#define YYCTYPE unsigned char #define YYCURSOR cursor #define YYLIMIT limit #define YYMARKER marker #define YYFILL(n) {} #if 0 // As long as the buffer ends with '\n', we need do nothing special for YYFILL. // This buffer must be as large as the largest YYFILL call YYCTYPE eofbuf[9]; #define YYFILL(n) \ { if(!sc_End) { \ if(n == 2) { eofbuf[0] = *cursor; } \ else if(n >= 3 && n <= 9) { memcpy(eofbuf, cursor, n-1); } \ eofbuf[n-1] = '\n'; \ cursor = eofbuf; \ limit = eofbuf + n - 1; \ sc_End = true; } \ } \ assert(n <= sizeof eofbuf) // Semicolon intentionally omitted #endif //#define YYDEBUG(s,c) { Printf ("%d: %02x\n", s, c); } #define YYDEBUG(s,c) const char *cursor = ScriptPtr; const char *limit = ScriptEndPtr; std1: tok = YYCURSOR; std2: /*!re2c any = [\000-\377]; WSP = ([\000- ]\[\n]); NWS = (any\[\000- ]); O = [0-7]; D = [0-9]; L = [a-zA-Z_]; H = [a-fA-F0-9]; E = [Ee] [+-]? D+; FS = [fF]; IS = [uUlL]; ESC = [\\] ([abcfnrtv?'"\\] | "x" H+ | O+); TOK1 = [{}|=]; TOKC = [{}|=/`~!@#$%^&*()\[\]\\?\-=+;:<>,.]; STOP1 = (TOK1|["/;]); STOPC = (TOKC|["]); TOK2 = (NWS\STOP1); TOKC2 = (NWS\STOPC); */ #define RET(x) TokenType = (x); goto normal_token; if (tokens && StateMode != 0) { /*!re2c "/*" { goto comment; } /* C comment */ "//" (any\"\n")* "\n" { goto newline; } /* C++ comment */ ("#region"|"#endregion") (any\"\n")* "\n" { goto newline; } /* Region blocks [mxd] */ (["](([\\]["])|[^"])*["]) { RET(TK_StringConst); } 'stop' { RET(TK_Stop); } 'wait' { RET(TK_Wait); } 'fail' { RET(TK_Fail); } 'loop' { RET(TK_Loop); } 'goto' { StateMode = 0; StateOptions = false; RET(TK_Goto); } ":" { RET(':'); } ";" { RET(';'); } "}" { StateMode = 0; StateOptions = false; RET('}'); } WSP+ { goto std1; } "\n" { goto newline; } TOKS = (NWS\[/":;}]); TOKS* ([/] (TOKS\[*]) TOKS*)* { RET(TK_NonWhitespace); } */ } else if (tokens) // A well-defined scanner, based on the c.re example. { /*!re2c "/*" { goto comment; } /* C comment */ "//" (any\"\n")* "\n" { goto newline; } /* C++ comment */ ("#region"|"#endregion") (any\"\n")* "\n" { goto newline; } /* Region blocks [mxd] */ /* other DECORATE top level keywords */ '#include' { RET(TK_Include); } L (L|D)* { RET(TK_Identifier); } ("0" [xX] H+ IS?IS?) | ("0" D+ IS?IS?) | (D+ IS?IS?) { RET(TK_IntConst); } (D+ E FS?) | (D* "." D+ E? FS?) | (D+ "." D* E? FS?) { RET(TK_FloatConst); } (["](([\\]["])|[^"])*["]) { RET(TK_StringConst); } (['] (any\[\n'])* [']) { RET(TK_NameConst); } ".." { RET(TK_DotDot); } "..." { RET(TK_Ellipsis); } ">>>=" { RET(TK_URShiftEq); } ">>=" { RET(TK_RShiftEq); } "<<=" { RET(TK_LShiftEq); } "+=" { RET(TK_AddEq); } "-=" { RET(TK_SubEq); } "*=" { RET(TK_MulEq); } "/=" { RET(TK_DivEq); } "%=" { RET(TK_ModEq); } "&=" { RET(TK_AndEq); } "^=" { RET(TK_XorEq); } "|=" { RET(TK_OrEq); } ">>>" { RET(TK_URShift); } ">>" { RET(TK_RShift); } "<<" { RET(TK_LShift); } "++" { RET(TK_Incr); } "--" { RET(TK_Decr); } "&&" { RET(TK_AndAnd); } "||" { RET(TK_OrOr); } "<=" { RET(TK_Leq); } ">=" { RET(TK_Geq); } "==" { RET(TK_Eq); } "!=" { RET(TK_Neq); } "~==" { RET(TK_ApproxEq); } "<>=" { RET(TK_LtGtEq); } "**" { RET(TK_MulMul); } "::" { RET(TK_ColonColon); } "->" { RET(TK_Arrow); } ";" { RET(';'); } "{" { RET('{'); } "}" { RET('}'); } "," { RET(','); } ":" { RET(':'); } "=" { RET('='); } "(" { RET('('); } ")" { RET(')'); } "[" { RET('['); } "]" { RET(']'); } "." { RET('.'); } "&" { RET('&'); } "!" { RET('!'); } "~" { RET('~'); } "-" { RET('-'); } "+" { RET('+'); } "*" { RET('*'); } "/" { RET('/'); } "%" { RET('%'); } "<" { RET('<'); } ">" { RET('>'); } "^" { RET('^'); } "|" { RET('|'); } "?" { RET('?'); } [ \t\v\f\r]+ { goto std1; } "\n" { goto newline; } any { ScriptError ("Unexpected character: %c (ASCII %d)\n", *tok, *tok); goto std1; } */ } if (!CMode) // The classic Hexen scanner. { /*!re2c "/*" { goto comment; } /* C comment */ ("//"|";") (any\"\n")* "\n" { goto newline; } /* C++/Hexen comment */ ("#region"|"#endregion") (any\"\n")* "\n" { goto