gencpp/gen_c_library/c_library.cpp

1022 lines
31 KiB
C++

#include <cstdlib> // for system()
#define GEN_DEFINE_LIBRARY_CODE_CONSTANTS
#define GEN_ENFORCE_STRONG_CODE_TYPES
#define GEN_EXPOSE_BACKEND
#include "../project/gen.cpp"
#include "helpers/push_ignores.inline.hpp"
#include "helpers/helper.hpp"
GEN_NS_BEGIN
#include "helpers/push_container_defines.inline.hpp"
#include "dependencies/parsing.cpp"
#include "helpers/pop_container_defines.inline.hpp"
GEN_NS_END
#include "auxillary/builder.hpp"
#include "auxillary/builder.cpp"
#include "auxillary/scanner.hpp"
#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_strc_from_c_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 format_code_to_untyped( 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;
}
constexpr bool helper_use_c_definition = true;
int gen_main()
{
#define project_dir "../project/"
gen::init();
PreprocessorDefines.append(txt("GEN_API_C_BEGIN"));
PreprocessorDefines.append(txt("GEN_API_C_END"));
PreprocessorDefines.append(txt("HashTable("));
PreprocessorDefines.append(txt("GEN_NS_PARSER"));
PreprocessorDefines.append(txt("GEN_NS_PARSER_BEGIN"));
PreprocessorDefines.append(txt("GEN_NS_PARSER_END"));
PreprocessorDefines.append(txt("Using_Code("));
PreprocessorDefines.append(txt("Using_CodeOps("));
PreprocessorDefines.append(txt("GEN_OPTIMIZE_MAPPINGS_BEGIN"));
PreprocessorDefines.append(txt("GEN_OPITMIZE_MAPPINGS_END"));
//PreprocessorDefines.append(txt("GEN_EXECUTION_EXPRESSION_SUPPORT"));
PreprocessorDefines.append(txt("GEN_PARAM_DEFAULT"));
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" );
// Header Content: Reflection and Generation
#pragma region Resolve Dependencies
Code header_platform = scan_file( project_dir "dependencies/platform.hpp" );
Code header_macros = scan_file( project_dir "dependencies/macros.hpp" );
Code header_basic_types = scan_file( project_dir "dependencies/basic_types.hpp" );
Code header_debug = scan_file( project_dir "dependencies/debug.hpp" );
Code header_string_ops = scan_file( project_dir "dependencies/string_ops.hpp" );
Code header_hashing = scan_file( project_dir "dependencies/hashing.hpp" );
Code header_timing = scan_file( project_dir "dependencies/timing.hpp" );
CodeBody parsed_header_memory = parse_file( project_dir "dependencies/memory.hpp" );
CodeBody header_memory = def_body(CT_Global_Body);
for ( Code entry = parsed_header_memory.begin(); entry != parsed_header_memory.end(); ++ entry ) switch (entry->Type)
{
case CT_Using:
{
log_fmt("REPLACE THIS MANUALLY: %SC\n", entry->Name);
CodeUsing using_ver = cast(CodeUsing, entry);
CodeTypedef typedef_ver = def_typedef(using_ver->Name, using_ver->UnderlyingType);
header_memory.append(typedef_ver);
}
break;
case CT_Function_Fwd:
{
CodeFn fn = cast(CodeFn, entry);
header_memory.append(fn);
}
break;
case CT_Function:
{
CodeFn fn = cast(CodeFn, entry);
if (fn->Name.is_equal(txt("heap")))
{
Code heap_def = untyped_str(txt("#define heap() (AllocatorInfo){ heap_allocator_proc, nullptr }"));
header_memory.append(heap_def);
continue;
}
if (fn->Specs) {
s32 constexpr_found = fn->Specs.remove( Spec_Constexpr );
if (constexpr_found > -1) {
//log_fmt("Found constexpr: %S\n", entry.to_string());
fn->Specs.append(Spec_Inline);
}
}
header_memory.append(fn);
}
break;
case CT_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 )
)"
));
header_memory.append(macro_swap);
}
