quadrilateralcowboy/TypeInfo/TypeInfoGen.cpp
2020-06-12 14:06:25 -07:00

1050 lines
24 KiB
C++

/*
===========================================================================
Doom 3 GPL Source Code
Copyright (C) 1999-2011 id Software LLC, a ZeniMax Media company.
This file is part of the Doom 3 GPL Source Code (?Doom 3 Source Code?).
Doom 3 Source Code is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
Doom 3 Source Code is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with Doom 3 Source Code. If not, see <http://www.gnu.org/licenses/>.
In addition, the Doom 3 Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 Source Code. If not, please request a copy in writing from id Software at the address below.
If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA.
===========================================================================
*/
#include "../idlib/precompiled.h"
#pragma hdrstop
#include "TypeInfoGen.h"
#define TYPE_INFO_GEN_VERSION "1.0"
/*
================
idTypeInfoGen::idTypeInfoGen
================
*/
idTypeInfoGen::idTypeInfoGen( void ) {
}
/*
================
idTypeInfoGen::~idTypeInfoGen
================
*/
idTypeInfoGen::~idTypeInfoGen( void ) {
constants.DeleteContents( true );
enums.DeleteContents( true );
classes.DeleteContents( true );
}
/*
================
idTypeInfoGen::GetInheritance
================
*/
int idTypeInfoGen::GetInheritance( const char *typeName ) const {
int i;
for ( i = 0; i < classes.Num(); i++ ) {
if ( classes[i]->typeName.Cmp( typeName ) == 0 ) {
if ( classes[i]->superType[0] != '\0' ) {
return 1 + GetInheritance( classes[i]->superType );
}
break;
}
}
return 0;
}
/*
================
idTypeInfoGen::EvaluateIntegerString
================
*/
int idTypeInfoGen::EvaluateIntegerString( const idStr &string ) {
idParser src;
idStr evalString;
if ( string.Find( "::" ) != -1 ) {
return 0;
}
evalString = "$evalint(" + string + ")";
src.LoadMemory( evalString, evalString.Length(), "eval integer" );
return src.ParseInt();
}
/*
================
idTypeInfoGen::EvaluateFloatString
================
*/
float idTypeInfoGen::EvaluateFloatString( const idStr &string ) {
idParser src;
idStr evalString;
if ( string.Find( "::" ) != -1 ) {
return 0.0f;
}
evalString = "$evalfloat(" + string + ")";
src.LoadMemory( evalString, evalString.Length(), "eval float" );
return src.ParseFloat();
}
/*
================
idTypeInfoGen::FindConstant
================
*/
idConstantInfo *idTypeInfoGen::FindConstant( const char *name ) {
int i;
for ( i = 0; i < constants.Num(); i++ ) {
if ( constants[i]->name.Cmp( name ) == 0 ) {
return constants[i];
}
}
return NULL;
}
/*
================
idTypeInfoGen::GetIntegerConstant
================
*/
int idTypeInfoGen::GetIntegerConstant( const char *scope, const char *name, idParser &src ) {
idConstantInfo *constant = FindConstant( idStr( scope ) + name );
if ( constant == NULL ) {
constant = FindConstant( name );
}
if ( constant ) {
return EvaluateIntegerString( constant->value );
}
src.Warning( "unknown value '%s' in constant expression", name );
return 0;
}
/*
================
idTypeInfoGen::GetFloatConstant
================
*/
float idTypeInfoGen::GetFloatConstant( const char *scope, const char *name, idParser &src ) {
idConstantInfo *constant = FindConstant( idStr( scope ) + name );
if ( constant == NULL ) {
constant = FindConstant( name );
}
if ( constant ) {
return EvaluateFloatString( constant->value );
}
src.Warning( "unknown value '%s' in constant expression", name );
return 0;
}
/*
================
idTypeInfoGen::ParseArraySize
================
*/
int idTypeInfoGen::ParseArraySize( const char *scope, idParser &src ) {
idToken token;
idStr sizeString, constantString;
