/* * Copyright (C) 2012 * Wolfgang Bumiller * * Permission is hereby granted, free of charge, to any person obtaining a copy of * this software and associated documentation files (the "Software"), to deal in * the Software without restriction, including without limitation the rights to * use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies * of the Software, and to permit persons to whom the Software is furnished to do * so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #include #include #include #include #include "gmqcc.h" #include "lexer.h" /* * List of Keywords */ /* original */ static const char *keywords_qc[] = { "for", "do", "while", "if", "else", "local", "return", "const" }; static size_t num_keywords_qc = sizeof(keywords_qc) / sizeof(keywords_qc[0]); /* For fte/gmgqcc */ static const char *keywords_fg[] = { "switch", "case", "default", "struct", "union", "break", "continue", "typedef" }; static size_t num_keywords_fg = sizeof(keywords_fg) / sizeof(keywords_fg[0]); /* * Lexer code */ char* *lex_filenames; void lexerror(lex_file *lex, const char *fmt, ...) { va_list ap; va_start(ap, fmt); if (lex) con_vprintmsg(LVL_ERROR, lex->name, lex->sline, "parse error", fmt, ap); else con_vprintmsg(LVL_ERROR, "", 0, "parse error", fmt, ap); va_end(ap); } bool lexwarn(lex_file *lex, int warntype, const char *fmt, ...) { va_list ap; int lvl = LVL_WARNING; if (!OPTS_WARN(warntype)) return false; if (opts_werror) lvl = LVL_ERROR; va_start(ap, fmt); con_vprintmsg(lvl, lex->name, lex->sline, "warning", fmt, ap); va_end(ap); return opts_werror; } #if 0 token* token_new() { token *tok = (token*)mem_a(sizeof(token)); if (!tok) return NULL; memset(tok, 0, sizeof(*tok)); return tok; } void token_delete(token *self) { if (self->next && self->next->prev == self) self->next->prev = self->prev; if (self->prev && self->prev->next == self) self->prev->next = self->next; MEM_VECTOR_CLEAR(self, value); mem_d(self); } token* token_copy(const token *cp) { token* self = token_new(); if (!self) return NULL; /* copy the value */ self->value_alloc = cp->value_count + 1; self->value_count = cp->value_count; self->value = (char*)mem_a(self->value_alloc); if (!self->value) { mem_d(self); return NULL; } memcpy(self->value, cp->value, cp->value_count); self->value[self->value_alloc-1] = 0; /* rest */ self->ctx = cp->ctx; self->ttype = cp->ttype; memcpy(&self->constval, &cp->constval, sizeof(self->constval)); return self; } void token_delete_all(token *t) { token *n; do { n = t->next; token_delete(t); t = n; } while(t); } token* token_copy_all(const token *cp) { token *cur; token *out; out = cur = token_copy(cp); if (!out) return NULL; while (cp->next) { cp = cp->next; cur->next = token_copy(cp); if (!cur->next) { token_delete_all(out); return NULL; } cur->next->prev = cur; cur = cur->next; } return out; } #else static void lex_token_new(lex_file *lex) { #if 0 if (lex->tok) token_delete(lex->tok); lex->tok = token_new(); #else if (lex->tok.value) vec_shrinkto(lex->tok.value, 0); lex->tok.constval.t = 0; lex->tok.ctx.line = lex->sline; lex->tok.ctx.file = lex->name; #endif } #endif lex_file* lex_open(const char *file) { lex_file *lex; FILE *in = util_fopen(file, "rb"); if (!in) { lexerror(NULL, "open failed: '%s'\n", file); return NULL; } lex = (lex_file*)mem_a(sizeof(*lex)); if (!lex) { fclose(in); lexerror(NULL, "out of memory\n"); return NULL; } memset(lex, 0, sizeof(*lex)); lex->file = in; lex->name = util_strdup(file); lex->line = 1; /* we start counting at 1 */ lex->peekpos = 0; lex->eof = false; vec_push(lex_filenames, lex->name); return