}
break;
case CT_Enum:
{
convert_cpp_enum_to_c(cast(CodeEnum, entry), header_memory);
}
break;
case CT_Struct_Fwd:
{
CodeTypedef tdef = parse_typedef(token_fmt("name", entry->Name, stringize( typedef struct <name> <name>; )));
header_memory.append(entry);
header_memory.append(tdef);
}
break;
case CT_Class:
case CT_Struct:
{
CodeBody body = cast(CodeBody, entry->Body);
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 CT_Preprocess_If:
{
b32 found = ignore_preprocess_cond_block(txt("GEN_COMPILER_CPP && ! GEN_C_LIKE_CPP"), body_entry, body, new_body );
if (found) break;
}
break;
default:
new_body.append(body_entry);
break;
}
entry->Body = new_body;
CodeTypedef tdef = parse_typedef(token_fmt("name", entry->Name, stringize( typedef struct <name> <name>; )));
header_memory.append(entry);
header_memory.append(tdef);
}
break;
case CT_Preprocess_If:
{
b32 found = ignore_preprocess_cond_block(txt("! GEN_C_LIKE_CPP"), entry, parsed_header_memory, header_memory );
if (found) break;
header_memory.append(entry);
}
break;
case CT_Preprocess_IfDef:
{
b32 found = ignore_preprocess_cond_block(txt("GEN_INTELLISENSE_DIRECTIVES"), entry, parsed_header_memory, header_memory );
if (found) break;
header_memory.append(entry);
}
break;
case CT_Preprocess_Pragma:
{
CodePragma pragma = cast(CodePragma, entry);
b32 found = swap_pragma_region_implementation( txt("FixedArena"), gen_fixed_arenas, entry, header_memory);
if (found) break;
header_memory.append(entry);
}
break;
default: {
header_memory.append(entry);
}
break;
}
CodeBody parsed_header_printing = parse_file( project_dir "dependencies/printing.hpp" );
CodeBody header_printing = def_body(CT_Global_Body);
for ( Code entry = parsed_header_printing.begin(); entry != parsed_header_printing.end(); ++ entry ) switch (entry->Type)
{
case CT_Preprocess_IfDef:
{
b32 found = ignore_preprocess_cond_block(txt("GEN_INTELLISENSE_DIRECTIVES"), entry, parsed_header_printing, header_printing );
if (found) break;
header_printing.append(entry);
}
break;
case CT_Variable:
{
if ( strc_contains(entry->Name, txt("Msg_Invalid_Value")))
{
CodeDefine define = def_define(entry->Name, entry->Value->Content);
header_printing.append(define);
continue;
}
header_printing.append(entry);
}
break;
default:
header_printing.append(entry);
break;
}
Code array_ssize = gen_array(txt("ssize"), txt("Array_ssize"));
Code array_string_cached = gen_array(txt("StringCached"), txt("Array_StringCached"));
CodeBody parsed_header_strings = parse_file( project_dir "dependencies/strings.hpp" );
CodeBody header_strings = def_body(CT_Global_Body);
for ( Code entry = parsed_header_strings.begin(); entry != parsed_header_strings.end(); ++ entry ) switch (entry->Type)
{
case CT_Preprocess_If:
{
CodePreprocessCond cond = cast(CodePreprocessCond, entry);
if (cond->Content.is_equal(txt("GEN_COMPILER_C")))
{
++ entry; // Remove #if GEN_COMPILER_C
for ( ; entry->Type != CT_Preprocess_Else
&& entry->Type != CT_Preprocess_EndIf; ++ entry ) {
header_strings.append(entry); // Preserve content
}
for ( ; entry->Type != CT_Preprocess_EndIf; ++ entry ) {} // Discard C++
// #endif discarded by for loop
break;
}
bool found = ignore_preprocess_cond_block(txt("GEN_COMPILER_CPP"), entry, parsed_header_strings, header_strings);
if (found) break;
found = ignore_preprocess_cond_block(txt("GEN_COMPILER_CPP && ! GEN_C_LIKE_CPP"), entry, parsed_header_strings, header_strings);
