/* -*- 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/. */ /* * Object that can be used to serialize selections, ranges, or nodes * to strings in a gazillion different ways. */ #include "nsIDocumentEncoder.h" #include "nscore.h" #include "nsIFactory.h" #include "nsISupports.h" #include "nsIDocument.h" #include "nsIHTMLDocument.h" #include "nsCOMPtr.h" #include "nsIContentSerializer.h" #include "nsIUnicodeEncoder.h" #include "nsIOutputStream.h" #include "nsIDOMElement.h" #include "nsIDOMText.h" #include "nsIDOMCDATASection.h" #include "nsIDOMComment.h" #include "nsIDOMProcessingInstruction.h" #include "nsIDOMDocumentType.h" #include "nsIDOMNodeList.h" #include "nsRange.h" #include "nsIDOMRange.h" #include "nsIDOMDocument.h" #include "nsGkAtoms.h" #include "nsIContent.h" #include "nsIParserService.h" #include "nsIScriptContext.h" #include "nsIScriptGlobalObject.h" #include "nsIScriptSecurityManager.h" #include "mozilla/dom/Selection.h" #include "nsISelectionPrivate.h" #include "nsITransferable.h" // for kUnicodeMime #include "nsContentUtils.h" #include "nsNodeUtils.h" #include "nsUnicharUtils.h" #include "nsReadableUtils.h" #include "nsTArray.h" #include "nsIFrame.h" #include "nsStringBuffer.h" #include "mozilla/dom/Element.h" #include "mozilla/dom/ShadowRoot.h" #include "mozilla/dom/EncodingUtils.h" #include "nsComputedDOMStyle.h" using namespace mozilla; using namespace mozilla::dom; nsresult NS_NewDomSelection(nsISelection **aDomSelection); enum nsRangeIterationDirection { kDirectionOut = -1, kDirectionIn = 1 }; class nsDocumentEncoder : public nsIDocumentEncoder { public: nsDocumentEncoder(); NS_DECL_CYCLE_COLLECTING_ISUPPORTS NS_DECL_CYCLE_COLLECTION_CLASS(nsDocumentEncoder) NS_DECL_NSIDOCUMENTENCODER protected: virtual ~nsDocumentEncoder(); void Initialize(bool aClearCachedSerializer = true); nsresult SerializeNodeStart(nsINode* aNode, int32_t aStartOffset, int32_t aEndOffset, nsAString& aStr, nsINode* aOriginalNode = nullptr); nsresult SerializeToStringRecursive(nsINode* aNode, nsAString& aStr, bool aDontSerializeRoot, uint32_t aMaxLength = 0); nsresult SerializeNodeEnd(nsINode* aNode, nsAString& aStr); // This serializes the content of aNode. nsresult SerializeToStringIterative(nsINode* aNode, nsAString& aStr); nsresult SerializeRangeToString(nsRange *aRange, nsAString& aOutputString); nsresult SerializeRangeNodes(nsRange* aRange, nsINode* aNode, nsAString& aString, int32_t aDepth); nsresult SerializeRangeContextStart(const nsTArray& aAncestorArray, nsAString& aString); nsresult SerializeRangeContextEnd(const nsTArray& aAncestorArray, nsAString& aString); virtual int32_t GetImmediateContextCount(const nsTArray& aAncestorArray) { return -1; } nsresult FlushText(nsAString& aString, bool aForce); bool IsVisibleNode(nsINode* aNode) { NS_PRECONDITION(aNode, ""); if (mFlags & SkipInvisibleContent) { // Treat the visibility of the ShadowRoot as if it were // the host content. nsCOMPtr content; ShadowRoot* shadowRoot = ShadowRoot::FromNode(aNode); if (shadowRoot) { content = shadowRoot->GetHost(); } else { content = do_QueryInterface(aNode); } if (content) { nsIFrame* frame = content->GetPrimaryFrame(); if (!frame) { if (aNode->IsNodeOfType(nsINode::eTEXT)) { // We have already checked that our parent is visible. return true; } if (aNode->IsHTMLElement(nsGkAtoms::rp)) { // Ruby