/**************************************************************************** ** ** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the Qt Linguist of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** GNU Lesser General Public License Usage ** 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. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU General ** Public License version 3.0 as published by the Free Software Foundation ** and appearing in the file LICENSE.GPL included in the packaging of this ** file. Please review the following information to ensure the GNU General ** Public License version 3.0 requirements will be met: ** http://www.gnu.org/copyleft/gpl.html. ** ** Other Usage ** Alternatively, this file may be used in accordance with the terms and ** conditions contained in a signed written agreement between you and Nokia. ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include "profileevaluator.h" #include "proparserutils.h" #include "proitems.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef Q_OS_UNIX #include #include #else #include #endif #include #include #ifdef Q_OS_WIN32 #define QT_POPEN _popen #define QT_PCLOSE _pclose #else #define QT_POPEN popen #define QT_PCLOSE pclose #endif QT_BEGIN_NAMESPACE /////////////////////////////////////////////////////////////////////// // // Option // /////////////////////////////////////////////////////////////////////// QString Option::fixString(QString string, uchar flags) { // XXX Ripped out caching, so this will be slow. Should not matter for current uses. //fix the environment variables if (flags & Option::FixEnvVars) { int rep; QRegExp reg_variableName(QLatin1String("\\$\\(.*\\)")); reg_variableName.setMinimal(true); while ((rep = reg_variableName.indexIn(string)) != -1) string.replace(rep, reg_variableName.matchedLength(), QString::fromLocal8Bit(qgetenv(string.mid(rep + 2, reg_variableName.matchedLength() - 3).toLatin1().constData()).constData())); } //canonicalize it (and treat as a path) if (flags & Option::FixPathCanonicalize) { #if 0 string = QFileInfo(string).canonicalFilePath(); #endif string = QDir::cleanPath(string); } if (string.length() > 2 && string[0].isLetter() && string[1] == QLatin1Char(':')) string[0] = string[0].toLower(); //fix separators Q_ASSERT(!((flags & Option::FixPathToLocalSeparators) && (flags & Option::FixPathToTargetSeparators))); if (flags & Option::FixPathToLocalSeparators) { #if defined(Q_OS_WIN32) string = string.replace(QLatin1Char('/'), QLatin1Char('\\')); #else string = string.replace(QLatin1Char('\\'), QLatin1Char('/')); #endif } else if (flags & Option::FixPathToTargetSeparators) { string = string.replace(QLatin1Char('/'), Option::dir_sep) .replace(QLatin1Char('\\'), Option::dir_sep); } if ((string.startsWith(QLatin1Char('"')) && string.endsWith(QLatin1Char('"'))) || (string.startsWith(QLatin1Char('\'')) && string.endsWith(QLatin1Char('\'')))) string = string.mid(1, string.length() - 2); return string; } /////////////////////////////////////////////////////////////////////// // // ProFileEvaluator::Private // /////////////////////////////////////////////////////////////////////// class ProFileEvaluator::Private : public AbstractProItemVisitor { public: Private(ProFileEvaluator *q_); ProFileEvaluator *q; int m_lineNo; // Error reporting bool m_verbose; /////////////// Reading pro file bool read(ProFile *pro); ProBlock *currentBlock(); void updateItem(); bool parseLine(const QString &line); void insertVariable(const QString &line, int *i); void insertOperator(const char op); void insertComment(const QString &comment); void enterScope(bool multiLine); void leaveScope(); void finalizeBlock(); QStack m_blockstack; ProBlock *m_block; ProItem *m_commentItem; QString m_proitem; QString m_pendingComment; bool m_syntaxError; bool m_contNextLine; bool m_inQuote; int m_parens; /////////////// Evaluating pro file contents // implementation of AbstractProItemVisitor ProItem::ProItemReturn visitBeginProBlock(ProBlock *block); void visitEndProBlock(ProBlock *block); ProItem::ProItemReturn visitProLoopIteration(); void visitProLoopCleanup(); void visitBeginProVariable(ProVariable *variable); void visitEndProVariable(ProVariable *variable); ProItem::ProItemReturn visitBeginProFile(ProFile *value); ProItem::ProItemReturn visitEndProFile(ProFile *value); void visitProValue(ProValue *value); ProItem::ProItemReturn visitProFunction(ProFunction *function); void visitProOperator(ProOperator *oper); void visitProCondition(ProCondition *condition); QStringList valuesDirect(const QString &variableName) const { return m_valuemap[variableName]; } QStringList values(const QString &variableName) const; QStringList values(const QString &variableName, const ProFile *pro) const; QStringList values(const QString &variableName, const QHash &place, const ProFile *pro) const; QString propertyValue(const QString &val) const; bool isActiveConfig(const QString &config, bool regex = false); QStringList expandVariableReferences(const QString &value); void doVariableReplace(QString *str); QStringList evaluateExpandFunction(const QString &function, const QString &arguments); QString format(const char *format) const; QString currentFileName() const; QString currentDirectory() const; ProFile *currentProFile() const; ProItem::ProItemReturn evaluateConditionalFunction(const QString &function, const QString &arguments); bool evaluateFile(const QString &fileName); bool evaluateFeatureFile(const QString &fileName); static inline ProItem::ProItemReturn returnBool(bool b) { return b ? ProItem::ReturnTrue : ProItem::ReturnFalse; } QStringList evaluateFunction(ProBlock *funcPtr, const QStringList &argumentsList, bool *ok); QStringList qmakeFeaturePaths(); struct State { bool condition; bool prevCondition; } m_sts; bool m_invertNext; // Short-lived, so not in State int m_skipLevel; bool m_cumulative; bool m_isFirstVariableValue; QString m_lastVarName; ProVariable::VariableOperator m_variableOperator; QString m_origfile; QString m_oldPath; // To restore the current path to the path QStack m_profileStack; // To handle 'include(a.pri), so we can track back to 'a.pro' when finished with 'a.pri' struct ProLoop { QString variable; QStringList oldVarVal; QStringList list; int index; bool infinite; }; QStack m_loopStack; // we need the following two variables for handling // CONFIG = foo bar $$CONFIG QHash m_tempValuemap; // used while evaluating (variable operator value1 value2 ...) QHash > m_tempFilevaluemap; // used while evaluating (variable operator value1 value2 ...) QHash m_valuemap; // VariableName must be us-ascii, the content however can be non-us-ascii. QHash > m_filevaluemap; // Variables per include file QHash m_properties; QString m_outputDir; bool m_definingTest; QString m_definingFunc; QHash m_testFunctions; QHash m_replaceFunctions; QStringList m_returnValue; QStack > m_valuemapStack; QStack > > m_filevaluemapStack; int m_prevLineNo; // Checking whether we're assigning the same TARGET ProFile *m_prevProFile; // See m_prevLineNo }; Q_DECLARE_TYPEINFO(ProFileEvaluator::Private::State, Q_PRIMITIVE_TYPE); Q_DECLARE_TYPEINFO(ProFileEvaluator::Private::ProLoop, Q_MOVABLE_TYPE); ProFileEvaluator::Private::Private(ProFileEvaluator *q_) : q(q_) { // Global parser state m_prevLineNo = 0; m_prevProFile = 0; // Configuration, more or less m_verbose = true; m_cumulative = true; // Evaluator state m_sts.condition = false; m_sts.prevCondition = false; m_invertNext = false; m_skipLevel = 0; m_isFirstVariableValue = true; m_definingFunc.clear(); } bool ProFileEvaluator::Private::read(ProFile *pro) { QFile file(pro->fileName()); if (!file.open(QIODevice::ReadOnly | QIODevice::Text)) { q->errorMessage(format("%1 not readable.").arg(pro->fileName())); return false; } // Parser state m_block = 0; m_commentItem = 0; m_inQuote = false; m_parens = 0; m_contNextLine = false; m_syntaxError = false; m_lineNo = 1; m_blockstack.clear(); m_blockstack.push(pro); QTextStream ts(&file); while (!ts.atEnd()) { QString line = ts.readLine(); if (!parseLine(line)) { q->errorMessage(format(".pro parse failure.")); return false; } ++m_lineNo; } return true; } bool ProFileEvaluator::Private::parseLine(const QString &line0) { if (m_blockstack.isEmpty()) return false; int parens = m_parens; bool inQuote = m_inQuote; bool escaped = false; QString line = line0.simplified(); for (int i = 0; !m_syntaxError && i < line.length(); ++i) { ushort c = line.at(i).unicode(); if (c == '#') { // Yep - no escaping possible insertComment(line.mid(i + 1)); escaped = m_contNextLine; break; } if (!escaped) { if (c == '\\') { escaped = true; m_proitem += c; continue; } else if (c == '"') { inQuote = !inQuote; m_proitem += c; continue; } } else { escaped = false; } if (!inQuote) { if (c == '(') { ++parens; } else if (c == ')') { --parens; } else if (!parens) { if (m_block && (m_block->blockKind() & ProBlock::VariableKind)) { if (c == ' ') updateItem(); else m_proitem += c; continue; } if (c == ':') { enterScope(false); continue; } if (c == '{') { enterScope(true); continue; } if (c == '}') { leaveScope(); continue; } if (c == '=') { insertVariable(line, &i); continue; } if (c == '|' || c == '!') { insertOperator(c); continue; } } } m_proitem += c; } m_inQuote = inQuote; m_parens = parens; m_contNextLine = escaped; if (escaped) { m_proitem.chop(1); updateItem(); return true; } else { if (!m_syntaxError) { updateItem(); finalizeBlock(); return true; } return false; } } void ProFileEvaluator::Private::finalizeBlock() { if (m_blockstack.isEmpty()) { m_syntaxError = true; } else { if (m_blockstack.top()->blockKind() & ProBlock::SingleLine) leaveScope(); m_block = 0; m_commentItem = 0; } } void ProFileEvaluator::Private::insertVariable(const QString &line, int *i) { ProVariable::VariableOperator opkind; if (m_proitem.isEmpty()) // Line starting with '=', like a conflict marker return; switch (m_proitem.at(m_proitem.length() - 1).unicode()) { case '+': m_proitem.chop(1); opkind = ProVariable::AddOperator; break; case '-': m_proitem.chop(1); opkind = ProVariable::RemoveOperator; break; case '*': m_proitem.chop(1); opkind = ProVariable::UniqueAddOperator; break; case '~': m_proitem.chop(1); opkind = ProVariable::ReplaceOperator; break; default: opkind = ProVariable::SetOperator; } ProBlock *block = m_blockstack.top(); m_proitem = m_proitem.trimmed(); ProVariable *variable = new ProVariable(m_proitem, block); variable->setLineNumber(m_lineNo); variable->setVariableOperator(opkind); block->appendItem(variable); m_block = variable; if (!m_pendingComment.isEmpty()) { m_block->setComment(m_pendingComment); m_pendingComment.clear(); } m_commentItem = variable; m_proitem.clear(); if (opkind == ProVariable::ReplaceOperator) { // skip util end of line or comment while (1) { ++(*i); // end of line? if (*i >= line.count()) break; // comment? if (line.at(*i).unicode() == '#') { --(*i); break; } m_proitem += line.at(*i); } m_proitem = m_proitem.trimmed(); } } void ProFileEvaluator::Private::insertOperator(const char op) { updateItem(); ProOperator::OperatorKind opkind; switch(op) { case '!': opkind = ProOperator::NotOperator; break; case '|': opkind = ProOperator::OrOperator; break; default: opkind = ProOperator::OrOperator; } ProBlock * const block = currentBlock(); ProOperator * const proOp = new ProOperator(opkind); proOp->setLineNumber(m_lineNo); block->appendItem(proOp); m_commentItem = proOp; } void ProFileEvaluator::Private::insertComment(const QString &comment) { updateItem(); QString strComment; if (!m_commentItem) strComment = m_pendingComment; else strComment = m_commentItem->comment(); if (strComment.isEmpty()) strComment = comment; else { strComment += QLatin1Char('\n'); strComment += comment.trimmed(); } strComment = strComment.trimmed(); if (!m_commentItem) m_pendingComment = strComment; else m_commentItem->setComment(strComment); } void ProFileEvaluator::Private::enterScope(bool multiLine) { updateItem(); ProBlock *parent = currentBlock(); ProBlock *block = new ProBlock(parent); block->setLineNumber(m_lineNo); parent->setBlockKind(ProBlock::ScopeKind); parent->appendItem(block); if (multiLine) block->setBlockKind(ProBlock::ScopeContentsKind); else block->setBlockKind(ProBlock::ScopeContentsKind|ProBlock::SingleLine); m_blockstack.push(block); m_block = 0; } void ProFileEvaluator::Private::leaveScope() { updateItem(); m_blockstack.pop(); finalizeBlock(); } ProBlock *ProFileEvaluator::Private::currentBlock() { if (m_block) return m_block; ProBlock *parent = m_blockstack.top(); m_block = new ProBlock(parent); m_block->setLineNumber(m_lineNo); parent->appendItem(m_block); if (!m_pendingComment.isEmpty()) { m_block->setComment(m_pendingComment); m_pendingComment.clear(); } m_commentItem = m_block; return m_block; } void ProFileEvaluator::Private::updateItem() { m_proitem = m_proitem.trimmed(); if (m_proitem.isEmpty()) return; ProBlock *block = currentBlock(); if (block->blockKind() & ProBlock::VariableKind) { m_commentItem = new ProValue(m_proitem, static_cast(block)); } else if (m_proitem.endsWith(QLatin1Char(')'))) { m_commentItem = new ProFunction(m_proitem); } else { m_commentItem = new ProCondition(m_proitem); } m_commentItem->setLineNumber(m_lineNo); block->appendItem(m_commentItem); m_proitem.clear(); } ProItem::ProItemReturn ProFileEvaluator::Private::visitBeginProBlock(ProBlock *block) { if (block->blockKind() & ProBlock::ScopeContentsKind) { if (!m_definingFunc.isEmpty()) { if (!m_skipLevel || m_cumulative) { QHash *hash = (m_definingTest ? &m_testFunctions : &m_replaceFunctions); if (ProBlock *def = hash->value(m_definingFunc)) def->deref(); hash->insert(m_definingFunc, block); block->ref(); block->setBlockKind(block->blockKind() | ProBlock::FunctionBodyKind); } m_definingFunc.clear(); return ProItem::ReturnSkip; } else if (!(block->blockKind() & ProBlock::FunctionBodyKind)) { if (!m_sts.condition) ++m_skipLevel; else Q_ASSERT(!m_skipLevel); } } else { if (!m_skipLevel) { if (m_sts.condition) { m_sts.prevCondition = true; m_sts.condition = false; } } else { Q_ASSERT(!m_sts.condition); } } return ProItem::ReturnTrue; } void ProFileEvaluator::Private::visitEndProBlock(ProBlock *block) { if ((block->blockKind() & ProBlock::ScopeContentsKind) && !(block->blockKind() & ProBlock::FunctionBodyKind)) { if (m_skipLevel) { Q_ASSERT(!m_sts.condition); --m_skipLevel; } else if (!(block->blockKind() & ProBlock::SingleLine)) { // Conditionals contained inside this block may have changed the state. // So we reset it here to make an else following us do the right thing. m_sts.condition = true; } } } ProItem::ProItemReturn ProFileEvaluator::Private::visitProLoopIteration() { ProLoop &loop = m_loopStack.top(); if (loop.infinite) { if (!loop.variable.isEmpty()) m_valuemap[loop.variable] = QStringList(QString::number(loop.index++)); if (loop.index > 1000) { q->errorMessage(format("ran into infinite loop (> 1000 iterations).")); return ProItem::ReturnFalse; } } else { QString val; do { if (loop.index >= loop.list.count()) return ProItem::ReturnFalse; val = loop.list.at(loop.index++); } while (val.isEmpty()); // stupid, but qmake is like that m_valuemap[loop.variable] = QStringList(val); } return ProItem::ReturnTrue; } void ProFileEvaluator::Private::visitProLoopCleanup() { ProLoop &loop = m_loopStack.top(); m_valuemap[loop.variable] = loop.oldVarVal; m_loopStack.pop_back(); } void ProFileEvaluator::Private::visitBeginProVariable(ProVariable *variable) { m_lastVarName = variable->variable(); m_variableOperator = variable->variableOperator(); m_isFirstVariableValue = true; m_tempValuemap = m_valuemap; m_tempFilevaluemap = m_filevaluemap; } void ProFileEvaluator::Private::visitEndProVariable(ProVariable *variable) { Q_UNUSED(variable); m_valuemap = m_tempValuemap; m_filevaluemap = m_tempFilevaluemap; m_lastVarName.clear(); } void ProFileEvaluator::Private::visitProOperator(ProOperator *oper) { m_invertNext = (oper->operatorKind() == ProOperator::NotOperator); } void ProFileEvaluator::Private::visitProCondition(ProCondition *cond) { if (!m_skipLevel) { if (!cond->text().compare(QLatin1String("else"), Qt::CaseInsensitive)) { m_sts.condition = !m_sts.prevCondition; } else { m_sts.prevCondition = false; if (!m_sts.condition && isActiveConfig(cond->text(), true) ^ m_invertNext) m_sts.condition = true; } } m_invertNext = false; } ProItem::ProItemReturn ProFileEvaluator::Private::visitBeginProFile(ProFile * pro) { PRE(pro); m_lineNo = pro->lineNumber(); if (m_origfile.isEmpty()) m_origfile = pro->fileName(); if (m_oldPath.isEmpty()) { // change the working directory for the initial profile we visit, since // that is *the* profile. All the other times we reach this function will be due to // include(file) or load(file) m_oldPath = QDir::currentPath(); m_profileStack.push(pro); const QString mkspecDirectory = propertyValue(QLatin1String("QMAKE_MKSPECS")); if (!mkspecDirectory.isEmpty()) { bool cumulative = m_cumulative; m_cumulative = false; // This is what qmake does, everything set in the mkspec is also set // But this also creates a lot of problems evaluateFile(mkspecDirectory + QLatin1String("/default/qmake.conf")); evaluateFile(mkspecDirectory + QLatin1String("/features/default_pre.prf")); m_cumulative = cumulative; } return returnBool(QDir::setCurrent(pro->directoryName())); } return ProItem::ReturnTrue; } ProItem::ProItemReturn ProFileEvaluator::Private::visitEndProFile(ProFile * pro) { PRE(pro); m_lineNo = pro->lineNumber(); if (m_profileStack.count() == 1 && !m_oldPath.isEmpty()) { const QString &mkspecDirectory = propertyValue(QLatin1String("QMAKE_MKSPECS")); if (!mkspecDirectory.isEmpty()) { bool cumulative = m_cumulative; m_cumulative = false; evaluateFile(mkspecDirectory + QLatin1String("/features/default_post.prf")); QSet processed; forever { bool finished = true; QStringList configs = valuesDirect(QLatin1String("CONFIG")); for (int i = configs.size() - 1; i >= 0; --i) { const QString config = configs[i].toLower(); if (!processed.contains(config)) { processed.insert(config); if (evaluateFile(mkspecDirectory + QLatin1String("/features/") + config + QLatin1String(".prf"))) { finished = false; break; } } } if (finished) break; } foreach (ProBlock *itm, m_replaceFunctions) itm->deref(); m_replaceFunctions.clear(); foreach (ProBlock *itm, m_testFunctions) itm->deref(); m_testFunctions.clear(); m_cumulative = cumulative; } m_profileStack.pop(); return returnBool(QDir::setCurrent(m_oldPath)); } return ProItem::ReturnTrue; } static void replaceInList(QStringList *varlist, const QRegExp ®exp, const QString &replace, bool global) { for (QStringList::Iterator varit = varlist->begin(); varit != varlist->end(); ) { if ((*varit).contains(regexp)) { (*varit).replace(regexp, replace); if ((*varit).isEmpty()) varit = varlist->erase(varit); else ++varit; if(!global) break; } else { ++varit; } } } void ProFileEvaluator::Private::visitProValue(ProValue *value) { PRE(value); m_lineNo = value->lineNumber(); QString val = value->value(); QString varName = m_lastVarName; QStringList v = expandVariableReferences(val); // Since qmake combines different values for the TARGET variable, we join // TARGET values that are on the same line. We can't do this later with all // values because this parser isn't scope-aware, so we'd risk joining // scope-specific targets together. if (varName == QLatin1String("TARGET") && m_lineNo == m_prevLineNo && currentProFile() == m_prevProFile) { QStringList targets = m_tempValuemap.value(QLatin1String("TARGET")); m_tempValuemap.remove(QLatin1String("TARGET")); QStringList lastTarget(targets.takeLast()); lastTarget << v.join(QLatin1String(" ")); targets.push_back(lastTarget.join(QLatin1String(" "))); v = targets; } m_prevLineNo = m_lineNo; m_prevProFile = currentProFile(); switch (m_variableOperator) { case ProVariable::SetOperator: // = if (!m_cumulative) { if (!m_skipLevel) { if (m_isFirstVariableValue) { m_tempValuemap[varName] = v; m_tempFilevaluemap[currentProFile()][varName] = v; } else { // handle lines "CONFIG = foo bar" m_tempValuemap[varName] += v; m_tempFilevaluemap[currentProFile()][varName] += v; } } } else { // We are greedy for values. m_tempValuemap[varName] += v; m_tempFilevaluemap[currentProFile()][varName] += v; } break; case ProVariable::UniqueAddOperator: // *= if (!m_skipLevel || m_cumulative) { insertUnique(&m_tempValuemap, varName, v); insertUnique(&m_tempFilevaluemap[currentProFile()], varName, v); } break; case ProVariable::AddOperator: // += if (!m_skipLevel || m_cumulative) { m_tempValuemap[varName] += v; m_tempFilevaluemap[currentProFile()][varName] += v; } break; case ProVariable::RemoveOperator: // -= if (!m_cumulative) { if (!m_skipLevel) { removeEach(&m_tempValuemap, varName, v); removeEach(&m_tempFilevaluemap[currentProFile()], varName, v); } } else { // We are stingy with our values, too. } break; case ProVariable::ReplaceOperator: // ~= { // DEFINES ~= s/a/b/?[gqi] doVariableReplace(&val); if (val.length() < 4 || val[0] != QLatin1Char('s')) { q->logMessage(format("the ~= operator can handle only the s/// function.")); break; } QChar sep = val.at(1); QStringList func = val.split(sep); if (func.count() < 3 || func.count() > 4) { q->logMessage(format("the s/// function expects 3 or 4 arguments.")); break; } bool global = false, quote = false, case_sense = false; if (func.count() == 4) { global = func[3].indexOf(QLatin1Char('g')) != -1; case_sense = func[3].indexOf(QLatin1Char('i')) == -1; quote = func[3].indexOf(QLatin1Char('q')) != -1; } QString pattern = func[1]; QString replace = func[2]; if (quote) pattern = QRegExp::escape(pattern); QRegExp regexp(pattern, case_sense ? Qt::CaseSensitive : Qt::CaseInsensitive); if (!m_skipLevel || m_cumulative) { // We could make a union of modified and unmodified values, // but this will break just as much as it fixes, so leave it as is. replaceInList(&m_tempValuemap[varName], regexp, replace, global); replaceInList(&m_tempFilevaluemap[currentProFile()][varName], regexp, replace, global); } } break; } m_isFirstVariableValue = false; } ProItem::ProItemReturn ProFileEvaluator::Private::visitProFunction(ProFunction *func) { // Make sure that called subblocks don't inherit & destroy the state bool invertThis = m_invertNext; m_invertNext = false; if (!m_skipLevel) m_sts.prevCondition = false; if (m_cumulative || !m_sts.condition) { QString text = func->text(); int lparen = text.indexOf(QLatin1Char('(')); int rparen = text.lastIndexOf(QLatin1Char(')')); Q_ASSERT(lparen < rparen); QString arguments = text.mid(lparen + 1, rparen - lparen - 1); QString funcName = text.left(lparen); m_lineNo = func->lineNumber(); ProItem::ProItemReturn result = evaluateConditionalFunction(funcName.trimmed(), arguments); if (result != ProItem::ReturnFalse && result != ProItem::ReturnTrue) return result; if (!m_skipLevel && ((result == ProItem::ReturnTrue) ^ invertThis)) m_sts.condition = true; } return ProItem::ReturnTrue; } QStringList ProFileEvaluator::Private::qmakeFeaturePaths() { QStringList concat; { const QString base_concat = QDir::separator() + QLatin1String("features"); concat << base_concat + QDir::separator() + QLatin1String("mac"); concat << base_concat + QDir::separator() + QLatin1String("macx"); concat << base_concat + QDir::separator() + QLatin1String("unix"); concat << base_concat + QDir::separator() + QLatin1String("win32"); concat << base_concat + QDir::separator() + QLatin1String("mac9"); concat << base_concat + QDir::separator() + QLatin1String("qnx6"); concat << base_concat; } const QString mkspecs_concat = QDir::separator() + QLatin1String("mkspecs"); QStringList feature_roots; QByteArray mkspec_path = qgetenv("QMAKEFEATURES"); if (!mkspec_path.isNull()) feature_roots += splitPathList(QString::fromLocal8Bit(mkspec_path)); /* if (prop) feature_roots += splitPathList(prop->value("QMAKEFEATURES")); if (!Option::mkfile::cachefile.isEmpty()) { QString path; int last_slash = Option::mkfile::cachefile.lastIndexOf(Option::dir_sep); if (last_slash != -1) path = Option::fixPathToLocalOS(Option::mkfile::cachefile.left(last_slash)); foreach (const QString &concat_it, concat) feature_roots << (path + concat_it); } */ QByteArray qmakepath = qgetenv("QMAKEPATH"); if (!qmakepath.isNull()) { const QStringList lst = splitPathList(QString::fromLocal8Bit(qmakepath)); foreach (const QString &item, lst) { foreach (const QString &concat_it, concat) feature_roots << (item + mkspecs_concat + concat_it); } } //if (!Option::mkfile::qmakespec.isEmpty()) // feature_roots << Option::mkfile::qmakespec + QDir::separator() + "features"; //if (!Option::mkfile::qmakespec.isEmpty()) { // QFileInfo specfi(Option::mkfile::qmakespec); // QDir specdir(specfi.absoluteFilePath()); // while (!specdir.isRoot()) { // if (!specdir.cdUp() || specdir.isRoot()) // break; // if (QFile::exists(specdir.path() + QDir::separator() + "features")) { // foreach (const QString &concat_it, concat) // feature_roots << (specdir.path() + concat_it); // break; // } // } //} foreach (const QString &concat_it, concat) feature_roots << (propertyValue(QLatin1String("QT_INSTALL_PREFIX")) + mkspecs_concat + concat_it); foreach (const QString &concat_it, concat) feature_roots << (propertyValue(QLatin1String("QT_INSTALL_DATA")) + mkspecs_concat + concat_it); return feature_roots; } QString ProFileEvaluator::Private::propertyValue(const QString &name) const { if (m_properties.contains(name)) return m_properties.value(name); if (name == QLatin1String("QT_INSTALL_PREFIX")) return QLibraryInfo::location(QLibraryInfo::PrefixPath); if (name == QLatin1String("QT_INSTALL_DATA")) return QLibraryInfo::location(QLibraryInfo::DataPath); if (name == QLatin1String("QT_INSTALL_DOCS")) return QLibraryInfo::location(QLibraryInfo::DocumentationPath); if (name == QLatin1String("QT_INSTALL_HEADERS")) return QLibraryInfo::location(QLibraryInfo::HeadersPath); if (name == QLatin1String("QT_INSTALL_LIBS")) return QLibraryInfo::location(QLibraryInfo::LibrariesPath); if (name == QLatin1String("QT_INSTALL_BINS")) return QLibraryInfo::location(QLibraryInfo::BinariesPath); if (name == QLatin1String("QT_INSTALL_PLUGINS")) return QLibraryInfo::location(QLibraryInfo::PluginsPath); if (name == QLatin1String("QT_INSTALL_TRANSLATIONS")) return QLibraryInfo::location(QLibraryInfo::TranslationsPath); if (name == QLatin1String("QT_INSTALL_CONFIGURATION")) return QLibraryInfo::location(QLibraryInfo::SettingsPath); if (name == QLatin1String("QT_INSTALL_EXAMPLES")) return QLibraryInfo::location(QLibraryInfo::ExamplesPath); if (name == QLatin1String("QT_INSTALL_DEMOS")) return QLibraryInfo::location(QLibraryInfo::DemosPath); if (name == QLatin1String("QMAKE_MKSPECS")) return qmake_mkspec_paths().join(Option::dirlist_sep); if (name == QLatin1String("QMAKE_VERSION")) return QLatin1String("1.0"); //### FIXME //return qmake_version(); #ifdef QT_VERSION_STR if (name == QLatin1String("QT_VERSION")) return QLatin1String(QT_VERSION_STR); #endif return QLatin1String("UNKNOWN"); //### } ProFile *ProFileEvaluator::Private::currentProFile() const { if (m_profileStack.count() > 0) return m_profileStack.top(); return 0; } QString ProFileEvaluator::Private::currentFileName() const { ProFile *pro = currentProFile(); if (pro) return pro->fileName(); return QString(); } QString ProFileEvaluator::Private::currentDirectory() const { ProFile *cur = m_profileStack.top(); return cur->directoryName(); } void ProFileEvaluator::Private::doVariableReplace(QString *str) { *str = expandVariableReferences(*str).join(QString(Option::field_sep)); } QStringList ProFileEvaluator::Private::expandVariableReferences(const QString &str) { QStringList ret; // if (ok) // *ok = true; if (str.isEmpty()) return ret; const ushort LSQUARE = '['; const ushort RSQUARE = ']'; const ushort LCURLY = '{'; const ushort RCURLY = '}'; const ushort LPAREN = '('; const ushort RPAREN = ')'; const ushort DOLLAR = '$'; const ushort BACKSLASH = '\\'; const ushort UNDERSCORE = '_'; const ushort DOT = '.'; const ushort SPACE = ' '; const ushort TAB = '\t'; const ushort SINGLEQUOTE = '\''; const ushort DOUBLEQUOTE = '"'; ushort unicode, quote = 0; const QChar *str_data = str.data(); const int str_len = str.length(); ushort term; QString var, args; int replaced = 0; QString current; for (int i = 0; i < str_len; ++i) { unicode = str_data[i].unicode(); const int start_var = i; if (unicode == DOLLAR && str_len > i+2) { unicode = str_data[++i].unicode(); if (unicode == DOLLAR) { term = 0; var.clear(); args.clear(); enum { VAR, ENVIRON, FUNCTION, PROPERTY } var_type = VAR; unicode = str_data[++i].unicode(); if (unicode == LSQUARE) { unicode = str_data[++i].unicode(); term = RSQUARE; var_type = PROPERTY; } else if (unicode == LCURLY) { unicode = str_data[++i].unicode(); var_type = VAR; term = RCURLY; } else if (unicode == LPAREN) { unicode = str_data[++i].unicode(); var_type = ENVIRON; term = RPAREN; } forever { if (!(unicode & (0xFF<<8)) && unicode != DOT && unicode != UNDERSCORE && //unicode != SINGLEQUOTE && unicode != DOUBLEQUOTE && (unicode < 'a' || unicode > 'z') && (unicode < 'A' || unicode > 'Z') && (unicode < '0' || unicode > '9')) break; var.append(QChar(unicode)); if (++i == str_len) break; unicode = str_data[i].unicode(); // at this point, i points to either the 'term' or 'next' character (which is in unicode) } if (var_type == VAR && unicode == LPAREN) { var_type = FUNCTION; int depth = 0; forever { if (++i == str_len) break; unicode = str_data[i].unicode(); if (unicode == LPAREN) { depth++; } else if (unicode == RPAREN) { if (!depth) break; --depth; } args.append(QChar(unicode)); } if (++i < str_len) unicode = str_data[i].unicode(); else unicode = 0; // at this point i is pointing to the 'next' character (which is in unicode) // this might actually be a term character since you can do $${func()} } if (term) { if (unicode != term) { q->logMessage(format("Missing %1 terminator [found %2]") .arg(QChar(term)) .arg(unicode ? QString(unicode) : QString::fromLatin1(("end-of-line")))); // if (ok) // *ok = false; return QStringList(); } } else { // move the 'cursor' back to the last char of the thing we were looking at --i; } // since i never points to the 'next' character, there is no reason for this to be set unicode = 0; QStringList replacement; if (var_type == ENVIRON) { replacement = split_value_list(QString::fromLocal8Bit(qgetenv(var.toLatin1().constData()))); } else if (var_type == PROPERTY) { replacement << propertyValue(var); } else if (var_type == FUNCTION) { replacement << evaluateExpandFunction(var, args); } else if (var_type == VAR) { replacement = values(var); } if (!(replaced++) && start_var) current = str.left(start_var); if (!replacement.isEmpty()) { if (quote) { current += replacement.join(QString(Option::field_sep)); } else { current += replacement.takeFirst(); if (!replacement.isEmpty()) { if (!current.isEmpty()) ret.append(current); current = replacement.takeLast(); if (!replacement.isEmpty()) ret += replacement; } } } } else { if (replaced) current.append(QLatin1Char('$')); } } if (quote && unicode == quote) { unicode = 0; quote = 0; } else if (unicode == BACKSLASH) { bool escape = false; const char *symbols = "[]{}()$\\'\""; for (const char *s = symbols; *s; ++s) { if (str_data[i+1].unicode() == (ushort)*s) { i++; escape = true; if (!(replaced++)) current = str.left(start_var); current.append(str.at(i)); break; } } if (escape || !replaced) unicode =0; } else if (!quote && (unicode == SINGLEQUOTE || unicode == DOUBLEQUOTE)) { quote = unicode; unicode = 0; if (!(replaced++) && i) current = str.left(i); } else if (!quote && (unicode == SPACE || unicode == TAB)) { unicode = 0; if (!current.isEmpty()) { ret.append(current); current.clear(); } } if (replaced && unicode) current.append(QChar(unicode)); } if (!replaced) ret = QStringList(str); else if (!current.isEmpty()) ret.append(current); return ret; } bool ProFileEvaluator::Private::isActiveConfig(const QString &config, bool regex) { // magic types for easy flipping if (config == QLatin1String("true")) return true; if (config == QLatin1String("false")) return false; // mkspecs if ((Option::target_mode == Option::TARG_MACX_MODE || Option::target_mode == Option::TARG_QNX6_MODE || Option::target_mode == Option::TARG_UNIX_MODE) && config == QLatin1String("unix")) return true; if (Option::target_mode == Option::TARG_MACX_MODE && config == QLatin1String("macx")) return true; if (Option::target_mode == Option::TARG_QNX6_MODE && config == QLatin1String("qnx6")) return true; if (Option::target_mode == Option::TARG_MAC9_MODE && config == QLatin1String("mac9")) return true; if ((Option::target_mode == Option::TARG_MAC9_MODE || Option::target_mode == Option::TARG_MACX_MODE) && config == QLatin1String("mac")) return true; if (Option::target_mode == Option::TARG_WIN_MODE && config == QLatin1String("win32")) return true; QRegExp re(config, Qt::CaseSensitive, QRegExp::Wildcard); QString spec = Option::qmakespec; if ((regex && re.exactMatch(spec)) || (!regex && spec == config)) return true; return false; } QStringList ProFileEvaluator::Private::evaluateFunction( ProBlock *funcPtr, const QStringList &argumentsList, bool *ok) { bool oki; QStringList ret; if (m_valuemapStack.count() >= 100) { q->errorMessage(format("ran into infinite recursion (depth > 100).")); oki = false; } else { State sts = m_sts; m_valuemapStack.push(m_valuemap); m_filevaluemapStack.push(m_filevaluemap); QStringList args; for (int i = 0; i < argumentsList.count(); ++i) { QStringList theArgs = expandVariableReferences(argumentsList[i]); args += theArgs; m_valuemap[QString::number(i+1)] = theArgs; } m_valuemap[QLatin1String("ARGS")] = args; oki = (funcPtr->Accept(this) != ProItem::ReturnFalse); // True || Return ret = m_returnValue; m_returnValue.clear(); m_valuemap = m_valuemapStack.pop(); m_filevaluemap = m_filevaluemapStack.pop(); m_sts = sts; } if (ok) *ok = oki; if (oki) return ret; return QStringList(); } QStringList ProFileEvaluator::Private::evaluateExpandFunction(const QString &func, const QString &arguments) { QStringList argumentsList = split_arg_list(arguments); if (ProBlock *funcPtr = m_replaceFunctions.value(func, 0)) return evaluateFunction(funcPtr, argumentsList, 0); QStringList args; for (int i = 0; i < argumentsList.count(); ++i) args += expandVariableReferences(argumentsList[i]).join(Option::field_sep); enum ExpandFunc { E_MEMBER=1, E_FIRST, E_LAST, E_CAT, E_FROMFILE, E_EVAL, E_LIST, E_SPRINTF, E_JOIN, E_SPLIT, E_BASENAME, E_DIRNAME, E_SECTION, E_FIND, E_SYSTEM, E_UNIQUE, E_QUOTE, E_ESCAPE_EXPAND, E_UPPER, E_LOWER, E_FILES, E_PROMPT, E_RE_ESCAPE, E_REPLACE }; static QHash expands; if (expands.isEmpty()) { expands.insert(QLatin1String("member"), E_MEMBER); expands.insert(QLatin1String("first"), E_FIRST); expands.insert(QLatin1String("last"), E_LAST); expands.insert(QLatin1String("cat"), E_CAT); expands.insert(QLatin1String("fromfile"), E_FROMFILE); // implementation disabled (see comment