Lumenarium/meta/gs_meta.cpp

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2020-01-21 05:11:07 +00:00
//
// File: gs_meta.cpp
// Author: Peter Slattery
// Creation Date: 2020-01-19
//
//
// Usage
//
// GSMetaTag(<tag name>) to give commands to the meta layer
//
// Tag Values
//
// breakpoint
// will cause the meta layer to break in the debugger when it reaches
// that point in processing the file
// TODO: specify which stage you want it to break at
#ifndef GS_META_CPP
#include <windows.h>
#include <stdio.h>
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#include "..\gs_libs\gs_language.h"
#include "..\gs_libs\gs_bucket.h"
#include "..\gs_libs\gs_platform.h"
#include "..\gs_libs\gs_memory_arena.h"
#include "..\gs_libs\gs_string.h"
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#include "gs_meta_lexer.h"
#include "gs_meta_error.h"
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#include "gs_meta_type_table.h"
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struct source_code_file
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{
string Path;
s32 FileSize;
string Contents;
s32 FirstTokenIndex;
s32 LastTokenIndex;
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};
struct token_iter
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{
gs_bucket<token>* Tokens;
token* TokenAt;
s32 TokenAtIndex;
s32 FirstToken;
s32 LastToken;
#define TOKEN_ITER_SNAPSHOTS_MAX 64
u32 SnapshotsUsed;
u32 Snapshots[TOKEN_ITER_SNAPSHOTS_MAX];
errors* Errors;
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};
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struct gsm_profiler_scope
{
s64 StartTime;
s64 EndTime;
r32 Seconds;
r32 LongestSeconds;
u32 CallCount;
string Category;
string Identifier;
};
struct gsm_profiler_category
{
string Identifier;
r32 TotalTime;
u32 SubscopesCount;
gsm_profiler_scope* LongestSubscope;
};
struct gsm_profiler
{
gs_bucket<gsm_profiler_scope> Scopes;
gs_bucket<gsm_profiler_category> Categories;
};
struct gs_meta_preprocessor
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{
errors Errors;
gs_bucket<source_code_file> SourceFiles;
gs_bucket<token> Tokens;
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gs_bucket<token> TagList;
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type_table TypeTable;
// Performance
s64 PreprocessorStartTime;
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s64 TokenizeTime;
s64 PreprocTime;
s64 FixupTime;
s64 PreprocessorEndTime;
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gsm_profiler Profiler;
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};
// ------------------------
// Timing / Performance
// ------------------------
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internal s64
GetWallClock ()
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{
LARGE_INTEGER Time;
if (!QueryPerformanceCounter(&Time))
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{
s32 Error = GetLastError();
// TODO(Peter): I'm waiting to see an error actually occur here
// to know what it could possibly be.
InvalidCodePath;
}
return (s64)Time.QuadPart;
}
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internal s64
GetPerformanceFrequency ()
{
LARGE_INTEGER Frequency;
if (!QueryPerformanceFrequency(&Frequency))
{
s32 Error = GetLastError();
// TODO(Peter): I'm waiting to see an error actually occur here
// to know what it could possibly be.
InvalidCodePath;
}
return (s64)Frequency.QuadPart;
}
internal r32
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GetSecondsElapsed(s64 CyclesCount)
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{
s64 Frequency = GetPerformanceFrequency();
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r32 SecondsElapsed = (r32)(CyclesCount) / (r32)(Frequency);
return SecondsElapsed;
}
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internal r32
GetSecondsElapsed(s64 StartCycles, s64 EndCycles)
{
return GetSecondsElapsed(EndCycles - StartCycles);
}
internal gsm_profiler_scope*
FindMatchingScope(gsm_profiler* Profiler, string Category, string Identifier)
{
gsm_profiler_scope* Result = 0;
for (u32 i = 0; i < Profiler->Scopes.Used; i++)
{
gsm_profiler_scope* Scope = Profiler->Scopes.GetElementAtIndex(i);
if (StringsEqual(Scope->Identifier, Identifier) &&
StringsEqual(Scope->Category, Category))
{
Result = Scope;
break;
}
}
return Result;
}
internal gsm_profiler_scope*
BeginScope(gsm_profiler* Profiler, string Category, string Identifier)
{
gsm_profiler_scope* Scope = FindMatchingScope(Profiler, Category, Identifier);
if (!Scope)
{
Scope = Profiler->Scopes.TakeElement();
*Scope = {};
}
Scope->Category = Category;
Scope->Identifier = Identifier;
Scope->StartTime = GetWallClock();
return Scope;
}
internal gsm_profiler_scope*
BeginScope(gsm_profiler* Profiler, char* Category, char* Identifier)
{
return BeginScope(Profiler, MakeStringLiteral(Category), MakeStringLiteral(Identifier));
}
internal void
EndScope(gsm_profiler_scope* Scope)
{
Scope->EndTime = GetWallClock();
r32 Seconds = GetSecondsElapsed(Scope->StartTime, Scope->EndTime);
Scope->Seconds += Seconds;
if (Seconds > Scope->LongestSeconds)
{
Scope->LongestSeconds = Seconds;
}
Scope->CallCount++;
}
internal gsm_profiler_category*
GetCategory(string Identifier, gsm_profiler* Profiler)
{
gsm_profiler_category* Result = 0;
for (u32 i = 0; i < Profiler->Categories.Used; i++)
{
gsm_profiler_category* Category = Profiler->Categories.GetElementAtIndex(i);
if (StringsEqual(Identifier, Category->Identifier))
{
Result = Category;
break;
}
}
if (Result == 0)
{
Result = Profiler->Categories.TakeElement();
*Result = {};
Result->Identifier = Identifier;
}
return Result;
}
internal void
FinishProfiler(gsm_profiler* Profiler)
{
for (u32 i = 0; i < Profiler->Scopes.Used; i++)
{
gsm_profiler_scope* Scope = Profiler->Scopes.GetElementAtIndex(i);
gsm_profiler_category* Category = GetCategory(Scope->Category, Profiler);
Category->TotalTime += Scope->Seconds;
Category->SubscopesCount++;
if (!Category->LongestSubscope ||
Scope->Seconds > Category->LongestSubscope->Seconds)
{
Category->LongestSubscope = Scope;
}
}
}
internal void
PrintAllCategories(gsm_profiler* Profiler)
{
for (u32 i = 0; i < Profiler->Categories.Used; i++)
{
gsm_profiler_category* Category = Profiler->Categories.GetElementAtIndex(i);
printf("Category: %.*s Total Time: %.*f Count: %d\n",
StringExpand(Category->Identifier),
6, Category->TotalTime,
Category->SubscopesCount);
printf(" Longest Scope: %.*s Total Time: %.*f Longest Time: %.*f Call Count: %d\n",
StringExpand(Category->LongestSubscope->Identifier),
6, Category->LongestSubscope->Seconds,
6, Category->LongestSubscope->LongestSeconds,
Category->LongestSubscope->CallCount);
if (StringsEqual(Category->Identifier, MakeStringLiteral("parse")))
{
for (u32 j = 0; j < Profiler->Scopes.Used; j++)
{
gsm_profiler_scope* Scope = Profiler->Scopes.GetElementAtIndex(j);
if (StringsEqual(Scope->Category, Category->Identifier))
{
printf(" Time: %.*f Call Count: %d Scope: %.*s\n",
6, Scope->Seconds,
Scope->CallCount,
StringExpand(Scope->Identifier));
}
}
}
}
}
// ------------------------
// Token Iterator
// ------------------------
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internal token*
NextToken (token_iter* Iter)
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{
if (Iter->TokenAtIndex < Iter->LastToken)
{
Iter->TokenAtIndex++;
Iter->TokenAt = Iter->Tokens->GetElementAtIndex(Iter->TokenAtIndex);
}
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return Iter->TokenAt;
