gecko-dev/dom/base/ContentIterator.cpp

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/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* 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/. */
#include "ContentIterator.h"
#include "mozilla/DebugOnly.h"
#include "mozilla/RangeBoundary.h"
#include "mozilla/RangeUtils.h"
#include "nsContentUtils.h"
#include "nsElementTable.h"
#include "nsIContent.h"
#include "nsRange.h"
namespace mozilla {
///////////////////////////////////////////////////////////////////////////
// NodeIsInTraversalRange: returns true if content is visited during
// the traversal of the range in the specified mode.
//
static bool NodeIsInTraversalRange(nsINode* aNode, bool aIsPreMode,
const RawRangeBoundary& aStart,
const RawRangeBoundary& aEnd) {
if (NS_WARN_IF(!aStart.IsSet()) || NS_WARN_IF(!aEnd.IsSet()) ||
NS_WARN_IF(!aNode)) {
return false;
}
// If a leaf node contains an end point of the traversal range, it is
// always in the traversal range.
if (aNode == aStart.Container() || aNode == aEnd.Container()) {
if (aNode->IsCharacterData()) {
return true; // text node or something
}
if (!aNode->HasChildren()) {
MOZ_ASSERT(
aNode != aStart.Container() || aStart.IsStartOfContainer(),
"aStart.Container() doesn't have children and not a data node, "
"aStart should be at the beginning of its container");
MOZ_ASSERT(aNode != aEnd.Container() || aEnd.IsStartOfContainer(),
"aEnd.Container() doesn't have children and not a data node, "
"aEnd should be at the beginning of its container");
return true;
}
}
nsINode* parent = aNode->GetParentNode();
if (!parent) {
return false;
}
if (!aIsPreMode) {
// aNode should always be content, as we have a parent, but let's just be
// extra careful and check.
nsIContent* content =
NS_WARN_IF(!aNode->IsContent()) ? nullptr : aNode->AsContent();
// Post mode: start < node <= end.
RawRangeBoundary afterNode(parent, content);
return nsContentUtils::ComparePoints(aStart, afterNode) < 0 &&
nsContentUtils::ComparePoints(aEnd, afterNode) >= 0;
}
// Pre mode: start <= node < end.
RawRangeBoundary beforeNode(parent, aNode->GetPreviousSibling());
return nsContentUtils::ComparePoints(aStart, beforeNode) <= 0 &&
nsContentUtils::ComparePoints(aEnd, beforeNode) > 0;
}
ContentIteratorBase::ContentIteratorBase(bool aPre)
: mIsDone(false), mPre(aPre) {}
/******************************************************
* Init routines
******************************************************/
nsresult ContentIteratorBase::Init(nsINode* aRoot) {
if (NS_WARN_IF(!aRoot)) {
return NS_ERROR_NULL_POINTER;
}
mIsDone = false;
if (mPre) {
mFirst = aRoot;
mLast = GetDeepLastChild(aRoot);
NS_WARNING_ASSERTION(mLast, "GetDeepLastChild returned null");
} else {
mFirst = GetDeepFirstChild(aRoot);
NS_WARNING_ASSERTION(mFirst, "GetDeepFirstChild returned null");
mLast = aRoot;
}
mCommonParent = aRoot;
mCurNode = mFirst;
return NS_OK;
}
nsresult ContentIteratorBase::Init(nsRange* aRange) {
mIsDone = false;
if (NS_WARN_IF(!aRange)) {
return NS_ERROR_INVALID_ARG;
}
if (NS_WARN_IF(!aRange->IsPositioned())) {
return NS_ERROR_INVALID_ARG;
}
return InitInternal(aRange->StartRef().AsRaw(), aRange->EndRef().AsRaw());
}
nsresult ContentIteratorBase::Init(nsINode* aStartContainer,
uint32_t aStartOffset,
nsINode* aEndContainer,
uint32_t aEndOffset) {
mIsDone = false;
if (NS_WARN_IF(!RangeUtils::IsValidPoints(aStartContainer, aStartOffset,
aEndContainer, aEndOffset))) {
return NS_ERROR_INVALID_ARG;
}
return InitInternal(RawRangeBoundary(aStartContainer, aStartOffset),
RawRangeBoundary(aEndContainer, aEndOffset));
}
nsresult ContentIteratorBase::Init(const RawRangeBoundary& aStart,
const RawRangeBoundary& aEnd) {
mIsDone = false;
if (NS_WARN_IF(!RangeUtils::IsValidPoints(aStart, aEnd))) {
return NS_ERROR_INVALID_ARG;
}
return InitInternal(aStart, aEnd);
}
nsresult ContentIteratorBase::InitInternal(const RawRangeBoundary& aStart,
const RawRangeBoundary& aEnd) {
// get common content parent
mCommonParent =
nsContentUtils::GetCommonAncestor(aStart.Container(), aEnd.Container());
if (NS_WARN_IF(!mCommonParent)) {
return NS_ERROR_FAILURE;
}
bool startIsData = aStart.Container()->IsCharacterData();
// Check to see if we have a collapsed range, if so, there is nothing to
// iterate over.
