// Token Interpreter // // -- jweier #include //For getcwd() #include //For getch() #include #include "Tokenizer.h" #include "BlockStream.h" #include "Interpreter.h" /* =================================================================================================== Table Definitions =================================================================================================== */ //FIXME: The following tables should be passed in to the interpreter for flexibility //Symbol Table keywordArray_t CInterpreter::m_symbolKeywords[] = { //Blocks "{", TK_BLOCK_START, "}", TK_BLOCK_END, //Vectors "<", TK_VECTOR_START, ">", TK_VECTOR_END, //Groups "(", TK_OPEN_PARENTHESIS, ")", TK_CLOSED_PARENTHESIS, "=", TK_EQUALS, "!", TK_NOT, //End "", TK_EOF, }; keywordArray_t CInterpreter::m_conditionalKeywords[] = { "", TK_EOF, }; //ID Table keywordArray_t CInterpreter::m_IDKeywords[] = { "AFFECT", ID_AFFECT, "SOUND", ID_SOUND, "MOVE", ID_MOVE, "ROTATE", ID_ROTATE, "WAIT", ID_WAIT, "SET", ID_SET, "LOOP", ID_LOOP, "PRINT", ID_PRINT, "TAG", ID_TAG, "USE", ID_USE, "FLUSH", ID_FLUSH, "RUN", ID_RUN, "KILL", ID_KILL, "REMOVE", ID_REMOVE, "CAMERA", ID_CAMERA, "GET", ID_GET, "RANDOM", ID_RANDOM, "IF", ID_IF, "ELSE", ID_ELSE, "REM", ID_REM, "FLOAT", TK_FLOAT, "VECTOR", TK_VECTOR, "STRING", TK_STRING, "TASK", ID_TASK, "DO", ID_DO, "DECLARE", ID_DECLARE, "FREE", ID_FREE, "DOWAIT", ID_DOWAIT, "SIGNAL", ID_SIGNAL, "WAITSIGNAL", ID_WAITSIGNAL, "PLAY", ID_PLAY, "", ID_EOF, }; //Type Table keywordArray_t CInterpreter::m_typeKeywords[] = { //Set types "ANGLES", TYPE_ANGLES, "ORIGIN", TYPE_ORIGIN, //Affect types "INSERT", TYPE_INSERT, "FLUSH", TYPE_FLUSH, //Get types "FLOAT", TK_FLOAT, "INT", TK_INT, "VECTOR", TK_VECTOR, "STRING", TK_STRING, "PAN", TYPE_PAN, "ZOOM", TYPE_ZOOM, "MOVE", TYPE_MOVE, "FADE", TYPE_FADE, "PATH", TYPE_PATH, "ENABLE", TYPE_ENABLE, "DISABLE", TYPE_DISABLE, "SHAKE", TYPE_SHAKE, "ROLL", TYPE_ROLL, "TRACK", TYPE_TRACK, "FOLLOW", TYPE_FOLLOW, "DISTANCE", TYPE_DISTANCE, //End "", TYPE_EOF, }; /* =================================================================================================== Constructor / Destructor =================================================================================================== */ CInterpreter::CInterpreter() { } CInterpreter::~CInterpreter() { } /* =================================================================================================== Error Handling =================================================================================================== */ int CInterpreter::Error( char *format, ... ) { va_list argptr; char *error_file, error_msg[1024]="", work_dir[1024]="", out_msg[1024]=""; int error_line = m_iCurrentLine; // m_tokenizer->GetCurLine(); m_tokenizer->GetCurFilename( &error_file ); if (!error_file) { // 99% of the time we'll get here now, because of pushed parse streams // error_file = (char *)m_sCurrentFile.c_str(); } va_start (argptr, format); vsprintf (error_msg, format, argptr); va_end (argptr); strcpy((char *) work_dir, getcwd( (char *) &work_dir, 1024 ) ); if (error_file[1] == ':') { sprintf((char *) out_msg, "%s (%d) : error: %s\n", error_file, error_line, error_msg); } else { sprintf((char *) out_msg, "%s\\%s (%d) : error: %s\n", work_dir, error_file, error_line, error_msg); } if (m_sCurrentLine.length()) { strcat(out_msg, "\nLine:\n\n"); strcat(out_msg, m_sCurrentLine.c_str()); strcat(out_msg, "\n"); } #ifdef __POP_UPS__ MessageBox( NULL, out_msg, "Error", MB_OK ); #else printf(out_msg); #endif // A bit of kludge code that takes care of the case where there's some garbage at the beginning of the file // before any blocks are read as valid. This is needed because ints are incapable of containing 0 // // This'll mean that technically it's saying block 1 is wrong, rather than the one in between them, but I can // live with that. // if (m_iBadCBlockNumber == 0) { m_iBadCBlockNumber = 1; } return false; } /* =================================================================================================== Local Variable Functions =================================================================================================== */ /* ------------------------- InitVars ------------------------- */ void CInterpreter::InitVars( void ) { m_vars.clear(); m_varMap.clear(); } /* ------------------------- FreeVars ------------------------- */ void CInterpreter::FreeVars( void ) { variable_v::iterator vi; for ( vi = m_vars.begin(); vi != m_vars.end(); vi++ ) { delete (*vi); } InitVars(); } /* ------------------------- AddVar ------------------------- */ variable_t *CInterpreter::AddVar( const char *name, int type ) { variable_t *var; var = new variable_t; if ( var == NULL ) return NULL; //Specify the type var->type = type; //Retain the name internally strncpy( (char *) var->name, name, MAX_VAR_NAME ); //Associate it m_varMap[ name ] = var; return var; } /* ------------------------- FindVar ------------------------- */ variable_t *CInterpreter::FindVar( const char *name ) { variable_m::iterator vmi; vmi = m_varMap.find( name ); if ( vmi == m_varMap.end() ) return NULL; return (*vmi).second; } /* ------------------------- GetVariable ------------------------- */ int CInterpreter::GetVariable( int type ) { const char *varName; variable_t *var; CToken *token; //Get the variable's name token = m_tokenizer->GetToken( 0, 0 ); varName = token->GetStringValue(); //See if we already have a variable by this name var = FindVar( varName ); //Variable names must be unique on creation if ( var ) return Error( "\"%s\" : already exists\n", varName ); //Add the variable AddVar( varName, type ); //Insert the variable into the stream CBlock block; block.Create( TYPE_VARIABLE ); block.Write( TK_FLOAT, (float) type ); block.Write( TK_STRING, varName ); m_blockStream->WriteBlock( &block ); token->Delete(); return true; } /* =================================================================================================== ID Table Functions =================================================================================================== */ int CInterpreter::GetVector( CBlock *block ) { //Look for a tag if ( MatchTag() ) { return GetTag( block ); } //Look for a get if ( MatchGet() ) { return GetGet( block ); } if ( Match( TK_VECTOR_START ) ) { //Get the vector block->Write( TK_VECTOR, (float) TK_VECTOR ); for (int i=0; i<3; i++) GetFloat( block ); if (!Match( TK_VECTOR_END )) { return Error("syntax error : expected end of vector"); } return true; } return false; } /* =================================================================================================== MatchTag() Attempts to match to a tag identifier. =================================================================================================== */ int CInterpreter::MatchTag( void ) { CToken *token; const char *idName; int id; token = m_tokenizer->GetToken( 0, 0 ); idName = token->GetStringValue(); id = FindSymbol( idName, m_IDKeywords ); if ( id != ID_TAG ) { //Return the token m_tokenizer->PutBackToken( token ); return false; } token->Delete(); return true; } /* =================================================================================================== MatchGet() Attempts to match to a get identifier. =================================================================================================== */ int CInterpreter::MatchGet( void ) { CToken *token; const char *idName; int id; token = m_tokenizer->GetToken( 0, 0 ); idName = token->GetStringValue(); id = FindSymbol( idName, m_IDKeywords ); if ( id != ID_GET ) { //Return the token m_tokenizer->PutBackToken( token ); return false; } token->Delete(); return true; } /* =================================================================================================== MatchRandom() Attempts to match to a random identifier. =================================================================================================== */ int CInterpreter::MatchRandom( void ) { CToken *token; const char *idName; int id; token = m_tokenizer->GetToken( 0, 0 ); idName = token->GetStringValue(); id = FindSymbol( idName, m_IDKeywords ); if ( id != ID_RANDOM ) { //Return the token m_tokenizer->PutBackToken( token ); return false; } token->Delete(); return true; } /* =================================================================================================== FindSymbol() Searches the symbol table for the given name. Returns the ID if found. =================================================================================================== */ int CInterpreter::FindSymbol( const char *name, keywordArray_t *table) { keywordArray_t *ids; for (ids = table; (strcmp(ids->m_keyword, "")); ids++) { if (!stricmp(name, ids->m_keyword)) return ids->m_tokenvalue; } return -1; } /* =================================================================================================== Match() Looks ahead to the next token to try and match it to the passed token, consumes token on success. =================================================================================================== */ //NOTENOTE: LookAhead() was separated from Match() for clarity int CInterpreter::Match( int token_id ) { CToken *token; token = m_tokenizer->GetToken( 0, 0 ); if ( token->GetType() != token_id ) { //This may have been a check, so don't loose the token m_tokenizer->PutBackToken( token ); return false; } return true; } /* ------------------------- GetNextType ------------------------- */ int CInterpreter::GetNextType( void ) { CToken *token = m_tokenizer->GetToken( 0, 0 ); int id = token->GetType(); m_tokenizer->PutBackToken( token ); return id; } /* =================================================================================================== LookAhead() Looks ahead without consuming on success. =================================================================================================== */ int CInterpreter::LookAhead( int token_id ) { CToken *token; token = m_tokenizer->GetToken( 0, 0 ); if ( token->GetType() != token_id ) { m_tokenizer->PutBackToken( token ); return false; } m_tokenizer->PutBackToken( token ); return true; } /* =================================================================================================== GetTokenName() Returns the name of a token. =================================================================================================== */ const char *CInterpreter::GetTokenName( int token_id ) { switch ( token_id ) { case TK_STRING: return "STRING"; break; case TK_CHAR: return "CHARACTER"; break; case TK_IDENTIFIER: return "IDENTIFIER"; break; case TK_FLOAT: return "FLOAT"; break; case TK_INTEGER: return "INTEGER"; break; default: return "UNKNOWN"; break; } } /* =================================================================================================== Token Value Functions =================================================================================================== */ /* =================================================================================================== GetFloat() Attempts to match and retrieve the value of a float token. =================================================================================================== */ int CInterpreter::GetFloat( CBlock *block ) { CToken *token; int type; //Look for a get if ( MatchGet() ) { return GetGet( block ); } //Look for a random if ( MatchRandom() ) { return GetRandom( block ); } token = m_tokenizer->GetToken(0,0); type = token->GetType(); //Floats can accept either int or float values if ( ( type != TK_FLOAT ) && ( type != TK_INT ) ) { return Error("syntax error : expected float; found %s", GetTokenName(type) ); } if (type == TK_FLOAT) { block->Write( TK_FLOAT, (float) token->GetFloatValue() ); } else { block->Write( TK_FLOAT, (float) token->GetIntValue() ); } token->Delete(); return true; } /* =================================================================================================== GetInteger() Attempts to match and retrieve the value of an integer token. =================================================================================================== */ int CInterpreter::GetInteger( CBlock *block ) { return GetFloat( block ); } /* =================================================================================================== GetString() Attempts to match and retrieve the value of a string token. =================================================================================================== */ int CInterpreter::GetString( CBlock *block ) { CToken *token; int type; //Look for a get if ( MatchGet() ) { return GetGet( block ); } //Look for a random if ( MatchRandom() ) { return GetRandom( block ); } token = m_tokenizer->GetToken(0, 0); type = token->GetType(); if ( (type != TK_STRING) && (type != TK_CHAR) ) { return Error("syntax error : expected string; found %s", GetTokenName(type)); } //UGLY HACK!!! const char *temptr; char temp[1024]; temptr = token->GetStringValue(); if ( strlen(temptr)+1 > sizeof( temp ) ) { return false; } for ( int i = 0; i < strlen( temptr ); i++ ) { if ( temptr[i] == '#' ) temp[i] = '\n'; else temp[i] = temptr[i]; } temp[ strlen( temptr ) ] = 0; //UGLY HACK END!!! block->Write( TK_STRING, (const char *) &temp ); token->Delete(); return true; } /* =================================================================================================== GetIdentifier() Attempts to match and retrieve the value of an indentifier token. =================================================================================================== */ int CInterpreter::GetIdentifier( CBlock *block ) { CToken *token; int type; //FIXME: Should identifiers do this? if ( MatchGet() ) { if ( GetGet( block ) == false ) return false; return true; } token = m_tokenizer->GetToken(0, 0); type = token->GetType(); if ( type != TK_IDENTIFIER ) { return Error("syntax error : expected indentifier; found %s", GetTokenName(type)); } block->Write( TK_IDENTIFIER, (const char *) token->GetStringValue() ); token->Delete(); return true; } /* =================================================================================================== GetEvaluator() Attempts to match and retrieve the value of an evaluator token. =================================================================================================== */ int CInterpreter::GetEvaluator( CBlock *block ) { CToken *token; int type; if ( MatchGet() ) return false; if ( MatchRandom() ) return false; token = m_tokenizer->GetToken(0, 0); type = token->GetType(); token->Delete(); switch ( type ) { case TK_GREATER_THAN: case TK_LESS_THAN: case TK_EQUALS: case TK_NOT: break; case TK_VECTOR_START: type = TK_LESS_THAN; break; case TK_VECTOR_END: type = TK_GREATER_THAN; break; default: return Error("syntax error : expected operator type, found %s", GetTokenName( type ) ); } block->Write( type, 0 ); return true; } /* =================================================================================================== GetAny() Attempts to match and retrieve any valid data type. =================================================================================================== */ int CInterpreter::GetAny( CBlock *block ) { CToken *token; int type; if ( MatchGet() ) { if ( GetGet( block ) == false ) return false; return true; } if ( MatchRandom() ) { if ( GetRandom( block ) == false ) return false; return true; } if ( MatchTag() ) { if ( GetTag( block ) == false ) return false; return true; } token = m_tokenizer->GetToken(0, 0); type = token->GetType(); switch ( type ) { case TK_FLOAT: m_tokenizer->PutBackToken( token ); if ( GetFloat( block ) == false ) return false; break; case TK_INT: m_tokenizer->PutBackToken( token ); if ( GetInteger( block ) == false ) return false; break; case TK_VECTOR_START: m_tokenizer->PutBackToken( token ); if ( GetVector( block ) == false ) return false; break; case TK_STRING: case TK_CHAR: m_tokenizer->PutBackToken( token ); if ( GetString( block ) == false ) return false; break; case TK_IDENTIFIER: m_tokenizer->PutBackToken( token ); if ( GetIdentifier( block ) == false ) return false; break; default: return false; } return true; } /* =================================================================================================== GetType() Attempts to match and retrieve the value of a type token. =================================================================================================== */ int CInterpreter::GetType( char *get ) { CToken *token; char *string; int type; token = m_tokenizer->GetToken(0, 0); type = token->GetType(); if ( type != TK_IDENTIFIER ) { return Error("syntax error : expected identifier; found %s", GetTokenName(type)); } string = (char *) token->GetStringValue(); if ( (strlen(string) + 1) > MAX_STRING_LENGTH) { Error("string exceeds 256 character limit"); return false; } strcpy(get, string); return true; } /* =================================================================================================== GetID() Attempts to match and interpret an identifier. =================================================================================================== */ //FIXME: This should use an externally defined table to match ID and functions int CInterpreter::GetID( char *id_name ) { int id; id = FindSymbol( id_name, m_IDKeywords ); if ( id == -1 ) return Error("'%s' : unknown identifier", id_name); //FIXME: Function pointers would be awfully nice.. but not inside a class! Weee!! switch (id) { //Affect takes control of an entity case ID_AFFECT: return GetAffect(); break; //Wait for a specified amount of time case ID_WAIT: return GetWait(); break; //Generic set call case ID_SET: return GetSet(); break; case ID_LOOP: return GetLoop(); break; case ID_PRINT: return GetPrint(); break; case ID_USE: return GetUse(); break; case ID_FLUSH: return GetFlush(); break; case ID_RUN: return GetRun(); break; case ID_KILL: return GetKill(); break; case ID_REMOVE: return GetRemove(); break; case ID_CAMERA: return GetCamera(); break; case ID_SOUND: return GetSound(); break; case ID_MOVE: return GetMove(); break; case ID_ROTATE: return GetRotate(); break; case ID_IF: return GetIf(); break; case ID_ELSE: //return Error("syntax error : else without matching if"); return GetElse(); //FIXME: Protect this call so that floating else's aren't allowed break; case ID_GET: return Error("syntax error : illegal use of \"get\""); break; case ID_TAG: return Error("syntax error : illegal use of \"tag\""); break; case ID_TASK: return GetTask(); break; case ID_DO: return GetDo(); break; case ID_DECLARE: return GetDeclare(); break; case ID_FREE: return GetFree(); break; case ID_REM: GetRem(); break; case ID_DOWAIT: GetDoWait(); break; case ID_SIGNAL: GetSignal(); break; case ID_WAITSIGNAL: GetWaitSignal(); break; case ID_PLAY: GetPlay(); //Bad eighties slang joke... yeah, it's not really funny, I know... break; //Local variable types case TK_FLOAT: case TK_INT: case TK_STRING: case TK_VECTOR: GetVariable( id ); break; //Unknown ID default: case -1: return Error("'%s' : unknown identifier", id_name); break; } return true; } /* =================================================================================================== ID Interpreting Functions =================================================================================================== */ /* ------------------------- GetDeclare ------------------------- */ int CInterpreter::GetDeclare( void ) { CBlock block; char typeName[MAX_STRING_LENGTH]; int type; block.Create( ID_DECLARE ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetType( (char *) typeName ) == false ) return false; type = FindSymbol( typeName, m_typeKeywords); switch ( type ) { case TK_FLOAT: case TK_VECTOR: case TK_STRING: block.Write( TK_FLOAT, (float) type ); break; default: return Error("unknown identifier %s", typeName ); break; } if ( GetString( &block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("declare : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* ------------------------- GetFree ------------------------- */ int CInterpreter::GetFree( void ) { CBlock block; block.Create( ID_FREE ); if ( Match( TK_OPEN_PARENTHESIS ) == false ) return Error("syntax error : '(' not found"); if ( GetString( &block ) == false ) return false; if ( Match( TK_CLOSED_PARENTHESIS ) == false ) return Error("free : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetIf() Handles the if() conditional statement. =================================================================================================== */ // if ( STRING ? STRING ) int CInterpreter::GetIf( void ) { CBlock block; block.Create( ID_IF ); if ( Match( TK_OPEN_PARENTHESIS ) == false ) return Error("syntax error : '(' not found"); if ( GetAny( &block ) == false ) return false; if ( GetEvaluator( &block ) == false ) return false; if ( GetAny( &block ) == false ) return false; if ( Match( TK_CLOSED_PARENTHESIS ) == false ) return Error("if : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetElse() Handles the else() conditional statement. =================================================================================================== */ // else int CInterpreter::GetElse( void ) { CBlock block; block.Create( ID_ELSE ); /* if ( Match( TK_OPEN_PARENTHESIS ) == false ) return Error("syntax error : '(' not found"); */ /* if ( GetAny( &block ) == false ) return false; if ( GetEvaluator( &block ) == false ) return false; if ( GetAny( &block ) == false ) return false; */ /* if ( Match( TK_CLOSED_PARENTHESIS ) == false ) return Error("sound : too many parameters"); */ m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetTask() Handles the task() sequence specifier. =================================================================================================== */ //task ( name ) { } int CInterpreter::GetTask( void ) { CBlock block; block.Create( ID_TASK ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetString( &block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("GetTask: too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetDo() Handles the do() function. =================================================================================================== */ //do ( taskName ) int CInterpreter::GetDo( void ) { CBlock block; block.Create( ID_DO ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetString( &block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("do : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetGet() Handles the get() function. =================================================================================================== */ // get( TYPE, NAME ); int CInterpreter::GetGet( CBlock *block ) { char typeName[MAX_STRING_LENGTH]; int type; block->Write( ID_GET, (float) ID_GET ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetType( (char *) typeName ) == false ) return false; type = FindSymbol( typeName, m_typeKeywords); switch ( type ) { case TK_FLOAT: case TK_INT: case TK_VECTOR: case TK_STRING: block->Write( TK_FLOAT, (float) type ); break; default: return Error("unknown identifier %s", typeName ); break; } if ( GetString( block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("affect : too many parameters"); return true; } /* =================================================================================================== GetRandom() Handles the random() function. =================================================================================================== */ // random( low, high ); int CInterpreter::GetRandom( CBlock *block ) { block->Write( ID_RANDOM, (float) ID_RANDOM ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetFloat( block ) == false ) return false; if ( GetFloat( block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("affect : too many parameters"); return true; } /* =================================================================================================== GetSound() Handles the sound() function. =================================================================================================== */ // sound( NAME ); int CInterpreter::GetSound( void ) { CBlock block; block.Create( ID_SOUND ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetIdentifier( &block ) == false ) return false; if ( GetString( &block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("sound : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetMove() Handles the move() function. =================================================================================================== */ // move( ORIGIN, ANGLES, DURATION ); int CInterpreter::GetMove( void ) { CBlock block; block.Create( ID_MOVE ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetVector( &block ) == false ) return false; //Angles are optional if ( LookAhead( TK_VECTOR_START ) || LookAhead( TK_IDENTIFIER ) ) { if ( GetVector( &block ) == false ) return false; } if ( GetFloat( &block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("move : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetRotate() Handles the rotate() function. =================================================================================================== */ // move( ANGLES, DURATION ); int CInterpreter::GetRotate( void ) { CBlock block; block.Create( ID_ROTATE ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetVector( &block ) == false ) return false; if ( GetFloat( &block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("move : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetAffect() Handles the affect() function. =================================================================================================== */ //FIXME: This should be externally defined int CInterpreter::GetAffect( void ) { CBlock block; char typeName[MAX_STRING_SIZE]; int type; block.Create( ID_AFFECT ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetString( &block ) == false ) return false; if (!LookAhead( TK_IDENTIFIER )) return Error("syntax error : identifier not found"); if ( MatchGet() ) return Error("syntax error : illegal use of \"get\""); if ( GetType( (char *) typeName ) == false ) return false; type = FindSymbol( typeName, m_typeKeywords); switch ( type ) { case TYPE_INSERT: case TYPE_FLUSH: block.Write( TK_FLOAT, (float) type ); break; default: return Error("'%s': unknown affect type", typeName ); break; } if (!Match( TK_CLOSED_PARENTHESIS )) return Error("affect : too many parameters"); if (!LookAhead( TK_BLOCK_START )) return Error("syntax error : '{' not found"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetWait() Handles the wait() function. =================================================================================================== */ //FIXME: This should be externally defined int CInterpreter::GetWait( void ) { CBlock block; block.Create( ID_WAIT ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( LookAhead( TK_STRING ) ) { if ( GetString( &block ) == false ) return false; } else { if ( GetFloat( &block ) == false ) return false; } if (!Match( TK_CLOSED_PARENTHESIS )) return Error("wait : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetSet() Handles the set() function. =================================================================================================== */ //FIXME: This should be externally defined int CInterpreter::GetSet( void ) { CBlock block; block.Create( ID_SET ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetString( &block ) == false ) return false; //Check for get placement if ( MatchGet() ) { if ( GetGet( &block ) == false ) return false; } else { switch( GetNextType() ) { case TK_INT: if ( GetInteger( &block ) == false ) return false; break; case TK_FLOAT: if ( GetFloat( &block ) == false ) return false; break; case TK_STRING: if ( GetString( &block ) == false ) return false; break; case TK_VECTOR_START: if ( GetVector( &block ) == false ) return false; break; default: if ( MatchTag() ) { GetTag( &block ); break; } if ( MatchRandom() ) { GetRandom( &block ); break; } return Error("unknown parameter type"); break; } } if (!Match( TK_CLOSED_PARENTHESIS )) return Error("set : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetLoop() Handles the loop() function. =================================================================================================== */ int CInterpreter::GetLoop( void ) { CBlock block; block.Create( ID_LOOP ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( LookAhead( TK_CLOSED_PARENTHESIS ) ) { //-1 denotes an infinite loop block.Write( TK_FLOAT, (float) -1); } else { if ( GetInteger( &block ) == false ) return false; } if (!Match( TK_CLOSED_PARENTHESIS )) return Error("GetLoop : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetPrint() Handles the print() function. =================================================================================================== */ int CInterpreter::GetPrint( void ) { CBlock block; block.Create( ID_PRINT ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetString( &block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("print : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetUse() Handles the use() function. =================================================================================================== */ int CInterpreter::GetUse( void ) { CBlock block; block.Create( ID_USE ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetString( &block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("use : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetFlush() Handles the flush() function. =================================================================================================== */ int CInterpreter::GetFlush( void ) { CBlock block; block.Create( ID_FLUSH ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if (!Match( TK_CLOSED_PARENTHESIS )) return Error("flush : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetRun() Handles the run() function. =================================================================================================== */ int CInterpreter::GetRun( void ) { CBlock block; block.Create( ID_RUN ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetString( &block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("run : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetKill() Handles the kill() function. =================================================================================================== */ int CInterpreter::GetKill( void ) { CBlock block; block.Create( ID_KILL ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetString( &block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("kill : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetRemove() Handles the remove() function. =================================================================================================== */ int CInterpreter::GetRemove( void ) { CBlock block; block.Create( ID_REMOVE ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetString( &block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("remove : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetRem() Handles the rem() function. =================================================================================================== */ // this is just so people can put comments in scripts in BehavEd and not have them lost as normal comments would be. // int CInterpreter::GetRem( void ) { CBlock block; block.Create( ID_REM ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); // optional string? if (Match( TK_CLOSED_PARENTHESIS )) return true; GetString( &block ); if (!Match( TK_CLOSED_PARENTHESIS )) return Error("rem : function only takes 1 optional parameter"); return true; } /* =================================================================================================== GetCamera() Handles the camera() function. =================================================================================================== */ int CInterpreter::GetCamera( void ) { CBlock block; char typeName[MAX_STRING_SIZE]; int type; block.Create( ID_CAMERA ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetType( (char *) typeName ) == false ) return false; type = FindSymbol( typeName, m_typeKeywords); switch ( type ) { case TYPE_PAN: //PAN ( ANGLES, DURATION ) block.Write( TK_FLOAT, (float) type ); if ( GetVector( &block ) == false ) return false; if ( GetVector( &block ) == false ) return false; if ( GetFloat( &block ) == false ) return false; break; case TYPE_ZOOM: //ZOOM ( FOV, DURATION ) block.Write( TK_FLOAT, (float) type ); if ( GetFloat( &block ) == false ) return false; if ( GetFloat( &block ) == false ) return false; break; case TYPE_MOVE: //MOVE ( ORIGIN, DURATION ) block.Write( TK_FLOAT, (float) type ); if ( GetVector( &block ) == false ) return false; if ( GetFloat( &block ) == false ) return false; break; case TYPE_FADE: //FADE ( SOURCE(R,G,B,A), DEST(R,G,B,A), DURATION ) block.Write( TK_FLOAT, (float) type ); //Source color if ( GetVector( &block ) == false ) return false; if ( GetFloat( &block ) == false ) return false; //Dest color if ( GetVector( &block ) == false ) return false; if ( GetFloat( &block ) == false ) return false; //Duration if ( GetFloat( &block ) == false ) return false; break; case TYPE_PATH: //PATH ( FILENAME ) block.Write( TK_FLOAT, (float) type ); //Filename if ( GetString( &block ) == false ) return false; break; case TYPE_ENABLE: case TYPE_DISABLE: block.Write( TK_FLOAT, (float) type ); break; case TYPE_SHAKE: //SHAKE ( INTENSITY, DURATION ) block.Write( TK_FLOAT, (float) type ); //Intensity if ( GetFloat( &block ) == false ) return false; //Duration if ( GetFloat( &block ) == false ) return false; break; case TYPE_ROLL: //ROLL ( ANGLE, TIME ) block.Write( TK_FLOAT, (float) type ); //Angle if ( GetFloat( &block ) == false ) return false; //Time if ( GetFloat( &block ) == false ) return false; break; case TYPE_TRACK: //TRACK ( TARGETNAME, SPEED, INITLERP ) block.Write( TK_FLOAT, (float) type ); //Target name if ( GetString( &block ) == false ) return false; //Speed if ( GetFloat( &block ) == false ) return false; //Init lerp if ( GetFloat( &block ) == false ) return false; break; case TYPE_FOLLOW: //FOLLOW ( CAMERAGROUP, SPEED, INITLERP ) block.Write( TK_FLOAT, (float) type ); //Camera group if ( GetString( &block ) == false ) return false; //Speed if ( GetFloat( &block ) == false ) return false; //Init lerp if ( GetFloat( &block ) == false ) return false; break; case TYPE_DISTANCE: //DISTANCE ( DISTANCE, INITLERP ) block.Write( TK_FLOAT, (float) type ); //Distance if ( GetFloat( &block ) == false ) return false; //Init lerp if ( GetFloat( &block ) == false ) return false; break; } if (!Match( TK_CLOSED_PARENTHESIS )) return Error("camera : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* ------------------------- GetDoWait ------------------------- */ int CInterpreter::GetDoWait( void ) { CBlock block; //Write out the "do" portion block.Create( ID_DO ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetString( &block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("do : too many parameters"); //Write out the accompanying "wait" char *str = (char *) block.GetMemberData( 0 ); CBlock block2; block2.Create( ID_WAIT ); block2.Write( TK_STRING, (char *) str ); m_blockStream->WriteBlock( &block ); m_blockStream->WriteBlock( &block2 ); return true; } /* ------------------------- GetSignal ------------------------- */ int CInterpreter::GetSignal( void ) { CBlock block; block.Create( ID_SIGNAL ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetString( &block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("signal : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* ------------------------- GetSignal ------------------------- */ int CInterpreter::GetWaitSignal( void ) { CBlock block; block.Create( ID_WAITSIGNAL ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetString( &block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("waitsignal : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* ------------------------- GetPlay ------------------------- */ int CInterpreter::GetPlay( void ) { CBlock block; block.Create( ID_PLAY ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); if ( GetString( &block ) == false ) return false; if ( GetString( &block ) == false ) return false; if (!Match( TK_CLOSED_PARENTHESIS )) return Error("waitsignal : too many parameters"); m_blockStream->WriteBlock( &block ); return true; } /* =================================================================================================== GetTag() Handles the tag() identifier. =================================================================================================== */ //NOTENOTE: The tag's information is included as block members, not as a separate block. int CInterpreter::GetTag( CBlock *block ) { char typeName[MAX_STRING_SIZE]; int typeID; //Mark as a tag block->Write( ID_TAG, (float) ID_TAG ); if (!Match( TK_OPEN_PARENTHESIS )) return Error("syntax error : '(' not found"); //Get the tag name if ( GetString( block ) == false ) return false; //Get the lookup ID GetType( (char *) typeName ); typeID = FindSymbol( (char *) typeName, m_typeKeywords); //Tags only contain origin and angles lookups if ( (typeID != TYPE_ORIGIN) && (typeID != TYPE_ANGLES) ) { return Error("syntax error : 'tag' : %s is not a valid look up identifier", typeName ); } block->Write( TK_FLOAT, (float) typeID ); if (!Match( TK_CLOSED_PARENTHESIS )) return Error("tag : too many parameters"); return true; } /* =================================================================================================== Interpret function =================================================================================================== */ // note new return type, this now returns the bad block number, else 0 for success. // // I also return -ve block numbers for errors between blocks. Eg if you read 3 good blocks, then find an unexpected // float in the script between blocks 3 & 4 then I return -3 to indicate the error is after that, but not block 4 // int CInterpreter::Interpret( CTokenizer *Tokenizer, CBlockStream *BlockStream, char *filename ) { CBlock block; CToken *token; int type, blockLevel = 0, parenthesisLevel = 0; m_sCurrentFile = filename; // used during error reporting because you can't ask tokenizer for pushed streams m_tokenizer = Tokenizer; m_blockStream = BlockStream; m_iCurrentLine = m_tokenizer->GetCurLine(); token = m_tokenizer->GetToEndOfLine(TK_STRING); m_sCurrentLine = token->GetStringValue(); m_tokenizer->PutBackToken(token, false, NULL, true); m_iBadCBlockNumber = 0; while (m_tokenizer->GetRemainingSize() > 0) { token = m_tokenizer->GetToken( TKF_USES_EOL, 0 ); type = token->GetType(); switch ( type ) { case TK_UNDEFINED: token->Delete(); m_iBadCBlockNumber = -m_iBadCBlockNumber; Error("%d : undefined token", type); return m_iBadCBlockNumber; break; case TK_EOF: break; case TK_EOL: // read the next line, then put it back token->Delete(); m_iCurrentLine = m_tokenizer->GetCurLine(); token = m_tokenizer->GetToEndOfLine(TK_STRING); m_sCurrentLine = token->GetStringValue(); m_tokenizer->PutBackToken(token, false, NULL, true); break; case TK_CHAR: case TK_STRING: token->Delete(); m_iBadCBlockNumber = -m_iBadCBlockNumber; Error("syntax error : unexpected string"); return m_iBadCBlockNumber; break; case TK_INT: token->Delete(); m_iBadCBlockNumber = -m_iBadCBlockNumber; Error("syntax error : unexpected integer"); return m_iBadCBlockNumber; break; case TK_FLOAT: token->Delete(); m_iBadCBlockNumber = -m_iBadCBlockNumber; Error("syntax error : unexpected float"); return m_iBadCBlockNumber; break; case TK_IDENTIFIER: m_iBadCBlockNumber++; if (!GetID( (char *) token->GetStringValue() )) { token->Delete(); return m_iBadCBlockNumber; } token->Delete(); break; case TK_BLOCK_START: token->Delete(); if (parenthesisLevel) { m_iBadCBlockNumber = -m_iBadCBlockNumber; Error("syntax error : brace inside parenthesis"); return m_iBadCBlockNumber; } blockLevel++; break; case TK_BLOCK_END: token->Delete(); if (parenthesisLevel) { m_iBadCBlockNumber = -m_iBadCBlockNumber; Error("syntax error : brace inside parenthesis"); return m_iBadCBlockNumber; } block.Create( ID_BLOCK_END ); m_blockStream->WriteBlock( &block ); block.Free(); blockLevel--; break; case TK_OPEN_PARENTHESIS: token->Delete(); blockLevel++; parenthesisLevel++; break; case TK_CLOSED_PARENTHESIS: token->Delete(); blockLevel--; parenthesisLevel--; if (parenthesisLevel<0) { m_iBadCBlockNumber = -m_iBadCBlockNumber; Error("syntax error : closed parenthesis with no opening match"); return m_iBadCBlockNumber; } break; case TK_VECTOR_START: token->Delete(); m_iBadCBlockNumber = -m_iBadCBlockNumber; Error("syntax error : unexpected vector"); return m_iBadCBlockNumber; break; case TK_VECTOR_END: token->Delete(); m_iBadCBlockNumber = -m_iBadCBlockNumber; Error("syntax error : unexpected vector"); return m_iBadCBlockNumber; break; } } if ( blockLevel ) { m_iBadCBlockNumber = -m_iBadCBlockNumber; Error("error : open brace was not closed"); return m_iBadCBlockNumber; } if ( parenthesisLevel ) { m_iBadCBlockNumber = -m_iBadCBlockNumber; Error("error: open parenthesis"); return m_iBadCBlockNumber; } //Release all the variable information, because it's already been written out FreeVars(); m_iBadCBlockNumber = 0; return m_iBadCBlockNumber; //true; }