move an existing node to a new container.
@ -400,31 +400,33 @@ enum CSV_Error : u32
 typedef ADT_Node CSV_Object;
-GEN_DEF_INLINE u8 csv_parse( CSV_Object* root, char* text, AllocatorInfo allocator, b32 has_header );
+u8   csv_parse( CSV_Object* root, char* text, AllocatorInfo allocator, b32 has_header );
-u8                csv_parse_delimiter( CSV_Object* root, char* text, AllocatorInfo allocator, b32 has_header, char delim );
+u8   csv_parse_delimiter( CSV_Object* root, char* text, AllocatorInfo allocator, b32 has_header, char delim );
-void              csv_free( CSV_Object* obj );
+void csv_free( CSV_Object* obj );
-GEN_DEF_INLINE void   csv_write( FileInfo* file, CSV_Object* obj );
+void   csv_write( FileInfo* file, CSV_Object* obj );
-GEN_DEF_INLINE String csv_write_string( AllocatorInfo a, CSV_Object* obj );
+String csv_write_string( AllocatorInfo a, CSV_Object* obj );
-void                  csv_write_delimiter( FileInfo* file, CSV_Object* obj, char delim );
+void   csv_write_delimiter( FileInfo* file, CSV_Object* obj, char delim );
-String                csv_write_string_delimiter( AllocatorInfo a, CSV_Object* obj, char delim );
+String csv_write_string_delimiter( AllocatorInfo a, CSV_Object* obj, char delim );
 /* inline */
-GEN_IMPL_INLINE u8 csv_parse( CSV_Object* root, char* text, AllocatorInfo allocator, b32 has_header )
+inline
 u8 csv_parse( CSV_Object* root, char* text, AllocatorInfo allocator, b32 has_header )
 {
 	return csv_parse_delimiter( root, text, allocator, has_header, ',' );
 }
-GEN_IMPL_INLINE void csv_write( FileInfo* file, CSV_Object* obj )
+inline
 void csv_write( FileInfo* file, CSV_Object* obj )
 {
 	csv_write_delimiter( file, obj, ',' );
 }
-GEN_IMPL_INLINE String csv_write_string( AllocatorInfo a, CSV_Object* obj )
+inline
 String csv_write_string( AllocatorInfo a, CSV_Object* obj )
 {
 	return csv_write_string_delimiter( a, obj, ',' );
 }
 #pragma endregion CSV
--- a/project/dependencies/header_start.hpp
+++ b/project/dependencies/header_start.hpp
@ -1,4 +1,6 @@
-#pragma once
+#ifdef GEN_INTELLISENSE_DIRECTIVES
 #	pragma once
 #endif
 #pragma region Platform Detection
@ -74,13 +76,18 @@
 /* Platform compiler */
 #if defined( _MSC_VER )
-#	define GEN_COMPILER_MSVC 1
+#	define GEN_COMPILER_CLANG 0
 #	define GEN_COMPILER_MSVC  1
 #	define GEN_COMPILER_GCC   0
 #elif defined( __GNUC__ )
-#	define GEN_COMPILER_GCC 1
+#	define GEN_COMPILER_CLANG 0
 #	define GEN_COMPILER_MSVC  0
 #	define GEN_COMPILER_GCC   1
 #elif defined( __clang__ )
 #	define GEN_COMPILER_CLANG 1
-#elif defined( __MINGW32__ )
+#	define GEN_COMPILER_MSVC  0
-#	define GEN_COMPILER_MINGW 1
+#	define GEN_COMPILER_GCC   1
 #else
 #	error Unknown compiler
 #endif
@ -99,8 +106,13 @@
 #  define GEN_GCC_VERSION_CHECK(major,minor,patch) (0)
 #endif
-#define GEN_DEF_INLINE  static
+#ifndef GEN_COMPILER_C
-#define GEN_IMPL_INLINE static inline
+#	if defined(__STDC_VERSION__)
 #		define GEN_COMPILER_C 1
 #	else
 #		define GEN_COMPILER_C 0
 #	endif
 #endif
 #pragma endregion Platform Detection
@ -113,13 +125,29 @@
 #		include <intrin.h>
 #	endif
 #if GEN_COMPILER_C
 #include <assert.h>
 #endif
 #pragma endregion Mandatory Includes
-#ifdef GEN_DONT_USE_NAMESPACE
+#if GEN_DONT_USE_NAMESPACE || GEN_COMPILER_C
-#	define GEN_NS
+#	if GEN_COMPILER_C
-#	define GEN_NS_BEGIN
+#		define GEN_NS_ENUM_BEGIN
-#	define GEN_NS_END
+#		define GEN_NS_ENUM_END
 #		define GEN_NS
 #		define GEN_NS_BEGIN
 #		define GEN_NS_END
 #	else
 #		define GEN_NS_ENUM_BEGIN namespace gen_internal_enums {
 #		define GEN_NS_ENUM_END   }
 #		define GEN_NS       ::
 #		define GEN_NS_BEGIN
 #		define GEN_NS_END
 #	endif
 #else
 #	define GEN_NS_ENUM_BEGIN namespace gen_internal_enums {
 #	define GEN_NS_ENUM_END   }
 #	define GEN_NS       gen::
 #	define GEN_NS_BEGIN namespace gen {
 #	define GEN_NS_END   }
--- a/project/dependencies/printing.cpp
+++ b/project/dependencies/printing.cpp
@ -41,10 +41,10 @@ struct _format_info
 	s32 precision;
 };
-internal sw _print_string( char* text, sw max_len, _format_info* info, char const* str )
+internal ssize _print_string( char* text, ssize max_len, _format_info* info, char const* str )
 {
-	sw    res = 0, len = 0;
+	ssize    res = 0, len = 0;
-	sw    remaining = max_len;
+	ssize    remaining = max_len;
 	char* begin     = text;
 	if ( str == NULL && max_len >= 6 )
@ -75,7 +75,7 @@ internal sw _print_string( char* text, sw max_len, _format_info* info, char cons
 		if ( info->width > res )
 		{
-			sw padding = info->width - len;
+			ssize padding = info->width - len;
 			char pad = ( info->flags & GEN_FMT_ZERO ) ? '0' : ' ';
 			while ( padding-- > 0 && remaining-- > 0 )
@ -86,7 +86,7 @@ internal sw _print_string( char* text, sw max_len, _format_info* info, char cons
 	{
 		if ( info && ( info->width > res ) )
 		{
-			sw   padding = info->width - len;
+			ssize   padding = info->width - len;
 			char pad     = ( info->flags & GEN_FMT_ZERO ) ? '0' : ' ';
 			while ( padding-- > 0 && remaining-- > 0 )
 				*text++ = pad, res++;
@ -108,16 +108,16 @@ internal sw _print_string( char* text, sw max_len, _format_info* info, char cons
 	return res;
 }
-internal sw _print_char( char* text, sw max_len, _format_info* info, char arg )
+internal ssize _print_char( char* text, ssize max_len, _format_info* info, char arg )
 {
 	char str[ 2 ] = "";
 	str[ 0 ]      = arg;
 	return _print_string( text, max_len, info, str );
 }
-internal sw _print_repeated_char( char* text, sw max_len, _format_info* info, char arg )
+internal ssize _print_repeated_char( char* text, ssize max_len, _format_info* info, char arg )
 {
-	sw  res = 0;
+	ssize  res = 0;
 	s32 rem = ( info ) ? ( info->width > 0 ) ? info->width : 1 : 1;
 	res     = rem;
 	while ( rem-- > 0 )
@ -126,24 +126,24 @@ internal sw _print_repeated_char( char* text, sw max_len, _format_info* info, ch
 	return res;
 }
-internal sw _print_i64( char* text, sw max_len, _format_info* info, s64 value )
+internal ssize _print_i64( char* text, ssize max_len, _format_info* info, s64 value )
 {
 	char num[ 130 ];
 	i64_to_str( value, num, info ? info->base : 10 );
 	return _print_string( text, max_len, info, num );
 }
-internal sw _print_u64( char* text, sw max_len, _format_info* info, u64 value )
+internal ssize _print_u64( char* text, ssize max_len, _format_info* info, u64 value )
 {
 	char num[ 130 ];
 	u64_to_str( value, num, info ? info->base : 10 );
 	return _print_string( text, max_len, info, num );
 }
-internal sw _print_f64( char* text, sw max_len, _format_info* info, b32 is_hexadecimal, f64 arg )
+internal ssize _print_f64( char* text, ssize max_len, _format_info* info, b32 is_hexadecimal, f64 arg )
 {
 	// TODO: Handle exponent notation
-	sw    width, len, remaining = max_len;
+	ssize    width, len, remaining = max_len;
 	char* text_begin = text;
 	if ( arg )
@ -163,7 +163,7 @@ internal sw _print_f64( char* text, sw max_len, _format_info* info, b32 is_hexad
 			text++;
 		}
-		value  = zpl_cast( u64 ) arg;
+		value  = scast( u64, arg);
 		len    = _print_u64( text, remaining, NULL, value );
 		text  += len;
@ -184,14 +184,14 @@ internal sw _print_f64( char* text, sw max_len, _format_info* info, b32 is_hexad
 			text++;
 			while ( info->precision-- > 0 )
 			{
-				value  = zpl_cast( u64 )( arg * mult );
+				value  = scast( u64, arg * mult );
 				len    = _print_u64( text, remaining, NULL, value );
 				text  += len;
 				if ( len >= remaining )
 					remaining = min( remaining, 1 );
 				else
 					remaining -= len;
-				arg  -= zpl_cast( f64 ) value / mult;
+				arg  -= scast( f64, value / mult);
 				mult *= 10;
 			}
 		}