//
// XXX: CharacterDataNodes (text nodes) are currently an exception, since
// we always want to be able to iterate text nodes at the end points
// of a range.
if (!startIsData && aStart == aEnd) {
MakeEmpty();
return NS_OK;
}
// Handle ranges within a single character data node.
if (startIsData && aStart.Container() == aEnd.Container()) {
mFirst = aStart.Container()->AsContent();
mLast = mFirst;
mCurNode = mFirst;
return NS_OK;
}
// Find first node in range.
nsIContent* cChild = nullptr;
// Try to get the child at our starting point. This might return null if
// aStart is immediately after the last node in aStart.Container().
if (!startIsData) {
cChild = aStart.GetChildAtOffset();
}
if (!cChild) {
// No children (possibly a <br> or text node), or index is after last child.
if (mPre) {
// XXX: In the future, if start offset is after the last
// character in the cdata node, should we set mFirst to
// the next sibling?
// Normally we would skip the start node because the start node is outside
// of the range in pre mode. However, if aStartOffset == 0, and the node
// is a non-container node (e.g. <br>), we don't skip the node in this
// case in order to address bug 1215798.
bool startIsContainer = true;
if (aStart.Container()->IsHTMLElement()) {
nsAtom* name = aStart.Container()->NodeInfo()->NameAtom();
startIsContainer =
nsHTMLElement::IsContainer(nsHTMLTags::AtomTagToId(name));
}
if (!startIsData && (startIsContainer || !aStart.IsStartOfContainer())) {
mFirst = GetNextSibling(aStart.Container());
NS_WARNING_ASSERTION(mFirst, "GetNextSibling returned null");
// Does mFirst node really intersect the range? The range could be
// 'degenerate', i.e., not collapsed but still contain no content.
if (mFirst &&
NS_WARN_IF(!NodeIsInTraversalRange(mFirst, mPre, aStart, aEnd))) {
mFirst = nullptr;
}
} else {
mFirst = aStart.Container()->AsContent();
}
} else {
// post-order
if (NS_WARN_IF(!aStart.Container()->IsContent())) {
// What else can we do?
mFirst = nullptr;
} else {
mFirst = aStart.Container()->AsContent();
}
}
} else {
if (mPre) {
mFirst = cChild;
} else {
// post-order
mFirst = GetDeepFirstChild(cChild);
NS_WARNING_ASSERTION(mFirst, "GetDeepFirstChild returned null");
// Does mFirst node really intersect the range? The range could be
// 'degenerate', i.e., not collapsed but still contain no content.
if (mFirst && !NodeIsInTraversalRange(mFirst, mPre, aStart, aEnd)) {
mFirst = nullptr;
}
}
}
// Find last node in range.
bool endIsData = aEnd.Container()->IsCharacterData();
if (endIsData || !aEnd.Container()->HasChildren() ||
aEnd.IsStartOfContainer()) {
if (mPre) {
if (NS_WARN_IF(!aEnd.Container()->IsContent())) {
// Not much else to do here...
