X-Git-Url: https://git.xonotic.org/?a=blobdiff_plain;f=lexer.c;h=e68af816853ad5dc0637e681f5e685831f337d43;hb=2994d308a04bfcca8d94cada14c20cc00403d960;hp=ebbe1880c01f330ecb24fdf0ec81827f00000c55;hpb=09fa41318de29930b9c0f909d76d66a7317414fe;p=xonotic%2Fgmqcc.git diff --git a/lexer.c b/lexer.c index ebbe188..e68af81 100644 --- a/lexer.c +++ b/lexer.c @@ -7,135 +7,189 @@ #include "lexer.h" MEM_VEC_FUNCTIONS(token, char, value) +MEM_VEC_FUNCTIONS(lex_file, frame_macro, frames) + +VECTOR_MAKE(char*, lex_filenames); void lexerror(lex_file *lex, const char *fmt, ...) { va_list ap; - if (lex) - printf("error %s:%lu: ", lex->name, (unsigned long)lex->sline); - else - printf("error: "); + va_start(ap, fmt); + vprintmsg(LVL_ERROR, lex->name, lex->sline, "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); - vprintf(fmt, ap); + vprintmsg(lvl, lex->name, lex->sline, "warning", fmt, ap); va_end(ap); - printf("\n"); + 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; + 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); + 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; + 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; + token *n; - do { - n = t->next; - token_delete(t); - t = n; - } while(t); + 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; + 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 + lex->tok.value_count = 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 = fopen(file, "rb"); + lex_file *lex; + FILE *in = util_fopen(file, "rb"); + + if (!in) { + lexerror(NULL, "open failed: '%s'\n", file); + return NULL; + } - 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; + } - lex = (lex_file*)mem_a(sizeof(*lex)); - if (!lex) { - fclose(in); - lexerror(NULL, "out of memory\n"); - return NULL; - } + memset(lex, 0, sizeof(*lex)); - memset(lex, 0, sizeof(*lex)); + lex->file = in; + lex->name = util_strdup(file); + lex->line = 1; /* we start counting at 1 */ - lex->file = in; - lex->name = util_strdup(file); - lex->line = 1; /* we start counting at 1 */ + lex->peekpos = 0; + lex->eof = false; - lex->peekpos = 0; + lex_filenames_add(lex->name); - return lex; + return lex; +} + +void lex_cleanup(void) +{ + size_t i; + for (i = 0; i < lex_filenames_elements; ++i) + mem_d(lex_filenames_data[i]); + mem_d(lex_filenames_data); } void lex_close(lex_file *lex) { - if (lex->file) - fclose(lex->file); - if (lex->tok) - token_delete(lex->tok); - mem_d(lex->name); - mem_d(lex); + size_t i; + for (i = 0; i < lex->frames_count; ++i) + mem_d(lex->frames[i].name); + MEM_VECTOR_CLEAR(lex, frames); + + if (lex->modelname) + mem_d(lex->modelname); + + if (lex->file) + fclose(lex->file); +#if 0 + if (lex->tok) + token_delete(lex->tok); +#else + MEM_VECTOR_CLEAR(&(lex->tok), value); +#endif + /* mem_d(lex->name); collected in lex_filenames */ + mem_d(lex); } /* Get or put-back data @@ -143,28 +197,78 @@ void lex_close(lex_file *lex) * 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 = fgetc(lex->file); + if (c2 != '?') { + lex_ungetch(lex, c2); + return old; + } + + c3 = fgetc(lex->file); + 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 = fgetc(lex->file); + 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->peek[lex->peekpos] == '\n') - lex->line++; - return lex->peek[lex->peekpos]; - } - - ch = fgetc(lex->file); - if (ch == '\n') - lex->line++; - return ch; + int ch; + + if (lex->peekpos) { + lex->peekpos--; + if (lex->peek[lex->peekpos] == '\n') + lex->line++; + return lex->peek[lex->peekpos]; + } + + ch = fgetc(lex->file); + if (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 (ch == '\n') - lex->line--; + lex->peek[lex->peekpos++] = ch; + if (ch == '\n') + lex->line--; } /* classify characters @@ -174,12 +278,12 @@ static void lex_ungetch(lex_file *lex, int ch) /* Idents are alphanumberic, but they start with alpha or _ */ static bool isident_start(int ch) { - return isalpha(ch) || ch == '_'; + return isalpha(ch) || ch == '_'; } static bool isident(int ch) { - return isident_start(ch) || isdigit(ch); + return isident_start(ch) || isdigit(ch); } /* isxdigit_only is used when we already know it's not a digit @@ -187,7 +291,28 @@ static bool isident(int ch) */ static bool isxdigit_only(int ch) { - return (ch >= 'a' && ch <= 'f') || (ch >= 'A' && ch <= 'F'); + return (ch >= 'a' && ch <= 'f') || (ch >= 'A' && ch <= 'F'); +} + +/* Append a character to the token buffer */ +static bool GMQCC_WARN lex_tokench(lex_file *lex, int ch) +{ + if (!token_value_add(&lex->tok, ch)) { + lexerror(lex, "out of memory"); + return false; + } + return true; +} + +/* Append a trailing null-byte */ +static bool GMQCC_WARN lex_endtoken(lex_file *lex) +{ + if (!token_value_add(&lex->tok, 0)) { + lexerror(lex, "out of memory"); + return false; + } + lex->tok.value_count--; + return true; } /* Skip whitespace and comments and return the first @@ -224,418 +349,787 @@ printf( "line one\n" */ static int lex_skipwhite(lex_file *lex) { - int ch = 0; - - do - { - ch = lex_getch(lex); - while (ch != EOF && isspace(ch)) ch = lex_getch(lex); - - if (ch == '/') { - ch = lex_getch(lex); - if (ch == '/') - { - /* one line comment */ - ch = lex_getch(lex); - - /* check for special: '/', '/', '*', '/' */ - if (ch == '*') { - ch = lex_getch(lex); - if (ch == '/') { - ch = ' '; - continue; - } - } - - while (ch != EOF && ch != '\n') { - ch = lex_getch(lex); - } - continue; - } - if (ch == '*') - { - /* multiline comment */ - while (ch != EOF) - { - ch = lex_getch(lex); - if (ch == '*') { - ch = lex_getch(lex); - if (ch == '/') { - ch = lex_getch(lex); - break; - } - } - } - if (ch == '/') /* allow *//* direct following comment */ - { - lex_ungetch(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)); - - return ch; + int ch = 0; + bool haswhite = false; + + do + { + ch = lex_getch(lex); + while (ch != EOF && isspace(ch)) { + if (lex->flags.preprocessing) { + if (ch == '\n') { + /* end-of-line */ + /* see if there was whitespace first */ + if (haswhite) { /* (lex->tok.value_count) { */ + lex_ungetch(lex, ch); + if (!lex_endtoken(lex)) + return TOKEN_FATAL; + return TOKEN_WHITE; + } + /* otherwise return EOL */ + return TOKEN_EOL; + } + haswhite = true; + if (!lex_tokench(lex, ch)) + return TOKEN_FATAL; + } + 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; + if (!lex_tokench(lex, '/') || + !lex_tokench(lex, '/')) + { + return TOKEN_FATAL; + } + } + + while (ch != EOF && ch != '\n') { + if (lex->flags.preprocessing && !lex_tokench(lex, ch)) + return TOKEN_FATAL; + ch = lex_getch(lex); + } + if (lex->flags.preprocessing) { + lex_ungetch(lex, '\n'); + if (!lex_endtoken(lex)) + return TOKEN_FATAL; + return