@ -239,15 +239,15 @@ internal sw _print_f64( char* text, sw max_len, _format_info* info, b32 is_hexad
 	return ( text - text_begin );
 }
-neverinline sw str_fmt_va( char* text, sw max_len, char const* fmt, va_list va )
+neverinline ssize str_fmt_va( char* text, ssize max_len, char const* fmt, va_list va )
 {
 	char const* text_begin = text;
-	sw          remaining  = max_len, res;
+	ssize          remaining  = max_len, res;
 	while ( *fmt )
 	{
 		_format_info info = { 0 };
-		sw           len  = 0;
+		ssize           len  = 0;
 		info.precision    = -1;
 		while ( *fmt && *fmt != '%' && remaining )
@ -311,7 +311,7 @@ neverinline sw str_fmt_va( char* text, sw max_len, char const* fmt, va_list va )
 		}
 		else
 		{
-			info.width = zpl_cast( s32 ) str_to_i64( fmt, zpl_cast( char** ) & fmt, 10 );
+			info.width = scast( s32, str_to_i64( fmt, ccast( char**, & fmt), 10 ));
 			if ( info.width != 0 )
 			{
 				info.flags |= GEN_FMT_WIDTH;
@ -329,7 +329,7 @@ neverinline sw str_fmt_va( char* text, sw max_len, char const* fmt, va_list va )
 			}
 			else
 			{
-				info.precision = zpl_cast( s32 ) str_to_i64( fmt, zpl_cast( char** ) & fmt, 10 );
+				info.precision = scast( s32, str_to_i64( fmt, ccast( char**, & fmt), 10 ));
 			}
 			info.flags &= ~GEN_FMT_ZERO;
 		}
@ -411,7 +411,7 @@ neverinline sw str_fmt_va( char* text, sw max_len, char const* fmt, va_list va )
 				break;
 			case 'c' :
-				len = _print_char( text, remaining, &info, zpl_cast( char ) va_arg( va, int ) );
+				len = _print_char( text, remaining, &info, scast( char, va_arg( va, int ) ));
 				break;
 			case 's' :
@ -422,7 +422,7 @@ neverinline sw str_fmt_va( char* text, sw max_len, char const* fmt, va_list va )
 			{
 				String gen_str = String { va_arg( va, char*) };
-				info.precision = gen_str.length();
+				info.precision = length(gen_str);
 				len            = _print_string( text, remaining, &info, gen_str );
 			}
 			break;
@ -455,25 +455,25 @@ neverinline sw str_fmt_va( char* text, sw max_len, char const* fmt, va_list va )
 				switch ( info.flags & GEN_FMT_INTS )
 				{
 					case GEN_FMT_CHAR :
-						value = zpl_cast( u64 ) zpl_cast( u8 ) va_arg( va, int );
+						value = scast( u64, scast( u8, va_arg( va, int )));
 						break;
 					case GEN_FMT_SHORT :
-						value = zpl_cast( u64 ) zpl_cast( u16 ) va_arg( va, int );
+						value = scast( u64, scast( u16, va_arg( va, int )));
 						break;
-					case GEN_FMT_LONG :
+					case GEN_FMT_LONG:
-						value = zpl_cast( u64 ) va_arg( va, unsigned long );
+						value = scast( u64, va_arg( va, unsigned long ));
 						break;
 					case GEN_FMT_LLONG :
-						value = zpl_cast( u64 ) va_arg( va, unsigned long long );
+						value = scast( u64, va_arg( va, unsigned long long ));
 						break;
 					case GEN_FMT_SIZE :
-						value = zpl_cast( u64 ) va_arg( va, uw );
+						value = scast( u64, va_arg( va, usize ));
 						break;
 					case GEN_FMT_INTPTR :
-						value = zpl_cast( u64 ) va_arg( va, uptr );
+						value = scast( u64, va_arg( va, uptr ));
 						break;
 					default :
-						value = zpl_cast( u64 ) va_arg( va, unsigned int );
+						value = scast( u64, va_arg( va, unsigned int ));
 						break;
 				}
@ -485,25 +485,25 @@ neverinline sw str_fmt_va( char* text, sw max_len, char const* fmt, va_list va )
 				switch ( info.flags & GEN_FMT_INTS )
 				{
 					case GEN_FMT_CHAR :
-						value = zpl_cast( s64 ) zpl_cast( s8 ) va_arg( va, int );
+						value = scast( s64, scast( s8, va_arg( va, int )));
 						break;
 					case GEN_FMT_SHORT :
-						value = zpl_cast( s64 ) zpl_cast( s16 ) va_arg( va, int );
+						value = scast( s64, scast( s16, va_arg( va, int )));
 						break;
 					case GEN_FMT_LONG :
-						value = zpl_cast( s64 ) va_arg( va, long );
+						value = scast( s64, va_arg( va, long ));
 						break;
 					case GEN_FMT_LLONG :
-						value = zpl_cast( s64 ) va_arg( va, long long );
+						value = scast( s64, va_arg( va, long long ));
 						break;
 					case GEN_FMT_SIZE :
-						value = zpl_cast( s64 ) va_arg( va, uw );
+						value = scast( s64, va_arg( va, usize ));
 						break;
 					case GEN_FMT_INTPTR :
-						value = zpl_cast( s64 ) va_arg( va, uptr );
+						value = scast( s64, va_arg( va, uptr ));
 						break;
 					default :
-						value = zpl_cast( s64 ) va_arg( va, int );
+						value = scast( s64, va_arg( va, int ));
 						break;
 				}
@ -540,17 +540,17 @@ char* str_fmt_buf( char const* fmt, ... )
 	return str;
 }
-sw str_fmt_file_va( struct FileInfo* f, char const* fmt, va_list va )
+ssize str_fmt_file_va( struct FileInfo* f, char const* fmt, va_list va )
 {
 	local_persist thread_local char buf[ GEN_PRINTF_MAXLEN ];
-	sw                              len = str_fmt_va( buf, size_of( buf ), fmt, va );
+	ssize                              len = str_fmt_va( buf, size_of( buf ), fmt, va );
 	b32                             res = file_write( f, buf, len - 1 );    // NOTE: prevent extra whitespace
 	return res ? len : -1;
 }
-sw str_fmt_file( struct FileInfo* f, char const* fmt, ... )
+ssize str_fmt_file( struct FileInfo* f, char const* fmt, ... )
 {
-	sw      res;
+	ssize      res;
 	va_list va;
 	va_start( va, fmt );
 	res = str_fmt_file_va( f, fmt, va );
@ -558,9 +558,9 @@ sw str_fmt_file( struct FileInfo* f, char const* fmt, ... )
 	return res;
 }
-sw str_fmt( char* str, sw n, char const* fmt, ... )
+ssize str_fmt( char* str, ssize n, char const* fmt, ... )
 {
-	sw      res;
+	ssize      res;
 	va_list va;
 	va_start( va, fmt );
 	res = str_fmt_va( str, n, fmt, va );
@ -568,19 +568,19 @@ sw str_fmt( char* str, sw n, char const* fmt, ... )
 	return res;
 }
-sw str_fmt_out_va( char const* fmt, va_list va )
+ssize str_fmt_out_va( char const* fmt, va_list va )
 {
 	return str_fmt_file_va( file_get_standard( EFileStandard_OUTPUT ), fmt, va );
 }
-sw str_fmt_out_err_va( char const* fmt, va_list va )
+ssize str_fmt_out_err_va( char const* fmt, va_list va )
 {
 	return str_fmt_file_va( file_get_standard( EFileStandard_ERROR ), fmt, va );
 }
-sw str_fmt_out_err( char const* fmt, ... )
+ssize str_fmt_out_err( char const* fmt, ... )
 {
-	sw      res;
+	ssize      res;
 	va_list va;
 	va_start( va, fmt );
 	res = str_fmt_out_err_va( fmt, va );
--- a/project/dependencies/printing.hpp
+++ b/project/dependencies/printing.hpp
@ -12,23 +12,23 @@ struct FileInfo;
 #endif
 // NOTE: A locally persisting buffer is used internally
-char* str_fmt_buf       ( char const* fmt, ... );
+char*  str_fmt_buf       ( char const* fmt, ... );
-char* str_fmt_buf_va    ( char const* fmt, va_list va );
+char*  str_fmt_buf_va    ( char const* fmt, va_list va );
-sw    str_fmt           ( char* str, sw n, char const* fmt, ... );
+ssize  str_fmt           ( char* str, ssize n, char const* fmt, ... );
-sw    str_fmt_va        ( char* str, sw n, char const* fmt, va_list va );
+ssize  str_fmt_va        ( char* str, ssize n, char const* fmt, va_list va );
-sw    str_fmt_out_va    ( char const* fmt, va_list va );
+ssize  str_fmt_out_va    ( char const* fmt, va_list va );
-sw    str_fmt_out_err   ( char const* fmt, ... );
+ssize  str_fmt_out_err   ( char const* fmt, ... );
-sw    str_fmt_out_err_va( char const* fmt, va_list va );
+ssize  str_fmt_out_err_va( char const* fmt, va_list va );
-sw    str_fmt_file      ( FileInfo* f, char const* fmt, ... );
+ssize  str_fmt_file      ( FileInfo* f, char const* fmt, ... );
-sw    str_fmt_file_va   ( FileInfo* f, char const* fmt, va_list va );
+ssize  str_fmt_file_va   ( FileInfo* f, char const* fmt, va_list va );
 constexpr
 char const* Msg_Invalid_Value = "INVALID VALUE PROVIDED";
 inline
-sw log_fmt(char const* fmt, ...)
+ssize log_fmt(char const* fmt, ...)