}
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internal b32
TokenAtEquals(token_iter* Iter, char* String)
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{
b32 Result = false;
if (StringEqualsCharArray(Iter->TokenAt->Text, String))
{
Result = true;
NextToken(Iter);
}
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return Result;
}
internal b32
TokenAtEquals(token_iter* Iter, token_type Type)
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{
b32 Result = false;
if (Iter->TokenAt->Type == Type)
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{
Result = true;
NextToken(Iter);
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}
return Result;
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}
internal b32
TokenAtEquals(token_iter* Iter, token_type Type, token* Token)
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{
b32 Result = false;
if (Iter->TokenAt->Type == Type)
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{
Result = true;
*Token = *Iter->TokenAt;
NextToken(Iter);
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}
return Result;
}
internal void
PushSnapshot (token_iter* Iter)
{
Iter->Snapshots[Iter->SnapshotsUsed++] = Iter->TokenAtIndex;
}
internal void
PopSnapshot (token_iter* Iter)
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{
if (Iter->SnapshotsUsed > 0)
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{
Iter->SnapshotsUsed -= 1;
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}
}
internal void
ApplySnapshot (token_iter* Iter)
{
u32 SnapshotIndex = Iter->SnapshotsUsed;
u32 SnapshotPoint = Iter->Snapshots[SnapshotIndex];
Iter->TokenAtIndex = SnapshotPoint;
Iter->TokenAt = Iter->Tokens->GetElementAtIndex(SnapshotPoint);
}
internal void
ApplySnapshotIfNotParsedAndPop(b32 ParseSuccess, token_iter* Iter)
{
PopSnapshot(Iter);
if (!ParseSuccess)
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{
ApplySnapshot(Iter);
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}
}
internal s32
GetFileSize (char* FileName)
{
s32 Result = 0;
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FILE* ReadFile = fopen(FileName, "r");
if (ReadFile)
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{
fseek(ReadFile, 0, SEEK_END);
size_t FileSize = ftell(ReadFile);
fseek(ReadFile, 0, SEEK_SET);
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Result = (s32)FileSize;
fclose(ReadFile);
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}
return Result;
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}
// -------------------------
// Source File Handling
// -------------------------
internal s32
ReadEntireFileAndNullTerminate (source_code_file* File, errors* Errors)
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{
s32 LengthRead = 0;
FILE* ReadFile = fopen(File->Path.Memory, "r");
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if (ReadFile)
{
fseek(ReadFile, 0, SEEK_END);
size_t FileSize = ftell(ReadFile);
fseek(ReadFile, 0, SEEK_SET);
Assert(File->Contents.Memory == 0);
File->Contents.Max = (s32)FileSize + 1;
File->Contents.Memory = (char*)malloc(File->Contents.Max);
size_t ReadSize = fread(File->Contents.Memory, 1, FileSize, ReadFile);
File->Contents.Memory[FileSize] = 0;
File->Contents.Length = (s32)ReadSize;
LengthRead = (s32)ReadSize + 1;
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fclose(ReadFile);
}
return LengthRead;
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}
internal b32
FileAlreadyInSource(string Path, gs_bucket<source_code_file> SourceFiles)
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{
b32 Result = false;
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for (u32 i = 0; i < SourceFiles.Used; i++)
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{
source_code_file* File = SourceFiles.GetElementAtIndex(i);
if (StringsEqual(File->Path, Path))
{
Result = true;
break;
}
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}
return Result;
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}
internal void
AddFileToSource(string RelativePath, source_code_file CurrentFile, gs_bucket<source_code_file>* SourceFiles, errors* Errors)
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{
source_code_file File = {0};
File.FirstTokenIndex = -1;
File.LastTokenIndex = -1;
u32 PathLength = RelativePath.Length + 1;
File.Path = MakeString((char*)malloc(sizeof(char) * PathLength), 0, PathLength);
CopyStringTo(RelativePath, &File.Path);
NullTerminate(&File.Path);
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File.FileSize = ReadEntireFileAndNullTerminate(&File, Errors);
if (File.FileSize > 0)
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{
SourceFiles->PushElementOnBucket(File);
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}
else
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{
PushFError(Errors, "Error: Could not load file %S.\n", RelativePath);
if (CurrentFile.Path.Length > 0)
{
PushFError(Errors, " Loaded In: %S\n", CurrentFile.Path);
}
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}
}
internal void
TokenizeFile (source_code_file* File, gs_bucket<token>* Tokens)
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{
tokenizer Tokenizer = {};
Tokenizer.At = File->Contents.Memory;
Tokenizer.Memory = File->Contents.Memory;
Tokenizer.MemoryLength = File->Contents.Max;
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token* LastToken = 0;
while(AtValidPosition(Tokenizer))
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{
token NewToken = GetNextToken(&Tokenizer);
u32 TokenIndex = Tokens->PushElementOnBucket(NewToken);
if (File->FirstTokenIndex < 0)
{
File->FirstTokenIndex = (s32)TokenIndex;
}
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}
File->LastTokenIndex = Tokens->Used - 1;
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}
// ------------------------
// Parsing
// ------------------------
internal b32
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ParseMetaTag(token_iter* Iter, gs_meta_preprocessor* Meta)
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{
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gsm_profiler_scope* ProfilerScope = BeginScope(&Meta->Profiler,
MakeStringLiteral("parse"),
MakeStringLiteral("ParseMetaTag"));
b32 Result = false;
PushSnapshot(Iter);
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if (TokenAtEquals(Iter, "GSMetaTag") &&
TokenAtEquals(Iter, "("))
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{
token MetaIdentifier = {0};
if (TokenAtEquals(Iter, Token_Identifier, &MetaIdentifier))
{
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Meta->TagList.PushElementOnBucket(MetaIdentifier);
if (StringsEqual(MetaIdentifier.Text, MakeStringLiteral("breakpoint")))
{
// NOTE(Peter): This is not a temporary breakpoint. It is
// used to be able to break the meta program at specific points
// throughout execution
__debugbreak();
}
if (TokenAtEquals(Iter, ")") &&
TokenAtEquals(Iter, ";"))
{
Result = true;
}
}
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}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
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EndScope(ProfilerScope);
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return Result;
}
internal b32
ParseSignedness (token_iter* Iter)
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{
// NOTE(Peter): This doesn't really do much at the moment, but
// I want all signedness parsing to happen in one place in case
// we ever need to do anything with it.
