/*************************************************************************** eval_analyze.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_ANALYZE_C #include "gambas.h" #include "gb_common.h" #include "gb_array.h" #include "eval_analyze.h" #include "c_system.h" /*#define DEBUG*/ static const uchar _utf8_char_length[256] = { 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2, 3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,4,4,4,4,4,4,4,4,5,5,5,5,6,6,1,1 }; static char _analyze_buffer[256]; static int _analyze_buffer_pos; #define COLOR_BUFFER_SIZE 256 static EVAL_COLOR _colors[COLOR_BUFFER_SIZE]; static int _colors_len = 0; static EVAL_COLOR *_color_buffer = NULL; #define NEXT_UTF8_CHAR(_p) (_p += _utf8_char_length[(uchar)*(_p)]) static int get_type(PATTERN *pattern) { int type = PATTERN_type(*pattern); int index = PATTERN_index(*pattern); if (type == RT_RESERVED) { if (index >= RS_COLON) { if (!((index == RS_AND || index == RS_OR) && PATTERN_is(pattern[1], RS_IF))) type = RT_OPERATOR; } else if (RES_is_type(index)) type = RT_DATATYPE; else if (index == RS_WITH && pattern > EVAL->pattern) { index = PATTERN_index(pattern[-1]); if (index == RS_BEGINS || index == RS_ENDS) type = RT_OPERATOR; } } return type; } static int is_me_last_kind(PATTERN pattern) { return PATTERN_is(pattern, RS_ME) || PATTERN_is(pattern, RS_SUPER) || PATTERN_is(pattern, RS_LAST) || PATTERN_is(pattern, RS_TRUE) || PATTERN_is(pattern, RS_FALSE) || PATTERN_is(pattern, RS_PINF) || PATTERN_is(pattern, RS_MINF) || PATTERN_is(pattern, RS_NULL); } static int is_optional_kind(PATTERN pattern) { return PATTERN_is(pattern, RS_OPTIONAL) || PATTERN_is(pattern, RS_BYREF); } static void get_symbol(PATTERN pattern, const char **symbol, int *len) { static char keyword[32]; int i; SYMBOL *sym; int type = PATTERN_type(pattern); int index = PATTERN_index(pattern); switch(type) { case RT_RESERVED: *symbol = COMP_res_info[index].name; *len = strlen(*symbol); if (!EVAL->rewrite) { memcpy(keyword, *symbol, *len); for (i = 0; i < *len; i++) keyword[i] = toupper(keyword[i]); *symbol = keyword; } return; case RT_NUMBER: case RT_IDENTIFIER: sym = TABLE_get_symbol(EVAL->table, index); break; case RT_CLASS: sym = TABLE_get_symbol(EVAL->table, index); break; case RT_STRING: case RT_TSTRING: case RT_COMMENT: case RT_ERROR: sym = TABLE_get_symbol(EVAL->string, index); break; case RT_SUBR: *symbol = COMP_subr_info[index].name; *len = strlen(*symbol); return; default: *symbol = NULL; *len = 0; return; } *symbol = sym->name; *len = sym->len; if (*len > EVAL_COLOR_MAX_LEN) *len = EVAL_COLOR_MAX_LEN; } static void add_data(int state, int len) { EVAL_COLOR *color; if (len == 0) return; if (_colors_len >= COLOR_BUFFER_SIZE) { if (!_color_buffer) ARRAY_create_inc(&_color_buffer, COLOR_BUFFER_SIZE); color = ARRAY_add_many(&_color_buffer, COLOR_BUFFER_SIZE); memcpy(color, _colors, sizeof(EVAL_COLOR) * COLOR_BUFFER_SIZE); _colors_len = 0; } else { color = &_colors[_colors_len]; color->state = state; color->len = len; color->alternate = FALSE; _colors_len++; } } static void add_data_merge(int state, int len) { if (_colors_len > 0 && _colors[_colors_len - 1].state == state && (_colors[_colors_len - 1].len + len) < EVAL_COLOR_MAX_LEN) _colors[_colors_len - 1].len += len; else add_data(state, len); } static void flush_colors(EVAL_ANALYZE *result) { EVAL_COLOR *color; if (_color_buffer) { if (_colors_len) { color = ARRAY_add_many(&_color_buffer, _colors_len); memcpy(color, _colors, sizeof(EVAL_COLOR) * _colors_len); } result->color = _color_buffer; result->len = ARRAY_count(_color_buffer); } else { result->color = _colors; result->len = _colors_len; } } static int is_proc(void) { PATTERN pattern; int i; if (!EVAL->pattern) return FALSE; for (i = 0;; i++) { pattern = EVAL->pattern[i]; if (PATTERN_is_end(pattern)) return FALSE; if (PATTERN_is(pattern, RS_PRIVATE) || PATTERN_is(pattern, RS_PUBLIC) || PATTERN_is(pattern, RS_STATIC) || PATTERN_is(pattern, RS_FAST)) continue; return (PATTERN_is(pattern, RS_SUB) || PATTERN_is(pattern, RS_PROCEDURE) || PATTERN_is(pattern, RS_FUNCTION)); } } static int get_indent(bool *empty) { int i; unsigned char c; *empty = TRUE; for (i = 0; i < (int)EVAL->len; i++) { c = EVAL->source[i]; if (c > ' ') { *empty = FALSE; break; } } return i; } static int get_symbol_indent(const char *symbol, int len) { int i; for (i = 0; i < len; i++) { if (!(symbol[i] > 0 && symbol[i] < 33)) return i; } return len; } static bool symbol_starts_with(const char *symbol, int len, int from, const char *comp) { int l = strlen(comp); return (from < (len - l) && strncmp(&symbol[from], comp, l) == 0); } static int get_utf8_length(const char *s, int l) { int len; int i; for (i = 0, len = 0; i < l; i++) { if ((s[i] & 0xC0) != 0x80) len++; } return len; } static void init_result() { _analyze_buffer_pos = 0; } static void flush_result(EVAL_ANALYZE *result) { if (_analyze_buffer_pos > 0) { result->str = GB.AddString(result->str, _analyze_buffer, _analyze_buffer_pos); _analyze_buffer_pos = 0; } } static void add_result(EVAL_ANALYZE *result, const char *str, int len) { if ((_analyze_buffer_pos + len) > sizeof(_analyze_buffer)) flush_result(result); if (len > sizeof(_analyze_buffer)) result->str = GB.AddString(result->str, str, len); else { memcpy(&_analyze_buffer[_analyze_buffer_pos], str, len); _analyze_buffer_pos += len; } } static void add_result_char(EVAL_ANALYZE *result, char c) { if ((_analyze_buffer_pos + 1) > sizeof(_analyze_buffer)) flush_result(result); _analyze_buffer[_analyze_buffer_pos++] = c; } static void analyze(EVAL_ANALYZE *result) { PATTERN *pattern; int nspace; bool empty = FALSE; int type, old_type, next_type; const char *symbol; const char *p; bool space_before, space_after; int len, i, l; bool preprocessor; _colors_len = 0; EVAL_analyze_exit(); pattern = EVAL->pattern; nspace = 0; preprocessor = FALSE; if (EVAL->len <= 0) return; if (!EVAL->comment) { nspace = get_indent(&empty); add_data(RT_END, nspace); } if (empty) return; if (!pattern) return; init_result(); if (nspace) add_result(result, EVAL->source, nspace); type = EVAL->comment ? RT_COMMENT : RT_END; next_type = RT_END; old_type = RT_END; space_after = FALSE; for(;;) { old_type = next_type; type = get_type(pattern); next_type = type; get_symbol(*pattern, &symbol, &len); space_before = space_after; space_after = FALSE; if (type == RT_END) break; //if (in_quote && (type == RT_RESERVED || type == RT_DATATYPE || type == RT_SUBR)) // type = RT_IDENTIFIER; switch(type) { case