mirror of
https://github.com/Ed94/gencpp.git
synced 2024-12-22 15:54:45 -08:00
254 lines
7.6 KiB
C++
254 lines
7.6 KiB
C++
#pragma once
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#include "../project/gen.hpp"
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using namespace gen;
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void convert_cpp_enum_to_c( CodeEnum to_convert, CodeBody to_append )
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{
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#pragma push_macro("enum_underlying")
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#undef enum_underlying
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if (to_convert->UnderlyingType)
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{
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to_convert->UnderlyingTypeMacro = untyped_str(token_fmt("type", to_convert->UnderlyingType->Name, stringize(enum_underlying(<type>))));
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to_convert->UnderlyingType = CodeTypename{nullptr};
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}
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CodeTypedef tdef = parse_typedef(token_fmt("name", to_convert->Name, stringize( typedef enum <name> <name>; )));
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to_append.append(to_convert);
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to_append.append(tdef);
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#pragma pop_macro("enum_underlying")
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}
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b32 ignore_preprocess_cond_block( StrC cond_sig, Code& entry_iter, CodeBody& parsed_body, CodeBody& body )
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{
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b32 found = false;
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CodePreprocessCond cond = cast(CodePreprocessCond, entry_iter);
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if ( cond->Content.is_equal(cond_sig) )
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{
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log_fmt("Preprocess cond found: %SC\n", cond->Content);
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found = true;
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s32 depth = 1;
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++ entry_iter;
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for(b32 continue_for = true; continue_for && entry_iter != parsed_body.end(); ) switch
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(entry_iter->Type) {
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case CT_Preprocess_If:
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case CT_Preprocess_IfDef:
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case CT_Preprocess_IfNotDef:
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++ depth;
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++ entry_iter;
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break;
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case CT_Preprocess_Else:
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++ entry_iter;
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for(; continue_for && entry_iter != parsed_body.end(); ++ entry_iter)
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{
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if (entry_iter->Type == CT_Preprocess_EndIf)
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{
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continue_for = false;
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break;
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}
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body.append(entry_iter);
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}
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break;
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case CT_Preprocess_EndIf:
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{
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depth --;
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if (depth == 0) {
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continue_for = false;
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break;
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}
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++ entry_iter;
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}
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break;
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default:
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++ entry_iter;
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break;
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}
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}
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return found;
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}
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constexpr bool GenericSel_One_Arg = true;
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enum GenericSelectionOpts : u32 { GenericSel_Default, GenericSel_By_Ref, GenericSel_Direct_Type };
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Code gen_generic_selection_function_macro( s32 num_slots, StrC macro_name, GenericSelectionOpts opts = GenericSel_Default, bool one_arg = false )
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{
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/* Implements:
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#define GEN_FUNCTION_GENERIC_EXAMPLE( selector_arg, ... ) _Generic( \
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(selector_arg), \
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GEN_IF_MACRO_DEFINED_INCLUDE_THIS_SLOT( FunctionID__ARGS_SIG_1 ) \
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GEN_IF_MACRO_DEFINED_INCLUDE_THIS_SLOT( FunctionID__ARGS_SIG_2 ) \
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... \
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GEN_IF_MACRO_DEFINED_INCLUDE_THIS_SLOT_LAST(FunctionID__ARGS_SIG_N ) \
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) GEN_RESOLVED_FUNCTION_CALL( selector_arg )
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*/
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local_persist
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String define_builder = String::make_reserve(GlobalAllocator, kilobytes(64));
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define_builder.clear();
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StrC macro_begin;
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if (opts == GenericSel_Direct_Type) {
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macro_begin = token_fmt( "macro_name", (StrC)macro_name,
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R"(#define <macro_name>(selector_arg, ...) _Generic( (*(selector_arg*)NULL ), \
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)"
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);
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}
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else {
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macro_begin = token_fmt( "macro_name", (StrC)macro_name,
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R"(#define <macro_name>(selector_arg, ...) _Generic( (selector_arg), \
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)"
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);
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}
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define_builder.append(macro_begin);
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for ( s32 slot = 1; slot <= num_slots; ++ slot )
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{
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StrC slot_str = String::fmt_buf(GlobalAllocator, "%d", slot).to_strc();
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if (slot == num_slots)
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{
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define_builder.append( token_fmt( "macro_name", macro_name, "slot", slot_str,
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R"( GEN_IF_MACRO_DEFINED_INCLUDE_THIS_SLOT_LAST( GENERIC_SLOT_<slot>__<macro_name> ) \
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)"
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));
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// if ( one_arg )
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// define_builder.append(token_fmt( "macro_name", macro_name, stringize(
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// default: static_assert(false, "<macro_name>: Failed to select correct function signature (Did you pass the type?)")