TOKEN_WHITE; + } + continue; + } + if (ch == '*') + { + /* multiline comment */ + if (lex->flags.preprocessing) { + haswhite = true; + if (!lex_tokench(lex, '/') || + !lex_tokench(lex, '*')) + { + return TOKEN_FATAL; + } + } + + while (ch != EOF) + { + ch = lex_getch(lex); + if (ch == '*') { + ch = lex_getch(lex); + if (ch == '/') { + if (lex->flags.preprocessing) { + if (!lex_tokench(lex, '*') || + !lex_tokench(lex, '/')) + { + return TOKEN_FATAL; + } + } + break; + } + } + if (lex->flags.preprocessing) { + if (!lex_tokench(lex, ch)) + return TOKEN_FATAL; + } + } + 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) { + if (!lex_endtoken(lex)) + return TOKEN_FATAL; + lex_ungetch(lex, ch); + return TOKEN_WHITE; + } + return ch; } -/* Append a character to the token buffer */ -static bool GMQCC_WARN lex_tokench(lex_file *lex, int ch) +/* Get a token */ +static bool GMQCC_WARN lex_finish_ident(lex_file *lex) { - if (!token_value_add(lex->tok, ch)) { - lexerror(lex, "out of memory"); - return false; - } - return true; -} + int ch; -/* Append a trailing null-byte */ -static bool GMQCC_WARN lex_endtoken(lex_file *lex) -{ - if (!token_value_add(lex->tok, 0)) { - lexerror(lex, "out of memory"); - return false; - } - lex->tok->value_count--; - return true; + ch = lex_getch(lex); + while (ch != EOF && isident(ch)) + { + if (!lex_tokench(lex, ch)) + return (lex->tok.ttype = TOKEN_FATAL); + ch = lex_getch(lex); + } + + /* last ch was not an ident ch: */ + lex_ungetch(lex, ch); + + return true; } -/* Get a token */ -static bool GMQCC_WARN lex_finish_ident(lex_file *lex) +/* read one ident for the frame list */ +static int lex_parse_frame(lex_file *lex) { - int ch; + int ch; + + lex_token_new(lex); + + ch = lex_getch(lex); + while (ch != EOF && ch != '\n' && isspace(ch)) + ch = lex_getch(lex); - ch = lex_getch(lex); - while (ch != EOF && isident(ch)) - { - if (!lex_tokench(lex, ch)) - return (lex->tok->ttype = TOKEN_FATAL); - ch = lex_getch(lex); - } + if (ch == '\n') + return 1; - /* last ch was not an ident ch: */ - lex_ungetch(lex, ch); + if (!isident_start(ch)) { + lexerror(lex, "invalid framename, must start with one of a-z or _, got %c", ch); + return -1; + } - return true; + if (!lex_tokench(lex, ch)) + return -1; + if (!lex_finish_ident(lex)) + return -1; + if (!lex_endtoken(lex)) + return -1; + 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 < lex->frames_count; ++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 < lex->frames_count) + continue; + + m.value = lex->framevalue++; + m.name = lex->tok.value; + lex->tok.value = NULL; + lex->tok.value_alloc = lex->tok.value_count = 0; + if (!lex_file_frames_add(lex, m)) { + lexerror(lex, "out of memory"); + return false; + } + } 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_tokench(lex, ch)) - return (lex->tok->ttype = TOKEN_FATAL); - - /* as lexer we only care about \" to not terminate the string prematurely */ - 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); - } - /* so we just add the next character no matter what it actually is */ - if (!lex_tokench(lex, ch)) - return (lex->tok->ttype = TOKEN_FATAL); - } - } - 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); + int ch = 0; + + while (ch != EOF) + { + ch = lex_getch(lex); + if (ch == quote) + return TOKEN_STRINGCONST; + + if (!lex->flags.preprocessing && 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 '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 */ + if (!lex_tokench(lex, '\\')) + return (lex->tok.ttype = TOKEN_FATAL); + } + /* add the character finally */ + if (!lex_tokench(lex, ch)) + return (lex->tok.ttype = TOKEN_FATAL); + } + else if (!lex_tokench(lex, ch)) + return (lex->tok.ttype = TOKEN_FATAL); + } + 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; - - if (!lex_tokench(lex, ch)) - return (lex->tok->ttype = TOKEN_FATAL); - - ch = lex_getch(lex); - if (ch != '.' && !isdigit(ch)) - { - if (lastch != '0' || ch != 'x') - { - /* end of the number or EOF */ - lex_ungetch(lex, ch); - if (!lex_endtoken(lex)) - return (lex->tok->ttype = TOKEN_FATAL); - - lex->tok->constval.i = lastch - '0'; - return lex->tok->ttype; - } - - ishex = true; - } - - /* EOF would have been caught above */ - - if (ch != '.') - { - if (!lex_tokench(lex, ch)) - return (lex->tok->ttype = TOKEN_FATAL); - ch = lex_getch(lex); - while (isdigit(ch) || (ishex && isxdigit_only(ch))) - { - if (!lex_tokench(lex, ch)) - return (lex->tok->ttype = TOKEN_FATAL); - 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; - if (!lex_tokench(lex, ch)) - return (lex->tok->ttype = TOKEN_FATAL); - - /* continue digits-only */ - ch = lex_getch(lex); - while (isdigit(ch)) - { - if (!lex_tokench(lex, ch)) - return (lex->tok->ttype = TOKEN_FATAL); - 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); - - if (!lex_endtoken(lex)) - return (lex->tok->ttype = TOKEN_FATAL); - 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; + bool ishex = false; + + int ch = lastch; + + /* parse a number... */ + lex->tok.ttype = TOKEN_INTCONST; + + if (!lex_tokench(lex, ch)) + return (lex->tok.ttype = TOKEN_FATAL); + + ch = lex_getch(lex); + if (ch != '.' && !isdigit(ch)) + { + if (lastch != '0' || ch != 'x') + { + /* end of the number or EOF */ + lex_ungetch(lex, ch); + if (!lex_endtoken(lex)) + return (lex->tok.ttype = TOKEN_FATAL); + + lex->tok.constval.i = lastch - '0'; + return lex->tok.ttype; + } + + ishex = true; + } + + /* EOF would have been caught above */ + + if (ch != '.') + { + if (!lex_tokench(lex, ch)) + return (lex->tok.ttype = TOKEN_FATAL); + ch = lex_getch(lex); + while (isdigit(ch) || (ishex && isxdigit_only(ch))) + { + if (!lex_tokench(lex, ch)) + return (lex->tok.ttype = TOKEN_FATAL); + 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; + if (!lex_tokench(lex, ch)) + return (lex->tok.ttype = TOKEN_FATAL); + + /* continue digits-only */ + ch = lex_getch(lex); + while (isdigit(ch)) + { + if (!lex_tokench(lex, ch)) + return (lex->tok.ttype = TOKEN_FATAL); + 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); + + if (!lex_endtoken(lex)) + return (lex->tok.ttype = TOKEN_FATAL); + 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; - - if (lex->tok) - token_delete(lex->tok); - lex->tok = token_new(); - if (!lex->tok) - return TOKEN_FATAL; - - ch = lex_skipwhite(lex); - lex->sline = lex->line; - lex->tok->ctx.line = lex->sline; - lex->tok->ctx.file = lex->name; - - if (ch == EOF) - return (lex->tok->ttype = TOKEN_EOF); - - /* single-character tokens */ - switch (ch) - { - case ';': - case '(': - case ')': - case '{': - case '}': - case '[': - case ']': - - case ',': - - case '#': - - 