/*
===========================================================================
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 .
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
/*
GUIs and script remain separately parsed
Following a parse, all referenced media (and other decls) will have been touched.
sinTable and cosTable are required for the rotate material keyword to function
A new FindType on a purged decl will cause it to be reloaded, but a stale pointer to a purged
decl will look like a defaulted decl.
Moving a decl from one file to another will not be handled correctly by a reload, the material
will be defaulted.
NULL or empty decl names will always return NULL
Should probably make a default decl for this
Decls are initially created without a textSource
A parse without textSource set should always just call MakeDefault()
A parse that has an error should internally call MakeDefault()
A purge does nothing to a defaulted decl
Should we have a "purged" media state separate from the "defaulted" media state?
reloading over a decl name that was defaulted
reloading over a decl name that was valid
missing reload over a previously explicit definition
*/
#define MANUALPAGES_TXT "manualpages.txt"
#define MANUALPAGES_SKIN "skins/manualpages.skin"
#define USE_COMPRESSED_DECLS
//#define GET_HUFFMAN_FREQUENCIES
class idDeclType {
public:
idStr typeName;
declType_t type;
idDecl * (*allocator)( void );
};
class idDeclFolder {
public:
idStr folder;
idStr extension;
declType_t defaultType;
};
class idDeclFile;
class idDeclLocal : public idDeclBase {
friend class idDeclFile;
friend class idDeclManagerLocal;
public:
idDeclLocal();
virtual ~idDeclLocal() {};
virtual const char * GetName( void ) const;
virtual declType_t GetType( void ) const;
virtual declState_t GetState( void ) const;
virtual bool IsImplicit( void ) const;
virtual bool IsValid( void ) const;
virtual void Invalidate( void );
virtual void Reload( void );
virtual void EnsureNotPurged( void );
virtual int Index( void ) const;
virtual int GetLineNum( void ) const;
virtual const char * GetFileName( void ) const;
virtual size_t Size( void ) const;
virtual void GetText( char *text ) const;
virtual int GetTextLength( void ) const;
virtual void SetText( const char *text );
virtual bool ReplaceSourceFileText( void );
virtual bool SourceFileChanged( void ) const;
virtual void MakeDefault( void );
virtual bool EverReferenced( void ) const;
protected:
virtual bool SetDefaultText( void );
virtual const char * DefaultDefinition( void ) const;
virtual bool Parse( const char *text, const int textLength );
virtual void FreeData( void );
virtual void List( void ) const;
virtual void Print( void ) const;
protected:
void AllocateSelf( void );
// Parses the decl definition.
// After calling parse, a decl will be guaranteed usable.
void ParseLocal( void );
// Does a MakeDefualt, but flags the decl so that it
// will Parse() the next time the decl is found.
void Purge( void );
// Set textSource possible with compression.
void SetTextLocal( const char *text, const int length );
private:
idDecl * self;
idStr name; // name of the decl
char * textSource; // decl text definition
int textLength; // length of textSource
int compressedLength; // compressed length
idDeclFile * sourceFile; // source file in which the decl was defined
int sourceTextOffset; // offset in source file to decl text
int sourceTextLength; // length of decl text in source file
int sourceLine; // this is where the actual declaration token starts
int checksum; // checksum of the decl text
declType_t type; // decl type
declState_t declState; // decl state
int index; // index in the per-type list
bool parsedOutsideLevelLoad; // these decls will never be purged
bool everReferenced; // set to true if the decl was ever used
bool referencedThisLevel; // set to true when the decl is used for the current level
bool redefinedInReload; // used during file reloading to make sure a decl that has
// its source removed will be defaulted
idDeclLocal * nextInFile; // next decl in the decl file
};
class idDeclFile {
public:
idDeclFile();
idDeclFile( const char *fileName, declType_t defaultType );
void Reload( bool force );
int LoadAndParse();
public:
idStr fileName;
declType_t defaultType;
ID_TIME_T timestamp;
int checksum;
int fileSize;
int numLines;
idDeclLocal * decls;
};
class idDeclManagerLocal : public idDeclManager {
friend class idDeclLocal;
public:
virtual void Init( void );
virtual void Shutdown( void );
virtual void Reload( bool force );
virtual void BeginLevelLoad();
virtual void EndLevelLoad();
virtual void RegisterDeclType( const char *typeName, declType_t type, idDecl *(*allocator)( void ) );
virtual void RegisterDeclFolder( const char *folder, const char *extension, declType_t defaultType );
virtual int GetChecksum( void ) const;
virtual int GetNumDeclTypes( void ) const;
virtual int GetNumDecls( declType_t type );
virtual const char * GetDeclNameFromType( declType_t type ) const;
virtual declType_t GetDeclTypeFromName( const char *typeName ) const;
virtual const idDecl * FindType( declType_t type, const char *name, bool makeDefault = true );
virtual const idDecl * DeclByIndex( declType_t type, int index, bool forceParse = true );
virtual const idDecl* FindDeclWithoutParsing( declType_t type, const char *name, bool makeDefault = true );
virtual void ReloadFile( const char* filename, bool force );
virtual void ListType( const idCmdArgs &args, declType_t type );
virtual void PrintType( const idCmdArgs &args, declType_t type );
virtual idDecl * CreateNewDecl( declType_t type, const char *name, const char *fileName );
//BC
virtual void LoadManual();
//BSM Added for the material editors rename capabilities
virtual bool RenameDecl( declType_t type, const char* oldName, const char* newName );
virtual void MediaPrint( const char *fmt, ... ) id_attribute((format(printf,2,3)));
virtual void WritePrecacheCommands( idFile *f );
virtual const idMaterial * FindMaterial( const char *name, bool makeDefault = true );
virtual const idDeclSkin * FindSkin( const char *name, bool makeDefault = true );
virtual const idSoundShader * FindSound( const char *name, bool makeDefault = true );
virtual const idMaterial * MaterialByIndex( int index, bool forceParse = true );
virtual const idDeclSkin * SkinByIndex( int index, bool forceParse = true );
virtual const idSoundShader * SoundByIndex( int index, bool forceParse = true );
public:
static void MakeNameCanonical( const char *name, char *result, int maxLength );
idDeclLocal * FindTypeWithoutParsing( declType_t type, const char *name, bool makeDefault = true );
idDeclType * GetDeclType( int type ) const { return declTypes[type]; }
const idDeclFile * GetImplicitDeclFile( void ) const { return &implicitDecls; }
private:
idList declTypes;
idList declFolders;
idList loadedFiles;
idHashIndex hashTables[DECL_MAX_TYPES];
idList linearLists[DECL_MAX_TYPES];
idDeclFile implicitDecls; // this holds all the decls that were created because explicit
// text definitions were not found. Decls that became default
// because of a parse error are not in this list.
int checksum; // checksum of all loaded decl text
int indent; // for MediaPrint
bool insideLevelLoad;
static idCVar decl_show;
static idCVar manualcount; //bc
private:
static void ListDecls_f( const idCmdArgs &args );
static void ReloadDecls_f( const idCmdArgs &args );
static void TouchDecl_f( const idCmdArgs &args );
};
idCVar idDeclManagerLocal::decl_show( "decl_show", "0", CVAR_SYSTEM, "set to 1 to print parses, 2 to also print references", 0, 2, idCmdSystem::ArgCompletion_Integer<0,2> );
idCVar idDeclManagerLocal::manualcount( "manualcount", "0", CVAR_INTEGER, "how many pages in manual" );
idDeclManagerLocal declManagerLocal;
idDeclManager * declManager = &declManagerLocal;
/*
====================================================================================
decl text huffman compression
====================================================================================
*/
const int MAX_HUFFMAN_SYMBOLS = 256;
typedef struct huffmanNode_s {
int symbol;
int frequency;
struct huffmanNode_s * next;
struct huffmanNode_s * children[2];
} huffmanNode_t;
typedef struct huffmanCode_s {
unsigned long bits[8];
int numBits;
} huffmanCode_t;
// compression ratio = 64%
static int huffmanFrequencies[] = {
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00078fb6, 0x000352a7, 0x00000002, 0x00000001, 0x0002795e, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00049600, 0x000000dd, 0x00018732, 0x0000005a, 0x00000007, 0x00000092, 0x0000000a, 0x00000919,
0x00002dcf, 0x00002dda, 0x00004dfc, 0x0000039a, 0x000058be, 0x00002d13, 0x00014d8c, 0x00023c60,
0x0002ddb0, 0x0000d1fc, 0x000078c4, 0x00003ec7, 0x00003113, 0x00006b59, 0x00002499, 0x0000184a,
0x0000250b, 0x00004e38, 0x000001ca, 0x00000011, 0x00000020, 0x000023da, 0x00000012, 0x00000091,
0x0000000b, 0x00000b14, 0x0000035d, 0x0000137e, 0x000020c9, 0x00000e11, 0x000004b4, 0x00000737,
0x000006b8, 0x00001110, 0x000006b3, 0x000000fe, 0x00000f02, 0x00000d73, 0x000005f6, 0x00000be4,
0x00000d86, 0x0000014d, 0x00000d89, 0x0000129b, 0x00000db3, 0x0000015a, 0x00000167, 0x00000375,
0x00000028, 0x00000112, 0x00000018, 0x00000678, 0x0000081a, 0x00000677, 0x00000003, 0x00018112,
0x00000001, 0x000441ee, 0x000124b0, 0x0001fa3f, 0x00026125, 0x0005a411, 0x0000e50f, 0x00011820,
0x00010f13, 0x0002e723, 0x00003518, 0x00005738, 0x0002cc26, 0x0002a9b7, 0x0002db81, 0x0003b5fa,
0x000185d2, 0x00001299, 0x00030773, 0x0003920d, 0x000411cd, 0x00018751, 0x00005fbd, 0x000099b0,
0x00009242, 0x00007cf2, 0x00002809, 0x00005a1d, 0x00000001, 0x00005a1d, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001, 0x00000001,
};
static huffmanCode_t huffmanCodes[MAX_HUFFMAN_SYMBOLS];
static huffmanNode_t *huffmanTree = NULL;
static int totalUncompressedLength = 0;
static int totalCompressedLength = 0;
static int maxHuffmanBits = 0;
/*
================
ClearHuffmanFrequencies
================
*/
void ClearHuffmanFrequencies( void ) {
int i;
for( i = 0; i < MAX_HUFFMAN_SYMBOLS; i++ ) {
huffmanFrequencies[i] = 1;
}
}
/*
================
InsertHuffmanNode
================
*/
huffmanNode_t *InsertHuffmanNode( huffmanNode_t *firstNode, huffmanNode_t *node ) {
huffmanNode_t *n, *lastNode;
lastNode = NULL;
for ( n = firstNode; n; n = n->next ) {
if ( node->frequency <= n->frequency ) {
break;
}
lastNode = n;
}
if ( lastNode ) {
node->next = lastNode->next;
lastNode->next = node;
} else {
node->next = firstNode;
firstNode = node;
}
return firstNode;
}
/*
================
BuildHuffmanCode_r
================
*/
void BuildHuffmanCode_r( huffmanNode_t *node, huffmanCode_t code, huffmanCode_t codes[MAX_HUFFMAN_SYMBOLS] ) {
if ( node->symbol == -1 ) {
huffmanCode_t newCode = code;
assert( code.numBits < sizeof( codes[0].bits ) * 8 );
newCode.numBits++;
if ( code.numBits > maxHuffmanBits ) {
maxHuffmanBits = newCode.numBits;
}
BuildHuffmanCode_r( node->children[0], newCode, codes );
newCode.bits[code.numBits >> 5] |= 1 << ( code.numBits & 31 );
BuildHuffmanCode_r( node->children[1], newCode, codes );
} else {
assert( code.numBits <= sizeof( codes[0].bits ) * 8 );
codes[node->symbol] = code;
}
}
/*
================
FreeHuffmanTree_r
================
*/
void FreeHuffmanTree_r( huffmanNode_t *node ) {
if ( node->symbol == -1 ) {
FreeHuffmanTree_r( node->children[0] );
FreeHuffmanTree_r( node->children[1] );
}
delete node;
}
/*
================
HuffmanHeight_r
================
*/
int HuffmanHeight_r( huffmanNode_t *node ) {
if ( node == NULL ) {
return -1;
}
int left = HuffmanHeight_r( node->children[0] );
int right = HuffmanHeight_r( node->children[1] );
if ( left > right ) {
return left + 1;
}
return right + 1;
}
/*
================
SetupHuffman
================
*/
void SetupHuffman( void ) {
int i, height;
huffmanNode_t *firstNode, *node;
huffmanCode_t code;
firstNode = NULL;
for( i = 0; i < MAX_HUFFMAN_SYMBOLS; i++ ) {
node = new huffmanNode_t;
node->symbol = i;
node->frequency = huffmanFrequencies[i];
node->next = NULL;
node->children[0] = NULL;
node->children[1] = NULL;
firstNode = InsertHuffmanNode( firstNode, node );
}
for( i = 1; i < MAX_HUFFMAN_SYMBOLS; i++ ) {
node = new huffmanNode_t;
node->symbol = -1;
node->frequency = firstNode->frequency + firstNode->next->frequency;
node->next = NULL;
node->children[0] = firstNode;
node->children[1] = firstNode->next;
firstNode = InsertHuffmanNode( firstNode->next->next, node );
}
maxHuffmanBits = 0;
memset( &code, 0, sizeof( code ) );
BuildHuffmanCode_r( firstNode, code, huffmanCodes );
huffmanTree = firstNode;
height = HuffmanHeight_r( firstNode );
assert( maxHuffmanBits == height );
}
/*
================
ShutdownHuffman
================
*/
void ShutdownHuffman( void ) {
if ( huffmanTree ) {
FreeHuffmanTree_r( huffmanTree );
}
}
/*
================
HuffmanCompressText
================
*/
int HuffmanCompressText( const char *text, int textLength, byte *compressed, int maxCompressedSize ) {
int i, j;
idBitMsg msg;
totalUncompressedLength += textLength;
msg.Init( compressed, maxCompressedSize );
msg.BeginWriting();
for ( i = 0; i < textLength; i++ ) {
const huffmanCode_t &code = huffmanCodes[(unsigned char)text[i]];
for ( j = 0; j < ( code.numBits >> 5 ); j++ ) {
msg.WriteBits( code.bits[j], 32 );
}
if ( code.numBits & 31 ) {
msg.WriteBits( code.bits[j], code.numBits & 31 );
}
}
totalCompressedLength += msg.GetSize();
return msg.GetSize();
}
/*
================
HuffmanDecompressText
================
*/
int HuffmanDecompressText( char *text, int textLength, const byte *compressed, int compressedSize ) {
int i, bit;
idBitMsg msg;
huffmanNode_t *node;
msg.Init( compressed, compressedSize );
msg.SetSize( compressedSize );
msg.BeginReading();
for ( i = 0; i < textLength; i++ ) {
node = huffmanTree;
do {
bit = msg.ReadBits( 1 );
node = node->children[bit];
} while( node->symbol == -1 );
text[i] = node->symbol;
}
text[i] = '\0';
return msg.GetReadCount();
}
/*
================
ListHuffmanFrequencies_f
================
*/
void ListHuffmanFrequencies_f( const idCmdArgs &args ) {
int i;
float compression;