int size, totalSize;
if ( !src.CheckTokenString( "[" ) ) {
return 0;
}
totalSize = 1;
sizeString = "";
while( src.ReadToken( &token ) ) {
if ( token == "]" ) {
if ( sizeString.Length() ) {
size = EvaluateIntegerString( sizeString );
if ( size ) {
totalSize *= size;
}
sizeString = "";
}
if ( !src.CheckTokenString( "[" ) ) {
break;
}
} else if ( token.type == TT_NAME ) {
constantString = token;
while( src.CheckTokenString( "::" ) ) {
src.ExpectTokenType( TT_NAME, 0, &token );
constantString += "::" + token;
}
sizeString += va( "%d", GetIntegerConstant( scope, constantString, src ) );
} else {
sizeString += token;
}
}
return totalSize;
}
/*
================
idTypeInfoGen::ParseConstantValue
================
*/
void idTypeInfoGen::ParseConstantValue( const char *scope, idParser &src, idStr &value ) {
idToken token;
idStr constantString;
int indent = 0;
while( src.ReadToken( &token ) ) {
if ( token == "(" ) {
indent++;
} else if ( token == ")" ) {
indent--;
} else if ( indent == 0 && ( token == ";" || token == "," || token == "}" ) ) {
src.UnreadToken( &token );
break;
} else if ( token.type == TT_NAME ) {
constantString = token;
while( src.CheckTokenString( "::" ) ) {
src.ExpectTokenType( TT_NAME, 0, &token );
constantString += "::" + token;
}
value += va( "%d", GetIntegerConstant( scope, constantString, src ) );
continue;
}
value += token;
}
}
/*
================
idTypeInfoGen::ParseEnumType
================
*/
idEnumTypeInfo *idTypeInfoGen::ParseEnumType( const char *scope, bool isTemplate, bool typeDef, idParser &src ) {
int value;
idToken token;
idEnumTypeInfo *typeInfo;
idEnumValueInfo enumValue;
idStr valueString;
typeInfo = new idEnumTypeInfo;
typeInfo->scope = scope;
typeInfo->isTemplate = isTemplate;
if ( src.CheckTokenType( TT_NAME, 0, &token ) ) {
typeInfo->typeName = token;
typeInfo->unnamed = false;
} else {
sprintf( typeInfo->typeName, "enum_%d", enums.Num() );
typeInfo->unnamed = true;
}
if ( !src.CheckTokenString( "{" ) ) {
src.UnreadToken( &token );
delete typeInfo;
return NULL;
}
value = -1;
while( src.ExpectTokenType( TT_NAME, 0, &token ) ) {
enumValue.name = token;
if ( src.CheckTokenString( "=" ) ) {
idStr valueString;
ParseConstantValue( scope, src, valueString );
if ( valueString.Length() ) {
value = EvaluateIntegerString( valueString );
}
} else {
value++;
}
enumValue.value = value;
typeInfo->values.Append( enumValue );
// add a constant for the enum value
idConstantInfo *constantInfo = new idConstantInfo;
constantInfo->name = scope + enumValue.name;
constantInfo->type = "int";
constantInfo->value = va( "%d", value );
constants.Append( constantInfo );
src.CheckTokenString( "," );
if ( src.CheckTokenString( "}" ) ) {
break;
}
}
if ( typeDef ) {
if ( src.CheckTokenType( TT_NAME, 0, &token ) ) {
typeInfo->typeName = token;
typeInfo->unnamed = false;
}
src.ExpectTokenString( ";" );
}
//common->Printf( "enum %s%s\n", typeInfo->scope.c_str(), typeInfo->typeName.c_str() );
return typeInfo;
}
/*
================
idTypeInfoGen::ParseClassType
================
*/
idClassTypeInfo *idTypeInfoGen::ParseClassType( const char *scope, const char *templateArgs, bool isTemplate, bool typeDef, idParser &src ) {
idToken token;
idClassTypeInfo *typeInfo;
typeInfo = new idClassTypeInfo;
typeInfo->scope = scope;
typeInfo->isTemplate = isTemplate;
if ( src.CheckTokenType( TT_NAME, 0, &token ) ) {
typeInfo->typeName = token + templateArgs;
typeInfo->unnamed = false;
} else {
sprintf( typeInfo->typeName, "class_%d%s", classes.Num(), templateArgs );
typeInfo->unnamed = true;
}
if ( src.CheckTokenString( ":" ) ) {
if ( !src.ExpectTokenType( TT_NAME, 0, &token ) ) {
delete typeInfo;
return NULL;
}
while( token == "public" ||