RT_RESERVED: //state = Keyword; //if (old_type != RT_OPERATOR) //me = is_me_last(*pattern); if (is_me_last_kind(*pattern)) { if (old_type != RT_OPERATOR) space_before = TRUE; next_type = RT_IDENTIFIER; } else if (is_optional_kind(*pattern)) { if (old_type != RT_OPERATOR) space_before = TRUE; } else space_before = TRUE; /*if (!is_me_last_kind(*pattern)) space_before = TRUE; else { if (*pattern != RS_OPTIONAL) if (old_type != RT_OPERATOR) space_before = TRUE; }*/ if (preprocessor && PATTERN_is(pattern[-1], RS_SHARP)) space_before = FALSE; /*if (PATTERN_index(*pattern) >= RS_COLON) { int i; for (i = 0; i < len; i++) usym[i] = GB.toupper(symbol[i]); usym[len] = 0; symbol = usym; }*/ break; case RT_DATATYPE: //state = Datatype; if (PATTERN_is(pattern[-1], RS_OPEN)) type = RT_RESERVED; if (old_type != RT_OPERATOR) space_before = TRUE; break; case RT_IDENTIFIER: case RT_CLASS: //state = Symbol; if (old_type != RT_OPERATOR) space_before = TRUE; break; case RT_NUMBER: //state = Number; if (old_type != RT_OPERATOR) space_before = TRUE; break; case RT_STRING: //state = String; if (old_type != RT_OPERATOR) space_before = TRUE; break; case RT_SUBR: //state = Subr; if (old_type != RT_OPERATOR) space_before = TRUE; break; case RT_COMMENT: //state = Commentary; space_before = *symbol != ' '; i = get_symbol_indent(symbol, len); if (i <= (len - 2) && symbol[i + 1] == '\'') type = RT_HELP; else { while (i < len && (uchar)symbol[i] == '\'') i++; while (i < len && (uchar)symbol[i] <= ' ') i++; if (i < len) { if (symbol_starts_with(symbol, len, i, "NOTE:") || symbol_starts_with(symbol, len, i, "TODO:") || symbol_starts_with(symbol, len, i, "FIXME:")) type = RT_HELP; } } break; case RT_OPERATOR: if (index("([)]@", *symbol)) { space_after = FALSE; } else if (index(":;,", *symbol)) { space_before = FALSE; space_after = TRUE; } else if (index("#{", *symbol)) { if (old_type != RT_OPERATOR) space_before = TRUE; space_after = FALSE; //in_quote = *symbol == '{'; if (!preprocessor && *symbol == '#' && old_type == RT_END) preprocessor = TRUE; } else if (index("}", *symbol)) { space_before = FALSE; space_after = FALSE; //in_quote = FALSE; } else if (index(".!", *symbol)) //symbol[0] == '.' && symbol[1] == 0) { //space_before = FALSE; space_after = FALSE; } else if (*symbol == '-' && len == 1) { if (old_type == RT_OPERATOR && (PATTERN_is(pattern[-1], RS_LBRA) || PATTERN_is(pattern[-1],RS_LSQR))) space_before = FALSE; else space_before = TRUE; if (old_type == RT_RESERVED || old_type == RT_DATATYPE) space_after = FALSE; else if (old_type == RT_OPERATOR) { get_symbol(pattern[-1], &symbol, &len); if (index(")]}", *symbol)) space_after = TRUE; else space_after = FALSE; get_symbol(*pattern, &symbol, &len); } else space_after = TRUE; } else if (PATTERN_is(*pattern, RS_NOT)) { if (old_type == RT_OPERATOR && (PATTERN_is(pattern[-1], RS_LBRA) || PATTERN_is(pattern[-1],RS_LSQR))) space_before = FALSE; else space_before = TRUE; space_after = TRUE; } else { space_before = TRUE; space_after = TRUE; } if (old_type == RT_RESERVED) space_before = TRUE; break; case RT_ERROR: space_before = TRUE; break; } if (space_before && old_type != RT_END) { add_result_char(result, ' '); add_data(preprocessor ? RT_PREPROCESSOR : RT_END, 1); } if (type == RT_STRING) add_result_char(result, '"'); if (len) { if (EVAL->rewrite && type == RT_CLASS) { add_result_char(result, toupper(symbol[0])); if (len > 1) add_result(result, &symbol[1], len - 1); } else add_result(result, symbol, len); //printf("add: %.