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#include "qboolean_p.h"
#include "qcommonvalues_p.h"
#include "qemptysequence_p.h"
#include "qliteral_p.h"
#include "qliteralsequence_p.h"
#include "qoperandsiterator_p.h"
#include "qoptimizerframework_p.h"
#include "qstaticfocuscontext_p.h"
#include "qtypechecker_p.h"
#include "qexpression_p.h"
QT_BEGIN_NAMESPACE
using namespace QPatternist;
Expression::~Expression()
{
}
StaticContext::Ptr Expression::finalizeStaticContext(const StaticContext::Ptr &context) const
{
Q_ASSERT(context);
const ItemType::Ptr focusType(newFocusType());
Q_ASSERT(focusType);
return StaticContext::Ptr(new StaticFocusContext(focusType, context));
}
Expression::Ptr Expression::typeCheck(const StaticContext::Ptr &context,
const SequenceType::Ptr &reqType)
{
Q_ASSERT(reqType);
typeCheckOperands(context);
return TypeChecker::applyFunctionConversion(Expression::Ptr(this), reqType, context);
}
void Expression::typeCheckOperands(const StaticContext::Ptr &context)
{
const Expression::List ops(operands());
/* Check if this expression has any operands at all. */
if(ops.isEmpty())
return; /* We're done, early exit. */
const SequenceType::List opTypes(expectedOperandTypes());
Expression::List result;
/* If we create a focus, we handle the last one specially, so avoid it in the loop. */
const bool createsFocus = has(CreatesFocusForLast);
const SequenceType::List::const_iterator typeEnd(createsFocus ? --opTypes.constEnd()
: opTypes.constEnd());
const Expression::List::const_iterator end(createsFocus ? --ops.constEnd()
: ops.constEnd());
SequenceType::List::const_iterator reqType(opTypes.constBegin());
SequenceType::Ptr t(*reqType);
// TODO we assign twice to t here(also below in loop) when ops.size() > 1
Expression::List::const_iterator it(ops.constBegin());
for(; it != end; ++it)
{
/* This ensures that the last expectedOperandType stays, and is
* used for all other operands. This is used for expressions that
* have an infinite amount of operands, such as the concat() function. */
if(reqType != typeEnd)
{
t = *reqType;
++reqType;
}
/* Let the child & its children typecheck. */
result.append((*it)->typeCheck(context, t));
}
if(createsFocus)
{
const StaticContext::Ptr newContext(finalizeStaticContext(context));
result.append(ops.last()->typeCheck(newContext, opTypes.last()));
}
setOperands(result);
}
Expression::Ptr Expression::invokeOptimizers(const Expression::Ptr &expr,
const StaticContext::Ptr &context)
{
Q_ASSERT(expr);
const OptimizationPass::List opts(expr->optimizationPasses());
if(opts.isEmpty()) /* Early exit. */
{
return expr;
}
const OptimizationPass::List::const_iterator passEnd(opts.constEnd());
const OptimizationPass::List::const_iterator end(opts.constEnd());
OptimizationPass::List::const_iterator passIt(opts.constBegin());
for(; passIt != passEnd; ++passIt) /* Invoke each optimization pass. */
{
const OptimizationPass::Ptr pass(*passIt); /* Alias, for readability. */
OptimizationPass::ExpressionMarker sourceMarker(pass->sourceExpression);
if(pass->startIdentifier && !pass->startIdentifier->matches(expr))
{
/* This pass specified a start identifier and it did
* not match -- let's try the next OptimizationPass. */
continue;
}
const ExpressionIdentifier::List::const_iterator idEnd(pass->operandIdentifiers.constEnd());
ExpressionIdentifier::List::const_iterator idIt(pass->operandIdentifiers.constBegin());
const Expression::List ops(expr->operands());
const Expression::List::const_iterator opEnd(ops.constEnd());
Expression::List::const_iterator opIt(ops.constBegin());
switch(pass->operandsMatchMethod)
{
case OptimizationPass::Sequential:
{
for(; opIt != opEnd; ++opIt)
{
const Expression::Ptr operand(*opIt); /* Alias, for readability. */
const ExpressionIdentifier::Ptr opIdentifier(*idIt); /* Alias, for readability. */
if(opIdentifier && !opIdentifier->matches(operand))
{
break;
}
++idIt;
}
if(opIt == opEnd)
break; /* All operands matched, so this pass matched. */
else
{
/* The loop above did not finish which means all operands did not match.