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b32 Result = false;
if (TokenAtEquals(Iter, "unsigned") ||
TokenAtEquals(Iter, "signed"))
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{
Result = true;
}
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return Result;
}
internal b32
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ShortInt (token_iter* Iter, type_table_handle* TypeHandleOut, type_table TypeTable)
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{
b32 Result = false;
PushSnapshot(Iter);
ParseSignedness(Iter);
if (TokenAtEquals(Iter, "short"))
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{
Result = true;
if (TokenAtEquals(Iter, "int"))
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{
Result = true;
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}
}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
if (Result)
{
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*TypeHandleOut = GetTypeHandle(MakeStringLiteral("short int"), TypeTable);
}
return Result;
}
internal b32
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Int (token_iter* Iter, type_table_handle* TypeHandleOut, type_table TypeTable)
{
b32 Result = false;
PushSnapshot(Iter);
ParseSignedness(Iter);
if (TokenAtEquals(Iter, "int"))
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{
Result = true;
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}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
if (Result)
{
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*TypeHandleOut = GetTypeHandle(MakeStringLiteral("int"), TypeTable);
}
return Result;
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}
internal b32
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LongInt (token_iter* Iter, type_table_handle* TypeHandleOut, type_table TypeTable)
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{
b32 Result = false;
PushSnapshot(Iter);
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ParseSignedness(Iter);
if (TokenAtEquals(Iter, "long"))
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{
Result = true;
if (TokenAtEquals(Iter, "int"))
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{
Result = true;
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}
}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
if (Result)
{
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*TypeHandleOut = GetTypeHandle(MakeStringLiteral("long int"), TypeTable);
}
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return Result;
}
internal b32
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LongLongInt (token_iter* Iter, type_table_handle* TypeHandleOut, type_table TypeTable)
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{
b32 Result = false;
PushSnapshot(Iter);
ParseSignedness(Iter);
if (TokenAtEquals(Iter, "long"))
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{
if (TokenAtEquals(Iter, "long"))
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{
Result = true;
if (TokenAtEquals(Iter, "int"))
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{
Result = true;
}
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}
}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
if (Result)
{
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*TypeHandleOut = GetTypeHandle(MakeStringLiteral("long long int"), TypeTable);
}
return Result;
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}
internal b32
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ParseChar(token_iter* Iter, type_table_handle* TypeHandleOut, type_table TypeTable)
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{
b32 Result = false;
PushSnapshot(Iter);
ParseSignedness(Iter);
if (TokenAtEquals(Iter, "char"))
{
Result = true;
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*TypeHandleOut = GetTypeHandle(MakeStringLiteral("char"), TypeTable);
}
else if (TokenAtEquals(Iter, "wchar_t"))
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{
Result = true;
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*TypeHandleOut = GetTypeHandle(MakeStringLiteral("wchar_t"), TypeTable);
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}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
return Result;
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}
internal b32
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ParseBool(token_iter* Iter, type_table_handle* TypeHandleOut, type_table TypeTable)
{
b32 Result = false;
PushSnapshot(Iter);
if (TokenAtEquals(Iter, "bool"))
{
Result = true;
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*TypeHandleOut = GetTypeHandle(MakeStringLiteral("bool"), TypeTable);
}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
return Result;
}
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internal b32
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ParseFloat(token_iter* Iter, type_table_handle* TypeHandleOut, type_table TypeTable)
{
b32 Result = false;
PushSnapshot(Iter);
if (TokenAtEquals(Iter, "float"))
{
Result = true;
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*TypeHandleOut = GetTypeHandle(MakeStringLiteral("float"), TypeTable);
}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
return Result;
}
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internal b32
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ParseDouble(token_iter* Iter, type_table_handle* TypeHandleOut, type_table TypeTable)
{
b32 Result = false;
PushSnapshot(Iter);
if (TokenAtEquals(Iter, "double"))
{
Result = true;
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*TypeHandleOut = GetTypeHandle(MakeStringLiteral("double"), TypeTable);
}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
return Result;
}
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// :UndeclaredType
// NOTE(Peter): If TypeIndexOut is -1, you need to call NextToken after this
// function to advance past the type identifier.
internal b32
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ParseType(token_iter* Iter, gs_meta_preprocessor* Meta, type_table_handle* TypeHandleOut)
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{
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gsm_profiler_scope* ProfilerScope = BeginScope(&Meta->Profiler,
MakeStringLiteral("parse"),
MakeStringLiteral("ParseType"));
b32 Result = false;
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*TypeHandleOut = InvalidTypeTableHandle;
PushSnapshot(Iter);
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if (ParseChar(Iter, TypeHandleOut, Meta->TypeTable) ||
ParseBool(Iter, TypeHandleOut, Meta->TypeTable) ||
LongLongInt(Iter, TypeHandleOut, Meta->TypeTable) ||
LongInt(Iter, TypeHandleOut, Meta->TypeTable) ||
ShortInt(Iter, TypeHandleOut, Meta->TypeTable) ||
Int(Iter, TypeHandleOut, Meta->TypeTable) ||
ParseFloat(Iter, TypeHandleOut, Meta->TypeTable) ||
ParseDouble(Iter, TypeHandleOut, Meta->TypeTable))
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{
Result = true;
}
else if (StringsEqual(Iter->TokenAt->Text, MakeStringLiteral("void")))
{
NextToken(Iter);
Result = true;
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*TypeHandleOut = GetTypeHandle(MakeStringLiteral("void"), Meta->TypeTable);
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}
else
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{
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gsm_profiler_scope* ProfileInnerScope = BeginScope(&Meta->Profiler,
MakeStringLiteral("parse"),
MakeStringLiteral("ParseTypeInner"));
*TypeHandleOut = GetTypeHandle(Iter->TokenAt->Text, Meta->TypeTable);
if (TypeHandleIsValid(*TypeHandleOut))
{
Result = true;
NextToken(Iter);
}
else if(Iter->TokenAt->Type == Token_Identifier)
{
Result = true;
// NOTE(Peter): In this case, we believe we are at a type identifier,
// however, it hasn't been declared yet. This is due to the fact that we
// tokenize files, then parse them, then import the files they include, and
// then begin tokenizing, parsing, etc for those files.
// In the case that we get an as-of-yet undeclared type, we leave it
// up to the calling site to determine what to do with that information
// :UndeclaredType
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*TypeHandleOut = InvalidTypeTableHandle;
}
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EndScope(ProfileInnerScope);
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}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
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EndScope(ProfilerScope);
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return Result;
}
internal b32
ParsePointer (token_iter* Iter)
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{
b32 Result = false;
if (TokenAtEquals(Iter, "*"))
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{
Result = true;
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}
return Result;
}
internal b32
ParseConstVolatile (token_iter* Iter)
{
b32 Result = false;
PushSnapshot(Iter);
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if (TokenAtEquals(Iter, "volatile") ||
TokenAtEquals(Iter, "const"))
{
Result = true;
}
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ApplySnapshotIfNotParsedAndPop(Result, Iter);
return Result;
}
internal b32
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ParseVariableDecl(token_iter* Iter, gs_bucket<variable_decl>* VariableList, gs_meta_preprocessor* Meta)
{
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gsm_profiler_scope* ProfilerScope = BeginScope(&Meta->Profiler,
MakeStringLiteral("parse"),
MakeStringLiteral("ParseVariableDecl"));
b32 Result = false;
PushSnapshot(Iter);
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if (ParseConstVolatile(Iter))
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{
// NOTE(Peter): we don't do anything with this atm
// dont have a reason to just yet
// :UnusedConstVolatile
}
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type_table_handle TypeHandle = InvalidTypeTableHandle;
if (ParseType(Iter, Meta, &TypeHandle))
{
// :UndeclaredType
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if (!TypeHandleIsValid(TypeHandle))
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{
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TypeHandle = PushUndeclaredType(Iter->TokenAt->Text, &Meta->TypeTable);
NextToken(Iter);
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}
b32 IsPointer = ParsePointer(Iter);
if (ParseConstVolatile(Iter))
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{
// :UnusedConstVolatile
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}
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for(;;) {
token IdentifierToken = {};
if (TokenAtEquals(Iter, Token_Identifier, &IdentifierToken))
{
// Array Notationg ie r32 x[2];
// NOTE(Peter): True initially because if there is no array notation, we
// are still ok to proceed
b32 ArrayParseSuccess = true;
u32 ArrayCount = 0;
if (TokenAtEquals(Iter, "["))
{
// NOTE(Peter): Once we get to this point, we have to complete the entire
// array notation before we have successfully parsed, hence setting
// ArrayParseSucces to false here.
ArrayParseSuccess = false;
token NumberToken = {};
if (TokenAtEquals(Iter, Token_Number, &NumberToken))
{
parse_result ParseArrayCount = ParseUnsignedInt(StringExpand(NumberToken.Text));
ArrayCount = ParseArrayCount.UnsignedIntValue;
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}
else
{
// TODO(Peter): Actually handle const expr for arrays
while (!StringsEqual(Iter->TokenAt->Text, MakeStringLiteral("]")))
{
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NextToken(Iter);
}
}
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if (TokenAtEquals(Iter, "]"))
{
ArrayParseSuccess = true;
}
}
if (ArrayParseSuccess)
{
Result = true;
variable_decl* Decl = VariableList->TakeElement();
*Decl = {};
