//************************************************************************** //** //** token.c //** //************************************************************************** // HEADER FILES ------------------------------------------------------------ #if defined(_WIN32) && !defined(_MSC_VER) #define WIN32_LEAN_AND_MEAN #include #endif #ifdef __NeXT__ #include #else #ifndef unix #include #endif #include #include #include #endif #include #include #include #include "common.h" #include "token.h" #include "error.h" #include "misc.h" #include "symbol.h" #include "parse.h" // MACROS ------------------------------------------------------------------ #define NON_HEX_DIGIT 255 #define MAX_NESTED_SOURCES 16 // TYPES ------------------------------------------------------------------- typedef enum { CHR_EOF, CHR_LETTER, CHR_NUMBER, CHR_QUOTE, CHR_SPECIAL } chr_t; typedef struct { char *name; char *start; char *end; char *position; int line; boolean incLineNumber; boolean imported; enum ImportModes prevMode; char lastChar; } nestInfo_t; // EXTERNAL FUNCTION PROTOTYPES -------------------------------------------- // PUBLIC FUNCTION PROTOTYPES ---------------------------------------------- // PRIVATE FUNCTION PROTOTYPES --------------------------------------------- static int SortKeywords(const void *a, const void *b); static void SetLocalIncludePath(char *sourceName); static int PopNestedSource(enum ImportModes *prevMode); static void ProcessLetterToken(void); static void ProcessNumberToken(void); static void EvalFixedConstant(int whole); static void EvalHexConstant(void); static void EvalRadixConstant(void); static int DigitValue(char digit, int radix); static void ProcessQuoteToken(void); static void ProcessSpecialToken(void); static boolean CheckForKeyword(void); static boolean CheckForLineSpecial(void); static boolean CheckForConstant(void); static void NextChr(void); static void SkipComment(void); static void SkipCPPComment(void); static void BumpMasterSourceLine(char Chr, boolean clear); // master line - Ty 07jan2000 static char *AddFileName(const char *name); static int OctalChar(); // EXTERNAL DATA DECLARATIONS ---------------------------------------------- // PUBLIC DATA DEFINITIONS ------------------------------------------------- tokenType_t tk_Token; int tk_Line; int tk_Number; char *tk_String; int tk_SpecialValue; int tk_SpecialArgCount; char *tk_SourceName; int tk_IncludedLines; boolean forSemicolonHack; char MasterSourceLine[MAX_STATEMENT_LENGTH+1]; // master line - Ty 07jan2000 int MasterSourcePos; // master position - Ty 07jan2000 int PrevMasterSourcePos; // previous master position - RH 09feb2000 boolean ClearMasterSourceLine; // master clear flag - Ty 07jan2000 // PRIVATE DATA DEFINITIONS ------------------------------------------------ static char Chr; static char *FileStart; static char *FilePtr; static char *FileEnd; static boolean SourceOpen; static char ASCIIToChrCode[256]; static byte ASCIIToHexDigit[256]; static char TokenStringBuffer[MAX_QUOTED_LENGTH]; static nestInfo_t OpenFiles[MAX_NESTED_SOURCES]; static boolean AlreadyGot; static int NestDepth; static boolean IncLineNumber; static char *FileNames; static size_t FileNamesLen, FileNamesMax; // Pascal 12/11/08 // Include paths. Lowest is searched first. // Include path 0 is always set to the directory of the file being parsed. static char IncludePaths[MAX_INCLUDE_PATHS][MAX_FILE_NAME_LENGTH]; static int NumIncludePaths; static struct keyword_s { char *name; tokenType_t token; } Keywords[] = { { "break", TK_BREAK }, { "case", TK_CASE }, { "const", TK_CONST }, { "continue", TK_CONTINUE }, { "default", TK_DEFAULT }, { "define", TK_DEFINE }, { "do", TK_DO }, { "else", TK_ELSE }, { "for", TK_FOR }, { "goto", TK_GOTO }, { "if", TK_IF }, { "include", TK_INCLUDE }, { "int", TK_INT }, { "open", TK_OPEN }, { "print", TK_PRINT }, { "printbold", TK_PRINTBOLD }, { "log", TK_LOG }, { "hudmessage", TK_HUDMESSAGE }, { "hudmessagebold", TK_HUDMESSAGEBOLD }, { "restart", TK_RESTART }, { "script", TK_SCRIPT }, { "special", TK_SPECIAL }, { "str", TK_STR }, { "suspend", TK_SUSPEND }, { "switch", TK_SWITCH }, { "terminate", TK_TERMINATE }, { "until", TK_UNTIL }, { "void", TK_VOID }, { "while", TK_WHILE }, { "world", TK_WORLD }, { "global", TK_GLOBAL }, // [BC] Start Skulltag tokens. { "respawn", TK_RESPAWN }, { "death", TK_DEATH }, { "enter", TK_ENTER }, { "pickup", TK_PICKUP }, { "bluereturn", TK_BLUERETURN }, { "redreturn", TK_REDRETURN }, { "whitereturn", TK_WHITERETURN }, // [BC] End Skulltag tokens. { "nocompact", TK_NOCOMPACT }, { "lightning", TK_LIGHTNING }, { "createtranslation", TK_CREATETRANSLATION }, { "function", TK_FUNCTION }, { "return", TK_RETURN }, { "wadauthor", TK_WADAUTHOR }, { "nowadauthor", TK_NOWADAUTHOR }, { "acs_executewait", TK_ACSEXECUTEWAIT }, { "acs_namedexecutewait", TK_ACSNAMEDEXECUTEWAIT }, { "encryptstrings", TK_ENCRYPTSTRINGS }, { "import", TK_IMPORT }, { "library", TK_LIBRARY }, { "libdefine", TK_LIBDEFINE }, { "bool", TK_BOOL }, { "net", TK_NET }, { "clientside", TK_CLIENTSIDE }, // [BB] { "disconnect", TK_DISCONNECT }, { "event", TK_EVENT }, //[BB] { "unloading", TK_UNLOADING }, { "static", TK_STATIC }, { "strparam", TK_STRPARAM_EVAL }, // [FDARI] { "strcpy", TK_STRCPY }, // [FDARI] }; #define NUM_KEYWORDS (sizeof(Keywords)/sizeof(Keywords[0])) // CODE -------------------------------------------------------------------- //========================================================================== // // TK_Init // //========================================================================== void TK_Init(void) { int i; for(i = 0; i < 256; i++) { ASCIIToChrCode[i] = CHR_SPECIAL; ASCIIToHexDigit[i] = NON_HEX_DIGIT; } for(i = '0'; i <= '9'; i++) { ASCIIToChrCode[i] = CHR_NUMBER; ASCIIToHexDigit[i] = i-'0'; } for(i = 'A'; i <= 'F'; i++) { ASCIIToHexDigit[i] = 10+(i-'A'); } for(i = 'a'; i <= 'f'; i++) { ASCIIToHexDigit[i] = 10+(i-'a'); } for(i = 'A'; i <= 'Z'; i++) { ASCIIToChrCode[i] = CHR_LETTER; } for(i = 'a'; i <= 'z'; i++) { ASCIIToChrCode[i] = CHR_LETTER; } ASCIIToChrCode[ASCII_QUOTE] = CHR_QUOTE; ASCIIToChrCode[ASCII_UNDERSCORE] = CHR_LETTER; ASCIIToChrCode[EOF_CHARACTER] = CHR_EOF; tk_String = TokenStringBuffer; IncLineNumber = FALSE; tk_IncludedLines = 0; NumIncludePaths = 1; // the first path is always the parsed file path - Pascal 12/11/08 SourceOpen = FALSE; *MasterSourceLine = '\0'; // master line - Ty 07jan2000 MasterSourcePos = 0; // master position - Ty 07jan2000 ClearMasterSourceLine = TRUE; // clear the line to start qsort (Keywords, NUM_KEYWORDS, sizeof(Keywords[0]), SortKeywords); FileNames = MS_Alloc(4096, ERR_OUT_OF_MEMORY); FileNamesLen = 0; FileNamesMax = 4096; } //========================================================================== // // SortKeywords // //========================================================================== static int SortKeywords(const void *a, const void *b) { return strcmp (((struct keyword_s *)a)->name, ((struct keyword_s *)b)->name); } //========================================================================== // // TK_OpenSource // //========================================================================== void TK_OpenSource(char *fileName) { int size; TK_CloseSource(); size = MS_LoadFile(fileName, &FileStart); tk_SourceName = AddFileName(fileName); SetLocalIncludePath(fileName); SourceOpen = TRUE; FileEnd = FileStart+size; FilePtr = FileStart; tk_Line = 