/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtXmlPatterns module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain ** additional rights. These rights are described in the Nokia Qt LGPL ** Exception version 1.1, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include "qquerytransformparser_p.h" #include "qxquerytokenizer_p.h" #include "qtokenlookup.cpp" QT_BEGIN_NAMESPACE namespace QPatternist { #define handleWhitespace() \ { \ const TokenType t = consumeWhitespace(); \ if(t != SUCCESS) \ return Token(t); \ } XQueryTokenizer::XQueryTokenizer(const QString &query, const QUrl &location, const State startingState) : Tokenizer(location) , m_data(query) , m_length(query.length()) , m_state(startingState) , m_pos(0) , m_line(1) , m_columnOffset(0) , m_scanOnly(false) { Q_ASSERT(location.isValid() || location.isEmpty()); } const QChar XQueryTokenizer::current() const { if(m_pos < m_length) return m_data.at(m_pos); else return QChar(); } char XQueryTokenizer::peekCurrent() const { return current().toAscii(); } int XQueryTokenizer::peekForColonColon() const { /* Note, we don't modify m_pos in this function, so we need to do offset * calculations. */ int pos = m_pos; while(pos < m_length) { switch(m_data.at(pos).toAscii()) { /* Fallthrough these four. */ case ' ': case '\t': case '\n': case '\r': break; case ':': { if(peekAhead((pos - m_pos) + 1) == ':') return pos - m_pos; /* Fallthrough. */ } default: return -1; } ++pos; } return -1; } Tokenizer::Token XQueryTokenizer::tokenAndChangeState(const TokenType code, const State s, const int advance) { Q_ASSERT(advance >= 0); m_pos += advance; setState(s); return Token(code); } Tokenizer::Token XQueryTokenizer::tokenAndChangeState(const TokenType code, const QString &value, const State s) { setState(s); return Token(code, value); } Tokenizer::Token XQueryTokenizer::tokenAndAdvance(const TokenType code, const int advance) { Q_ASSERT(advance >= 0); m_pos += advance; return Token(code); } QString XQueryTokenizer::normalizeEOL(const QString &input, const CharacterSkips &characterSkips) { const int len = input.count(); QString result; /* The likely hood is rather high it'll be the same content. */ result.reserve(len); for(int i = 0; i < len; ++i) { const QChar &at = input.at(i); if(characterSkips.contains(i)) { result.append(at); continue; } switch(input.at(i).unicode()) { case '\r': { if(i + 1 < len && input.at(i + 1) == QLatin1Char('\n')) ++i; /* Else, fallthrough. */ } case '\n': { result.append(QLatin1Char('\n')); continue; } default: { result.append(at); } } } return result; } Tokenizer::TokenType XQueryTokenizer::consumeComment() { /* Below, we return ERROR instead of END_OF_FILE such that the parser * sees an invalid comment. */ while(m_pos < m_length) { switch(peekCurrent()) { case ':': { ++m_pos; /* Consume ':' */ if(atEnd()) return ERROR; if(peekCurrent() == ')') { ++m_pos; /* Consume ')' */ return SUCCESS; /* The comment closed nicely. */ } continue; /* We don't want to increment m_pos twice. */ } case '(': { /* It looks like the start of a comment. */ ++m_pos; if(atEnd()) return END_OF_FILE; else if(peekCurrent() == ':') { /* And it is a nested comment -- parse it. */ const TokenType retval = consumeComment(); if(retval == SUCCESS) continue; /* Continue with our "own" comment. */ else return retval; /* Return the error in the nested comment. */ } break; } case '\n': /* Fallthrough. */ case '\r': { /* We want to count \r\n as a single line break. */ if(peekAhead() == '\n') ++m_pos; m_columnOffset = m_pos; ++m_line; break; } } ++m_pos; } return ERROR; /* Error: we reached the end while inside a comment. */ } bool XQueryTokenizer::consumeRawWhitespace() { while(m_pos < m_length) { switch(peekCurrent()) { case ' ': case '\t': break; case '\n': case '\r': { if(peekAhead() == '\n') ++m_pos; m_columnOffset = m_pos; ++m_line; break; } default: return false; } ++m_pos; } return true; } Tokenizer::TokenType XQueryTokenizer::consumeWhitespace() { while(m_pos < m_length) { switch(peekCurrent()) { case ' ': case '\t': break; case '\n': case '\r': { /* We want to count \r\n as a single line break. */ if(peekAhead() == '\n') ++m_pos; m_columnOffset = m_pos; ++m_line; break; } case '(': { if(peekAhead() == ':') { m_pos += 2; /* Consume "(:" */ const TokenType comment = consumeComment(); if(comment == SUCCESS) continue; else return comment; } } default: return SUCCESS; } ++m_pos; } return END_OF_FILE; } char XQueryTokenizer::peekAhead(const int length) const { if(m_pos + length < m_length) return m_data.at(m_pos + length).toAscii(); else return 0; } Tokenizer::Token XQueryTokenizer::error() { return Token(ERROR); } bool XQueryTokenizer::isDigit(const char ch) { return ch >= '0' && ch <= '9'; } /* Replace with function in QXmlUtils. Write test cases for this. */ bool XQueryTokenizer::isNCNameStart(const QChar ch) { if(ch == QLatin1Char('_')) return true; switch(ch.category()) { case QChar::Letter_Lowercase: case QChar::Letter_Uppercase: case QChar::Letter_Other: case QChar::Letter_Titlecase: case QChar::Number_Letter: return true; default: return false; } } bool XQueryTokenizer::isNCNameBody(const QChar ch) { switch(ch.unicode()) { case '.': case '_': case '-': return true; } switch(ch.category()) { case QChar::Letter_Lowercase: case QChar::Letter_Uppercase: case QChar::Letter_Other: case QChar::Letter_Titlecase: case QChar::Number_Letter: case QChar::Mark_SpacingCombining: case QChar::Mark_Enclosing: case QChar::Mark_NonSpacing: case QChar::Letter_Modifier: case QChar::Number_DecimalDigit: return true; default: return false; } } bool XQueryTokenizer::isPhraseKeyword(const TokenType code) { switch(code) { /* Fallthrough all these. */ case CASTABLE: case CAST: case COPY_NAMESPACES: case DECLARE: case EMPTY: case MODULE: case IMPORT: case INSTANCE: case ORDER: case ORDERING: case XQUERY: case STABLE: case TREAT: return true; default: return false; } } bool XQueryTokenizer::isOperatorKeyword(const TokenType code) { switch(code) { /* Fallthrough all these. */ case AS: case ASCENDING: case AT: case CASE: case CAST: case CASTABLE: case EQ: case EXTERNAL: case GE: case G_EQ: case G_GT: case G_LT: case G_NE: case GT: case IN: case INHERIT: case INSTANCE: case IS: case ITEM: case LE: case LT: case NE: case NO_INHERIT: case NO_PRESERVE: case OF: case PRESERVE: case RETURN: case STABLE: case TO: case TREAT: return true; default: return false; }; } bool XQueryTokenizer::isTypeToken(const TokenType t) { switch(t) { /* Fallthrough all these. */ case ATTRIBUTE: case COMMENT: case DOCUMENT: case DOCUMENT_NODE: case ELEMENT: case ITEM: case NODE: case PROCESSING_INSTRUCTION: case SCHEMA_ATTRIBUTE: case SCHEMA_ELEMENT: case TEXT: return true; default: return false; } } Tokenizer::Token XQueryTokenizer::tokenizeNCNameOrQName() { const int start = m_pos; const Token t1 = tokenizeNCName(); if(t1.hasError()) return t1; if(peekCurrent() != ':' || peekAhead() == '=') return t1; ++m_pos; const Token t2 = tokenizeNCName(); if(t2.hasError()) return t2; else return Token(QNAME, m_data.mid(start, m_pos - start)); } Tokenizer::Token XQueryTokenizer::tokenizeNumberLiteral() { setState(Operator); const int startPos = m_pos; bool hasDot = false; bool isXPath20 = false; for(; m_pos < m_length; ++m_pos) { QChar ch(current()); char cell = ch.cell(); if(cell == 'e' || cell == 'E') { isXPath20 = true; ++m_pos; ch = current(); if(ch.row() != 0) break; cell = ch.cell(); if(cell == '+' || cell == '-') continue; } if(isNCNameStart(ch)) return error(); if(cell < '0' || cell > '9') { if(cell == '.' && !hasDot) hasDot = true; else break; } } return Token(isXPath20 ? XPATH2_NUMBER : NUMBER, m_data.mid(startPos, m_pos - startPos)); } QString XQueryTokenizer::tokenizeCharacterReference() { Q_ASSERT(peekCurrent() == '&'); const int theEnd = m_data.indexOf(QLatin1Char(';'), m_pos + 1); if(theEnd == -1) /* No ';' found, a syntax error. i18n. */ return QString(); QString content(m_data.mid(m_pos + 1, (theEnd - m_pos) - 1)); m_pos = theEnd; const QChar charRef(charForReference(content)); if(!charRef.isNull()) return charRef; else if(content.startsWith(QLatin1Char('#'))) { int base; /* It is only '#' or '#x'. */ if(content.length() < 2) return QString(); /* We got a hex number if it starts with 'x', otherwise it's a decimal. */ if(content.at(1) == QLatin1Char('x')) { base = 16; content = content.mid(2); /* Remove "#x". */ } else { base = 10; content = content.mid(1); /* Remove "#". */ } bool conversionOK = false; const int codepoint = content.toInt(&conversionOK, base); if(conversionOK) { const QChar ch(codepoint); if(ch.isNull()) { /* We likely have something which require surrogate pairs. */ QString result; result += QChar(QChar::highSurrogate(codepoint)); result += QChar(QChar::lowSurrogate(codepoint)); return result; } else return ch; } else return QString(); } else return QString(); } int XQueryTokenizer::scanUntil(const char *const content) { const int end = m_data.indexOf(QString::fromLatin1(content), m_pos); if(end == -1) return -1; else { const int len = end - m_pos; m_pos += len; return len; } } QChar XQueryTokenizer::charForReference(const QString &reference) { if(m_charRefs.isEmpty()) { /* Initialize. */ m_charRefs.reserve(5); m_charRefs.insert(QLatin1String("lt"), QLatin1Char('<')); m_charRefs.insert(QLatin1String("gt"), QLatin1Char('>')); m_charRefs.insert(QLatin1String("amp"), QLatin1Char('&')); m_charRefs.insert(QLatin1String("quot"), QLatin1Char('"')); m_charRefs.insert(QLatin1String("apos"), QLatin1Char('\'')); } return