/*************************************************************************** eval_read.c (c) 2000-2017 BenoƮt Minisini This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ***************************************************************************/ #define __EVAL_READ_C #include #include "gb_common.h" #include "gb_error.h" #include "gb_table.h" #include "eval.h" #include "eval_read.h" //#define DEBUG 1 //#define ENABLE_BIG_COMMENT PUBLIC const char *READ_source_ptr; #define source_ptr READ_source_ptr static bool is_init = FALSE; static bool _begin_line = FALSE; static char ident_car[256]; static char first_car[256]; static char digit_car[256]; static char noop_car[256]; static char canres_car[256]; #undef isspace #define isspace(_c) (((uchar)_c) <= ' ') #undef isdigit #define isdigit(_c) (digit_car[_c]) enum { GOTO_BREAK, GOTO_SPACE, GOTO_NEWLINE, GOTO_COMMENT, GOTO_STRING, GOTO_IDENT, GOTO_QUOTED_IDENT, GOTO_NUMBER, GOTO_ERROR, GOTO_SHARP, GOTO_OTHER }; static void READ_init(void) { unsigned char i; if (!is_init) { for (i = 0; i < 255; i++) { ident_car[i] = (i != 0) && ((i >= 'A' && i <= 'Z') || (i >= 'a' && i <= 'z') || (i >= '0' && i <= '9') || strchr("$_?@", i)); digit_car[i] = (i >= '0' && i <= '9'); noop_car[i] = ident_car[i] || digit_car[i] || i <= ' '; canres_car[i] = (i != ':') && (i != '.') && (i != '!') && (i != '('); if (i == 0) first_car[i] = GOTO_BREAK; else if (i == '\n') first_car[i] = GOTO_NEWLINE; else if (i <= ' ') first_car[i] = GOTO_SPACE; else if (i == '\'') first_car[i] = GOTO_COMMENT; else if (i == '"') first_car[i] = GOTO_STRING; else if (i == '#') first_car[i] = GOTO_SHARP; else if ((i >= 'A' && i <= 'Z') || (i >= 'a' && i <= 'z') || i == '$' || i == '_') first_car[i] = GOTO_IDENT; else if (i == '{') first_car[i] = GOTO_QUOTED_IDENT; else if (i >= '0' && i <= '9') first_car[i] = GOTO_NUMBER; else if (i >= 127) first_car[i] = GOTO_ERROR; else first_car[i] = GOTO_OTHER; } is_init = TRUE; } } static bool _no_quote = FALSE; #define BUF_MAX 255 static char _buffer[BUF_MAX + 1]; PUBLIC char *READ_get_pattern(PATTERN *pattern) { int type = PATTERN_type(*pattern); int index = PATTERN_index(*pattern); const char *str; const char *before = _no_quote ? "" : "'"; const char *after = _no_quote ? "" : "'"; switch(type) { case RT_RESERVED: //snprintf(COMMON_buffer, COMMON_BUF_MAX, "%s%s%s", before, TABLE_get_symbol_name(COMP_res_table, index), after); str = COMP_res_info[index].name; if (ispunct((unsigned char)*str)) snprintf(_buffer, BUF_MAX, "%s%s%s", before, str, after); else strcpy(_buffer, str); break; case RT_NUMBER: case RT_IDENTIFIER: case RT_CLASS: snprintf(_buffer, BUF_MAX, "%s%s%s", before, TABLE_get_symbol_name(EVAL->table, index), after); break; case RT_STRING: case RT_TSTRING: if (_no_quote) snprintf(_buffer, BUF_MAX, "\"%s\"", TABLE_get_symbol_name(EVAL->string, index)); else strcpy(_buffer, "string"); break; case RT_NEWLINE: case RT_END: strcpy(_buffer, "end of expression"); break; case RT_SUBR: //snprintf(COMMON_buffer, COMMON_BUF_MAX, "%s%s%s", bafore, COMP_subr_info[index].name, after); strcpy(_buffer, COMP_subr_info[index].name); break; case RT_COMMENT: strncpy(_buffer, TABLE_get_symbol_name(EVAL->string, index), BUF_MAX); _buffer[BUF_MAX] = 0; break; case RT_SPACE: snprintf(_buffer, BUF_MAX, "[%d]", index); break; default: sprintf(_buffer, "%s?