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Edward R. Gonzalez 2024-04-17 18:29:30 -04:00
parent 36260f6edb
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7 changed files with 179 additions and 115 deletions
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21
docs/AST_Types.md
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@ -140,6 +140,7 @@ Code Prev;
Code Next; Code Next;
parser::Token* Tok; parser::Token* Tok;
Code Parent; Code Parent;
StringCached Name;
CodeT Type; CodeT Type;
``` ```
@ -155,6 +156,12 @@ Serialization:
{ {
<Body> <Body>
} }
// Constructor Source Implementation
<Specs> <Parent>::~<Parent->Name>( <Params> ) <Specs>
{
<Body>
}
``` ```
## Define ## Define
@ -191,6 +198,7 @@ Code Prev;
Code Next; Code Next;
parser::Token* Tok; parser::Token* Tok;
Code Parent; Code Parent;
StringCached Name;
CodeT Type; CodeT Type;
``` ```
@ -205,6 +213,12 @@ Serialization:
{ {
<Body> <Body>
} }
// Destructor Source Implementation
<Specs> <Parent>::~<Parent->Name>( <Params> ) <Specs>
{
<Body>
}
``` ```
## Enum ## Enum
@ -468,12 +482,13 @@ Serialization:
} }
``` ```
## Parameters ## Parameters (AST_Param)
Fields: Fields:
```cpp ```cpp
CodeType ValueType; CodeType ValueType;
Code Macro;
Code Value; Code Value;
CodeParam Last; CodeParam Last;
CodeParam Next; CodeParam Next;
@ -487,7 +502,9 @@ s32 NumEntries;
Serialization: Serialization:
```cpp ```cpp
<ValueType> <Name>, <Next>... <Last> <Macro>, <Next> ... <Last>
<Macro> <ValueType> <Name>, <Next>... <Last>
``` ```
## Pragma ## Pragma

169
docs/Parser_Algo.md
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@ -119,12 +119,20 @@ Below is an outline of the general alogirithim used for these internal procedure
5. If adjacent opening bracket 5. If adjacent opening bracket
1. Repeat array declaration parse until no brackets remain 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` ## `parse_attributes`
1. Check for standard attribute 1. Check for standard attribute
2. Check for GNU attribute 2. Check for GNU attribute
3. Check for MSVC attribute 3. Check for MSVC attribute
4. Check for a token registered as an 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` ## `parse_class_struct`
@ -142,39 +150,40 @@ Below is an outline of the general alogirithim used for these internal procedure
1. Opening curly brace 1. Opening curly brace
2. Parse the body (Possible options): 2. Parse the body (Possible options):
1. Newline : ast constant 1. Ignore dangling end statements
2. Comment : `parse_comment` 2. Newline : ast constant
3. Access_Public : ast constant 3. Comment : `parse_comment`
4. Access_Protected : ast constant 4. Access_Public : ast constant
5. Access_Private : ast constant 5. Access_Protected : ast constant
6. Decl_Class : `parse_complicated_definition` 6. Access_Private : ast constant
7. Decl_Enum : `parse_complicated_definition` 7. Decl_Class : `parse_complicated_definition`
8. Decl_Friend : `parse_friend` 8. Decl_Enum : `parse_complicated_definition`
9. Decl_Operator : `parse_operator_cast` 9. Decl_Friend : `parse_friend`
10. Decl_Struct : `parse_complicated_definition` 10. Decl_Operator : `parse_operator_cast`
11. Decl_Template : `parse_template` 11. Decl_Struct : `parse_complicated_definition`
12. Decl_Typedef : `parse_typedef` 12. Decl_Template : `parse_template`
13. Decl_Union : `parse_complicated_definition` 13. Decl_Typedef : `parse_typedef`
14. Decl_Using : `parse_using` 14. Decl_Union : `parse_complicated_definition`