1; tk_Token = TK_NONE; AlreadyGot = FALSE; NestDepth = 0; NextChr(); } //========================================================================== // // AddFileName // //========================================================================== static char *AddFileName(const char *name) { size_t len = strlen(name) + 1; char *namespot; if (FileNamesLen + len > FileNamesMax) { FileNames = MS_Alloc(FileNamesMax, ERR_OUT_OF_MEMORY); FileNamesLen = 0; } namespot = FileNames + FileNamesLen; memcpy(namespot, name, len); FileNamesLen += len; return namespot; } //========================================================================== // // TK_AddIncludePath // This adds an include path with less priority than the ones already added // // Pascal 12/11/08 // //========================================================================== void TK_AddIncludePath(char *sourcePath) { if(NumIncludePaths < MAX_INCLUDE_PATHS) { // Add to list strcpy(IncludePaths[NumIncludePaths], sourcePath); // Not ending with directory delimiter? if(!MS_IsDirectoryDelimiter(*(IncludePaths[NumIncludePaths] + strlen(IncludePaths[NumIncludePaths]) - 1))) { // Add a directory delimiter to the include path strcat(IncludePaths[NumIncludePaths], "/"); } MS_Message(MSG_DEBUG, "Add include path %d: \"%s\"\n", NumIncludePaths, IncludePaths[NumIncludePaths]); NumIncludePaths++; } } //========================================================================== // // TK_AddProgramIncludePath // Adds an include path for the directory of the executable. // //========================================================================== void TK_AddProgramIncludePath(char *progname) { if(NumIncludePaths < MAX_INCLUDE_PATHS) { #ifdef _WIN32 #ifdef _MSC_VER #if _MSC_VER >= 1300 if (_get_pgmptr(&progname) != 0) { return; } #else progname = _pgmptr; #endif #else char progbuff[1024]; GetModuleFileName(0, progbuff, sizeof(progbuff)); progbuff[sizeof(progbuff)-1] = '\0'; progname = progbuff; #endif #else char progbuff[PATH_MAX]; if (realpath(progname, progbuff) != NULL) { progname = progbuff; } #endif strcpy(IncludePaths[NumIncludePaths], progname); if(MS_StripFilename(IncludePaths[NumIncludePaths])) { MS_Message(MSG_DEBUG, "Program include path is %d: \"%s\"\n", NumIncludePaths, IncludePaths[NumIncludePaths]); NumIncludePaths++; } } } //========================================================================== // // SetLocalIncludePath // This sets the first include path // // Pascal 12/11/08 // //========================================================================== static void SetLocalIncludePath(char *sourceName) { strcpy(IncludePaths[0], sourceName); if(MS_StripFilename(IncludePaths[0]) == NO) { IncludePaths[0][0] = 0; } } //========================================================================== // // TK_Include // //========================================================================== void TK_Include(char *fileName) { char sourceName[MAX_FILE_NAME_LENGTH]; int size, i; nestInfo_t *info; boolean foundfile = FALSE; MS_Message(MSG_DEBUG, "*Including %s\n", fileName); if(NestDepth == MAX_NESTED_SOURCES) { ERR_Exit(ERR_INCL_NESTING_TOO_DEEP, YES, fileName); } info = &OpenFiles[NestDepth++]; info->name = tk_SourceName; info->start = FileStart; info->end = FileEnd; info->position = FilePtr; info->line = tk_Line; info->incLineNumber = IncLineNumber; info->lastChar = Chr; info->imported = NO; // Pascal 30/11/08 // Handle absolute paths if(MS_IsPathAbsolute(fileName)) { #if defined(_WIN32) || defined(__MSDOS__) sourceName[0] = '\0'; if(MS_IsDirectoryDelimiter(fileName[0])) { // The source file is absolute for the drive, but does not // specify a drive. Use the path for the current file to // get the drive letter, if it has one. if(IncludePaths[0][0] != '\0' && IncludePaths[0][1] == ':') { sourceName[0] = IncludePaths[0][0]; sourceName[1] = ':'; sourceName[2] = '\0'; } } strcat(sourceName, fileName); #else strcpy(sourceName, fileName); #endif foundfile = MS_FileExists(sourceName); } else { // Pascal 12/11/08 // Find the file in the include paths for(i = 0; i < NumIncludePaths; i++) { strcpy(sourceName, IncludePaths[i]); strcat(sourceName, fileName); if(MS_FileExists(sourceName)) { foundfile = TRUE; break; } } } if(!foundfile) { ERR_ErrorAt(tk_SourceName, tk_Line); ERR_Exit(ERR_CANT_FIND_INCLUDE, YES, fileName, tk_SourceName, tk_Line); } MS_Message(MSG_DEBUG, "*Include file found at %s\n", sourceName); // Now change the first include path to the file directory SetLocalIncludePath(sourceName); tk_SourceName = AddFileName(sourceName); size = MS_LoadFile(tk_SourceName, &FileStart); FileEnd = FileStart+size; FilePtr = FileStart; tk_Line = 1; IncLineNumber = FALSE; tk_Token = TK_NONE; AlreadyGot = FALSE; BumpMasterSourceLine('x',TRUE); // dummy x NextChr(); } //========================================================================== // // TK_Import // //========================================================================== void TK_Import(char *fileName, enum ImportModes prevMode) { TK_Include (fileName); OpenFiles[NestDepth - 1].imported = YES; OpenFiles[NestDepth - 1].prevMode = prevMode; ImportMode = IMPORT_Importing; } //========================================================================== // // PopNestedSource // //========================================================================== static int PopNestedSource(enum ImportModes *prevMode) { nestInfo_t *info; MS_Message(MSG_DEBUG, "*Leaving %s\n", tk_SourceName); free(FileStart); SY_FreeConstants(NestDepth); tk_IncludedLines += tk_Line; info = &OpenFiles[--NestDepth]; tk_SourceName = info->name; FileStart = info->start; FileEnd = info->end; FilePtr = info->position; tk_Line = info->line; IncLineNumber = info->incLineNumber; Chr = info->lastChar; tk_Token = TK_NONE; AlreadyGot = FALSE; // Pascal 12/11/08 // Set the first include path back to this file directory SetLocalIncludePath(tk_SourceName); *prevMode = info->prevMode; return info->imported ? 2 : 0; } //========================================================================== // // TK_CloseSource // //========================================================================== void TK_CloseSource(void) { int i; if(SourceOpen) { free(FileStart); for(i = 0; i < NestDepth; i++) { free(OpenFiles[i].start); } SourceOpen = FALSE; } } //========================================================================== // // TK_GetDepth // //========================================================================== int TK_GetDepth(void) { return NestDepth; } //========================================================================== // // TK_NextToken // //========================================================================== tokenType_t TK_NextToken(void) { enum ImportModes prevMode; boolean validToken; if(AlreadyGot == TRUE) { int t = MasterSourcePos; MasterSourcePos = PrevMasterSourcePos; PrevMasterSourcePos = t; AlreadyGot = FALSE; return tk_Token; } tk_String = TokenStringBuffer; validToken = NO; PrevMasterSourcePos = MasterSourcePos; do { while(Chr == ASCII_SPACE) { NextChr(); } switch(ASCIIToChrCode[(byte)Chr]) { case CHR_EOF: tk_Token = TK_EOF; break; case CHR_LETTER: ProcessLetterToken(); break; case CHR_NUMBER: ProcessNumberToken(); break; case CHR_QUOTE: ProcessQuoteToken(); break; default: ProcessSpecialToken(); break; } if(tk_Token == TK_STARTCOMMENT) { SkipComment(); } else if(tk_Token == TK_CPPCOMMENT) { SkipCPPComment(); } else