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// )));
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// else
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// define_builder.append(token_fmt( "macro_name", macro_name, stringize(
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// default: static_assert(false, "<macro_name>: Failed to select correct function signature")
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// )));
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continue;
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}
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define_builder.append( token_fmt( "macro_name", macro_name, "slot", slot_str,
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R"( GEN_IF_MACRO_DEFINED_INCLUDE_THIS_SLOT( GENERIC_SLOT_<slot>__<macro_name> ) \
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)"
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));
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}
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if ( ! one_arg )
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{
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if (opts == GenericSel_By_Ref)
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define_builder.append(txt("\t)\tGEN_RESOLVED_FUNCTION_CALL( & selector_arg, __VA_ARGS__ )"));
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else if (opts == GenericSel_Direct_Type)
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define_builder.append(txt("\t)\tGEN_RESOLVED_FUNCTION_CALL( __VA_ARGS__ )"));
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else
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define_builder.append(txt("\t)\tGEN_RESOLVED_FUNCTION_CALL( selector_arg, __VA_ARGS__ )"));
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}
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else
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{
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if (opts == GenericSel_By_Ref)
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define_builder.append(txt("\t)\tGEN_RESOLVED_FUNCTION_CALL( & selector_arg )"));
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else if (opts == GenericSel_Direct_Type)
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define_builder.append(txt("\t)\tGEN_RESOLVED_FUNCTION_CALL()"));
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else
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define_builder.append(txt("\t)\tGEN_RESOLVED_FUNCTION_CALL( selector_arg )"));
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}
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// Add gap for next definition
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define_builder.append(txt("\n\n"));
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Code macro = untyped_str(define_builder.to_strc());
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return macro;
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}
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CodeFn rename_function_to_unique_symbol(CodeFn fn, StrC optional_prefix = txt(""))
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{
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// Get basic components for the name
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StrC old_name = fn->Name;
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String new_name;
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// Add prefix if provided
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if (optional_prefix.Len)
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new_name = string_fmt_buf(GlobalAllocator, "%SC_%SC_", optional_prefix, old_name);
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else
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new_name = string_fmt_buf(GlobalAllocator, "%SC_", old_name);
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// Add return type to the signature
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if (fn->ReturnType)
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new_name.append_fmt("_%SC", fn->ReturnType->Name);
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// Add parameter types to create a unique signature
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bool first_param = true;
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for (CodeParam param = fn->Params; param.ast; param = param->Next)
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{
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if (param->ValueType)
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{
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// Add separator for readability
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if (first_param)
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{
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new_name.append("_P_");
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first_param = false;
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}
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else
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new_name.append("_");
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// Add parameter type, handle any specifiers
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if (param->ValueType->Specs && param->ValueType->Specs->NumEntries > 0)
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{
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// Add specifiers (const, volatile, etc)
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for (Specifier spec : param->ValueType->Specs)
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{
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if (spec == Spec_Ptr) {
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new_name.append("ptr_");
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continue;
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}
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new_name.append_fmt("%SC_", spec_to_str(spec));
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}
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}
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new_name.append_fmt("%SC", param->ValueType->Name);
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}
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}
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// Handle function specifiers if present
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if (fn->Specs && fn->Specs->NumEntries > 0)
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{
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new_name.append("_S_");
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for (Specifier* spec = begin(fn->Specs);
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spec != end(fn->Specs);
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++spec)
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{
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new_name.append_fmt("%SC_", spec_to_str(*spec));
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}
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}
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fn->Name = new_name;
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return fn;
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}
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using SwapContentProc = CodeBody(void);
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bool swap_pragma_region_implementation( StrC region_name, SwapContentProc* swap_content, Code& entry_iter, CodeBody& body )
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{
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bool found = false;
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CodePragma possible_region = cast(CodePragma, entry_iter);
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String region_sig = string_fmt_buf(GlobalAllocator, "region %s", region_name.Ptr);
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String endregion_sig = string_fmt_buf(GlobalAllocator, "endregion %s", region_name.Ptr);
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if ( possible_region->Content.contains(region_sig))
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{
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found = true;
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// body.append(possible_region);
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body.append(swap_content());
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++ entry_iter;
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for(b32 continue_for = true; continue_for; ++entry_iter) switch
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(entry_iter->Type) {
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case CT_Preprocess_Pragma:
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{
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CodePragma possible_end_region = cast(CodePragma, entry_iter);
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if ( possible_end_region->Content.contains(endregion_sig) ) {
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// body.append(possible_end_region);
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continue_for = false;
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}
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}
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break;
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}
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body.append(entry_iter);
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}
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return found;
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}
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