15. Operator == '~' 15. Decl_Using : `parse_using`
16. Operator == '~'
1. `parse_destructor` 1. `parse_destructor`
16. Preprocess_Define : `parse_define` 17. Preprocess_Define : `parse_define`
17. Preprocess_Include : `parse_include` 18. Preprocess_Include : `parse_include`
18. Preprocess_Conditional (if, ifdef, ifndef, elif, else, endif) : `parse_preprocess_cond` or else/endif ast constant 19. Preprocess_Conditional (if, ifdef, ifndef, elif, else, endif) : `parse_preprocess_cond` or else/endif ast constant
19. Preprocess_Macro : `parse_simple_preprocess` 20. Preprocess_Macro : `parse_simple_preprocess`
20. Preprocess_Pragma : `parse_pragma` 21. Preprocess_Pragma : `parse_pragma`
21. Preprocess_Unsupported : `parse_simple_preprocess` 22. Preprocess_Unsupported : `parse_simple_preprocess`
22. StaticAssert : `parse_static_assert` 23. StaticAssert : `parse_static_assert`
23. The following compound into a resolved definition or declaration: 24. The following compound into a resolved definition or declaration:
1. Attributes (Standard, GNU, MSVC) : `parse_attributes` 1. Attributes (Standard, GNU, MSVC) : `parse_attributes`
2. Specifiers (consteval, constexpr, constinit, forceinline, inline, mutable, neverinline, static, volatile) 2. Specifiers (consteval, constexpr, constinit, explicit, forceinline, inline, mutable, neverinline, static, volatile, virtual)
3. Possible Destructor : `parse_destructor` 3. Possible Destructor : `parse_destructor`
4. Possible User defined operator cast : `parse_operator_cast` 4. Possible User defined operator cast : `parse_operator_cast`
5. Possible Constructor : `parse_constructor` 5. Possible Constructor : `parse_constructor`
6. Something that has the following: (identifier, const, unsigned, signed, short, long, bool, char, int, double) 6. Something that has the following: (identifier, const, unsigned, signed, short, long, bool, char, int, double)
1. Possible Constructor `parse_constructor` 1. Possible Constructor `parse_constructor`
2. Possible Operator, Function, or varaible : `parse_operator_function_or_variable` 2. Possible Operator, Function, or varaible : `parse_operator_function_or_variable`
24. Something completely unknown (will just make untyped...) : `parse_untyped` 25. Something completely unknown (will just make untyped...) : `parse_untyped`
## `parse_comment` ## `parse_comment`
@ -197,15 +206,17 @@ A portion of the code in `parse_typedef` is very similar to this as both have to
2. If the token has a closing brace its an inplace definition 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. 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. 4. If the `token[-2]` is an indirection, then its a variable using a namespaced/forwarded type.
5. If any of the above is the case, `parse_operator_function_or_variable` 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.
4. If the previous token was a closing curly brace, its a definition : `parse_forward_or_definition` 6. If any of the above is the case, `parse_operator_function_or_variable`
5. If the previous token was a closing square brace, its an array definition : `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` ## `parse_define`
1. Define directive 1. Define directive
2. Get identifier 2. Get identifier
3. Get Content 3. Get Content (Optional)
## `parse_forward_or_definition` ## `parse_forward_or_definition`
@ -243,36 +254,47 @@ In the future statements and expressions will be parsed.