lex; } lex_file* lex_open_string(const char *str, size_t len, const char *name) { lex_file *lex; lex = (lex_file*)mem_a(sizeof(*lex)); if (!lex) { lexerror(NULL, "out of memory\n"); return NULL; } memset(lex, 0, sizeof(*lex)); lex->file = NULL; lex->open_string = str; lex->open_string_length = len; lex->open_string_pos = 0; lex->name = util_strdup(name ? name : ""); lex->line = 1; /* we start counting at 1 */ lex->peekpos = 0; lex->eof = false; vec_push(lex_filenames, lex->name); return lex; } void lex_cleanup(void) { size_t i; for (i = 0; i < vec_size(lex_filenames); ++i) mem_d(lex_filenames[i]); vec_free(lex_filenames); } void lex_close(lex_file *lex) { size_t i; for (i = 0; i < vec_size(lex->frames); ++i) mem_d(lex->frames[i].name); vec_free(lex->frames); if (lex->modelname) vec_free(lex->modelname); if (lex->file) fclose(lex->file); #if 0 if (lex->tok) token_delete(lex->tok); #else vec_free(lex->tok.value); #endif /* mem_d(lex->name); collected in lex_filenames */ mem_d(lex); } static int lex_fgetc(lex_file *lex) { if (lex->file) return fgetc(lex->file); if (lex->open_string) { if (lex->open_string_pos >= lex->open_string_length) return EOF; return lex->open_string[lex->open_string_pos++]; } return EOF; } /* Get or put-back data * The following to functions do NOT understand what kind of data they * are working on. * The are merely wrapping get/put in order to count line numbers. */ static void lex_ungetch(lex_file *lex, int ch); static int lex_try_trigraph(lex_file *lex, int old) { int c2, c3; c2 = lex_fgetc(lex); if (c2 != '?') { lex_ungetch(lex, c2); return old; } c3 = lex_fgetc(lex); switch (c3) { case '=': return '#'; case '/': return '\\'; case '\'': return '^'; case '(': return '['; case ')': return ']'; case '!': return '|'; case '<': return '{'; case '>': return '}'; case '-': return '~'; default: lex_ungetch(lex, c3); lex_ungetch(lex, c2); return old; } } static int lex_try_digraph(lex_file *lex, int ch) { int c2; c2 = lex_fgetc(lex); if (ch == '<' && c2 == ':') return '['; else if (ch == ':' && c2 == '>') return ']'; else if (ch == '<' && c2 == '%') return '{'; else if (ch == '%' && c2 == '>') return '}'; else if (ch == '%' && c2 == ':') return '#'; lex_ungetch(lex, c2); return ch; } static int lex_getch(lex_file *lex) { int ch; if (lex->peekpos) { lex->peekpos--; if (!lex->push_line && lex->peek[lex->peekpos] == '\n') lex->line++; return lex->peek[lex->peekpos]; } ch = lex_fgetc(lex); if (!lex->push_line && ch == '\n') lex->line++; else if (ch == '?') return lex_try_trigraph(lex, ch); else if (!lex->flags.nodigraphs && (ch == '<' || ch == ':' || ch == '%')) return lex_try_digraph(lex, ch); return ch; } static void lex_ungetch(lex_file *lex, int ch) { lex->peek[lex->peekpos++] = ch; if (!lex->push_line && ch == '\n') lex->line--; } /* classify characters * some additions to the is*() functions of ctype.h */ /* Idents are alphanumberic, but they start with alpha or _ */ static bool isident_start(int ch) { return isalpha(ch) || ch == '_'; } static bool isident(int ch) { return isident_start(ch) || isdigit(ch); } /* isxdigit_only is used when we already know it's not a digit * and want to see if it's a hex digit anyway. */ static bool isxdigit_only(int ch) { return (ch >= 'a' && ch <= 'f') || (ch >= 'A' && ch <= 'F'); } /* Append a character to the token buffer */ static void lex_tokench(lex_file *lex, int ch) { vec_push(lex->tok.value, ch); } /* Append a trailing null-byte */ static void lex_endtoken(lex_file *lex) { vec_push(lex->tok.value, 0); vec_shrinkby(lex->tok.value, 1); } static bool