token == "protected" ||
token == "private" ) {
if ( !src.ExpectTokenType( TT_NAME, 0, &token ) ) {
delete typeInfo;
return NULL;
}
typeInfo->superType = token;
// read template arguments
if ( src.CheckTokenString( "<" ) ) {
int indent = 1;
typeInfo->superType += "< ";
while( src.ReadToken( &token ) ) {
if ( token == "<" ) {
indent++;
} else if ( token == ">" ) {
indent--;
if ( indent == 0 ) {
break;
}
}
typeInfo->superType += token + " ";
}
typeInfo->superType += ">";
}
// check for multiple inheritance
if ( !src.CheckTokenString( "," ) ) {
break;
}
if ( !src.ExpectTokenType( TT_NAME, 0, &token ) ) {
delete typeInfo;
return NULL;
}
src.Warning( "multiple inheritance not supported for '%s%s'", typeInfo->scope.c_str(), typeInfo->typeName.c_str() );
}
}
if ( !src.CheckTokenString( "{" ) ) {
src.UnreadToken( &token );
delete typeInfo;
return NULL;
}
ParseScope( typeInfo->scope + typeInfo->typeName + "::", typeInfo->isTemplate, src, typeInfo );
if ( typeDef ) {
if ( src.CheckTokenType( TT_NAME, 0, &token ) ) {
typeInfo->typeName = token + templateArgs;
typeInfo->unnamed = false;
}
src.ExpectTokenString( ";" );
}
//common->Printf( "class %s%s : %s\n", typeInfo->scope.c_str(), typeInfo->typeName.c_str(), typeInfo->superType.c_str() );
return typeInfo;
}
/*
================
idTypeInfoGen::ParseScope
================
*/
void idTypeInfoGen::ParseScope( const char *scope, bool isTemplate, idParser &src, idClassTypeInfo *typeInfo ) {
int indent;
idToken token;
idClassTypeInfo *classInfo;
idEnumTypeInfo *enumInfo;
idStr varType;
bool isConst = false;
bool isStatic = false;
indent = 1;
while( indent ) {
if ( !src.ReadToken( &token ) ) {
break;
}
if ( token == "{" ) {
do {
if ( token == "{" ) {
indent++;
} else if ( token == "}" ) {
indent--;
}
varType += token + " ";
} while( indent > 1 && src.ReadToken( &token ) );
} else if ( token == "}" ) {
assert( indent == 1 );
indent--;
} else if ( token == "<" ) {
do {
if ( token == "<" ) {
indent++;
} else if ( token == ">" ) {
indent--;
}
varType += token + " ";
} while( indent > 1 && src.ReadToken( &token ) );
} else if ( token == ";" ) {
varType = "";
isConst = false;
isStatic = false;
} else if ( token == "public" || token == "protected" || token == "private" ) {
if ( !src.ExpectTokenString( ":" ) ) {
break;
}
varType = "";
isConst = false;
isStatic = false;
} else if ( token == "friend" ) {
// skip friend classes/methods
while( src.ReadToken( &token ) ) {
if ( token == "{" ) {
indent++;
} else if ( token == "}" ) {
indent--;
if ( indent == 1 ) {
break;
}
} else if ( token == ";" && indent == 1 ) {
break;
}
}
varType = "";
isConst = false;
isStatic = false;
} else if ( token == "template" ) {
varType = "";
if ( src.CheckTokenString( "<" ) ) {
int indent = 1;
varType += "< ";
while( src.ReadToken( &token ) ) {
if ( token == "<" ) {
indent++;
} else if ( token == ">" ) {
indent--;
if ( indent == 0 ) {
break;
}
}
varType += token + " ";
}
varType += ">";
}
if ( src.CheckTokenString( "class" ) ) {
// parse template class
classInfo = ParseClassType( scope, varType, true, false, src );
if ( classInfo ) {
classes.Append( classInfo );
}
} else {
// skip template methods
while( src.ReadToken( &token ) ) {
if ( token == "{" ) {
indent++;
} else if ( token == "}" ) {
indent--;
if ( indent == 1 ) {
break;
}
} else if ( token == ";" && indent == 1 ) {
break;
}
}
}
varType = "";
isConst = false;
isStatic = false;
} else if ( token == "namespace" ) {
// parse namespace
classInfo = ParseClassType( scope, "", isTemplate, false, src );
delete classInfo;
} else if ( token == "class" ) {
// parse class
classInfo = ParseClassType( scope, "", isTemplate, false, src );
if ( classInfo ) {
classes.Append( classInfo );
}