if((tk_Token == TK_EOF) && (NestDepth > 0)) { if (PopNestedSource(&prevMode)) { ImportMode = prevMode; if(!ExporterFlagged) { ERR_Exit(ERR_EXPORTER_NOT_FLAGGED, NO); } SY_ClearShared(); } } else { validToken = YES; } } while(validToken == NO); return tk_Token; } //========================================================================== // // TK_NextCharacter // //========================================================================== int TK_NextCharacter(void) { int c; while(Chr == ASCII_SPACE) { NextChr(); } c = (int)Chr; if(c == EOF_CHARACTER) { c = -1; } NextChr(); return c; } //========================================================================== // // TK_SkipPast // //========================================================================== void TK_SkipPast(tokenType_t token) { while (tk_Token != token && tk_Token != TK_EOF) { TK_NextToken(); } TK_NextToken(); } //========================================================================== // // TK_SkipTo // //========================================================================== void TK_SkipTo(tokenType_t token) { while (tk_Token != token && tk_Token != TK_EOF) { TK_NextToken(); } } //========================================================================== // // TK_NextTokenMustBe // //========================================================================== boolean TK_NextTokenMustBe(tokenType_t token, error_t error) { if(TK_NextToken() != token) { ERR_Error(error, YES); /* if(skipToken == TK_EOF) { ERR_Finish(); } else if(skipToken != TK_NONE) { TK_SkipPast(skipToken); } return NO; */ ERR_Finish(); } return YES; } //========================================================================== // // TK_TokenMustBe // //========================================================================== boolean TK_TokenMustBe(tokenType_t token, error_t error) { if (token == TK_SEMICOLON && forSemicolonHack) { token = TK_RPAREN; } if(tk_Token != token) { ERR_Error(error, YES); /* if(skipToken == TK_EOF) { ERR_Finish(); } else if(skipToken != TK_NONE) { while(tk_Token != skipToken) { TK_NextToken(); } } return NO; */ ERR_Finish(); } return YES; } //========================================================================== // // TK_Member // //========================================================================== boolean TK_Member(tokenType_t *list) { int i; for(i = 0; list[i] != TK_NONE; i++) { if(tk_Token == list[i]) { return YES; } } return NO; } //========================================================================== // // TK_Undo // //========================================================================== void TK_Undo(void) { if(tk_Token != TK_NONE) { if (AlreadyGot == FALSE) { int t = MasterSourcePos; MasterSourcePos = PrevMasterSourcePos; PrevMasterSourcePos = t; AlreadyGot = TRUE; } } } //========================================================================== // // ProcessLetterToken // //========================================================================== static void ProcessLetterToken(void) { int i; char *text; i = 0; text = TokenStringBuffer; while (ASCIIToChrCode[(byte)Chr] == CHR_LETTER || ASCIIToChrCode[(byte)Chr] == CHR_NUMBER) { if(++i == MAX_IDENTIFIER_LENGTH) { ERR_Error(ERR_IDENTIFIER_TOO_LONG, YES); } if(i < MAX_IDENTIFIER_LENGTH) { *text++ = Chr; } NextChr(); } *text = 0; MS_StrLwr(TokenStringBuffer); if(CheckForKeyword() == FALSE && CheckForLineSpecial() == FALSE && CheckForConstant() == FALSE) { tk_Token = TK_IDENTIFIER; } } //========================================================================== // // CheckForKeyword // //========================================================================== static boolean CheckForKeyword(void) { int