compression = !totalUncompressedLength ? 100 : 100 * totalCompressedLength / totalUncompressedLength;
common->Printf( "// compression ratio = %d%%\n", (int)compression );
common->Printf( "static int huffmanFrequencies[] = {\n" );
for( i = 0; i < MAX_HUFFMAN_SYMBOLS; i += 8 ) {
common->Printf( "\t0x%08x, 0x%08x, 0x%08x, 0x%08x, 0x%08x, 0x%08x, 0x%08x, 0x%08x,\n",
huffmanFrequencies[i+0], huffmanFrequencies[i+1],
huffmanFrequencies[i+2], huffmanFrequencies[i+3],
huffmanFrequencies[i+4], huffmanFrequencies[i+5],
huffmanFrequencies[i+6], huffmanFrequencies[i+7]);
}
common->Printf( "}\n" );
}
/*
====================================================================================
idDeclFile
====================================================================================
*/
/*
================
idDeclFile::idDeclFile
================
*/
idDeclFile::idDeclFile( const char *fileName, declType_t defaultType ) {
this->fileName = fileName;
this->defaultType = defaultType;
this->timestamp = 0;
this->checksum = 0;
this->fileSize = 0;
this->numLines = 0;
this->decls = NULL;
}
/*
================
idDeclFile::idDeclFile
================
*/
idDeclFile::idDeclFile() {
this->fileName = "";
this->defaultType = DECL_MAX_TYPES;
this->timestamp = 0;
this->checksum = 0;
this->fileSize = 0;
this->numLines = 0;
this->decls = NULL;
}
/*
================
idDeclFile::Reload
ForceReload will cause it to reload even if the timestamp hasn't changed
================
*/
void idDeclFile::Reload( bool force ) {
// check for an unchanged timestamp
if ( !force && timestamp != 0 ) {
ID_TIME_T testTimeStamp;
fileSystem->ReadFile( fileName, NULL, &testTimeStamp );
if ( testTimeStamp == timestamp ) {
return;
}
}
// parse the text
LoadAndParse();
}
/*
================
idDeclFile::LoadAndParse
This is used during both the initial load, and any reloads
================
*/
int c_savedMemory = 0;
int idDeclFile::LoadAndParse() {
int i, numTypes;
idLexer src;
idToken token;
int startMarker;
char * buffer;
int length, size;
int sourceLine;
idStr name;
idDeclLocal *newDecl;
bool reparse;
// load the text
common->DPrintf( "...loading '%s'\n", fileName.c_str() );
length = fileSystem->ReadFile( fileName, (void **)&buffer, ×tamp );
if ( length == -1 ) {
common->FatalError( "couldn't load %s", fileName.c_str() );
return 0;
}
if ( !src.LoadMemory( buffer, length, fileName ) ) {
common->Error( "Couldn't parse %s", fileName.c_str() );
Mem_Free( buffer );
return 0;
}
// mark all the defs that were from the last reload of this file
for ( idDeclLocal *decl = decls; decl; decl = decl->nextInFile ) {
decl->redefinedInReload = false;
}
src.SetFlags( DECL_LEXER_FLAGS );
checksum = MD5_BlockChecksum( buffer, length );
fileSize = length;
// scan through, identifying each individual declaration
while( 1 ) {
startMarker = src.GetFileOffset();
sourceLine = src.GetLineNum();
// parse the decl type name
if ( !src.ReadToken( &token ) ) {
break;
}
declType_t identifiedType = DECL_MAX_TYPES;
// get the decl type from the type name
numTypes = declManagerLocal.GetNumDeclTypes();
for ( i = 0; i < numTypes; i++ ) {
idDeclType *typeInfo = declManagerLocal.GetDeclType( i );
if ( typeInfo && typeInfo->typeName.Icmp( token ) == 0 ) {
identifiedType = (declType_t) typeInfo->type;
break;
}
}
if ( i >= numTypes ) {
if ( token.Icmp( "{" ) == 0 ) {
// if we ever see an open brace, we somehow missed the [type] prefix
src.Warning( "Missing decl name" );
src.SkipBracedSection( false );
continue;
} else {
if ( defaultType == DECL_MAX_TYPES ) {
src.Warning( "No type" );
continue;
}
src.UnreadToken( &token );
// use the default type
identifiedType = defaultType;
}
}
// now parse the name
if ( !src.ReadToken( &token ) ) {
src.Warning( "Type without definition at end of file" );
break;
}
if ( !token.Icmp( "{" ) ) {
// if we ever see an open brace, we somehow missed the [type] prefix
src.Warning( "Missing decl name" );
src.SkipBracedSection( false );
continue;
}
// FIXME: export decls are only used by the model exporter, they are skipped here for now
if ( identifiedType == DECL_MODELEXPORT ) {
src.SkipBracedSection();
continue;
}
name = token;
// make sure there's a '{'
if ( !src.ReadToken( &token ) ) {
src.Warning( "Type without definition at end of file" );
break;
}
if ( token != "{" ) {
src.Warning( "Expecting '{' but found '%s'", token.c_str() );
continue;
}
src.UnreadToken( &token );
// now take everything until a matched closing brace
src.SkipBracedSection();
size = src.GetFileOffset() - startMarker;
// look it up, possibly getting a newly created default decl
reparse = false;
newDecl = declManagerLocal.FindTypeWithoutParsing( identifiedType, name, false );
if ( newDecl ) {
// update the existing copy
if ( newDecl->sourceFile != this || newDecl->redefinedInReload ) {
src.Warning( "%s '%s' previously defined at %s:%i", declManagerLocal.GetDeclNameFromType( identifiedType ),
name.c_str(), newDecl->sourceFile->fileName.c_str(), newDecl->sourceLine );
continue;
}
if ( newDecl->declState != DS_UNPARSED ) {
reparse = true;
}
} else {
// allow it to be created as a default, then add it to the per-file list
newDecl = declManagerLocal.FindTypeWithoutParsing( identifiedType, name, true );
newDecl->nextInFile = this->decls;
this->decls = newDecl;
}
newDecl->redefinedInReload = true;
if ( newDecl->textSource ) {
Mem_Free( newDecl->textSource );
newDecl->textSource = NULL;
}
newDecl->SetTextLocal( buffer + startMarker, size );
newDecl->sourceFile = this;
newDecl->sourceTextOffset = startMarker;
newDecl->sourceTextLength = size;
newDecl->sourceLine = sourceLine;
newDecl->declState = DS_UNPARSED;
// if it is currently in use, reparse it immedaitely
if ( reparse ) {
newDecl->ParseLocal();
}
}
numLines = src.GetLineNum();
Mem_Free( buffer );
// any defs that weren't redefinedInReload should now be defaulted
for ( idDeclLocal *decl = decls ; decl ; decl = decl->nextInFile ) {
if ( decl->redefinedInReload == false ) {
decl->MakeDefault();
decl->sourceTextOffset = decl->sourceFile->fileSize;
decl->sourceTextLength = 0;
decl->sourceLine = decl->sourceFile->numLines;
}
}
return checksum;
}
/*
====================================================================================
idDeclManagerLocal
====================================================================================
*/
const char *listDeclStrings[] = { "current", "all", "ever", NULL };
/*
===================
idDeclManagerLocal::Init
===================
*/
void idDeclManagerLocal::Init( void ) {
common->Printf( "----- Initializing Decls -----\n" );
//bc 3-8-2016 loadmanual for base game
idStr game = cvarSystem->GetCVarString( "fs_game" );
if (!game || game == "")
{
LoadManual();
}
checksum = 0;
#ifdef USE_COMPRESSED_DECLS
SetupHuffman();
#endif
#ifdef GET_HUFFMAN_FREQUENCIES
ClearHuffmanFrequencies();
#endif
// decls used throughout the engine
RegisterDeclType( "table", DECL_TABLE, idDeclAllocator );
RegisterDeclType( "material", DECL_MATERIAL, idDeclAllocator );