if (found) break;
}
break;
case CT_Preprocess_IfDef:
{
ignore_preprocess_cond_block(txt("GEN_INTELLISENSE_DIRECTIVES"), entry, parsed_header_strings, header_strings );
}
break;
case CT_Preprocess_IfNotDef:
{
//log_fmt("\nIFNDEF: %SC\n", entry->Content);
header_strings.append(entry);
}
break;
case CT_Struct_Fwd:
{
if ( entry->Name.is_equal(txt("String")) )
{
CodeTypedef c_def = parse_typedef(code( typedef char* String; ));
header_strings.append(c_def);
header_strings.append(fmt_newline);
++ entry;
continue;
}
else
{
CodeTypedef c_def = parse_typedef(token_fmt("name", entry->Name, stringize( typedef struct <name> <name>; )));
header_strings.append(c_def);
}
header_strings.append(entry);
}
break;
case CT_Struct:
{
CodeBody body = cast(CodeBody, entry->Body);
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 CT_Preprocess_If:
{
b32 found = ignore_preprocess_cond_block(txt("GEN_COMPILER_CPP"), body_entry, body, new_body );
if (found) break;
new_body.append(body_entry);
}
break;
default:
new_body.append(body_entry);
break;
}
entry->Body = new_body;
header_strings.append(entry);
}
break;
case CT_Typedef:
{
StrC name_string_table = txt("StringTable");
CodeTypedef td = cast(CodeTypedef, entry);
if (td->Name.contains(name_string_table))
{
CodeBody ht = gen_hashtable(txt("StrC"), name_string_table);
header_strings.append(ht);
break;
}
header_strings.append(td);
}
break;
default:
header_strings.append(entry);
break;
}
CodeBody array_u8 = gen_array(txt("u8"), txt("Array_u8"));
CodeBody parsed_header_filesystem = parse_file( project_dir "dependencies/filesystem.hpp" );
CodeBody header_filesystem = def_body(CT_Global_Body);
for ( Code entry = parsed_header_filesystem.begin(); entry != parsed_header_filesystem.end(); ++ entry ) switch (entry->Type)
{
case CT_Preprocess_IfDef:
{
b32 found = ignore_preprocess_cond_block(txt("GEN_INTELLISENSE_DIRECTIVES"), entry, parsed_header_filesystem, header_filesystem );
if (found) break;
header_filesystem.append(entry);
}
break;
case CT_Enum:
{
if (entry->Name.is_equal(txt("FileOperations")))
continue;
convert_cpp_enum_to_c(cast(CodeEnum, entry), header_filesystem);
}
break;
case CT_Enum_Fwd:
case CT_Struct_Fwd:
case CT_Struct:
case CT_Union:
case CT_Union_Fwd:
{
StrC type_str = codetype_to_keyword_str(entry->Type);
StrC formated_tmpl = token_fmt_impl( 3,
"type", type_str
, "name", entry->Name,
stringize(
typedef <type> <name> <name>;
));
CodeTypedef tdef = parse_typedef(formated_tmpl);
header_filesystem.append(entry);
header_filesystem.append(tdef);
}
break;
case CT_Variable:
{
CodeVar var = cast(CodeVar, entry);
if (var->Specs.has(Spec_Constexpr) > -1)
{
CodeDefine define = def_define(entry->Name, entry->Value->Content);
header_filesystem.append(define);
continue;
}
header_filesystem.append(entry);
}
break;
default:
header_filesystem.append(entry);
break;
}
CodeBody array_adt_node = gen_array(txt("ADT_Node"), txt("Array_ADT_Node"));
CodeBody parsed_header_parsing = parse_file( project_dir "dependencies/parsing.hpp" );
CodeBody header_parsing = def_body(CT_Global_Body);
for ( Code entry = parsed_header_parsing.begin(); entry != parsed_header_parsing.end(); ++ entry ) switch (entry->Type)
{
case CT_Preprocess_Pragma:
{
if ( entry->Content.contains(txt("ADT")) )
{
header_parsing.append(entry);
header_parsing.append(fmt_newline);
// Add ADT_Node forward and typedef early.
