/*************************************************************************** * Copyright (C) 2004 by Roberto Raggi * * roberto@kdevelop.org * * Copyright (C) 2005-2006 by Vladimir Prus * * ghost@cs.msu.su * * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU Library General Public License as * * published by the Free Software Foundation; either version 2 of the * * License, 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 Library 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. * ***************************************************************************/ #include "miparser.h" #include "tokens.h" #include using namespace GDBMI; #define MATCH(tok) \ do { \ if (lex->lookAhead(0) != (tok)) \ return false; \ } while (0) #define ADVANCE(tok) \ do { \ MATCH(tok); \ lex->nextToken(); \ } while (0) MIParser::MIParser() : lex(0) { } MIParser::~MIParser() { } Record *MIParser::parse(FileSymbol *file) { lex = 0; Record *record = 0; TokenStream *tokenStream = lexer.tokenize(file); if (!tokenStream) return 0; lex = file->tokenStream = tokenStream; switch (lex->lookAhead()) { case '~': case '@': case '&': parseStreamRecord(record); break; case '(': parsePrompt(record); break; case '^': parseResultRecord(record); break; case '*': // Same as result, only differs in start // marker. parseResultRecord(record); break; default: break; } return record; } bool MIParser::parsePrompt(Record *&record) { ADVANCE('('); MATCH(Token_identifier); if (lex->currentTokenText() != "gdb") return false; lex->nextToken(); ADVANCE(')'); record = new PromptRecord; return true; } bool MIParser::parseStreamRecord(Record *&record) { std::auto_ptr stream(new StreamRecord); switch (lex->lookAhead()) { case '~': case '@': case '&': { stream->reason = lex->lookAhead(); lex->nextToken(); MATCH(Token_string_literal); stream->message = parseStringLiteral(); record = stream.release(); } return true; default: break; } return false; } bool MIParser::parseResultRecord(Record *&record) { if (lex->lookAhead() != '^' && lex->lookAhead() != '*') return false; lex->nextToken(); MATCH(Token_identifier); TQString reason = lex->currentTokenText(); lex->nextToken(); std::auto_ptr res(new ResultRecord); res->reason = reason; if (lex->lookAhead() != ',') { record = res.release(); return true; } lex->nextToken(); if (!parseCSV(*res)) return false; record = res.release(); return true; } bool MIParser::parseResult(Result *&result) { MATCH(Token_identifier); TQString variable = lex->currentTokenText(); lex->nextToken(); std::auto_ptr res(new Result); res->variable = variable; if (lex->lookAhead() != '=') return true; lex->nextToken(); Value *value = 0; if (!parseValue(value)) return false; res->value = value; result = res.release(); return true; } bool MIParser::parseValue(Value *&value) { value = 0; switch (lex->lookAhead()) { case Token_string_literal: { value = new StringLiteralValue(parseStringLiteral()); } return true; case '{': return parseTuple(value); case '[': return parseList(value); default: break; } return false; } bool MIParser::parseTuple(Value *&value) { TupleValue* val; if (!parseCSV(&val, '{', '}')) return false; value = val; return true; } bool MIParser::parseList(Value *&value) { ADVANCE('['); std::auto_ptr lst(new ListValue); // Note: can't use parseCSV here because of nested // "is this Value or Result" guessing. Too lazy to factor // that out too using function pointers. int tok = lex->lookAhead(); while (tok && tok != ']') { Result *result = 0; Value *val = 0; if (tok == Token_identifier) { if (!parseResult(result)) return false; } else if (!parseValue(val)) return false; Q_ASSERT(result || val); if (!result) { result = new Result; result->value = val; } lst->results.append(result); if (lex->lookAhead() == ',') lex->nextToken(); tok = lex->lookAhead(); } ADVANCE(']'); value = lst.release(); return true; } bool MIParser::parseCSV(TupleValue** value, char start, char end) { std::auto_ptr tuple(new TupleValue); if (!parseCSV(*tuple, start, end)) return false; *value = tuple.get(); tuple.release(); return true; } bool MIParser::parseCSV(GDBMI::TupleValue& value, char start, char end) { if (start) ADVANCE(start); int tok = lex->lookAhead(); while (tok) { if (end && tok == end) break; Result *result; if (!parseResult(result)) return false; value.results.append(result); value.results_by_name.insert(result->variable, result); if (lex->lookAhead() == ',') lex->nextToken(); tok = lex->lookAhead(); } if (end) ADVANCE(end); return true; } TQString MIParser::parseStringLiteral() { TQCString message = lex->currentTokenText(); unsigned int length = message.length(); TQString message2; message2.setLength(length); // The [1,length-1] range removes quotes without extra // call to 'mid' unsigned target_index = 0; for(unsigned i = 1, e = length-1; i != e; ++i) { int translated = -1; if (message[i] == '\\') { if (i+1 < length) { // TODO: implement all the other escapes, maybe if (message[i+1] == 'n') { translated = '\n'; } else if (message[i+1] == '\\') { translated = '\\'; } else if (message[i+1] == '"') { translated = '"'; } else if (message[i+1] == 't') { translated = '\t'; } } } if (translated != -1) { message2[target_index++] = (char)translated; ++i; } else { message2[target_index++] = message[i]; } } message2.setLength(target_index); lex->nextToken(); return message2; }