Lumenarium/meta/foldhaus_meta.cpp

749 lines
24 KiB
C++

#include "..\src\gs_language.h"
#include "..\src\foldhaus_memory.h"
#include "..\src\gs_string.h"
#include "gs_meta_error.h"
#include "gs_meta_lexer.h"
#include <windows.h>
#include <stdio.h>
error_list GlobalErrorList = {};
PLATFORM_ALLOC(StdAlloc)
{
platform_memory_result Result = {};
Result.Base = (u8*)malloc(Size);
Result.Size = Size;
Result.Error = 0;
return Result;
}
struct source_code_file
{
string Path;
s32 FileSize;
string Contents;
};
struct code_block_builder
{
memory_arena Data;
string String;
};
#define TYPE_TABLE_IDENTIFIER_MAX_LENGTH 128
#define TYPE_TABLE_BUFFER_MAX 64
struct type_table_buffer
{
u8* IdentifiersBackbuffer;
string* Identifiers;
s32* Sizes;
s32 Used;
s32 Max;
type_table_buffer* Next;
};
struct type_table
{
type_table_buffer* Head;
s32 TotalUsed;
s32 TotalMax;
};
internal void
AddTypeToTable (string Identifier, s32 Size, type_table* Table)
{
if (!Table->Head || Table->TotalUsed >= Table->TotalMax)
{
s32 NewHeadSize = sizeof(type_table_buffer) + ((sizeof(string) + TYPE_TABLE_IDENTIFIER_MAX_LENGTH + sizeof(s32)) * TYPE_TABLE_BUFFER_MAX);
u8* NewHeadBuffer = (u8*)malloc(NewHeadSize);
static_memory_arena Memory = CreateMemoryArena(NewHeadBuffer, NewHeadSize);
type_table_buffer* NewHead = PushStruct(&Memory, type_table_buffer);
NewHead->IdentifiersBackbuffer = PushArray(&Memory, u8, TYPE_TABLE_IDENTIFIER_MAX_LENGTH * TYPE_TABLE_BUFFER_MAX);
NewHead->Identifiers = PushArray(&Memory, string, TYPE_TABLE_BUFFER_MAX);
NewHead->Sizes = PushArray(&Memory, s32, TYPE_TABLE_BUFFER_MAX);
NewHead->Used = 0;
NewHead->Max = TYPE_TABLE_BUFFER_MAX;
NewHead->Next = 0;
// Init Strings
for (s32 i = 0; i < NewHead->Max; i++)
{
string* String = NewHead->Identifiers + i;
u8* Backbuffer = NewHead->IdentifiersBackbuffer + (TYPE_TABLE_IDENTIFIER_MAX_LENGTH * i);
InitializeString(String, (char*)Backbuffer, 0, TYPE_TABLE_IDENTIFIER_MAX_LENGTH);
}
if (Table->Head) { NewHead->Next = Table->Head; }
Table->Head = NewHead;
Table->TotalMax += NewHead->Max;
}
s32 TypeIndex = Table->Head->Used++;
string* DestIdentifier = Table->Head->Identifiers + TypeIndex;
CopyStringTo(Identifier, DestIdentifier);
Table->Head->Sizes[TypeIndex] = Size;
}
internal s32
GetSizeOfType (string Identifier, type_table* TypeTable)
{
s32 Result = -1;
type_table_buffer* Buffer = TypeTable->Head;
while (Buffer)
{
for (s32 i = 0; i < Buffer->Used; i++)
{
string StoredIdentifier = Buffer->Identifiers[i];
if (StringsEqual(StoredIdentifier, Identifier))
{
Result = Buffer->Sizes[i];
break;
}
}
if (Result > 0)
{
break;
}
else
{
Buffer = Buffer->Next;
}
}
return Result;
}
internal code_block_builder
InitCodeBlockBuilder()
{
code_block_builder Result = {};
InitMemoryArena(&Result.Data, 0, 0, StdAlloc);
return Result;
}
internal void
CodeBlockPrint (code_block_builder* Block, string Source)
{
char* NewCode = PushArray(&Block->Data, char, Source.Length);
GSMemCopy(Source.Memory, NewCode, Source.Length);
if (Block->String.Memory == 0)
{
Block->String.Memory = NewCode;
}
Block->String.Max += Source.Length;
Block->String.Length += Source.Length;
}
internal void
WriteMemoryRegionToFile (memory_region* Region, FILE* WriteFile)