CodeStruct adt_node_fwd = parse_struct(code( struct ADT_Node; ));
CodeTypedef adt_node_typedef = parse_typedef(code( typedef struct ADT_Node ADT_Node; ));
header_parsing.append(adt_node_fwd);
header_parsing.append(adt_node_typedef);
// Skip typedef since we added it
b32 continue_for = true;
for (Code array_entry = array_adt_node.begin(); continue_for && array_entry != array_adt_node.end(); ++ array_entry) switch (array_entry->Type)
{
case CT_Typedef:
{
// pop the array entry
array_adt_node->NumEntries -= 1;
Code next = array_entry->Next;
Code prev = array_entry->Prev;
next->Prev = array_entry->Prev;
prev->Next = next;
if ( array_adt_node->Front == array_entry )
array_adt_node->Front = next;
header_parsing.append(array_entry);
continue_for = false;
}
break;
}
}
}
break;
case CT_Enum:
{
convert_cpp_enum_to_c(cast(CodeEnum, entry), header_parsing);
}
break;
case CT_Struct:
{
CodeStruct struct_def = cast(CodeStruct, entry);
if ( struct_def->Name.is_equal(txt("ADT_Node") ) )
{
header_parsing.append(entry);
// We need to define the array for ADT_Node right here.
header_parsing.append(array_adt_node);
header_parsing.append(fmt_newline);
continue;
}
StrC type_str = codetype_to_keyword_str(entry->Type);
StrC formated_tmpl = token_fmt_impl( 3,
"type", type_str
, "name", entry->Name,
stringize(
typedef <type> <name> <name>;
));
CodeTypedef tdef = parse_typedef(formated_tmpl);
header_parsing.append(entry);
header_parsing.append(tdef);
}
break;
default:
{
header_parsing.append(entry);
}
break;
}
#pragma endregion Resolve Dependencies
#pragma region Resolve Components
// Only has operator overload definitions that C doesn't need.
// CodeBody ast_inlines = gen_ast_inlines();
Code inlines = scan_file( project_dir "components/inlines.hpp" );
CodeBody ecode = gen_ecode ( project_dir "enums/ECodeTypes.csv", helper_use_c_definition );
CodeBody eoperator = gen_eoperator ( project_dir "enums/EOperator.csv", helper_use_c_definition );
CodeBody especifier = gen_especifier( project_dir "enums/ESpecifier.csv", helper_use_c_definition );
CodeBody parsed_types = parse_file( project_dir "components/types.hpp" );
CodeBody types = def_body(CT_Global_Body);
for ( Code entry = parsed_types.begin(); entry != parsed_types.end(); ++ entry ) switch(entry->Type)
{
case CT_Using:
{
CodeUsing using_ver = cast(CodeUsing, entry);
if (using_ver->UnderlyingType->ReturnType)
{
CodeTypename type = using_ver->UnderlyingType;
CodeTypedef typedef_ver = parse_typedef(token_fmt(
"ReturnType", to_string(type->ReturnType).to_strc()
, "Name" , using_ver->Name
, "Parameters", to_string(type->Params).to_strc()
, stringize(
typedef <ReturnType>( * <Name>)(<Parameters>);
)));
types.append(typedef_ver);
break;
}
CodeTypedef typedef_ver = def_typedef(using_ver->Name, using_ver->UnderlyingType);
types.append(typedef_ver);
}
break;
case CT_Enum:
{
if (entry->Name.is_equal(txt("ETypenameTag")))
{
#pragma push_macro("enum_underlying")
#undef enum_underlying
entry->UnderlyingTypeMacro = untyped_str(token_fmt("type", entry->UnderlyingType->Name, stringize(enum_underlying(<type>))));
entry->UnderlyingType = CodeTypename{nullptr};
types.append(entry);
#pragma pop_macro("enum_underlying")
CodeTypedef entry_td = parse_typedef(code( typedef u16 ETypenameTag; ));
types.append(entry_td);
continue;
}
//log_fmt("Detected ENUM: %S", entry->Name);
convert_cpp_enum_to_c(cast(CodeEnum, entry), types);
}
break;
default:
types.append(entry);
break;
}
CodeBody parsed_ast = parse_file( project_dir "components/ast.hpp" );
CodeBody ast = def_body(CT_Global_Body);
for ( Code entry = parsed_ast.begin(); entry != parsed_ast.end(); ++ entry ) switch (entry->Type)
{
case CT_Preprocess_If:
{
CodePreprocessCond cond = cast(CodePreprocessCond, entry);
if (cond->Content.contains(txt("GEN_COMPILER_C")))
{
//++ entry; //
//ast.append(entry) // typedef
//for ( ; entry != parsed_ast.end() && entry->Type != CT_Preprocess_EndIf; ++ entry) {}
//++ entry; // Consume endif
}
b32 found = ignore_preprocess_cond_block(txt("GEN_COMPILER_CPP"), entry, parsed_ast, ast);
if (found) break;
ast.append(entry);
}
break;
case CT_Struct_Fwd:
{
CodeStruct fwd = cast(CodeStruct, entry);
CodeTypedef tdef = parse_typedef(token_fmt("name", fwd->Name, stringize( typedef struct <name> <name>; )));
ast.append(fwd);
ast.append(tdef);
}
break;
case CT_Struct:
{
CodeStruct struct_def = cast(CodeStruct, entry);
ast.append(struct_def);
if ( ! entry->Name.is_equal(txt("AST")))
{
CodeTypedef tdef = parse_typedef(token_fmt("name", struct_def->Name, stringize( typedef struct <name> <name>; )));
ast.append(tdef);
}
}
break;
case CT_Variable:
{
CodeVar var = cast(CodeVar, entry);
s32 constexpr_found = var->Specs ? var->Specs.remove( Spec_Constexpr ) : - 1;
if (constexpr_found > -1) {
//log_fmt("Found constexpr: %S\n", entry.to_string());
if (var->Name.contains(txt("AST_ArrSpecs_Cap")))
{
Code def = untyped_str(txt(
R"(#define AST_ArrSpecs_Cap \
( \
AST_POD_Size \
- sizeof(Code) \
- sizeof(StringCached) \
- sizeof(Code) * 2 \
- sizeof(Token*) \
- sizeof(Code) \
- sizeof(CodeType) \
- sizeof(ModuleFlag) \
- sizeof(u32) \
) \
/ sizeof(Specifier) - 1
)"
));
ast.append(def);
break;
}
CodeDefine def = def_define(var->Name, var->Value.to_string());
ast.append(def);
break;
}
ast.append(var);
}
break;
default:
ast.append(entry);
break;
}
CodeBody parsed_code_types = parse_file( project_dir "components/code_types.hpp" );
CodeBody code_types = def_body(CT_Global_Body);
for ( Code entry = parsed_code_types.begin(); entry != parsed_code_types.end(); ++ entry ) switch( entry->Type )
{
case CT_Preprocess_If:
case CT_Preprocess_IfDef:
{
b32 found = ignore_preprocess_cond_block(txt("GEN_COMPILER_CPP"), entry, parsed_code_types, code_types );
if (found) {
++ entry;
break;
}
