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#include <QtAlgorithms>
#include "qcommonsequencetypes_p.h"
#include "qnodebuilder_p.h"
#include "qschemanumeric_p.h"
#include "qpatternistlocale_p.h"
#include "qreturnorderby_p.h"
#include "qsorttuple_p.h"
#include "qsequencemappingiterator_p.h"
#include "qorderby_p.h"
QT_BEGIN_NAMESPACE
using namespace QPatternist;
OrderBy::OrderBy(const Stability stability,
const OrderSpec::Vector &aOrderSpecs,
const Expression::Ptr &op,
ReturnOrderBy *const returnOrderBy) : SingleContainer(op)
, m_stability(stability)
, m_orderSpecs(aOrderSpecs)
, m_returnOrderBy(returnOrderBy)
{
Q_ASSERT(m_returnOrderBy);
}
void OrderBy::OrderSpec::prepare(const Expression::Ptr &source,
const StaticContext::Ptr &context)
{
m_expr = source;
const ItemType::Ptr t(source->staticType()->itemType());
prepareComparison(fetchComparator(t, t, context));
}
/**
* @short Functor used by Qt's qSort() and qStableSort(). Used for FLWOR's
* <tt>order by</tt> expression.
*
* This must be in the global namespace, since it is specializing qLess(), which
* is in the global namespace. Hence it can't be in QPatternist.
*/
template<>
class qLess<Item::List>
{
private:
static inline bool isNaN(const Item &i)
{
return BuiltinTypes::xsDouble->xdtTypeMatches(i.type()) &&
i.as<Numeric>()->isNaN();
}
public:
inline qLess(const OrderBy::OrderSpec::Vector &orderspecs,
const DynamicContext::Ptr &context) : m_orderSpecs(orderspecs)
, m_context(context)
{
Q_ASSERT(!m_orderSpecs.isEmpty());
Q_ASSERT(context);
}
inline bool operator()(const Item &item1, const Item &item2) const
{
const SortTuple *const s1 = item1.as<SortTuple>();
const SortTuple *const s2 = item2.as<SortTuple>();
const Item::Vector &sortKeys1 = s1->sortKeys();
const Item::Vector &sortKeys2 = s2->sortKeys();
const int len = sortKeys1.count();
Q_ASSERT(sortKeys1.count() == sortKeys2.count());
for(int i = 0; i < len; ++i)
{
const Item &i1 = sortKeys1.at(i);
const Item &i2 = sortKeys2.at(i);
const OrderBy::OrderSpec &orderSpec = m_orderSpecs.at(i);
if(!i1)
{
if(i2 && !isNaN(i2))
{
/* We got ((), item()). */
return orderSpec.orderingEmptySequence == StaticContext::Least ? orderSpec.direction == OrderBy::OrderSpec::Ascending
: orderSpec.direction != OrderBy::OrderSpec::Ascending;
}
else
return false;
}
if(!i2)
{
if(i1 && !isNaN(i1))
/* We got (item(), ()). */
return orderSpec.orderingEmptySequence == StaticContext::Greatest ? orderSpec.direction == OrderBy::OrderSpec::Ascending
: orderSpec.direction != OrderBy::OrderSpec::Ascending;
else
return false;
}
Q_ASSERT(orderSpec.direction == OrderBy::OrderSpec::Ascending ||
orderSpec.direction == OrderBy::OrderSpec::Descending);
const AtomicComparator::ComparisonResult result = orderSpec.detailedFlexibleCompare(i1, i2, m_context);
switch(result)
{
case AtomicComparator::LessThan:
return orderSpec.direction == OrderBy::OrderSpec::Ascending;
case AtomicComparator::GreaterThan:
return orderSpec.direction != OrderBy::OrderSpec::Ascending;
case AtomicComparator::Equal:
continue;
case AtomicComparator::Incomparable:
Q_ASSERT_X(false, Q_FUNC_INFO, "This code path assume values are always comparable.");
}
}
return false;
}
private:
/* Yes, we store references here. */
const OrderBy::OrderSpec::Vector & m_orderSpecs;
const DynamicContext::Ptr & m_context;
};
Item::Iterator::Ptr OrderBy::mapToSequence(const Item &i,
const DynamicContext::Ptr &) const
{
return i.as<SortTuple>()->value();
}
Item::Iterator::Ptr OrderBy::evaluateSequence(const DynamicContext::Ptr &context) const
{
Item::List tuples(m_operand->evaluateSequence(context)->toList());
const qLess<Item::List> sorter(m_orderSpecs, context);
Q_ASSERT(m_stability == StableOrder || m_stability == UnstableOrder);
/* On one hand we could just disregard stability and always use qStableSort(), but maybe qSort()
* is a bit faster? */
if(m_stability == StableOrder)
qStableSort(tuples.begin(), tuples.end(), sorter);
else
{
Q_ASSERT(m_stability == UnstableOrder);
qSort(tuples.begin(), tuples.end(), sorter);
}
return makeSequenceMappingIterator<Item>(ConstPtr(this),
makeListIterator(tuples),
context);
}
Expression::Ptr OrderBy::typeCheck(const StaticContext::Ptr &context,
const SequenceType::Ptr &reqType)
{
m_returnOrderBy->setStay(true);
/* It's important we do the typeCheck() before calling OrderSpec::prepare(), since
* atomizers must first be inserted. */
const Expression::Ptr me(SingleContainer::typeCheck(context, reqType));
const Expression::List ops(m_returnOrderBy->operands());
const int len = ops.count();
Q_ASSERT(ops.count() > 1);
Q_ASSERT(m_orderSpecs.count() == ops.count() - 1);
for(int i = 1; i < len; ++i)
m_orderSpecs[i - 1].prepare(ops.at(i), context);
return me;
/* It's not meaningful to sort a single item or less, so rewrite ourselves
* away if that is the case. This is an optimization. */
/* TODO: How do we remove ReturnOrderBy?
if(Cardinality::zeroOrOne().isMatch(m_operand->staticType()->cardinality()))
return m_operand->typeCheck(context, reqType);
else
return SingleContainer::typeCheck(context, reqType);
*/
}
Expression::Properties OrderBy::properties() const
{
return m_operand->properties() & DisableElimination;
}
Expression::Ptr OrderBy::compress(const StaticContext::Ptr &context)
{
/* If we only will produce one item, there's no point in sorting. */
if(m_operand->staticType()->cardinality().allowsMany())
return SingleContainer::compress(context);
else
{
m_returnOrderBy->setStay(false);
return m_operand->compress(context);
}
}
SequenceType::Ptr OrderBy::staticType() const
{
return m_operand->staticType();
}
SequenceType::List OrderBy::expectedOperandTypes() const
{
SequenceType::List result;
result.append(CommonSequenceTypes::ZeroOrMoreItems);
return result;
}
ExpressionVisitorResult::Ptr
OrderBy::accept(const ExpressionVisitor::Ptr &visitor) const
{
return visitor->visit(this);
}
QT_END_NAMESPACE