{
if (Region->PreviousRegion)
{
WriteMemoryRegionToFile(Region->PreviousRegion, WriteFile);
}
fwrite(Region->Base, 1, Region->Used, WriteFile);
}
internal void
WriteCodeBlockToFile(code_block_builder CodeBlock, FILE* WriteFile)
{
memory_region* Region = CodeBlock.Data.CurrentRegion;
WriteMemoryRegionToFile (Region, WriteFile);
}
internal s32
GetFileSize (char* FileName)
{
s32 Result = 0;
FILE* ReadFile = fopen(FileName, "r");
if (ReadFile)
{
fseek(ReadFile, 0, SEEK_END);
size_t FileSize = ftell(ReadFile);
fseek(ReadFile, 0, SEEK_SET);
Result = (s32)FileSize;
fclose(ReadFile);
}
return Result;
}
internal s32
ReadEntireFileAndNullTerminate (char* Filename, char* Memory, s32 MemorySize)
{
s32 LengthRead = 0;
FILE* ReadFile = fopen(Filename, "r");
if (ReadFile)
{
fseek(ReadFile, 0, SEEK_END);
size_t FileSize = ftell(ReadFile);
fseek(ReadFile, 0, SEEK_SET);
if (FileSize <= MemorySize)
{
size_t ReadSize = fread(Memory, 1, FileSize, ReadFile);
Memory[FileSize] = 0;
LengthRead = (s32)ReadSize + 1;
}
fclose(ReadFile);
}
else
{
LogError(&GlobalErrorList, "Could Not Read File: %s", Filename);
}
return LengthRead;
}
internal void
EatToNextLine (tokenizer* Tokenizer)
{
while (AtValidPosition(*Tokenizer) && !IsNewline(*Tokenizer->At))
{
Tokenizer->At++;
}
}
struct seen_node_struct
{
string Name;
s32 MembersSize;
s32 MembersCount;
seen_node_struct* Next;
};
internal seen_node_struct*
FindSeenStructInList (seen_node_struct* SeenStructList, string Name)
{
seen_node_struct* Result = 0;
seen_node_struct* Iter = SeenStructList;
while(Iter)
{
if (StringsEqual(Name, Iter->Name))
{
Result = Iter;
break;
}
Iter = Iter->Next;
}
return Result;
}
internal void
ParseNodeStruct (token* NodeStruct, code_block_builder* NodeMembersBlock, seen_node_struct* SeenStruct, type_table* TypeTable)
{
token* OpenParen = NodeStruct->Next;
token* StructName = OpenParen->Next;
SeenStruct->Name = StructName->Text;
MakeStringBuffer(Buffer, 256);
PrintF(&Buffer, "node_struct_member MemberList_%.*s[] = {\n",
StructName->Text.Length, StructName->Text.Memory);
CodeBlockPrint(NodeMembersBlock, Buffer);
token* Token = StructName->Next;
while (Token->Type != Token_RightCurlyBracket)
{
if (Token->Type != Token_Identifier)
{
Token = Token->Next;
}
else
{
b32 IsInput = false;
b32 IsOutput = false;
if (StringsEqual(MakeStringLiteral("NODE_IN"), Token->Text) ||
StringsEqual(MakeStringLiteral("NODE_COLOR_BUFFER_IN"), Token->Text))
{
IsInput = true;
}
else if (StringsEqual(MakeStringLiteral("NODE_OUT"), Token->Text) ||
StringsEqual(MakeStringLiteral("NODE_COLOR_BUFFER_OUT"), Token->Text))
{
IsOutput = true;
}
else if (StringsEqual(MakeStringLiteral("NODE_COLOR_BUFFER_INOUT"), Token->Text))
{
IsInput = true;
IsOutput = true;
}
else
{
SeenStruct->MembersSize += GetSizeOfType(Token->Text, TypeTable);
Token = GetNextTokenOfType(Token, Token_Semicolon)->Next;
continue;
}
token* TypeToken = GetNextTokenOfType(Token, Token_Identifier);
token* NameToken = GetNextTokenOfType(TypeToken, Token_Identifier);
MakeStringBuffer(TypeBuffer, 64);
MakeStringBuffer(NameBuffer, 64);
CopyStringTo(TypeToken->Text, &TypeBuffer);
CopyStringTo(NameToken->Text, &NameBuffer);
