// Generalized simple lexical analizer. // It can be used for simple syntax parsers, like lyxrc, // texclass and others to come. [asierra30/03/96] // // (C) 1996 Lyx Team. #include #include #ifdef __GNUG__ #pragma implementation "lyxlex.h" #endif #include "lyxlex.h" #include "debug.h" #include "support/filetools.h" LyXLex::LyXLex(keyword_item * tab, int num) : table(tab), no_items(num) { file = 0; owns_file = false; status = 0; pushed = 0; } void LyXLex::pushTable(keyword_item * tab, int num) { pushed_table * tmppu = new pushed_table; tmppu->next = pushed; tmppu->table_elem = table; tmppu->table_siz = no_items; pushed = tmppu; table = tab; no_items = num; } void LyXLex::popTable() { if (pushed == 0) lyxerr << "LyXLex error: nothing to pop!" << endl; pushed_table * tmp; tmp = pushed; table = tmp->table_elem; no_items = tmp->table_siz; tmp->table_elem = 0; pushed = tmp->next; delete tmp; } void LyXLex::printTable() { lyxerr << "\nNumber of tags: " << no_items << endl; for(int i= 0; i' ') return atoi(buff); else { printError("Bad integer `$$Token'"); return -1; } } float LyXLex::GetFloat() { if (buff[0]>' ') return (float)strtod(buff, (char**)0); else { printError("Bad float `$$Token'"); return -1; } } string LyXLex::GetString() const { return string(buff); } // I would prefer to give a tag number instead of an explicit token // here, but it is not possible because Buffer::readLyXformat2 uses // explicit tokens (JMarc) string LyXLex::getLongString(string const & endtoken) { string str, prefix; bool firstline = true; while (IsOK()) { if (!EatLine()) // blank line in the file being read continue; string const token = frontStrip(strip(GetString()), " \t"); lyxerr[Debug::PARSER] << "LongString: `" << GetString() << '\'' << endl; // We do a case independent comparison, like search_kw // does. if (compare_no_case(token, endtoken) != 0) { string tmpstr = GetString(); if (firstline) { unsigned int i = 0; while(i < tmpstr.length() && tmpstr[i] == ' ') { ++i; prefix += ' '; } firstline = false; lyxerr[Debug::PARSER] << "Prefix = `" << prefix << '\'' << endl; } if (!prefix.empty() && prefixIs(tmpstr, prefix.c_str())) { tmpstr.erase(0, prefix.length() - 1); } str += tmpstr + '\n'; } else // token == endtoken break; } if (!IsOK()) printError("Long string not ended by `" + endtoken + '\''); return str; } bool LyXLex::GetBool() { if (compare(buff, "true") == 0) return true; else if (compare(buff, "false") != 0) printError("Bad boolean `$$Token'. Use \"false\" or \"true\""); return false; } bool LyXLex::EatLine() { int i= 0; int c = '\0'; // getc() returns an int while (!feof(file) && c!= '\n' && i!= (LEX_MAX_BUFF-1)) { c = getc(file); if (c != '\r') buff[i++] = c; } if (i == (LEX_MAX_BUFF-1) && c != '\n') { printError("Line too long"); c = '\n'; // Pretend we had an end of line --lineno; // but don't increase line counter (netto effect) ++i; // and preserve last character read. } if (c == '\n') { ++lineno; buff[--i] = '\0'; // i can never be 0 here, so no danger status = LEX_DATA; return true; } else { buff[i] = '\0'; return false; } } int LyXLex::search_kw(char const * const tag) const { int m, k= 0 , l= 0, r= no_items; while (l < r) { m = (l+r)/2; if (lyxerr.debugging(Debug::PARSER)) { lyxerr << "LyXLex::search_kw: elem " << m << " tag " << table[m].tag << " search tag " << tag << endl; } if (table[m].tag) k = compare_no_case(table[m].tag, tag); if (k == 0) return table[m].code; else if (k<0) l = m+1; else r = m; } return -1; } bool LyXLex::next(bool esc) { if (!esc) { int c; // getc() returns an int //int i; status = 0; while (!feof(file) && !status) { c = getc(file); if (c == '#') { // Read rest of line (fast :-) fgets(buff, sizeof(buff), file); ++lineno; continue; } if (c == '\"') { int i = -1; do { c = getc(file); if (c != '\r') buff[++i] = c; } while (c!