min, max, probe, lexx; // [RH] Use a binary search min = 0; max = NUM_KEYWORDS-1; probe = NUM_KEYWORDS/2; while (max - min >= 0) { lexx = strcmp(tk_String, Keywords[probe].name); if(lexx == 0) { tk_Token = Keywords[probe].token; return TRUE; } else if(lexx < 0) { max = probe-1; } else { min = probe+1; } probe = (max-min)/2+min; } return FALSE; } //========================================================================== // // CheckForLineSpecial // //========================================================================== static boolean CheckForLineSpecial(void) { symbolNode_t *sym; sym = SY_FindGlobal(tk_String); if(sym == NULL) { return FALSE; } if(sym->type != SY_SPECIAL) { return FALSE; } tk_Token = TK_LINESPECIAL; tk_SpecialValue = sym->info.special.value; tk_SpecialArgCount = sym->info.special.argCount; return TRUE; } //========================================================================== // // CheckForConstant // //========================================================================== static boolean CheckForConstant(void) { symbolNode_t *sym; sym = SY_FindGlobal(tk_String); if(sym == NULL) { return FALSE; } if(sym->type != SY_CONSTANT) { return FALSE; } if(sym->info.constant.strValue != NULL) { MS_Message(MSG_DEBUG, "Constant string: %s\n", sym->info.constant.strValue); tk_Token = TK_STRING; tk_String = sym->info.constant.strValue; } else { tk_Token = TK_NUMBER; tk_Number = sym->info.constant.value; } return TRUE; } //========================================================================== // // ProcessNumberToken // //========================================================================== static void ProcessNumberToken(void) { char c; c = Chr; NextChr(); if(c == '0' && (Chr == 'x' || Chr == 'X')) { // Hexadecimal constant NextChr(); EvalHexConstant(); return; } tk_Number = c-'0'; while(ASCIIToChrCode[(byte)Chr] == CHR_NUMBER) { tk_Number = 10*tk_Number+(Chr-'0'); NextChr(); } if(Chr == '.') { // Fixed point NextChr(); // Skip period EvalFixedConstant(tk_Number); return; } if(Chr == ASCII_UNDERSCORE) { NextChr(); // Skip underscore EvalRadixConstant(); return; } tk_Token = TK_NUMBER; } //========================================================================== // // EvalFixedConstant // //========================================================================== static void EvalFixedConstant(int whole) { double frac; double divisor; frac = 0; divisor = 1; while(ASCIIToChrCode[(byte)Chr] == CHR_NUMBER) { frac = 10*frac+(Chr-'0'); divisor *= 10; NextChr(); } tk_Number = (whole<<16)+(int)(65536.0*frac/divisor); tk_Token = TK_NUMBER; } //========================================================================== // // EvalHexConstant // //========================================================================== static void EvalHexConstant(void) { tk_Number = 0; while(ASCIIToHexDigit[(byte)Chr] != NON_HEX_DIGIT) { tk_Number = (tk_Number<<4)+ASCIIToHexDigit[(byte)Chr]; NextChr(); } tk_Token = TK_NUMBER; } //========================================================================== // // EvalRadixConstant // //========================================================================== static void EvalRadixConstant(void) { int radix; int digitVal; radix = tk_Number; if(radix < 2 || radix > 36) { ERR_Error(ERR_BAD_RADIX_CONSTANT, YES, NULL); radix = 36; } tk_Number = 0; while((digitVal = DigitValue(Chr, radix)) != -1) { tk_Number = radix*tk_Number+digitVal; NextChr(); } tk_Token = TK_NUMBER; } //========================================================================== // // DigitValue // // Returns -1 if the digit is not allowed in the specified radix. // //========================================================================== static