%08X?%s", before, *pattern, after); } return _buffer; } #if DEBUG PUBLIC void READ_dump_pattern(PATTERN *pattern) { int type = PATTERN_type(*pattern); int index = PATTERN_index(*pattern); int pos; pos = (int)(pattern - EVAL->pattern); if (pos < 0 || pos >= EVAL->pattern_count) return; printf("%d ", pos); if (PATTERN_flag(*pattern) & RT_FIRST) printf("!"); else printf(" "); if (PATTERN_flag(*pattern) & RT_POINT) printf("."); else printf(" "); if (PATTERN_flag(*pattern) & RT_CLASS) printf("C"); else printf(" "); printf(" "); _no_quote = TRUE; if (type == RT_RESERVED) printf("RESERVED %s\n", READ_get_pattern(pattern)); else if (type == RT_NUMBER) printf("NUMBER %s\n", READ_get_pattern(pattern)); else if (type == RT_IDENTIFIER) printf("IDENTIFIER %s\n", READ_get_pattern(pattern)); else if (type == RT_CLASS) printf("CLASS %s\n", READ_get_pattern(pattern)); else if (type == RT_STRING) printf("STRING %s\n", READ_get_pattern(pattern)); else if (type == RT_TSTRING) printf("TSTRING %s\n", READ_get_pattern(pattern)); else if (type == RT_NEWLINE) printf("NEWLINE (%d)\n", index); else if (type == RT_END) printf("END\n"); else if (type == RT_PARAM) printf("PARAM %d\n", index); else if (type == RT_SUBR) printf("SUBR %s\n", READ_get_pattern(pattern)); else if (type == RT_COMMENT) printf("COMMENT %s\n", READ_get_pattern(pattern)); else if (type == RT_SPACE) printf("SPACE %s\n", READ_get_pattern(pattern)); else printf("? %d\n", index); _no_quote = FALSE; } #endif #define get_char_offset(_offset) ((unsigned char)source_ptr[(_offset)]) #define get_char() ((unsigned char)(*source_ptr)) static unsigned char next_char(void) { source_ptr++; return get_char(); } #ifdef DEBUG static void add_pattern(int type, int index) { EVAL->pattern[EVAL->pattern_count++] = PATTERN_make(type, index); READ_dump_pattern(&EVAL->pattern[EVAL->pattern_count - 1]); } #else #define add_pattern(_type, _index) EVAL->pattern[EVAL->pattern_count++] = PATTERN_make((_type), (_index)); #endif static PATTERN get_previous_pattern(int n) { int i; PATTERN pattern; for (i = EVAL->pattern_count - 1; i >= 0; i--) { pattern = EVAL->pattern[i]; if (!PATTERN_is_space(pattern)) { n--; if (n == 0) return pattern; } } return NULL_PATTERN; } #define get_last_pattern() get_previous_pattern(1) #define get_last_last_pattern() get_previous_pattern(2) static void add_newline() { add_pattern(RT_NEWLINE, 0); } static void add_end() { add_pattern(RT_END, 0); } static bool add_number() { unsigned char car; const char *start; int index; char sign; PATTERN last_pattern; bool has_digit; start = source_ptr; car = get_char(); if (car == '-' || car == '+') { sign = car; car = next_char(); if (car == 'I' || car == 'i') { car = next_char(); if (car == 'N' || car == 'n') { car = next_char(); if (car == 'F' || car == 'f') { car = next_char(); add_pattern(RT_RESERVED, RESERVED_find_word(start, 4)); return FALSE; } } goto NOT_A_NUMBER; } } else sign = 0; if (car == '&') { car = toupper(next_char()); if (car == 'H') goto READ_HEXA; else if (car == 'X') goto