parentheses are part of ruby structure, hence // shouldn't be stripped out even if it is not displayed. return true; } return false; } bool isVisible = frame->StyleVisibility()->IsVisible(); if (!isVisible && aNode->IsNodeOfType(nsINode::eTEXT)) return false; } } return true; } virtual bool IncludeInContext(nsINode *aNode); nsCOMPtr mDocument; nsCOMPtr mSelection; nsRefPtr mRange; nsCOMPtr mNode; nsCOMPtr mStream; nsCOMPtr mSerializer; nsCOMPtr mUnicodeEncoder; nsCOMPtr mCommonParent; nsCOMPtr mNodeFixup; nsString mMimeType; nsCString mCharset; uint32_t mFlags; uint32_t mWrapColumn; uint32_t mStartDepth; uint32_t mEndDepth; int32_t mStartRootIndex; int32_t mEndRootIndex; nsAutoTArray mCommonAncestors; nsAutoTArray mStartNodes; nsAutoTArray mStartOffsets; nsAutoTArray mEndNodes; nsAutoTArray mEndOffsets; bool mHaltRangeHint; // Used when context has already been serialized for // table cell selections (where parent is ) bool mDisableContextSerialize; bool mIsCopying; // Set to true only while copying bool mNodeIsContainer; nsStringBuffer* mCachedBuffer; }; NS_IMPL_CYCLE_COLLECTING_ADDREF(nsDocumentEncoder) NS_IMPL_CYCLE_COLLECTING_RELEASE(nsDocumentEncoder) NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(nsDocumentEncoder) NS_INTERFACE_MAP_ENTRY(nsIDocumentEncoder) NS_INTERFACE_MAP_ENTRY(nsISupports) NS_INTERFACE_MAP_END NS_IMPL_CYCLE_COLLECTION(nsDocumentEncoder, mDocument, mSelection, mRange, mNode, mCommonParent) nsDocumentEncoder::nsDocumentEncoder() : mCachedBuffer(nullptr) { Initialize(); mMimeType.AssignLiteral("text/plain"); } void nsDocumentEncoder::Initialize(bool aClearCachedSerializer) { mFlags = 0; mWrapColumn = 72; mStartDepth = 0; mEndDepth = 0; mStartRootIndex = 0; mEndRootIndex = 0; mHaltRangeHint = false; mDisableContextSerialize = false; mNodeIsContainer = false; if (aClearCachedSerializer) { mSerializer = nullptr; } } nsDocumentEncoder::~nsDocumentEncoder() { if (mCachedBuffer) { mCachedBuffer->Release(); } } NS_IMETHODIMP nsDocumentEncoder::Init(nsIDOMDocument* aDocument, const nsAString& aMimeType, uint32_t aFlags) { if (!aDocument) return NS_ERROR_INVALID_ARG; nsCOMPtr doc = do_QueryInterface(aDocument); NS_ENSURE_TRUE(doc, NS_ERROR_FAILURE); return NativeInit(doc, aMimeType, aFlags); } NS_IMETHODIMP nsDocumentEncoder::NativeInit(nsIDocument* aDocument, const nsAString& aMimeType, uint32_t aFlags) { if (!aDocument) return NS_ERROR_INVALID_ARG; Initialize(!mMimeType.Equals(aMimeType)); mDocument = aDocument; mMimeType = aMimeType; mFlags = aFlags; mIsCopying = false; return NS_OK; } NS_IMETHODIMP nsDocumentEncoder::SetWrapColumn(uint32_t aWC) { mWrapColumn = aWC; return NS_OK; } NS_IMETHODIMP nsDocumentEncoder::SetSelection(nsISelection* aSelection) { mSelection = aSelection; return NS_OK; } NS_IMETHODIMP nsDocumentEncoder::SetRange(nsIDOMRange* aRange) { mRange = static_cast(aRange); return NS_OK; } NS_IMETHODIMP nsDocumentEncoder::SetNode(nsIDOMNode* aNode) { mNodeIsContainer = false; mNode = do_QueryInterface(aNode); return NS_OK; } NS_IMETHODIMP nsDocumentEncoder::SetNativeNode(nsINode* aNode) { mNodeIsContainer = false; mNode = aNode; return NS_OK; } NS_IMETHODIMP nsDocumentEncoder::SetContainerNode(nsIDOMNode *aContainer) { mNodeIsContainer = true; mNode = do_QueryInterface(aContainer); return NS_OK; } NS_IMETHODIMP