int DigitValue(char digit, int radix) { digit = toupper(digit); if(digit < '0' || (digit > '9' && digit < 'A') || digit > 'Z') { return -1; } if(digit > '9') { digit = 10+digit-'A'; } else { digit -= '0'; } if(digit >= radix) { return -1; } return digit; } //========================================================================== // // ProcessQuoteToken // //========================================================================== static void ProcessQuoteToken(void) { int i; char *text; boolean escaped; i = 0; escaped = FALSE; text = TokenStringBuffer; NextChr(); while(Chr != EOF_CHARACTER) { if(Chr == ASCII_QUOTE && escaped == 0) // [JB] { break; } if(++i == MAX_QUOTED_LENGTH) { ERR_Error(ERR_STRING_TOO_LONG, YES, NULL); } if(i < MAX_QUOTED_LENGTH) { *text++ = Chr; } // escape the character after a backslash [JB] if(Chr == '\\') escaped ^= (Chr == '\\'); else escaped = FALSE; NextChr(); } *text = 0; if(Chr == ASCII_QUOTE) { NextChr(); } tk_Token = TK_STRING; } //========================================================================== // // ProcessSpecialToken // //========================================================================== static void ProcessSpecialToken(void) { char c; c = Chr; NextChr(); switch(c) { case '+': switch(Chr) { case '=': tk_Token = TK_ADDASSIGN; NextChr(); break; case '+': tk_Token = TK_INC; NextChr(); break; default: tk_Token = TK_PLUS; break; } break; case '-': switch(Chr) { case '=': tk_Token = TK_SUBASSIGN; NextChr(); break; case '-': tk_Token = TK_DEC; NextChr(); break; default: tk_Token = TK_MINUS; break; } break; case '*': switch(Chr) { case '=': tk_Token = TK_MULASSIGN; NextChr(); break; case '/': tk_Token = TK_ENDCOMMENT; NextChr(); break; default: tk_Token = TK_ASTERISK; break; } break; case '/': switch(Chr) { case '=': tk_Token = TK_DIVASSIGN; NextChr(); break; case '/': tk_Token = TK_CPPCOMMENT; break; case '*': tk_Token = TK_STARTCOMMENT; NextChr(); break; default: tk_Token = TK_SLASH; break; } break; case '%': if(Chr == '=') { tk_Token = TK_MODASSIGN; NextChr(); } else { tk_Token = TK_PERCENT; } break; case '=': if(Chr == '=') { tk_Token = TK_EQ; NextChr(); } else { tk_Token = TK_ASSIGN; } break; case '<': if(Chr == '=') { tk_Token = TK_LE; NextChr(); } else if(Chr == '<') { NextChr(); if(Chr == '=') { tk_Token = TK_LSASSIGN; NextChr(); } else { tk_Token = TK_LSHIFT; } } else { tk_Token = TK_LT; } break; case '>': if(Chr == '=') { tk_Token = TK_GE; NextChr(); } else if(Chr == '>') { NextChr(); if(Chr == '=') { tk_Token = TK_RSASSIGN; NextChr(); } else { tk_Token = TK_RSHIFT; } } else { tk_Token = TK_GT; } break; case '!': if(Chr == '=') { tk_Token = TK_NE; NextChr(); } else { tk_Token = TK_NOT; } break; case '&': if(Chr == '&') { tk_Token = TK_ANDLOGICAL; NextChr(); } else if(Chr == '=') { tk_Token = TK_ANDASSIGN; NextChr(); } else { tk_Token = TK_ANDBITWISE; } break; case '|': if(Chr == '|') { tk_Token = TK_ORLOGICAL; NextChr(); } else if(Chr == '=') { tk_Token = TK_ORASSIGN; NextChr(); } else { tk_Token = TK_ORBITWISE; } break; case '(': tk_Token = TK_LPAREN; break; case ')': tk_Token = TK_RPAREN; break; case '{': tk_Token = TK_LBRACE; break; case '}': tk_Token = TK_RBRACE; break; case '[': tk_Token = TK_LBRACKET; break; case ']': tk_Token = TK_RBRACKET; break; case ':': tk_Token = TK_COLON; break; case ';': tk_Token = TK_SEMICOLON; break; case ',': tk_Token = TK_COMMA; break; case '.': tk_Token = TK_PERIOD; break; case '#': tk_Token = TK_NUMBERSIGN; break; case '^': if(Chr == '=') { tk_Token = TK_EORASSIGN; NextChr(); } else { tk_Token = TK_EORBITWISE; } break; case '~': tk_Token = TK_TILDE; break; case '\'': if(Chr == '\\') { NextChr(); switch(Chr) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': tk_Number = OctalChar(); break; case 'x': case 'X': NextChr(); EvalHexConstant(); if(Chr != '\'') { ERR_Exit(ERR_BAD_CHARACTER_CONSTANT, YES, NULL); } NextChr(); break; case 'a': tk_Number = '\a'; break; case 'b': tk_Number = '\b'; break; case 't': tk_Number = '\t'; break; case 'v': tk_Number = '\v'; break; case 'n': tk_Number = '\n'; break; case 'f': tk_Number = '\f'; break; case 'r': tk_Number = '\r'; break; case '\'': case '\\': tk_Number = Chr; break; default: ERR_Exit(ERR_BAD_CHARACTER_CONSTANT, YES, NULL); } tk_Token = TK_NUMBER; } else if(Chr == '\'') { ERR_Exit(ERR_BAD_CHARACTER_CONSTANT, YES, NULL); } else { tk_Number = Chr; tk_Token = TK_NUMBER; } NextChr(); if(Chr != '\'') { ERR_Exit(ERR_BAD_CHARACTER_CONSTANT, YES, NULL); } NextChr(); break; default: ERR_Exit(ERR_BAD_CHARACTER, YES, NULL); break; } } //========================================================================== // // NextChr // //========================================================================== static void NextChr(void) { if(FilePtr >= FileEnd) { Chr = EOF_CHARACTER; return; } if(IncLineNumber == TRUE) { tk_Line++; IncLineNumber = FALSE; BumpMasterSourceLine('x',TRUE); // dummy x } Chr = *FilePtr++; if(Chr < ASCII_SPACE && Chr >= 0) // Allow high ASCII characters { if(Chr == '\n') { IncLineNumber = TRUE; } Chr = ASCII_SPACE; } BumpMasterSourceLine(Chr,FALSE); } //========================================================================== // // PeekChr // [JB] // //========================================================================== static int PeekChr(void) { char ch; if(FilePtr >= FileEnd) { return EOF_CHARACTER; } ch = *FilePtr-1; if(ch < ASCII_SPACE && ch >= 0) // Allow high ASCII characters { ch = ASCII_SPACE; } return ch; } //========================================================================== // // OctalChar // [JB] // //========================================================================== static int OctalChar() { int digits = 1; int code = Chr - '0'; while(digits < 4 && PeekChr() >= '0' && PeekChr() <= '7') { NextChr(); code = (code << 3) + Chr - '0'; } return code; } //========================================================================== // // SkipComment // //========================================================================== void SkipComment(void) { boolean first; first = FALSE; while(Chr != EOF_CHARACTER) { if(first == TRUE && Chr == '/') { break; } first = (Chr == '*'); NextChr(); } NextChr(); } //========================================================================== // // SkipCPPComment // //========================================================================== void SkipCPPComment(void) { while(FilePtr < FileEnd) { if(*FilePtr++ == '\n') { tk_Line++; BumpMasterSourceLine('x',TRUE); // dummy x break; } } NextChr(); } //========================================================================== // // BumpMasterSourceLine // //========================================================================== void BumpMasterSourceLine(char Chr, boolean clear) // master line - Ty 07jan2000 { if (ClearMasterSourceLine) // set to clear last time, clear now for first character { *MasterSourceLine = '\0'; MasterSourcePos = 0; ClearMasterSourceLine = FALSE; } if (clear) { ClearMasterSourceLine = TRUE; } else { if (MasterSourcePos < MAX_STATEMENT_LENGTH) MasterSourceLine[MasterSourcePos++] = Chr; } } //========================================================================== // // TK_SkipLine // //========================================================================== void TK_SkipLine(void) { char *sourcenow = tk_SourceName; int linenow = tk_Line; do TK_NextToken(); while (tk_Line == linenow && tk_SourceName == sourcenow); }