lex_try_pragma(lex_file *lex) { int ch; char *pragma = NULL; char *command = NULL; char *param = NULL; size_t line; if (lex->flags.preprocessing) return false; line = lex->line; ch = lex_getch(lex); if (ch != '#') { lex_ungetch(lex, ch); return false; } for (ch = lex_getch(lex); vec_size(pragma) < 8 && ch >= 'a' && ch <= 'z'; ch = lex_getch(lex)) vec_push(pragma, ch); vec_push(pragma, 0); if (ch != ' ' || strcmp(pragma, "pragma")) { lex_ungetch(lex, ch); goto unroll; } for (ch = lex_getch(lex); vec_size(command) < 32 && ch >= 'a' && ch <= 'z'; ch = lex_getch(lex)) vec_push(command, ch); vec_push(command, 0); if (ch != '(') { lex_ungetch(lex, ch); goto unroll; } for (ch = lex_getch(lex); vec_size(param) < 32 && ch != ')' && ch != '\n'; ch = lex_getch(lex)) vec_push(param, ch); vec_push(param, 0); if (ch != ')') { lex_ungetch(lex, ch); goto unroll; } if (!strcmp(command, "push")) { if (!strcmp(param, "line")) { lex->push_line++; --line; } else goto unroll; } else if (!strcmp(command, "pop")) { if (!strcmp(param, "line")) { if (lex->push_line) lex->push_line--; --line; } else goto unroll; } else if (!strcmp(command, "file")) { lex->name = util_strdup(param); vec_push(lex_filenames, lex->name); } else if (!strcmp(command, "line")) { line = strtol(param, NULL, 0)-1; } else goto unroll; lex->line = line; while (ch != '\n' && ch != EOF) ch = lex_getch(lex); return true; unroll: if (command) { vec_pop(command); while (vec_size(command)) { lex_ungetch(lex, vec_last(command)); vec_pop(command); } vec_free(command); } if (command) { vec_pop(command); while (vec_size(command)) { lex_ungetch(lex, vec_last(command)); vec_pop(command); } vec_free(command); } if (pragma) { vec_pop(pragma); while (vec_size(pragma)) { lex_ungetch(lex, vec_last(pragma)); vec_pop(pragma); } vec_free(pragma); } lex_ungetch(lex, '#'); lex->line = line; return false; } /* Skip whitespace and comments and return the first * non-white character. * As this makes use of the above getch() ungetch() functions, * we don't need to care at all about line numbering anymore. * * In theory, this function should only be used at the beginning * of lexing, or when we *know* the next character is part of the token. * Otherwise, if the parser throws an error, the linenumber may not be * the line of the error, but the line of the next token AFTER the error. * * This is currently only problematic when using c-like string-continuation, * since comments and whitespaces are allowed between 2 such strings. * Example: printf( "line one\n" // A comment "A continuation of the previous string" // This line is skipped , foo); * In this case, if the parse decides it didn't actually want a string, * and uses lex->line to print an error, it will show the ', foo);' line's * linenumber. * * On the other hand, the parser is supposed to remember the line of the next * token's beginning. In this case we would want skipwhite() to be called * AFTER reading a token, so that the parser, before reading the NEXT token, * doesn't store teh *comment's* linenumber, but the actual token's linenumber. * * THIS SOLUTION * here is to store the line of the first character after skipping * the initial whitespace in lex->sline, this happens in lex_do. */ static int lex_skipwhite(lex_file *lex) { int ch = 0; bool haswhite = false; do { ch = lex_getch(lex); while (ch != EOF && isspace(ch)) { if (ch == '\n') { if (lex_try_pragma(lex)) continue; } if (lex->flags.preprocessing) { if (ch == '\n') { /* end-of-line */ /* see if there was whitespace first */ if (haswhite) { /* (vec_size(lex->tok.value)) { */ lex_ungetch(lex, ch); lex_endtoken(lex); return TOKEN_WHITE; } /* otherwise return EOL */ return TOKEN_EOL; } haswhite = true; lex_tokench(lex, ch); } ch = lex_getch(lex); } if (ch == '/') { ch = lex_getch(lex); if (ch == '/') { /* one line comment */ ch = lex_getch(lex); if (lex->flags.preprocessing) { haswhite = true; /* lex_tokench(lex, '/'); lex_tokench(lex, '/'); */ lex_tokench(lex, ' '); lex_tokench(lex, ' '); } while (ch != EOF && ch != '\n') { if (lex->flags.preprocessing) lex_tokench(lex, ' '); /* ch); */ ch = lex_getch(lex); } if (lex->flags.preprocessing) { lex_ungetch(lex, '\n'); lex_endtoken(lex); return TOKEN_WHITE; } continue; } if (ch == '*') { /* multiline comment */ if (lex->flags.preprocessing) { haswhite = true; /* lex_tokench(lex, '/'); lex_tokench(lex, '*'); */ lex_tokench(lex, ' '); lex_tokench(lex, ' '); } while (ch != EOF) { ch = lex_getch(lex); if (ch == '*') { ch = lex_getch(lex); if (ch == '/') { if (lex->flags.preprocessing) { /* lex_tokench(lex, '*'); lex_tokench(lex, '/'); */ lex_tokench(lex, ' '); lex_tokench(lex, ' '); } break; } lex_ungetch(lex, ch); } if (lex->flags.preprocessing) { if (ch == '\n') lex_tokench(lex, '\n'); else lex_tokench(lex, ' '); /* ch); */ } } ch = ' '; /* cause TRUE in the isspace check */ continue; } /* Otherwise roll back to the slash and break out of the loop */ lex_ungetch(lex, ch); ch = '/'; break; } } while (ch != EOF && isspace(ch)); if (haswhite) { lex_endtoken(lex); lex_ungetch(lex, ch); return TOKEN_WHITE; } return ch; } /* Get a token */ static bool GMQCC_WARN lex_finish_ident(lex_file *lex) { int ch; ch = lex_getch(lex); while (ch != EOF && isident(ch)) { lex_tokench(lex, ch); ch = lex_getch(lex); } /* last ch was not an ident ch: */ lex_ungetch(lex, ch); return true; } /* read one ident for the frame list */ static int lex_parse_frame(lex_file *lex) { int ch; lex_token_new(lex); ch = lex_getch(lex); while (ch != EOF && ch != '\n' && isspace(ch)) ch = lex_getch(lex); if (ch == '\n') return 1; if (!isident_start(ch)) { lexerror(lex, "invalid framename, must start with one of a-z or _, got %c", ch); return -1; } lex_tokench(lex, ch); if (!lex_finish_ident(lex)) return -1; lex_endtoken(lex); return 0; } /* read a list of $frames */ static bool lex_finish_frames(lex_file *lex) { do { size_t i; int rc; frame_macro m; rc = lex_parse_frame(lex); if (rc > 0) /* end of line */ return true; if (rc < 0) /* error */ return false; for (i = 0; i < vec_size(lex->frames); ++i) { if (!strcmp(lex->tok.value, lex->frames[i].name)) { lex->frames[i].value = lex->framevalue++; if (lexwarn(lex, WARN_FRAME_MACROS, "duplicate frame macro defined: `%s`", lex->tok.value)) return false; break; } } if (i < vec_size(lex->frames)) continue; m.value = lex->framevalue++; m.name = util_strdup(lex->tok.value); vec_shrinkto(lex->tok.value, 0); vec_push(lex->frames, m); } while (true); } static int GMQCC_WARN lex_finish_string(lex_file *lex, int quote) { int ch = 0; while (ch != EOF) { ch = lex_getch(lex); if (ch == quote) return TOKEN_STRINGCONST; if (lex->flags.preprocessing && ch == '\\') { lex_tokench(lex, ch); ch = lex_getch(lex); if (ch == EOF) { lexerror(lex, "unexpected end of file"); lex_ungetch(lex, EOF); /* next token to be TOKEN_EOF */ return (lex->tok.ttype = TOKEN_ERROR); } lex_tokench(lex, ch); } else if (ch == '\\') { ch = lex_getch(lex); if (ch == EOF) { lexerror(lex, "unexpected end of file"); lex_ungetch(lex, EOF); /* next token to be TOKEN_EOF */ return (lex->tok.ttype = TOKEN_ERROR); } switch (ch) { case '\\': break; case '\'': break; case '"': break; case 'a': ch = '\a'; break; case 'b': ch = '\b'; break; case 'r': ch = '\r'; break; case 'n': ch = '\n'; break; case 't': ch = '\t'; break; case 'f': ch = '\f'; break; case 'v': ch = '\v'; break; default: lexwarn(lex, WARN_UNKNOWN_CONTROL_SEQUENCE, "unrecognized control sequence: \\%c", ch); /* so we just add the character plus backslash no matter what it actually is */ lex_tokench(lex, '\\'); } /* add the character finally */ lex_tokench(lex, ch); } else lex_tokench(lex, ch); } lexerror(lex, "unexpected end of file within string constant"); lex_ungetch(lex, EOF); /* next token to be TOKEN_EOF */ return (lex->tok.ttype = TOKEN_ERROR); } static int GMQCC_WARN lex_finish_digit(lex_file *lex, int lastch) { bool ishex = false; int ch = lastch; /* parse a number... */ lex->tok.ttype = TOKEN_INTCONST; lex_tokench(lex, ch); ch = lex_getch(lex); if (ch != '.' && !isdigit(ch)) { if (lastch != '0' || ch != 'x') { /* end of the number or EOF */ lex_ungetch(lex, ch); lex_endtoken(lex); lex->tok.constval.i = lastch - '0'; return lex->tok.ttype; } ishex = true; } /* EOF would have been caught above */ if (ch != '.') { lex_tokench(lex, ch); ch = lex_getch(lex); while (isdigit(ch) || (ishex && isxdigit_only(ch))) { lex_tokench(lex, ch); ch = lex_getch(lex); } } /* NOT else, '.' can come from above as well */ if (ch == '.' && !ishex) { /* Allow floating comma in non-hex mode */ lex->tok.ttype = TOKEN_FLOATCONST; lex_tokench(lex, ch); /* continue digits-only */ ch = lex_getch(lex); while (isdigit(ch)) { lex_tokench(lex, ch); ch = lex_getch(lex); } } /* put back the last character */ /* but do not put back the trailing 'f' or a float */ if (lex->tok.ttype == TOKEN_FLOATCONST && ch == 'f') ch = lex_getch(lex); /* generally we don't want words to follow numbers: */ if (isident(ch)) { lexerror(lex, "unexpected trailing characters after number"); return (lex->tok.ttype = TOKEN_ERROR); } lex_ungetch(lex, ch); lex_endtoken(lex); if (lex->tok.ttype == TOKEN_FLOATCONST) lex->tok.constval.f = strtod(lex->tok.value, NULL); else lex->tok.constval.i = strtol(lex->tok.value, NULL, 0); return lex->tok.ttype; } int lex_do(lex_file *lex) { int ch, nextch, thirdch; lex_token_new(lex); #if 0 if (!lex->tok) return TOKEN_FATAL; #endif while (true) { ch = lex_skipwhite(lex); if (!lex->flags.mergelines || ch != '\\') break; ch = lex_getch(lex); if (ch != '\n') { lex_ungetch(lex, ch); ch = '\\'; break; } /* we reached a linemerge */ lex_tokench(lex, '\n'); continue; } if (lex->flags.preprocessing && (ch == TOKEN_WHITE || ch == TOKEN_EOL || ch == TOKEN_FATAL)) { return (lex->tok.ttype = ch); } lex->sline = lex->line; lex->tok.ctx.line = lex->sline; lex->tok.ctx.file = lex->name; if (lex->eof) return (lex->tok.ttype = TOKEN_FATAL); if (ch == EOF) { lex->eof = true; return (lex->tok.ttype = TOKEN_EOF); } /* modelgen / spiritgen commands */ if (ch == '$') { const char *v; size_t frame; ch = lex_getch(lex); if (!isident_start(ch)) { lexerror(lex, "hanging '$' modelgen/spritegen command line"); return lex_do(lex); } lex_tokench(lex, ch); if (!lex_finish_ident(lex)) return (lex->tok.ttype = TOKEN_ERROR); lex_endtoken(lex); /* skip the known commands */ v = lex->tok.value; if (!strcmp(v, "frame") || !strcmp(v, "framesave")) { /* frame/framesave command works like an enum * similar to fteqcc we handle this in the lexer. * The reason for this is that it is sensitive to newlines, * which the parser is unaware of */ if (!lex_finish_frames(lex)) return (lex->tok.ttype = TOKEN_ERROR); return lex_do(lex); } if (!strcmp(v, "framevalue")) { ch = lex_getch(lex); while (ch != EOF && isspace(ch) && ch != '\n') ch = lex_getch(lex); if (!isdigit(ch)) { lexerror(lex, "$framevalue requires an integer parameter"); return lex_do(lex); } lex_token_new(lex); lex->tok.ttype = lex_finish_digit(lex, ch); lex_endtoken(lex); if (lex->tok.ttype != TOKEN_INTCONST) { lexerror(lex, "$framevalue requires an integer parameter"); return lex_do(lex); } lex->framevalue = lex->tok.constval.i; return lex_do(lex); } if (!strcmp(v, "framerestore")) { int rc; lex_token_new(lex); rc = lex_parse_frame(lex); if (rc > 0) { lexerror(lex, "$framerestore requires a framename parameter"); return lex_do(lex); } if (rc < 0) return (lex->tok.ttype = TOKEN_FATAL); v = lex->tok.value; for (frame = 0; frame < vec_size(lex->frames); ++frame) { if (!strcmp(v, lex->frames[frame].name)) { lex->framevalue = lex->frames[frame].value; return lex_do(lex); } } lexerror(lex, "unknown framename `%s`", v); return lex_do(lex); } if (!strcmp(v, "modelname")) { int rc; lex_token_new(lex); rc = lex_parse_frame(lex); if (rc > 0) { lexerror(lex, "$modelname requires a parameter"); return lex_do(lex); } if (rc < 0) return (lex->tok.ttype = TOKEN_FATAL); v = lex->tok.value; if (lex->modelname) { frame_macro m; m.value = lex->framevalue; m.name = lex->modelname; lex->modelname = NULL; vec_push(lex->frames, m); } lex->modelname = lex->tok.value; lex->tok.value = NULL; return lex_do(lex); } if (!strcmp(v, "flush")) { size_t fi; for (fi = 0; fi < vec_size(lex->frames); ++fi) mem_d(lex->frames[fi].name); vec_free(lex->frames); /* skip line (fteqcc does it too) */ ch = lex_getch(lex); while (ch != EOF && ch != '\n') ch = lex_getch(lex); return lex_do(lex); } if (!strcmp(v, "cd") || !strcmp(v, "origin") || !strcmp(v, "base") || !strcmp(v, "flags") || !strcmp(v, "scale") || !strcmp(v, "skin")) { /* skip line */ ch = lex_getch(lex); while (ch != EOF && ch != '\n') ch = lex_getch(lex); return lex_do(lex); } for (frame = 0; frame < vec_size(lex->frames); ++frame) { if (!strcmp(v, lex->frames[frame].name)) { lex->tok.constval.i = lex->frames[frame].value; return (lex->tok.ttype = TOKEN_INTCONST); } } lexerror(lex, "invalid frame macro"); return lex_do(lex); } /* single-character tokens */ switch (ch) { case '[': case '(': case ':': case '?': lex_tokench(lex, ch); lex_endtoken(lex); if (lex->flags.noops) return (lex->tok.ttype = ch); else return (lex->tok.ttype = TOKEN_OPERATOR); case ')': case ';': case '{': case '}': case ']': case '#': lex_tokench(lex, ch); lex_endtoken(lex); return (lex->tok.ttype = ch); default: break; } if (lex->flags.noops) { /* Detect characters early which are normally * operators OR PART of an operator. */ switch (ch) { /* case '+': case '-': */ case '*': case '/': case '<': case '>': case '=': case '&': case '|': case '^': case '~': case ',': case '!': lex_tokench(lex, ch); lex_endtoken(lex); return (lex->tok.ttype = ch); default: break; } if (ch == '.') { lex_tokench(lex, ch); /* peak ahead once */ nextch = lex_getch(lex); if (nextch != '.') { lex_ungetch(lex, nextch); lex_endtoken(lex); return (lex->tok.ttype = ch); } /* peak ahead again */ nextch = lex_getch(lex); if (nextch != '.') { lex_ungetch(lex, nextch); lex_ungetch(lex, '.'); lex_endtoken(lex); return (lex->tok.ttype = ch); } /* fill the token to be "..." */ lex_tokench(lex, ch); lex_tokench(lex, ch); lex_endtoken(lex); return (lex->tok.ttype = TOKEN_DOTS); } } if (ch == ',' || ch == '.') { lex_tokench(lex, ch); lex_endtoken(lex); return (lex->tok.ttype = TOKEN_OPERATOR); } if (ch == '+' || ch == '-' || /* ++, --, +=, -= and -> as well! */ ch == '>' || ch == '<' || /* <<, >>, <=, >= */ ch == '=' || ch == '!' || /* ==, != */ ch == '&' || ch == '|') /* &&, ||, &=, |= */ { lex_tokench(lex, ch); nextch = lex_getch(lex); if (nextch == ch || nextch == '=') { lex_tokench(lex, nextch); } else if (ch == '-' && nextch == '>') { lex_tokench(lex, nextch); } else if (ch == '&' && nextch == '~') { thirdch = lex_getch(lex); if (thirdch != '=') { lex_ungetch(lex, thirdch); lex_ungetch(lex, nextch); } else { lex_tokench(lex, nextch); lex_tokench(lex, thirdch); } } else lex_ungetch(lex, nextch); lex_endtoken(lex); return (lex->tok.ttype = TOKEN_OPERATOR); } /* if (ch == '^' || ch == '~' || ch == '!') { lex_tokench(lex, ch); lex_endtoken(lex); return (lex->tok.ttype = TOKEN_OPERATOR); } */ if (ch == '*' || ch == '/') /* *=, /= */ { lex_tokench(lex, ch); nextch = lex_getch(lex); if (nextch == '=') { lex_tokench(lex, nextch); } else lex_ungetch(lex, nextch); lex_endtoken(lex); return (lex->tok.ttype = TOKEN_OPERATOR); } if (isident_start(ch)) { const char *v; lex_tokench(lex, ch); if (!lex_finish_ident(lex)) { /* error? */ return (lex->tok.ttype = TOKEN_ERROR); } lex_endtoken(lex); lex->tok.ttype = TOKEN_IDENT; v = lex->tok.value; if (!strcmp(v, "void")) { lex->tok.ttype = TOKEN_TYPENAME; lex->tok.constval.t = TYPE_VOID; } else if (!strcmp(v, "int")) { lex->tok.ttype = TOKEN_TYPENAME; lex->tok.constval.t = TYPE_INTEGER; } else if (!strcmp(v, "float")) { lex->tok.ttype = TOKEN_TYPENAME; lex->tok.constval.t = TYPE_FLOAT; } else if (!strcmp(v, "string")) { lex->tok.ttype = TOKEN_TYPENAME; lex->tok.constval.t = TYPE_STRING; } else if (!strcmp(v, "entity")) { lex->tok.ttype = TOKEN_TYPENAME; lex->tok.constval.t = TYPE_ENTITY; } else if (!strcmp(v, "vector")) { lex->tok.ttype = TOKEN_TYPENAME; lex->tok.constval.t = TYPE_VECTOR; } else { size_t kw; for (kw = 0; kw < num_keywords_qc; ++kw) { if (!strcmp(v, keywords_qc[kw])) return (lex->tok.ttype = TOKEN_KEYWORD); } if (opts_standard != COMPILER_QCC) { for (kw = 0; kw < num_keywords_fg; ++kw) { if (!strcmp(v, keywords_fg[kw])) return (lex->tok.ttype = TOKEN_KEYWORD); } } } return lex->tok.ttype; } if (ch == '"') { lex->flags.nodigraphs = true; if (lex->flags.preprocessing) lex_tokench(lex, ch); lex->tok.ttype = lex_finish_string(lex, '"'); if (lex->flags.preprocessing) lex_tokench(lex, ch); while (!lex->flags.preprocessing && lex->tok.ttype == TOKEN_STRINGCONST) { /* Allow c style "string" "continuation" */ ch = lex_skipwhite(lex); if (ch != '"') { lex_ungetch(lex, ch); break; } lex->tok.ttype = lex_finish_string(lex, '"'); } lex->flags.nodigraphs = false; lex_endtoken(lex); return lex->tok.ttype; } if (ch == '\'') { /* we parse character constants like string, * but return TOKEN_CHARCONST, or a vector type if it fits... * Likewise actual unescaping has to be done by the parser. * The difference is we don't allow 'char' 'continuation'. */ if (lex->flags.preprocessing) lex_tokench(lex, ch); lex->tok.ttype = lex_finish_string(lex, '\''); if (lex->flags.preprocessing) lex_tokench(lex, ch); lex_endtoken(lex); /* It's a vector if we can successfully scan 3 floats */ #ifdef WIN32 if (sscanf_s(lex->tok.value, " %f %f %f ", &lex->tok.constval.v.x, &lex->tok.constval.v.y, &lex->tok.constval.v.z) == 3) #else if (sscanf(lex->tok.value, " %f %f %f ", &lex->tok.constval.v.x, &lex->tok.constval.v.y, &lex->tok.constval.v.z) == 3) #endif { lex->tok.ttype = TOKEN_VECTORCONST; } return lex->tok.ttype; } if (isdigit(ch)) { lex->tok.ttype = lex_finish_digit(lex, ch); lex_endtoken(lex); return lex->tok.ttype; } lexerror(lex, "unknown token"); return (lex->tok.ttype = TOKEN_ERROR); }