} else if ( token == "struct" ) {
// parse struct
classInfo = ParseClassType( scope, "", isTemplate, false, src );
if ( classInfo ) {
classes.Append( classInfo );
varType = classInfo->scope + classInfo->typeName;
}
} else if ( token == "union" ) {
// parse union
classInfo = ParseClassType( scope, "", isTemplate, false, src );
if ( classInfo ) {
classes.Append( classInfo );
}
} else if ( token == "enum" ) {
// parse enum
enumInfo = ParseEnumType( scope, isTemplate, false, src );
if ( enumInfo ) {
enums.Append( enumInfo );
varType = enumInfo->scope + enumInfo->typeName;
}
} else if ( token == "typedef" ) {
if ( token == "class" ) {
// parse typedef class
classInfo = ParseClassType( scope, "", isTemplate, true, src );
if ( classInfo ) {
classes.Append( classInfo );
}
} else if ( src.CheckTokenString( "struct" ) ) {
// parse typedef struct
classInfo = ParseClassType( scope, "", isTemplate, true, src );
if ( classInfo ) {
classes.Append( classInfo );
}
} else if ( src.CheckTokenString( "union" ) ) {
// parse typedef union
classInfo = ParseClassType( scope, "", isTemplate, true, src );
if ( classInfo ) {
classes.Append( classInfo );
}
} else if ( src.CheckTokenString( "enum" ) ) {
// parse typedef enum
enumInfo = ParseEnumType( scope, isTemplate, true, src );
if ( enumInfo ) {
enums.Append( enumInfo );
}
} else {
// skip other typedefs
while( src.ReadToken( &token ) ) {
if ( token == "{" ) {
indent++;
} else if ( token == "}" ) {
indent--;
} else if ( token == ";" && indent == 1 ) {
break;
}
}
}
varType = "";
isConst = false;
isStatic = false;
} else if ( token == "const" ) {
varType += token + " ";
isConst = true;
} else if ( token == "static" ) {
varType += token + " ";
isStatic = true;
} else if ( token.type == TT_NAME ) {
assert( indent == 1 );
// if this is a class operator
if ( token == "operator" ) {
while( src.ReadToken( &token ) ) {
if ( token == "(" ) {
src.UnreadToken( &token );
break;
}
}
}
// if this is a class method
if ( src.CheckTokenString( "(" ) ) {
indent++;
while( indent > 1 && src.ReadToken( &token ) ) {
if ( token == "(" ) {
indent++;
} else if ( token == ")" ) {
indent--;
}
}
if ( src.CheckTokenString( "(" ) ) {
indent++;
while( indent > 1 && src.ReadToken( &token ) ) {
if ( token == "(" ) {
indent++;
} else if ( token == ")" ) {
indent--;
}
}
}
if ( src.CheckTokenString( "const" ) ) {
}
if ( src.CheckTokenString( "=" ) ) {
src.ExpectTokenString( "0" );
} else if ( src.CheckTokenString( "{" ) ) {
indent++;
while( indent > 1 && src.ReadToken( &token ) ) {
if ( token == "{" ) {
indent++;
} else if ( token == "}" ) {
indent--;
}
}
}
varType = "";
isConst = false;
isStatic = false;
} else if ( ( isStatic || isConst ) && src.CheckTokenString( "=" ) ) {
// constant
idConstantInfo *constantInfo = new idConstantInfo;
constantInfo->name = scope + token;
constantInfo->type = varType;
constantInfo->type.StripTrailing( ' ' );
ParseConstantValue( scope, src, constantInfo->value );
constants.Append( constantInfo );
} else if ( isStatic ) {
// static class variable
varType += token + " ";
} else {
// check for class variables
while( 1 ) {
int arraySize = ParseArraySize( scope, src );
if ( arraySize ) {
idClassVariableInfo var;
var.name = token;
var.type = varType;
var.type.StripTrailing( ' ' );
var.type += va( "[%d]", arraySize );
var.bits = 0;
typeInfo->variables.Append( var );
if ( !src.CheckTokenString( "," ) ) {
varType = "";
isConst = false;
isStatic = false;
break;
}
varType.StripTrailing( "* " );
} else {
int bits = 0;
if ( src.CheckTokenString( ":" ) ) {
idToken bitSize;
src.ExpectTokenType( TT_NUMBER, TT_INTEGER, &bitSize );
bits = bitSize.GetIntValue();
}
if ( src.CheckTokenString( "," ) ) {
idClassVariableInfo var;
var.name = token;