 {
-	sw res;
+	ssize res;
 	va_list va;
 	va_start(va, fmt);
--- a/project/dependencies/string_ops.cpp
+++ b/project/dependencies/string_ops.cpp
@ -7,7 +7,7 @@
 #pragma region String Ops
 internal
-sw _scan_zpl_i64( const char* text, s32 base, s64* value )
+ssize _scan_zpl_i64( const char* text, s32 base, s64* value )
 {
 	const char* text_begin = text;
 	s64         result     = 0;
@ -56,7 +56,7 @@ global const char _num_to_char_table[] =
 s64 str_to_i64( const char* str, char** end_ptr, s32 base )
 {
-	sw  len;
+	ssize  len;
 	s64 value;
 	if ( ! base )
@ -85,7 +85,7 @@ void i64_to_str( s64 value, char* string, s32 base )
 		value    = -value;
 	}
-	v = zpl_cast( u64 ) value;
+	v = scast( u64, value);
 	if ( v != 0 )
 	{
 		while ( v > 0 )
@ -207,7 +207,7 @@ f64 str_to_f64( const char* str, char** end_ptr )
 	result = sign * ( frac ? ( value / scale ) : ( value * scale ) );
 	if ( end_ptr )
-		*end_ptr = zpl_cast( char* ) str;
+		* end_ptr = rcast( char*, ccast(char*, str) );
 	return result;
 }
--- a/project/dependencies/string_ops.hpp
+++ b/project/dependencies/string_ops.hpp
@ -5,41 +5,41 @@
 #pragma region String Ops
-GEN_DEF_INLINE const char* char_first_occurence( const char* str, char c );
+const char* char_first_occurence( const char* str, char c );
 constexpr auto str_find = &char_first_occurence;
-GEN_DEF_INLINE b32   char_is_alpha( char c );
+b32   char_is_alpha( char c );
-GEN_DEF_INLINE b32   char_is_alphanumeric( char c );
+b32   char_is_alphanumeric( char c );
-GEN_DEF_INLINE b32   char_is_digit( char c );
+b32   char_is_digit( char c );
-GEN_DEF_INLINE b32   char_is_hex_digit( char c );
+b32   char_is_hex_digit( char c );
-GEN_DEF_INLINE b32   char_is_space( char c );
+b32   char_is_space( char c );
-GEN_DEF_INLINE char  char_to_lower( char c );
+char  char_to_lower( char c );
-GEN_DEF_INLINE char  char_to_upper( char c );
+char  char_to_upper( char c );
-GEN_DEF_INLINE s32  digit_to_int( char c );
+s32  digit_to_int( char c );
-GEN_DEF_INLINE s32  hex_digit_to_int( char c );
+s32  hex_digit_to_int( char c );
-GEN_DEF_INLINE s32         str_compare( const char* s1, const char* s2 );
+s32         str_compare( const char* s1, const char* s2 );
-GEN_DEF_INLINE s32         str_compare( const char* s1, const char* s2, sw len );
+s32         str_compare( const char* s1, const char* s2, ssize len );
-GEN_DEF_INLINE char*       str_copy( char* dest, const char* source, sw len );
+char*       str_copy( char* dest, const char* source, ssize len );
-GEN_DEF_INLINE sw          str_copy_nulpad( char* dest, const char* source, sw len );
+ssize       str_copy_nulpad( char* dest, const char* source, ssize len );
-GEN_DEF_INLINE sw          str_len( const char* str );
+ssize       str_len( const char* str );
-GEN_DEF_INLINE sw          str_len( const char* str, sw max_len );
+ssize       str_len( const char* str, ssize max_len );
-GEN_DEF_INLINE char*       str_reverse( char* str );    // NOTE: ASCII only
+char*       str_reverse( char* str );    // NOTE: ASCII only
-GEN_DEF_INLINE char const* str_skip( char const* str, char c );
+char const* str_skip( char const* str, char c );
-GEN_DEF_INLINE char const* str_skip_any( char const* str, char const* char_list );
+char const* str_skip_any( char const* str, char const* char_list );
-GEN_DEF_INLINE char const* str_trim( char const* str, b32 catch_newline );
+char const* str_trim( char const* str, b32 catch_newline );
 // NOTE: ASCII only
-GEN_DEF_INLINE void str_to_lower( char* str );
+void str_to_lower( char* str );
-GEN_DEF_INLINE void str_to_upper( char* str );
+void str_to_upper( char* str );
 s64  str_to_i64( const char* str, char** end_ptr, s32 base );
 void i64_to_str( s64 value, char* string, s32 base );
 void u64_to_str( u64 value, char* string, s32 base );
 f64  str_to_f64( const char* str, char** end_ptr );
-GEN_IMPL_INLINE const char* char_first_occurence( const char* s, char c )
+inline
 const char* char_first_occurence( const char* s, char c )
 {
 	char ch = c;
 	for ( ; *s != ch; s++ )
@ -50,59 +50,67 @@ GEN_IMPL_INLINE const char* char_first_occurence( const char* s, char c )
 	return s;
 }
-GEN_IMPL_INLINE b32 char_is_alpha( char c )
+inline
 b32 char_is_alpha( char c )
 {
 	if ( ( c >= 'A' && c <= 'Z' ) || ( c >= 'a' && c <= 'z' ) )
 		return true;
 	return false;
 }
-GEN_IMPL_INLINE b32 char_is_alphanumeric( char c )
+inline
 b32 char_is_alphanumeric( char c )
 {
 	return char_is_alpha( c ) || char_is_digit( c );
 }
-GEN_IMPL_INLINE b32 char_is_digit( char c )
+inline
 b32 char_is_digit( char c )
 {
 	if ( c >= '0' && c <= '9' )
 		return true;
 	return false;
 }
-GEN_IMPL_INLINE b32 char_is_hex_digit( char c )
+inline
 b32 char_is_hex_digit( char c )
 {
 	if ( char_is_digit( c ) || ( c >= 'a' && c <= 'f' ) || ( c >= 'A' && c <= 'F' ) )
 		return true;
 	return false;
 }
-GEN_IMPL_INLINE b32 char_is_space( char c )
+inline
 b32 char_is_space( char c )
 {
 	if ( c == ' ' || c == '\t' || c == '\n' || c == '\r' || c == '\f' || c == '\v' )
 		return true;
 	return false;
 }
-GEN_IMPL_INLINE char char_to_lower( char c )
+inline
 char char_to_lower( char c )
 {
 	if ( c >= 'A' && c <= 'Z' )
 		return 'a' + ( c - 'A' );
 	return c;
 }
-GEN_IMPL_INLINE char char_to_upper( char c )
+inline char char_to_upper( char c )
 {
 	if ( c >= 'a' && c <= 'z' )
 		return 'A' + ( c - 'a' );
 	return c;
 }
-GEN_IMPL_INLINE s32 digit_to_int( char c )
+inline
 s32 digit_to_int( char c )
 {
 	return char_is_digit( c ) ? c - '0' : c - 'W';
 }
-GEN_IMPL_INLINE s32 hex_digit_to_int( char c )
+inline
 s32 hex_digit_to_int( char c )
 {
 	if ( char_is_digit( c ) )
 		return digit_to_int( c );
@ -113,7 +121,8 @@ GEN_IMPL_INLINE s32 hex_digit_to_int( char c )
 	return -1;
 }
-GEN_IMPL_INLINE s32 str_compare( const char* s1, const char* s2 )
+inline
 s32 str_compare( const char* s1, const char* s2 )
 {
 	while ( *s1 && ( *s1 == *s2 ) )
 	{
@ -122,7 +131,8 @@ GEN_IMPL_INLINE s32 str_compare( const char* s1, const char* s2 )
 	return *( u8* )s1 - *( u8* )s2;
 }
-GEN_IMPL_INLINE s32 str_compare( const char* s1, const char* s2, sw len )
+inline
 s32 str_compare( const char* s1, const char* s2, ssize len )
 {
 	for ( ; len > 0; s1++, s2++, len-- )
 	{
@ -134,7 +144,8 @@ GEN_IMPL_INLINE s32 str_compare( const char* s1, const char* s2, sw len )
 	return 0;
 }
-GEN_IMPL_INLINE char* str_copy( char* dest, const char* source, sw len )
+inline
 char* str_copy( char* dest, const char* source, ssize len )
 {
 	GEN_ASSERT_NOT_NULL( dest );
 	if ( source )
@ -154,9 +165,10 @@ GEN_IMPL_INLINE char* str_copy( char* dest, const char* source, sw len )
 	return dest;
 }
-GEN_IMPL_INLINE sw str_copy_nulpad( char* dest, const char* source, sw len )
+inline
 ssize str_copy_nulpad( char* dest, const char* source, ssize len )
 {
-	sw result = 0;
+	ssize result = 0;
 	GEN_ASSERT_NOT_NULL( dest );
 	if ( source )
 	{
@ -178,7 +190,8 @@ GEN_IMPL_INLINE sw str_copy_nulpad( char* dest, const char* source, sw len )
 	return result;
 }
-GEN_IMPL_INLINE sw str_len( const char* str )
+inline
 ssize str_len( const char* str )
 {
 	if ( str == NULL )
 	{
@ -190,17 +203,19 @@ GEN_IMPL_INLINE sw str_len( const char* str )
 	return str - p;
 }
-GEN_IMPL_INLINE sw str_len( const char* str, sw max_len )
+inline
 ssize str_len( const char* str, ssize max_len )
 {
-	const char* end = zpl_cast( const char* ) mem_find( str, 0, max_len );
+	const char* end = rcast(const char*, mem_find( str, 0, max_len ));
 	if ( end )
 		return end - str;
 	return max_len;
 }
-GEN_IMPL_INLINE char* str_reverse( char* str )
+inline
 char* str_reverse( char* str )
 {
-	sw    len  = str_len( str );
+	ssize    len  = str_len( str );
 	char* a    = str + 0;
 	char* b    = str + len - 1;
 	len       /= 2;
@ -212,7 +227,8 @@ GEN_IMPL_INLINE char* str_reverse( char* str )
 	return str;
 }
-GEN_IMPL_INLINE char const* str_skip( char const* str, char c )
+inline
 char const* str_skip( char const* str, char c )
 {
 	while ( *str && *str != c )
 	{
@ -221,11 +237,12 @@ GEN_IMPL_INLINE char const* str_skip( char const* str, char c )
 	return str;
 }
-GEN_IMPL_INLINE char const* str_skip_any( char const* str, char const* char_list )
+inline
 char const* str_skip_any( char const* str, char const* char_list )
 {
-	char const* closest_ptr     = zpl_cast( char const* ) pointer_add( ( void* )str, str_len( str ) );
+	char const* closest_ptr     = rcast( char const*, pointer_add_const( rcast(void const*, str), str_len( str ) ));
-	sw          char_list_count = str_len( char_list );
+	ssize       char_list_count = str_len( char_list );
-	for ( sw i = 0; i < char_list_count; i++ )
+	for ( ssize i = 0; i < char_list_count; i++ )
 	{
 		char const* p = str_skip( str, char_list[ i ] );
 		closest_ptr   = min( closest_ptr, p );
@ -233,7 +250,8 @@ GEN_IMPL_INLINE char const* str_skip_any( char const* str, char const* char_list
 	return closest_ptr;
 }
-GEN_IMPL_INLINE char const* str_trim( char const* str, b32 catch_newline )
+inline
 char const* str_trim( char const* str, b32 catch_newline )
 {
 	while ( *str && char_is_space( *str ) && ( ! catch_newline || ( catch_newline && *str != '\n' ) ) )
 	{
@ -242,7 +260,8 @@ GEN_IMPL_INLINE char const* str_trim( char const* str, b32 catch_newline )
 	return str;
 }
-GEN_IMPL_INLINE void str_to_lower( char* str )
+inline
 void str_to_lower( char* str )
 {
 	if ( ! str )
 		return;