1. Make sure this is being called for a valid type (namespace, global body, export body, linkage body) 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 2. If its not a global body, consume the opening curly brace
3. Parse the body (Possible options): 3. Parse the body (Possible options):
1. NewLine : ast constant 1. Ignore dangling end statements
2. Comment : `parse_comment` 2. NewLine : ast constant
3. Decl_Cass : `parse_complicated_definition` 3. Comment : `parse_comment`
4. Decl_Enum : `parse_complicated_definition` 4. Decl_Cass : `parse_complicated_definition`
5. Decl_Extern_Linkage : `parse_extern_link` 5. Decl_Enum : `parse_complicated_definition`
6. Decl_Namespace : `parse_namespace` 6. Decl_Extern_Linkage : `parse_extern_link`
7. Decl_Struct : `parse_complicated_definition` 7. Decl_Namespace : `parse_namespace`
8. Decl_Template : `parse_template` 8. Decl_Struct : `parse_complicated_definition`
9. Decl_Typedef : `parse_typedef` 9. Decl_Template : `parse_template`
10. Decl_Union : `parse_complicated_definition` 10. Decl_Typedef : `parse_typedef`
11. Decl_Using : `parse_using` 11. Decl_Union : `parse_complicated_definition`
12. Preprocess_Define : `parse_define` 12. Decl_Using : `parse_using`
13. Preprocess_Include : `parse_include` 13. Preprocess_Define : `parse_define`
14. Preprocess_If, IfDef, IfNotDef, Elif : `parse_preprocess_cond` 14. Preprocess_Include : `parse_include`
15. Preprocess_Else : ast constant 15. Preprocess_If, IfDef, IfNotDef, Elif : `parse_preprocess_cond`
16. Preprocess_Endif : ast constant 16. Preprocess_Else : ast constant
17. Preprocess_Macro : `parse_simple_preprocess` 17. Preprocess_Endif : ast constant
18. Preprocess_Pragma : `parse_pragma` 18. Preprocess_Macro : `parse_simple_preprocess`
19. Preprocess_Unsupported : `parse_simple_preprocess` 19. Preprocess_Pragma : `parse_pragma`
20. StaticAssert : `parse_static_assert` 20. Preprocess_Unsupported : `parse_simple_preprocess`
21. Module_Export : `parse_export_body` 21. StaticAssert : `parse_static_assert`
22. Module_Import : NOT_IMPLEMENTED 22. Module_Export : `parse_export_body`
23. The following compound into a resolved definition or declaration: 23. Module_Import : NOT_IMPLEMENTED
24. The following compound into a resolved definition or declaration:
1. Attributes ( Standard, GNU, MSVC, Macro ) : `parse_attributes` 1. Attributes ( Standard, GNU, MSVC, Macro ) : `parse_attributes`
2. Specifiers ( consteval, constexpr, constinit, extern, forceinline, global, inline, internal_linkage, neverinline, static ) 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) 3. Is either ( identifier, const specifier, long, short, signed, unsigned, bool, char, double, int)
1. If its an operator cast (definition outside class) : `parse_operator_cast` 1. Attempt to parse as constrcutor or destructor : `parse_global_nspace_constructor_destructor`
2. Its an operator, function, or varaible : `parse_operator_function_or_varaible` 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 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` ## `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. 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.
@ -284,6 +306,7 @@ The function can parse all of them, however the AST node compresses them all int
1. Consume `::` 1. Consume `::`
2. Consume member identifier 2. Consume member identifier
3. `parse_template args` (for 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` ## `parse_include`
@ -329,15 +352,17 @@ When this function is called, attribute and specifiers may have been resolved, h
2. If the we immdiately find a closing token, consume it and finish. 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 3. If we encounter a varadic argument, consume it and return a `param_varadic` ast constant
4. `parse_type` 4. `parse_type`
5. If we have an identifier 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 1. Consume it
2. Check for assignment: 2. Check for assignment:
1. Consume assign operator a. Consume assign operator
2. Parse the expression b. Parse the expression
6. While we continue to encounter commas 7. While we continue to encounter commas
1. Consume them a. Consume them
2. Repeat steps 3 to 5.2.2 b. Repeat steps 3 to 6.2.b
7. Consume the closing token 8. Consume the closing token
## `parse_preprocess_cond` ## `parse_preprocess_cond`
@ -456,6 +481,7 @@ This currently doesn't support postfix specifiers (planning to in the future)
2. If there is an assignment operator: 2. If there is an assignment operator:
1. Consume operator 1. Consume operator
2. Consume the expression (assigned to untyped string for now) 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 3. If there is a comma, consume it
## `parse_export_body` ## `parse_export_body`
@ -476,10 +502,9 @@ This currently doesn't support postfix specifiers (planning to in the future)
1. Consume `friend` 1. Consume `friend`
2. `parse_type` 2. `parse_type`
3. If the currok is an identifier its a function declaration (there is no support for inline definitions yet) 3. If the currok is an identifier its a function declaration or definition
1. `parse_identifier` 1. `parse_function_after_name`
2. `parse_params` 4. Consume end statement so long as its not a function definion
4. Consume end statement
5. Check for inline comment, `parse_comment` if exists 5. Check for inline comment, `parse_comment` if exists
