/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of the QtXmlPatterns module of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. 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Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-2.0.html and ** https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ // // W A R N I N G // ------------- // // This file is not part of the Qt API. It exists purely as an // implementation detail. This header file may change from version to // version without notice, or even be removed. // // We mean it. // /** * @file * @short This file is included by qevaluationcache_p.h. * If you need includes in this file, put them in qevaluationcache_p.h, outside of the namespace. */ template EvaluationCache::EvaluationCache(const Expression::Ptr &op, const VariableDeclaration::Ptr &varDecl, const VariableSlotID aSlot) : SingleContainer(op) , m_declaration(varDecl.constData()) , m_varSlot(aSlot) { Q_ASSERT(m_declaration); Q_ASSERT(m_varSlot > -1); } template DynamicContext::Ptr EvaluationCache::topFocusContext(const DynamicContext::Ptr &context) { DynamicContext::Ptr result(context); while(true) { DynamicContext::Ptr candidate(result->previousContext()); /* We want the top focus, not GenericDynamicContext. */ if(candidate && candidate->focusIterator()) result = candidate; else return result; } } template Item EvaluationCache::evaluateSingleton(const DynamicContext::Ptr &context) const { ItemCacheCell &cell = IsForGlobal ? context->globalItemCacheCell(m_varSlot) : context->itemCacheCell(m_varSlot); if(cell.cacheState == ItemCacheCell::Full) return cell.cachedItem; else { Q_ASSERT(cell.cacheState == ItemCacheCell::Empty); cell.cachedItem = m_operand->evaluateSingleton(IsForGlobal ? topFocusContext(context) : context); cell.cacheState = ItemCacheCell::Full; return cell.cachedItem; } } #if defined(Q_OS_IRIX) && defined(Q_CC_MIPS) /** * @short Compile workaround for MIPSPro on IRIX. * * This function is never called. * * It's mere presence means the MIPSPro compiler can accept some other code below. * * I recommend Buddism. */ static inline Item::Iterator::Ptr workaroundIrixMIPSPro(const ItemSequenceCacheCell &cell) { return Item::Iterator::Ptr(new ListIterator(cell.cachedItems)); } #endif template Item::Iterator::Ptr EvaluationCache::evaluateSequence(const DynamicContext::Ptr &context) const { ItemSequenceCacheCell::Vector &cells = IsForGlobal ? context->globalItemSequenceCacheCells(m_varSlot) : context->itemSequenceCacheCells(m_varSlot); ItemSequenceCacheCell &cell = cells[m_varSlot]; if(cell.inUse) { context->error(QtXmlPatterns::tr("Circularity detected"), ReportContext::XTDE0640, this); } switch(cell.cacheState) { case ItemSequenceCacheCell::Full: { /** * We don't use makeListIterator() here because the MIPSPro compiler can't handle it. */ return Item::Iterator::Ptr(new ListIterator(cell.cachedItems)); } case ItemSequenceCacheCell::Empty: { cell.inUse = true; cell.sourceIterator = m_operand->evaluateSequence(IsForGlobal ? topFocusContext(context) : context); cell.cacheState = ItemSequenceCacheCell::PartiallyPopulated; Q_FALLTHROUGH(); } case ItemSequenceCacheCell::PartiallyPopulated: { cell.inUse = false; Q_ASSERT_X(cells.at(m_varSlot).sourceIterator, Q_FUNC_INFO, "This trigger for a cache bug which hasn't yet been analyzed."); return Item::Iterator::Ptr(new CachingIterator(cells, m_varSlot, IsForGlobal ? topFocusContext(context) : context)); } default: { Q_ASSERT_X(false, Q_FUNC_INFO, "This path is not supposed to be run."); return Item::Iterator::Ptr(); } } } template Expression::Ptr EvaluationCache::typeCheck(const StaticContext::Ptr &context, const SequenceType::Ptr &reqType) { /* It's important that we do the typeCheck() before checking for the use of local variables, * because ExpressionVariableReference can reference an expression that is a local variable, * so it must rewrite itself to it operand before, and it does that in EvaluationCache::typeCheck(). */ const Expression::Ptr me(SingleContainer::typeCheck(context, reqType)); OperandsIterator it(me, OperandsIterator::ExcludeParent); Expression::Ptr next(it.next()); /* If our operand or any sub operand gets its value from a for-loop, we cannot * cache it since then our cache would be filled -- but not invalidated -- on the * first for-iteration. Consider this query: * * for $i in expr * let $v := $i/p * return ($v, $v) * * An evaluation cache is inserted for the two operands in the return clause. However, * $i changes for each iteration so the cache can only be active on a per-iteration basis, * it it's possible(which it isn't). * * This means that for some queries we don't cache what we really should, and hence evaluate * in a sub-optimal way, since this DependsOnLocalVariable don't communicate whether it references * a loop that affects us. The correct fix for this would be to let ForExpression reset the * relevant caches only, but we don't know which ones that are. */ while(next) { if(next->has(DependsOnLocalVariable)) return m_operand->typeCheck(context, reqType); next = it.next(); } return me; } template Expression::Ptr EvaluationCache::compress(const StaticContext::Ptr &context) { const Expression::Ptr me(SingleContainer::compress(context)); if(me != this) return me; if(m_operand->is(IDRangeVariableReference)) return m_operand; if(m_declaration->usedByMany()) { /* If it's only an atomic value an EvaluationCache is overkill. However, * it's still needed for functions like fn:current-time() that must adhere to * query stability. */ const Properties props(m_operand->properties()); if(props.testFlag(EvaluationCacheRedundant) || ((props.testFlag(IsEvaluated)) && !props.testFlag(DisableElimination) && CommonSequenceTypes::ExactlyOneAtomicType->matches(m_operand->staticType()))) { return m_operand; } else return me; } else { /* If we're only used once, there's no need for an EvaluationCache. */ return m_operand; } } template SequenceType::Ptr EvaluationCache::staticType() const { return m_operand->staticType(); } template SequenceType::List EvaluationCache::expectedOperandTypes() const { /* Remember that EvaluationCache::typeCheck() will be called from multiple locations, * which potentially have different type requirements. For instance, one wants a node, * and another requires atomization and casting. * * Returning ZeroOrMoreItems is safe here because staticType() returns the operand's type * and therefore the convertors like Atomizer will be parents to us, and hence only affect * the relevant path. * * ZeroOrMoreItems also make sense logically since we're actually only used where the * variable references reference us. */ SequenceType::List result; result.append(CommonSequenceTypes::ZeroOrMoreItems); return result; } template Expression::Properties EvaluationCache::properties() const { /* We cannot return the operand's properties unconditionally, because some * doesn't hold for this Expression. * * However, some of the properties must propagate through, which are the ones being OR'd here. */ return m_operand->properties() & (DisableElimination | IsEvaluated | DisableTypingDeduction); } template ExpressionVisitorResult::Ptr EvaluationCache::accept(const ExpressionVisitor::Ptr &visitor) const { return visitor->visit(this); } template const SourceLocationReflection *EvaluationCache::actualReflection() const { return m_operand->actualReflection(); }