m_charRefs.value(reference); } Tokenizer::Token XQueryTokenizer::tokenizeStringLiteral() { const QChar delimiter(current()); /* We cannot unfortunately just scan and then do mid(), * since we can encounter character references. */ QString result; /* This is more likely than QString's default allocation. */ result.reserve(8); CharacterSkips skipEOLNormalization; /* Advance over the initial quote character. */ ++m_pos; for(; m_pos < m_length; ++m_pos) { const QChar c(current()); if(c == QLatin1Char('&')) { const QString charRef(tokenizeCharacterReference()); if(charRef.isNull()) return error(); else { skipEOLNormalization.insert(result.count()); result.append(charRef); } } else if(c == delimiter) { /* Maybe the escaping mechanism is used. For instance, "s""s" * has the value `s"s'. */ ++m_pos; if(current() == delimiter) /* Double quote. */ result += delimiter; else return Token(STRING_LITERAL, normalizeEOL(result, skipEOLNormalization)); } else result += c; } return error(); } Tokenizer::Token XQueryTokenizer::tokenizeNCName() { const int startPos = m_pos; if(m_pos < m_length && isNCNameStart(current())) { ++m_pos; for(; m_pos < m_length; ++m_pos) { if(!isNCNameBody(current())) break; } return Token(NCNAME, m_data.mid(startPos, m_pos - startPos)); } else return error(); } bool XQueryTokenizer::aheadEquals(const char *const chs, const int len, const int offset) const { Q_ASSERT(len > 0); Q_ASSERT(qstrlen(chs) == uint(len)); if(m_pos + len >= m_length) return false; for(int i = offset; i < (len + offset); ++i) { if(m_data.at(m_pos + i).toAscii() != chs[i - offset]) return false; } return true; } const TokenMap *XQueryTokenizer::lookupKeyword(const QString &keyword) { return TokenLookup::value(keyword.toAscii().constData(), keyword.length()); } XQueryTokenizer::State XQueryTokenizer::state() const { return m_state; } void XQueryTokenizer::setState(const State s) { m_state = s; } void XQueryTokenizer::pushState(const State s) { m_stateStack.push(s); } void XQueryTokenizer::pushState() { m_stateStack.push(m_state); } void XQueryTokenizer::popState() { /* QStack::pop() asserts if it's empty, so we need to check * it, since we might receive unbalanced curlies. */ if(!m_stateStack.isEmpty()) m_state = m_stateStack.pop(); } Tokenizer::Token XQueryTokenizer::nextToken() { switch(state()) { /* We want to skip or do special whitespace handling for these * states. So fallthrough all of the following. */ case AposAttributeContent: case Axis: case ElementContent: case EndTag: case Pragma: case PragmaContent: case ProcessingInstructionName: case QuotAttributeContent: case StartTag: case XMLComment: break; default: handleWhitespace(); } switch(state()) { case XMLSpaceDecl: /* Fallthrough. */ case NamespaceKeyword: { switch(peekCurrent()) { case ',': return tokenAndAdvance(COMMA); case '"': /* Fallthrough. */ case '\'': { setState(NamespaceDecl); return tokenizeStringLiteral(); } } const Token id(tokenizeNCName()); if(id.type != NCNAME) return id; const TokenMap *const keyword = lookupKeyword(id.value); if(keyword) { switch(keyword->token) { case INHERIT: /* Fallthrough. */ case NO_INHERIT: { setState(Default); break; } case NAMESPACE: { setState(NamespaceDecl); break; } case ORDERED: /* Fallthrough. */ case UNORDERED: /* Fallthrough. */ case STRIP: { setState(Default); break; } case PRESERVE: { if(state() != NamespaceKeyword) setState(Default); } default: break; } return Token(keyword->token); } else return id; Q_ASSERT(false); } case NamespaceDecl: { switch(peekCurrent()) { case '=': return tokenAndAdvance(G_EQ); case ';': return tokenAndChangeState(SEMI_COLON, Default); case '\'': /* Fallthrough. */ case '\"': return tokenizeStringLiteral(); } const Token nc(tokenizeNCName()); handleWhitespace(); const char pc = peekCurrent(); const TokenMap* const t = lookupKeyword(nc.value); if(pc == '\'' || (pc == '"' && t)) return tokenAndChangeState(t->token, Default, 0); else return nc; Q_ASSERT(false); } case Axis: { if(peekCurrent() == ':') { Q_ASSERT(peekAhead() == ':'); m_pos += 2; setState(AfterAxisSeparator); return Token(COLONCOLON); } /* Fallthrough. */ } case AfterAxisSeparator: /* Fallthrough. */ case Default: /* State Operator and state Default have a lot of tokens in common except * for minor differences. So we treat them the same way, and sprinkles logic * here and there to handle the small differences. */ /* Fallthrough. */ case Operator: { switch(peekCurrent()) { case '=': return tokenAndChangeState(G_EQ, Default); case '-': return tokenAndChangeState(MINUS, Default); case '+': return tokenAndChangeState(PLUS, Default); case '[': return