*s\n", len, symbol); len = get_utf8_length(symbol, len); } if (type == RT_STRING) { add_result_char(result, '"'); len += 2; } if (EVAL->rewrite) { if (type == RT_STRING) { add_data(RT_STRING, 1); len -= 2; for (i = 0, p = symbol; i < len; i++) { if (*p == '\\') { i++; NEXT_UTF8_CHAR(p); add_data_merge(RT_ESCAPE, 1); if (i < len) { if (*p == 'x' && i < (len - 2) && isxdigit(p[1]) && isxdigit(p[2])) { l = 3; i += 2; } else l = 1; add_data_merge(RT_ESCAPE, l); while (l--) NEXT_UTF8_CHAR(p); } } else { NEXT_UTF8_CHAR(p); add_data_merge(RT_STRING, 1); } } add_data_merge(RT_STRING, 1); goto __NEXT_PATTERN; } else if (type == RT_IDENTIFIER) { if (PATTERN_is(pattern[1], RS_COLON)) { add_result_char(result, ':'); add_data(RT_LABEL, len + 1); space_after = TRUE; pattern ++; goto __NEXT_PATTERN; } else if (old_type == RT_RESERVED && (PATTERN_is(pattern[-1], RS_GOTO) || PATTERN_is(pattern[-1], RS_GOSUB))) { type = RT_LABEL; } } else if (type == RT_RESERVED) { if (PATTERN_is(*pattern, RS_NULL) || PATTERN_is(*pattern, RS_TRUE) || PATTERN_is(*pattern, RS_FALSE) || PATTERN_is(*pattern, RS_PINF) || PATTERN_is(*pattern, RS_MINF)) { type = RT_CONSTANT; } } } if (preprocessor && type != RT_COMMENT && type != RT_HELP) add_data(RT_PREPROCESSOR, len); else add_data(type, len); //printf("add_data: %.d (%d)\n", type, len); __NEXT_PATTERN: pattern++; } flush_result(result); flush_colors(result); //fprintf(stderr, "analyze: %d %s\n", strlen(result->str), result->str); } #define add_pattern(_type, _index) EVAL->pattern[EVAL->pattern_count++] = PATTERN_make((_type), (_index)); static void add_end_pattern(void) { int index; int len; len = EVAL->len - (READ_source_ptr - EVAL->source); if (len > 0) { index = TABLE_add_symbol(EVAL->string, READ_source_ptr, len); add_pattern(RT_ERROR, index); } add_pattern(RT_END, 0); //get_symbol(PATTERN_make(RT_ERROR, index), &sym, &len); } PUBLIC void EVAL_analyze(const char *src, int len, int state, EVAL_ANALYZE *result, bool rewrite) { int nspace = 0; #ifdef DEBUG printf("EVAL: %*.s\n", expr->len, expr->source); #endif CLEAR(result); while (len > 0 && src[len - 1] == ' ') { len--; nspace++; } result->len = 0; result->str = NULL; if (len > 0) { EVAL = &EVAL_read_expr; EVAL_clear(EVAL, FALSE); EVAL->source = GB.NewString(src, len); EVAL->source = GB.AddString(EVAL->source, "\0\0", 2); EVAL->len = len; EVAL->analyze = TRUE; EVAL->rewrite = rewrite; EVAL->comment = state == RT_COMMENT; //fprintf(stderr, "EVAL_analyze: [%d] %.*s\n", EVAL->comment, len, src); EVAL_start(EVAL); TRY { EVAL_read(); } CATCH { add_end_pattern(); } END_TRY analyze(result); result->proc = is_proc(); result->state = EVAL->comment ? RT_COMMENT : RT_END; //fprintf(stderr, "--> [%d]\n", EVAL->comment); GB.FreeString(&EVAL->source); } else { result->proc = FALSE; } while (nspace > 0) { result->str = GB.AddString(result->str, " ", nspace > 8 ? 8 : nspace); nspace -= 8; } } void EVAL_analyze_exit(void) { if (_color_buffer) ARRAY_delete(&_color_buffer); }