nsDocumentEncoder::SetNativeContainerNode(nsINode* aContainer) { mNodeIsContainer = true; mNode = aContainer; return NS_OK; } NS_IMETHODIMP nsDocumentEncoder::SetCharset(const nsACString& aCharset) { mCharset = aCharset; return NS_OK; } NS_IMETHODIMP nsDocumentEncoder::GetMimeType(nsAString& aMimeType) { aMimeType = mMimeType; return NS_OK; } bool nsDocumentEncoder::IncludeInContext(nsINode *aNode) { return false; } static bool IsInvisibleBreak(nsINode *aNode) { if (!aNode->IsElement() || !aNode->IsEditable()) { return false; } nsIFrame* frame = aNode->AsElement()->GetPrimaryFrame(); if (!frame || frame->GetType() != nsGkAtoms::brFrame) { return false; } // If the BRFrame has caused a visible line break, it should have a next // sibling, or otherwise no siblings (or immediately after a br) and a // non-zero height. bool visible = frame->GetNextSibling() || ((!frame->GetPrevSibling() || frame->GetPrevSibling()->GetType() == nsGkAtoms::brFrame) && frame->GetRect().Height() != 0); return !visible; } nsresult nsDocumentEncoder::SerializeNodeStart(nsINode* aNode, int32_t aStartOffset, int32_t aEndOffset, nsAString& aStr, nsINode* aOriginalNode) { if (!IsVisibleNode(aNode)) return NS_OK; nsINode* node = nullptr; nsCOMPtr fixedNodeKungfuDeathGrip; // Caller didn't do fixup, so we'll do it ourselves if (!aOriginalNode) { aOriginalNode = aNode; if (mNodeFixup) { bool dummy; nsCOMPtr domNodeIn = do_QueryInterface(aNode); nsCOMPtr domNodeOut; mNodeFixup->FixupNode(domNodeIn, &dummy, getter_AddRefs(domNodeOut)); fixedNodeKungfuDeathGrip = do_QueryInterface(domNodeOut); node = fixedNodeKungfuDeathGrip; } } // Either there was no fixed-up node, // or the caller did fixup themselves and aNode is already fixed if (!node) node = aNode; if (node->IsElement()) { if ((mFlags & (nsIDocumentEncoder::OutputPreformatted | nsIDocumentEncoder::OutputDropInvisibleBreak)) && IsInvisibleBreak(node)) { return NS_OK; } Element* originalElement = aOriginalNode && aOriginalNode->IsElement() ? aOriginalNode->AsElement() : nullptr; mSerializer->AppendElementStart(node->AsElement(), originalElement, aStr); return NS_OK; } switch (node->NodeType()) { case nsIDOMNode::TEXT_NODE: { mSerializer->AppendText(static_cast(node), aStartOffset, aEndOffset, aStr); break; } case nsIDOMNode::CDATA_SECTION_NODE: { mSerializer->AppendCDATASection(static_cast(node), aStartOffset, aEndOffset, aStr); break; } case nsIDOMNode::PROCESSING_INSTRUCTION_NODE: { mSerializer->AppendProcessingInstruction(static_cast(node), aStartOffset, aEndOffset, aStr); break; } case nsIDOMNode::COMMENT_NODE: { mSerializer->AppendComment(static_cast(node), aStartOffset, aEndOffset, aStr); break; } case nsIDOMNode::DOCUMENT_TYPE_NODE: { mSerializer->AppendDoctype(static_cast(node), aStr); break; } } return NS_OK; } nsresult nsDocumentEncoder::SerializeNodeEnd(nsINode* aNode, nsAString& aStr) { if (!IsVisibleNode(aNode)) return NS_OK; if (aNode->IsElement()) { mSerializer->AppendElementEnd(aNode->AsElement(), aStr); } return NS_OK; } nsresult nsDocumentEncoder::SerializeToStringRecursive(nsINode* aNode, nsAString& aStr, bool aDontSerializeRoot, uint32_t aMaxLength) { if (aMaxLength > 0 && aStr.Length() >= aMaxLength) { return NS_OK; } if (!IsVisibleNode(aNode)) return NS_OK; nsresult rv = NS_OK; bool serializeClonedChildren = false; nsINode* maybeFixedNode = nullptr; // Keep the node from FixupNode alive. nsCOMPtr fixedNodeKungfuDeathGrip; if (mNodeFixup) { nsCOMPtr domNodeIn = do_QueryInterface(aNode); nsCOMPtr domNodeOut; mNodeFixup->FixupNode(domNodeIn, &serializeClonedChildren, getter_AddRefs(domNodeOut)); fixedNodeKungfuDeathGrip = do_QueryInterface(domNodeOut); maybeFixedNode = fixedNodeKungfuDeathGrip; } if (!maybeFixedNode) maybeFixedNode = aNode; if ((mFlags & SkipInvisibleContent) && !