@ -253,7 +272,8 @@ GEN_IMPL_INLINE void str_to_lower( char* str )
 	}
 }
-GEN_IMPL_INLINE void str_to_upper( char* str )
+inline
 void str_to_upper( char* str )
 {
 	if ( ! str )
 		return;
--- a/project/dependencies/strings.cpp
+++ b/project/dependencies/strings.cpp
@ -4,20 +4,9 @@
 #endif
 #pragma region String
-
+String string_make_length( AllocatorInfo allocator, char const* str, ssize length )
 String String::fmt( AllocatorInfo allocator, char* buf, sw buf_size, char const* fmt, ... )
 {
-	va_list va;
+	constexpr ssize header_size = sizeof( StringHeader );
 	va_start( va, fmt );
 	str_fmt_va( buf, buf_size, fmt, va );
 	va_end( va );
 	return make( allocator, buf );
 }
 String String::make_length( AllocatorInfo allocator, char const* str, sw length )
 {
 	constexpr sw header_size = sizeof( Header );
 	s32   alloc_size = header_size + length + 1;
 	void* allocation = alloc( allocator, alloc_size );
@ -25,8 +14,8 @@ String String::make_length( AllocatorInfo allocator, char const* str, sw length
 	if ( allocation == nullptr )
 		return { nullptr };
-	Header&
+	StringHeader&
-	header = * rcast(Header*, allocation);
+	header = * rcast(StringHeader*, allocation);
 	header = { allocator, length, length };
 	String  result = { rcast( char*, allocation) + header_size };
@ -41,9 +30,9 @@ String String::make_length( AllocatorInfo allocator, char const* str, sw length
 	return result;
 }
-String String::make_reserve( AllocatorInfo allocator, sw capacity )
+String string_make_reserve( AllocatorInfo allocator, ssize capacity )
 {
-	constexpr sw header_size = sizeof( Header );
+	constexpr ssize header_size = sizeof( StringHeader );
 	s32   alloc_size = header_size + capacity + 1;
 	void* allocation = alloc( allocator, alloc_size );
@ -53,8 +42,8 @@ String String::make_reserve( AllocatorInfo allocator, sw capacity )
 	mem_set( allocation, 0, alloc_size );
-	Header*
+	StringHeader*
-		header            = rcast(Header*, allocation);
+	header            = rcast(StringHeader*, allocation);
 	header->Allocator = allocator;
 	header->Capacity  = capacity;
 	header->Length    = 0;
@ -62,69 +51,4 @@ String String::make_reserve( AllocatorInfo allocator, sw capacity )
 	String result = { rcast(char*, allocation) + header_size };
 	return result;
 }
 String String::fmt_buf( AllocatorInfo allocator, char const* fmt, ... )
 {
 	local_persist thread_local
 	char buf[ GEN_PRINTF_MAXLEN ] = { 0 };
 	va_list va;
 	va_start( va, fmt );
 	str_fmt_va( buf, GEN_PRINTF_MAXLEN, fmt, va );
 	va_end( va );
 	return make( allocator, buf );
 }
 bool String::append_fmt( char const* fmt, ... )
 {
 	sw   res;
 	char buf[ GEN_PRINTF_MAXLEN ] = { 0 };
 	va_list va;
 	va_start( va, fmt );
 	res = str_fmt_va( buf, count_of( buf ) - 1, fmt, va ) - 1;
 	va_end( va );
 	return append( buf, res );
 }
 bool String::make_space_for( char const* str, sw add_len )
 {
 	sw available = avail_space();
 	// NOTE: Return if there is enough space left
 	if ( available >= add_len )
 	{
 		return true;
 	}
 	else
 	{
 		sw new_len, old_size, new_size;
 		void* ptr;
 		void* new_ptr;
 		AllocatorInfo allocator = get_header().Allocator;
 		Header*       header	= nullptr;
 		new_len  = grow_formula( length() + add_len );
 		ptr      = & get_header();
 		old_size = size_of( Header ) + length() + 1;
 		new_size = size_of( Header ) + new_len + 1;
 		new_ptr = resize( allocator, ptr, old_size, new_size );
 		if ( new_ptr == nullptr )
 			return false;
 		header            = zpl_cast( Header* ) new_ptr;
 		header->Allocator = allocator;
 		header->Capacity  = new_len;
 		Data = rcast( char*, header + 1 );
 		return str;
 	}
 }
 #pragma endregion String
--- a/project/dependencies/strings.hpp
+++ b/project/dependencies/strings.hpp
@ -8,20 +8,20 @@
 // Constant string with length.
 struct StrC
 {
-	sw          Len;
+	ssize       Len;
 	char const* Ptr;
-	operator char const* () const
+#if ! GEN_COMPILER_C
-	{
+	operator char const* ()               const { return Ptr; }
-		return Ptr;
+	char const& operator[]( ssize index ) const { return Ptr[index]; }
-	}
+#endif
 };
-#define cast_to_strc( str ) * rcast( StrC*, str - sizeof(sw) )
+#define cast_to_strc( str ) * rcast( StrC*, (str) - sizeof(ssize) )
-#define txt( text ) StrC { sizeof( text ) - 1, text }
+#define txt( text )         StrC { sizeof( text ) - 1, ( text ) }
-StrC to_str( char const* str )
+inline
-{
+StrC to_str( char const* str ) {
 	return { str_len( str ), str };
 }
@ -29,357 +29,572 @@ StrC to_str( char const* str )
 // This is directly based off the ZPL string api.
 // They used a header pattern
 // I kept it for simplicty of porting but its not necessary to keep it that way.
 #pragma region String
 struct StringHeader;
 struct String;
 usize string_grow_formula(usize value);
 String        string_make         (AllocatorInfo allocator, char const*  str);
 String        string_make         (AllocatorInfo allocator, StrC         str);
 String        string_make_reserve (AllocatorInfo allocator, ssize        capacity);
 String        string_make_length  (AllocatorInfo allocator, char const*  str,   ssize length);
 String        string_fmt          (AllocatorInfo allocator, char*        buf,   ssize buf_size,  char const* fmt, ...);
 String        string_fmt_buf      (AllocatorInfo allocator, char const*  fmt, ...);
 String        string_join         (AllocatorInfo allocator, char const** parts, ssize num_parts, char const* glue);
 bool          are_equal           (String const lhs, String const rhs);
 bool          are_equal           (String const lhs, StrC rhs);
 bool          make_space_for      (String*      str, char const*  to_append, ssize add_len);
 bool          append              (String*      str, char         c);
 bool          append              (String*      str, char const*  str_to_append);
 bool          append              (String*      str, char const*  str_to_append, ssize length);
 bool          append              (String*      str, StrC         str_to_append);
 bool          append              (String*      str, String const other);
 bool          append_fmt          (String*      str, char const*  fmt, ...);
 ssize         avail_space         (String const str);
 char*         back                (String       str);
 bool          contains            (String const str, StrC         substring);
 bool          contains            (String const str, String const substring);
 ssize         capacity            (String const str);
 void          clear               (String       str);
 String        duplicate           (String const str, AllocatorInfo allocator);
 void          free                (String*      str);
 StringHeader* get_header          (String       str);
 ssize         length              (String const str);
 b32           starts_with         (String const str, StrC   substring);
 b32           starts_with         (String const str, String substring);
 void          skip_line           (String       str);
 void          strip_space         (String       str);
 void          trim                (String       str, char const* cut_set);
 void          trim_space          (String       str);
 String        visualize_whitespace(String const str);
 struct StringHeader {
 	AllocatorInfo Allocator;
 	ssize         Capacity;
 	ssize         Length;
 };
 #if ! GEN_COMPILER_C
 struct String
 {
-	struct Header
+	char* Data;
-	{
+
-		AllocatorInfo Allocator;
+	forceinline operator bool()              { return Data != nullptr; }
-		sw            Capacity;
+	forceinline operator char*()             { return Data; }
-		sw            Length;
+	forceinline operator char const*() const { return Data; }
-	};
+	forceinline operator StrC() const        { return { GEN_NS length(* this), Data }; }
 	String const& operator=(String const& other) const {
 		if (this == &other)
 			return *this;
 		String* this_ = ccast(String*, this);
 		this_->Data = other.Data;
 		return *this;
 	}
 	forceinline char& operator[](ssize index)             { return Data[index]; }
 	forceinline char const& operator[](ssize index) const { return Data[index]; }
 	forceinline char* begin() const { return Data; }
 	forceinline char* end() const   { return Data + GEN_NS length(* this); }
 #if GEN_SUPPORT_CPP_MEMBER_FEATURES
 #pragma region Member Mapping
 	forceinline static String make(AllocatorInfo allocator, char const* str)                { return GEN_NS string_make(allocator, str); }
 	forceinline static String make(AllocatorInfo allocator, StrC str)                       { return GEN_NS string_make(allocator, str); }
 	forceinline static String make_reserve(AllocatorInfo allocator, ssize cap)              { return GEN_NS string_make_reserve(allocator, cap); }
 	forceinline static String make_length(AllocatorInfo a, char const* s, ssize l)          { return GEN_NS string_make_length(a, s, l); }
 	forceinline static String join(AllocatorInfo a, char const** p, ssize n, char const* g) { return GEN_NS string_join(a, p, n, g); }
 	forceinline static usize  grow_formula(usize value)                                     { return GEN_NS string_grow_formula(value); }
 	static
-	uw grow_formula( uw value )
+	String fmt(AllocatorInfo allocator, char* buf, ssize buf_size, char const* fmt, ...) {
-	{
+		va_list va;
-		// Using a very aggressive growth formula to reduce time mem_copying with recursive calls to append in this library.