RegisterDeclType( "skin", DECL_SKIN, idDeclAllocator );
RegisterDeclType( "sound", DECL_SOUND, idDeclAllocator );
RegisterDeclType( "entityDef", DECL_ENTITYDEF, idDeclAllocator );
RegisterDeclType( "mapDef", DECL_MAPDEF, idDeclAllocator );
RegisterDeclType( "fx", DECL_FX, idDeclAllocator );
RegisterDeclType( "particle", DECL_PARTICLE, idDeclAllocator );
RegisterDeclType( "articulatedFigure", DECL_AF, idDeclAllocator );
RegisterDeclType( "pda", DECL_PDA, idDeclAllocator );
RegisterDeclType( "email", DECL_EMAIL, idDeclAllocator );
RegisterDeclType( "video", DECL_VIDEO, idDeclAllocator );
RegisterDeclType( "audio", DECL_AUDIO, idDeclAllocator );
RegisterDeclFolder( "materials", ".mtr", DECL_MATERIAL );
RegisterDeclFolder( "skins", ".skin", DECL_SKIN );
RegisterDeclFolder( "sound", ".sndshd", DECL_SOUND );
// add console commands
cmdSystem->AddCommand( "listDecls", ListDecls_f, CMD_FL_SYSTEM, "lists all decls" );
cmdSystem->AddCommand( "reloadDecls", ReloadDecls_f, CMD_FL_SYSTEM, "reloads decls" );
cmdSystem->AddCommand( "touch", TouchDecl_f, CMD_FL_SYSTEM, "touches a decl" );
cmdSystem->AddCommand( "listTables", idListDecls_f, CMD_FL_SYSTEM, "lists tables", idCmdSystem::ArgCompletion_String );
cmdSystem->AddCommand( "listMaterials", idListDecls_f, CMD_FL_SYSTEM, "lists materials", idCmdSystem::ArgCompletion_String );
cmdSystem->AddCommand( "listSkins", idListDecls_f, CMD_FL_SYSTEM, "lists skins", idCmdSystem::ArgCompletion_String );
cmdSystem->AddCommand( "listSoundShaders", idListDecls_f, CMD_FL_SYSTEM, "lists sound shaders", idCmdSystem::ArgCompletion_String );
cmdSystem->AddCommand( "listEntityDefs", idListDecls_f, CMD_FL_SYSTEM, "lists entity defs", idCmdSystem::ArgCompletion_String );
cmdSystem->AddCommand( "listFX", idListDecls_f, CMD_FL_SYSTEM, "lists FX systems", idCmdSystem::ArgCompletion_String );
cmdSystem->AddCommand( "listParticles", idListDecls_f, CMD_FL_SYSTEM, "lists particle systems", idCmdSystem::ArgCompletion_String );
cmdSystem->AddCommand( "listAF", idListDecls_f, CMD_FL_SYSTEM, "lists articulated figures", idCmdSystem::ArgCompletion_String);
cmdSystem->AddCommand( "listPDAs", idListDecls_f, CMD_FL_SYSTEM, "lists PDAs", idCmdSystem::ArgCompletion_String );
cmdSystem->AddCommand( "listEmails", idListDecls_f, CMD_FL_SYSTEM, "lists Emails", idCmdSystem::ArgCompletion_String );
cmdSystem->AddCommand( "listVideos", idListDecls_f, CMD_FL_SYSTEM, "lists Videos", idCmdSystem::ArgCompletion_String );
cmdSystem->AddCommand( "listAudios", idListDecls_f, CMD_FL_SYSTEM, "lists Audios", idCmdSystem::ArgCompletion_String );
cmdSystem->AddCommand( "printTable", idPrintDecls_f, CMD_FL_SYSTEM, "prints a table", idCmdSystem::ArgCompletion_Decl );
cmdSystem->AddCommand( "printMaterial", idPrintDecls_f, CMD_FL_SYSTEM, "prints a material", idCmdSystem::ArgCompletion_Decl );
cmdSystem->AddCommand( "printSkin", idPrintDecls_f, CMD_FL_SYSTEM, "prints a skin", idCmdSystem::ArgCompletion_Decl );
cmdSystem->AddCommand( "printSoundShader", idPrintDecls_f, CMD_FL_SYSTEM, "prints a sound shader", idCmdSystem::ArgCompletion_Decl );
cmdSystem->AddCommand( "printEntityDef", idPrintDecls_f, CMD_FL_SYSTEM, "prints an entity def", idCmdSystem::ArgCompletion_Decl );
cmdSystem->AddCommand( "printFX", idPrintDecls_f, CMD_FL_SYSTEM, "prints an FX system", idCmdSystem::ArgCompletion_Decl );
cmdSystem->AddCommand( "printParticle", idPrintDecls_f, CMD_FL_SYSTEM, "prints a particle system", idCmdSystem::ArgCompletion_Decl );
cmdSystem->AddCommand( "printAF", idPrintDecls_f, CMD_FL_SYSTEM, "prints an articulated figure", idCmdSystem::ArgCompletion_Decl );
cmdSystem->AddCommand( "printPDA", idPrintDecls_f, CMD_FL_SYSTEM, "prints an PDA", idCmdSystem::ArgCompletion_Decl );
cmdSystem->AddCommand( "printEmail", idPrintDecls_f, CMD_FL_SYSTEM, "prints an Email", idCmdSystem::ArgCompletion_Decl );
cmdSystem->AddCommand( "printVideo", idPrintDecls_f, CMD_FL_SYSTEM, "prints a Audio", idCmdSystem::ArgCompletion_Decl );
cmdSystem->AddCommand( "printAudio", idPrintDecls_f, CMD_FL_SYSTEM, "prints an Video", idCmdSystem::ArgCompletion_Decl );
cmdSystem->AddCommand( "listHuffmanFrequencies", ListHuffmanFrequencies_f, CMD_FL_SYSTEM, "lists decl text character frequencies" );
common->Printf( "------------------------------\n" );
}
/*
===================
idDeclManagerLocal::Shutdown
===================
*/
void idDeclManagerLocal::Shutdown( void ) {
int i, j;
idDeclLocal *decl;
// free decls
for ( i = 0; i < DECL_MAX_TYPES; i++ ) {
for ( j = 0; j < linearLists[i].Num(); j++ ) {
decl = linearLists[i][j];
if ( decl->self != NULL ) {
decl->self->FreeData();
delete decl->self;
}
if ( decl->textSource ) {
Mem_Free( decl->textSource );
decl->textSource = NULL;
}
delete decl;
}
linearLists[i].Clear();
hashTables[i].Free();
}
// free decl files
loadedFiles.DeleteContents( true );
// free the decl types and folders
declTypes.DeleteContents( true );
declFolders.DeleteContents( true );
#ifdef USE_COMPRESSED_DECLS
ShutdownHuffman();
#endif
}
/*
===================
idDeclManagerLocal::Reload
===================
*/
void idDeclManagerLocal::Reload( bool force ) {
for ( int i = 0; i < loadedFiles.Num(); i++ ) {
loadedFiles[i]->Reload( force );
}
}
/*
===================
idDeclManagerLocal::BeginLevelLoad
===================
*/
void idDeclManagerLocal::BeginLevelLoad() {
insideLevelLoad = true;
// clear all the referencedThisLevel flags and purge all the data
// so the next reference will cause a reparse
for ( int i = 0; i < DECL_MAX_TYPES; i++ ) {
int num = linearLists[i].Num();
for ( int j = 0 ; j < num ; j++ ) {
idDeclLocal *decl = linearLists[i][j];
decl->Purge();
}
}
}
/*
===================
idDeclManagerLocal::EndLevelLoad
===================
*/
void idDeclManagerLocal::EndLevelLoad() {
insideLevelLoad = false;
// we don't need to do anything here, but the image manager, model manager,
// and sound sample manager will need to free media that was not referenced
//BC
//fileSystem->RemoveFile(MANUALPAGES_SKIN);
}
void idDeclManagerLocal::LoadManual( )
{
void *buffer;
idStr rawManualpages;
if (fileSystem->ReadFile(MANUALPAGES_TXT, &buffer))
{
int i;
idList imageNames;
rawManualpages = (char *) buffer;
fileSystem->FreeFile( buffer );
rawManualpages.StripTrailingWhitespace(); //remove whitespace.
rawManualpages.StripLeading( ' ' ); //remove whitespace.
rawManualpages.ToLower(); //force lower case.
for (i = rawManualpages.Length(); i >= 0; i--)
{
if (rawManualpages[i] == '\n')
{
if (rawManualpages.Mid(i+1, rawManualpages.Length()).IsEmpty() || rawManualpages.Mid(i+1, rawManualpages.Length()).Length() <= 1)
{
rawManualpages = rawManualpages.Left(i);
continue;
}
imageNames.Insert(rawManualpages.Mid(i+1, rawManualpages.Length()), 0);
//imageNames.Append( rawManualpages.Mid(i+1, rawManualpages.Length()) );
//common->Printf("zzofds %d %d \"%s\"\n", i, rawManualpages.Mid(i+1, rawManualpages.Length()).Length(), rawManualpages.Mid(i+1, rawManualpages.Length()).c_str() );
rawManualpages = rawManualpages.Left(i); //strip.