## `parse_function` ## `parse_function`
@ -540,7 +565,8 @@ Note: This currently doesn't support templated operator casts (going to need to
5. The following compound into a resolved definition or declaration: 5. The following compound into a resolved definition or declaration:
1. `parse_attributes` 1. `parse_attributes`
2. Parse specifiers 2. Parse specifiers
3. `parse_operator_function_or_variable` 3. Attempt to parse as constructor or destructor: `parse_global_nspace_constructor_destructor`
4. Otherwise: `parse_operator_function_or_variable`
## `parse_type` ## `parse_type`
@ -553,14 +579,15 @@ Anything that is in the qualifier capture of the function typename is treated as
1. `parse_attributes` 1. `parse_attributes`
2. Parse specifiers 2. Parse specifiers
3. This is where things get ugly for each of these depend on what the next token is. 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: 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) 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 ) 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. Ends up being a regular type alias of an identifier
4. Parse specifiers (postfix) 5. Parse specifiers (postfix)
5. We need to now look ahead to see If we're dealing with a function typename 6. 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: 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. 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 1. Reset the specifiers code for the top-level typeanme
2. Check to see if the next token is an identifier: 2. Check to see if the next token is an identifier:
@ -571,7 +598,7 @@ Anything that is in the qualifier capture of the function typename is treated as
3. Consume `)` 3. Consume `)`
4. `parse_params` 4. `parse_params`
5. Parse postfix specifiers 5. Parse postfix specifiers
7. Check for varaidic argument (param pack) token: 8. Check for varaidic argument (param pack) token:
1. Consume varadic argument token 1. Consume varadic argument token
### WIP - Alternative Algorithim ### WIP - Alternative Algorithim

4
docs/Parsing.md
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@ -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. 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. 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. * The parse API treats any execution scope definitions with no validation and are turned into untyped Code ASTs.
* *This includes the assignment of variables.* * *This includes the assignment of variables.*
* Attributes ( `[[]]` (standard), `__declspec` (Microsoft), or `__attribute__` (GNU) ) * 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*) * Or in the usual spot for class, structs, (*right after the declaration keyword*)
* typedefs have attributes with the type (`parse_type`) * 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) * Parsing attributes can be extended to support user defined macros by defining `GEN_DEFINE_ATTRIBUTE_TOKENS` (see `gen.hpp` for the formatting)

2
docs/Readme.md
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@ -82,6 +82,7 @@ union {
AST* ValueType; // Parameter, Variable AST* ValueType; // Parameter, Variable
}; };
union { union {
AST* Macro; // Parameters
AST* BitfieldSize; // Variable (Class/Struct Data Member) AST* BitfieldSize; // Variable (Class/Struct Data Member)
AST* Params; // Constructor, Function, Operator, Template, Typename AST* Params; // Constructor, Function, Operator, Template, Typename
}; };
@ -461,6 +462,7 @@ The AST and constructors will be able to validate that the arguments provided fo
* If return type must match a parameter * If return type must match a parameter
* If number of parameters is correct * 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) * 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 The user is responsible for making sure the code types provided are correct
and have the desired specifiers assigned to them beforehand. and have the desired specifiers assigned to them beforehand.

1
project/Readme.md
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@ -10,7 +10,6 @@ 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. 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 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

79
project/components/parser.cpp
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@ -554,6 +554,40 @@ Code parse_array_decl()
return { nullptr }; return { nullptr };
} }
internal inline
Code parse_assignment_expression()
{
Code expr = { nullptr };
eat( TokType::Operator );
// <Attributes> <Specifiers> <ValueType> <Name> =
Token expr_tok = currtok;
if ( currtok.Type == TokType::Statement_End && currtok.Type != TokType::Comma )
{
log_failure( "Expected expression after assignment operator\n%s", Context.to_string() );
Context.pop();
return CodeInvalid;
}
s32 level = 0;
while ( left && currtok.Type != TokType::Statement_End && (currtok.Type != TokType::Comma || level > 0) )
{
if (currtok.Type == TokType::Capture_Start)
level++;
else if (currtok.Type == TokType::Capture_End)
level--;
eat( currtok.Type );
}
expr_tok.Length = ( ( sptr )currtok.Text + currtok.Length ) - ( sptr )expr_tok.Text - 1;
expr = untyped_str( expr_tok );
// = <Expression>
return expr;
}
internal inline internal inline
CodeAttributes parse_attributes() CodeAttributes parse_attributes()
{ {
@ -1311,14 +1345,17 @@ CodeDefine parse_define()
eat( TokType::Identifier ); eat( TokType::Identifier );
// #define <Name> // #define <Name>
// Defines don't necessarily need content.