tokenAndChangeState(LBRACKET, Default); case ']': return tokenAndChangeState(RBRACKET, Operator); case ',': return tokenAndChangeState(COMMA, Default); case ';': return tokenAndChangeState(SEMI_COLON, Default); case '$': return tokenAndChangeState(DOLLAR, VarName); case '|': return tokenAndChangeState(BAR, Default); case '?': return tokenAndChangeState(QUESTION, Operator); case ')': return tokenAndChangeState(RPAREN, Operator); case '@': return tokenAndChangeState(AT_SIGN, Default); /* Fallthrough all these. */ case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': case '0': return tokenizeNumberLiteral(); case '.': { const char next = peekAhead(); if(next == '.') return tokenAndChangeState(DOTDOT, Operator, 2); /* .5 is allowed, as short form for 0.5: * [142] DecimalLiteral ::= ("." Digits) | (Digits "." [0-9]*) */ else if(isDigit(next)) return tokenizeNumberLiteral(); else return tokenAndChangeState(DOT, Operator); } case '\'': /* Fallthrough. */ case '"': { setState(Operator); return tokenizeStringLiteral(); } case '(': { if(peekAhead() == '#') return tokenAndChangeState(PRAGMA_START, Pragma, 2); else return tokenAndChangeState(LPAREN, Default); } case '*': { if(peekAhead() == ':') { m_pos += 2; /* Consume *:. */ const Token nc = tokenizeNCName(); if(nc.hasError()) return error(); else return tokenAndChangeState(ANY_PREFIX, nc.value, Operator); } else return tokenAndChangeState(STAR, state() == Default ? Operator : Default); } case ':': { switch(peekAhead()) { case '=': return tokenAndChangeState(ASSIGN, Default, 2); case ':': return tokenAndChangeState(COLONCOLON, Default, 2); default: return error(); } } case '!': { if(peekAhead() == '=') return tokenAndChangeState(G_NE, Default, 2); else return error(); } case '<': { switch(peekAhead()) { case '=': return tokenAndChangeState(G_LE, Default, 2); case '<': return tokenAndChangeState(PRECEDES, Default, 2); case '?': { pushState(Operator); return tokenAndChangeState(PI_START, ProcessingInstructionName, 2); } case '!': { if(aheadEquals("!--", 3)) { m_pos += 3; /* Consume "!--". */ pushState(Operator); return tokenAndChangeState(COMMENT_START, XMLComment); } /* Fallthrough. It's a syntax error, and this is a good way to report it. */ } default: { if((m_pos + 1) < m_length && isNCNameStart(m_data.at(m_pos + 1))) { /* We assume it's an element constructor. */ pushState(Operator); } return tokenAndChangeState(G_LT, state() == Operator ? Default : StartTag); } } } case '>': { switch(peekAhead()) { case '=': return tokenAndChangeState(G_GE, Default, 2); case '>': return tokenAndChangeState(FOLLOWS, Default, 2); default: return tokenAndChangeState(G_GT, Default); } } case '/': { if(peekAhead() == '/') return tokenAndChangeState(SLASHSLASH, Default, 2); else return tokenAndChangeState(SLASH, Default); } case '{': { pushState(Operator); return tokenAndChangeState(CURLY_LBRACE, Default); } case '}': { popState(); return tokenAndAdvance(CURLY_RBRACE); } } /* Ok. We're in state Default or Operator, and it wasn't a simple * character. */ const Token id(tokenizeNCName()); if(id.type != NCNAME) return id; const TokenMap *const keyword = lookupKeyword(id.value); if(state() == Operator) { if(keyword) { if(keyword->token == DEFAULT || keyword->token == ASCENDING || keyword->token == DESCENDING) setState(Operator); else if(keyword->token == RETURN) setState(Default); else if(isPhraseKeyword(keyword->token)) { const TokenType ws = consumeWhitespace(); if(ws == ERROR) return error(); const Token id2(tokenizeNCName()); const TokenMap *const keyword2 = lookupKeyword(id2.value); if(keyword2) { if(keyword->token == TREAT && keyword2->token == AS) setState(ItemType); else if (keyword->token == CAST || (keyword->token == CASTABLE && keyword2->token == AS) || keyword2->token == BY) setState(Default); m_tokenStack.push(Token(keyword2->token)); } else m_tokenStack.push(id2); return Token(keyword->token); } else { /* Such that we tokenize the second token in "empty greatest". */ if(keyword->token != EMPTY) setState(Default); } if(keyword->token == AS || keyword->token == CASE) setState(ItemType); return Token(keyword->token); } else return id; } Q_ASSERT(state() == Default || state() == Axis || state() == AfterAxisSeparator); /* * This is hard. Consider this: * * Valid: child ::nameTest * Valid: child:: nameTest * Syntax Error: child :localName * Syntax Error: child: localName * * Consider "child ::name". Right now, we're here: * ^ * We don't know whether "child" is a prefix and hence the whitespace is invalid, * or whether it's an axis and hence skippable. */ { const int wsLength = peekForColonColon(); /* We cannot call handleWhitespace() because it returns on * END_OF_FILE, and we have parsed