newline; } /* Region blocks [mxd] */ WSP+ { goto std1; } /* whitespace */ "\n" { goto newline; } "\"" { goto string; } TOK1 { goto normal_token; } /* Regular tokens may contain /, but they must not contain comment starts */ TOK2* ([/] (TOK2\[*]) TOK2*)* { goto normal_token; } any { goto normal_token; } /* unknown character */ */ } else // A modified Hexen scanner for DECORATE. { /*!re2c "/*" { goto comment; } /* C comment */ "//" (any\"\n")* "\n" { goto newline; } /* C++ comment */ ("#region"|"#endregion") (any\"\n")* "\n" { goto newline; } /* Region blocks [mxd] */ WSP+ { goto std1; } /* whitespace */ "\n" { goto newline; } "\"" { goto string; } [-] { goto negative_check; } ((D* [.] D+) | (D+ [.] D*)) { goto normal_token; } /* decimal number */ (D+ E FS?) | (D* "." D+ E? FS?) | (D+ "." D* E? FS?) { goto normal_token; } /* float with exponent */ "::" { goto normal_token; } "&&" { goto normal_token; } "==" { goto normal_token; } "||" { goto normal_token; } "<<" { goto normal_token; } ">>" { goto normal_token; } TOKC { goto normal_token; } TOKC2+ { goto normal_token; } any { goto normal_token; } /* unknown character */ */ } negative_check: // re2c doesn't have enough state to handle '-' as the start of a negative number // and as its own token, so help it out a little. TokenType = '-'; if (YYCURSOR >= YYLIMIT) { goto normal_token; } if (*YYCURSOR >= '0' && *YYCURSOR <= '9') { goto std2; } if (*YYCURSOR != '.' || YYCURSOR+1 >= YYLIMIT) { goto normal_token; } if (*(YYCURSOR+1) >= '0' && *YYCURSOR <= '9') { goto std2; } goto normal_token; comment: /*!re2c "*/" { if (YYCURSOR >= YYLIMIT) { ScriptPtr = ScriptEndPtr; return_val = false; goto end; } goto std1; } "\n" { if (YYCURSOR >= YYLIMIT) { ScriptPtr = ScriptEndPtr; return_val = false; goto end; } Line++; Crossed = true; goto comment; } any { goto comment; } */ newline: if (YYCURSOR >= YYLIMIT) { ScriptPtr = ScriptEndPtr; return_val = false; goto end; } Line++; Crossed = true; goto std1; normal_token: ScriptPtr = (YYCURSOR >= YYLIMIT) ? ScriptEndPtr : cursor; StringLen = int(ScriptPtr - tok); if (tokens && (TokenType == TK_StringConst || TokenType == TK_NameConst)) { StringLen -= 2; if (StringLen >= MAX_STRING_SIZE) { BigStringBuffer = FString(tok+1, StringLen); } else { memcpy (StringBuffer, tok+1, StringLen); } if (StateMode && TokenType == TK_StringConst) { TokenType = TK_NonWhitespace; } } else { if (StringLen >= MAX_STRING_SIZE) { BigStringBuffer = FString(tok, StringLen); } else { memcpy (StringBuffer, tok, StringLen); } } if (tokens && StateMode) { // State mode is exited after two consecutive TK_NonWhitespace tokens if (TokenType == TK_NonWhitespace) { StateMode--; } else { StateMode = 2; } } if (StringLen < MAX_STRING_SIZE) { String = StringBuffer; StringBuffer[StringLen] = '\0'; } else { String = BigStringBuffer.LockBuffer(); } return_val = true; goto end; string: if (YYLIMIT != ScriptEndPtr) { ScriptPtr = ScriptEndPtr; return_val = false; goto end; } ScriptPtr = cursor; BigStringBuffer = ""; for (StringLen = 0; cursor < YYLIMIT; ++cursor) { if (Escape && *cursor == '\\' && *(cursor + 1) == '"') { cursor++; } else if (*cursor == '\r' && *(cursor + 1) == '\n') { cursor++; // convert CR-LF to simply LF } else if (*cursor == '"') { break; } if (*cursor == '\n') { if (CMode) { if (!Escape || StringLen == 0 || String[StringLen - 1] != '\\') { ScriptError ("Unterminated string constant"); } else { StringLen--; // overwrite the \ character with \n } } Line++; Crossed = true; } if (StringLen == MAX_STRING_SIZE) { BigStringBuffer.AppendCStrPart(StringBuffer, StringLen); StringLen = 0; } StringBuffer[StringLen++] = *cursor; } if (BigStringBuffer.IsNotEmpty() || StringLen == MAX_STRING_SIZE) { BigStringBuffer.AppendCStrPart(StringBuffer, StringLen); String = BigStringBuffer.LockBuffer(); StringLen = int(BigStringBuffer.Len()); } else { String = StringBuffer; StringBuffer[StringLen] = '\0'; } ScriptPtr = cursor + 1; return_val = true; end: