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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/. */
//#define DEBUG_FIND 1
#include "nsFind.h"
#include "nsContentCID.h"
#include "nsIContent.h"
#include "nsIDOMNode.h"
#include "nsIDOMNodeList.h"
#include "nsISelection.h"
#include "nsISelectionController.h"
#include "nsIFrame.h"
#include "nsITextControlFrame.h"
#include "nsIFormControl.h"
#include "nsIEditor.h"
#include "nsIPlaintextEditor.h"
#include "nsTextFragment.h"
#include "nsString.h"
#include "nsIAtom.h"
#include "nsServiceManagerUtils.h"
#include "nsUnicharUtils.h"
#include "nsIDOMElement.h"
#include "nsIWordBreaker.h"
#include "nsCRT.h"
#include "nsRange.h"
#include "nsContentUtils.h"
#include "mozilla/DebugOnly.h"
using namespace mozilla;
// Yikes! Casting a char to unichar can fill with ones!
#define CHAR_TO_UNICHAR(c) ((char16_t)(const unsigned char)c)
static NS_DEFINE_CID(kCContentIteratorCID, NS_CONTENTITERATOR_CID);
static NS_DEFINE_CID(kCPreContentIteratorCID, NS_PRECONTENTITERATOR_CID);
#define CH_QUOTE ((char16_t)0x22)
#define CH_APOSTROPHE ((char16_t)0x27)
#define CH_LEFT_SINGLE_QUOTE ((char16_t)0x2018)
#define CH_RIGHT_SINGLE_QUOTE ((char16_t)0x2019)
#define CH_LEFT_DOUBLE_QUOTE ((char16_t)0x201C)
#define CH_RIGHT_DOUBLE_QUOTE ((char16_t)0x201D)
#define CH_SHY ((char16_t)0xAD)
// nsFind::Find casts CH_SHY to char before calling StripChars
// This works correctly if and only if CH_SHY <= 255
static_assert(CH_SHY <= 255, "CH_SHY is not an ascii character");
// nsFindContentIterator is a special iterator that also goes through any
// existing <textarea>'s or text <input>'s editor to lookup the anonymous DOM
// content there.
//
// Details:
// 1) We use two iterators: The "outer-iterator" goes through the normal DOM.
// The "inner-iterator" goes through the anonymous DOM inside the editor.
//
// 2) [MaybeSetupInnerIterator] As soon as the outer-iterator's current node is
// changed, a check is made to see if the node is a <textarea> or a text <input>
// node. If so, an inner-iterator is created to lookup the anynomous contents of
// the editor underneath the text control.
//
// 3) When the inner-iterator is created, we position the outer-iterator 'after'
// (or 'before' in backward search) the text control to avoid revisiting that
// control.
//
// 4) As a consequence of searching through text controls, we can be called via
// FindNext with the current selection inside a <textarea> or a text <input>.
// This means that we can be given an initial search range that stretches across
// the anonymous DOM and the normal DOM. To cater for this situation, we split
// the anonymous part into the inner-iterator and then reposition the outer-
// iterator outside.
//
// 5) The implementation assumes that First() and Next() are only called in
// find-forward mode, while Last() and Prev() are used in find-backward.
class nsFindContentIterator final : public nsIContentIterator
{
public:
explicit nsFindContentIterator(bool aFindBackward)
: mStartOffset(0)
, mEndOffset(0)
, mFindBackward(aFindBackward)
{
}
NS_DECL_CYCLE_COLLECTING_ISUPPORTS
NS_DECL_CYCLE_COLLECTION_CLASS(nsFindContentIterator)
// nsIContentIterator
virtual nsresult Init(nsINode* aRoot) override
{
NS_NOTREACHED("internal error");
return NS_ERROR_NOT_IMPLEMENTED;
}
virtual nsresult Init(nsIDOMRange* aRange) override
{
NS_NOTREACHED("internal error");
return NS_ERROR_NOT_IMPLEMENTED;
}
// Not a range because one of the endpoints may be anonymous.
nsresult Init(nsIDOMNode* aStartNode, int32_t aStartOffset,
nsIDOMNode* aEndNode, int32_t aEndOffset);
virtual void First() override;
virtual void Last() override;
virtual void Next() override;
virtual void Prev() override;
virtual nsINode* GetCurrentNode() override;
virtual bool IsDone() override;
virtual nsresult PositionAt(nsINode* aCurNode) override;
protected:
virtual ~nsFindContentIterator() {}
private:
static already_AddRefed<nsIDOMRange> CreateRange(nsINode* aNode)
{
RefPtr<nsRange> range = new nsRange(aNode);
range->SetMaySpanAnonymousSubtrees(true);
return range.forget();
}
nsCOMPtr<nsIContentIterator> mOuterIterator;
nsCOMPtr<nsIContentIterator> mInnerIterator;
// Can't use a range here, since we want to represent part of the flattened
// tree, including native anonymous content.
nsCOMPtr<nsIDOMNode> mStartNode;
int32_t mStartOffset;
nsCOMPtr<nsIDOMNode> mEndNode;
int32_t mEndOffset;
nsCOMPtr<nsIContent> mStartOuterContent;
nsCOMPtr<nsIContent> mEndOuterContent;
bool mFindBackward;
void Reset();
void MaybeSetupInnerIterator();
void SetupInnerIterator(nsIContent* aContent);
};
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(nsFindContentIterator)
NS_INTERFACE_MAP_ENTRY(nsIContentIterator)
NS_INTERFACE_MAP_ENTRY(nsISupports)
NS_INTERFACE_MAP_END
NS_IMPL_CYCLE_COLLECTING_ADDREF(nsFindContentIterator)
NS_IMPL_CYCLE_COLLECTING_RELEASE(nsFindContentIterator)
NS_IMPL_CYCLE_COLLECTION(nsFindContentIterator, mOuterIterator, mInnerIterator,
mStartOuterContent, mEndOuterContent, mEndNode,
mStartNode)
nsresult
nsFindContentIterator::Init(nsIDOMNode* aStartNode, int32_t aStartOffset,
nsIDOMNode* aEndNode, int32_t aEndOffset)
{
NS_ENSURE_ARG_POINTER(aStartNode);
NS_ENSURE_ARG_POINTER(aEndNode);
if (!mOuterIterator) {
if (mFindBackward) {
// Use post-order in the reverse case, so we get parents before children
// in case we want to prevent descending into a node.
mOuterIterator = do_CreateInstance(kCContentIteratorCID);
} else {
// Use pre-order in the forward case, so we get parents before children in
// case we want to prevent descending into a node.
mOuterIterator = do_CreateInstance(kCPreContentIteratorCID);
}
NS_ENSURE_ARG_POINTER(mOuterIterator);
}
// Set up the search "range" that we will examine
mStartNode = aStartNode;
mStartOffset = aStartOffset;
mEndNode = aEndNode;
mEndOffset = aEndOffset;
return NS_OK;
}
void
nsFindContentIterator::First()
{
Reset();
}
void
nsFindContentIterator::Last()
{
Reset();
}
void
nsFindContentIterator::Next()
{
if (mInnerIterator) {
mInnerIterator->Next();
if (!mInnerIterator->IsDone()) {
return;
}
// by construction, mOuterIterator is already on the next node
} else {
mOuterIterator->Next();
}
MaybeSetupInnerIterator();
}
void
nsFindContentIterator::Prev()
{
if (mInnerIterator) {
mInnerIterator->Prev();
if (!mInnerIterator->IsDone()) {
return;
}
// by construction, mOuterIterator is already on the previous node
} else {
mOuterIterator->Prev();
}
MaybeSetupInnerIterator();
}
nsINode*
nsFindContentIterator::GetCurrentNode()
{
if (mInnerIterator && !mInnerIterator->IsDone()) {
return mInnerIterator->GetCurrentNode();
}
return mOuterIterator->GetCurrentNode();
}
bool
nsFindContentIterator::IsDone()
{
if (mInnerIterator && !mInnerIterator->IsDone()) {
return false;
}
return mOuterIterator->IsDone();
}
nsresult
nsFindContentIterator::PositionAt(nsINode* aCurNode)
{
nsINode* oldNode = mOuterIterator->GetCurrentNode();
nsresult rv = mOuterIterator->PositionAt(aCurNode);
if (NS_SUCCEEDED(rv)) {
MaybeSetupInnerIterator();
} else {
mOuterIterator->PositionAt(oldNode);
if (mInnerIterator) {
rv = mInnerIterator->PositionAt(aCurNode);
}
}
return rv;
}
void
nsFindContentIterator::Reset()
{
mInnerIterator = nullptr;
mStartOuterContent = nullptr;
mEndOuterContent = nullptr;
// As a consequence of searching through text controls, we may have been
// initialized with a selection inside a <textarea> or a text <input>.
// see if the start node is an anonymous text node inside a text control
nsCOMPtr<nsIContent> startContent(do_QueryInterface(mStartNode));
if (startContent) {
mStartOuterContent = startContent->FindFirstNonChromeOnlyAccessContent();
}
// see if the end node is an anonymous text node inside a text control
nsCOMPtr<nsIContent> endContent(do_QueryInterface(mEndNode));
if (endContent) {
mEndOuterContent = endContent->FindFirstNonChromeOnlyAccessContent();
}
// Note: OK to just set up the outer iterator here; if our range has a native
// anonymous endpoint we'll end up setting up an inner iterator, and reset the
// outer one in the process.
nsCOMPtr<nsINode> node = do_QueryInterface(mStartNode);
NS_ENSURE_TRUE_VOID(node);
nsCOMPtr<nsIDOMRange> range = CreateRange(node);
range->SetStart(mStartNode, mStartOffset);
range->SetEnd(mEndNode, mEndOffset);
mOuterIterator->Init(range);
if (!mFindBackward) {
if (mStartOuterContent != startContent) {
// the start node was an anonymous text node
SetupInnerIterator(mStartOuterContent);
if (mInnerIterator) {
mInnerIterator->First();
}
}
if (!mOuterIterator->IsDone()) {
mOuterIterator->First();
}
} else {
if (mEndOuterContent != endContent) {
// the end node was an anonymous text node
SetupInnerIterator(mEndOuterContent);
if (mInnerIterator) {
mInnerIterator->Last();
}
}
if (!mOuterIterator->IsDone()) {
mOuterIterator->Last();
}
}
// if we didn't create an inner-iterator, the boundary node could still be
// a text control, in which case we also need an inner-iterator straightaway
if (!mInnerIterator) {
MaybeSetupInnerIterator();
}
}
void
nsFindContentIterator::MaybeSetupInnerIterator()
{
mInnerIterator = nullptr;
nsCOMPtr<nsIContent> content =
do_QueryInterface(mOuterIterator->GetCurrentNode());
if (!content || !content->IsNodeOfType(nsINode::eHTML_FORM_CONTROL)) {
return;
}
nsCOMPtr<nsIFormControl> formControl(do_QueryInterface(content));
if (!formControl->IsTextControl(true)) {
return;
}
SetupInnerIterator(content);
if (mInnerIterator) {
if (!mFindBackward) {
mInnerIterator->First();
// finish setup: position mOuterIterator on the actual "next" node (this
// completes its re-init, @see SetupInnerIterator)
if (!mOuterIterator->IsDone()) {
mOuterIterator->First();
}
} else {
mInnerIterator->Last();
// finish setup: position mOuterIterator on the actual "previous" node
// (this completes its re-init, @see SetupInnerIterator)
if (!mOuterIterator->IsDone()) {
mOuterIterator->Last();
}
}
}
}
void
nsFindContentIterator::SetupInnerIterator(nsIContent* aContent)
{
if (!aContent) {
return;
}
NS_ASSERTION(!aContent->IsRootOfNativeAnonymousSubtree(), "invalid call");
nsITextControlFrame* tcFrame = do_QueryFrame(aContent->GetPrimaryFrame());
if (!tcFrame) {
return;
}
nsCOMPtr<nsIEditor> editor;
tcFrame->GetEditor(getter_AddRefs(editor));
if (!editor) {
return;
}
// don't mess with disabled input fields
uint32_t editorFlags = 0;
editor->GetFlags(&editorFlags);
if (editorFlags & nsIPlaintextEditor::eEditorDisabledMask) {
return;
}
nsCOMPtr<nsIDOMElement> rootElement;
editor->GetRootElement(getter_AddRefs(rootElement));
nsCOMPtr<nsIDOMRange> innerRange = CreateRange(aContent);
nsCOMPtr<nsIDOMRange> outerRange = CreateRange(aContent);
if (!innerRange || !outerRange) {
return;
}
// now create the inner-iterator
mInnerIterator = do_CreateInstance(kCPreContentIteratorCID);
if (mInnerIterator) {
innerRange->SelectNodeContents(rootElement);
// fix up the inner bounds, we may have to only lookup a portion
// of the text control if the current node is a boundary point
if (aContent == mStartOuterContent) {
innerRange->SetStart(mStartNode, mStartOffset);
}
if (aContent == mEndOuterContent) {
innerRange->SetEnd(mEndNode, mEndOffset);
}
// Note: we just init here. We do First() or Last() later.
mInnerIterator->Init(innerRange);
// make sure to place the outer-iterator outside the text control so that we
// don't go there again.
nsresult res1, res2;
nsCOMPtr<nsIDOMNode> outerNode(do_QueryInterface(aContent));
if (!mFindBackward) { // find forward
// cut the outer-iterator after the current node
res1 = outerRange->SetEnd(mEndNode, mEndOffset);
res2 = outerRange->SetStartAfter(outerNode);
} else { // find backward
// cut the outer-iterator before the current node
res1 = outerRange->SetStart(mStartNode, mStartOffset);
res2 = outerRange->SetEndBefore(outerNode);
}
if (NS_FAILED(res1) || NS_FAILED(res2)) {
// we are done with the outer-iterator, the inner-iterator will traverse
// what we want
outerRange->Collapse(true);
}
// Note: we just re-init here, using the segment of our search range that
// is yet to be visited. Thus when we later do mOuterIterator->First() [or
// mOuterIterator->Last()], we will effectively be on the next node [or
// the previous node] _with respect to_ the search range.
mOuterIterator->Init(outerRange);
}
}
nsresult
NS_NewFindContentIterator(bool aFindBackward, nsIContentIterator** aResult)
{
NS_ENSURE_ARG_POINTER(aResult);
if (!aResult) {
return NS_ERROR_NULL_POINTER;
}
nsFindContentIterator* it = new nsFindContentIterator(aFindBackward);
if (!it) {
return NS_ERROR_OUT_OF_MEMORY;
}
return it->QueryInterface(NS_GET_IID(nsIContentIterator), (void**)aResult);
}
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(nsFind)
NS_INTERFACE_MAP_ENTRY(nsIFind)
NS_INTERFACE_MAP_ENTRY(nsISupports)
NS_INTERFACE_MAP_END
NS_IMPL_CYCLE_COLLECTING_ADDREF(nsFind)
NS_IMPL_CYCLE_COLLECTING_RELEASE(nsFind)
NS_IMPL_CYCLE_COLLECTION(nsFind, mLastBlockParent, mIterNode, mIterator)
nsFind::nsFind()
: mFindBackward(false)
, mCaseSensitive(false)
, mIterOffset(0)
{
}
nsFind::~nsFind()
{
}
#ifdef DEBUG_FIND
static void
DumpNode(nsIDOMNode* aNode)
{
if (!aNode) {
printf(">>>> Node: NULL\n");
return;
}
nsAutoString nodeName;
aNode->GetNodeName(nodeName);
nsCOMPtr<nsIContent> textContent(do_QueryInterface(aNode));
if (textContent && textContent->IsNodeOfType(nsINode::eTEXT)) {
nsAutoString newText;
textContent->AppendTextTo(newText);
printf(">>>> Text node (node name %s): '%s'\n",
NS_LossyConvertUTF16toASCII(nodeName).get(),
NS_LossyConvertUTF16toASCII(newText).get());
} else {
printf(">>>> Node: %s\n", NS_LossyConvertUTF16toASCII(nodeName).get());
}
}
#endif
nsresult
nsFind::InitIterator(nsIDOMNode* aStartNode, int32_t aStartOffset,
nsIDOMNode* aEndNode, int32_t aEndOffset)
{
if (!mIterator) {
mIterator = new nsFindContentIterator(mFindBackward);
NS_ENSURE_TRUE(mIterator, NS_ERROR_OUT_OF_MEMORY);
}
NS_ENSURE_ARG_POINTER(aStartNode);
NS_ENSURE_ARG_POINTER(aEndNode);
#ifdef DEBUG_FIND
printf("InitIterator search range:\n");
printf(" -- start %d, ", aStartOffset);
DumpNode(aStartNode);
printf(" -- end %d, ", aEndOffset);
DumpNode(aEndNode);
#endif
nsresult rv = mIterator->Init(aStartNode, aStartOffset, aEndNode, aEndOffset);
NS_ENSURE_SUCCESS(rv, rv);
if (mFindBackward) {
mIterator->Last();
} else {
mIterator->First();
}
return NS_OK;
}
NS_IMETHODIMP
nsFind::GetFindBackwards(bool* aFindBackward)
{
if (!aFindBackward) {
return NS_ERROR_NULL_POINTER;
}
*aFindBackward = mFindBackward;
return NS_OK;
}
NS_IMETHODIMP
nsFind::SetFindBackwards(bool aFindBackward)
{
mFindBackward = aFindBackward;
return NS_OK;
}
NS_IMETHODIMP
nsFind::GetCaseSensitive(bool* aCaseSensitive)
{
if (!aCaseSensitive) {
return NS_ERROR_NULL_POINTER;
}
*aCaseSensitive = mCaseSensitive;
return NS_OK;
}
NS_IMETHODIMP
nsFind::SetCaseSensitive(bool aCaseSensitive)
{
mCaseSensitive = aCaseSensitive;
return NS_OK;
}
/* attribute boolean entireWord; */
NS_IMETHODIMP
nsFind::GetEntireWord(bool *aEntireWord)
{
if (!aEntireWord)
return NS_ERROR_NULL_POINTER;
*aEntireWord = !!mWordBreaker;
return NS_OK;
}
NS_IMETHODIMP
nsFind::SetEntireWord(bool aEntireWord)
{
mWordBreaker = aEntireWord ? nsContentUtils::WordBreaker() : nullptr;
return NS_OK;
}
// Here begins the find code. A ten-thousand-foot view of how it works: Find
// needs to be able to compare across inline (but not block) nodes, e.g. find
// for "abc" should match a<b>b</b>c. So after we've searched a node, we're not
// done with it; in the case of a partial match we may need to reset the
// iterator to go back to a previously visited node, so we always save the
// "match anchor" node and offset.
//
// Text nodes store their text in an nsTextFragment, which is effectively a
// union of a one-byte string or a two-byte string. Single and double strings
// are intermixed in the dom. We don't have string classes which can deal with
// intermixed strings, so all the handling is done explicitly here.
nsresult
nsFind::NextNode(nsIDOMRange* aSearchRange,
nsIDOMRange* aStartPoint, nsIDOMRange* aEndPoint,
bool aContinueOk)
{
nsresult rv;
nsCOMPtr<nsIContent> content;
if (!mIterator || aContinueOk) {
// If we are continuing, that means we have a match in progress. In that
// case, we want to continue from the end point (where we are now) to the
// beginning/end of the search range.
nsCOMPtr<nsIDOMNode> startNode;
nsCOMPtr<nsIDOMNode> endNode;
int32_t startOffset, endOffset;
if (aContinueOk) {
#ifdef DEBUG_FIND
printf("Match in progress: continuing past endpoint\n");
#endif
if (mFindBackward) {
aSearchRange->GetStartContainer(getter_AddRefs(startNode));
aSearchRange->GetStartOffset(&startOffset);
aEndPoint->GetStartContainer(getter_AddRefs(endNode));
aEndPoint->GetStartOffset(&endOffset);
} else { // forward
aEndPoint->GetEndContainer(getter_AddRefs(startNode));
aEndPoint->GetEndOffset(&startOffset);
aSearchRange->GetEndContainer(getter_AddRefs(endNode));
aSearchRange->GetEndOffset(&endOffset);
}
} else { // Normal, not continuing
if (mFindBackward) {
aSearchRange->GetStartContainer(getter_AddRefs(startNode));
aSearchRange->GetStartOffset(&startOffset);
aStartPoint->GetEndContainer(getter_AddRefs(endNode));
aStartPoint->GetEndOffset(&endOffset);
// XXX Needs work: Problem with this approach: if there is a match which
// starts just before the current selection and continues into the
// selection, we will miss it, because our search algorithm only starts
// searching from the end of the word, so we would have to search the
// current selection but discount any matches that fall entirely inside
// it.
} else { // forward
aStartPoint->GetStartContainer(getter_AddRefs(startNode));
aStartPoint->GetStartOffset(&startOffset);
aEndPoint->GetEndContainer(getter_AddRefs(endNode));
aEndPoint->GetEndOffset(&endOffset);
}
}
rv = InitIterator(startNode, startOffset, endNode, endOffset);
NS_ENSURE_SUCCESS(rv, rv);
if (!aStartPoint) {
aStartPoint = aSearchRange;
}
content = do_QueryInterface(mIterator->GetCurrentNode());
#ifdef DEBUG_FIND
nsCOMPtr<nsIDOMNode> dnode(do_QueryInterface(content));
printf(":::::: Got the first node ");
DumpNode(dnode);
#endif
if (content && content->IsNodeOfType(nsINode::eTEXT) &&
!SkipNode(content)) {
mIterNode = do_QueryInterface(content);
// Also set mIterOffset if appropriate:
nsCOMPtr<nsIDOMNode> node;
if (mFindBackward) {
aStartPoint->GetEndContainer(getter_AddRefs(node));
if (mIterNode.get() == node.get()) {
aStartPoint->GetEndOffset(&mIterOffset);
} else {
mIterOffset = -1; // sign to start from end
}
} else {
aStartPoint->GetStartContainer(getter_AddRefs(node));
if (mIterNode.get() == node.get()) {
aStartPoint->GetStartOffset(&mIterOffset);
} else {
mIterOffset = 0;
}
}
#ifdef DEBUG_FIND
printf("Setting initial offset to %d\n", mIterOffset);
#endif
return NS_OK;
}
}
while (true) {
if (mFindBackward) {
mIterator->Prev();
} else {
mIterator->Next();
}
content = do_QueryInterface(mIterator->GetCurrentNode());
if (!content) {
break;
}
#ifdef DEBUG_FIND
nsCOMPtr<nsIDOMNode> dnode(do_QueryInterface(content));
printf(":::::: Got another node ");
DumpNode(dnode);
#endif
// If we ever cross a block node, we might want to reset the match anchor:
// we don't match patterns extending across block boundaries. But we can't
// depend on this test here now, because the iterator doesn't give us the
// parent going in and going out, and we need it both times to depend on
// this.
//if (IsBlockNode(content))
// Now see if we need to skip this node -- e.g. is it part of a script or
// other invisible node? Note that we don't ask for CSS information; a node
// can be invisible due to CSS, and we'd still find it.
if (SkipNode(content)) {
continue;
}
if (content->IsNodeOfType(nsINode::eTEXT)) {
break;
}
#ifdef DEBUG_FIND
dnode = do_QueryInterface(content);
printf("Not a text node: ");
DumpNode(dnode);
#endif
}
if (content) {
mIterNode = do_QueryInterface(content);
} else {
mIterNode = nullptr;
}
mIterOffset = -1;
#ifdef DEBUG_FIND
printf("Iterator gave: ");
DumpNode(mIterNode);
#endif
return NS_OK;
}
class MOZ_STACK_CLASS PeekNextCharRestoreState final
{
public:
explicit PeekNextCharRestoreState(nsFind* aFind)
: mIterOffset(aFind->mIterOffset),
mIterNode(aFind->mIterNode),
mCurrNode(aFind->mIterator->GetCurrentNode()),
mFind(aFind)
{
}
~PeekNextCharRestoreState()
{
mFind->mIterOffset = mIterOffset;
mFind->mIterNode = mIterNode;
mFind->mIterator->PositionAt(mCurrNode);
}
private:
int32_t mIterOffset;
nsCOMPtr<nsIDOMNode> mIterNode;
nsCOMPtr<nsINode> mCurrNode;
RefPtr<nsFind> mFind;
};
char16_t
nsFind::PeekNextChar(nsIDOMRange* aSearchRange,
nsIDOMRange* aStartPoint,
nsIDOMRange* aEndPoint)
{
// We need to restore the necessary member variables before this function
// returns.
PeekNextCharRestoreState restoreState(this);
nsCOMPtr<nsIContent> tc;
nsresult rv;
const nsTextFragment *frag;
int32_t fragLen;
// Loop through non-block nodes until we find one that's not empty.
do {
tc = nullptr;
NextNode(aSearchRange, aStartPoint, aEndPoint, false);
// Get the text content:
tc = do_QueryInterface(mIterNode);
// Get the block parent.
nsCOMPtr<nsIDOMNode> blockParent;
rv = GetBlockParent(mIterNode, getter_AddRefs(blockParent));
if (NS_FAILED(rv))
return L'\0';
// If out of nodes or in new parent.
if (!mIterNode || !tc || (blockParent != mLastBlockParent))
return L'\0';
frag = tc->GetText();
fragLen = frag->GetLength();
} while (fragLen <= 0);
const char16_t *t2b = nullptr;
const char *t1b = nullptr;
if (frag->Is2b()) {
t2b = frag->Get2b();
} else {
t1b = frag->Get1b();
}
// Index of char to return.
int32_t index = mFindBackward ? fragLen - 1 : 0;
return t1b ? CHAR_TO_UNICHAR(t1b[index]) : t2b[index];
}
bool
nsFind::IsBlockNode(nsIContent* aContent)
{
if (aContent->IsAnyOfHTMLElements(nsGkAtoms::img,
nsGkAtoms::hr,
nsGkAtoms::th,
nsGkAtoms::td)) {
return true;
}
return nsContentUtils::IsHTMLBlock(aContent);
}
bool
nsFind::IsTextNode(nsIDOMNode* aNode)
{
uint16_t nodeType;
aNode->GetNodeType(&nodeType);
return nodeType == nsIDOMNode::TEXT_NODE ||
nodeType == nsIDOMNode::CDATA_SECTION_NODE;
}
bool
nsFind::IsVisibleNode(nsIDOMNode* aDOMNode)
{
nsCOMPtr<nsIContent> content(do_QueryInterface(aDOMNode));
if (!content) {
return false;
}
nsIFrame* frame = content->GetPrimaryFrame();
if (!frame) {
// No frame! Not visible then.
return false;
}
return frame->StyleVisibility()->IsVisible();
}
bool
nsFind::SkipNode(nsIContent* aContent)
{
#ifdef HAVE_BIDI_ITERATOR
// We may not need to skip comment nodes, now that IsTextNode distinguishes
// them from real text nodes.
return aContent->IsNodeOfType(nsINode::eCOMMENT) ||
aContent->IsAnyOfHTMLElements(sScriptAtom, sNoframesAtom, sSelectAtom);
#else /* HAVE_BIDI_ITERATOR */
// Temporary: eventually we will have an iterator to do this, but for now, we
// have to climb up the tree for each node and see whether any parent is a
// skipped node, and take the performance hit.
nsIContent* content = aContent;
while (content) {
if (aContent->IsNodeOfType(nsINode::eCOMMENT) ||
content->IsAnyOfHTMLElements(nsGkAtoms::script,
nsGkAtoms::noframes,
nsGkAtoms::select)) {
#ifdef DEBUG_FIND
printf("Skipping node: ");
nsCOMPtr<nsIDOMNode> node(do_QueryInterface(content));
DumpNode(node);
#endif
return true;
}
// Only climb to the nearest block node
if (IsBlockNode(content)) {
return false;
}
content = content->GetParent();
}
return false;
#endif /* HAVE_BIDI_ITERATOR */
}
nsresult
nsFind::GetBlockParent(nsIDOMNode* aNode, nsIDOMNode** aParent)
{
while (aNode) {
nsCOMPtr<nsIDOMNode> parent;
nsresult rv = aNode->GetParentNode(getter_AddRefs(parent));
NS_ENSURE_SUCCESS(rv, rv);
nsCOMPtr<nsIContent> content(do_QueryInterface(parent));
if (content && IsBlockNode(content)) {
*aParent = parent;
NS_ADDREF(*aParent);
return NS_OK;
}
aNode = parent;
}
return NS_ERROR_FAILURE;
}
// Call ResetAll before returning, to remove all references to external objects.
void
nsFind::ResetAll()
{
mIterator = nullptr;
mLastBlockParent = nullptr;
}
#define NBSP_CHARCODE (CHAR_TO_UNICHAR(160))
#define IsSpace(c) (nsCRT::IsAsciiSpace(c) || (c) == NBSP_CHARCODE)
#define OVERFLOW_PINDEX (mFindBackward ? pindex < 0 : pindex > patLen)
#define DONE_WITH_PINDEX (mFindBackward ? pindex <= 0 : pindex >= patLen)
#define ALMOST_DONE_WITH_PINDEX (mFindBackward ? pindex <= 0 : pindex >= patLen - 1)
// Take nodes out of the tree with NextNode, until null (NextNode will return 0
// at the end of our range).
NS_IMETHODIMP
nsFind::Find(const char16_t* aPatText, nsIDOMRange* aSearchRange,
nsIDOMRange* aStartPoint, nsIDOMRange* aEndPoint,
nsIDOMRange** aRangeRet)
{
#ifdef DEBUG_FIND
printf("============== nsFind::Find('%s'%s, %p, %p, %p)\n",
NS_LossyConvertUTF16toASCII(aPatText).get(),
mFindBackward ? " (backward)" : " (forward)",
(void*)aSearchRange, (void*)aStartPoint, (void*)aEndPoint);
#endif
NS_ENSURE_ARG(aSearchRange);
NS_ENSURE_ARG(aStartPoint);
NS_ENSURE_ARG(aEndPoint);
NS_ENSURE_ARG_POINTER(aRangeRet);
*aRangeRet = 0;
if (!aPatText) {
return NS_ERROR_NULL_POINTER;
}
ResetAll();
nsAutoString patAutoStr(aPatText);
if (!mCaseSensitive) {
ToLowerCase(patAutoStr);
}
// Ignore soft hyphens in the pattern
static const char kShy[] = { char(CH_SHY), 0 };
patAutoStr.StripChars(kShy);
const char16_t* patStr = patAutoStr.get();
int32_t patLen = patAutoStr.Length() - 1;
// current offset into the pattern -- reset to beginning/end:
int32_t pindex = (mFindBackward ? patLen : 0);
// Current offset into the fragment
int32_t findex = 0;
// Direction to move pindex and ptr*
int incr = (mFindBackward ? -1 : 1);
nsCOMPtr<nsIContent> tc;
const nsTextFragment* frag = nullptr;
int32_t fragLen = 0;
// Pointers into the current fragment:
const char16_t* t2b = nullptr;
const char* t1b = nullptr;
// Keep track of when we're in whitespace:
// (only matters when we're matching)
bool inWhitespace = false;
// Keep track of whether the previous char was a word-breaking one.
bool wordBreakPrev = false;
// Place to save the range start point in case we find a match:
nsCOMPtr<nsIDOMNode> matchAnchorNode;
int32_t matchAnchorOffset = 0;
// Get the end point, so we know when to end searches:
nsCOMPtr<nsIDOMNode> endNode;
int32_t endOffset;
aEndPoint->GetEndContainer(getter_AddRefs(endNode));
aEndPoint->GetEndOffset(&endOffset);
char16_t c = 0;
char16_t patc = 0;
char16_t prevChar = 0;
char16_t prevCharInMatch = 0;
while (1) {
#ifdef DEBUG_FIND
printf("Loop ...\n");
#endif
// If this is our first time on a new node, reset the pointers:
if (!frag) {
tc = nullptr;
NextNode(aSearchRange, aStartPoint, aEndPoint, false);
if (!mIterNode) { // Out of nodes
// Are we in the middle of a match? If so, try again with continuation.
if (matchAnchorNode) {
NextNode(aSearchRange, aStartPoint, aEndPoint, true);
}
// Reset the iterator, so this nsFind will be usable if the user wants
// to search again (from beginning/end).
ResetAll();
return NS_OK;
}
// We have a new text content. If its block parent is different from the
// block parent of the last text content, then we need to clear the match
// since we don't want to find across block boundaries.
nsCOMPtr<nsIDOMNode> blockParent;
GetBlockParent(mIterNode, getter_AddRefs(blockParent));
#ifdef DEBUG_FIND
printf("New node: old blockparent = %p, new = %p\n",
(void*)mLastBlockParent.get(), (void*)blockParent.get());
#endif
if (blockParent != mLastBlockParent) {
#ifdef DEBUG_FIND
printf("Different block parent!\n");
#endif
mLastBlockParent = blockParent;
// End any pending match:
matchAnchorNode = nullptr;
matchAnchorOffset = 0;
pindex = (mFindBackward ? patLen : 0);
inWhitespace = false;
}
// Get the text content:
tc = do_QueryInterface(mIterNode);
if (!tc || !(frag = tc->GetText())) { // Out of nodes
mIterator = nullptr;
mLastBlockParent = nullptr;
ResetAll();
return NS_OK;
}
fragLen = frag->GetLength();
// Set our starting point in this node. If we're going back to the anchor
// node, which means that we just ended a partial match, use the saved
// offset:
if (mIterNode == matchAnchorNode) {
findex = matchAnchorOffset + (mFindBackward ? 1 : 0);
}
// mIterOffset, if set, is the range's idea of an offset, and points
// between characters. But when translated to a string index, it points to
// a character. If we're going backward, this is one character too late
// and we'll match part of our previous pattern.
else if (mIterOffset >= 0) {
findex = mIterOffset - (mFindBackward ? 1 : 0);
}
// Otherwise, just start at the appropriate end of the fragment:
else if (mFindBackward) {
findex = fragLen - 1;
} else {
findex = 0;
}
// Offset can only apply to the first node:
mIterOffset = -1;
// If this is outside the bounds of the string, then skip this node:
if (findex < 0 || findex > fragLen - 1) {
#ifdef DEBUG_FIND
printf("At the end of a text node -- skipping to the next\n");
#endif
frag = 0;
continue;
}
#ifdef DEBUG_FIND
printf("Starting from offset %d\n", findex);
#endif
if (frag->Is2b()) {
t2b = frag->Get2b();
t1b = nullptr;
#ifdef DEBUG_FIND
nsAutoString str2(t2b, fragLen);
printf("2 byte, '%s'\n", NS_LossyConvertUTF16toASCII(str2).get());
#endif
} else {
t1b = frag->Get1b();
t2b = nullptr;
#ifdef DEBUG_FIND
nsAutoCString str1(t1b, fragLen);
printf("1 byte, '%s'\n", str1.get());
#endif
}
} else {
// Still on the old node. Advance the pointers, then see if we need to
// pull a new node.
findex += incr;
#ifdef DEBUG_FIND
printf("Same node -- (%d, %d)\n", pindex, findex);
#endif
if (mFindBackward ? (findex < 0) : (findex >= fragLen)) {
#ifdef DEBUG_FIND
printf("Will need to pull a new node: mAO = %d, frag len=%d\n",
matchAnchorOffset, fragLen);
#endif
// Done with this node. Pull a new one.
frag = nullptr;
continue;
}
}
// Have we gone past the endpoint yet? If we have, and we're not in the
// middle of a match, return.
if (mIterNode == endNode &&
((mFindBackward && findex < endOffset) ||
(!mFindBackward && findex > endOffset))) {
ResetAll();
return NS_OK;
}
// Save the previous character for word boundary detection
prevChar = c;
// The two characters we'll be comparing:
c = (t2b ? t2b[findex] : CHAR_TO_UNICHAR(t1b[findex]));
patc = patStr[pindex];
#ifdef DEBUG_FIND
printf("Comparing '%c'=%x to '%c' (%d of %d), findex=%d%s\n",
(char)c, (int)c, patc, pindex, patLen, findex,
inWhitespace ? " (inWhitespace)" : "");
#endif
// Do we need to go back to non-whitespace mode? If inWhitespace, then this
// space in the pat str has already matched at least one space in the
// document.
if (inWhitespace && !IsSpace(c)) {
inWhitespace = false;
pindex += incr;
#ifdef DEBUG
// This shouldn't happen -- if we were still matching, and we were at the
// end of the pat string, then we should have caught it in the last
// iteration and returned success.
if (OVERFLOW_PINDEX) {
NS_ASSERTION(false, "Missed a whitespace match");
}
#endif
patc = patStr[pindex];
}
if (!inWhitespace && IsSpace(patc)) {
inWhitespace = true;
} else if (!inWhitespace && !mCaseSensitive && IsUpperCase(c)) {
c = ToLowerCase(c);
}
if (c == CH_SHY) {
// ignore soft hyphens in the document
continue;
}
if (!mCaseSensitive) {
switch (c) {
// treat curly and straight quotes as identical
case CH_LEFT_SINGLE_QUOTE:
case CH_RIGHT_SINGLE_QUOTE:
c = CH_APOSTROPHE;
break;
case CH_LEFT_DOUBLE_QUOTE:
case CH_RIGHT_DOUBLE_QUOTE:
c = CH_QUOTE;
break;
}
switch (patc) {
// treat curly and straight quotes as identical
case CH_LEFT_SINGLE_QUOTE:
case CH_RIGHT_SINGLE_QUOTE:
patc = CH_APOSTROPHE;
break;
case CH_LEFT_DOUBLE_QUOTE:
case CH_RIGHT_DOUBLE_QUOTE:
patc = CH_QUOTE;
break;
}
}
// a '\n' between CJ characters is ignored
if (pindex != (mFindBackward ? patLen : 0) && c != patc && !inWhitespace) {
if (c == '\n' && t2b && IS_CJ_CHAR(prevCharInMatch)) {
int32_t nindex = findex + incr;
if (mFindBackward ? (nindex >= 0) : (nindex < fragLen)) {
if (IS_CJ_CHAR(t2b[nindex])) {
continue;
}
}
}
}
wordBreakPrev = false;
if (mWordBreaker) {
if (prevChar == NBSP_CHARCODE)
prevChar = CHAR_TO_UNICHAR(' ');
wordBreakPrev = mWordBreaker->BreakInBetween(&prevChar, 1, &c, 1);
}
// Compare. Match if we're in whitespace and c is whitespace, or if the
// characters match and at least one of the following is true:
// a) we're not matching the entire word
// b) a match has already been stored
// c) the previous character is a different "class" than the current character.
if ((c == patc && (!mWordBreaker || matchAnchorNode || wordBreakPrev)) ||
(inWhitespace && IsSpace(c)))
{
prevCharInMatch = c;
#ifdef DEBUG_FIND
if (inWhitespace) {
printf("YES (whitespace)(%d of %d)\n", pindex, patLen);
} else {
printf("YES! '%c' == '%c' (%d of %d)\n", c, patc, pindex, patLen);
}
#endif
// Save the range anchors if we haven't already:
if (!matchAnchorNode) {
matchAnchorNode = mIterNode;
matchAnchorOffset = findex;
}
// Are we done?
if (DONE_WITH_PINDEX) {
// Matched the whole string!
#ifdef DEBUG_FIND
printf("Found a match!\n");
#endif
// Make the range:
nsCOMPtr<nsIDOMNode> startParent;
nsCOMPtr<nsIDOMNode> endParent;
// Check for word break (if necessary)
if (mWordBreaker) {
int32_t nextfindex = findex + incr;
char16_t nextChar;
// If still in array boundaries, get nextChar.
if (mFindBackward ? (nextfindex >= 0) : (nextfindex < fragLen))
nextChar = (t2b ? t2b[nextfindex] : CHAR_TO_UNICHAR(t1b[nextfindex]));
// Get next character from the next node.
else
nextChar = PeekNextChar(aSearchRange, aStartPoint, aEndPoint);
if (nextChar == NBSP_CHARCODE)
nextChar = CHAR_TO_UNICHAR(' ');
// If a word break isn't there when it needs to be, reset search.
if (!mWordBreaker->BreakInBetween(&c, 1, &nextChar, 1)) {
matchAnchorNode = nullptr;
continue;
}
}
nsCOMPtr<nsIDOMRange> range = new nsRange(tc);
if (range) {
int32_t matchStartOffset, matchEndOffset;
// convert char index to range point:
int32_t mao = matchAnchorOffset + (mFindBackward ? 1 : 0);
if (mFindBackward) {
startParent = do_QueryInterface(tc);
endParent = matchAnchorNode;
matchStartOffset = findex;
matchEndOffset = mao;
} else {
startParent = matchAnchorNode;
endParent = do_QueryInterface(tc);
matchStartOffset = mao;
matchEndOffset = findex + 1;
}
if (startParent && endParent &&
IsVisibleNode(startParent) && IsVisibleNode(endParent)) {
range->SetStart(startParent, matchStartOffset);
range->SetEnd(endParent, matchEndOffset);
*aRangeRet = range.get();
NS_ADDREF(*aRangeRet);
} else {
// This match is no good -- invisible or bad range
startParent = nullptr;
}
}
if (startParent) {
// If startParent == nullptr, we didn't successfully make range
// or, we didn't make a range because the start or end node were
// invisible. Reset the offset to the other end of the found string:
mIterOffset = findex + (mFindBackward ? 1 : 0);
#ifdef DEBUG_FIND
printf("mIterOffset = %d, mIterNode = ", mIterOffset);
DumpNode(mIterNode);
#endif
ResetAll();
return NS_OK;
}
// This match is no good, continue on in document
matchAnchorNode = nullptr;
}
if (matchAnchorNode) {
// Not done, but still matching. Advance and loop around for the next
// characters. But don't advance from a space to a non-space:
if (!inWhitespace || DONE_WITH_PINDEX ||
IsSpace(patStr[pindex + incr])) {
pindex += incr;
inWhitespace = false;
#ifdef DEBUG_FIND
printf("Advancing pindex to %d\n", pindex);
#endif
}
continue;
}
}
#ifdef DEBUG_FIND
printf("NOT: %c == %c\n", c, patc);
#endif
// If we didn't match, go back to the beginning of patStr, and set findex
// back to the next char after we started the current match.
if (matchAnchorNode) { // we're ending a partial match
findex = matchAnchorOffset;
mIterOffset = matchAnchorOffset;
// +incr will be added to findex when we continue
// Are we going back to a previous node?
if (matchAnchorNode != mIterNode) {
nsCOMPtr<nsIContent> content(do_QueryInterface(matchAnchorNode));
DebugOnly<nsresult> rv = NS_ERROR_UNEXPECTED;
if (content) {
rv = mIterator->PositionAt(content);
}
frag = 0;
NS_ASSERTION(NS_SUCCEEDED(rv), "Text content wasn't nsIContent!");
#ifdef DEBUG_FIND
printf("Repositioned anchor node\n");
#endif
}
#ifdef DEBUG_FIND
printf("Ending a partial match; findex -> %d, mIterOffset -> %d\n",
findex, mIterOffset);
#endif
}
matchAnchorNode = nullptr;
matchAnchorOffset = 0;
inWhitespace = false;
pindex = (mFindBackward ? patLen : 0);
#ifdef DEBUG_FIND
printf("Setting findex back to %d, pindex to %d\n", findex, pindex);
#endif
}
// Out of nodes, and didn't match.
ResetAll();
return NS_OK;
}
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