mLast = nullptr;
} else {
// If the end node is a non-container element and the end offset is 0,
// the last element should be the previous node (i.e., shouldn't
// include the end node in the range).
bool endIsContainer = true;
if (aEnd.Container()->IsHTMLElement()) {
nsAtom* name = aEnd.Container()->NodeInfo()->NameAtom();
endIsContainer =
nsHTMLElement::IsContainer(nsHTMLTags::AtomTagToId(name));
}
if (!endIsData && !endIsContainer && aEnd.IsStartOfContainer()) {
mLast = PrevNode(aEnd.Container());
NS_WARNING_ASSERTION(mLast, "PrevNode returned null");
if (mLast && mLast != mFirst &&
NS_WARN_IF(!NodeIsInTraversalRange(
mLast, mPre, RawRangeBoundary(mFirst, 0), aEnd))) {
mLast = nullptr;
}
} else {
mLast = aEnd.Container()->AsContent();
}
}
} else {
// post-order
//
// XXX: In the future, if end offset is before the first character in the
// cdata node, should we set mLast to the prev sibling?
if (!endIsData) {
mLast = GetPrevSibling(aEnd.Container());
NS_WARNING_ASSERTION(mLast, "GetPrevSibling returned null");
if (!NodeIsInTraversalRange(mLast, mPre, aStart, aEnd)) {
mLast = nullptr;
}
} else {
mLast = aEnd.Container()->AsContent();
}
}
} else {
cChild = aEnd.Ref();
if (NS_WARN_IF(!cChild)) {
// No child at offset!
MOZ_ASSERT_UNREACHABLE("ContentIterator::ContentIterator");
return NS_ERROR_FAILURE;
}
if (mPre) {
mLast = GetDeepLastChild(cChild);
NS_WARNING_ASSERTION(mLast, "GetDeepLastChild returned null");
if (NS_WARN_IF(!NodeIsInTraversalRange(mLast, mPre, aStart, aEnd))) {
mLast = nullptr;
}
} else {
// post-order
mLast = cChild;
}
}
// If either first or last is null, they both have to be null!
if (!mFirst || !mLast) {
mFirst = nullptr;
mLast = nullptr;
}
mCurNode = mFirst;
mIsDone = !mCurNode;
return NS_OK;
}
void ContentIteratorBase::MakeEmpty() {
mCurNode = nullptr;
mFirst = nullptr;
mLast = nullptr;
mCommonParent = nullptr;
mIsDone = true;
}
nsINode* ContentIteratorBase::GetDeepFirstChild(nsINode* aRoot) {
if (NS_WARN_IF(!aRoot) || !aRoot->HasChildren()) {
return aRoot;
}
return GetDeepFirstChild(aRoot->GetFirstChild());
}
nsIContent* ContentIteratorBase::GetDeepFirstChild(nsIContent* aRoot) {
if (NS_WARN_IF(!aRoot)) {
return nullptr;
}
nsIContent* node = aRoot;
nsIContent* child = node->GetFirstChild();
while (child) {
node = child;
child = node->GetFirstChild();
}
return node;
}
nsINode* ContentIteratorBase::GetDeepLastChild(nsINode* aRoot) {
if (NS_WARN_IF(!aRoot) || !aRoot->HasChildren()) {
return aRoot;
}
return GetDeepLastChild(aRoot->GetLastChild());
}
nsIContent* ContentIteratorBase::GetDeepLastChild(nsIContent* aRoot) {
if (NS_WARN_IF(!aRoot)) {
return nullptr;
}
nsIContent* node = aRoot;
while (node->HasChildren()) {
nsIContent* child = node->GetLastChild();
node = child;
}
return node;
}
// Get the next sibling, or parent's next sibling, or grandpa's next sibling...
nsIContent* ContentIteratorBase::GetNextSibling(nsINode* aNode) {
if (NS_WARN_IF(!aNode)) {
return nullptr;
}
if (aNode->GetNextSibling()) {
return aNode->GetNextSibling();
}
nsINode* parent = aNode->GetParentNode();
if (NS_WARN_IF(!parent)) {
return nullptr;
}
// XXX This is a hack to preserve previous behaviour: This should be fixed
// in bug 1404916. If we were positioned on anonymous content, move to
// the first child of our parent.
if (parent->GetLastChild() && parent->GetLastChild() != aNode) {
return parent->GetFirstChild();
}
return GetNextSibling(parent);
}
// Get the prev sibling, or parent's prev sibling, or grandpa's prev sibling...
nsIContent* ContentIteratorBase::GetPrevSibling(nsINode* aNode) {
if (NS_WARN_IF(!aNode)) {
return nullptr;
}
if (aNode->GetPreviousSibling()) {
return aNode->GetPreviousSibling();
}
nsINode* parent = aNode->GetParentNode();
if (NS_WARN_IF(!parent)) {
return nullptr;
}
// XXX This is a hack to preserve previous behaviour: This should be fixed
// in bug 1404916. If we were positioned on anonymous content, move to
// the last child of our parent.
if (parent->GetFirstChild() && parent->GetFirstChild() != aNode) {
return parent->GetLastChild();
}
return GetPrevSibling(parent);
}
nsINode* ContentIteratorBase::NextNode(nsINode* aNode) {
nsINode* node = aNode;
// if we are a Pre-order iterator, use pre-order
if (mPre) {
// if it has children then next node is first child
if (node->HasChildren()) {
nsIContent* firstChild = node->GetFirstChild();
MOZ_ASSERT(firstChild);
return firstChild;
}
// else next sibling is next
return GetNextSibling(node);
}
// post-order
nsINode* parent = node->GetParentNode();
if (NS_WARN_IF(!parent)) {
MOZ_ASSERT(parent, "The node is the root node but not the last node");
mIsDone = true;
return node;
}
nsIContent* sibling = node->GetNextSibling();
if (sibling) {
// next node is sibling's "deep left" child
return GetDeepFirstChild(sibling);
}
return parent;
}
nsINode* ContentIteratorBase::PrevNode(nsINode* aNode) {
nsINode* node = aNode;
// if we are a Pre-order iterator, use pre-order
if (mPre) {
nsINode* parent = node->GetParentNode();
if (NS_WARN_IF(!parent)) {
MOZ_ASSERT(parent, "The node is the root node but not the first node");
mIsDone = true;
return aNode;
}
nsIContent* sibling = node->GetPreviousSibling();
if (sibling) {
return GetDeepLastChild(sibling);
}
return parent;
}
// post-order
if (node->HasChildren()) {
return node->GetLastChild();
}
// else prev sibling is previous
return GetPrevSibling(node);
}
/******************************************************
* ContentIteratorBase routines
******************************************************/
void ContentIteratorBase::First() {
if (mFirst) {
mozilla::DebugOnly<nsresult> rv = PositionAt(mFirst);
NS_ASSERTION(NS_SUCCEEDED(rv), "Failed to position iterator!");
}
mIsDone = mFirst == nullptr;
}
void ContentIteratorBase::Last() {
// Note that mLast can be nullptr if MakeEmpty() is called in Init() since
// at that time, Init() returns NS_OK.
if (!mLast) {
MOZ_ASSERT(mIsDone);
return;
}
mozilla::DebugOnly<nsresult> rv = PositionAt(mLast);
NS_ASSERTION(NS_SUCCEEDED(rv), "Failed to position iterator!");
mIsDone = mLast == nullptr;
}
void ContentIteratorBase::Next() {
if (mIsDone || NS_WARN_IF(!mCurNode)) {
return;
}
if (mCurNode == mLast) {
mIsDone = true;
return;
}
mCurNode = NextNode(mCurNode);
}
void ContentIteratorBase::Prev() {
if (NS_WARN_IF(mIsDone) || NS_WARN_IF(!mCurNode)) {
return;
}
if (mCurNode == mFirst) {
mIsDone = true;
return;
}
mCurNode = PrevNode(mCurNode);
}
bool ContentIteratorBase::IsDone() { return mIsDone; }
// Keeping arrays of indexes for the stack of nodes makes PositionAt
// interesting...
nsresult ContentIteratorBase::PositionAt(nsINode* aCurNode) {
if (NS_WARN_IF(!aCurNode)) {
return NS_ERROR_NULL_POINTER;
}
// take an early out if this doesn't actually change the position
if (mCurNode == aCurNode) {
mIsDone = false;
return NS_OK;
}
mCurNode = aCurNode;
// Check to see if the node falls within the traversal range.
RawRangeBoundary first(mFirst, 0);
RawRangeBoundary last(mLast, 0);
if (mFirst && mLast) {
if (mPre) {
// In pre we want to record the point immediately before mFirst, which is
// the point immediately after mFirst's previous sibling.
first.SetAfterRef(mFirst->GetParentNode(), mFirst->GetPreviousSibling());
// If mLast has no children, then we want to make sure to include it.
if (!mLast->HasChildren()) {
last.SetAfterRef(mLast->GetParentNode(), mLast->AsContent());
}
} else {
// If the first node has any children, we want to be immediately after the
// last. Otherwise we want to be immediately before mFirst.
if (mFirst->HasChildren()) {
first.SetAfterRef(mFirst, mFirst->GetLastChild());
} else {
first.SetAfterRef(mFirst->GetParentNode(),
mFirst->GetPreviousSibling());
}
// Set the last point immediately after the final node.
last.SetAfterRef(mLast->GetParentNode(), mLast->AsContent());
}
}
NS_WARNING_ASSERTION(first.IsSetAndValid(), "first is not valid");
NS_WARNING_ASSERTION(last.IsSetAndValid(), "last is not valid");
// The end positions are always in the range even if it has no parent. We
// need to allow that or 'iter->Init(root)' would assert in Last() or First()
// for example, bug 327694.
if (mFirst != mCurNode && mLast != mCurNode &&
(NS_WARN_IF(!first.IsSet()) || NS_WARN_IF(!last.IsSet()) ||
NS_WARN_IF(!NodeIsInTraversalRange(mCurNode, mPre, first, last)))) {
mIsDone = true;
return NS_ERROR_FAILURE;
}
mIsDone = false;
return NS_OK;
}
nsINode* ContentIteratorBase::GetCurrentNode() {
if (mIsDone) {
return nullptr;
}
NS_ASSERTION(mCurNode, "Null current node in an iterator that's not done!");
return mCurNode;
}
/******************************************************
* ContentSubtreeIterator init routines
******************************************************/
nsresult ContentSubtreeIterator::Init(nsINode* aRoot) {
return NS_ERROR_NOT_IMPLEMENTED;
}
nsresult ContentSubtreeIterator::Init(nsRange* aRange) {
MOZ_ASSERT(aRange);
mIsDone = false;
if (NS_WARN_IF(!aRange->IsPositioned())) {
return NS_ERROR_INVALID_ARG;
}
mRange = aRange;
return InitWithRange();
}
nsresult ContentSubtreeIterator::Init(nsINode* aStartContainer,
uint32_t aStartOffset,
nsINode* aEndContainer,
uint32_t aEndOffset) {
return Init(RawRangeBoundary(aStartContainer, aStartOffset),
RawRangeBoundary(aEndContainer, aEndOffset));
}
nsresult ContentSubtreeIterator::Init(const RawRangeBoundary& aStartBoundary,
const RawRangeBoundary& aEndBoundary) {
mIsDone = false;
RefPtr<nsRange> range =
nsRange::Create(aStartBoundary, aEndBoundary, IgnoreErrors());
if (NS_WARN_IF(!range) || NS_WARN_IF(!range->IsPositioned())) {
return NS_ERROR_INVALID_ARG;
}
if (NS_WARN_IF(range->StartRef() != aStartBoundary) ||
NS_WARN_IF(range->EndRef() != aEndBoundary)) {
return NS_ERROR_UNEXPECTED;
}
mRange = std::move(range);
return InitWithRange();
}
nsresult ContentSubtreeIterator::InitWithRange() {
MOZ_ASSERT(mRange);
MOZ_ASSERT(mRange->IsPositioned());