found = ignore_preprocess_cond_block(txt("GEN_INTELLISENSE_DIRECTIVES"), entry, parsed_code_types, code_types );
if (found) break;
code_types.append(entry);
}
break;
default:
code_types.append(entry);
break;
}
CodeBody parsed_ast_types = parse_file( project_dir "components/ast_types.hpp" );
CodeBody ast_types = def_body(CT_Global_Body);
for ( Code entry = parsed_ast_types.begin(); entry != parsed_ast_types.end(); ++ entry ) switch( entry->Type )
{
case CT_Preprocess_If:
case CT_Preprocess_IfDef:
{
b32 found = ignore_preprocess_cond_block(txt("GEN_INTELLISENSE_DIRECTIVES"), entry, parsed_code_types, code_types );
if (found) break;
ast_types.append(entry);
}
break;
case CT_Struct:
{
CodeBody body = cast(CodeBody, entry->Body);
for ( Code body_entry = body.begin(); body_entry != body.end(); ++ body_entry ) switch (body_entry->Type)
{
case CT_Union:
{
Code union_entry = body_entry->Body->Front;
if ( body_entry && union_entry->Name.is_equal(txt("_PAD_")) )
{
char conversion_buf[32] = {};
u64_to_str(size_of(AST_Body::_PAD_), conversion_buf, 10);
StrC arr_exp = union_entry->ValueType->ArrExpr->Content;
StrC cpp_size = to_strc_from_c_str(conversion_buf);
union_entry->ValueType->ArrExpr = untyped_str( cpp_size );
union_entry->InlineCmt = untyped_str(token_fmt("arr_exp", arr_exp,
"// Had to hardcode _PAD_ because (<arr_exp>) was 67 bytes in C (Injected C++ size_of(AST_<Type>::_PAD_) from C++ side)\n"
));
}
}
}
CodeTypedef tdef = parse_typedef(token_fmt("name", entry->Name, stringize( typedef struct <name> <name>; )));
ast_types.append(entry);
ast_types.append(tdef);
}
break;
default:
ast_types.append(entry);
break;
}
CodeBody parsed_interface = parse_file( project_dir "components/interface.hpp" );
CodeBody interface = def_body(CT_Global_Body);
for ( Code entry = parsed_interface.begin(); entry != parsed_interface.end(); ++ entry ) switch( entry->Type )
{
case CT_Preprocess_IfDef:
{
b32 found = ignore_preprocess_cond_block(txt("GEN_INTELLISENSE_DIRECTIVES"), entry, parsed_code_types, code_types );
if (found) break;
interface.append(entry);
}
break;
case CT_Function_Fwd:
case CT_Function:
{
CodeFn fn = cast(CodeFn, entry);
Code prev = entry->Prev;
if (prev && prev->Name.is_equal(entry->Name)) {
String postfix_arr = String::fmt_buf(GlobalAllocator, "%SC_arr", entry->Name);
entry->Name = get_cached_string(postfix_arr.to_strc());
postfix_arr.free();
}
interface.append(fn);
}
break;
case CT_Struct:
{
CodeTypedef tdef = parse_typedef(token_fmt("name", entry->Name, stringize( typedef struct <name> <name>; )));
interface.append(entry);
interface.append(tdef);
interface.append(fmt_newline);
}
break;
default:
interface.append(entry);
break;
}
s32 idx = 0;
CodeBody parsed_header_end = parse_file( project_dir "components/header_end.hpp" );
CodeBody header_end = def_body(CT_Global_Body);
for ( Code entry = parsed_header_end.begin(); entry != parsed_header_end.end(); ++ entry, ++ idx ) switch( entry->Type )