below) expands.insert(QLatin1String("eval"), E_EVAL); expands.insert(QLatin1String("list"), E_LIST); expands.insert(QLatin1String("sprintf"), E_SPRINTF); expands.insert(QLatin1String("join"), E_JOIN); expands.insert(QLatin1String("split"), E_SPLIT); expands.insert(QLatin1String("basename"), E_BASENAME); expands.insert(QLatin1String("dirname"), E_DIRNAME); expands.insert(QLatin1String("section"), E_SECTION); expands.insert(QLatin1String("find"), E_FIND); expands.insert(QLatin1String("system"), E_SYSTEM); expands.insert(QLatin1String("unique"), E_UNIQUE); expands.insert(QLatin1String("quote"), E_QUOTE); expands.insert(QLatin1String("escape_expand"), E_ESCAPE_EXPAND); expands.insert(QLatin1String("upper"), E_UPPER); expands.insert(QLatin1String("lower"), E_LOWER); expands.insert(QLatin1String("re_escape"), E_RE_ESCAPE); expands.insert(QLatin1String("files"), E_FILES); expands.insert(QLatin1String("prompt"), E_PROMPT); // interactive, so cannot be implemented expands.insert(QLatin1String("replace"), E_REPLACE); } ExpandFunc func_t = ExpandFunc(expands.value(func.toLower())); QStringList ret; switch (func_t) { case E_BASENAME: case E_DIRNAME: case E_SECTION: { bool regexp = false; QString sep, var; int beg = 0; int end = -1; if (func_t == E_SECTION) { if (args.count() != 3 && args.count() != 4) { q->logMessage(format("%1(var) section(var, sep, begin, end) " "requires three or four arguments.").arg(func)); } else { var = args[0]; sep = args[1]; beg = args[2].toInt(); if (args.count() == 4) end = args[3].toInt(); } } else { if (args.count() != 1) { q->logMessage(format("%1(var) requires one argument.").arg(func)); } else { var = args[0]; regexp = true; sep = QLatin1String("[\\\\/]"); if (func_t == E_DIRNAME) end = -2; else beg = -1; } } if (!var.isNull()) { foreach (const QString str, values(var)) { if (regexp) ret += str.section(QRegExp(sep), beg, end); else ret += str.section(sep, beg, end); } } break; } case E_SPRINTF: if(args.count() < 1) { q->logMessage(format("sprintf(format, ...) requires at least one argument")); } else { QString tmp = args.at(0); for (int i = 1; i < args.count(); ++i) tmp = tmp.arg(args.at(i)); ret = split_value_list(tmp); } break; case E_JOIN: { if (args.count() < 1 || args.count() > 4) { q->logMessage(format("join(var, glue, before, after) requires one to four arguments.")); } else { QString glue, before, after; if (args.count() >= 2) glue = args[1]; if (args.count() >= 3) before = args[2]; if (args.count() == 4) after = args[3]; const QStringList &var = values(args.first()); if (!var.isEmpty()) ret.append(before + var.join(glue) + after); } break; } case E_SPLIT: { if (args.count() != 2) { q->logMessage(format("split(var, sep) requires one or two arguments")); } else { const QString &sep = (args.count() == 2) ? args[1] : QString(Option::field_sep); foreach (const QString &var, values(args.first())) foreach (const QString &splt, var.split(sep)) ret.append(splt); } break; } case E_MEMBER: { if (args.count() < 1 || args.count() > 3) { q->logMessage(format("member(var, start, end) requires one to three arguments.")); } else { bool ok = true; const QStringList var = values(args.first()); int start = 0, end = 0; if (args.count() >= 2) { QString start_str = args[1]; start = start_str.toInt(&ok); if (!ok) { if (args.count() == 2) { int dotdot = start_str.indexOf(QLatin1String("..")); if (dotdot != -1) { start = start_str.left(dotdot).toInt(&ok); if (ok) end = start_str.mid(dotdot+2).toInt(&ok); } } if (!ok) q->logMessage(format("member() argument 2 (start) '%2' invalid.") .arg(start_str)); } else { end = start; if (args.count() == 3) end = args[2].toInt(&ok); if (!ok) q->logMessage(format("member() argument 3 (end) '%2' invalid.\n") .arg(args[2])); } } if (ok) { if (start < 0) start += var.count(); if (end < 0) end += var.count(); if (start < 0 || start >= var.count() || end < 0 || end >= var.count()) { //nothing } else if (start < end) { for (int i = start; i <= end && var.count() >= i; i++) ret.append(var[i]); } else { for (int i = start; i >= end && var.count() >= i && i >= 0; i--) ret += var[i]; } } } break; } case E_FIRST: case E_LAST: { if (args.count() != 1) { q->logMessage(format("%1(var) requires one argument.").arg(func)); } else { const QStringList var = values(args.first()); if (!var.isEmpty()) { if (func_t == E_FIRST) ret.append(var[0]); else ret.append(var.last()); } } break; } case E_CAT: if (args.count() < 1 || args.count() > 2) { q->logMessage(format("cat(file, singleline=true) requires one or two arguments.")); } else { QString file = args[0]; file = Option::fixPathToLocalOS(file); bool singleLine = true; if (args.count() > 1) singleLine = (!args[1].compare(QLatin1String("true"), Qt::CaseInsensitive)); QFile qfile(file); if (qfile.open(QIODevice::ReadOnly)) { QTextStream stream(&qfile); while (!stream.atEnd()) { ret += split_value_list(stream.readLine().trimmed()); if (!singleLine) ret += QLatin1String("\n"); } qfile.close(); } } break; #if 0 // Used only by Qt's configure for caching case E_FROMFILE: if (args.count() != 2) { q->logMessage(format("fromfile(file, variable) requires two arguments.")); } else { QString file = args[0], seek_variableName = args[1]; ProFile pro(Option::fixPathToLocalOS(file)); ProFileEvaluator visitor; visitor.setVerbose(m_verbose); visitor.setCumulative(m_cumulative); if (!visitor.queryProFile(&pro)) break; if (!visitor.accept(&pro)) break; ret = visitor.values(seek_variableName); } break; #endif case E_EVAL: { if (args.count() != 1) { q->logMessage(format("eval(variable) requires one argument")); } else { ret += values(args.at(0)); } break; } case E_LIST: { static int x = 0; QString tmp; tmp.sprintf(".QMAKE_INTERNAL_TMP_variableName_%d", x++); ret = QStringList(tmp); QStringList lst; foreach (const QString &arg, args) lst += split_value_list(arg); m_valuemap[tmp] = lst; break; } case E_FIND: if (args.count() != 2) { q->logMessage(format("find(var, str) requires two arguments.")); } else { QRegExp regx(args[1]); foreach (const QString &val, values(args.first())) if (regx.indexIn(val) != -1) ret += val; } break; case E_SYSTEM: if (!m_skipLevel) { if (args.count() < 1 || args.count() > 2) { q->logMessage(format("system(execute) requires one or two arguments.")); } else { char buff[256]; FILE *proc = QT_POPEN(args[0].toLatin1(), "r"); bool singleLine = true; if (args.count() > 1) singleLine = (!args[1].compare(QLatin1String("true"), Qt::CaseInsensitive)); QString output; while (proc && !feof(proc)) { int read_in = int(fread(buff, 1, 255, proc)); if (!read_in) break; for (int i = 0; i < read_in; i++) { if ((singleLine && buff[i] == '\n') || buff[i] == '\t') buff[i] = ' '; } buff[read_in] = '\0'; output += QLatin1String(buff); } ret += split_value_list(output); if (proc) QT_PCLOSE(proc); } } break; case E_UNIQUE: if(args.count() != 1) { q->logMessage(format("unique(var) requires one argument.")); } else { foreach (const QString &var, values(args.first())) if (!ret.contains(var)) ret.append(var); } break; case E_QUOTE: for (int i = 0; i < args.count(); ++i) ret += QStringList(args.at(i)); break; case E_ESCAPE_EXPAND: for (int i = 0; i < args.size(); ++i) { QChar *i_data = args[i].data(); int i_len = args[i].length(); for (int x = 0; x < i_len; ++x) { if (*(i_data+x) == QLatin1Char('\\') && x < i_len-1) { if (*(i_data+x+1) == QLatin1Char('\\')) { ++x; } else { struct { char in, out; } mapped_quotes[] = { { 'n', '\n' }, { 't', '\t' }, { 'r', '\r' }, { 0, 0 } }; for (int i = 0; mapped_quotes[i].in; ++i) { if (*(i_data+x+1) == QLatin1Char(mapped_quotes[i].in)) { *(i_data+x) = QLatin1Char(mapped_quotes[i].out); if (x < i_len-2) memmove(i_data+x+1, i_data+x+2, (i_len-x-2)*sizeof(QChar)); --i_len; break; } } } } } ret.append(QString(i_data, i_len)); } break; case E_RE_ESCAPE: for (int i = 0; i < args.size(); ++i) ret += QRegExp::escape(args[i]); break; case E_UPPER: case E_LOWER: for (int i = 0; i < args.count(); ++i) if (func_t == E_UPPER) ret += args[i].toUpper(); else ret += args[i].toLower(); break; case E_FILES: if (args.count() != 1 && args.count() != 2) { q->logMessage(format("files(pattern, recursive=false) requires one or two arguments")); } else { bool recursive = false; if (args.count() == 2) recursive = (!args[1].compare(QLatin1String("true"), Qt::CaseInsensitive) || args[1].toInt()); QStringList dirs; QString r = Option::fixPathToLocalOS(args[0]); int slash = r.lastIndexOf(QDir::separator()); if (slash != -1) { dirs.append(r.left(slash)); r = r.mid(slash+1); } else { dirs.append(QString()); } const QRegExp regex(r, Qt::CaseSensitive, QRegExp::Wildcard); for (int d = 0; d < dirs.count(); d++) { QString dir = dirs[d]; if (!dir.isEmpty() && !dir.endsWith(Option::dir_sep)) dir += QLatin1Char('/'); QDir qdir(dir); for (int