// get the start node and offset, convert to nsINode
mCommonParent = mRange->GetCommonAncestor();
nsINode* startContainer = mRange->GetStartContainer();
int32_t startOffset = mRange->StartOffset();
nsINode* endContainer = mRange->GetEndContainer();
int32_t endOffset = mRange->EndOffset();
MOZ_ASSERT(mCommonParent && startContainer && endContainer);
// Bug 767169
MOZ_ASSERT(uint32_t(startOffset) <= startContainer->Length() &&
uint32_t(endOffset) <= endContainer->Length());
// short circuit when start node == end node
if (startContainer == endContainer) {
nsINode* child = startContainer->GetFirstChild();
if (!child || startOffset == endOffset) {
// Text node, empty container, or collapsed
MakeEmpty();
return NS_OK;
}
}
// cache ancestors
mEndNodes.Clear();
nsIContent* endNode =
endContainer->IsContent() ? endContainer->AsContent() : nullptr;
while (endNode) {
mEndNodes.AppendElement(endNode);
endNode = endNode->GetParent();
}
nsIContent* firstCandidate = nullptr;
nsIContent* lastCandidate = nullptr;
// find first node in range
int32_t offset = mRange->StartOffset();
nsINode* node = nullptr;
if (!startContainer->GetChildCount()) {
// no children, start at the node itself
node = startContainer;
} else {
nsIContent* child = mRange->GetChildAtStartOffset();
MOZ_ASSERT(child == startContainer->GetChildAt_Deprecated(offset));
if (!child) {
// offset after last child
node = startContainer;
} else {
firstCandidate = child;
}
}
if (!firstCandidate) {
// then firstCandidate is next node after node
firstCandidate = GetNextSibling(node);
if (!firstCandidate) {
MakeEmpty();
return NS_OK;
}
}
firstCandidate = GetDeepFirstChild(firstCandidate);
// confirm that this first possible contained node is indeed contained. Else
// we have a range that does not fully contain any node.
bool nodeBefore, nodeAfter;
MOZ_ALWAYS_SUCCEEDS(RangeUtils::CompareNodeToRange(firstCandidate, mRange,
&nodeBefore, &nodeAfter));
if (nodeBefore || nodeAfter) {
MakeEmpty();
return NS_OK;
}
// cool, we have the first node in the range. Now we walk up its ancestors
// to find the most senior that is still in the range. That's the real first
// node.
mFirst = GetTopAncestorInRange(firstCandidate);
// now to find the last node
offset = mRange->EndOffset();
int32_t numChildren = endContainer->GetChildCount();
if (offset > numChildren) {
// Can happen for text nodes
offset = numChildren;
}
if (!offset || !numChildren) {
node = endContainer;
} else {
lastCandidate = mRange->EndRef().Ref();
MOZ_ASSERT(lastCandidate == endContainer->GetChildAt_Deprecated(--offset));
NS_ASSERTION(lastCandidate,
"tree traversal trouble in ContentSubtreeIterator::Init");
}
if (!lastCandidate) {
// then lastCandidate is prev node before node
lastCandidate = GetPrevSibling(node);
}
if (!lastCandidate) {
MakeEmpty();
return NS_OK;
}
lastCandidate = GetDeepLastChild(lastCandidate);
// confirm that this last possible contained node is indeed contained. Else
// we have a range that does not fully contain any node.
