tenfourfox/dom/xslt/xpath/txLocationStep.cpp
Cameron Kaiser c9b2922b70 hello FPR
2017-04-19 00:56:45 -07:00

326 lines
9.1 KiB
C++

/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/*
Implementation of an XPath LocationStep
*/
#include "txExpr.h"
#include "txIXPathContext.h"
#include "txNodeSet.h"
#include "txXPathTreeWalker.h"
//-----------------------------/
//- Virtual methods from Expr -/
//-----------------------------/
/**
* Evaluates this Expr based on the given context node and processor state
* @param context the context node for evaluation of this Expr
* @param ps the ProcessorState containing the stack information needed
* for evaluation
* @return the result of the evaluation
* @see Expr
**/
nsresult
LocationStep::evaluate(txIEvalContext* aContext, txAExprResult** aResult)
{
NS_ASSERTION(aContext, "internal error");
*aResult = nullptr;
RefPtr<txNodeSet> nodes;
nsresult rv = aContext->recycler()->getNodeSet(getter_AddRefs(nodes));
NS_ENSURE_SUCCESS(rv, rv);
txXPathTreeWalker walker(aContext->getContextNode());
switch (mAxisIdentifier) {
case ANCESTOR_AXIS:
{
if (!walker.moveToParent()) {
break;
}
// do not break here
}
case ANCESTOR_OR_SELF_AXIS:
{
nodes->setReverse();
do {
if (mNodeTest->matches(walker.getCurrentPosition(), aContext)) {
nodes->append(walker.getCurrentPosition());
}
} while (walker.moveToParent());
break;
}
case ATTRIBUTE_AXIS:
{
if (!walker.moveToFirstAttribute()) {
break;
}
do {
if (mNodeTest->matches(walker.getCurrentPosition(), aContext)) {
nodes->append(walker.getCurrentPosition());
}
} while (walker.moveToNextAttribute());
break;
}
case DESCENDANT_OR_SELF_AXIS:
{
if (mNodeTest->matches(walker.getCurrentPosition(), aContext)) {
nodes->append(walker.getCurrentPosition());
}
// do not break here
}
case DESCENDANT_AXIS:
{
fromDescendants(walker.getCurrentPosition(), aContext, nodes);
break;
}
case FOLLOWING_AXIS:
{
if (txXPathNodeUtils::isAttribute(walker.getCurrentPosition())) {
walker.moveToParent();
fromDescendants(walker.getCurrentPosition(), aContext, nodes);
}
bool cont = true;
while (!walker.moveToNextSibling()) {
if (!walker.moveToParent()) {
cont = false;
break;
}
}
while (cont) {
if (mNodeTest->matches(walker.getCurrentPosition(), aContext)) {
nodes->append(walker.getCurrentPosition());
}
fromDescendants(walker.getCurrentPosition(), aContext, nodes);
while (!walker.moveToNextSibling()) {
if (!walker.moveToParent()) {
cont = false;
break;
}
}
}
break;
}
case FOLLOWING_SIBLING_AXIS:
{
while (walker.moveToNextSibling()) {
if (mNodeTest->matches(walker.getCurrentPosition(), aContext)) {
nodes->append(walker.getCurrentPosition());
}
}
break;
}
case NAMESPACE_AXIS: //-- not yet implemented
#if 0
// XXX DEBUG OUTPUT
cout << "namespace axis not yet implemented"<<endl;
#endif
break;
case PARENT_AXIS :
{
if (walker.moveToParent() &&
mNodeTest->matches(walker.getCurrentPosition(), aContext)) {
nodes->append(walker.getCurrentPosition());
}
break;
}
case PRECEDING_AXIS:
{
nodes->setReverse();
bool cont = true;
while (!walker.moveToPreviousSibling()) {
if (!walker.moveToParent()) {
cont = false;
break;
}
}
while (cont) {
fromDescendantsRev(walker.getCurrentPosition(), aContext, nodes);
if (mNodeTest->matches(walker.getCurrentPosition(), aContext)) {