(mFlags & OutputNonTextContentAsPlaceholder)) { if (aNode->IsNodeOfType(nsINode::eCONTENT)) { nsIFrame* frame = static_cast(aNode)->GetPrimaryFrame(); if (frame) { bool isSelectable; frame->IsSelectable(&isSelectable, nullptr); if (!isSelectable){ aDontSerializeRoot = true; } } } } if (!aDontSerializeRoot) { int32_t endOffset = -1; if (aMaxLength > 0) { MOZ_ASSERT(aMaxLength >= aStr.Length()); endOffset = aMaxLength - aStr.Length(); } rv = SerializeNodeStart(maybeFixedNode, 0, endOffset, aStr, aNode); NS_ENSURE_SUCCESS(rv, rv); } nsINode* node = serializeClonedChildren ? maybeFixedNode : aNode; for (nsINode* child = nsNodeUtils::GetFirstChildOfTemplateOrNode(node); child; child = child->GetNextSibling()) { rv = SerializeToStringRecursive(child, aStr, false, aMaxLength); NS_ENSURE_SUCCESS(rv, rv); } if (!aDontSerializeRoot) { rv = SerializeNodeEnd(node, aStr); NS_ENSURE_SUCCESS(rv, rv); } return FlushText(aStr, false); } nsresult nsDocumentEncoder::SerializeToStringIterative(nsINode* aNode, nsAString& aStr) { nsresult rv; nsINode* node = nsNodeUtils::GetFirstChildOfTemplateOrNode(aNode); while (node) { nsINode* current = node; rv = SerializeNodeStart(current, 0, -1, aStr, current); NS_ENSURE_SUCCESS(rv, rv); node = nsNodeUtils::GetFirstChildOfTemplateOrNode(current); while (!node && current && current != aNode) { rv = SerializeNodeEnd(current, aStr); NS_ENSURE_SUCCESS(rv, rv); // Check if we have siblings. node = current->GetNextSibling(); if (!node) { // Perhaps parent node has siblings. current = current->GetParentNode(); // Handle template element. If the parent is a template's content, // then adjust the parent to be the template element. if (current && current != aNode && current->NodeType() == nsIDOMNode::DOCUMENT_FRAGMENT_NODE) { DocumentFragment* frag = static_cast(current); nsIContent* host = frag->GetHost(); if (host && host->IsHTMLElement(nsGkAtoms::_template)) { current = host; } } } } } return NS_OK; } static nsresult ConvertAndWrite(const nsAString& aString, nsIOutputStream* aStream, nsIUnicodeEncoder* aEncoder) { NS_ENSURE_ARG_POINTER(aStream); NS_ENSURE_ARG_POINTER(aEncoder); nsresult rv; int32_t charLength, startCharLength; const nsPromiseFlatString& flat = PromiseFlatString(aString); const char16_t* unicodeBuf = flat.get(); int32_t unicodeLength = aString.Length(); int32_t startLength = unicodeLength; rv = aEncoder->GetMaxLength(unicodeBuf, unicodeLength, &charLength); startCharLength = charLength; NS_ENSURE_SUCCESS(rv, rv); if (!charLength) { // Nothing to write. Besides, a length 0 string has an immutable buffer, so // attempts to null-terminate it will crash. return NS_OK; } nsAutoCString charXferString; if (!charXferString.SetLength(charLength, fallible)) return NS_ERROR_OUT_OF_MEMORY; char* charXferBuf = charXferString.BeginWriting(); nsresult convert_rv = NS_OK; do { unicodeLength = startLength; charLength = startCharLength; convert_rv = aEncoder->Convert(unicodeBuf, &unicodeLength, charXferBuf, &charLength); NS_ENSURE_SUCCESS(convert_rv, convert_rv); // Make sure charXferBuf is null-terminated before we call // Write(). charXferBuf[charLength] = '\0'; uint32_t written; rv = aStream->Write(charXferBuf, charLength, &written); NS_ENSURE_SUCCESS(rv, rv); // If the converter couldn't convert a chraacer we replace the // character with a characre entity. if (convert_rv == NS_ERROR_UENC_NOMAPPING) { // Finishes the conversion. // The converter has the possibility to write some extra data and flush its final state. char finish_buf[33]; charLength = sizeof(finish_buf) - 1; rv = aEncoder->Finish(finish_buf, &charLength); NS_ENSURE_SUCCESS(rv, rv); // Make sure finish_buf is null-terminated before we call // Write(). finish_buf[charLength] = '\0'; rv = aStream->Write(finish_buf, charLength, &written); NS_ENSURE_SUCCESS(rv, rv); nsAutoCString entString("&#"); if (NS_IS_HIGH_SURROGATE(unicodeBuf[unicodeLength - 1]) && unicodeLength < startLength && NS_IS_LOW_SURROGATE(unicodeBuf[unicodeLength])) { entString.AppendInt(SURROGATE_TO_UCS4(unicodeBuf[unicodeLength - 1], unicodeBuf[unicodeLength])); unicodeLength += 1; } else entString.AppendInt(unicodeBuf[unicodeLength - 1]); entString.Append(';'); // Since entString is an nsAutoCString we know entString.get() // returns a null-terminated string, so no need for extra // null-termination before calling Write() here. rv = aStream->Write(entString.get(), entString.Length(), &written); NS_ENSURE_SUCCESS(rv, rv); unicodeBuf += unicodeLength; startLength -= unicodeLength; } } while (convert_rv == NS_ERROR_UENC_NOMAPPING); return rv; } nsresult nsDocumentEncoder::FlushText(nsAString& aString, bool aForce) { if (!mStream) return NS_OK; nsresult rv = NS_OK; if (aString.Length() > 1024 || aForce) { rv = ConvertAndWrite(aString, mStream, mUnicodeEncoder); aString.Truncate(); } return rv; } #if 0 // This code is really fast at serializing a range, but unfortunately // there are problems with it so we don't use it now, maybe later... static nsresult ChildAt(nsIDOMNode* aNode, int32_t aIndex, nsIDOMNode*& aChild) { nsCOMPtr content(do_QueryInterface(aNode)); aChild = nullptr; NS_ENSURE_TRUE(content, NS_ERROR_FAILURE); nsIContent *child = content->GetChildAt(aIndex); if (child) return CallQueryInterface(child, &aChild); return NS_OK; } static int32_t IndexOf(nsIDOMNode* aParent, nsIDOMNode* aChild) { nsCOMPtr parent(do_QueryInterface(aParent)); nsCOMPtr child(do_QueryInterface(aChild)); if (!parent) return -1; return parent->IndexOf(child); } static inline int32_t GetIndex(nsTArray& aIndexArray) { int32_t count = aIndexArray.Length(); if (count) { return aIndexArray.ElementAt(count - 1); } return 0; } static nsresult GetNextNode(nsIDOMNode* aNode, nsTArray& aIndexArray, nsIDOMNode*& aNextNode, nsRangeIterationDirection& aDirection) { bool hasChildren; aNextNode = nullptr; aNode->HasChildNodes(&hasChildren); if (hasChildren && aDirection == kDirectionIn) { ChildAt(aNode, 0, aNextNode); NS_ENSURE_TRUE(aNextNode, NS_ERROR_FAILURE); aIndexArray.AppendElement(0); aDirection = kDirectionIn; } else if (aDirection == kDirectionIn) { aNextNode = aNode; NS_ADDREF(aNextNode); aDirection = kDirectionOut; } else { nsCOMPtr parent; aNode->GetParentNode(getter_AddRefs(parent)); NS_ENSURE_TRUE(parent, NS_ERROR_FAILURE); int32_t