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 '~': - return ch; - default: - break; - } - } - - if (ch == '+' || ch == '-' || /* ++, --, +=, -= and -> as well! */ - ch == '>' || ch == '<' || /* <<, >>, <=, >= */ - ch == '=' || /* == */ - ch == '&' || ch == '|') /* &&, ||, &=, |= */ - { - if (!lex_tokench(lex, ch)) - return (lex->tok->ttype = TOKEN_FATAL); - - nextch = lex_getch(lex); - if (nextch == ch || nextch == '=') { - if (!lex_tokench(lex, nextch)) - return (lex->tok->ttype = TOKEN_FATAL); - } else if (ch == '-' && nextch == '>') { - if (!lex_tokench(lex, nextch)) - return (lex->tok->ttype = TOKEN_FATAL); - } else - lex_ungetch(lex, nextch); - - if (!lex_endtoken(lex)) - return (lex->tok->ttype = TOKEN_FATAL); - return (lex->tok->ttype = TOKEN_OPERATOR); - } - - if (ch == '^' || ch == '~' || ch == '!') - { - if (!lex_tokench(lex, ch) || - !lex_endtoken(lex)) - { - return (lex->tok->ttype = TOKEN_FATAL); - } - return (lex->tok->ttype = TOKEN_OPERATOR); - } - - if (ch == '*' || ch == '/') /* *=, /= */ - { - if (!lex_tokench(lex, ch)) - return (lex->tok->ttype = TOKEN_FATAL); - - nextch = lex_getch(lex); - if (nextch == '=') { - if (!lex_tokench(lex, nextch)) - return (lex->tok->ttype = TOKEN_FATAL); - } else - lex_ungetch(lex, nextch); - - if (!lex_endtoken(lex)) - return (lex->tok->ttype = TOKEN_FATAL); - return (lex->tok->ttype = TOKEN_OPERATOR); - } - - if (isident_start(ch)) - { - const char *v; - if (!lex_tokench(lex, ch)) - return (lex->tok->ttype = TOKEN_FATAL); - if (!lex_finish_ident(lex)) { - /* error? */ - return (lex->tok->ttype = TOKEN_ERROR); - } - if (!lex_endtoken(lex)) - return (lex->tok->ttype = TOKEN_FATAL); - 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 if (!strcmp(v, "for") || - !strcmp(v, "while") || - !strcmp(v, "do") || - !strcmp(v, "var") || - !strcmp(v, "const")) - lex->tok->ttype = TOKEN_KEYWORD; - - return lex->tok->ttype; - } - - if (ch == '"') - { - lex->tok->ttype = lex_finish_string(lex, '"'); - while (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, '"'); - } - if (!lex_endtoken(lex)) - return (lex->tok->ttype = TOKEN_FATAL); - 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'. - */ - lex->tok->ttype = lex_finish_string(lex, '\''); - if (!lex_endtoken(lex)) - return (lex->tok->ttype = TOKEN_FATAL); - - /* It's a vector if we can successfully scan 3 floats */ - if (sscanf(lex->tok->value, " %f %f %f ", &lex->tok->constval.v.x, &lex->tok->constval.v.y, &lex->tok->constval.v.z) == 3) - { - lex->tok->ttype = TOKEN_VECTORCONST; - } - - return lex->tok->ttype; - } - - if (isdigit(ch)) - { - lex->tok->ttype = lex_finish_digit(lex, ch); - if (!lex_endtoken(lex)) - return (lex->tok->ttype = TOKEN_FATAL); - return lex->tok->ttype; - } - - lexerror(lex, "unknown token"); - return (lex->tok->ttype = TOKEN_ERROR); + int ch, nextch; + + lex_token_new(lex); +#if 0 + if (!lex->tok) + return TOKEN_FATAL; +#endif + + ch = lex_skipwhite(lex); + lex->sline = lex->line; + lex->tok.ctx.line = lex->sline; + lex->tok.ctx.file = lex->name; + + if (lex->flags.preprocessing && (ch == TOKEN_WHITE || ch == TOKEN_EOL || ch == TOKEN_FATAL)) { + return (lex->tok.ttype = ch); + } + + 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 '$' modelgen/spritegen command line"); + return lex_do(lex); + } + if (!lex_tokench(lex, ch)) + return (lex->tok.ttype = TOKEN_FATAL); + if (!lex_finish_ident(lex)) + return (lex->tok.ttype = TOKEN_ERROR); + if (!lex_endtoken(lex)) + return (lex->tok.ttype = TOKEN_FATAL); + /* skip the known commands */ + v = lex->tok.value; + + if (!strcmp(v, "frame") || !strcmp(v, "framesave")) + { + /* frame/framesave command works like an enum + * similar to fteqcc we handle this in the lexer. + * The reason for this is that it is sensitive to newlines, + * which the parser is unaware of + */ + if (!lex_finish_frames(lex)) + return (lex->tok.ttype = TOKEN_ERROR); + return lex_do(lex); + } + + if (!strcmp(v, "framevalue")) + { + ch = lex_getch(lex); + while (ch != EOF && isspace(ch) && ch != '\n') + ch = lex_getch(lex); + + if (!isdigit(ch)) { + lexerror(lex, "$framevalue requires an integer parameter"); + return lex_do(lex); + } + + lex_token_new(lex); + lex->tok.ttype = lex_finish_digit(lex, ch); + if (!lex_endtoken(lex)) + return (lex->tok.ttype = TOKEN_FATAL); + 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 < lex->frames_count; ++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, "$framerestore requires a framename 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; + if (!lex_file_frames_add(lex, m)) { + lexerror(lex, "out of memory"); + return (lex->tok.ttype = TOKEN_FATAL); + } + } + lex->modelname = lex->tok.value; + lex->tok.value = NULL; + lex->tok.value_alloc = lex->tok.value_count = 0; + for (frame = 0; frame < lex->frames_count; ++frame) { + if (!strcmp(v, lex->frames[frame].name)) { + lex->framevalue = lex->frames[frame].value; + break; + } + } + return lex_do(lex); + } + + if (!strcmp(v, "flush")) + { + size_t frame; + for (frame = 0; frame < lex->frames_count; ++frame) + mem_d(lex->frames[frame].name); + MEM_VECTOR_CLEAR(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 < lex->frames_count; ++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 '(': + if (!lex_tokench(lex, ch) || + !lex_endtoken(lex)) + { + return (lex->tok.ttype = TOKEN_FATAL); + } + if (lex->flags.noops) + return (lex->tok.ttype = ch); + else + return (lex->tok.ttype = TOKEN_OPERATOR); + case ')': + case ';': + case '{': + case '}': + case '[': + if (!lex->flags.noops) + return (lex->tok.ttype = TOKEN_OPERATOR); + case ']': + + case '#': + if (!lex_tokench(lex, ch) || + !lex_endtoken(lex)) + { + return (lex->tok.ttype = TOKEN_FATAL); + } + 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 '!': + if (!lex_tokench(lex, ch) || + !lex_endtoken(lex)) + { + return (lex->tok.ttype = TOKEN_FATAL); + } + return (lex->tok.ttype = ch); + default: + break; + } + + if (ch == '.') + { + if (!lex_tokench(lex, ch)) + return (lex->tok.ttype = TOKEN_FATAL); + /* peak ahead once */ + nextch = lex_getch(lex); + if (nextch != '.') { + lex_ungetch(lex, nextch); + if (!lex_endtoken(lex)) + return (lex->tok.ttype = TOKEN_FATAL); + return (lex->tok.ttype = ch); + } + /* peak ahead again */ + nextch = lex_getch(lex); + if (nextch != '.') { + lex_ungetch(lex, nextch); + lex_ungetch(lex, nextch); + if (!lex_endtoken(lex)) + return (lex->tok.ttype = TOKEN_FATAL); + return (lex->tok.ttype = ch); + } + /* fill the token to be "..." */ + if (!lex_tokench(lex, ch) || + !lex_tokench(lex, ch) || + !lex_endtoken(lex)) + { + return (lex->tok.ttype = TOKEN_FATAL); + } + return (lex->tok.ttype = TOKEN_DOTS); + } + } + + if (ch == ',' || ch == '.') { + if (!lex_tokench(lex, ch) || + !lex_endtoken(lex)) + { + return (lex->tok.ttype = TOKEN_FATAL); + } + return (lex->tok.ttype = TOKEN_OPERATOR); + } + + if (ch == '+' || ch == '-' || /* ++, --, +=, -= and -> as well! */ + ch == '>' || ch == '<' || /* <<, >>, <=, >= */ + ch == '=' || ch == '!' || /* ==, != */ + ch == '&' || ch == '|') /* &&, ||, &=, |= */ + { + if (!lex_tokench(lex, ch)) + return (lex->tok.ttype = TOKEN_FATAL); + + nextch = lex_getch(lex); + if (nextch == ch || nextch == '=') { + if (!lex_tokench(lex, nextch)) + return (lex->tok.ttype = TOKEN_FATAL); + } else if (ch == '-' && nextch == '>') { + if (!lex_tokench(lex, nextch)) + return (lex->tok.ttype = TOKEN_FATAL); + } else + lex_ungetch(lex, nextch); + + if (!lex_endtoken(lex)) + return (lex->tok.ttype = TOKEN_FATAL); + return (lex->tok.ttype = TOKEN_OPERATOR); + } + + /* + if (ch == '^' || ch == '~' || ch == '!') + { + if (!lex_tokench(lex, ch) || + !lex_endtoken(lex)) + { + return (lex->tok.ttype = TOKEN_FATAL); + } + return (lex->tok.ttype = TOKEN_OPERATOR); + } + */ + + if (ch == '*' || ch == '/') /* *=, /= */ + { + if (!lex_tokench(lex, ch)) + return (lex->tok.ttype = TOKEN_FATAL); + + nextch = lex_getch(lex); + if (nextch == '=') { + if (!lex_tokench(lex, nextch)) + return (lex->tok.ttype = TOKEN_FATAL); + } else + lex_ungetch(lex, nextch); + + if (!lex_endtoken(lex)) + return (lex->tok.ttype = TOKEN_FATAL); + return (lex->tok.ttype = TOKEN_OPERATOR); + } + + if (isident_start(ch)) + { + const char *v; + + if (!lex_tokench(lex, ch)) + return (lex->tok.ttype = TOKEN_FATAL); + if (!lex_finish_ident(lex)) { + /* error? */ + return (lex->tok.ttype = TOKEN_ERROR); + } + if (!lex_endtoken(lex)) + return (lex->tok.ttype = TOKEN_FATAL); + 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 if (!strcmp(v, "for") || + !strcmp(v, "while") || + !strcmp(v, "do") || + !strcmp(v, "if") || + !strcmp(v, "else") || + !strcmp(v, "local") || + !strcmp(v, "return") || + !strcmp(v, "const")) + { + lex->tok.ttype = TOKEN_KEYWORD; + } + else if (opts_standard != COMPILER_QCC) + { + /* other standards reserve these keywords */ + if (!strcmp(v, "switch") || + !strcmp(v, "struct") || + !strcmp(v, "union") || + !strcmp(v, "break") || + !strcmp(v, "continue") || + !strcmp(v, "var")) + { + lex->tok.ttype = TOKEN_KEYWORD; + } + } + + return lex->tok.ttype; + } + + if (ch == '"') + { + lex->flags.nodigraphs = true; + if (lex->flags.preprocessing && !lex_tokench(lex, ch)) + return TOKEN_FATAL; + lex->tok.ttype = lex_finish_string(lex, '"'); + if (lex->flags.preprocessing && !lex_tokench(lex, ch)) + return TOKEN_FATAL; + 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; + if (!lex_endtoken(lex)) + return (lex->tok.ttype = TOKEN_FATAL); + 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)) + return TOKEN_FATAL; + lex->tok.ttype = lex_finish_string(lex, '\''); + if (lex->flags.preprocessing && !lex_tokench(lex, ch)) + return TOKEN_FATAL; + if (!lex_endtoken(lex)) + return (lex->tok.ttype = TOKEN_FATAL); + + /* 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); + if (!lex_endtoken(lex)) + return (lex->tok.ttype = TOKEN_FATAL); + return lex->tok.ttype; + } + + lexerror(lex, "unknown token"); + return (lex->tok.ttype = TOKEN_ERROR); }