if (StringsEqual(MakeStringLiteral("s32"), TypeToken->Text))
{
SeenStruct->MembersSize += sizeof(s32);
}
else if (StringsEqual(MakeStringLiteral("r32"), TypeToken->Text))
{
SeenStruct->MembersSize += sizeof(r32);
}
else if (StringsEqual(MakeStringLiteral("v4"), TypeToken->Text))
{
SeenStruct->MembersSize += sizeof(r32) * 4;
}
else if (StringsEqual(MakeStringLiteral("NODE_COLOR_BUFFER_INOUT"), Token->Text))
{
SeenStruct->MembersSize += sizeof(u32*) + sizeof(u32*) + sizeof(s32);
CopyStringTo(MakeStringLiteral("NODE_COLOR_BUFFER"), &TypeBuffer);
CopyStringTo(MakeStringLiteral("LEDs"), &NameBuffer);
}
else if (StringsEqual(MakeStringLiteral("NODE_COLOR_BUFFER_IN"), Token->Text) ||
StringsEqual(MakeStringLiteral("NODE_COLOR_BUFFER_OUT"), Token->Text))
{
SeenStruct->MembersSize += sizeof(u32*) + sizeof(u32*) + sizeof(s32);
CopyStringTo(MakeStringLiteral("NODE_COLOR_BUFFER"), &TypeBuffer);
CopyStringTo(TypeToken->Text, &NameBuffer);
ConcatString(MakeStringLiteral("LEDs"), &NameBuffer);
}
else
{
PrintF(&Buffer, "Invalid Type Specified for %.*s %.*s\n",
TypeToken->Text.Length, TypeToken->Text.Memory,
NameToken->Text.Length, NameToken->Text.Memory);
NullTerminate(&Buffer);
printf(Buffer.Memory);
return;
}
PrintF(&Buffer, "{ MemberType_%.*s, \"%.*s\", (u64)&((%.*s*)0)->%.*s, %s %s %s},\n",
TypeBuffer.Length, TypeBuffer.Memory,
NameBuffer.Length, NameBuffer.Memory,
StructName->Text.Length, StructName->Text.Memory,
NameBuffer.Length, NameBuffer.Memory,
(IsInput ? "IsInputMember" : ""),
(IsInput && IsOutput ? "|" : ""),
(IsOutput ? "IsOutputMember" : ""));
CodeBlockPrint(NodeMembersBlock, Buffer);
SeenStruct->MembersCount++;
Token = GetNextTokenOfType(Token, Token_Semicolon)->Next;
}
}
CodeBlockPrint(NodeMembersBlock, MakeStringLiteral("};\n\n"));
}
internal s32
GetTypedefSize (token* Token)
{
s32 Size = 0;
token* LookingAt = Token->Next;
if (StringsEqual(LookingAt->Text, MakeStringLiteral("unsigned")) ||
StringsEqual(LookingAt->Text, MakeStringLiteral("signed")))
{
LookingAt = LookingAt->Next;
}
s32 Level = 1;
if (StringsEqual(LookingAt->Text, MakeStringLiteral("short")))
{
Level = -1;
LookingAt = LookingAt->Next;
}
while (StringsEqual(LookingAt->Text, MakeStringLiteral("long")))
{
Level= 2.f;
LookingAt = LookingAt->Next;
}
if (StringsEqual(LookingAt->Text, MakeStringLiteral("char")))
{
Size = 1;
}
else if (StringsEqual(LookingAt->Text, MakeStringLiteral("int")))
{
switch (Level)
{
case -1: { Size = 2; } break;
case 1: { Size = 4; } break;
case 2: { Size = 8; } break;
InvalidDefaultCase;
}
}
else if (StringsEqual(LookingAt->Text, MakeStringLiteral("float")))
{
Size = 4;
}
else if (StringsEqual(LookingAt->Text, MakeStringLiteral("double")))
{
Size = 8;
}
else if (StringsEqual(LookingAt->Text, MakeStringLiteral("bool")))
{
Size = 1;
}
else if (StringsEqual(LookingAt->Text, MakeStringLiteral("void")))
{
LogError(&GlobalErrorList, "void type Not Handled");
}
return Size;
}
internal string
GetTypedefIdentifier (token* Token)
{
string Identifier = {};
token* PreviousToken = Token;
token* LookingAt = Token->Next;
while (LookingAt->Type != Token_Semicolon)
{
PreviousToken = LookingAt;
LookingAt = LookingAt->Next;
}
if (PreviousToken->Type == Token_Identifier)
{
Identifier = PreviousToken->Text;
}
return Identifier;
}
internal void
ParseTypedefs (token* Tokens, type_table* TypeTable)
{
string TypedefIdentifier = MakeStringLiteral("typedef");
string StructIdentifier = MakeStringLiteral("struct");
token* Token = Tokens;
while (Token)
{
if (StringsEqual(Token->Text, TypedefIdentifier))
{
if (!StringsEqual(Token->Next->Text, StructIdentifier))
{
s32 Size = GetTypedefSize(Token);
string Identifier = GetTypedefIdentifier(Token);
if (Size > 0) // NOTE(Peter): This is just to skip over typedefs of structs and function pointers
{
AddTypeToTable(Identifier, Size, TypeTable);
}
}
}
Token = Token->Next;
}
}
internal void
ParseNodeProc (token* NodeProc,
code_block_builder* NodeTypeBlock,
code_block_builder* NodeSpecificationsBlock,
code_block_builder* CallNodeProcBlock,
seen_node_struct* SeenStructs,
b32 IsPatternProc)
{
token* ProcName = GetNextTokenOfType(NodeProc, Token_Identifier);
token* ProcArg = GetNextTokenOfType(ProcName, Token_Identifier);
MakeStringBuffer(Buffer, 256);
// Types Enum
PrintF(&Buffer, "NodeType_%.*s,\n", ProcName->Text.Length, ProcName->Text.Memory);
CodeBlockPrint(NodeTypeBlock, Buffer);
// Node Specification
string ArgName = ProcArg->Text;
seen_node_struct* ArgStruct = FindSeenStructInList(SeenStructs, ArgName);
PrintF(&Buffer, "{ NodeType_%.*s, \"%.*s\", %d, MemberList_%.*s, %d, %d, %.*s},\n",
ProcName->Text.Length, ProcName->Text.Memory,
ProcName->Text.Length, ProcName->Text.Memory,
ProcName->Text.Length,
ProcArg->Text.Length, ProcArg->Text.Memory,
ArgStruct->MembersSize,
ArgStruct->MembersCount,
(IsPatternProc ? 4 : 5), (IsPatternProc ? "true" : "false"));
CodeBlockPrint(NodeSpecificationsBlock, Buffer);
// Call Node Proc
if (IsPatternProc)
{
LogError(&GlobalErrorList, "Node Proc is no longer supported");
}
else
{
PrintF(&Buffer, "case NodeType_%.*s: { %.*s((%.*s*)Data, DeltaTime); } break; \n",
ProcName->Text.Length, ProcName->Text.Memory,
ProcName->Text.Length, ProcName->Text.Memory,
ProcArg->Text.Length, ProcArg->Text.Memory);
CodeBlockPrint(CallNodeProcBlock, Buffer);
}
}
internal s32
PreprocessStructsAndProcs (string StructSearchString, string ProcSearchString, b32 FindingPatterns,
token* Tokens,
code_block_builder* NodeMembersBlock,
code_block_builder* NodeTypeBlock,
code_block_builder* NodeSpecificationsBlock,
code_block_builder* CallNodeProcBlock,
type_table* TypeTable)
{
// Node Structs
seen_node_struct* Structs = 0;
token_selection_spec NodeStructSpec = {};
NodeStructSpec.MatchText = true;
NodeStructSpec.Text = StructSearchString;
token* NodeStructToken = FindNextMatchingToken(Tokens, NodeStructSpec);
while (NodeStructToken)
{
seen_node_struct* SeenStruct = (seen_node_struct*)malloc(sizeof(seen_node_struct));
*SeenStruct = {};
if (Structs != 0)
{
SeenStruct->Next = Structs;
}
Structs = SeenStruct;
ParseNodeStruct(NodeStructToken, NodeMembersBlock, SeenStruct, TypeTable);
NodeStructToken = FindNextMatchingToken(NodeStructToken->Next, NodeStructSpec);
}
// Node Procs
token_selection_spec NodeProcSpec = {};
NodeProcSpec.MatchText = true;
NodeProcSpec.Text = ProcSearchString;