up keyword, and we need to * deal with that. * * If we have a colon colon, which means the whitespace is * allowed, we skip it. */ if(wsLength != -1) m_pos += wsLength; } /* Handle name tests. */ if(peekCurrent() == ':') { switch(peekAhead()) { case '=': return id; case '*': { m_pos += 2; return tokenAndChangeState(ANY_LOCAL_NAME, id.value, Operator); } case ':': { /* We have an axis. */ setState(Axis); return keyword ? Token(keyword->token) : id; } default: { /* It's a QName. */ ++m_pos; /* Consume the colon. */ const Token id2(tokenizeNCName()); if(id2.type != NCNAME) { --m_pos; return id; } setState(Operator); const int qNameLen = id.value.length() + id2.value.length() + 1; return Token(QNAME, m_data.mid(m_pos - qNameLen, qNameLen)); } } } if(!keyword || isOperatorKeyword(keyword->token)) { setState(Operator); return id; } const TokenType ws = consumeWhitespace(); if(ws == ERROR) // TODO this should test for success. Write test. return Token(ERROR); if(atEnd()) { setState(Operator); return id; } /* Let the if-body apply for constructors, and node type tests. */ if(isTypeToken(keyword->token) || keyword->token == TYPESWITCH || keyword->token == ORDERED || keyword->token == UNORDERED || keyword->token == IF) { switch(peekCurrent()) { case '(': { // TODO See if we can remove DOCUMENT from isTypeToken. if(isTypeToken(keyword->token) && keyword->token != DOCUMENT) { m_tokenStack.push(Token(LPAREN)); ++m_pos; /* Consume '('. */ pushState(Operator); if(keyword->token == PROCESSING_INSTRUCTION) setState(KindTestForPI); else setState(KindTest); return Token(keyword->token); } else if(keyword->token == TYPESWITCH || keyword->token == IF) return Token(keyword->token); else /* It's a function call. */ return id; } case '{': { m_tokenStack.push(Token(CURLY_LBRACE)); ++m_pos; /* Consume '{'. */ pushState(Operator); /* Stay in state Default. */ return Token(keyword->token); } default: { /* We have read in a token which is for instance * "return", and now it can be an element * test("element") a node kind test("element()"), or a * computed element constructor("element name {..."). * We need to do a two-token lookahead here, because * "element return" can be an element test followed by * the return keyword, but it can also be an element * constructor("element return {"). */ if(isNCNameStart(current())) { const int currentPos = m_pos; const Token token2 = tokenizeNCNameOrQName(); if(token2.hasError()) return token2; handleWhitespace(); if(peekCurrent() == '{') { /* An element constructor. */ m_tokenStack.push(token2); return Token(keyword->token); } /* We jump back in the stream, we need to tokenize token2 according * to the state. */ m_pos = currentPos; setState(Operator); return Token(NCNAME, QLatin1String(keyword->name)); } } } } if(peekCurrent() == '$') { setState(VarName); return Token(keyword->token); } /* It's not a node type, it's not the typeswitch expression, but it is a function callsite. */ if(peekCurrent() == '(') return id; else if(peekCurrent() == '{' && keyword->token == VALIDATE) return Token(keyword->token); if(!isNCNameStart(current())) { setState(Operator); return id; } const Token id2(tokenizeNCName()); const TokenMap *const keyword2 = lookupKeyword(id2.value); if(!keyword2) { /* It's a syntax error. All cases of two subsequent ncnames are keywords(e.g, declarations). */ setState(Operator); return id; } switch(keyword->token) { case DECLARE: { switch(keyword2->token) { case VARIABLE: /* Fallthrough. */ case FUNCTION: { m_tokenStack.push(Token(keyword2->token)); setState(Default); return Token(keyword->token); } case OPTION: { m_tokenStack.push(Token(keyword2->token)); setState(Default); return Token(keyword->token); } case COPY_NAMESPACES: /* Fallthrough. */ case ORDERING: { m_tokenStack.push(Token(keyword2->token)); setState(NamespaceKeyword); return Token(keyword->token); } case CONSTRUCTION: { // TODO identical to CONSTRUCTION? m_tokenStack.push(Token(keyword2->token)); setState(Operator); return Token(keyword->token); } case NAMESPACE: /* Fallthrough. */ case BASEURI: { m_tokenStack.push(Token(keyword2->token)); setState(NamespaceDecl); return Token(keyword->token); } case BOUNDARY_SPACE: { m_tokenStack.push(Token(keyword2->token)); setState(XMLSpaceDecl); return Token(keyword->token); } case DEFAULT: { m_tokenStack.push(Token(keyword2->token)); const TokenType ws2 = consumeWhitespace(); if(ws2 != SUCCESS) { m_tokenStack.prepend(Token(ws2)); return Token(keyword->token); } const Token id3(tokenizeNCName()); if(id3.type != NCNAME) { m_tokenStack.prepend(id3); return Token(keyword->token); } const TokenMap *const keyword3 = lookupKeyword(id3.value); if(!keyword3) { m_tokenStack.prepend(id3); return