i = 0; i < (int)qdir.count(); ++i) { if (qdir[i] == QLatin1String(".") || qdir[i] == QLatin1String("..")) continue; QString fname = dir + qdir[i]; if (QFileInfo(fname).isDir()) { if (recursive) dirs.append(fname); } if (regex.exactMatch(qdir[i])) ret += fname; } } } break; case E_REPLACE: if(args.count() != 3 ) { q->logMessage(format("replace(var, before, after) requires three arguments")); } else { const QRegExp before(args[1]); const QString after(args[2]); foreach (QString val, values(args.first())) ret += val.replace(before, after); } break; case 0: q->logMessage(format("'%1' is not a recognized replace function").arg(func)); break; default: q->logMessage(format("Function '%1' is not implemented").arg(func)); break; } return ret; } ProItem::ProItemReturn ProFileEvaluator::Private::evaluateConditionalFunction( const QString &function, const QString &arguments) { QStringList argumentsList = split_arg_list(arguments); if (ProBlock *funcPtr = m_testFunctions.value(function, 0)) { bool ok; QStringList ret = evaluateFunction(funcPtr, argumentsList, &ok); if (ok) { if (ret.isEmpty()) { return ProItem::ReturnTrue; } else { if (ret.first() != QLatin1String("false")) { if (ret.first() == QLatin1String("true")) { return ProItem::ReturnTrue; } else { bool ok; int val = ret.first().toInt(&ok); if (ok) { if (val) return ProItem::ReturnTrue; } else { q->logMessage(format("Unexpected return value from test '%1': %2") .arg(function).arg(ret.join(QLatin1String(" :: ")))); } } } } } return ProItem::ReturnFalse; } QString sep; sep.append(Option::field_sep); QStringList args; for (int i = 0; i < argumentsList.count(); ++i) args += expandVariableReferences(argumentsList[i]).join(sep); enum TestFunc { T_REQUIRES=1, T_GREATERTHAN, T_LESSTHAN, T_EQUALS, T_EXISTS, T_EXPORT, T_CLEAR, T_UNSET, T_EVAL, T_CONFIG, T_SYSTEM, T_RETURN, T_BREAK, T_NEXT, T_DEFINED, T_CONTAINS, T_INFILE, T_COUNT, T_ISEMPTY, T_INCLUDE, T_LOAD, T_DEBUG, T_MESSAGE, T_IF, T_FOR, T_DEFINE_TEST, T_DEFINE_REPLACE }; static QHash functions; if (functions.isEmpty()) { functions.insert(QLatin1String("requires"), T_REQUIRES); functions.insert(QLatin1String("greaterThan"), T_GREATERTHAN); functions.insert(QLatin1String("lessThan"), T_LESSTHAN); functions.insert(QLatin1String("equals"), T_EQUALS); functions.insert(QLatin1String("isEqual"), T_EQUALS); functions.insert(QLatin1String("exists"), T_EXISTS); functions.insert(QLatin1String("export"), T_EXPORT); functions.insert(QLatin1String("clear"), T_CLEAR); functions.insert(QLatin1String("unset"), T_UNSET); functions.insert(QLatin1String("eval"), T_EVAL); functions.insert(QLatin1String("CONFIG"), T_CONFIG); functions.insert(QLatin1String("if"), T_IF); functions.insert(QLatin1String("isActiveConfig"), T_CONFIG); functions.insert(QLatin1String("system"), T_SYSTEM); functions.insert(QLatin1String("return"), T_RETURN); functions.insert(QLatin1String("break"), T_BREAK); functions.insert(QLatin1String("next"), T_NEXT); functions.insert(QLatin1String("defined"), T_DEFINED); functions.insert(QLatin1String("contains"), T_CONTAINS); functions.insert(QLatin1String("infile"), T_INFILE); functions.insert(QLatin1String("count"), T_COUNT); functions.insert(QLatin1String("isEmpty"), T_ISEMPTY); functions.insert(QLatin1String("load"), T_LOAD); //v functions.insert(QLatin1String("include"), T_INCLUDE); //v functions.insert(QLatin1String("debug"), T_DEBUG); functions.insert(QLatin1String("message"), T_MESSAGE); //v functions.insert(QLatin1String("warning"), T_MESSAGE); //v functions.insert(QLatin1String("error"), T_MESSAGE); //v functions.insert(QLatin1String("for"), T_FOR); //v functions.insert(QLatin1String("defineTest"), T_DEFINE_TEST); //v functions.insert(QLatin1String("defineReplace"), T_DEFINE_REPLACE); //v } TestFunc func_t = (TestFunc)functions.value(function); switch (func_t) { case T_DEFINE_TEST: m_definingTest = true; goto defineFunc; case T_DEFINE_REPLACE: m_definingTest = false; defineFunc: if (args.count() != 1) { q->logMessage(format("%s(function) requires one argument.").arg(function)); return ProItem::ReturnFalse; } m_definingFunc = args.first(); return ProItem::ReturnTrue; case T_DEFINED: if (args.count() < 1 || args.count() > 2) { q->logMessage(format("defined(function, [\"test\"|\"replace\"])" " requires one or two arguments.")); return ProItem::ReturnFalse; } if (args.count() > 1) { if (args[1] == QLatin1String("test")) return returnBool(m_testFunctions.contains(args[0])); else if (args[1] == QLatin1String("replace")) return returnBool(m_replaceFunctions.contains(args[0])); q->logMessage(format("defined(function, type):" " unexpected type [%1].\n").arg(args[1])); return ProItem::ReturnFalse; } return returnBool(m_replaceFunctions.contains(args[0]) || m_testFunctions.contains(args[0])); case T_RETURN: m_returnValue = args; // It is "safe" to ignore returns - due to qmake brokeness // they cannot be used to terminate loops anyway. if (m_skipLevel || m_cumulative) return ProItem::ReturnTrue; if (m_valuemapStack.isEmpty()) { q->logMessage(format("unexpected return().")); return ProItem::ReturnFalse; } return ProItem::ReturnReturn; case T_EXPORT: if (m_skipLevel && !m_cumulative) return ProItem::ReturnTrue; if (args.count() != 1) { q->logMessage(format("export(variable) requires one argument.")); return ProItem::ReturnFalse; } for (int i = 0; i < m_valuemapStack.size(); ++i) { m_valuemapStack[i][args[0]] = m_valuemap[args[0]]; m_filevaluemapStack[i][currentProFile()][args[0]] = m_filevaluemap[currentProFile()][args[0]]; } return ProItem::ReturnTrue; #if 0 case T_INFILE: case T_REQUIRES: case T_EVAL: #endif case T_FOR: { if (m_cumulative) // This is a no-win situation, so just pretend it's no loop return ProItem::ReturnTrue; if (m_skipLevel) return ProItem::ReturnFalse; if (args.count() > 2 || args.count() < 1) { q->logMessage(format("for({var, list|var, forever|ever})" " requires one or two arguments.")); return ProItem::ReturnFalse; } ProLoop loop; loop.infinite = false; loop.index = 0; QString it_list; if (args.count() == 1) { doVariableReplace(&args[0]); it_list = args[0]; if (args[0] != QLatin1String("ever")) { q->logMessage(format("for({var, list|var, forever|ever})" " requires one or two arguments.")); return ProItem::ReturnFalse; } it_list = QLatin1String("forever"); } else { loop.variable = args[0]; loop.oldVarVal = m_valuemap.value(loop.variable); doVariableReplace(&args[1]); it_list = args[1]; } loop.list = m_valuemap[it_list]; if (loop.list.isEmpty()) { if (it_list == QLatin1String("forever")) { loop.infinite = true; } else { int dotdot = it_list.indexOf(QLatin1String("..")); if (dotdot != -1) { bool ok; int start = it_list.left(dotdot).toInt(&ok); if (ok) { int end = it_list.mid(dotdot+2).toInt(&ok); if (ok) { if (start < end) { for (int i = start; i <= end; i++) loop.list << QString::number(i); } else { for (int i = start; i >= end; i--) loop.list << QString::number(i); } } } } } } m_loopStack.push(loop); m_sts.condition = true; return ProItem::ReturnLoop; } case T_BREAK: if (m_skipLevel) return ProItem::ReturnFalse; if (!m_loopStack.isEmpty()) return ProItem::ReturnBreak; // ### missing: breaking out of multiline blocks q->logMessage(format("unexpected break().")); return ProItem::ReturnFalse; case T_NEXT: if (m_skipLevel) return ProItem::ReturnFalse; if (!m_loopStack.isEmpty()) return ProItem::ReturnNext; q->logMessage(format("unexpected next().")); return ProItem::ReturnFalse; case T_IF: { if (args.count() != 1) { q->logMessage(format("if(condition) requires one argument.")); return ProItem::ReturnFalse; } QString cond = args.first(); bool escaped = false; // This is more than qmake does bool quoted = false; bool ret = true; bool orOp = false; bool invert = false; bool isFunc = false; int parens = 0; QString test; test.reserve(20); QString args; args.reserve(50); const QChar *d = cond.unicode(); const QChar *ed = d + cond.length(); while (d < ed) { ushort c = (d++)->unicode(); if (!escaped) { if (c == '\\') { escaped = true; args += c; // Assume no-one quotes the test name continue; } else if (c == '"') { quoted = !quoted; args += c; // Ditto continue; } } else { escaped = false; } if (quoted) { args += c; // Ditto } else { bool isOp = false; if (c == '(') { isFunc = true; if (parens) args += c; ++parens; } else if (c == ')') { --parens; if (parens) args += c; } else if (!parens) { if (c == ':' || c == '|') isOp = true; else if (c == '!') invert = true; else test += c; } else { args += c; } if (!parens && (isOp || d == ed)) { // Yes, qmake doesn't shortcut evaluations here. We can't, either, // as some test functions have side effects. bool success; if (isFunc) { success = evaluateConditionalFunction(test, args); } else { success = isActiveConfig(test, true); } success ^= invert; if (orOp) ret |= success; else ret &= success; orOp = (c == '|'); invert = false; isFunc = false; test.clear(); args.clear(); } } } return returnBool(ret); } case T_CONFIG: { if (args.count() < 1 || args.count() > 2) { q->logMessage(format("CONFIG(config) requires one or two arguments.")); return ProItem::ReturnFalse; } if (args.count() == 1) { //cond = isActiveConfig(args.first()); XXX return ProItem::ReturnFalse; } const QStringList mutuals = args[1].split(QLatin1Char('|')); const QStringList &configs = valuesDirect(QLatin1String("CONFIG")); for (int i = configs.size() - 1; i >= 0; i--) { for (int mut = 0; mut < mutuals.count(); mut++) { if (configs[i] == mutuals[mut].trimmed()) { return returnBool(configs[i] == args[0]); } } } return ProItem::ReturnFalse; } case T_CONTAINS: { if (args.count() < 2 || args.count() > 3) { q->logMessage(format("contains(var, val) requires two or three arguments.")); return ProItem::ReturnFalse; } QRegExp regx(args[1]); const QStringList &l = values(args.first()); if (args.count() == 2) { for (int i = 0; i < l.size(); ++i) { const QString val = l[i]; if (regx.exactMatch(val) || val == args[1]) { return ProItem::ReturnTrue; } } } else { const QStringList mutuals = args[2].split(QLatin1Char('|')); for (int i = l.size() - 1; i >= 0; i--) { const QString val = l[i]; for (int mut = 0; mut < mutuals.count(); mut++) { if (val == mutuals[mut].trimmed()) { return returnBool(regx.exactMatch(val) || val == args[1]); } } } } return ProItem::ReturnFalse; } case T_COUNT: { if (args.count() != 2 && args.count() != 3) { q->logMessage(format("count(var, count, op=\"equals\") requires two or three arguments.")); return ProItem::ReturnFalse; } if (args.count() == 3) { QString comp = args[2]; if (comp == QLatin1String(">") || comp == QLatin1String("greaterThan")) { return returnBool(values(args.first()).count() > args[1].toInt()); } else if (comp == QLatin1String(">=")) { return returnBool(values(args.first()).count() >= args[1].toInt()); } else if (comp == QLatin1String("<") || comp == QLatin1String("lessThan")) { return returnBool(values(args.first()).count() < args[1].toInt()); } else if (comp == QLatin1String("<=")) { return returnBool(values(args.first()).count() <= args[1].toInt()); } else if (comp == QLatin1String("equals") || comp == QLatin1String("isEqual") || comp == QLatin1String("=") || comp == QLatin1String("==")) { return returnBool(values(args.first()).count() == args[1].toInt()); } else { q->logMessage(format("unexpected modifier to count(%2)").arg(comp)); return ProItem::ReturnFalse; } } return returnBool(values(args.first()).count() == args[1].toInt()); } case T_GREATERTHAN: case T_LESSTHAN: { if (args.count() != 2) { q->logMessage(format("%1(variable, value) requires two arguments.").arg(function)); return ProItem::ReturnFalse; } QString rhs(args[1]), lhs(values(args[0]).join(QString(Option::field_sep))); bool ok; int rhs_int = rhs.toInt(&ok); if (ok) { // do integer compare int lhs_int = lhs.toInt(&ok); if (ok) { if (func_t == T_GREATERTHAN) return returnBool(lhs_int > rhs_int); return returnBool(lhs_int < rhs_int); } } if (func_t == T_GREATERTHAN) return returnBool(lhs > rhs); return returnBool(lhs < rhs); } case T_EQUALS: if (args.count() != 2) { q->logMessage(format("%1(variable, value) requires two arguments.").arg(function)); return ProItem::ReturnFalse; } return returnBool(values(args[0]).join(QString(Option::field_sep)) == args[1]); case T_CLEAR: { if (m_skipLevel && !m_cumulative) return ProItem::ReturnFalse; if (args.count() != 1) { q->logMessage(format("%1(variable) requires one argument.").arg(function)); return ProItem::ReturnFalse; } QHash::Iterator it = m_valuemap.find(args[0]); if (it == m_valuemap.end()) return ProItem::ReturnFalse; it->clear(); return ProItem::ReturnTrue; } case T_UNSET: { if (m_skipLevel && !m_cumulative) return ProItem::ReturnFalse; if (args.count() != 1) { q->logMessage(format("%1(variable) requires one argument.").arg(function)); return ProItem::ReturnFalse; } QHash::Iterator it = m_valuemap.find(args[0]); if (it == m_valuemap.end()) return ProItem::ReturnFalse; m_valuemap.erase(it); return ProItem::ReturnTrue; } case T_INCLUDE: { if (m_skipLevel && !m_cumulative) return ProItem::ReturnFalse; QString parseInto; // the third optional argument to include() controls warnings // and is not used here if ((args.count() == 2) || (args.count() == 3)) { parseInto = args[1]; } else if (args.count() != 1) { q->logMessage(format("include(file) requires one, two or three arguments.")); return ProItem::ReturnFalse; } QString fileName = args.first(); // ### this breaks if we have include(c:/reallystupid.pri) but IMHO that's really bad style. QDir currentProPath(currentDirectory()); fileName = QDir::cleanPath(currentProPath.absoluteFilePath(fileName)); State sts = m_sts; bool ok = evaluateFile(fileName); m_sts = sts; return returnBool(ok); } case T_LOAD: { if (m_skipLevel && !m_cumulative) return ProItem::ReturnFalse; QString parseInto; bool ignore_error = false; if (args.count() == 2) { QString sarg = args[1]; ignore_error = (!sarg.compare(QLatin1String("true"), Qt::CaseInsensitive) || sarg.toInt()); } else if (args.count() != 1) { q->logMessage(format("load(feature) requires one or two arguments.")); return ProItem::ReturnFalse; } // XXX ignore_error unused return returnBool(evaluateFeatureFile(args.first())); } case T_DEBUG: // Yup - do nothing. Nothing is going to enable debug output anyway. return ProItem::ReturnFalse; case T_MESSAGE: { if (args.count() != 1) { q->logMessage(format("%1(message) requires one argument.").arg(function)); return ProItem::ReturnFalse; } QString msg = fixEnvVariables(args.first()); q->fileMessage(QString::fromLatin1("Project %1: %2").arg(function.toUpper(), msg)); // ### Consider real termination in non-cumulative mode return returnBool(function != QLatin1String("error")); } #if 0 // Way too dangerous to enable. case T_SYSTEM: { if (args.count() != 1) { q->logMessage(format("system(exec) requires one argument.")); ProItem::ReturnFalse; } return returnBool(system(args.first().toLatin1().constData()) == 0); } #endif case T_ISEMPTY: { if (args.count() != 1) { q->logMessage(format("isEmpty(var) requires one argument.")); return ProItem::ReturnFalse; } QStringList sl = values(args.first()); if (sl.count() == 0) { return ProItem::ReturnTrue; } else if (sl.count() > 0) { QString var = sl.first(); if (var.isEmpty()) return ProItem::ReturnTrue; } return ProItem::ReturnFalse; } case T_EXISTS: { if (args.count() != 1) { q->logMessage(format("exists(file) requires one argument.")); return ProItem::ReturnFalse; } QString file = args.first(); file = Option::fixPathToLocalOS(file); if (QFile::exists(file)) { return ProItem::ReturnTrue; } //regular expression I guess QString dirstr = currentDirectory(); int slsh = file.lastIndexOf(Option::dir_sep); if (slsh != -1) { dirstr = file.left(slsh+1); file = file.right(file.length() - slsh - 1); } if (file.contains(QLatin1Char('*')) || file.contains(QLatin1Char('?'))) if (!QDir(dirstr).entryList(QStringList(file)).isEmpty()) return ProItem::ReturnTrue; return ProItem::ReturnFalse; } case 0: q->logMessage(format("'%1' is not a recognized test function").arg(function)); return ProItem::ReturnFalse; default: q->logMessage(format("Function '%1' is not implemented").arg(function)); return ProItem::ReturnFalse; } } QStringList ProFileEvaluator::Private::values(const QString &variableName, const QHash &place, const ProFile *pro) const { if (variableName == QLatin1String("LITERAL_WHITESPACE")) //a real space in a token return QStringList(QLatin1String("\t")); if (variableName == QLatin1String("LITERAL_DOLLAR")) //a real $ return QStringList(QLatin1String("$")); if (variableName == QLatin1String("LITERAL_HASH")) //a real # return QStringList(QLatin1String("#")); if (variableName == QLatin1String("OUT_PWD")) //the out going dir return QStringList(m_outputDir); if (variableName == QLatin1String("PWD") || //current working dir (of _FILE_) variableName == QLatin1String("IN_PWD")) return QStringList(currentDirectory()); if (variableName == QLatin1String("DIR_SEPARATOR")) return QStringList(Option::dir_sep); if (variableName == QLatin1String("DIRLIST_SEPARATOR")) return QStringList(Option::dirlist_sep); if (variableName == QLatin1String("_LINE_")) //parser line number return QStringList(QString::number(m_lineNo)); if (variableName == QLatin1String("_FILE_")) //parser file; qmake is a bit weird here return QStringList(m_profileStack.size() == 1 ? pro->fileName() : QFileInfo(pro->fileName()).fileName()); if (variableName == QLatin1String("_DATE_")) //current date/time return QStringList(QDateTime::currentDateTime().toString()); if (variableName == QLatin1String("_PRO_FILE_")) return QStringList(m_origfile); if (variableName == QLatin1String("_PRO_FILE_PWD_")) return QStringList(QFileInfo(m_origfile).absolutePath()); if (variableName == QLatin1String("_QMAKE_CACHE_")) return QStringList(); // FIXME? if (variableName.startsWith(QLatin1String("QMAKE_HOST."))) { QString ret, type = variableName.mid(11); #if defined(Q_OS_WIN32) if (type == QLatin1String("os")) { ret = QLatin1String("Windows"); } else if (type == QLatin1String("name")) { DWORD name_length = 1024; wchar_t name[1024]; if (GetComputerName(name, &name_length)) ret = QString::fromWCharArray(name); } else if (type == QLatin1String("version") || type == QLatin1String("version_string")) { QSysInfo::WinVersion ver = QSysInfo::WindowsVersion; if (type == QLatin1String("version")) ret = QString::number(ver); else if (ver == QSysInfo::WV_Me) ret = QLatin1String("WinMe"); else if (ver == QSysInfo::WV_95) ret = QLatin1String("Win95"); else if (ver == QSysInfo::WV_98) ret = QLatin1String("Win98"); else if (ver == QSysInfo::WV_NT) ret = QLatin1String("WinNT"); else if (ver == QSysInfo::WV_2000) ret = QLatin1String("Win2000"); else if (ver == QSysInfo::WV_2000) ret = QLatin1String("Win2003"); else if (ver == QSysInfo::WV_XP) ret = QLatin1String("WinXP"); else if (ver == QSysInfo::WV_VISTA) ret = QLatin1String("WinVista"); else ret = QLatin1String("Unknown"); } else if (type == QLatin1String("arch")) { SYSTEM_INFO info; GetSystemInfo(&info); switch(info.wProcessorArchitecture) { #ifdef PROCESSOR_ARCHITECTURE_AMD64 case PROCESSOR_ARCHITECTURE_AMD64: ret = QLatin1String("x86_64"); break; #endif case PROCESSOR_ARCHITECTURE_INTEL: ret = QLatin1String("x86"); break; case PROCESSOR_ARCHITECTURE_IA64: #ifdef PROCESSOR_ARCHITECTURE_IA32_ON_WIN64 case PROCESSOR_ARCHITECTURE_IA32_ON_WIN64: #endif ret = QLatin1String("IA64"); break; default: ret = QLatin1String("Unknown"); break; } } #elif defined(Q_OS_UNIX) struct utsname name; if (!uname(&name)) { if (type == QLatin1String("os")) ret = QString::fromLatin1(name.sysname); else if (type == QLatin1String("name")) ret = QString::fromLatin1(name.nodename); else if (type == QLatin1String("version")) ret = QString::fromLatin1(name.release); else if (type == QLatin1String("version_string")) ret = QString::fromLatin1(name.version); else if (type == QLatin1String("arch")) ret = QString::fromLatin1(name.machine); } #endif return QStringList(ret); } QStringList result = place[variableName]; if (result.isEmpty()) { if (variableName == QLatin1String("TARGET")) { result.append(QFileInfo(m_origfile).baseName()); } else if (variableName == QLatin1String("TEMPLATE")) { result.append(QLatin1String("app")); } else if (variableName == QLatin1String("QMAKE_DIR_SEP")) { result.append(Option::dirlist_sep); } } return result; } QStringList ProFileEvaluator::Private::values(const QString &variableName) const { return values(variableName, m_valuemap, currentProFile()); } QStringList ProFileEvaluator::Private::values(const QString &variableName, const ProFile *pro) const { return values(variableName, m_filevaluemap[pro], pro); } ProFile *ProFileEvaluator::parsedProFile(const QString &fileName) { QFileInfo fi(fileName); if (fi.exists()) { QString fn = QDir::cleanPath(fi.absoluteFilePath()); foreach (const ProFile *pf, d->m_profileStack) if (pf->fileName() == fn) { errorMessage(d->format("circular inclusion of %1").arg(fn)); return 0; } ProFile *pro = new ProFile(fn); if (d->read(pro)) return pro; delete pro; } return 0; } void ProFileEvaluator::releaseParsedProFile(ProFile *proFile) { delete proFile; } bool ProFileEvaluator::Private::evaluateFile(const QString &fileName) { ProFile *pro = q->parsedProFile(fileName); if (pro) { m_profileStack.push(pro); bool ok = (pro->Accept(this) == ProItem::ReturnTrue); m_profileStack.pop(); q->releaseParsedProFile(pro); return ok; } else { return false; } } bool ProFileEvaluator::Private::evaluateFeatureFile(const QString &fileName) { QString fn; foreach (const QString &path, qmakeFeaturePaths()) { QString fname = path + QLatin1Char('/') + fileName; if (QFileInfo(fname).exists()) { fn = fname; break; } fname += QLatin1String(".prf"); if (QFileInfo(fname).exists()) { fn = fname; break; } } if (fn.isEmpty()) return false; bool cumulative = m_cumulative; m_cumulative = false; bool ok = evaluateFile(fn); m_cumulative = cumulative; return ok; } QString ProFileEvaluator::Private::format(const char *fmt) const { ProFile *pro = currentProFile(); QString fileName = pro ? pro->fileName() : QLatin1String("Not a file"); int lineNumber = pro ? m_lineNo : 0; return QString::fromLatin1("%1(%2):").arg(fileName).arg(lineNumber) + QString::fromAscii(fmt); } /////////////////////////////////////////////////////////////////////// // // ProFileEvaluator // /////////////////////////////////////////////////////////////////////// ProFileEvaluator::ProFileEvaluator() : d(new Private(this)) { Option::init(); } ProFileEvaluator::~ProFileEvaluator() { delete d; } bool ProFileEvaluator::contains(const QString &variableName) const { return d->m_valuemap.contains(variableName); } inline QStringList fixEnvVariables(const QStringList &x) { QStringList ret; foreach (const QString &str, x) ret << Option::fixString(str, Option::FixEnvVars); return ret; } QStringList ProFileEvaluator::values(const QString &variableName) const { return fixEnvVariables(d->values(variableName)); } QStringList ProFileEvaluator::values(const QString &variableName, const ProFile *pro) const { return fixEnvVariables(d->values(variableName, pro)); } QStringList ProFileEvaluator::absolutePathValues( const QString &variable, const QString &baseDirectory) const { QStringList result; foreach (const QString &el, values(variable)) { const QFileInfo info = QFileInfo(baseDirectory, el); if (info.isDir()) result << QDir::cleanPath(info.absoluteFilePath()); } return result; } QStringList ProFileEvaluator::absoluteFileValues( const QString &variable, const QString &baseDirectory, const QStringList &searchDirs, const ProFile *pro) const { QStringList result; foreach (const QString &el, pro ? values(variable, pro) : values(variable)) { QFileInfo info(el); if (info.isAbsolute()) { if (info.exists()) { result << QDir::cleanPath(el); goto next; } } else { foreach (const QString &dir, searchDirs) { QFileInfo info(dir, el); if (info.isFile()) { result << QDir::cleanPath(info.filePath()); goto next; } } if (baseDirectory.isEmpty()) goto next; info = QFileInfo(baseDirectory, el); } { QFileInfo baseInfo(info.absolutePath()); if (baseInfo.exists()) { QString wildcard = info.fileName(); if (wildcard.contains(QLatin1Char('*')) || wildcard.contains(QLatin1Char('?'))) { QDir theDir(QDir::cleanPath(baseInfo.filePath())); foreach (const QString &fn, theDir.entryList(QStringList(wildcard))) if (fn != QLatin1String(".") && fn != QLatin1String("..")) result << theDir.absoluteFilePath(fn); } } } next: ; } return result; } ProFileEvaluator::TemplateType ProFileEvaluator::templateType() { QStringList templ = values(QLatin1String("TEMPLATE")); if (templ.count() >= 1) { const QString &t = templ.last(); if (!t.compare(QLatin1String("app"), Qt::CaseInsensitive)) return TT_Application; if (!t.compare(QLatin1String("lib"), Qt::CaseInsensitive)) return TT_Library; if (!t.compare(QLatin1String("script"), Qt::CaseInsensitive)) return TT_Script; if (!t.compare(QLatin1String("subdirs"), Qt::CaseInsensitive)) return TT_Subdirs; } return TT_Unknown; } bool ProFileEvaluator::queryProFile(ProFile *pro) { return d->read(pro); } bool ProFileEvaluator::accept(ProFile *pro) { return pro->Accept(d); } QString ProFileEvaluator::propertyValue(const QString &name) const { return d->propertyValue(name); } namespace { template void insert(QHash *out, const QHash &in) { typename QHash::const_iterator i = in.begin(); while (i != in.end()) { out->insert(i.key(), i.value()); ++i; } } } // anon namespace void ProFileEvaluator::addVariables(const QHash &variables) { insert(&(d->m_valuemap), variables); } void ProFileEvaluator::addProperties(const QHash &properties) { insert(&(d->m_properties), properties); } void ProFileEvaluator::logMessage(const QString &message) { if (d->m_verbose && !d->m_skipLevel) fprintf(stderr, "%s\n", qPrintable(message)); } void ProFileEvaluator::fileMessage(const QString &message) { if (!d->m_skipLevel) fprintf(stderr, "%s\n", qPrintable(message)); } void ProFileEvaluator::errorMessage(const QString &message) { if (!d->m_skipLevel) fprintf(stderr, "%s\n", qPrintable(message)); } void ProFileEvaluator::setVerbose(bool on) { d->m_verbose = on; } void ProFileEvaluator::setCumulative(bool on) { d->m_cumulative = on; } void ProFileEvaluator::setOutputDir(const QString &dir) { d->m_outputDir = dir; } QT_END_NAMESPACE