var.type = varType;
var.type.StripTrailing( ' ' );
var.bits = bits;
typeInfo->variables.Append( var );
varType.StripTrailing( "* " );
} else if ( src.CheckTokenString( ";" ) ) {
idClassVariableInfo var;
var.name = token;
var.type = varType;
var.type.StripTrailing( ' ' );
var.bits = bits;
typeInfo->variables.Append( var );
varType = "";
isConst = false;
isStatic = false;
break;
} else {
varType += token + " ";
break;
}
}
while( src.CheckTokenString( "*" ) ) {
varType += "* ";
}
if ( !src.ExpectTokenType( TT_NAME, 0, &token ) ) {
break;
}
}
}
} else {
varType += token + " ";
}
}
}
/*
================
idTypeInfoGen::AddDefine
================
*/
void idTypeInfoGen::AddDefine( const char *define ) {
defines.Append( define );
}
/*
================
idTypeInfoGen::CreateTypeInfo
================
*/
void idTypeInfoGen::CreateTypeInfo( const char *path ) {
int i, j, inheritance;
idStr fileName;
idFileList *files;
idParser src;
common->Printf( "Type Info Generator v"TYPE_INFO_GEN_VERSION" (c) 2004 id Software\n" );
common->Printf( "%s\n", path );
files = fileSystem->ListFilesTree( path, ".cpp" );
for ( i = 0; i < files->GetNumFiles(); i++ ) {
fileName = fileSystem->RelativePathToOSPath( files->GetFile( i ) );
common->Printf( "processing '%s' for type info...\n", fileName.c_str() );
if ( !src.LoadFile( fileName, true ) ) {
common->Warning( "couldn't load %s", fileName.c_str() );
continue;
}
src.SetFlags( LEXFL_NOBASEINCLUDES );
for ( j = 0; j < defines.Num(); j++ ) {
src.AddDefine( defines[j] );
}
idClassTypeInfo *typeInfo = new idClassTypeInfo;
ParseScope( "", false, src, typeInfo );
delete typeInfo;
src.FreeSource();
break;
}
fileSystem->FreeFileList( files );
numTemplates = 0;
for ( i = 0; i < classes.Num(); i++ ) {
if ( classes[i]->isTemplate ) {
numTemplates++;
}
}
maxInheritance = 0;
maxInheritanceClass = "";
for ( i = 0; i < classes.Num(); i++ ) {
inheritance = GetInheritance( classes[i]->typeName );
if ( inheritance > maxInheritance ) {
maxInheritance = inheritance;
maxInheritanceClass = classes[i]->typeName;
}
}
common->Printf( "%d constants\n", constants.Num() );
common->Printf( "%d enums\n", enums.Num() );
common->Printf( "%d classes/structs/unions\n", classes.Num() );
common->Printf( "%d templates\n", numTemplates );
common->Printf( "%d max inheritance level for '%s'\n", maxInheritance, maxInheritanceClass.c_str() );
}
/*
================
CleanName
================
*/
void CleanName( idStr &name ) {
name.Replace( "::", "_" );
name.Replace( " , ", "_" );
name.Replace( "< ", "_" );
name.Replace( " >", "_" );
name.Replace( " ", "_" );
}
/*
================
idTypeInfoGen::WriteTypeInfo
================
*/
void idTypeInfoGen::WriteTypeInfo( const char *fileName ) const {
int i, j;
idStr path, define;
idFile *file;
path = fileSystem->RelativePathToOSPath( fileName );
file = fileSystem->OpenExplicitFileWrite( path );
if ( !file ) {
common->Warning( "couldn't open %s", path.c_str() );
return;
}
common->Printf( "writing %s...\n", path.c_str() );
path.ExtractFileName( define );
define.Replace( ".", "_" );
define.ToUpper();
file->WriteFloatString(
"\n"
"#ifndef __%s__\n"
"#define __%s__\n"
"\n"
"/*\n"
"===================================================================================\n"
"\n"
"\tThis file has been generated with the Type Info Generator v"TYPE_INFO_GEN_VERSION" (c) 2004 id Software\n"
"\n"
"\t%d constants\n"
"\t%d enums\n"
"\t%d classes/structs/unions\n"
"\t%d templates\n"
"\t%d max inheritance level for '%s'\n"
"\n"
"===================================================================================\n"
"*/\n"
"\n", define.c_str(), define.c_str(), constants.Num(), enums.Num(), classes.Num(),