Token(keyword->token); } else { m_tokenStack.prepend(Token(keyword3->token)); if(keyword3->token == ORDER) setState(Operator); else setState(NamespaceDecl); } return Token(keyword->token); } default: { m_tokenStack.push(Token(keyword2->token)); setState(Default); return id; } } } case XQUERY: { m_tokenStack.push(Token(keyword2->token)); if(keyword2->token == VERSION) { setState(NamespaceDecl); return Token(keyword->token); } else { setState(Operator); return id; } } case IMPORT: { m_tokenStack.push(Token(keyword2->token)); switch(keyword2->token) { case SCHEMA: /* Fallthrough. */ case MODULE: { setState(NamespaceKeyword); return Token(keyword->token); } default: { setState(Operator); return id; } } } case VALIDATE: { m_tokenStack.push(Token(keyword2->token)); switch(keyword2->token) { case LAX: case STRICT: { pushState(Operator); return Token(keyword->token); } default: { setState(Operator); return id; } } } default: { m_tokenStack.push(Token(keyword2->token)); setState(Operator); return id; } } Q_ASSERT(false); } case VarName: { if(peekCurrent() == '$') return tokenAndAdvance(DOLLAR); setState(Operator); return tokenizeNCNameOrQName(); Q_ASSERT(false); } case ItemType: { switch(peekCurrent()) { case '(': return tokenAndChangeState(LPAREN, KindTest); case '$': return tokenAndChangeState(DOLLAR, VarName); } const Token name(tokenizeNCNameOrQName()); if(name.hasError()) return error(); else if(name.type == QNAME) { setState(OccurrenceIndicator); return name; } else { const TokenMap *const keyword = lookupKeyword(name.value); if(keyword) { pushState(OccurrenceIndicator); return Token(keyword->token); } else { setState(Default); return name; } } Q_ASSERT(false); } case KindTest: { switch(peekCurrent()) { case ')': { popState(); return tokenAndAdvance(RPAREN); } case '(': return tokenAndAdvance(LPAREN); case ',': return tokenAndAdvance(COMMA); case '*': return tokenAndAdvance(STAR); case '?': return tokenAndAdvance(QUESTION); case '\'': /* Fallthrough. */ case '"': return tokenizeStringLiteral(); } const Token nc(tokenizeNCNameOrQName()); if(nc.hasError()) return nc; const TokenType ws = consumeWhitespace(); if(ws == ERROR) return error(); if(peekCurrent() == '(') { const TokenMap *const keyword = lookupKeyword(nc.value); if(keyword) { pushState(KindTest); return Token(keyword->token); } else return nc; } else return nc; Q_ASSERT(false); } case KindTestForPI: { switch(peekCurrent()) { case ')': { popState(); return tokenAndAdvance(RPAREN); } case '\'': /* Fallthrough. */ case '"': return tokenizeStringLiteral(); default: return tokenizeNCName(); } Q_ASSERT(false); } case OccurrenceIndicator: { switch(peekCurrent()) { case '?': return tokenAndChangeState(QUESTION, Operator); case '*': return tokenAndChangeState(STAR, Operator); case '+': return tokenAndChangeState(PLUS, Operator); default: { setState(Operator); return nextToken(); } } Q_ASSERT(false); } case XQueryVersion: { switch(peekCurrent()) { case '\'': /* Fallthrough. */ case '"': return tokenizeStringLiteral(); case ';': return tokenAndChangeState(SEMI_COLON, Default); } const Token id(tokenizeNCName()); if(id.type != NCNAME) return id; const TokenMap *const keyword = lookupKeyword(id.value); if(keyword) return tokenAndChangeState(keyword->token, Default); else return id; Q_ASSERT(false); } case StartTag: { if(peekAhead(-1) == '<') { if(current().isSpace()) return Token(ERROR); } else { if(consumeRawWhitespace()) return Token(END_OF_FILE); } switch(peekCurrent()) { case '/': { if(peekAhead() == '>') { m_pos += 2; if(m_scanOnly) return Token(POSITION_SET); else { popState(); return Token(QUICK_TAG_END); } } else return error(); } case '>': { if(m_scanOnly) return tokenAndChangeState(POSITION_SET, StartTag); else return tokenAndChangeState(G_GT, ElementContent); } case '=': return tokenAndAdvance(G_EQ); case '\'': return tokenAndChangeState(APOS, AposAttributeContent); case '"': return tokenAndChangeState(QUOTE, QuotAttributeContent); default: return tokenizeNCNameOrQName(); } Q_ASSERT(false); } case AposAttributeContent: /* Fallthrough. */ case QuotAttributeContent: { const QChar sep(state() == AposAttributeContent ? QLatin1Char('\'') : QLatin1Char('"')); QString result; result.reserve(20); if(m_scanOnly) { int stack = 0; return attributeAsRaw(sep, stack, m_pos, true, result); } Q_ASSERT(!m_scanOnly); while(true) { if(atEnd()) { /* In the case that the XSL-T tokenizer invokes us with * default state QuotAttributeContent, we need to be able * to return a single string, in case that is all we have * accumulated. */ if(result.isEmpty()) return Token(END_OF_FILE); else return Token(STRING_LITERAL, result); } const QChar curr(current()); if(curr == sep) { if(m_pos + 1 == m_length) return