continue;
}
if (i <= 0 && !rawManualpages.Mid(0, rawManualpages.Length()).IsEmpty() && rawManualpages.Mid(0, rawManualpages.Length()).Length() > 1)
{
//common->Printf("zzofdsFIRST %d %d \"%s\" \n", i, rawManualpages.Mid(0, rawManualpages.Length()).Length(), rawManualpages.Mid(0, rawManualpages.Length()).c_str() );
imageNames.Insert( rawManualpages.Mid(0, rawManualpages.Length()), 0);
//imageNames.Append( rawManualpages.Mid(0, rawManualpages.Length()) );
}
}
idFile *f;
f = fileSystem->OpenFileWrite( MANUALPAGES_SKIN );
for (i = 0; i < imageNames.Num() - 1; i++)
{
int pageA, pageB;
if (i % 2 == 0 || i <= 0)
{
pageA = 0;
pageB = 1;
}
else
{
pageA = 1;
pageB = 0;
}
f->Printf( va("skin manualpage_%d_%d\n{\nmodels/weapon_map/page_%d %s\nmodels/weapon_map/page_%d %s\n}\n\n",
i, i+1,
pageA, imageNames[i].c_str(),
pageB, imageNames[i+1].c_str() ));
}
fileSystem->CloseFile( f );
manualcount.SetInteger(imageNames.Num());
}
}
/*
===================
idDeclManagerLocal::RegisterDeclType
===================
*/
void idDeclManagerLocal::RegisterDeclType( const char *typeName, declType_t type, idDecl *(*allocator)( void ) ) {
idDeclType *declType;
if ( type < declTypes.Num() && declTypes[(int)type] ) {
common->Warning( "idDeclManager::RegisterDeclType: type '%s' already exists", typeName );
return;
}
declType = new idDeclType;
declType->typeName = typeName;
declType->type = type;
declType->allocator = allocator;
if ( (int)type + 1 > declTypes.Num() ) {
declTypes.AssureSize( (int)type + 1, NULL );
}
declTypes[type] = declType;
}
/*
===================
idDeclManagerLocal::RegisterDeclFolder
===================
*/
void idDeclManagerLocal::RegisterDeclFolder( const char *folder, const char *extension, declType_t defaultType ) {
int i, j;
idStr fileName;
idDeclFolder *declFolder;
idFileList *fileList;
idDeclFile *df;
// check whether this folder / extension combination already exists
for ( i = 0; i < declFolders.Num(); i++ ) {
if ( declFolders[i]->folder.Icmp( folder ) == 0 && declFolders[i]->extension.Icmp( extension ) == 0 ) {
break;
}
}
if ( i < declFolders.Num() ) {
declFolder = declFolders[i];
} else {
declFolder = new idDeclFolder;
declFolder->folder = folder;
declFolder->extension = extension;
declFolder->defaultType = defaultType;
declFolders.Append( declFolder );
}
// scan for decl files
fileList = fileSystem->ListFiles( declFolder->folder, declFolder->extension, true );
// load and parse decl files
for ( i = 0; i < fileList->GetNumFiles(); i++ ) {
fileName = declFolder->folder + "/" + fileList->GetFile( i );
// check whether this file has already been loaded
for ( j = 0; j < loadedFiles.Num(); j++ ) {
if ( fileName.Icmp( loadedFiles[j]->fileName ) == 0 ) {
break;
}
}
if ( j < loadedFiles.Num() ) {
df = loadedFiles[j];
} else {
df = new idDeclFile( fileName, defaultType );
loadedFiles.Append( df );
}
df->LoadAndParse();
}
fileSystem->FreeFileList( fileList );
}
/*
===================
idDeclManagerLocal::GetChecksum
===================
*/
int idDeclManagerLocal::GetChecksum( void ) const {
int i, j, total, num;
int *checksumData;
// get the total number of decls
total = 0;
for ( i = 0; i < DECL_MAX_TYPES; i++ ) {
total += linearLists[i].Num();
}
checksumData = (int *) _alloca16( total * 2 * sizeof( int ) );
total = 0;
for ( i = 0; i < DECL_MAX_TYPES; i++ ) {
declType_t type = (declType_t) i;
// FIXME: not particularly pretty but PDAs and associated decls are localized and should not be checksummed
if ( type == DECL_PDA || type == DECL_VIDEO || type == DECL_AUDIO || type == DECL_EMAIL ) {
continue;
}
num = linearLists[i].Num();
for ( j = 0; j < num; j++ ) {
idDeclLocal *decl = linearLists[i][j];
if ( decl->sourceFile == &implicitDecls ) {
continue;
}
checksumData[total*2+0] = total;
checksumData[total*2+1] = decl->checksum;
total++;
}
}
LittleRevBytes( checksumData, sizeof(int), total * 2 );
return MD5_BlockChecksum( checksumData, total * 2 * sizeof( int ) );
}
/*
===================
idDeclManagerLocal::GetNumDeclTypes
===================
*/
int idDeclManagerLocal::GetNumDeclTypes( void ) const {
return declTypes.Num();
}
/*
===================
idDeclManagerLocal::GetDeclNameFromType
===================
*/
const char * idDeclManagerLocal::GetDeclNameFromType( declType_t type ) const {
int typeIndex = (int)type;
if ( typeIndex < 0 || typeIndex >= declTypes.Num() || declTypes[typeIndex] == NULL ) {
common->FatalError( "idDeclManager::GetDeclNameFromType: bad type: %i", typeIndex );
}
return declTypes[typeIndex]->typeName;
}
/*
===================
idDeclManagerLocal::GetDeclTypeFromName
===================
*/
declType_t idDeclManagerLocal::GetDeclTypeFromName( const char *typeName ) const {
int i;
for ( i = 0; i < declTypes.Num(); i++ ) {
if ( declTypes[i] && declTypes[i]->typeName.Icmp( typeName ) == 0 ) {
return (declType_t)declTypes[i]->type;
}
}
return DECL_MAX_TYPES;
}
/*
=================
idDeclManagerLocal::FindType
External users will always cause the decl to be parsed before returning
=================
*/
const idDecl *idDeclManagerLocal::FindType( declType_t type, const char *name, bool makeDefault ) {
idDeclLocal *decl;
if ( !name || !name[0] ) {
name = "_emptyName";
//common->Warning( "idDeclManager::FindType: empty %s name", GetDeclType( (int)type )->typeName.c_str() );
}
decl = FindTypeWithoutParsing( type, name, makeDefault );
if ( !decl ) {
return NULL;
}
decl->AllocateSelf();
// if it hasn't been parsed yet, parse it now
if ( decl->declState == DS_UNPARSED ) {
decl->ParseLocal();
}
// mark it as referenced
decl->referencedThisLevel = true;
decl->everReferenced = true;
if ( insideLevelLoad ) {
decl->parsedOutsideLevelLoad = false;
}
return decl->self;
}
/*
===============
idDeclManagerLocal::FindDeclWithoutParsing
===============
*/
const idDecl* idDeclManagerLocal::FindDeclWithoutParsing( declType_t type, const char *name, bool makeDefault) {
idDeclLocal* decl;
decl = FindTypeWithoutParsing(type, name, makeDefault);
if(decl) {
return decl->self;
}
return NULL;
}
/*
===============
idDeclManagerLocal::ReloadFile
===============
*/
void idDeclManagerLocal::ReloadFile( const char* filename, bool force ) {
for ( int i = 0; i < loadedFiles.Num(); i++ ) {
if(!loadedFiles[i]->fileName.Icmp(filename)) {
checksum ^= loadedFiles[i]->checksum;
loadedFiles[i]->Reload( force );
checksum ^= loadedFiles[i]->checksum;
}
}
}
/*
===================
idDeclManagerLocal::GetNumDecls
===================
*/
int idDeclManagerLocal::GetNumDecls( declType_t type ) {
int typeIndex = (int)type;
if ( typeIndex < 0 || typeIndex >= declTypes.Num() || declTypes[typeIndex] == NULL ) {
common->FatalError( "idDeclManager::GetNumDecls: bad type: %i", typeIndex );
}
return linearLists[ typeIndex ].Num();
}
/*
===================
idDeclManagerLocal::DeclByIndex
===================
*/
const idDecl *idDeclManagerLocal::DeclByIndex( declType_t type, int index, bool forceParse ) {
int typeIndex = (int)type;
if ( typeIndex < 0 || typeIndex >= declTypes.Num() || declTypes[typeIndex] == NULL ) {
common->FatalError( "idDeclManager::DeclByIndex: bad type: %i", typeIndex );
}
if ( index < 0 || index >= linearLists[ typeIndex ].Num() ) {
common->Error( "idDeclManager::DeclByIndex: out of range" );
}
idDeclLocal *decl = linearLists[ typeIndex ][ index ];
decl->AllocateSelf();
if ( forceParse && decl->declState == DS_UNPARSED ) {
decl->ParseLocal();
}
return decl->self;
}
/*
===================
idDeclManagerLocal::ListType
list*
Lists decls currently referenced
list* ever
Lists decls that have been referenced at least once since app launched
list* all
Lists every decl declared, even if it hasn't been referenced or parsed
FIXME: alphabetized, wildcards?