+		va_start(va, fmt);
-		return 4 * value + 8;
+		str_fmt_va(buf, buf_size, fmt, va);
 		va_end(va);
 		return GEN_NS string_make(allocator, buf);
 	}
 	static
-	String make( AllocatorInfo allocator, char const* str )
+	String fmt_buf(AllocatorInfo allocator, char const* fmt, ...) {
-	{
+		local_persist thread_local
-		sw length = str ? str_len( str ) : 0;
+		char buf[GEN_PRINTF_MAXLEN] = { 0 };
-		return make_length( allocator, str, length );
+		va_list va;
 		va_start(va, fmt);
 		str_fmt_va(buf, GEN_PRINTF_MAXLEN, fmt, va);
 		va_end(va);
 		return GEN_NS string_make(allocator, buf);
 	}
-	static
+	forceinline bool          make_space_for(char const* str, ssize add_len) { return GEN_NS make_space_for(this, str, add_len); }
-	String make( AllocatorInfo allocator, StrC str )
+	forceinline bool          append(char c)                                 { return GEN_NS append(this, c); }
 	forceinline bool          append(char const* str)                        { return GEN_NS append(this, str); }
 	forceinline bool          append(char const* str, ssize length)          { return GEN_NS append(this, str, length); }
 	forceinline bool          append(StrC str)                               { return GEN_NS append(this, str); }
 	forceinline bool          append(const String other)                     { return GEN_NS append(this, other); }
 	forceinline ssize         avail_space() const                            { return GEN_NS avail_space(* this); }
 	forceinline char*         back()                                         { return GEN_NS back(* this); }
 	forceinline bool          contains(StrC substring) const                 { return GEN_NS contains(* this, substring); }
 	forceinline bool          contains(String const& substring) const        { return GEN_NS contains(* this, substring); }
 	forceinline ssize         capacity() const                               { return GEN_NS capacity(* this); }
 	forceinline void          clear()                                        { GEN_NS clear(* this); }
 	forceinline String        duplicate(AllocatorInfo allocator) const       { return GEN_NS duplicate(* this, allocator); }
 	forceinline void          free()                                         { GEN_NS free(this); }
 	forceinline bool          is_equal(String const& other) const            { return GEN_NS are_equal(* this, other); }
 	forceinline bool          is_equal(StrC other) const                     { return GEN_NS are_equal(* this, other); }
 	forceinline ssize         length() const                                 { return GEN_NS length(* this); }
 	forceinline b32           starts_with(StrC substring) const              { return GEN_NS starts_with(* this, substring); }
 	forceinline b32           starts_with(String substring) const            { return GEN_NS starts_with(* this, substring); }
 	forceinline void          skip_line()                                    { GEN_NS skip_line(* this); }
 	forceinline void          strip_space()                                  { GEN_NS strip_space(* this); }
 	forceinline void          trim(char const* cut_set)                      { GEN_NS trim(* this, cut_set); }
 	forceinline void          trim_space()                                   { GEN_NS trim_space(* this); }
 	forceinline String        visualize_whitespace() const                   { return GEN_NS visualize_whitespace(* this); }
 	forceinline StringHeader& get_header()                                   { return * GEN_NS get_header(* this); }
 	bool append_fmt(char const* fmt, ...) {
 		ssize res;
 		char buf[GEN_PRINTF_MAXLEN] = { 0 };
 		va_list va;
 		va_start(va, fmt);
 		res = str_fmt_va(buf, count_of(buf) - 1, fmt, va) - 1;
 		va_end(va);
 		return GEN_NS append(this, buf, res);
 	}
 #pragma endregion Member Mapping
 #endif
 };
 #endif
 #if GEN_SUPPORT_CPP_REFERENCES
 bool          make_space_for(String& str, char const* to_append, ssize add_len);
 bool          append(String& str, char c);
 bool          append(String& str, char const* str_to_append);
 bool          append(String& str, char const* str_to_append, ssize length);
 bool          append(String& str, StrC str_to_append);
 bool          append(String& str, const String other);
 bool          append_fmt(String& str, char const* fmt, ...);
 char&         back(String& str);
 void          clear(String& str);
 void          free(String& str);
 #endif
 inline char* begin(String str) { return str; }
 inline char* end(String str)   { return scast(char*, str) + length(str); }
 inline char* next(String str)  { return scast(char*, str) + 1; }
 inline
 usize string_grow_formula(usize value) {
 	// Using a very aggressive growth formula to reduce time mem_copying with recursive calls to append in this library.
 	return 4 * value + 8;
 }
 inline
 String string_make(AllocatorInfo allocator, char const* str) {
 	ssize length = str ? str_len(str) : 0;
 	return string_make_length(allocator, str, length);
 }
 inline
 String string_make(AllocatorInfo allocator, StrC str) {
 	return string_make_length(allocator, str.Ptr, str.Len);
 }
 inline
 String string_fmt(AllocatorInfo allocator, char* buf, ssize buf_size, char const* fmt, ...) {
 	va_list va;
 	va_start(va, fmt);
 	str_fmt_va(buf, buf_size, fmt, va);
 	va_end(va);
 	return string_make(allocator, buf);
 }
 inline
 String string_fmt_buf(AllocatorInfo allocator, char const* fmt, ...)