Decl->Identifier = IdentifierToken.Text;
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Decl->TypeHandle = TypeHandle;
Decl->Pointer = IsPointer;
Decl->ArrayCount = ArrayCount;
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CopyMetaTagsAndClear(&Meta->TagList, &Decl->MetaTags);
}
}
if (StringsEqual(Iter->TokenAt->Text, MakeStringLiteral(",")))
{
// NOTE(Peter): There are two ways we enter this case
// 1. We are parsing a declaration list ie. r32 x, y, z;
// 2. We are parsing a function parameter list ie void proc(r32 x, u32 y)
// In this instance, we could still be parsing a declaration list
// ie. this is valid: void proc(r32 x, y, double z)
// This first snapshot is so we can rewind to before the comma in the event that
// we are parsing a function parameter list
PushSnapshot(Iter);
NextToken(Iter);
// This second snapshot is so we can rewind to just _after_ the comma
// and continue parsing in the event that we are in a declaration list
PushSnapshot(Iter);
if (TokenAtEquals(Iter, Token_Identifier) &&
(TokenAtEquals(Iter, ",") || TokenAtEquals(Iter, ";")))
{
// We are in a declaration list (case 1)
ApplySnapshotIfNotParsedAndPop(false, Iter);
PopSnapshot(Iter); // We don't need the first snapshot in this case
}
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else
{
// We are in a function parameter list (case 2)
ApplySnapshotIfNotParsedAndPop(false, Iter);
ApplySnapshotIfNotParsedAndPop(false, Iter);
break;
}
}
else
{
break;
}
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}
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}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
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EndScope(ProfilerScope);
return Result;
}
internal b32
StructOrUnion(token_iter* Iter, type_definition_type* Type)
{
b32 Result = false;
if (TokenAtEquals(Iter, "struct"))
{
Result = true;
*Type = TypeDef_Struct;
}
else if (TokenAtEquals(Iter, "union"))
{
Result = true;
*Type = TypeDef_Union;
}
return Result;
}
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// NOTE(Peter): ContainingStruct will be 0 in all cases except when the struct or union
// is anonymous. In those cases, it MUST be the struct or union
// containing the anonymous struct/union
internal b32
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ParseStruct(token_iter* Iter, type_table_handle* StructTypeHandleOut, gs_meta_preprocessor* Meta, type_definition* ContainingStruct = 0)
{
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gsm_profiler_scope* ProfilerScope = BeginScope(&Meta->Profiler,
MakeStringLiteral("parse"),
MakeStringLiteral("ParseStruct"));
b32 Result = false;
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*StructTypeHandleOut = InvalidTypeTableHandle;
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PushSnapshot(Iter);
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type_definition_type DeclType;
if (StructOrUnion(Iter, &DeclType))
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{
token IdentifierToken = {};
if (TokenAtEquals(Iter, Token_Identifier, &IdentifierToken)) {}
// TODO(Peter): Handle name coming after the struct
if (TokenAtEquals(Iter, "{"))
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{
type_definition StructDecl = {};
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if (IdentifierToken.Text.Length > 0)
{
StructDecl.Identifier = IdentifierToken.Text;
StructDecl.Struct.IsAnonymous = false;
}
else
{
Assert(ContainingStruct);
Assert(ContainingStruct->Identifier.Length > 0);
// NOTE(Peter): I'm not sure this is neccessary, but I don't know what
// cases that its not true would be so I'm asserting just to find out
Assert(ContainingStruct->Type == TypeDef_Union ||
ContainingStruct->Type == TypeDef_Struct);
string AnonStructIdentifier = {};
AnonStructIdentifier.Max = 256;
AnonStructIdentifier.Memory = (char*)malloc(sizeof(char) * AnonStructIdentifier.Max);
PrintF(&AnonStructIdentifier, "%S_%d", ContainingStruct->Identifier, ContainingStruct->Struct.MemberDecls.Used);
StructDecl.Identifier = AnonStructIdentifier;
StructDecl.Struct.IsAnonymous = true;
}
StructDecl.Type = DeclType;
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CopyMetaTagsAndClear(&Meta->TagList, &StructDecl.MetaTags);
while (!TokenAtEquals(Iter, "}"))
{
2020-01-21 05:11:07 +00:00
type_table_handle MemberStructTypeHandle = InvalidTypeTableHandle;
variable_decl MemberDecl = {};
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if (ParseMetaTag(Iter, Meta))
{
}
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else if (ParseVariableDecl(Iter, &StructDecl.Struct.MemberDecls, Meta))
{
if (!TokenAtEquals(Iter, ";"))
{
PushFError(Iter->Errors, "No semicolon after struct member variable declaration. %S", StructDecl.Identifier);
}
}
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else if (ParseStruct(Iter, &MemberStructTypeHandle, Meta, &StructDecl))
{
// NOTE(Peter): Pretty sure, since we just parsed the struct, that
2020-01-21 05:11:07 +00:00
// MemberStructTypeIndex should never be Invalid (unknown type).
// Putting this Assert here for now, but remove if there's a valid
// reason that you might not be able to find a struct just parsed at
// this point.
2020-01-21 05:11:07 +00:00
Assert(TypeHandleIsValid(MemberStructTypeHandle));
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MemberDecl.TypeHandle = MemberStructTypeHandle;
StructDecl.Struct.MemberDecls.PushElementOnBucket(MemberDecl);
}
else
{
// NOTE(Peter): One of the things that falls through here is
// cpp template stuff. Eventually, we should be able to use
// this meta layer to get rid of them all together, and then
// we can just disallow CPP templates
NextToken(Iter);
}
}
if (TokenAtEquals(Iter, ";"))
{
Result = true;
2020-01-21 05:11:07 +00:00
*StructTypeHandleOut = PushTypeDefOnTypeTable(StructDecl, &Meta->TypeTable);
}
}
2019-10-30 14:28:02 +00:00
}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
2020-01-21 05:11:07 +00:00