{
case CT_Variable:
{
CodeVar var = cast(CodeVar, entry);
if (var->Specs)
{
s32 constexpr_found = var->Specs.remove( Spec_Constexpr );
if (constexpr_found > -1) {
CodeDefine define = def_define(entry->Name, entry->Value->Content);
header_end.append(define);
continue;
}
}
header_end.append(entry);
}
break;
default:
header_end.append(entry);
break;
}
#pragma endregion Resolve Components
// Source Content : Reflection and Generation
#pragma region Resolve Dependencies
Code src_impl_start = scan_file( project_dir "dependencies/src_start.cpp" );
Code src_debug = scan_file( project_dir "dependencies/debug.cpp" );
Code src_string_ops = scan_file( project_dir "dependencies/string_ops.cpp" );
Code src_printing = scan_file( project_dir "dependencies/printing.cpp" );
Code src_memory = scan_file( project_dir "dependencies/memory.cpp" );
Code src_hashing = scan_file( project_dir "dependencies/hashing.cpp" );
Code src_strings = scan_file( project_dir "dependencies/strings.cpp" );
Code src_filesystem = scan_file( project_dir "dependencies/filesystem.cpp" );
Code src_timing = scan_file( project_dir "dependencies/timing.cpp" );
#pragma endregion Resolve Dependencies
#pragma region Resolve Components
CodeBody array_arena = gen_array(txt("Arena"), txt("Array_Arena"));
CodeBody array_pool = gen_array(txt("Pool"), txt("Array_Pool"));
Code src_static_data = scan_file( project_dir "components/static_data.cpp" );
Code src_ast_case_macros = scan_file( project_dir "components/ast_case_macros.cpp" );
Code src_ast = scan_file( project_dir "components/ast.cpp" );
Code src_code_serialization = scan_file( project_dir "components/code_serialization.cpp" );
Code src_interface = scan_file( project_dir "components/interface.cpp" );
Code src_upfront = scan_file( project_dir "components/interface.upfront.cpp" );
Code src_lexer = scan_file( project_dir "components/lexer.cpp" );
Code src_parser = scan_file( project_dir "components/parser.cpp" );
Code src_parsing_interface = scan_file( project_dir "components/interface.parsing.cpp" );
Code src_untyped = scan_file( project_dir "components/interface.untyped.cpp" );
#pragma endregion Resolve Components
// THERE SHOULD BE NO NEW GENERIC CONTAINER DEFINTIONS PAST THIS POINT (It will not have slots for the generic selection generated macros)
CodeBody containers = def_body(CT_Global_Body);
{
containers.append( def_pragma(code(region Containers)));
containers.append( gen_array_base() );
containers.append( gen_array_generic_selection_interface());
containers.append( gen_hashtable_base() );
containers.append( fmt_newline);
containers.append( gen_hashtable_generic_selection_interface());
containers.append( array_ssize);
containers.append( array_u8);
containers.append( def_pragma(code(endregion Containers)));
containers.append( fmt_newline);
}
// Printing : Everything below is jsut serialization & formatting ot a single-file.