 {
 	local_persist thread_local
 	char buf[GEN_PRINTF_MAXLEN] = { 0 };
 	va_list va;
 	va_start(va, fmt);
 	str_fmt_va(buf, GEN_PRINTF_MAXLEN, fmt, va);
 	va_end(va);
 	return string_make(allocator, buf);
 }
 inline
 String string_join(AllocatorInfo allocator, char const** parts, ssize num_parts, char const* glue)
 {
 	String result = string_make(allocator, "");
 	for (ssize idx = 0; idx < num_parts; ++idx)
 	{
-		return make_length( allocator, str.Ptr, str.Len );
+		append(& result, parts[idx]);
 		if (idx < num_parts - 1)
 			append(& result, glue);
 	}
-	static
+	return result;
-	String make_reserve( AllocatorInfo allocator, sw capacity );
+}
-	static
+inline
-	String make_length( AllocatorInfo allocator, char const* str, sw length );
+bool append(String* str, char c) {
 	GEN_ASSERT(str != nullptr);
 	return append(str, &c, 1);
 }
-	static
+inline
-	String fmt( AllocatorInfo allocator, char* buf, sw buf_size, char const* fmt, ... );
+bool append(String* str, char const* str_to_append) {
 	GEN_ASSERT(str != nullptr);
 	return append(str, str_to_append, str_len(str_to_append));
 }
-	static
+inline
-	String fmt_buf( AllocatorInfo allocator, char const* fmt, ... );
+bool append(String* str, char const* str_to_append, ssize append_length)
-
+{
-	static
+	GEN_ASSERT(str != nullptr);
-	String join( AllocatorInfo allocator, char const** parts, sw num_parts, char const* glue )
+	if (sptr(str_to_append) > 0)
 	{
-		String result = make( allocator, "" );
+		ssize curr_len = length(* str);
-		for ( sw idx = 0; idx < num_parts; ++idx )
+		if ( ! make_space_for(str, str_to_append, append_length))
 		{
 			result.append( parts[ idx ] );
 			if ( idx < num_parts - 1 )
 				result.append( glue );
 		}
 		return result;
 	}
 	static
 	bool are_equal( String lhs, String rhs )
 	{
 		if ( lhs.length() != rhs.length() )
 			return false;
-		for ( sw idx = 0; idx < lhs.length(); ++idx )
+		StringHeader* header = get_header(* str);
-			if ( lhs[ idx ] != rhs[ idx ] )
+
-				return false;
+		char* Data = * str;
 		mem_copy( Data + curr_len, str_to_append, append_length);
 		Data[curr_len + append_length] = '\0';
 		header->Length = curr_len + append_length;
 	}
 	return str_to_append != nullptr;
 }
 inline
 bool append(String* str, StrC str_to_append) {
 	GEN_ASSERT(str != nullptr);
 	return append(str, str_to_append.Ptr, str_to_append.Len);
 }
 inline
 bool append(String* str, const String other) {
 	GEN_ASSERT(str != nullptr);
 	return append(str, other, length(other));
 }
 bool append_fmt(String* str, char const* fmt, ...) {
 	GEN_ASSERT(str != nullptr);
 	ssize res;
 	char buf[GEN_PRINTF_MAXLEN] = { 0 };
 	va_list va;
 	va_start(va, fmt);
 	res = str_fmt_va(buf, count_of(buf) - 1, fmt, va) - 1;
 	va_end(va);
 	return append(str, buf, res);
 }
 inline
 bool are_equal(String const lhs, String const rhs)
 {
 	if (length(lhs) != length(rhs))
 		return false;
 	for (ssize idx = 0; idx < length(lhs); ++idx)
 		if (lhs[idx] != rhs[idx])
 			return false;
 	return true;
 }
 inline
 bool are_equal(String const lhs, StrC rhs)
 {
 	if (length(lhs) != (rhs.Len))
 		return false;
 	for (ssize idx = 0; idx < length(lhs); ++idx)
 		if (lhs[idx] != rhs.Ptr[idx])
 			return false;
 	return true;
 }
 inline
 ssize avail_space(String const str) {
 	StringHeader const* header = rcast(StringHeader const*, scast(char const*, str) - sizeof(StringHeader));
 	return header->Capacity - header->Length;
 }
 inline
 char* back(String* str) {
 	return & (*str)[length(* str) - 1];
 }
 inline
 bool contains(String const str, StrC substring)
 {
 	StringHeader const* header = rcast(StringHeader const*, scast(char const*, str) - sizeof(StringHeader));
 	if (substring.Len > header->Length)
 		return false;
 	ssize main_len = header->Length;
 	ssize sub_len  = substring.Len;
 	for (ssize idx = 0; idx <= main_len - sub_len; ++idx)
 	{
 		if (str_compare(str + idx, substring.Ptr, sub_len) == 0)
 			return true;
 	}
 	return false;
 }
 inline
 bool contains(String const str, String const substring)
 {
 	StringHeader const* header = rcast(StringHeader const*, scast(char const*, str) - sizeof(StringHeader));
 	if (length(substring) > header->Length)
 		return false;
 	ssize main_len = header->Length;
 	ssize sub_len  = length(substring);
 	for (ssize idx = 0; idx <= main_len - sub_len; ++idx)
 	{
 		if (str_compare(str + idx, substring, sub_len) == 0)
 			return true;
 	}
 	return false;
 }
 inline
 ssize capacity(String const str) {
   StringHeader const* header = rcast(StringHeader const*, scast(char const*, str) - sizeof(StringHeader));
   return header->Capacity;
 }
 inline
 void clear(String str) {
   get_header(str)->Length = 0;
 }
 inline
 String duplicate(String const str, AllocatorInfo allocator) {
   return string_make_length(allocator, str, length(str));
 }
 inline
 void free(String* str) {
 	GEN_ASSERT(str != nullptr);
 	if (! (* str))
 		return;
 	StringHeader* header = get_header(* str);
 	GEN_NS free(header->Allocator, header);
 }
 inline
 StringHeader* get_header(String str) {
   return (StringHeader*)(scast(char*, str) - sizeof(StringHeader));
 }
 inline
 ssize length(String const str)
 {
   StringHeader const& header = *rcast(StringHeader const*, scast(char const*, str) - sizeof(StringHeader));
   return header.Length;
 }
 inline
 bool make_space_for(String* str, char const* to_append, ssize add_len)
 {
 	ssize available = avail_space(* str);
 	if (available >= add_len) {
 		return true;
 	}
 	else
 	{
 		ssize new_len, old_size, new_size;
 		void* ptr;
 		void* new_ptr;
 		AllocatorInfo allocator = get_header(* str)->Allocator;
 		StringHeader* header    = nullptr;
 		new_len  = string_grow_formula(length(* str) + add_len);
 		ptr      = get_header(* str);
 		old_size = size_of(StringHeader) + length(* str) + 1;
 		new_size = size_of(StringHeader) + new_len + 1;
 		new_ptr = resize(allocator, ptr, old_size, new_size);
 		if (new_ptr == nullptr)
 			return false;
 		header = rcast(StringHeader*, new_ptr);
 		header->Allocator = allocator;
 		header->Capacity  = new_len;
 		char** Data = rcast(char**, str);
 		* Data = rcast(char*, header + 1);
 		return true;
 	}
 }
-	bool make_space_for( char const* str, sw add_len );
+inline
 b32 starts_with(String const str, StrC substring) {
 	if (substring.Len > length(str))
 	return false;
-	bool append( char c )
+	b32 result = str_compare(str.Data, substring.Ptr, substring.Len) == 0;
-	{
+	return result;
-		return append( & c, 1 );
+}
 	}
-	bool append( char const* str )
+inline
-	{
+b32 starts_with(String const str, String substring) {
-		return append( str, str_len( str ) );
+	if (length(substring) > length(str))
-	}
+		return false;
-	bool append( char const* str, sw length )
+	b32 result = str_compare(str.Data, substring.Data, length(substring) - 1) == 0;
-	{
+	return result;
-		if ( sptr(str) > 0 )
+}
 		{
 			sw curr_len = this->length();
-			if ( ! make_space_for( str, length ) )
+inline
-				return false;
+void skip_line(String str)
 			Header& header = get_header();
 			mem_copy( Data + curr_len, str, length );
 			Data[ curr_len + length ] = '\0';
 			header.Length = curr_len + length;
 		}
 		return str;
 	}
 	bool append( StrC str)
 	{
 		return append( str.Ptr, str.Len );
 	}
 	bool append( const String other )
 	{
 		return append( other.Data, other.length() );
 	}
 	bool append_fmt( char const* fmt, ... );
 	sw avail_space() const
 	{
 		Header const&
 		header = * rcast( Header const*, Data - sizeof( Header ));
 		return header.Capacity - header.Length;
 	}
 	char& back()
 	{
 		return Data[ length() - 1 ];
 	}
 	sw capacity() const
 	{
 		Header const&
 		header = * rcast( Header const*, Data - sizeof( Header ));
 		return header.Capacity;
 	}
 	void clear()
 	{
 		get_header().Length = 0;
 	}
 	String duplicate( AllocatorInfo allocator )
 	{
 		return make_length( allocator, Data, length() );
 	}
 	void free()
 	{
 		if ( ! Data )
 			return;
 		Header& header = get_header();
 		gen::free( header.Allocator, & header );
 	}
 	Header& get_header()
 	{
 		return *(Header*)(Data - sizeof(Header));
 	}
 	sw length() const
 	{
 		Header const&
 		header = * rcast( Header const*, Data - sizeof( Header ));
 		return header.Length;
 	}
 	void skip_line()
 	{
 	#define current (*scanner)
 		char* scanner = Data;
 		while ( current != '\r' && current != '\n' )
 		{
 			++ scanner;
 		}
 		s32 new_length = scanner - Data;
 		if ( current == '\r' )
 		{
 			new_length += 1;
 		}
 		mem_move( Data, scanner, new_length );
 		Header* header = & get_header();
 		header->Length = new_length;
 	#undef current
 	}
 	void strip_space()
 	{
 		char* write_pos = Data;
 		char* read_pos  = Data;
 		while ( * read_pos)
 		{
 			if ( ! char_is_space( *read_pos ))
 			{
 				*write_pos = *read_pos;
 				write_pos++;
 			}
 			read_pos++;
 		}
 		write_pos[0] = '\0';  // Null-terminate the modified string
 		// Update the length if needed
 		get_header().Length = write_pos - Data;
 	}
 	void trim( char const* cut_set )
 	{
 		sw len = 0;
 		char* start_pos = Data;
 		char* end_pos   = Data + length() - 1;
 		while ( start_pos <= end_pos && char_first_occurence( cut_set, *start_pos ) )
 			start_pos++;
 		while ( end_pos > start_pos && char_first_occurence( cut_set, *end_pos ) )
 			end_pos--;
 		len = scast( sw, ( start_pos > end_pos ) ? 0 : ( ( end_pos - start_pos ) + 1 ) );
 		if ( Data != start_pos )
 			mem_move( Data, start_pos, len );
 		Data[ len ] = '\0';
 		get_header().Length = len;
 	}
 	void trim_space()
 	{
 		return trim( " \t\r\n\v\f" );
 	}
 	// Debug function that provides a copy of the string with whitespace characters visualized.
 	String visualize_whitespace() const
 	{
 		Header* header = (Header*)(Data - sizeof(Header));
 		String result = make_reserve(header->Allocator, length() * 2); // Assume worst case for space requirements.
 		for ( char c : *this )
 		{
 			switch ( c )
 			{
 				case ' ':
 					result.append( txt("·") );
 				break;
 				case '\t':
 					result.append( txt("→") );
 				break;
 				case '\n':
 					result.append( txt("↵") );
 				break;
 				case '\r':
 					result.append( txt("⏎") );
 				break;
 				case '\v':
 					result.append( txt("⇕") );
 				break;
 				case '\f':
 					result.append( txt("⌂") );
 				break;
 				default:
 					result.append(c);
 				break;
 			}
 		}
 		return result;
 	}
 	// For-range support
 	char* begin() const
 	{
 		return Data;
 	}
 	char* end() const
 	{
 		Header const&
 		header = * rcast( Header const*, Data - sizeof( Header ));
 		return Data + header.Length;
 	}
 	operator bool()
 	{
 		return Data;
 	}
 	operator char* ()
 	{
 		return Data;
 	}
 	operator char const* () const
 	{
 		return Data;
 	}
 	operator StrC() const
 	{
 		return { length(), Data };
 	}
 	// Used with cached strings
 	// Essentially makes the string a string view.