EndScope(ProfilerScope);
return Result;
}
// ( type *? identifier, ... )
internal b32
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ParseFunctionParameterList (token_iter* Iter, type_definition* FunctionPtrDecl, gs_meta_preprocessor* Meta)
{
b32 Result = false;
PushSnapshot(Iter);
2019-10-30 14:28:02 +00:00
if (TokenAtEquals(Iter, "("))
2019-10-30 14:28:02 +00:00
{
Result = true;
while(!StringsEqual(Iter->TokenAt->Text, MakeStringLiteral(")")))
{
2020-01-21 05:11:07 +00:00
if (ParseVariableDecl(Iter, &FunctionPtrDecl->FunctionPtr.Parameters, Meta))
{
if (TokenAtEquals(Iter, Token_Comma))
{
}
else if (!StringsEqual(Iter->TokenAt->Text, MakeStringLiteral(")")))
{
Result = false;
break;
}
}
}
if (TokenAtEquals(Iter, ")"))
{
Result = true;
}
2019-10-30 14:28:02 +00:00
}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
return Result;
}
internal b32
2020-01-21 05:11:07 +00:00
ParseFunctionDeclaration (token_iter* Iter, token* Identifier, gs_meta_preprocessor* Meta)
{
b32 Result = false;
PushSnapshot(Iter);
2020-01-21 05:11:07 +00:00
type_table_handle ReturnTypeHandle = InvalidTypeTableHandle;
if (ParseType(Iter, Meta, &ReturnTypeHandle))
2019-10-30 14:28:02 +00:00
{
2020-01-21 05:11:07 +00:00
if (!TypeHandleIsValid(ReturnTypeHandle))
{
2020-01-21 05:11:07 +00:00
ReturnTypeHandle = PushUndeclaredType(Iter->TokenAt->Text, &Meta->TypeTable);
NextToken(Iter);
}
2019-10-30 14:28:02 +00:00
b32 IsPointer = ParsePointer(Iter);
2019-10-30 14:28:02 +00:00
if (TokenAtEquals(Iter, Token_Identifier, Identifier))
2019-10-30 14:28:02 +00:00
{
type_definition FunctionPtr = {};
FunctionPtr.Identifier = Identifier->Text;
FunctionPtr.Size = sizeof(void*);
2020-01-21 05:11:07 +00:00
CopyMetaTagsAndClear(&Meta->TagList, &FunctionPtr.MetaTags);
FunctionPtr.Type = TypeDef_FunctionPointer;
FunctionPtr.Pointer = true;
FunctionPtr.FunctionPtr = {};
2020-01-21 05:11:07 +00:00
FunctionPtr.FunctionPtr.ReturnTypeHandle = ReturnTypeHandle;
2020-01-21 05:11:07 +00:00
if (ParseFunctionParameterList(Iter, &FunctionPtr, Meta))
2019-10-30 14:28:02 +00:00
{
if (TokenAtEquals(Iter, ";"))
{
Result = true;
2020-01-21 05:11:07 +00:00
PushTypeDefOnTypeTable(FunctionPtr, &Meta->TypeTable);
}
2019-10-30 14:28:02 +00:00
}
}
}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
if (!Result)
{
*Identifier = {0};
}
return Result;
}
internal b32
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ParseTypedef(token_iter* Iter, gs_meta_preprocessor* Meta)
{
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gsm_profiler_scope* ProfilerScope = BeginScope(&Meta->Profiler,
MakeStringLiteral("parse"),
MakeStringLiteral("ParseTypedef"));
b32 Result = false;
PushSnapshot(Iter);
if (TokenAtEquals(Iter, "typedef"))
{
token TypeToken = {0};
2020-01-21 05:11:07 +00:00
type_table_handle TypeHandle = InvalidTypeTableHandle;
if (TokenAtEquals(Iter, "struct") &&
2020-01-21 05:11:07 +00:00
ParseStruct(Iter, &TypeHandle, Meta))
{
Result = true;
}
2020-01-21 05:11:07 +00:00
else if (ParseFunctionDeclaration(Iter, &TypeToken, Meta))
{
Result = true;
}
2020-01-21 05:11:07 +00:00
else if (ParseType(Iter, Meta, &TypeHandle))
{
2020-01-21 05:11:07 +00:00
if (!TypeHandleIsValid(TypeHandle))
2019-10-30 14:28:02 +00:00
{
2020-01-21 05:11:07 +00:00
TypeHandle = PushUndeclaredType(Iter->TokenAt->Text, &Meta->TypeTable);
NextToken(Iter);
2019-10-30 14:28:02 +00:00
}
b32 IsPointer = ParsePointer(Iter);
2020-01-21 05:11:07 +00:00
type_definition* BasisType = GetTypeDefinition(TypeHandle, Meta->TypeTable);
type_definition NewType = {};
NewType.Size = BasisType->Size;
2020-01-21 05:11:07 +00:00
CopyMetaTagsAndClear(&Meta->TagList, &NewType.MetaTags);
NewType.Type = BasisType->Type;
if (NewType.Type == TypeDef_Struct ||
NewType.Type == TypeDef_Union)
2019-10-30 14:28:02 +00:00
{
NewType.Struct = BasisType->Struct;
2019-10-30 14:28:02 +00:00
}
NewType.Pointer = BasisType->Pointer || IsPointer;
2019-10-30 14:28:02 +00:00
token IdentifierToken = {};
if (TokenAtEquals(Iter, Token_Identifier, &IdentifierToken))
{
NewType.Identifier = IdentifierToken.Text;
2020-01-21 05:11:07 +00:00
PushTypeDefOnTypeTable(NewType, &Meta->TypeTable);
Result = true;
}
}
else
{
string* Error = TakeError(Iter->Errors);
PrintF(Error, "unhandled typedef ");
while (!TokenAtEquals(Iter, ";"))
2019-10-30 14:28:02 +00:00
{
PrintF(Error, "%S ", Iter->TokenAt->Text);
NextToken(Iter);
}
PrintF(Error, "\n");
}
}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
2020-01-21 05:11:07 +00:00
EndScope(ProfilerScope);
return Result;
}
internal b32
2020-01-21 05:11:07 +00:00
ParseEnum (token_iter* Iter, gs_meta_preprocessor* Meta)
{
2020-01-21 05:11:07 +00:00
gsm_profiler_scope* ProfilerScope = BeginScope(&Meta->Profiler,
MakeStringLiteral("parse"),
MakeStringLiteral("ParseEnum"));
b32 Result = false;
PushSnapshot(Iter);
if (TokenAtEquals(Iter, "enum"))
{
token IdentifierToken = {};
if (TokenAtEquals(Iter, Token_Identifier, &IdentifierToken))
{
type_definition EnumDecl = {};
EnumDecl.Identifier = IdentifierToken.Text;
EnumDecl.Size = sizeof(u32);
2020-01-21 05:11:07 +00:00
CopyMetaTagsAndClear(&Meta->TagList, &EnumDecl.MetaTags);
EnumDecl.Type = TypeDef_Enum;
if (TokenAtEquals(Iter, "{"))
{
u32 EnumAcc = 0;
while (!StringsEqual(Iter->TokenAt->Text, MakeStringLiteral("}")))
2019-10-30 14:28:02 +00:00
{
token EnumIdentifierToken = {};
if (TokenAtEquals(Iter, Token_Identifier, &EnumIdentifierToken))
{
if (TokenAtEquals(Iter, "="))
{
// TODO(Peter): TempValue is just here until we handle all
// const expr that could define an enum value. Its there so
// that if the first token of an expression is a number,
// we can avoid using anything from the expression.
u32 TempValue = EnumAcc;
token NumberToken = {};
if (TokenAtEquals(Iter, Token_Number, &NumberToken))
{
parse_result ParsedExpr = ParseSignedInt(StringExpand(NumberToken.Text));
TempValue = ParsedExpr.SignedIntValue;
}
// TODO(Peter): Handle setting enums equal to other kinds
// of const exprs.