MOZ_ALWAYS_SUCCEEDS(RangeUtils::CompareNodeToRange(lastCandidate, mRange,
&nodeBefore, &nodeAfter));
if (nodeBefore || nodeAfter) {
MakeEmpty();
return NS_OK;
}
// cool, we have the last node in the range. Now we walk up its ancestors to
// find the most senior that is still in the range. That's the real first
// node.
mLast = GetTopAncestorInRange(lastCandidate);
mCurNode = mFirst;
return NS_OK;
}
/****************************************************************
* ContentSubtreeIterator overrides of ContentIterator routines
****************************************************************/
// we can't call PositionAt in a subtree iterator...
void ContentSubtreeIterator::First() {
mIsDone = mFirst == nullptr;
mCurNode = mFirst;
}
// we can't call PositionAt in a subtree iterator...
void ContentSubtreeIterator::Last() {
mIsDone = mLast == nullptr;
mCurNode = mLast;
}
void ContentSubtreeIterator::Next() {
if (mIsDone || !mCurNode) {
return;
}
if (mCurNode == mLast) {
mIsDone = true;
return;
}
nsINode* nextNode = GetNextSibling(mCurNode);
NS_ASSERTION(nextNode, "No next sibling!?! This could mean deadlock!");
int32_t i = mEndNodes.IndexOf(nextNode);
while (i != -1) {
// as long as we are finding ancestors of the endpoint of the range,
// dive down into their children
nextNode = nextNode->GetFirstChild();
NS_ASSERTION(nextNode, "Iterator error, expected a child node!");
// should be impossible to get a null pointer. If we went all the way
// down the child chain to the bottom without finding an interior node,
// then the previous node should have been the last, which was
// was tested at top of routine.
i = mEndNodes.IndexOf(nextNode);
}
mCurNode = nextNode;
// This shouldn't be needed, but since our selection code can put us
// in a situation where mLast is in generated content, we need this
// to stop the iterator when we've walked past past the last node!
mIsDone = mCurNode == nullptr;
}
void ContentSubtreeIterator::Prev() {
// Prev should be optimized to use the mStartNodes, just as Next
// uses mEndNodes.
if (mIsDone || !mCurNode) {
return;
}
if (mCurNode == mFirst) {
mIsDone = true;
return;
}
// If any of these function calls return null, so will all succeeding ones,
// so mCurNode will wind up set to null.
nsINode* prevNode = GetDeepFirstChild(mCurNode);
prevNode = PrevNode(prevNode);
prevNode = GetDeepLastChild(prevNode);
mCurNode = GetTopAncestorInRange(prevNode);
// This shouldn't be needed, but since our selection code can put us
// in a situation where mFirst is in generated content, we need this
// to stop the iterator when we've walked past past the first node!
mIsDone = mCurNode == nullptr;
}
nsresult ContentSubtreeIterator::PositionAt(nsINode* aCurNode) {
NS_ERROR("Not implemented!");
return NS_ERROR_NOT_IMPLEMENTED;
}
/****************************************************************
* ContentSubtreeIterator helper routines
****************************************************************/
nsIContent* ContentSubtreeIterator::GetTopAncestorInRange(nsINode* aNode) {
if (!aNode || !aNode->GetParentNode()) {
return nullptr;
}
// aNode has a parent, so it must be content.
nsIContent* content = aNode->AsContent();
// sanity check: aNode is itself in the range
bool nodeBefore, nodeAfter;
nsresult res =
RangeUtils::CompareNodeToRange(aNode, mRange, &nodeBefore, &nodeAfter);
NS_ASSERTION(NS_SUCCEEDED(res) && !nodeBefore && !nodeAfter,
"aNode isn't in mRange, or something else weird happened");
if (NS_FAILED(res) || nodeBefore || nodeAfter) {
return nullptr;
}
while (content) {
nsIContent* parent = content->GetParent();
// content always has a parent. If its parent is the root, however --
// i.e., either it's not content, or it is content but its own parent is
// null -- then we're finished, since we don't go up to the root.
//
// We have to special-case this because CompareNodeToRange treats the root
// node differently -- see bug 765205.
if (!parent || !parent->GetParentNode()) {
return content;
}
MOZ_ALWAYS_SUCCEEDS(RangeUtils::CompareNodeToRange(
parent, mRange, &nodeBefore, &nodeAfter));
if (nodeBefore || nodeAfter) {
return content;
}
content = parent;
}
MOZ_CRASH("This should only be possible if aNode was null");
}
} // namespace mozilla