 	String const& operator = ( String const& other ) const
 	{
 		if ( this == & other )
 			return *this;
 		String& this_ = ccast( String, *this );
 		this_.Data = other.Data;
 		return this_;
 	}
 	char& operator [] ( sw index )
 	{
 		return Data[ index ];
 	}
 	char const& operator [] ( sw index ) const
 	{
 		return Data[ index ];
 	}
 	char* Data;
 };
 struct String_POD
 {
 #define current (*scanner)
 	char* scanner = str.Data;
 	while (current != '\r' && current != '\n') {
 		++scanner;
 	}
 	s32 new_length = scanner - str.Data;
 	if (current == '\r') {
 		new_length += 1;
 	}
 	mem_move(str.Data, scanner, new_length);
 	StringHeader* header = get_header(str);
 	header->Length = new_length;
 #undef current
 }
 inline
 void strip_space(String str)
 {
   char* write_pos = str;
   char* read_pos  = str;
   while (* read_pos)
   {
   	if (! char_is_space(* read_pos))
   	{
   		* write_pos = * read_pos;
   		  write_pos++;
   	}
   	read_pos++;
   }
   write_pos[0] = '\0';  // Null-terminate the modified string
   // Update the length if needed
   get_header(str)->Length = write_pos - str.Data;
 }
 inline
 void trim(String str, char const* cut_set)
 {
   ssize len = 0;
   char* start_pos = str.Data;
   char* end_pos = str.Data + length(str) - 1;
   while (start_pos <= end_pos && char_first_occurence(cut_set, *start_pos))
   	start_pos++;
   while (end_pos > start_pos && char_first_occurence(cut_set, *end_pos))
   	end_pos--;
   len = scast(ssize, (start_pos > end_pos) ? 0 : ((end_pos - start_pos) + 1));
   if (str.Data != start_pos)
   	mem_move(str.Data, start_pos, len);
   str.Data[len] = '\0';
   get_header(str)->Length = len;
 }
 inline
 void trim_space(String str) {
   trim(str, " \t\r\n\v\f");
 }
 inline
 String visualize_whitespace(String const str)
 {
 	StringHeader* header = (StringHeader*)(scast(char const*, str) - sizeof(StringHeader));
 	String        result = string_make_reserve(header->Allocator, length(str) * 2); // Assume worst case for space requirements.
 	for (auto c : str) switch (c)
 	{
 		case ' ':
 			append(& result, txt("·"));
 		break;
 		case '\t':
 			append(& result, txt("→"));
 		break;
 		case '\n':
 			append(& result, txt("↵"));
 		break;
 		case '\r':
 			append(& result, txt("⏎"));
 		break;
 		case '\v':
 			append(& result, txt("⇕"));
 		break;
 		case '\f':
 			append(& result, txt("⌂"));
 		break;
 		default:
 			append(& result, c);
 		break;
 	}
 	return result;
 }
 #pragma endregion String
 struct String_POD {
 	char* Data;
 };
 static_assert( sizeof( String_POD ) == sizeof( String ), "String is not a POD" );
 // Implements basic string interning. Data structure is based off the ZPL Hashtable.
-using StringTable = HashTable<String const>;
+typedef HashTable<String const>   StringTable;
 // Represents strings cached with the string table.
 // Should never be modified, if changed string is desired, cache_string( str ) another.
-using StringCached = String const;
+typedef String const   StringCached;
 #pragma endregion Strings
--- a/project/dependencies/timing.cpp
+++ b/project/dependencies/timing.cpp
@ -23,7 +23,7 @@
 	{
 		u32 hi, lo;
 		__asm__ __volatile__( "rdtsc" : "=a"( lo ), "=d"( hi ) );
-		return ( zpl_cast( u64 ) lo ) | ( ( zpl_cast( u64 ) hi ) << 32 );
+		return scast( u64, lo ) | ( scast( u64, hi ) << 32 );
 	}
 	#elif defined( __powerpc__ )
 	u64 read_cpu_time_stamp_counter( void )
--- a/project/enums/ECode_ExecutionSupport.csv
+++ b/project/enums/ECode_ExecutionSupport.csv
@ -0,0 +1,144 @@
 Invalid
 Untyped
 NewLine
 Comment
 Access_Private
 Access_Protected
 Access_Public
 PlatformAttributes
 Class
 Class_Fwd
 Class_Body
 Constructor
 Constructor_Fwd
 Destructor
 Destructor_Fwd
 Enum
 Enum_Fwd
 Enum_Body
 Enum_Class
 Enum_Class_Fwd
 Execution
 Expression
 Expr_Identifier
 Expr_NumericLiteral
 Expr_StringLiteral
 Expr_Alignof
 Expr_ProcCall
 Expr_Assign_Add
 Expr_Assign_Subtract
 Expr_Assign_Multiply
 Expr_Assign_Divide
 Expr_Assign_Modulo
 Expr_Assign_Bitwise_And
 Expr_Assign_Bitwise_Or
 Expr_Assign_Bitwise_XOr
 Expr_Assign_LeftShift
 Expr_Assign_RightShift
 Expr_CStyleCast
 Expr_FunctionalCast
 Expr_ConstCast
 Expr_DynamicCast
 Expr_ReinterpretCast
 Expr_StaticCast
 Expr_Unary_Add
 Expr_Unary_Minus
 Expr_Unary_Not
 Expr_Unary_Increment
 Expr_Unary_Decrement
 Expr_Indirection
 Expr_AddressOf,
 Expr_UnaryPost_Increment
 Expr_UnaryPost_Decrement
 Expr_Subscript
 Expr_Binary_Add
 Expr_Binary_Subtract
 Expr_Binary_Multiply
 Expr_Binary_Divide
 Expr_Binary_Modulo
 Expr_Binary_Bitwise_And
 Expr_Binary_Bitwise_Or
 Expr_Binary_Bitwise_XOr
 Expr_Binary_Bitwise_LeftShift
 Expr_Binary_Bitwise_RightShift
 Expr_Binary_Logical_Not
 Expr_Binary_Logical_And
 Expr_Binary_Logical_Or
 Expr_Binary_Equal
 Expr_Binary_NotEqual
 Expr_Binary_Lesser
 Expr_Binary_Greater
 Expr_Binary_LesserEqual
 Expr_Binary_GreaterEqual
 Expr_MemberOfObject,
 Expr_MemberOfPointer,
 Expr_PointerToMemberOfObject,
 Expr_PointerToMemberOfPointer,
 Expr_Comma,
 Expr_Tenary,
 Export_Body
 Extern_Linkage
 Extern_Linkage_Body
 Friend
 Function
 Function_Fwd
 Function_Body
 Global_Body
 Module
 Namespace
 Namespace_Body
 Operator
 Operator_Fwd
 Operator_Member
 Operator_Member_Fwd
 Operator_Cast
 Operator_Cast_Fwd
 Parameters
 Preprocess_Define
 Preprocess_Include
 Preprocess_If
 Preprocess_IfDef
 Preprocess_IfNotDef
 Preprocess_ElIf
 Preprocess_Else
 Preprocess_EndIf
 Preprocess_Pragma
 Specifiers
 Statement
 Stmt_Break
 Stmt_Case
 Stmt_Continue
 Stmt_Declaration
 Stmt_Do
 Stmt_Expr
 Stmt_Else
 Stmt_If
 Stmt_For
 Stmt_Goto
 Stmt_Label
 Stmt_Switch
 Stmt_Switch
 Stmt_While
 Struct
 Struct_Fwd
 Struct_Body
 Template
 Typedef
 Typename
 Union
 Union_Body
 Using
 Using_Namespace
 Variable
--- a/Show More
+++ b/Show More
Author	SHA1	Message	Date
Ed_	8f47f3b30f	Comment, Constructor, Destructor, Define, Enum, Exec, Extern, Include, Friend, Fn codes member proc usage reductions	2024-12-02 16:59:13 -05:00
Ed_	0bad61fda6	remove raw member def from code types, reduction on CodeAttributes	2024-12-02 11:20:31 -05:00
Ed_	ea18792373	Progress on member proc usage reduction (CodeParam, CodeSpecifiers)	2024-12-02 10:58:24 -05:00
Ed_	16b8a3a164	began to remove usage of code specific types member procs	2024-12-02 04:12:09 -05:00
Ed_	5b0079fb0c	ast interface uage reductions	2024-12-02 03:18:52 -05:00
Ed_	9321a04ebc	reduction of Code struct member function usage in base lib	2024-12-02 02:38:55 -05:00
Ed_	9b68791e38	fixes for array when not using member features.	2024-12-02 02:11:49 -05:00
Ed_	2dcc968c39	Preparing for reductions on code_types.hpp	2024-12-02 01:56:49 -05:00
Ed_	c38b077c37	Code::set_global reduction	2024-12-02 00:43:57 -05:00
Ed_	f9b5029e64	Code::is_valid rection	2024-12-02 00:41:41 -05:00
Ed_	2b24511f7d	Code::is_equal reduction	2024-12-02 00:34:40 -05:00
Ed_	5cd69e1742	Code::is_body reduction	2024-12-02 00:18:54 -05:00
Ed_	007bfa0cb0	Code::duplicate reduction	2024-12-02 00:16:11 -05:00
Ed_	37c33ffb3e	reduction on debug_str	2024-12-02 00:10:24 -05:00
Ed_	937235b776	progress (Code)	2024-12-02 00:03:38 -05:00
Ed_	f9c21ebc04	progress	2024-12-01 23:35:58 -05:00
Ed_	fec709cc76	Progresss	2024-12-01 21:59:43 -05:00
Ed_	80cb3f4eca	Significant progress reducing c++ feature usage in the library.	2024-12-01 18:50:37 -05:00
Ed_	9e88cb8724	String::is_equal added (bad last commit)	2024-12-01 13:29:33 -05:00
Ed_	f61c1c560d	String::is_equal added	2024-12-01 13:29:16 -05:00
Ed_	8ef982003a	Added is_body to AST and Code types	2024-12-01 12:48:58 -05:00
Ed_	31691b1466	Fixed issue with HashTable region detection	2024-12-01 05:37:03 -05:00
Ed_	ed0c0422ad	Looking into what the library's convention for enums will be. Most likely will just reduce them to C-enums with underlying type. Otherwise there has to be a mechanism to drop the defs down to them anyways, and eliminate the namespace wraps.	2024-12-01 05:30:37 -05:00