count = aIndexArray.Length(); if (count) { int32_t indx = aIndexArray.ElementAt(count - 1); ChildAt(parent, indx + 1, aNextNode); if (aNextNode) aIndexArray.ElementAt(count - 1) = indx + 1; else aIndexArray.RemoveElementAt(count - 1); } else { int32_t indx = IndexOf(parent, aNode); if (indx >= 0) { ChildAt(parent, indx + 1, aNextNode); if (aNextNode) aIndexArray.AppendElement(indx + 1); } } if (aNextNode) { aDirection = kDirectionIn; } else { aDirection = kDirectionOut; aNextNode = parent; NS_ADDREF(aNextNode); } } return NS_OK; } #endif static bool IsTextNode(nsINode *aNode) { return aNode && aNode->IsNodeOfType(nsINode::eTEXT); } nsresult nsDocumentEncoder::SerializeRangeNodes(nsRange* aRange, nsINode* aNode, nsAString& aString, int32_t aDepth) { nsCOMPtr content = do_QueryInterface(aNode); NS_ENSURE_TRUE(content, NS_ERROR_FAILURE); if (!IsVisibleNode(aNode)) return NS_OK; nsresult rv = NS_OK; // get start and end nodes for this recursion level nsCOMPtr startNode, endNode; { int32_t start = mStartRootIndex - aDepth; if (start >= 0 && (uint32_t)start <= mStartNodes.Length()) startNode = mStartNodes[start]; int32_t end = mEndRootIndex - aDepth; if (end >= 0 && (uint32_t)end <= mEndNodes.Length()) endNode = mEndNodes[end]; } if (startNode != content && endNode != content) { // node is completely contained in range. Serialize the whole subtree // rooted by this node. rv = SerializeToStringRecursive(aNode, aString, false); NS_ENSURE_SUCCESS(rv, rv); } else { // due to implementation it is impossible for text node to be both start and end of // range. We would have handled that case without getting here. //XXXsmaug What does this all mean? if (IsTextNode(aNode)) { if (startNode == content) { int32_t startOffset = aRange->StartOffset(); rv = SerializeNodeStart(aNode, startOffset, -1, aString); NS_ENSURE_SUCCESS(rv, rv); } else { int32_t endOffset = aRange->EndOffset(); rv = SerializeNodeStart(aNode, 0, endOffset, aString); NS_ENSURE_SUCCESS(rv, rv); } } else { if (aNode != mCommonParent) { if (IncludeInContext(aNode)) { // halt the incrementing of mStartDepth/mEndDepth. This is // so paste client will include this node in paste. mHaltRangeHint = true; } if ((startNode == content) && !mHaltRangeHint) mStartDepth++; if ((endNode == content) && !mHaltRangeHint) mEndDepth++; // serialize the start of this node rv = SerializeNodeStart(aNode, 0, -1, aString); NS_ENSURE_SUCCESS(rv, rv); } // do some calculations that will tell us which children of this // node are in the range. nsIContent* childAsNode = nullptr; int32_t startOffset = 0, endOffset = -1; if (startNode == content && mStartRootIndex >= aDepth) startOffset = mStartOffsets[mStartRootIndex - aDepth]; if (endNode == content && mEndRootIndex >= aDepth) endOffset = mEndOffsets[mEndRootIndex - aDepth]; // generated content will cause offset values of -1 to be returned. int32_t j; uint32_t childCount = content->GetChildCount(); if (startOffset == -1) startOffset = 0; if (endOffset == -1) endOffset = childCount; else { // if we are at the "tip" of the selection, endOffset is fine. // otherwise, we need to add one. This is because of the semantics // of the offset list created by GetAncestorsAndOffsets(). The // intermediate points on the list use the endOffset of the // location of the