= '\"' && c!= '\n' && !feof(file) && i!= (LEX_MAX_BUFF-2)); if (i == (LEX_MAX_BUFF-2)) { printError("Line too long"); c = '\"'; // Pretend we got a " ++i; } if (c!= '\"') { printError("Missing quote"); if (c == '\n') ++lineno; } buff[i] = '\0'; status = LEX_DATA; break; } if (c == ',') continue; /* Skip ','s */ if (c > ' ' && !feof(file)) { int i = 0; do { buff[i++] = c; c = getc(file); } while (c > ' ' && c != ',' && !feof(file) && (i != LEX_MAX_BUFF-1) ); if (i == LEX_MAX_BUFF-1) { printError("Line too long"); } buff[i] = '\0'; status = LEX_TOKEN; } if (c == '\r' && !feof(file)) { // The Windows support has lead to the // possibility of "\r\n" at the end of // a line. This will stop LyX choking // when it expected to find a '\n' c = getc(file); } if (c == '\n') ++lineno; } if (status) return true; status = (feof(file)) ? LEX_FEOF: LEX_UNDEF; buff[0] = '\0'; return false; } else { int c; // getc() returns an int //int i; status = 0; while (!feof(file) && !status) { c = getc(file); // skip ','s if (c == ',') continue; if (c == '\\') { // escape int i = 0; do { if (c == '\\') { // escape the next char c = getc(file); } buff[i++] = c; c = getc(file); } while (c > ' ' && c != ',' && !feof(file) && (i != LEX_MAX_BUFF-1) ); if (i == LEX_MAX_BUFF-1) { printError("Line too long"); } buff[i] = '\0'; status = LEX_TOKEN; continue; } if (c == '#') { // Read rest of line (fast :-) fgets(buff, sizeof(buff), file); ++lineno; continue; } // string if (c == '\"') { int i = -1; bool escaped = false; do { escaped = false; c = getc(file); if (c == '\r') continue; if (c == '\\') { // escape the next char c = getc(file); escaped = true; } buff[++i] = c; if (!escaped && c == '\"') break; } while (c!= '\n' && !feof(file) && i!= (LEX_MAX_BUFF-2)); if (i == (LEX_MAX_BUFF-2)) { printError("Line too long"); c = '\"'; // Pretend we got a " ++i; } if (c!= '\"') { printError("Missing quote"); if (c == '\n') ++lineno; } buff[i] = '\0'; status = LEX_DATA; break; } if (c > ' ' && !feof(file)) { int i = 0; do { if (c == '\\') { // escape the next char c = getc(file); //escaped = true; } buff[i++] = c; c = getc(file); } while (c > ' ' && c != ',' && !feof(file) && (i != LEX_MAX_BUFF-1) ); if (i == LEX_MAX_BUFF-1) { printError("Line too long"); } buff[i] = '\0'; status = LEX_TOKEN; } // new line if (c == '\n') ++lineno; } if (status) return true; status = (feof(file)) ? LEX_FEOF: LEX_UNDEF; buff[0] = '\0'; return false; } } bool LyXLex::nextToken() { int c; // getc() returns an int int i; status = 0; while (!feof(file) && !status) { c = getc(file); if (c >= ' ' && !feof(file)) { i = 0; if (c == '\\') { // first char == '\\' do { buff[i++] = c; c = getc(file); } while (c > ' ' && c != '\\' && !feof(file) && i != (LEX_MAX_BUFF-1)); } else { do { buff[i++] = c; c = getc(file); } while (c >= ' ' && c != '\\' && !feof(file) && i != (LEX_MAX_BUFF-1)); } if (i == (LEX_MAX_BUFF-1)) { printError("Line too long"); } if (c == '\\') ungetc(c, file); // put it back buff[i] = '\0'; status = LEX_TOKEN; } if (c == '\n') ++lineno; } if (status) return true; status = (feof(file)) ? LEX_FEOF: LEX_UNDEF; buff[0] = '\0'; return false; } int LyXLex::FindToken(char const * str[]) { int i = -1; if (next()) { if (compare(buff, "default")) { for (i = 0; str[i][0] && compare(str[i], buff); ++i); if (!str[i][0]) { printError("Unknown argument `$$Token'"); i = -1; } } } else printError("file ended while scanning string token"); return i; } int LyXLex::CheckToken(char const * str[], int print_error) { int i = -1; if (compare(buff, "default")) { for (i = 0; str[i][0] && compare(str[i], buff); i++); if (!str[i][0]) { if (print_error) printError("Unknown argument `$$Token'"); i = -1; } } return i; }