Token(END_OF_FILE); if(m_data.at(m_pos + 1) == sep) { /* The quoting mechanism was used. */ m_pos += 2; result.append(sep); continue; } const QChar next(m_data.at(m_pos + 1)); if(!next.isSpace() && next != QLatin1Char('/') && next != QLatin1Char('>')) return Token(ERROR); // i18n Space must separate attributes else if(result.isEmpty()) { return tokenAndChangeState(state() == AposAttributeContent ? APOS : QUOTE, StartTag, 1); } else { /* Don't consume the sep, but leave it so we next time return a token for it. */ return Token(STRING_LITERAL, result); } ++m_pos; continue; } else if(curr == QLatin1Char('{')) { if(m_pos + 1 == m_length) return Token(END_OF_FILE); else if(peekAhead() == '{') { ++m_pos; result.append(QLatin1Char('{')); } else { if(result.isEmpty()) { /* The Attribute Value Template appeared directly in the attribute. */ pushState(); return tokenAndChangeState(CURLY_LBRACE, Default); } else { /* We don't advance, keep '{' as next token. */ return Token(STRING_LITERAL, result); } } } else if(curr == QLatin1Char('}')) { if(m_pos + 1 == m_length) return Token(END_OF_FILE); else if(peekAhead() == '}') { ++m_pos; result.append(QLatin1Char('}')); } else return Token(ERROR); } else if(curr == QLatin1Char('&')) { const QString ret(tokenizeCharacterReference()); if(ret.isNull()) return Token(ERROR); else result.append(ret); } else if(curr == QLatin1Char('<')) return Token(STRING_LITERAL, result); else { /* See Extensible Markup Language (XML) 1.0 (Fourth Edition), * 3.3.3 Attribute-Value Normalization. * * However, it is complicated a bit by that AVN is defined on top of * EOL normalization and we do those two in one go here. */ switch(curr.unicode()) { case 0xD: { if(peekAhead() == '\n') { result.append(QLatin1Char(' ')); ++m_pos; break; } } case 0xA: /* Fallthrough. */ case 0x9: { result.append(QLatin1Char(' ')); break; } default: result.append(curr); } } ++m_pos; } Q_ASSERT(false); } case ElementContent: { QString result; result.reserve(20); /* Whether the text node, result, may be whitespace only. Character references * and CDATA sections disables that. */ bool mayBeWS = true; CharacterSkips skipEOLNormalization; while(true) { if(atEnd()) return Token(END_OF_FILE); switch(peekCurrent()) { case '<': { if(!result.isEmpty() && peekAhead(2) != '[') { /* We encountered the end, and it was not a CDATA section. */ /* We don't advance. Next time we'll handle the <... stuff. */ return Token(mayBeWS ? STRING_LITERAL : NON_BOUNDARY_WS, normalizeEOL(result, skipEOLNormalization)); } ++m_pos; if(atEnd()) return Token(END_OF_FILE); const QChar ahead(current()); if(ahead.isSpace()) return error(); else if(ahead == QLatin1Char('/')) { if(m_pos + 1 == m_length) return Token(END_OF_FILE); else if(m_data.at(m_pos + 1).isSpace()) return error(); else return tokenAndChangeState(BEGIN_END_TAG, EndTag); } else if(isNCNameStart(ahead)) { pushState(); return tokenAndChangeState(G_LT, StartTag, 0); } else if(aheadEquals("!--", 3, 0)) { pushState(); m_pos += 3; return tokenAndChangeState(COMMENT_START, XMLComment, 0); } else if(aheadEquals("![CDATA[", 8, 0)) { mayBeWS = false; m_pos += 8; const int start = m_pos; const int len = scanUntil("]]>"); if(len == -1) return Token(END_OF_FILE); m_pos += 2; /* Consume "]]>". Note that m_pos is on '!'. */ result.append(m_data.mid(start, len)); break; } else if(ahead == QLatin1Char('?')) { pushState(); return tokenAndChangeState(PI_START, ProcessingInstructionName); } else return Token(G_LT); } case '&': { const QString ret(tokenizeCharacterReference()); if(ret.isNull()) return Token(ERROR); else { skipEOLNormalization.insert(result.count()); result.append(ret); mayBeWS = false; break; } } case '{': { // TODO remove this check, also below. if(m_pos + 1 == m_length) return Token(END_OF_FILE); else if(peekAhead() == '{') { ++m_pos; result.append(QLatin1Char('{')); } else { if(result.isEmpty()) { pushState(); return tokenAndChangeState(CURLY_LBRACE, Default); } else { /* We don't advance here. */ return Token(mayBeWS ? STRING_LITERAL : NON_BOUNDARY_WS, normalizeEOL(result, skipEOLNormalization)); } } break; } case '}': { if(m_pos + 1 == m_length) return Token(END_OF_FILE); else if(peekAhead() == '}') { ++m_pos; result.append(QLatin1Char('}')); } else { /* This is a parse error, and the grammar won't be able * to reduce this CURLY_RBRACE. */ return tokenAndChangeState(CURLY_RBRACE, Default); } break; } case '\n': { /* We want to translate \r\n into \n. */ if(peekAhead(-1) == '\r') break; /* else, fallthrough. */ } case '\r': { result.append(QLatin1Char('\n')); break; } default: { result.append(current()); break; } } ++m_pos; } Q_ASSERT(false); } case ProcessingInstructionName: { const int start = m_pos; while(true) { ++m_pos; if(m_pos >= m_length) return Token(END_OF_FILE); const QChar next(current()); if(next.isSpace() || next == QLatin1Char('?')) { return tokenAndChangeState(PI_TARGET, m_data.mid(start, m_pos - start), ProcessingInstructionContent); } } Q_ASSERT(false); } case ProcessingInstructionContent: { /* Consume whitespace between the name and the content. */ if(consumeRawWhitespace()) return Token(END_OF_FILE); const int start = m_pos; const int len = scanUntil("?