READ_BINARY; else if (car == 'O') goto READ_OCTAL; else { source_ptr--; goto READ_HEXA; } } else if (car == '%') goto READ_BINARY; else if (isdigit(car)) goto READ_NUMBER; else goto NOT_A_NUMBER; READ_BINARY: has_digit = FALSE; for (;;) { car = next_char(); if (car != '0' && car != '1') break; has_digit = TRUE; } goto END_BINARY_HEXA; READ_OCTAL: has_digit = FALSE; for (;;) { car = next_char(); if (car < '0' || car > '7') break; has_digit = TRUE; } goto END_BINARY_HEXA; READ_HEXA: has_digit = FALSE; for (;;) { car = next_char(); if (!isxdigit(car)) break; has_digit = TRUE; } END_BINARY_HEXA: if (!has_digit) goto NOT_A_NUMBER; if (car == '&') car = next_char(); else if (first_car[car] == GOTO_IDENT) goto NOT_A_NUMBER; goto END; READ_NUMBER: while (isdigit(car)) car = next_char(); if (car == '.') { do { car = next_char(); } while (isdigit(car)); } if (toupper(car) == 'E') { car = next_char(); if (car == '+' || car == '-') car = next_char(); while (isdigit(car)) car = next_char(); } else if (toupper(car) == 'I') { car = next_char(); } goto END; END: last_pattern = get_last_pattern(); if (sign && !PATTERN_is_null(last_pattern) && (!PATTERN_is_reserved(last_pattern) || PATTERN_is(last_pattern, RS_RBRA) || PATTERN_is(last_pattern, RS_RSQR))) { add_pattern(RT_RESERVED, RESERVED_find_word(&sign, 1)); index = TABLE_add_symbol(EVAL->table, start + 1, source_ptr - start - 1); add_pattern(RT_NUMBER, index); } else { index = TABLE_add_symbol(EVAL->table, start, source_ptr - start); add_pattern(RT_NUMBER, index); } return FALSE; NOT_A_NUMBER: source_ptr = start; return TRUE; } #if 0 static void add_identifier(bool no_res) { unsigned char car; const char *start; int len; int index; int type; int flag; PATTERN last_pattern; bool not_first; bool can_be_reserved; bool can_be_subr; bool is_type; bool last_func, last_declare, last_type, last_class; last_pattern = get_last_pattern(); if (PATTERN_is_reserved(last_pattern)) { flag = RES_get_ident_flag(PATTERN_index(last_pattern)); not_first = (flag & RSF_INF) != 0; last_func = (flag & RSF_ILF) != 0; last_declare = (flag & RSF_ILD) != 0; last_class = (flag & RSF_ILC) != 0; last_type = last_class || (flag & RSF_ILT) != 0; if (flag & RSF_ILDD) { PATTERN last_last_pattern = get_last_last_pattern(); if (PATTERN_is_reserved(last_last_pattern) && RES_get_ident_flag(PATTERN_index(last_last_pattern)) & RSF_ILD) last_declare = TRUE; flag &= ~RSF_ILDD; // flag == 0 means we can read a subroutine! } } else { flag = 0; not_first = last_func = last_declare = last_type = last_class = FALSE; } type = RT_IDENTIFIER; start = source_ptr; len = 1; if (last_type) { for(;;) { source_ptr++; len++; car = get_char(); if (ident_car[car]) continue; if (car == '[') { car = get_char_offset(1); if (car == ']') { source_ptr++; len++; TABLE_add_symbol(EVAL->table, start, len - 2, NULL, NULL); continue; } } len--; break; } } else { for(;;) { source_ptr++; car = get_char(); if (!ident_car[car]) break; len++; } } if (no_res) { if (!EVAL->analyze) { if (get_char() == '}') source_ptr++; } goto IDENTIFIER; } car = get_char(); /*if (car == '}') can_be_reserved = FALSE; else can_be_reserved = !not_first && TABLE_find_symbol(COMP_res_table, &EVAL->source[start], len, NULL, &index);*/ can_be_reserved = car != '}' && !not_first && !last_class; if (can_be_reserved) { index = RESERVED_find_word(start, len); can_be_reserved = (index >= 0); } if (can_be_reserved) { if (index == RS_ME || index == RS_NEW || index == RS_LAST || index == RS_SUPER) { can_be_reserved = !last_declare; } else if (index == RS_CLASS) { can_be_reserved = _begin_line && isspace(car); } else { is_type = (PATTERN_is_type(PATTERN_make(RT_RESERVED, index)) || index == RS_NEW); /*if (last_type) can_be_reserved = is_type; else if (last_func) can_be_reserved = FALSE; else can_be_reserved = !is_type && (car != ':') && (car != '.') && (car != '!') && (car != '(');*/ if (is_type && (car == '[') && (get_char_offset(1) == ']')) { len += 2; source_ptr += 2; is_type = FALSE; can_be_reserved = FALSE; } else { if (index == RS_NEW) is_type = TRUE; if (last_type) can_be_reserved = is_type; else if (last_func) can_be_reserved = FALSE; else can_be_reserved = !is_type && (car != ':') && (car != '.') && (car != '!') && (car != '('); } } } can_be_subr = flag == 0 && car != '.' && car != '!'; if (can_be_reserved) { type = RT_RESERVED; } else if (can_be_subr && TABLE_find_symbol(COMP_subr_table, start, len, NULL, &index)) { type = RT_SUBR; } else { if (last_type) type = RT_CLASS; goto IDENTIFIER; } add_pattern(type, index); return; IDENTIFIER: if (!EVAL->analyze && PATTERN_is(last_pattern, RS_EXCL)) { TABLE_add_symbol(EVAL->string, start, len, NULL, &index); type = RT_STRING; } else TABLE_add_symbol(EVAL->table, start, len, NULL, &index); add_pattern(type, index); } #endif static void add_identifier() { unsigned char car; const char *start; int len; int index; int type; int flag; PATTERN last_pattern, last_last_pattern; bool not_first; bool can_be_reserved; bool last_identifier, last_type, last_class, last_pub; bool exist = TRUE; last_pattern = get_last_pattern(); if (PATTERN_is_reserved(last_pattern)) { flag = RES_get_ident_flag(PATTERN_index(last_pattern)); if (flag & RSF_PREV) { last_last_pattern = get_last_last_pattern(); if (PATTERN_is_reserved(last_last_pattern)) flag = RES_get_ident_flag(PATTERN_index(last_last_pattern)); else flag = 0; } } else flag = 0; type = RT_IDENTIFIER; start = source_ptr; for(;;) { source_ptr++; if (!ident_car[get_char()]) break; } len = source_ptr - start; last_class = (flag & RSF_CLASS) != 0; last_type = (flag & RSF_AS) != 0; if (last_type) { source_ptr--; for(;;) { source_ptr++; len++; car = get_char(); if (car == '[') { car = get_char_offset(1); if (car == ']') { source_ptr++; len++; index = TABLE_add_symbol(EVAL->table, start, len - 2); continue; } } len--; break; } } not_first = (flag & RSF_POINT) != 0; car = get_char(); //can_be_reserved = !not_first && TABLE_find_symbol(COMP_res_table, &comp->source[start], len, NULL, &index); can_be_reserved = !not_first && !last_class; if (can_be_reserved) { index = RESERVED_find_word(start, len); can_be_reserved = (index >= 0); } if (can_be_reserved) { static void *jump[] = { &&__OTHERS, &&__ME_NEW_LAST_SUPER, &&__CLASS, &&__STRUCT, &&__SUB_PROCEDURE_FUNCTION, &&__CONST_EXTERN, &&__ENUM, &&__READ, &&__DATATYPE }; last_identifier = (flag & RSF_IDENT) != 0; last_pub = (flag & RSF_PUB) != 0; goto *jump[RES_get_read_switch(index)]; do { __ME_NEW_LAST_SUPER: can_be_reserved = !last_identifier; break; __CLASS: can_be_reserved = canres_car[car] && (_begin_line || PATTERN_is(last_pattern, RS_END)); break; __STRUCT: can_be_reserved = canres_car[car] && (_begin_line || last_pub || PATTERN_is(last_pattern, RS_AS) || PATTERN_is(last_pattern, RS_END) || PATTERN_is(last_pattern, RS_NEW)); break; __SUB_PROCEDURE_FUNCTION: can_be_reserved = canres_car[car] && (_begin_line || last_pub || PATTERN_is(last_pattern, RS_END)); break; __CONST_EXTERN: can_be_reserved = canres_car[car] && (_begin_line || last_pub); break; __ENUM: can_be_reserved = canres_car[car] && (_begin_line || last_pub); break; __READ: can_be_reserved = canres_car[car] && (!last_identifier || PATTERN_is(last_pattern, RS_PROPERTY)); break; __DATATYPE: if (car == '[' && get_char_offset(1) == ']') { len += 2; source_ptr += 2; can_be_reserved = FALSE; } else { if (last_type || PATTERN_is(last_pattern, RS_OPEN)) can_be_reserved = TRUE; else can_be_reserved = FALSE; } break; __OTHERS: if (last_type || last_identifier || (PATTERN_is(last_pattern, RS_LBRA) && car == ')' && PATTERN_is_reserved(get_last_last_pattern()))) can_be_reserved = FALSE; else can_be_reserved = canres_car[car]; break; } while (0); } if (can_be_reserved) { type = RT_RESERVED; goto __ADD_PATTERN; } if ((flag == 0) && car != '.' && car != '!') { index = RESERVED_find_subr(start, len); if (index >= 0) { if (COMP_subr_info[index].min_param == 0 || car == '(') { type = RT_SUBR; if (EVAL->custom) { GB_FUNCTION func; GB_VALUE *ret; if (!GB.GetFunction(&func, (void *)GB.GetClass(EVAL->parent), "IsSubr", NULL, NULL)) { GB.Push(1, GB_T_STRING, start, len); ret = GB.Call(&func, 1, FALSE); if (!ret->_boolean.value) { exist = TABLE_add_symbol_exist(EVAL->table, start, len, &index); type = RT_IDENTIFIER; } } } goto __ADD_PATTERN; } } } if (last_type) type = RT_CLASS; /*if (flag & RSF_EVENT) { start--; len++; *((char *)start) = ':'; }*/ if (!EVAL->analyze && PATTERN_is(last_pattern, RS_EXCL)) { index = TABLE_add_symbol(EVAL->string, start, len); type = RT_STRING; } else { exist = TABLE_add_symbol_exist(EVAL->table, start, len, &index); } __ADD_PATTERN: if (EVAL->custom && !exist) { GB_FUNCTION func; GB_VALUE *ret; if (!GB.GetFunction(&func, (void *)GB.GetClass(EVAL->parent), "IsIdentifier", NULL, NULL)) { GB.Push(1, GB_T_STRING, start, len); ret = GB.Call(&func, 1, FALSE); if (!ret->_boolean.value) THROW("Unknown symbol"); } } add_pattern(type, index); } static void add_quoted_identifier(void) { unsigned char car; const char *start; int len; int index; int type; PATTERN last_pattern; last_pattern = get_last_pattern(); type = RT_IDENTIFIER; start = source_ptr; len = 1; for(;;) { source_ptr++; car = get_char(); len++; if (!ident_car[car]) break; } source_ptr++; if (!EVAL->analyze) { if (car != '}') THROW("Missing '}'"); if (len == 2) THROW("Void identifier"); } else { if (!car) len--; if (car != '}' || len <= 2) type = RT_ERROR; } if (!EVAL->analyze && PATTERN_is(last_pattern, RS_EXCL)) { index = TABLE_add_symbol(EVAL->string, start + 1, len - 2); type = RT_STRING; } else { if (!EVAL->rewrite && type != RT_ERROR) { start++; len -= 2; } index = TABLE_add_symbol(type == RT_ERROR ? EVAL->string : EVAL->table, start, len); } add_pattern(type, index); } static void add_operator() { unsigned char car; const char *start; const char *end; int len; int op = NO_SYMBOL; int index; start = source_ptr; end = start; len = 1; for(;;) { source_ptr++; index = RESERVED_find_word(start, len); if (index >= 0) { op = index; end = source_ptr; } car = get_char(); //if (!isascii(car) || !ispunct(car)) if (noop_car[car]) break; len++; } source_ptr = end; if (EVAL->analyze && op == RS_QUES) op = RS_PRINT; if (op < 0) THROW("Unknown operator"); add_pattern(RT_RESERVED, op); } static int xdigit_val(unsigned char c) { if (c >= '0' && c <= '9') return (c - '0'); else if (c >= 'a' && c <= 'f') return (c - 'a' + 10); else if (c >= 'A' && c <= 'F') return (c - 'A' + 10); else return (-1); } static void add_string() { unsigned char car; const char *start; int len; int index; ushort newline; bool jump; char *p; int i; start = source_ptr; len = 0; newline = 0; jump = FALSE; p = (char *)source_ptr; //fprintf(stderr, "EVAL_read: add_string: [%d] %s\n", source_ptr - EVAL->source, source_ptr); for(;;) { source_ptr++; car = get_char(); //fprintf(stderr, "EVAL_read: car = %d jump = %d\n", car, jump); if (jump) { if (car == '\n') newline++; else if (car == '"') jump = FALSE; else if (!car || !isspace(car)) break; } else { p++; len++; if (!car || car == '\n') THROW("Non terminated string"); if (car == '\\') { source_ptr++; car = get_char(); if (car == 'n') *p = '\n'; else if (car == 't') *p = '\t'; else if (car == 'r') *p = '\r'; else if (car == 'b') *p = '\b'; else if (car == 'v') *p = '\v'; else if (car == 'f') *p = '\f'; else if (car == 'e') *p = '\x1B'; else if (car == '0') *p = 0; else if (car == '\"' || car == '\'' || car == '\\') *p = car; else { if (car == 'x') { i = xdigit_val(get_char_offset(1)); if (i >= 0) { car = i; i = xdigit_val(get_char_offset(2)); if (i >= 0) { car = (car << 4) | (uchar)i; *p = car; source_ptr += 2; continue; } } } THROW("Bad character constant in string"); } } else if (car == '"') { p--; len--; jump = TRUE; } else *p = car; } } p[1] = 0; //fprintf(stderr, "EVAL_read: add_string (end): [%d] %s\n", source_ptr - EVAL->source, source_ptr); if (len > 0) { index = TABLE_add_symbol(EVAL->string, start + 1, len); add_pattern(RT_STRING, index); } else add_pattern(RT_STRING, VOID_STRING_INDEX); for (i = 0; i < newline; i++) add_newline(); source_ptr -= newline; } #if ENABLE_BIG_COMMENT static void add_big_comment() { unsigned char car; const char *start; int len; int index; int type; //bool space = FALSE; start = source_ptr; len = 0; EVAL->comment = TRUE; /*for(;;) { if (start == EVAL->source) break; start--; car = *start; if (car == '\n') break; if (car > ' ') { start++; space = TRUE; break; } len++; } if (!space) { start = source_ptr; len = 1; }*/ for(;;) { car = get_char(); if (car == 0) break; /*if (car == '\n') { TABLE_add_symbol(EVAL->string, start, len, NULL, &index); type = RT_COMMENT; add_pattern(type, index); add_newline(); len = 1; start = source_ptr + 1; continue; }*/ if (car == '*' && get_char_offset(1) == '/') { source_ptr += 2; len += 2; EVAL->comment = FALSE; break; } len++; source_ptr++; } index = TABLE_add_symbol(EVAL->string, start, len); type = RT_COMMENT; add_pattern(type, index); } #endif static void add_comment() { unsigned char car; const char *start; int len; int index; int type; bool space = FALSE; start = source_ptr; len = 1; for(;;) { if (start == EVAL->source) break; start--; car = *start; if (car == '\n') break; if (car > ' ') { start++; space = TRUE; break; } len++; } if (!space) { start = source_ptr; len = 1; } for(;;) { source_ptr++; car = get_char(); if (car == 0 || car == '\n') break; len++; } index = TABLE_add_symbol(EVAL->string, start, len); type = RT_COMMENT; add_pattern(type, index); } static void add_string_for_analyze() { unsigned char car; const char *start; int len; int index; int type; start = source_ptr; len = 0; for(;;) { source_ptr++; car = get_char(); if (car == '\\') { source_ptr++; car = get_char(); len++; if (car == 0) break; } else if (car == 0 || car == '\n' || car == '"') break; len++; } if (car == '"') source_ptr++; index = TABLE_add_symbol(EVAL->string, start + 1, len); type = RT_STRING; add_pattern(type, index); //fprintf(stderr, "add_string_for_analyze: %s\n", TABLE_get_symbol_name(EVAL->string, index)); } static void add_spaces() { unsigned char car; int len; len = 1; for(;;) { source_ptr++; car = get_char(); if (car > ' ' || car == '\n' || car == 0) break; len++; } add_pattern(RT_SPACE, len); } PUBLIC void EVAL_read(void) { static void *jump_char[11] = { &&__BREAK, &&__SPACE, &&__NEWLINE, &&__COMMENT, &&__STRING, &&__IDENT, &&__QUOTED_IDENT, &&__NUMBER, &&__ERROR, &&__SHARP, &&__OTHER }; unsigned char car; READ_init(); source_ptr = EVAL->source; _begin_line = TRUE; #if ENABLE_BIG_COMMENT if (EVAL->comment) goto __BIG_COMMENT; #endif for(;;) { car = get_char(); goto *jump_char[(int)first_car[car]]; __ERROR: THROW(E_SYNTAX); __SPACE: if (EVAL->analyze) add_spaces(); else source_ptr++; continue; __NEWLINE: source_ptr++; add_newline(); _begin_line = TRUE; continue; __COMMENT: if (EVAL->analyze) { add_comment(); } else { do { source_ptr++; car = get_char(); } while (car != '\n' && car != 0); } _begin_line = FALSE; continue; __STRING: if (EVAL->analyze) add_string_for_analyze(); else add_string(); _begin_line = FALSE; continue; __IDENT: add_identifier(); _begin_line = FALSE; continue; __QUOTED_IDENT: add_quoted_identifier(); _begin_line = FALSE; continue; __NUMBER: add_number(); _begin_line = FALSE; continue; __SHARP: if (_begin_line) { _begin_line = FALSE; if (get_char_offset(1) == '!' && EVAL->analyze) add_comment(); else add_identifier(); continue; } __OTHER: #if ENABLE_BIG_COMMENT if (car == '/' && get_char_offset(1) == '*') goto __BIG_COMMENT; #endif if (add_number()) add_operator(); _begin_line = FALSE; continue; #if ENABLE_BIG_COMMENT __BIG_COMMENT: if (EVAL->analyze) add_big_comment(); else { for(;;) { car = get_char(); if (car == 0) break; if (car == '*' && get_char_offset(1) == '/') { source_ptr += 2; break; } if (car == '\n') add_newline(); source_ptr++; } } _begin_line = FALSE; continue; #endif } __BREAK: add_end(); add_end(); add_end(); add_end(); }