Ed_	e5acac1d18	String member definitions not longer used in the base project	2024-12-01 03:06:30 -05:00
Ed_	c7b072266f	progress on c_library.cpp	2024-12-01 01:40:31 -05:00
Ed_	a96d03eaed	brought over the generators of array and hashtable for c-lib gen From the old genc repo. Still need to fully check that its code is up to date	2024-12-01 01:40:14 -05:00
Ed_	0b4ccac8f9	Removed usage of hashtable member procs	2024-12-01 01:39:21 -05:00
Ed_	31a3609b28	some fixes to c's fixed_arena gen	2024-11-30 23:48:14 -05:00
Ed_	fbdb870986	Finished first pass reviewing memory.hpp for C lib generation	2024-11-30 23:38:27 -05:00
Ed_	6d04165b96	Reduce cpp freatures usage of Array container. Almost ready to be inter-operable with C	2024-11-30 18:54:19 -05:00
Ed_	cc245cc263	new files	2024-11-30 17:22:06 -05:00
Ed_	06deb1e836	memory.hpp no longer uses memory mappings by default	2024-11-30 17:18:49 -05:00
Ed_	5527a27f7b	prepare c_library meta-program a bit	2024-11-30 16:54:03 -05:00
Ed_	a67fdef20a	dir restructuring just making it more organized (gen_ prefix for library generation meta-programs)	2024-11-30 16:50:53 -05:00
Ed_	056a5863b8	for the future...	2024-11-30 14:34:28 -05:00
Ed_	79eb5f1f76	strings done	2024-11-30 14:13:30 -05:00
Ed_	c6cb583518	Hashtable done	2024-11-30 13:31:59 -05:00
Ed_	34eec66f35	Array done	2024-11-30 13:14:47 -05:00
Ed_	4137ebfbd8	pool done (see previous commits for context)	2024-11-30 12:27:54 -05:00
Ed_	5958dd2055	Did arena and fixedarena changes (for reducing usage of member procs)	2024-11-30 12:16:01 -05:00
Ed_	163ad0a511	looking into removing "oop" features from base library I want to make member functions an optional addition the user can generate a derivative library with. The purpose is to simplify the implementation as to make generating a C-variant simpiler. I also want to use it as a study to see how much simpiler it makes the library without having it.	2024-11-29 15:18:06 -05:00
Ed_	e3c2a577ba	addded String::contains defs	2024-11-29 14:50:54 -05:00
Ed_	81a0376c99	Need cstdlib for systems calls in generator files. update to package_release.ps1	2024-10-27 21:38:02 -04:00
Ed_	1417a68757	updates to test validations They don't really work great right now...	2024-10-27 21:19:25 -04:00
Ed_	1e4d5ce630	touchup to singleheader.cpp	2024-10-27 21:18:58 -04:00
Ed_	0f2763a115	fixes for unreal use	2024-10-27 21:18:41 -04:00
Ed_	420f452d35	More fixes found by self-parsing	2024-10-27 20:22:36 -04:00
Ed_	908c385de5	Fix exp asts having bad union definitions. They're not used yet but was causing self-parsing issues.	2024-10-27 20:22:24 -04:00
Ed_	c1878265c8	Minimizing reformatting of generated library files	2024-10-27 20:01:54 -04:00
Ed_	23742868c4	Delete auxillary/vis_ast When I get to making this it will be with SectrPrototype	2024-10-27 18:59:17 -04:00
Ed_	2e5e31ed3b	gencpp : General refactors to dependencies Mostly just cleanup and renaming of certain stuff (mostly in dependencies). * Changed uw and sw to usize and ssize. * Removed zpl_cast usage throughout dependencies * No longer using GEN_DEF_INLINE & GEN_IMPL_INLINE * header_start.hpp renamed to platform.hpp for depdendencies header.	2024-10-27 18:58:37 -04:00
Ed_	00df336610	fix type on parser namespace in singleheader.cpp	2024-10-26 18:42:23 -04:00
Ed_	d89c9a6072	de-hardcode target_arch.psm1 import	2024-10-25 13:11:21 -04:00
Ed_	6aa99ac1d5	change how path_root is resolved so it works when cloned into another repository	2024-10-25 13:07:39 -04:00
Ed_	3989f5fa83	formatting and removing unused code	2024-10-25 12:54:55 -04:00
Ed_	f90c0a59b6	inital implemention of UE library variant generator completed	2024-10-25 05:01:37 -04:00
Ed_	33f992ef56	Updated generated ast_inlines.hpp so that operator defs have the inline explicit * Added support for parsing/serializing specifiers for OpCast roughtly.. Doesn't have constraints on what specifiers beyond whats expected in global nspace scope.. * Minor adjustments to hashtable to avoid UE compile errors * Make sure scanner.cpp is being made by bootstrap	2024-10-25 04:08:20 -04:00
Ed_	0542204b35	progress on unreal variant generator	2024-10-25 03:00:07 -04:00
Ed_	e5616c5879	generated code update + reverting some fixes for now...	2024-10-25 02:59:56 -04:00
Ed_	40a256f6c3	initial setup for generating a library compatible for usage as an Unreal thirdyparty module.	2024-10-25 01:04:48 -04:00
Ed_	b8e1aa6eb7	WIP : Fixes and other changes * Number literals weren't getting properly lexed * Fixes for compiler errors with Unreal Engine configuration. * Support for "post-name" macros in parameters * Support for variables initializing directly using constructor syntax. * Explicitly added inline keyword to header inlines for compiling compile library in multiple translation units.	2024-10-25 01:04:17 -04:00
Ed_	e1592ba410	Bug fixes and updates to package_release.ps1 - Incrased size of the defines_map_arena to 256KB - Various fixes for the parser - Various fixes for code serialization - Fix for is_equal member func in Code types - Fixes for hasthable container - Added are_equal static func to String type for use against StrC - Added starts_with functions to String type - package_release.ps1 now packages all docs (forgot to update it with last release)	2024-05-05 21:53:22 -04:00
Ed_	4a2a93d41b	Updated docs	2024-04-17 18:29:30 -04:00
Ed_	36260f6edb	Updated gencpp with latest fixes used in other projects. This variant can support parsing some Unreal Engine files!!	2024-04-17 17:40:32 -04:00
Ed_	83d691c65c	Pushing latest changes for gencpp	2024-04-17 16:55:22 -04:00
Ed_	626ab703a7	Fixed some compilation errors	2023-11-22 15:41:41 -05:00
Ed_	6b10cd2b3e	Updated AST_Types.md doc	2023-11-22 15:03:24 -05:00
Ed_	91a3250d4c	Finished current iteration of parser_algo docs and parser.cpp inline comment docs Added some todos and prep for upcoming changes	2023-11-22 14:23:21 -05:00
Ed_	a667eb4afe	Progress on parser documentation	2023-11-21 23:36:56 -05:00
Ed_	f67f9547df	WIP: Improvements to parser, updated docs Trying to get support for typename keyword soon	2023-11-21 21:27:33 -05:00
Ed_	772db608be	Added support for predefining preprocessor defines before parsing strings of code. This prevents issues for preprocessor defines not getting treated properly for specific circumstances (such as macro wrappers for specifiers).	2023-11-21 20:09:14 -05:00
Ed_	be023325a9	Added AST & Code definitions segemnted code defs to separate file For upcoming statements & expression types, just beginning to lay things out for the future.	2023-11-21 20:07:49 -05:00
Ed_	a0ee683f82	Added new csvs for ECode & ETokType to keep track of upcoming additions	2023-11-21 20:06:05 -05:00
Ed_	6ad0ae97bc	Added bool type keyword to ETokType, move volatile pos in ESpecifier volatile can be applied to a function so I moved it there.	2023-11-21 20:05:38 -05:00
Ed_	3319bfcaa9	Updates to test and workspace Added a more granular test using the original library files. Already helped me identify a bug.	2023-11-21 20:03:51 -05:00
Ed_	9d27c7d37e	Lexer improvement prep, segmentation of lexer and parser.	2023-11-20 21:24:27 -05:00
Ed_	5c73fbee83	WIP : AST serialization improvements Code untestd its an initial draft	2023-11-19 20:35:21 -05:00
Ed_	36ebbfe29b	Got refactored raylib working in the vis_ast binary Now to make that debugger...	2023-11-19 00:01:35 -05:00
Ed_	053daaf877	Merge branch 'main' into dev	2023-11-17 19:26:21 -05:00
Ed_	040ec00606	Raylib c refactor scripts complete	2023-11-17 19:25:54 -05:00
Ed_	919166efa1	fix for build script	2023-10-25 23:55:29 -04:00
		`@ -0,0 +1,3 @@`
							`# Unreal Engine Version Generator`

							`This generates a variant of gencpp thats compatiable with use as a thirdparty module within a plugin or module of an Unreal Project or the Engine itself.`