>"); if(len == -1) return Token(END_OF_FILE); else { m_pos += 2; /* Consume "?>" */ popState(); return Token(PI_CONTENT, normalizeEOL(m_data.mid(start, len), CharacterSkips())); } Q_ASSERT(false); } case EndTag: { if(consumeRawWhitespace()) return END_OF_FILE; if(peekCurrent() == '>') { popState(); return tokenAndAdvance(G_GT); } else return tokenizeNCNameOrQName(); Q_ASSERT(false); } case XMLComment: { const int start = m_pos; const int len = scanUntil("--"); if(len == -1) return END_OF_FILE; else { m_pos += 2; /* Consume "--". */ popState(); if(peekCurrent() == '>') { ++m_pos; return Token(COMMENT_CONTENT, normalizeEOL(m_data.mid(start, len), CharacterSkips())); } else return error(); } Q_ASSERT(false); } case Pragma: { /* Consume whitespace. */ if(consumeRawWhitespace()) return Token(END_OF_FILE); setState(PragmaContent); return tokenizeNCNameOrQName(); } case PragmaContent: { QString result; result.reserve(20); const bool hasWS = m_pos < m_length && current().isSpace(); /* Consume all whitespace up to the pragma content(if any). */ if(consumeRawWhitespace()) return Token(END_OF_FILE); if(peekCurrent() == '#' && peekAhead() == ')') { /* We reached the end, and there's no pragma content. */ return tokenAndChangeState(PRAGMA_END, Default, 2); } else if(!hasWS) { /* A separating space is required if there's pragma content. */ return error(); /* i18n */ } const int start = m_pos; const int len = scanUntil("#)"); if(len == -1) return Token(END_OF_FILE); return Token(STRING_LITERAL, m_data.mid(start, len)); Q_ASSERT(false); } } Q_ASSERT(false); return error(); } Tokenizer::Token XQueryTokenizer::attributeAsRaw(const QChar sep, int &sepStack, const int startPos, const bool aInLiteral, QString &result) { bool inLiteral = aInLiteral; const char otherSep = (sep == QLatin1Char('"') ? '\'' : '"'); while(true) { if(atEnd()) return END_OF_FILE; if(peekCurrent() == sep.unicode()) { if(inLiteral) inLiteral = false; else inLiteral = true; if(peekAhead() == sep.unicode()) { /* The quoting mechanism was used. */ result.append(current()); m_pos += 2; continue; } else { /* Don't consume the separator, such that we * return a token for it next time. */ if(m_pos == startPos) { ++m_pos; setState(StartTag); return Token(sep == QLatin1Char('"') ? QUOTE : APOS); } if(sepStack == 0) { return Token(STRING_LITERAL, result); } else { result.append(current()); ++m_pos; continue; } } } else if(peekCurrent() == '&') { const QString ret(tokenizeCharacterReference()); if(ret.isNull()) return Token(ERROR); else { result.append(ret); ++m_pos; continue; } } else if(peekCurrent() == otherSep) { result.append(current()); ++m_pos; if(peekCurrent() == otherSep) ++m_pos; if(inLiteral) inLiteral = false; else inLiteral = true; continue; } else if(peekCurrent() == '{') { result.append(current()); if(peekAhead() == '{') { m_pos += 2; continue; } else { ++m_pos; ++sepStack; const Token t(attributeAsRaw(sep, sepStack, startPos, false, result)); if(t.type != SUCCESS) return t; } } else if(peekCurrent() == '}') { if(inLiteral && peekAhead() == '}') { result.append(current()); m_pos += 2; continue; } else { ++m_pos; --sepStack; return Token(SUCCESS); /* The return value is arbitrary. */ } } else { result.append(current()); ++m_pos; } } } Tokenizer::Token XQueryTokenizer::nextToken(YYLTYPE *const sourceLocator) { sourceLocator->first_line = m_line; sourceLocator->first_column = m_pos - m_columnOffset + 1; /* Plus 1, since m_pos is 0-based. */ if(m_tokenStack.isEmpty()) return nextToken(); else { const Token retval(m_tokenStack.pop()); switch(retval.type) { case MODULE: /* Fallthrough.*/ case SCHEMA: /* Fallthrough.*/ case COPY_NAMESPACES: { setState(NamespaceKeyword); break; } case VERSION: { setState(XQueryVersion); break; } case AS: /* Fallthrough. */ case OF: { setState(ItemType); break; } default: { if(isOperatorKeyword(retval.type)) setState(Default); break; } }; return retval; } } int XQueryTokenizer::commenceScanOnly() { m_scanOnly = true; return m_pos; } void XQueryTokenizer::resumeTokenizationFrom(const int pos) { m_scanOnly = false; m_pos = pos; } void XQueryTokenizer::setParserContext(const ParserContext::Ptr &) { } #undef handleWhitespace } // namespace QPatternist QT_END_NAMESPACE