#if 0
if ( ! check( TokType::Preprocess_Content )) if ( ! check( TokType::Preprocess_Content ))
{ {
log_failure( "Error, expected content after #define %s\n%s", define->Name, Context.to_string() ); log_failure( "Error, expected content after #define %s\n%s", define->Name, Context.to_string() );
Context.pop(); Context.pop();
return CodeInvalid; return CodeInvalid;
} }
#endif
if ( currtok.Length == 0 ) if ( check(TokType::Preprocess_Content) && currtok.Length != 0 )
{ {
define->Content = get_cached_string( currtok ); define->Content = get_cached_string( currtok );
eat( TokType::Preprocess_Content ); eat( TokType::Preprocess_Content );
@ -1336,40 +1373,6 @@ CodeDefine parse_define()
return define; return define;
} }
internal inline
Code parse_assignment_expression()
{
Code expr = { nullptr };
eat( TokType::Operator );
// <Attributes> <Specifiers> <ValueType> <Name> =
Token expr_tok = currtok;
if ( currtok.Type == TokType::Statement_End && currtok.Type != TokType::Comma )
{
log_failure( "Expected expression after assignment operator\n%s", Context.to_string() );
Context.pop();
return CodeInvalid;
}
s32 level = 0;
while ( left && currtok.Type != TokType::Statement_End && (currtok.Type != TokType::Comma || level > 0) )
{
if (currtok.Type == TokType::Capture_Start)
level++;
else if (currtok.Type == TokType::Capture_End)
level--;
eat( currtok.Type );
}
expr_tok.Length = ( ( sptr )currtok.Text + currtok.Length ) - ( sptr )expr_tok.Text - 1;
expr = untyped_str( expr_tok );
// = <Expression>
return expr;
}
internal inline internal inline
Code parse_forward_or_definition( TokType which, bool is_inplace ) Code parse_forward_or_definition( TokType which, bool is_inplace )
{ {
@ -3192,7 +3195,8 @@ CodeVar parse_variable_after_name(
Note(Ed): This does not support the following: Note(Ed): This does not support the following:
* Function Pointers * Function Pointers
*/ */
internal CodeVar parse_variable_declaration_list() internal
CodeVar parse_variable_declaration_list()
{ {
push_scope(); push_scope();
@ -4328,7 +4332,8 @@ CodeTemplate parse_template()
The excess whitespace cannot be stripped however, because there is no semantic awareness within the first capture group. The excess whitespace cannot be stripped however, because there is no semantic awareness within the first capture group.
*/ */
internal CodeType parse_type( bool from_template, bool* typedef_is_function ) internal
CodeType parse_type( bool from_template, bool* typedef_is_function )
{ {
push_scope(); push_scope();

14
scripts/gencpp.natvis
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@ -121,6 +121,20 @@
</Expand> </Expand>
</Type> </Type>
<Type Name="gen::AST_Constructor">
<DisplayString>{Name} Type: {Type}</DisplayString>
<Expand>
<Item Name="InlineCmt">InlineCmt</Item>
<Item Name="Specs">Specs</Item>
<Item Name="InitializerList">InitializerList</Item>
<Item Name="Params">Params</Item>
<Item Name="Body">Body</Item>
<Item Name="Parent">Parent</Item>
<Item Name="Prev">Prev</Item>
<Item Name="Next">Next</Item>
</Expand>
</Type>
<Type Name="gen::AST_Class"> <Type Name="gen::AST_Class">
<DisplayString>{Name} Type: {Type}</DisplayString> <DisplayString>{Name} Type: {Type}</DisplayString>
<Expand> <Expand>