// We're skipping a whole bunch of stuff now
while (!(StringsEqual(Iter->TokenAt->Text, MakeStringLiteral(",")) ||
StringsEqual(Iter->TokenAt->Text, MakeStringLiteral("}"))))
{
TempValue = EnumAcc;
NextToken(Iter);
}
EnumAcc = TempValue;
}
s32 EnumValue = EnumAcc++;
if (TokenAtEquals(Iter, ",") ||
StringsEqual(Iter->TokenAt->Text, MakeStringLiteral("}")))
{
EnumDecl.Enum.Identifiers.PushElementOnBucket(EnumIdentifierToken.Text);
EnumDecl.Enum.Values.PushElementOnBucket(EnumValue);
}
else if (!StringsEqual(Iter->TokenAt->Text, MakeStringLiteral("}")))
{
Result = false;
break;
}
}
2019-10-30 14:28:02 +00:00
}
if (TokenAtEquals(Iter, "}") &&
TokenAtEquals(Iter, ";"))
2019-10-30 14:28:02 +00:00
{
2020-01-21 05:11:07 +00:00
PushTypeDefOnTypeTable(EnumDecl, &Meta->TypeTable);
Result = true;
2019-10-30 14:28:02 +00:00
}
}
}
}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
2020-01-21 05:11:07 +00:00
EndScope(ProfilerScope);
return Result;
}
internal b32
ParseFunction (token_iter* Iter, gs_meta_preprocessor* Meta)
{
gsm_profiler_scope* ProfilerScope = BeginScope(&Meta->Profiler,
MakeStringLiteral("parse"),
MakeStringLiteral("ParseFunction"));
b32 Result = false;
PushSnapshot(Iter);
type_table_handle ReturnTypeHandle = InvalidTypeTableHandle;
if (ParseType(Iter, Meta, &ReturnTypeHandle))
{
token IdentifierToken = {};
if (TokenAtEquals(Iter, Token_Identifier, &IdentifierToken) &&
TokenAtEquals(Iter, "("))
{
gsm_profiler_scope* ProfilerInnerScope = BeginScope(&Meta->Profiler,
MakeStringLiteral("parse"),
MakeStringLiteral("ParseFunctionInner"));
type_definition FunctionDecl = {};
FunctionDecl.Identifier = IdentifierToken.Text;
FunctionDecl.Function.ReturnTypeHandle = ReturnTypeHandle;
CopyMetaTagsAndClear(&Meta->TagList, &FunctionDecl.MetaTags);
FunctionDecl.Type = TypeDef_Function;
FunctionDecl.Function.Parameters = {};
while (!StringsEqual(Iter->TokenAt->Text, MakeStringLiteral(")")))
{
if (ParseVariableDecl(Iter, &FunctionDecl.Function.Parameters, Meta))
{
}
if(!TokenAtEquals(Iter, ","))
{
break;
}
}
if (TokenAtEquals(Iter, ")"))
{
Result = true;
PushTypeDefOnTypeTable(FunctionDecl, &Meta->TypeTable);
}
EndScope(ProfilerInnerScope);
}
}
ApplySnapshotIfNotParsedAndPop(Result, Iter);
EndScope(ProfilerScope);
return Result;
}
internal void
PrintIndent (u32 Indent)
{
for (u32 i = 0; i < Indent; i++)
{
printf(" ");
}
}
internal void PrintStructDecl (type_definition* StructDecl, type_table TypeTable, u32 Indent);
internal void
PrintVariableDecl (variable_decl Member, type_table TypeTable, u32 Indent = 0)
{
2020-01-21 05:11:07 +00:00
type_definition* MemberTypeDef = GetTypeDefinition(Member.TypeHandle, TypeTable);
if ((MemberTypeDef->Type == TypeDef_Struct || MemberTypeDef->Type == TypeDef_Union)
&& MemberTypeDef->Identifier.Length == 0)
{
PrintStructDecl(MemberTypeDef, TypeTable, Indent);
}
else
{
PrintIndent(Indent);
2020-01-21 05:11:07 +00:00
if (!TypeHandleIsValid(Member.TypeHandle))
2019-10-30 14:28:02 +00:00
{
printf("???? ");
2019-10-30 14:28:02 +00:00
}
printf("%.*s ", StringExpand(MemberTypeDef->Identifier));
2019-10-30 14:28:02 +00:00
}
if (Member.Pointer)
2019-10-30 14:28:02 +00:00
{
printf("* ");
2019-10-30 14:28:02 +00:00
}
printf("%.*s", StringExpand(Member.Identifier));
if (Member.ArrayCount > 0)
2019-10-30 14:28:02 +00:00
{
printf("[%d]", Member.ArrayCount);
2019-10-30 14:28:02 +00:00
}
}
internal void
PrintStructDecl (type_definition* StructDecl, type_table TypeTable, u32 Indent = 0)
{
Assert(StructDecl->Type == TypeDef_Struct ||
StructDecl->Type == TypeDef_Union);
2019-10-30 14:28:02 +00:00
PrintIndent(Indent);
if (StructDecl->Type == TypeDef_Struct)
{
printf("struct ");
}
else if (StructDecl->Type == TypeDef_Union)
{
printf("union ");
}
else { InvalidCodePath; }
if (StructDecl->Identifier.Length > 0)
{
printf("%.*s ", StringExpand(StructDecl->Identifier));
}
printf("{\n");
for (u32 MemberIndex = 0; MemberIndex < StructDecl->Struct.MemberDecls.Used; MemberIndex++)
{
variable_decl* Member = StructDecl->Struct.MemberDecls.GetElementAtIndex(MemberIndex);
PrintVariableDecl(*Member, TypeTable, Indent + 1);
printf(";\n");
}
PrintIndent(Indent);
printf("} ( size = %d ) ", StructDecl->Size);
2019-10-30 14:28:02 +00:00
}
internal void
PrintFunctionPtrDecl (type_definition* FnPtrDecl, type_table TypeTable)
2019-10-30 14:28:02 +00:00
{
2020-01-21 05:11:07 +00:00
type_definition* ReturnType = GetTypeDefinition(FnPtrDecl->FunctionPtr.ReturnTypeHandle, TypeTable);
printf("%.*s ", StringExpand(ReturnType->Identifier));
if (FnPtrDecl->Identifier.Length > 0)
{
printf("%.*s ", StringExpand(FnPtrDecl->Identifier));
}
printf("(");
for (u32 MemberIndex = 0; MemberIndex < FnPtrDecl->FunctionPtr.Parameters.Used; MemberIndex++)
2019-10-30 14:28:02 +00:00
{
variable_decl* Param = FnPtrDecl->FunctionPtr.Parameters.GetElementAtIndex(MemberIndex);
PrintVariableDecl(*Param, TypeTable, 0);
printf(", ");
2019-10-30 14:28:02 +00:00
}
printf(");");
}
internal gs_meta_preprocessor
PreprocessProgram (char* SourceFile)
{
gs_meta_preprocessor Meta = {};
2019-10-30 14:28:02 +00:00
2020-01-21 05:11:07 +00:00
gsm_profiler_scope* TotalScope = BeginScope(&Meta.Profiler, "total", "total");