===================
*/
void idDeclManagerLocal::ListType( const idCmdArgs &args, declType_t type ) {
bool all, ever;
if ( !idStr::Icmp( args.Argv( 1 ), "all" ) ) {
all = true;
} else {
all = false;
}
if ( !idStr::Icmp( args.Argv( 1 ), "ever" ) ) {
ever = true;
} else {
ever = false;
}
common->Printf( "--------------------\n" );
int printed = 0;
int count = linearLists[ (int)type ].Num();
for ( int i = 0 ; i < count ; i++ ) {
idDeclLocal *decl = linearLists[ (int)type ][ i ];
if ( !all && decl->declState == DS_UNPARSED ) {
continue;
}
if ( !all && !ever && !decl->referencedThisLevel ) {
continue;
}
if ( decl->referencedThisLevel ) {
common->Printf( "*" );
} else if ( decl->everReferenced ) {
common->Printf( "." );
} else {
common->Printf( " " );
}
if ( decl->declState == DS_DEFAULTED ) {
common->Printf( "D" );
} else {
common->Printf( " " );
}
common->Printf( "%4i: ", decl->index );
printed++;
if ( decl->declState == DS_UNPARSED ) {
// doesn't have any type specific data yet
common->Printf( "%s\n", decl->GetName() );
} else {
decl->self->List();
}
}
common->Printf( "--------------------\n" );
common->Printf( "%i of %i %s\n", printed, count, declTypes[type]->typeName.c_str() );
}
/*
===================
idDeclManagerLocal::PrintType
===================
*/
void idDeclManagerLocal::PrintType( const idCmdArgs &args, declType_t type ) {
// individual decl types may use additional command parameters
if ( args.Argc() < 2 ) {
common->Printf( "USAGE: Print [type specific parms]\n" );
return;
}
// look it up, skipping the public path so it won't parse or reference
idDeclLocal *decl = FindTypeWithoutParsing( type, args.Argv( 1 ), false );
if ( !decl ) {
common->Printf( "%s '%s' not found.\n", declTypes[ type ]->typeName.c_str(), args.Argv( 1 ) );
return;
}
// print information common to all decls
common->Printf( "%s %s:\n", declTypes[ type ]->typeName.c_str(), decl->name.c_str() );
common->Printf( "source: %s:%i\n", decl->sourceFile->fileName.c_str(), decl->sourceLine );
common->Printf( "----------\n" );
if ( decl->textSource != NULL ) {
char *declText = (char *)_alloca( decl->textLength + 1 );
decl->GetText( declText );
common->Printf( "%s\n", declText );
} else {
common->Printf( "NO SOURCE\n" );
}
common->Printf( "----------\n" );
switch( decl->declState ) {
case DS_UNPARSED:
common->Printf( "Unparsed.\n" );
break;
case DS_DEFAULTED:
common->Printf( "\n" );
break;
case DS_PARSED:
common->Printf( "Parsed.\n" );
break;
}
if ( decl->referencedThisLevel ) {
common->Printf( "Currently referenced this level.\n" );
} else if ( decl->everReferenced ) {
common->Printf( "Referenced in a previous level.\n" );
} else {
common->Printf( "Never referenced.\n" );
}
// allow type-specific data to be printed
if ( decl->self != NULL ) {
decl->self->Print();
}
}
/*
===================
idDeclManagerLocal::CreateNewDecl
===================
*/
idDecl *idDeclManagerLocal::CreateNewDecl( declType_t type, const char *name, const char *_fileName ) {
int typeIndex = (int)type;
int i, hash;
if ( typeIndex < 0 || typeIndex >= declTypes.Num() || declTypes[typeIndex] == NULL ) {
common->FatalError( "idDeclManager::CreateNewDecl: bad type: %i", typeIndex );
}
char canonicalName[MAX_STRING_CHARS];
MakeNameCanonical( name, canonicalName, sizeof( canonicalName ) );
idStr fileName = _fileName;
fileName.BackSlashesToSlashes();
// see if it already exists
hash = hashTables[typeIndex].GenerateKey( canonicalName, false );
for ( i = hashTables[typeIndex].First( hash ); i >= 0; i = hashTables[typeIndex].Next( i ) ) {
if ( linearLists[typeIndex][i]->name.Icmp( canonicalName ) == 0 ) {
linearLists[typeIndex][i]->AllocateSelf();
return linearLists[typeIndex][i]->self;
}
}
idDeclFile *sourceFile;
// find existing source file or create a new one
for ( i = 0; i < loadedFiles.Num(); i++ ) {
if ( loadedFiles[i]->fileName.Icmp( fileName ) == 0 ) {
break;
}
}
if ( i < loadedFiles.Num() ) {
sourceFile = loadedFiles[i];
} else {
sourceFile = new idDeclFile( fileName, type );
loadedFiles.Append( sourceFile );
}
idDeclLocal *decl = new idDeclLocal;
decl->name = canonicalName;
decl->type = type;
decl->declState = DS_UNPARSED;
decl->AllocateSelf();
idStr header = declTypes[typeIndex]->typeName;
idStr defaultText = decl->self->DefaultDefinition();
int size = header.Length() + 1 + idStr::Length( canonicalName ) + 1 + defaultText.Length();
char *declText = ( char * ) _alloca( size + 1 );
memcpy( declText, header, header.Length() );
declText[header.Length()] = ' ';
memcpy( declText + header.Length() + 1, canonicalName, idStr::Length( canonicalName ) );
declText[header.Length() + 1 + idStr::Length( canonicalName )] = ' ';
memcpy( declText + header.Length() + 1 + idStr::Length( canonicalName ) + 1, defaultText, defaultText.Length() + 1 );
decl->SetTextLocal( declText, size );
decl->sourceFile = sourceFile;
decl->sourceTextOffset = sourceFile->fileSize;
decl->sourceTextLength = 0;
decl->sourceLine = sourceFile->numLines;
decl->ParseLocal();
// add this decl to the source file list
decl->nextInFile = sourceFile->decls;
sourceFile->decls = decl;
// add it to the hash table and linear list
decl->index = linearLists[typeIndex].Num();
hashTables[typeIndex].Add( hash, linearLists[typeIndex].Append( decl ) );
return decl->self;
}
/*
===============
idDeclManagerLocal::RenameDecl
===============
*/
bool idDeclManagerLocal::RenameDecl( declType_t type, const char* oldName, const char* newName ) {
char canonicalOldName[MAX_STRING_CHARS];
MakeNameCanonical( oldName, canonicalOldName, sizeof( canonicalOldName ));
char canonicalNewName[MAX_STRING_CHARS];
MakeNameCanonical( newName, canonicalNewName, sizeof( canonicalNewName ) );
idDeclLocal *decl = NULL;
// make sure it already exists
int typeIndex = (int)type;
int i, hash;
hash = hashTables[typeIndex].GenerateKey( canonicalOldName, false );
for ( i = hashTables[typeIndex].First( hash ); i >= 0; i = hashTables[typeIndex].Next( i ) ) {
if ( linearLists[typeIndex][i]->name.Icmp( canonicalOldName ) == 0 ) {
decl = linearLists[typeIndex][i];
break;
}
}
if(!decl)
return false;
//if ( !hashTables[(int)type].Get( canonicalOldName, &declPtr ) )
// return false;
//decl = *declPtr;
//Change the name
decl->name = canonicalNewName;
// add it to the hash table
//hashTables[(int)decl->type].Set( decl->name, decl );
int newhash = hashTables[typeIndex].GenerateKey( canonicalNewName, false );
hashTables[typeIndex].Add( newhash, decl->index );
//Remove the old hash item
hashTables[typeIndex].Remove(hash, decl->index);
return true;
}
/*
===================
idDeclManagerLocal::MediaPrint
This is just used to nicely indent media caching prints
===================
*/
void idDeclManagerLocal::MediaPrint( const char *fmt, ... ) {
if ( !decl_show.GetInteger() ) {
return;
}
for ( int i = 0 ; i < indent ; i++ ) {
common->Printf( " " );
}
va_list argptr;
char buffer[1024];
va_start (argptr,fmt);
idStr::vsnPrintf( buffer, sizeof(buffer), fmt, argptr );
va_end (argptr);
buffer[sizeof(buffer)-1] = '\0';
common->Printf( "%s", buffer );
}
/*
===================
idDeclManagerLocal::WritePrecacheCommands
===================
*/
void idDeclManagerLocal::WritePrecacheCommands( idFile *f ) {
for ( int i = 0; i < declTypes.Num(); i++ ) {
int num;
if ( declTypes[i] == NULL ) {
continue;
}
num = linearLists[i].Num();
for ( int j = 0 ; j < num ; j++ ) {
idDeclLocal *decl = linearLists[i][j];
if ( !decl->referencedThisLevel ) {
continue;
}
char str[1024];
sprintf( str, "touch %s %s\n", declTypes[i]->typeName.c_str(), decl->GetName() );
common->Printf( "%s", str );
f->Printf( "%s", str );
}
}
}
/********************************************************************/
const idMaterial *idDeclManagerLocal::FindMaterial( const char *name, bool makeDefault ) {
return static_cast( FindType( DECL_MATERIAL, name, makeDefault ) );
}
const idMaterial *idDeclManagerLocal::MaterialByIndex( int index, bool forceParse ) {
return static_cast( DeclByIndex( DECL_MATERIAL, index, forceParse ) );
}
/********************************************************************/
const idDeclSkin *idDeclManagerLocal::FindSkin( const char *name, bool makeDefault ) {
return static_cast( FindType( DECL_SKIN, name, makeDefault ) );
}
const idDeclSkin *idDeclManagerLocal::SkinByIndex( int index, bool forceParse ) {
return static_cast( DeclByIndex( DECL_SKIN, index, forceParse ) );
}
/********************************************************************/
const idSoundShader *idDeclManagerLocal::FindSound( const char *name, bool makeDefault ) {
return static_cast( FindType( DECL_SOUND, name, makeDefault ) );
}
const idSoundShader *idDeclManagerLocal::SoundByIndex( int index, bool forceParse ) {
return static_cast( DeclByIndex( DECL_SOUND, index, forceParse ) );
}
/*
===================
idDeclManagerLocal::MakeNameCanonical
===================
*/
void idDeclManagerLocal::MakeNameCanonical( const char *name, char *result, int maxLength ) {
int i, lastDot;
lastDot = -1;
for ( i = 0; i < maxLength && name[i] != '\0'; i++ ) {
int c = name[i];
if ( c == '\\' ) {
result[i] = '/';
} else if ( c == '.' ) {
lastDot = i;
result[i] = c;
} else {
result[i] = idStr::ToLower( c );
}
}
if ( lastDot != -1 ) {
result[lastDot] = '\0';
} else {
result[i] = '\0';
}
}
/*
================
idDeclManagerLocal::ListDecls_f
================
*/
void idDeclManagerLocal::ListDecls_f( const idCmdArgs &args ) {
int i, j;
int totalDecls = 0;
int totalText = 0;
int totalStructs = 0;
for ( i = 0; i < declManagerLocal.declTypes.Num(); i++ ) {
int size, num;
if ( declManagerLocal.declTypes[i] == NULL ) {
continue;
}
num = declManagerLocal.linearLists[i].Num();
totalDecls += num;
size = 0;
for ( j = 0; j < num; j++ ) {
size += declManagerLocal.linearLists[i][j]->Size();
if ( declManagerLocal.linearLists[i][j]->self != NULL ) {
size += declManagerLocal.linearLists[i][j]->self->Size();
}
}
totalStructs += size;
common->Printf( "%4ik %4i %s\n", size >> 10, num, declManagerLocal.declTypes[i]->typeName.c_str() );
}
for ( i = 0 ; i < declManagerLocal.loadedFiles.Num() ; i++ ) {
idDeclFile *df = declManagerLocal.loadedFiles[i];
totalText += df->fileSize;
}
common->Printf( "%i total decls is %i decl files\n", totalDecls, declManagerLocal.loadedFiles.Num() );
common->Printf( "%iKB in text, %iKB in structures\n", totalText >> 10, totalStructs >> 10 );
}
/*
===================
idDeclManagerLocal::ReloadDecls_f
Reload will not find any new files created in the directories, it
will only reload existing files.