token* NodeProcToken = FindNextMatchingToken(Tokens, NodeProcSpec);
s32 NodeProcCount = 0;
while (NodeProcToken)
{
NodeProcCount++;
ParseNodeProc(NodeProcToken, NodeTypeBlock, NodeSpecificationsBlock, CallNodeProcBlock, Structs, FindingPatterns);
NodeProcToken = FindNextMatchingToken(NodeProcToken->Next, NodeProcSpec);
}
return NodeProcCount;
}
// Step 1: Get All Tokens, for every file
// Step 2: Identify all preprocessor directives
// Step 3: Apply Preprocessor Directives && Generate Code
// Step 4: Write out new files
// Step 5: Compile
int main(int ArgCount, char** ArgV)
{
if (ArgCount <= 1)
{
printf("Please supply at least one source directory to analyze.\n");
return 0;
}
type_table TypeTable = {};
memory_arena SourceFileArena = {};
InitMemoryArena(&SourceFileArena, 0, 0, StdAlloc);
code_block_builder NodeTypeBlock = InitCodeBlockBuilder();
CodeBlockPrint(&NodeTypeBlock, MakeStringLiteral("enum node_type\n{\nNodeType_OutputNode,\n"));
code_block_builder NodeMembersBlock = InitCodeBlockBuilder();
code_block_builder NodeSpecificationsBlock = InitCodeBlockBuilder();
CodeBlockPrint(&NodeSpecificationsBlock, MakeStringLiteral("node_specification NodeSpecifications[] = {\n"));
code_block_builder CallNodeProcBlock = InitCodeBlockBuilder();
CodeBlockPrint(&CallNodeProcBlock, MakeStringLiteral("internal void CallNodeProc(interface_node* Node, u8* Data, led* LEDs, s32 LEDsCount, r32 DeltaTime)\n{\n"));
CodeBlockPrint(&CallNodeProcBlock, MakeStringLiteral("switch (Node->Type)\n{\n"));
// Build Search Paths Array
s32 SearchPathsCount = 1; //ArgCount - 1;
string* SearchPaths = PushArray(&SourceFileArena, string, SearchPathsCount);
for (s32 InputPath = 0; InputPath < SearchPathsCount; InputPath++)
{
string* SearchPathString = SearchPaths + InputPath;
InitializeEmptyString(SearchPathString, PushArray(&SourceFileArena, char, MAX_PATH), MAX_PATH);
// NOTE(Peter): Adding one to skip the default argument which is the name of the application currently running
CopyCharArrayToString(ArgV[InputPath + 1], SearchPathString);
ConcatCharArrayToString("*", SearchPathString);
NullTerminate(SearchPathString);
}
// Total Source Files Count
s32 SourceFileCount = 0;
for (s32 SearchPath = 0; SearchPath < SearchPathsCount; SearchPath++)
{
string* SearchPathString = SearchPaths + SearchPath;
WIN32_FIND_DATA FindFileData;
HANDLE CurrentFile = FindFirstFile(SearchPathString->Memory, &FindFileData);
if (CurrentFile == INVALID_HANDLE_VALUE)
{
printf("Invalid File Handle\n");
return 0;
}
do {
if (FindFileData.dwFileAttributes == FILE_ATTRIBUTE_DIRECTORY)
{
continue; // TODO(Peter): Recurse?
}
SourceFileCount++;
} while (FindNextFile(CurrentFile, &FindFileData));
}
// Allocate Source File Array
source_code_file* SourceFiles = PushArray(&SourceFileArena, source_code_file, SourceFileCount);
// Populate Source File Array
s32 SourceFilesUsed = 0;
for (s32 SearchPath = 0; SearchPath < SearchPathsCount; SearchPath++)
{
string* SearchPathString = SearchPaths + SearchPath;
WIN32_FIND_DATA FindFileData;
HANDLE CurrentFile = FindFirstFile(SearchPathString->Memory, &FindFileData);
do {
if (FindFileData.dwFileAttributes == FILE_ATTRIBUTE_DIRECTORY)
{
continue; // TODO(Peter): Recurse?