Meta.PreprocessorStartTime = GetWallClock();
PopulateTableWithDefaultCPPTypes(&Meta.TypeTable);
string CurrentWorkingDirectory = MakeString((char*)malloc(1024), 0, 1024);
string RootFile = MakeString(SourceFile);
AddFileToSource(RootFile, {}, &Meta.SourceFiles, &Meta.Errors);
s32 LastSlash = ReverseSearchForCharInSet(RootFile, "\\/");
if (LastSlash <= 0)
2019-10-30 14:28:02 +00:00
{
PushFError(&Meta.Errors, "%S: File path invalid.", RootFile);
return Meta;
}
string RootPath = Substring(RootFile, 0, LastSlash + 1);
CopyStringTo(RootPath, &CurrentWorkingDirectory);
for (u32 SourceFileIdx = 0; SourceFileIdx < Meta.SourceFiles.Used; SourceFileIdx++)
{
source_code_file* File = Meta.SourceFiles.GetElementAtIndex(SourceFileIdx);
2020-01-21 05:11:07 +00:00
gsm_profiler_scope* FileScope = BeginScope(&Meta.Profiler,
MakeStringLiteral("file"),
File->Path);
gsm_profiler_scope* TokenizeScope = BeginScope(&Meta.Profiler,
MakeStringLiteral("tokenize"),
File->Path);
TokenizeFile(File, &Meta.Tokens);
2020-01-21 05:11:07 +00:00
EndScope(TokenizeScope);
2019-10-30 14:28:02 +00:00
2020-01-21 05:11:07 +00:00
gsm_profiler_scope* PreprocScope = BeginScope(&Meta.Profiler,
MakeStringLiteral("preproc"),
File->Path);
token_iter Iter = {};
Iter.Tokens = &Meta.Tokens;
Iter.FirstToken = File->FirstTokenIndex;
Iter.LastToken = File->LastTokenIndex;
Iter.TokenAtIndex = Iter.FirstToken;
Iter.TokenAt = Meta.Tokens.GetElementAtIndex(Iter.TokenAtIndex);
Iter.Errors = &Meta.Errors;
2019-10-30 14:28:02 +00:00
while (Iter.TokenAtIndex < Iter.LastToken)
{
b32 ParseSuccess = false;
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type_table_handle TypeHandle = InvalidTypeTableHandle;
if (TokenAtEquals(&Iter, "#include"))
{
token* IncludeFile = Iter.TokenAt;
// NOTE(Peter): For now we aren't going in and preprocessing the header files
// we include from the system
// Token_Operator is used to check if the include is of the form '#include <header.h>'
// and skip it.
// TODO(Peter): This is only a rough approximation of ignoring system headers
// TODO(Peter): We should actually see what parsing system headers would entail
if (IncludeFile->Type != Token_Operator)
{
string TempFilePath = IncludeFile->Text;
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gsm_profiler_scope* IncludeScope = BeginScope(&Meta.Profiler,
MakeStringLiteral("include"),
TempFilePath);
// NOTE(Peter): if the path is NOT absolute ie "C:\etc
if (!(IsAlpha(TempFilePath.Memory[0]) &&
TempFilePath.Memory[1] == ':' &&
TempFilePath.Memory[2] == '\\'))
{
TempFilePath = CurrentWorkingDirectory;
ConcatString(IncludeFile->Text, &TempFilePath);
NullTerminate(&TempFilePath);
}
ParseSuccess = true;
if (!FileAlreadyInSource(TempFilePath, Meta.SourceFiles))
{
AddFileToSource(TempFilePath, *File, &Meta.SourceFiles, &Meta.Errors);
}
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EndScope(IncludeScope);
}
}
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else if(ParseMetaTag(&Iter, &Meta))
{
ParseSuccess = true;
}
else if (ParseEnum(&Iter, &Meta))
{
ParseSuccess = true;
}
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else if (ParseStruct(&Iter, &TypeHandle, &Meta))
{
ParseSuccess = true;
}
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else if (ParseTypedef(&Iter, &Meta))
{
ParseSuccess = true;
}
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else if (ParseFunction(&Iter, &Meta))
{
ParseSuccess = true;
}
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if (!ParseSuccess)
{
NextToken(&Iter);
}
}
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EndScope(PreprocScope);
EndScope(FileScope);
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}
// Type Table Fixup
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gsm_profiler_scope* FixupScope = BeginScope(&Meta.Profiler, "fixup", "fixup");
for (u32 b = 0; b < Meta.TypeTable.TypeBucketsCount; b++)
{
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type_table_hash_bucket Bucket = Meta.TypeTable.Types[b];
for (u32 i = 0; i < TYPE_TABLE_BUCKET_MAX; i++)
{
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if (Bucket.Keys[i] > 0)
{
type_table_handle Handle = {};
Handle.BucketIndex = b;
Handle.IndexInBucket = i;
type_definition* TypeDef = GetTypeDefinitionUnsafe(Handle, Meta.TypeTable);
if (TypeDef)
{
if (TypeDef->Type == TypeDef_Struct)
{
FixUpStructSize(Handle, Meta.TypeTable, &Meta.Errors);
}
else if (TypeDef->Type == TypeDef_Union)
{
FixUpUnionSize(Handle, Meta.TypeTable, &Meta.Errors);
}
}
}
}
}
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EndScope(FixupScope);
EndScope(TotalScope);
return Meta;
}
internal void
FinishMetaprogram(gs_meta_preprocessor* Meta)
{
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FinishProfiler(&Meta->Profiler);
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PrintAllErrors(Meta->Errors);
printf("\nMetaprogram Performance:\n");
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PrintAllCategories(&Meta->Profiler);
printf("\n");
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}
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#define GS_META_CPP
#endif // GS_META_CPP