nodes->append(walker.getCurrentPosition());
}
while (!walker.moveToPreviousSibling()) {
if (!walker.moveToParent()) {
cont = false;
break;
}
}
}
break;
}
case PRECEDING_SIBLING_AXIS:
{
nodes->setReverse();
while (walker.moveToPreviousSibling()) {
if (mNodeTest->matches(walker.getCurrentPosition(), aContext)) {
nodes->append(walker.getCurrentPosition());
}
}
break;
}
case SELF_AXIS:
{
if (mNodeTest->matches(walker.getCurrentPosition(), aContext)) {
nodes->append(walker.getCurrentPosition());
}
break;
}
default: // Children Axis
{
if (!walker.moveToFirstChild()) {
break;
}
do {
if (mNodeTest->matches(walker.getCurrentPosition(), aContext)) {
nodes->append(walker.getCurrentPosition());
}
} while (walker.moveToNextSibling());
break;
}
}
// Apply predicates
if (!isEmpty()) {
rv = evaluatePredicates(nodes, aContext);
NS_ENSURE_SUCCESS(rv, rv);
}
nodes->unsetReverse();
NS_ADDREF(*aResult = nodes);
return NS_OK;
}
void LocationStep::fromDescendants(const txXPathNode& aNode,
txIMatchContext* aCs,
txNodeSet* aNodes)
{
txXPathTreeWalker walker(aNode);
if (!walker.moveToFirstChild()) {
return;
}
do {
const txXPathNode& child = walker.getCurrentPosition();
if (mNodeTest->matches(child, aCs)) {
aNodes->append(child);
}
fromDescendants(child, aCs, aNodes);
} while (walker.moveToNextSibling());
}
void LocationStep::fromDescendantsRev(const txXPathNode& aNode,
txIMatchContext* aCs,
txNodeSet* aNodes)
{
txXPathTreeWalker walker(aNode);
if (!walker.moveToLastChild()) {
return;
}
do {
const txXPathNode& child = walker.getCurrentPosition();
fromDescendantsRev(child, aCs, aNodes);
if (mNodeTest->matches(child, aCs)) {
aNodes->append(child);
}
} while (walker.moveToPreviousSibling());
}
Expr::ExprType
LocationStep::getType()
{
return LOCATIONSTEP_EXPR;
}
TX_IMPL_EXPR_STUBS_BASE(LocationStep, NODESET_RESULT)
Expr*
LocationStep::getSubExprAt(uint32_t aPos)
{
return PredicateList::getSubExprAt(aPos);
}
void
LocationStep::setSubExprAt(uint32_t aPos, Expr* aExpr)
{
PredicateList::setSubExprAt(aPos, aExpr);
}
bool
LocationStep::isSensitiveTo(ContextSensitivity aContext)
{
return (aContext & NODE_CONTEXT) ||
mNodeTest->isSensitiveTo(aContext) ||
PredicateList::isSensitiveTo(aContext);
}
#ifdef TX_TO_STRING
void
LocationStep::toString(nsAString& str)
{
switch (mAxisIdentifier) {
case ANCESTOR_AXIS :
str.AppendLiteral("ancestor::");
break;
case ANCESTOR_OR_SELF_AXIS :
str.AppendLiteral("ancestor-or-self::");
break;
case ATTRIBUTE_AXIS:
str.Append(char16_t('@'));
break;
case DESCENDANT_AXIS:
str.AppendLiteral("descendant::");
break;
case DESCENDANT_OR_SELF_AXIS:
str.AppendLiteral("descendant-or-self::");
break;
case FOLLOWING_AXIS :
str.AppendLiteral("following::");
break;
case FOLLOWING_SIBLING_AXIS:
str.AppendLiteral("following-sibling::");
break;
case NAMESPACE_AXIS:
str.AppendLiteral("namespace::");
break;
case PARENT_AXIS :
str.AppendLiteral("parent::");
break;
case PRECEDING_AXIS :
str.AppendLiteral("preceding::");
break;
case PRECEDING_SIBLING_AXIS :
str.AppendLiteral("preceding-sibling::");
break;
case SELF_AXIS :
str.AppendLiteral("self::");
break;
default:
break;
}
NS_ASSERTION(mNodeTest, "mNodeTest is null, that's verboten");
mNodeTest->toString(str);
PredicateList::toString(str);
}
#endif