Therefore, this OptimizationPass did not match -- let's try the next one. */
continue;
}
}
case OptimizationPass::AnyOrder:
{
Q_ASSERT_X(ops.count() == 2, Q_FUNC_INFO,
"AnyOrder is currently only supported for Expressions with two operands.");
if(pass->operandIdentifiers.first()->matches(ops.first()) &&
pass->operandIdentifiers.last()->matches(ops.last()))
{
break;
}
else if(pass->operandIdentifiers.first()->matches(ops.last()) &&
pass->operandIdentifiers.last()->matches(ops.first()))
{
sourceMarker.first() = 1;
sourceMarker[1] = 0;
break; /* This pass matched. */
}
else
continue; /* This pass didn't match, let's loop through the next pass. */
}
}
/* Figure out the source Expression, if any. */
Expression::List operands;
Expression::Ptr sourceExpr;
if(!sourceMarker.isEmpty())
{
const OptimizationPass::ExpressionMarker::const_iterator mEnd(sourceMarker.constEnd());
OptimizationPass::ExpressionMarker::const_iterator mIt(sourceMarker.constBegin());
sourceExpr = expr;
for(; mIt != mEnd; ++mIt)
{
Q_ASSERT(*mIt >= 0);
sourceExpr = sourceExpr->operands().at(*mIt);
}
operands.append(sourceExpr);
}
if(operands.isEmpty())
{
Q_ASSERT(pass->resultCreator);
return pass->resultCreator->create(Expression::List(), context, expr.data())->compress(context);
}
else if(pass->resultCreator)
return pass->resultCreator->create(operands, context, expr.data())->compress(context);
else
{
return sourceExpr;
}
}
return expr;
}
Expression::Ptr Expression::compress(const StaticContext::Ptr &context)
{
if(!compressOperands(context))
{
/* At least one of the operands cannot be evaluated at compile, so
* 'this' Expression cannot const fold. */
return invokeOptimizers(Expression::Ptr(this), context);
}
Expression::Ptr retval;
if(hasDependency(DisableElimination))
retval = Expression::Ptr(this);
else
retval = constantPropagate(context);
return invokeOptimizers(retval, context);
}
Expression::Ptr Expression::constantPropagate(const StaticContext::Ptr &context) const
{
Q_ASSERT(context);
/* Optimization: We rewrite literals to literals here, which is pointless.
* Maybe we should have a property which says "doesn't disable elimination
* but don't eliminate me." */
if(staticType()->cardinality().allowsMany())
{
Item::Iterator::Ptr it(evaluateSequence(context->dynamicContext()));
Item::List result;
Item item(it->next());
while(item)
{
result.append(item);
item = it->next();
}
switch(result.count())
{
case 0:
return EmptySequence::create(this, context);
case 1:
return rewrite(Expression::Ptr(new Literal(result.first())), context);
default:
return rewrite(Expression::Ptr(new LiteralSequence(result)), context);
}
}
else
{
const Item item(evaluateSingleton(context->dynamicContext()));
if(item)
return rewrite(Expression::Ptr(new Literal(item)), context);
else
return EmptySequence::create(this, context);
}
}
Item::Iterator::Ptr Expression::evaluateSequence(const DynamicContext::Ptr &context) const
{
const Item item(evaluateSingleton(context));
if(item)
return makeSingletonIterator(item);
else
return CommonValues::emptyIterator;
}
Item Expression::evaluateSingleton(const DynamicContext::Ptr &context) const
{
return Boolean::fromValue(evaluateEBV(context));
}
bool Expression::evaluateEBV(const DynamicContext::Ptr &context) const
{
return Boolean::evaluateEBV(evaluateSequence(context), context);
}
void Expression::evaluateToSequenceReceiver(const DynamicContext::Ptr &context) const
{
QAbstractXmlReceiver *const receiver = context->outputReceiver();
const Item::Iterator::Ptr it(evaluateSequence(context));
Item next(it->next());
while(next)
{
receiver->item(next);
next = it->next();
}
}
ItemType::Ptr Expression::expectedContextItemType() const
{
Q_ASSERT_X(false, Q_FUNC_INFO,
"expectedContextItemType() must be overridden when RequiresContextItem is set.");
return ItemType::Ptr();
}
Expression::Properties Expression::properties() const
{
return Properties();
}
Expression::Properties Expression::dependencies() const
{
OperandsIterator it(Ptr(const_cast<Expression *>(this)), OperandsIterator::ExcludeParent);
Expression::Ptr next(it.next());
Properties dependencies(properties());
while(next)
{
dependencies |= next->dependencies();
next = it.next();
}
return dependencies & (Expression::RequiresFocus | Expression::IsEvaluated | Expression::DisableElimination);
}
void Expression::announceFocusType(const ItemType::Ptr &itemType)
{
const Expression::List ops(operands());
const int len = ops.count();
for(int i = 0; i < len; ++i)
ops.at(i)->announceFocusType(itemType);
}
Expression::Properties Expression::deepProperties() const
{
Properties props(properties());
const Expression::List ops(operands());
const int len = ops.count();
for(int i = 0; i < len; ++i)
props |= ops.at(i)->deepProperties();
return props;
}
Expression::ID Expression::id() const
{
return IDIgnorableExpression;
}
OptimizationPass::List Expression::optimizationPasses() const
{
return OptimizationPass::List();
}
ItemType::Ptr Expression::newFocusType() const
{
Q_ASSERT_X(false, Q_FUNC_INFO,
"This function must be overridden when CreatesFocusForLast is set.");
return ItemType::Ptr();
}
const SourceLocationReflection *Expression::actualReflection() const
{
return this;
}
QString Expression::description() const
{
return QString::fromLatin1("Expression, id: %1").arg(QString::number(id()));
}
PatternPriority Expression::patternPriority() const
{
return 0.5;
}
QT_END_NAMESPACE