A reload will never cause anything to be purged.
===================
*/
void idDeclManagerLocal::ReloadDecls_f( const idCmdArgs &args ) {
bool force;
if ( !idStr::Icmp( args.Argv( 1 ), "all" ) ) {
force = true;
common->Printf( "reloading all decl files:\n" );
} else {
force = false;
common->Printf( "reloading changed decl files:\n" );
}
soundSystem->SetMute( true );
declManagerLocal.Reload( force );
soundSystem->SetMute( false );
}
/*
===================
idDeclManagerLocal::TouchDecl_f
===================
*/
void idDeclManagerLocal::TouchDecl_f( const idCmdArgs &args ) {
int i;
if ( args.Argc() != 3 ) {
common->Printf( "usage: touch \n" );
common->Printf( "valid types: " );
for ( int i = 0 ; i < declManagerLocal.declTypes.Num() ; i++ ) {
if ( declManagerLocal.declTypes[i] ) {
common->Printf( "%s ", declManagerLocal.declTypes[i]->typeName.c_str() );
}
}
common->Printf( "\n" );
return;
}
for ( i = 0; i < declManagerLocal.declTypes.Num(); i++ ) {
if ( declManagerLocal.declTypes[i] && declManagerLocal.declTypes[i]->typeName.Icmp( args.Argv( 1 ) ) == 0 ) {
break;
}
}
if ( i >= declManagerLocal.declTypes.Num() ) {
common->Printf( "unknown decl type '%s'\n", args.Argv( 1 ) );
return;
}
const idDecl *decl = declManagerLocal.FindType( (declType_t)i, args.Argv( 2 ), false );
if ( !decl ) {
common->Printf( "%s '%s' not found\n", declManagerLocal.declTypes[i]->typeName.c_str(), args.Argv( 2 ) );
}
}
/*
===================
idDeclManagerLocal::FindTypeWithoutParsing
This finds or creats the decl, but does not cause a parse. This is only used internally.
===================
*/
idDeclLocal *idDeclManagerLocal::FindTypeWithoutParsing( declType_t type, const char *name, bool makeDefault ) {
int typeIndex = (int)type;
int i, hash;
if ( typeIndex < 0 || typeIndex >= declTypes.Num() || declTypes[typeIndex] == NULL ) {
common->FatalError( "idDeclManager::FindTypeWithoutParsing: bad type: %i", typeIndex );
}
char canonicalName[MAX_STRING_CHARS];
MakeNameCanonical( name, canonicalName, sizeof( canonicalName ) );
// see if it already exists
hash = hashTables[typeIndex].GenerateKey( canonicalName, false );
for ( i = hashTables[typeIndex].First( hash ); i >= 0; i = hashTables[typeIndex].Next( i ) ) {
if ( linearLists[typeIndex][i]->name.Icmp( canonicalName ) == 0 ) {
// only print these when decl_show is set to 2, because it can be a lot of clutter
if ( decl_show.GetInteger() > 1 ) {
MediaPrint( "referencing %s %s\n", declTypes[ type ]->typeName.c_str(), name );
}
return linearLists[typeIndex][i];
}
}
if ( !makeDefault ) {
return NULL;
}
idDeclLocal *decl = new idDeclLocal;
decl->self = NULL;
decl->name = canonicalName;
decl->type = type;
decl->declState = DS_UNPARSED;
decl->textSource = NULL;
decl->textLength = 0;
decl->sourceFile = &implicitDecls;
decl->referencedThisLevel = false;
decl->everReferenced = false;
decl->parsedOutsideLevelLoad = !insideLevelLoad;
// add it to the linear list and hash table
decl->index = linearLists[typeIndex].Num();
hashTables[typeIndex].Add( hash, linearLists[typeIndex].Append( decl ) );
return decl;
}
/*
====================================================================================
idDeclLocal
====================================================================================
*/
/*
=================
idDeclLocal::idDeclLocal
=================
*/
idDeclLocal::idDeclLocal( void ) {
name = "unnamed";
textSource = NULL;
textLength = 0;
compressedLength = 0;
sourceFile = NULL;
sourceTextOffset = 0;
sourceTextLength = 0;
sourceLine = 0;
checksum = 0;
type = DECL_ENTITYDEF;
index = 0;
declState = DS_UNPARSED;
parsedOutsideLevelLoad = false;
referencedThisLevel = false;
everReferenced = false;
redefinedInReload = false;
nextInFile = NULL;
}
/*
=================
idDeclLocal::GetName
=================
*/
const char *idDeclLocal::GetName( void ) const {
return name.c_str();
}
/*
=================
idDeclLocal::GetType
=================
*/
declType_t idDeclLocal::GetType( void ) const {
return type;
}
/*
=================
idDeclLocal::GetState
=================
*/
declState_t idDeclLocal::GetState( void ) const {
return declState;
}
/*
=================
idDeclLocal::IsImplicit
=================
*/
bool idDeclLocal::IsImplicit( void ) const {
return ( sourceFile == declManagerLocal.GetImplicitDeclFile() );
}
/*
=================
idDeclLocal::IsValid
=================
*/
bool idDeclLocal::IsValid( void ) const {
return ( declState != DS_UNPARSED );
}
/*
=================
idDeclLocal::Invalidate
=================
*/
void idDeclLocal::Invalidate( void ) {
declState = DS_UNPARSED;
}
/*
=================
idDeclLocal::EnsureNotPurged
=================
*/
void idDeclLocal::EnsureNotPurged( void ) {
if ( declState == DS_UNPARSED ) {
ParseLocal();
}
}
/*
=================
idDeclLocal::Index
=================
*/
int idDeclLocal::Index( void ) const {
return index;
}
/*
=================
idDeclLocal::GetLineNum
=================
*/
int idDeclLocal::GetLineNum( void ) const {
return sourceLine;
}
/*
=================
idDeclLocal::GetFileName
=================
*/
const char *idDeclLocal::GetFileName( void ) const {
return ( sourceFile ) ? sourceFile->fileName.c_str() : "*invalid*";
}
/*
=================
idDeclLocal::Size
=================
*/
size_t idDeclLocal::Size( void ) const {
return sizeof( idDecl ) + name.Allocated();
}
/*
=================
idDeclLocal::GetText
=================
*/
void idDeclLocal::GetText( char *text ) const {
#ifdef USE_COMPRESSED_DECLS
HuffmanDecompressText( text, textLength, (byte *)textSource, compressedLength );
#else
memcpy( text, textSource, textLength+1 );
#endif
}
/*
=================
idDeclLocal::GetTextLength
=================
*/
int idDeclLocal::GetTextLength( void ) const {
return textLength;
}
/*
=================
idDeclLocal::SetText
=================
*/
void idDeclLocal::SetText( const char *text ) {
SetTextLocal( text, idStr::Length( text ) );
}
/*
=================
idDeclLocal::SetTextLocal
=================
*/
void idDeclLocal::SetTextLocal( const char *text, const int length ) {
Mem_Free( textSource );
checksum = MD5_BlockChecksum( text, length );
#ifdef GET_HUFFMAN_FREQUENCIES
for( int i = 0; i < length; i++ ) {
huffmanFrequencies[((const unsigned char *)text)[i]]++;
}
#endif
#ifdef USE_COMPRESSED_DECLS
int maxBytesPerCode = ( maxHuffmanBits + 7 ) >> 3;
byte *compressed = (byte *)_alloca( length * maxBytesPerCode );
compressedLength = HuffmanCompressText( text, length, compressed, length * maxBytesPerCode );
textSource = (char *)Mem_Alloc( compressedLength );
memcpy( textSource, compressed, compressedLength );
#else
compressedLength = length;
textSource = (char *) Mem_Alloc( length + 1 );
memcpy( textSource, text, length );
textSource[length] = '\0';
#endif
textLength = length;
}
/*
=================
idDeclLocal::ReplaceSourceFileText
=================
*/
bool idDeclLocal::ReplaceSourceFileText( void ) {
int oldFileLength, newFileLength;
char *buffer;
idFile *file;
common->Printf( "Writing \'%s\' to \'%s\'...\n", GetName(), GetFileName() );
if ( sourceFile == &declManagerLocal.implicitDecls ) {
common->Warning( "Can't save implicit declaration %s.", GetName() );
return false;
}
// get length and allocate buffer to hold the file
oldFileLength = sourceFile->fileSize;
newFileLength = oldFileLength - sourceTextLength + textLength;
buffer = (char *) Mem_Alloc( Max( newFileLength, oldFileLength ) );
// read original file
if ( sourceFile->fileSize ) {
file = fileSystem->OpenFileRead( GetFileName() );
if ( !file ) {
Mem_Free( buffer );
common->Warning( "Couldn't open %s for reading.", GetFileName() );
return false;
}
if ( file->Length() != sourceFile->fileSize || file->Timestamp() != sourceFile->timestamp ) {
Mem_Free( buffer );
common->Warning( "The file %s has been modified outside of the engine.", GetFileName() );
return false;
}
file->Read( buffer, oldFileLength );
fileSystem->CloseFile( file );
if ( MD5_BlockChecksum( buffer, oldFileLength ) != sourceFile->checksum ) {
Mem_Free( buffer );
common->Warning( "The file %s has been modified outside of the engine.", GetFileName() );
return false;
}
}
// insert new text
char *declText = (char *) _alloca( textLength + 1 );
GetText( declText );
memmove( buffer + sourceTextOffset + textLength, buffer + sourceTextOffset + sourceTextLength, oldFileLength - sourceTextOffset - sourceTextLength );
memcpy( buffer + sourceTextOffset, declText, textLength );
// write out new file
file = fileSystem->OpenFileWrite( GetFileName(), "fs_devpath" );
if ( !file ) {
Mem_Free( buffer );
common->Warning( "Couldn't open %s for writing.", GetFileName() );
return false;
}
file->Write( buffer, newFileLength );
fileSystem->CloseFile( file );
// set new file size, checksum and timestamp
sourceFile->fileSize = newFileLength;
sourceFile->checksum = MD5_BlockChecksum( buffer, newFileLength );
fileSystem->ReadFile( GetFileName(), NULL, &sourceFile->timestamp );
// free buffer
Mem_Free( buffer );
// move all decls in the same file
for ( idDeclLocal *decl = sourceFile->decls; decl; decl = decl->nextInFile ) {
if (decl->sourceTextOffset > sourceTextOffset) {
decl->sourceTextOffset += textLength - sourceTextLength;
}
}
// set new size of text in source file
sourceTextLength = textLength;
return true;
}
/*
=================
idDeclLocal::SourceFileChanged
=================
*/
bool idDeclLocal::SourceFileChanged( void ) const {
int newLength;
ID_TIME_T newTimestamp;
if ( sourceFile->fileSize <= 0 ) {
return false;
}
newLength = fileSystem->ReadFile( GetFileName(), NULL, &newTimestamp );
if ( newLength != sourceFile->fileSize || newTimestamp != sourceFile->timestamp ) {
return true;
}
return false;
}
/*
=================
idDeclLocal::MakeDefault
=================
*/
void idDeclLocal::MakeDefault() {
static int recursionLevel;
const char *defaultText;
declManagerLocal.MediaPrint( "DEFAULTED\n" );
declState = DS_DEFAULTED;
AllocateSelf();
defaultText = self->DefaultDefinition();
// a parse error inside a DefaultDefinition() string could
// cause an infinite loop, but normal default definitions could
// still reference other default definitions, so we can't
// just dump out on the first recursion
if ( ++recursionLevel > 100 ) {
common->FatalError( "idDecl::MakeDefault: bad DefaultDefinition(): %s", defaultText );
}
// always free data before parsing
self->FreeData();
// parse
self->Parse( defaultText, strlen( defaultText ) );
// we could still eventually hit the recursion if we have enough Error() calls inside Parse...
--recursionLevel;
}
/*
=================
idDeclLocal::SetDefaultText
=================
*/
bool idDeclLocal::SetDefaultText( void ) {
return false;
}
/*
=================
idDeclLocal::DefaultDefinition
=================
*/
const char *idDeclLocal::DefaultDefinition() const {
return "{ }";
}
/*
=================
idDeclLocal::Parse
=================
*/
bool idDeclLocal::Parse( const char *text, const int textLength ) {
idLexer src;
src.LoadMemory( text, textLength, GetFileName(), GetLineNum() );
src.SetFlags( DECL_LEXER_FLAGS );
src.SkipUntilString( "{" );
src.SkipBracedSection( false );
return true;
}
/*
=================
idDeclLocal::FreeData
=================
*/
void idDeclLocal::FreeData() {
}
/*
=================
idDeclLocal::List
=================
*/
void idDeclLocal::List() const {
common->Printf( "%s\n", GetName() );
}
/*
=================
idDeclLocal::Print
=================
*/
void idDeclLocal::Print() const {
}
/*
=================
idDeclLocal::Reload
=================
*/
void idDeclLocal::Reload( void ) {
this->sourceFile->Reload( false );
}
/*
=================
idDeclLocal::AllocateSelf
=================
*/
void idDeclLocal::AllocateSelf( void ) {
if ( self == NULL ) {
self = declManagerLocal.GetDeclType( (int)type )->allocator();
self->base = this;
}
}
/*
=================
idDeclLocal::ParseLocal
=================
*/
void idDeclLocal::ParseLocal( void ) {
bool generatedDefaultText = false;
AllocateSelf();
// always free data before parsing
self->FreeData();
declManagerLocal.MediaPrint( "parsing %s %s\n", declManagerLocal.declTypes[type]->typeName.c_str(), name.c_str() );
// if no text source try to generate default text
if ( textSource == NULL ) {
generatedDefaultText = self->SetDefaultText();
}
// indent for DEFAULTED or media file references
declManagerLocal.indent++;
// no text immediately causes a MakeDefault()
if ( textSource == NULL ) {
MakeDefault();
declManagerLocal.indent--;
return;
}
declState = DS_PARSED;
// parse
char *declText = (char *) _alloca( ( GetTextLength() + 1 ) * sizeof( char ) );
GetText( declText );
self->Parse( declText, GetTextLength() );
// free generated text
if ( generatedDefaultText ) {
Mem_Free( textSource );
textSource = 0;
textLength = 0;
}
declManagerLocal.indent--;
}
/*
=================
idDeclLocal::Purge
=================
*/
void idDeclLocal::Purge( void ) {
// never purge things that were referenced outside level load,
// like the console and menu graphics
if ( parsedOutsideLevelLoad ) {
return;
}
referencedThisLevel = false;
MakeDefault();
// the next Find() for this will re-parse the real data
declState = DS_UNPARSED;
}
/*
=================
idDeclLocal::EverReferenced
=================
*/
bool idDeclLocal::EverReferenced( void ) const {
return everReferenced;
}