numTemplates, maxInheritance, maxInheritanceClass.c_str() );
file->WriteFloatString(
"typedef struct {\n"
"\t" "const char * name;\n"
"\t" "const char * type;\n"
"\t" "const char * value;\n"
"} constantInfo_t;\n"
"\n"
"typedef struct {\n"
"\t" "const char * name;\n"
"\t" "int value;\n"
"} enumValueInfo_t;\n"
"\n"
"typedef struct {\n"
"\t" "const char * typeName;\n"
"\t" "const enumValueInfo_t * values;\n"
"} enumTypeInfo_t;\n"
"\n"
"typedef struct {\n"
"\t" "const char * type;\n"
"\t" "const char * name;\n"
"\t" "int offset;\n"
"\t" "int size;\n"
"} classVariableInfo_t;\n"
"\n"
"typedef struct {\n"
"\t" "const char * typeName;\n"
"\t" "const char * superType;\n"
"\t" "int size;\n"
"\t" "const classVariableInfo_t * variables;\n"
"} classTypeInfo_t;\n"
"\n" );
// constants
file->WriteFloatString( "static constantInfo_t constantInfo[] = {\n" );
for ( i = 0; i < constants.Num(); i++ ) {
idConstantInfo *info = constants[i];
file->WriteFloatString( "\t{ \"%s\", \"%s\", \"%s\" },\n", info->type.c_str(), info->name.c_str(), info->value.c_str() );
}
file->WriteFloatString( "\t{ NULL, NULL, NULL }\n" );
file->WriteFloatString( "};\n\n" );
// enum values
for ( i = 0; i < enums.Num(); i++ ) {
idEnumTypeInfo *info = enums[i];
idStr typeInfoName = info->scope + info->typeName;
CleanName( typeInfoName );
file->WriteFloatString( "static enumValueInfo_t %s_typeInfo[] = {\n", typeInfoName.c_str() );
for ( j = 0; j < info->values.Num(); j++ ) {
if ( info->isTemplate ) {
file->WriteFloatString( "//" );
}
file->WriteFloatString( "\t{ \"%s\", %d },\n", info->values[j].name.c_str(), info->values[j].value );
}
file->WriteFloatString( "\t{ NULL, 0 }\n" );
file->WriteFloatString( "};\n\n" );
}
// enums
file->WriteFloatString( "static enumTypeInfo_t enumTypeInfo[] = {\n" );
for ( i = 0; i < enums.Num(); i++ ) {
idEnumTypeInfo *info = enums[i];
idStr typeName = info->scope + info->typeName;
idStr typeInfoName = typeName;
CleanName( typeInfoName );
if ( info->isTemplate ) {
file->WriteFloatString( "//" );
}
file->WriteFloatString( "\t{ \"%s\", %s_typeInfo },\n", typeName.c_str(), typeInfoName.c_str() );
}
file->WriteFloatString( "\t{ NULL, NULL }\n" );
file->WriteFloatString( "};\n\n" );
// class variables
for ( i = 0; i < classes.Num(); i++ ) {
idClassTypeInfo *info = classes[i];
idStr typeName = info->scope + info->typeName;
idStr typeInfoName = typeName;
CleanName( typeInfoName );
file->WriteFloatString( "static classVariableInfo_t %s_typeInfo[] = {\n", typeInfoName.c_str() );
for ( j = 0; j < info->variables.Num(); j++ ) {
const char *varName = info->variables[j].name.c_str();
const char *varType = info->variables[j].type.c_str();
if ( info->unnamed || info->isTemplate || info->variables[j].bits != 0 ) {
file->WriteFloatString( "//" );
}
file->WriteFloatString( "\t{ \"%s\", \"%s\", (int)(&((%s *)0)->%s), sizeof( ((%s *)0)->%s ) },\n",
varType, varName, typeName.c_str(), varName, typeName.c_str(), varName );
}
file->WriteFloatString( "\t{ NULL, 0 }\n" );
file->WriteFloatString( "};\n\n" );
}
// classes
file->WriteFloatString( "static classTypeInfo_t classTypeInfo[] = {\n" );
for ( i = 0; i < classes.Num(); i++ ) {
idClassTypeInfo *info = classes[i];
idStr typeName = info->scope + info->typeName;
idStr typeInfoName = typeName;
CleanName( typeInfoName );
if ( info->unnamed || info->isTemplate ) {
file->WriteFloatString( "//" );
}
file->WriteFloatString( "\t{ \"%s\", \"%s\", sizeof(%s), %s_typeInfo },\n",
typeName.c_str(), info->superType.c_str(), typeName.c_str(), typeInfoName.c_str() );
}
file->WriteFloatString( "\t{ NULL, NULL, 0, NULL }\n" );
file->WriteFloatString( "};\n\n" );
file->WriteFloatString( "#endif /* !__%s__ */\n", define.c_str() );
fileSystem->CloseFile( file );
}