}
string FileName = MakeString(FindFileData.cFileName);
string FileExtension = Substring(FileName, LastIndexOfChar(FileName, '.'));
if (StringsEqual(FileExtension, MakeStringLiteral("cpp")) ||
StringsEqual(FileExtension, MakeStringLiteral("h")))
{
source_code_file* File = SourceFiles + SourceFilesUsed++;
PushString(&File->Path, &SourceFileArena, SearchPathString->Length + CharArrayLength(FindFileData.cFileName));
CopyStringTo(Substring(*SearchPathString, 0, SearchPathString->Length - 2), &File->Path);
ConcatCharArrayToString(FindFileData.cFileName, &File->Path);
NullTerminate(&File->Path);
File->FileSize = FindFileData.nFileSizeLow;
ErrorAssert(FindFileData.nFileSizeHigh == 0, &GlobalErrorList, "File Too Big. Peter needs to handle this. File: %.*s", FileName.Length, FileName.Memory);
PushString(&File->Contents, &SourceFileArena, File->FileSize + 1);
File->Contents.Length = ReadEntireFileAndNullTerminate(File->Path.Memory, File->Contents.Memory, File->Contents.Max);
}
} while (FindNextFile(CurrentFile, &FindFileData));
}
// Tokenize All The Files
s32 TokensCount = 0;
token* Tokens = 0;
token** FileStartTokens = PushArray(&SourceFileArena, token*, SourceFilesUsed);
for (s32 SourceFileIdx = 0; SourceFileIdx < SourceFilesUsed; SourceFileIdx++)
{
source_code_file* File = SourceFiles + SourceFileIdx;
tokenizer Tokenizer = {};
Tokenizer.At = File->Contents.Memory;
Tokenizer.Memory = File->Contents.Memory;
Tokenizer.MemoryLength = File->Contents.Max;
token* LastToken = 0;
while(AtValidPosition(Tokenizer))
{
token* Token = PushStruct(&SourceFileArena, token);
if (Tokens == 0)
{
Tokens = Token;
}
TokensCount++;
*Token = GetNextToken(&Tokenizer);
Token->Next = 0;
if (LastToken) {
LastToken->Next = Token;
}
else
{
FileStartTokens[SourceFileIdx] = Token;
}
LastToken = Token;
}
}
for (s32 SourceFile = 0; SourceFile < SourceFilesUsed; SourceFile++)
{
ParseTypedefs (FileStartTokens[SourceFile], &TypeTable);
}
s32 NodeProcCount = 0;
for (s32 SourceFileIdx = 0; SourceFileIdx < SourceFilesUsed; SourceFileIdx++)
{
token* FileStartToken = FileStartTokens[SourceFileIdx];
NodeProcCount += PreprocessStructsAndProcs (MakeStringLiteral("NODE_STRUCT"),
MakeStringLiteral("NODE_PROC"),
false,
FileStartToken, &NodeMembersBlock, &NodeTypeBlock, &NodeSpecificationsBlock, &CallNodeProcBlock,
&TypeTable);
NodeProcCount += PreprocessStructsAndProcs (MakeStringLiteral("NODE_PATTERN_STRUCT"),
MakeStringLiteral("NODE_PATTERN_PROC"),
true,
FileStartToken, &NodeMembersBlock, &NodeTypeBlock, &NodeSpecificationsBlock, &CallNodeProcBlock,
&TypeTable);
}
MakeStringBuffer(Buffer, 256);
// Close Types Block - overwrite the last comma and '\' newline character with newlines.
CodeBlockPrint(&NodeTypeBlock, MakeStringLiteral("NodeType_Count,\n};\n\n"));
// Close Specifications Block
CodeBlockPrint(&NodeSpecificationsBlock, MakeStringLiteral("};\n"));
PrintF(&Buffer, "s32 NodeSpecificationsCount = %d;\n\n", NodeProcCount);
CodeBlockPrint(&NodeSpecificationsBlock, Buffer);
// Close Call Node Proc Block
CodeBlockPrint(&CallNodeProcBlock, MakeStringLiteral("}\n}\n"));
FILE* NodeGeneratedCPP = fopen("C:\\projects\\foldhaus\\src\\generated\\foldhaus_nodes_generated.cpp", "w");
if (NodeGeneratedCPP)
{
WriteCodeBlockToFile(NodeTypeBlock, NodeGeneratedCPP);
WriteCodeBlockToFile(NodeMembersBlock, NodeGeneratedCPP);
WriteCodeBlockToFile(NodeSpecificationsBlock, NodeGeneratedCPP);
WriteCodeBlockToFile(CallNodeProcBlock, NodeGeneratedCPP);
fclose(NodeGeneratedCPP);
}
PrintErrorList(GlobalErrorList);
return 0;
}