Builder
header = Builder::open( "gen/gen.h" );
header.print_fmt( generation_notice );
header.print_fmt("#pragma once\n\n");
header.print( push_ignores );
header.print( c_library_header_start );
// Header files
{
#pragma region Print Dependencies
header.print_fmt( roll_own_dependencies_guard_start );
header.print( header_platform );
header.print_fmt( "\nGEN_NS_BEGIN\n" );
header.print( header_macros );
header.print( header_basic_types );
header.print( header_debug );
header.print( format_code_to_untyped(header_memory) );
header.print( format_code_to_untyped(header_printing));
header.print( header_string_ops );
header.print( fmt_newline);
header.print( format_code_to_untyped(containers));
header.print( header_hashing );
header.print( format_code_to_untyped(header_strings));
header.print( format_code_to_untyped(header_filesystem));
header.print( header_timing );
header.print_fmt( "\n#pragma region Parsing\n" );
header.print( format_code_to_untyped(header_parsing) );
header.print_fmt( "#pragma endregion Parsing\n\n" );
header.print_fmt( "\nGEN_NS_END\n" );
header.print_fmt( roll_own_dependencies_guard_end );
#pragma endregion Print Dependencies
header.print(fmt_newline);
#pragma region region Print Components
header.print_fmt( "GEN_NS_BEGIN\n" );
header.print_fmt( "GEN_API_C_BEGIN\n\n" );
header.print_fmt("#pragma region Types\n");
header.print( format_code_to_untyped(types) );
header.print( fmt_newline );
header.print( format_code_to_untyped( ecode ));
header.print( fmt_newline );
header.print( format_code_to_untyped( eoperator ));
header.print( fmt_newline );
header.print( format_code_to_untyped( especifier ));
header.print_fmt("#pragma endregion Types\n\n");
header.print_fmt("#pragma region AST\n");
header.print( format_code_to_untyped(ast) );
header.print( format_code_to_untyped(code_types) );
header.print( format_code_to_untyped(ast_types) );
header.print_fmt("\n#pragma endregion AST\n");
header.print( format_code_to_untyped(interface) );
header.print_fmt("#pragma region Inlines\n");
header.print( inlines );
header.print_fmt("#pragma endregion Inlines\n");
header.print(fmt_newline);
header.print( format_code_to_untyped(array_string_cached));
header.print(fmt_newline);
header.print( format_code_to_untyped(header_end) );
header.print_fmt( "\nGEN_API_C_END\n" );
header.print_fmt( "GEN_NS_END\n\n" );
#pragma endregion Print Compoennts
}
// Source files
{
header.print_fmt( implementation_guard_start );
#pragma region Print Dependencies
header.print_fmt( roll_own_dependencies_guard_start );
header.print_fmt( "GEN_NS_BEGIN\n\n");
header.print( src_impl_start );
header.print( src_debug );
header.print( src_string_ops );
header.print( src_printing );
header.print( src_memory );
header.print( src_hashing );
header.print( src_strings );
header.print( src_filesystem );
header.print( src_timing );
header.print_fmt( "\n#pragma region Parsing\n" );
header.print( scan_file( project_dir "dependencies/parsing.cpp" ) );
header.print_fmt( "#pragma endregion Parsing\n\n" );
header.print_fmt( "GEN_NS_END\n");
header.print_fmt( roll_own_dependencies_guard_end );
#pragma endregion Print Dependencies
#pragma region Print Components
CodeBody etoktype = gen_etoktype( project_dir "enums/ETokType.csv", project_dir "enums/AttributeTokens.csv" );
header.print_fmt( "\nGEN_NS_BEGIN\n");
header.print( format_code_to_untyped(array_arena));
header.print( fmt_newline);
header.print( format_code_to_untyped(array_pool));
header.print( src_static_data );
header.print( fmt_newline);
header.print_fmt( "#pragma region AST\n\n" );
header.print( src_ast_case_macros );
header.print( src_ast );
header.print( src_code_serialization );
header.print_fmt( "#pragma endregion AST\n\n" );
header.print_fmt( "#pragma region Interface\n" );
header.print( src_interface );
// header.print( src_upfront );
// header.print_fmt( "\n#pragma region Parsing\n\n" );
// header.print( format_code_to_untyped(parser_nspace) );
// 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");
// header.print_fmt( "#pragma region Builder\n" );
// header.print( scan_file( project_dir "auxillary/builder.cpp" ) );
// header.print_fmt( "\n#pragma endregion Builder\n\n" );
// header.print_fmt( "\n#pragma region Scanner\n" );
// header.print( scan_file( project_dir "auxillary/scanner.hpp" ) );
// header.print_fmt( "#pragma endregion Scanner\n\n" );
#pragma endregion Print Components
header.print_fmt( implementation_guard_end );
}
header.print( pop_ignores );
header.write();
gen::deinit();
return 0;
#undef project_dir
}