ancestor, rather than just past it. So we need // to add one here in order to include it in the children we serialize. if (aNode != aRange->GetEndParent()) { endOffset++; } } // serialize the children of this node that are in the range for (j=startOffset; jGetChildAt(j); if ((j==startOffset) || (j==endOffset-1)) rv = SerializeRangeNodes(aRange, childAsNode, aString, aDepth+1); else rv = SerializeToStringRecursive(childAsNode, aString, false); NS_ENSURE_SUCCESS(rv, rv); } // serialize the end of this node if (aNode != mCommonParent) { rv = SerializeNodeEnd(aNode, aString); NS_ENSURE_SUCCESS(rv, rv); } } } return NS_OK; } nsresult nsDocumentEncoder::SerializeRangeContextStart(const nsTArray& aAncestorArray, nsAString& aString) { if (mDisableContextSerialize) { return NS_OK; } int32_t i = aAncestorArray.Length(), j; nsresult rv = NS_OK; // currently only for table-related elements; see Bug 137450 j = GetImmediateContextCount(aAncestorArray); while (i > 0) { nsINode *node = aAncestorArray.ElementAt(--i); if (!node) break; // Either a general inclusion or as immediate context if (IncludeInContext(node) || i < j) { rv = SerializeNodeStart(node, 0, -1, aString); if (NS_FAILED(rv)) break; } } return rv; } nsresult nsDocumentEncoder::SerializeRangeContextEnd(const nsTArray& aAncestorArray, nsAString& aString) { if (mDisableContextSerialize) { return NS_OK; } int32_t i = 0, j; int32_t count = aAncestorArray.Length(); nsresult rv = NS_OK; // currently only for table-related elements j = GetImmediateContextCount(aAncestorArray); while (i < count) { nsINode *node = aAncestorArray.ElementAt(i++); if (!node) break; // Either a general inclusion or as immediate context if (IncludeInContext(node) || i - 1 < j) { rv = SerializeNodeEnd(node, aString); if (NS_FAILED(rv)) break; } } return rv; } nsresult nsDocumentEncoder::SerializeRangeToString(nsRange *aRange, nsAString& aOutputString) { if (!aRange || aRange->Collapsed()) return NS_OK; mCommonParent = aRange->GetCommonAncestor(); if (!mCommonParent) return NS_OK; nsINode* startParent = aRange->GetStartParent(); NS_ENSURE_TRUE(startParent, NS_ERROR_FAILURE); int32_t startOffset = aRange->StartOffset(); nsINode* endParent = aRange->GetEndParent(); NS_ENSURE_TRUE(endParent, NS_ERROR_FAILURE); int32_t endOffset = aRange->EndOffset(); mStartDepth = mEndDepth = 0; mCommonAncestors.Clear(); mStartNodes.Clear(); mStartOffsets.Clear(); mEndNodes.Clear(); mEndOffsets.Clear(); nsContentUtils::GetAncestors(mCommonParent, mCommonAncestors); nsCOMPtr sp = do_QueryInterface(startParent); nsContentUtils::GetAncestorsAndOffsets(sp, startOffset, &mStartNodes, &mStartOffsets); nsCOMPtr ep = do_QueryInterface(endParent); nsContentUtils::GetAncestorsAndOffsets(ep, endOffset, &mEndNodes, &mEndOffsets); nsCOMPtr commonContent = do_QueryInterface(mCommonParent); mStartRootIndex = mStartNodes.IndexOf(commonContent); mEndRootIndex = mEndNodes.IndexOf(commonContent); nsresult rv = NS_OK; rv = SerializeRangeContextStart(mCommonAncestors, aOutputString); NS_ENSURE_SUCCESS(rv, rv); if ((startParent == endParent) && IsTextNode(startParent)) { if (mFlags & SkipInvisibleContent) { // Check that the parent is visible if we don't a frame. // IsVisibleNode() will do it when there's a frame. nsCOMPtr content = do_QueryInterface(startParent); if (content && !content->GetPrimaryFrame()) { nsIContent* parent = content->GetParent(); if (!parent || !IsVisibleNode(parent)) return NS_OK; } } rv = SerializeNodeStart(startParent, startOffset, endOffset, aOutputString); NS_ENSURE_SUCCESS(rv, rv); } else { rv = SerializeRangeNodes(aRange, mCommonParent, aOutputString, 0); NS_ENSURE_SUCCESS(rv, rv); } rv = SerializeRangeContextEnd(mCommonAncestors, aOutputString); NS_ENSURE_SUCCESS(rv, rv); return rv; } NS_IMETHODIMP nsDocumentEncoder::EncodeToString(nsAString& aOutputString) { return EncodeToStringWithMaxLength(0, aOutputString); } NS_IMETHODIMP nsDocumentEncoder::EncodeToStringWithMaxLength(uint32_t aMaxLength, nsAString& aOutputString) { if (!mDocument) return NS_ERROR_NOT_INITIALIZED; aOutputString.Truncate(); nsString output; static const size_t bufferSize = 2048; if (!mCachedBuffer) { mCachedBuffer = nsStringBuffer::Alloc(bufferSize).take(); } NS_ASSERTION(!mCachedBuffer->IsReadonly(), "DocumentEncoder shouldn't keep reference to non-readonly buffer!"); static_cast(mCachedBuffer->Data())[0] = char16_t(0); mCachedBuffer->ToString(0, output, true); // output owns the buffer now! mCachedBuffer = nullptr; if (!mSerializer) { nsAutoCString progId(NS_CONTENTSERIALIZER_CONTRACTID_PREFIX); AppendUTF16toUTF8(mMimeType, progId); mSerializer = do_CreateInstance(progId.get()); NS_ENSURE_TRUE(mSerializer, NS_ERROR_NOT_IMPLEMENTED); } nsresult rv = NS_OK; nsCOMPtr charsetAtom; bool rewriteEncodingDeclaration = !(mSelection || mRange || mNode) && !(mFlags & OutputDontRewriteEncodingDeclaration); mSerializer->Init(mFlags, mWrapColumn, mCharset.get(), mIsCopying, rewriteEncodingDeclaration); if (mSelection) { nsCOMPtr range; int32_t i, count = 0; rv = mSelection->GetRangeCount(&count); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr node, prevNode; uint32_t firstRangeStartDepth = 0; for (i = 0; i < count; i++) { mSelection->GetRangeAt(i, getter_AddRefs(range)); // Bug 236546: newlines not added when copying table cells into clipboard // Each selected cell shows up as a range containing a row with a single cell // get the row, compare it to previous row and emit as needed // Bug 137450: Problem copying/pasting a table from a web page to Excel. // Each separate block of produced above will be wrapped by the // immediate context. This assumes that you can't select cells that are // multiple selections from two tables simultaneously. range->GetStartContainer(getter_AddRefs(node)); NS_ENSURE_TRUE(node, NS_ERROR_FAILURE); if (node != prevNode) { nsCOMPtr p; if (prevNode) { p = do_QueryInterface(prevNode); rv = SerializeNodeEnd(p, output); NS_ENSURE_SUCCESS(rv, rv); } nsCOMPtr content = do_QueryInterface(node); if (content && content->IsHTMLElement(nsGkAtoms::tr)) { nsINode* n = content; if (!prevNode) { // Went from a non- to a mCommonAncestors.Clear(); nsContentUtils::GetAncestors(n->GetParentNode(), mCommonAncestors); rv = SerializeRangeContextStart(mCommonAncestors, output); NS_ENSURE_SUCCESS(rv, rv); // Don't let SerializeRangeToString serialize the context again mDisableContextSerialize = true; } rv = SerializeNodeStart(n, 0, -1, output); NS_ENSURE_SUCCESS(rv, rv); prevNode = node; } else if (prevNode) { // Went from a to a non- mCommonAncestors.Clear(); nsContentUtils::GetAncestors(p->GetParentNode(), mCommonAncestors); mDisableContextSerialize = false; rv = SerializeRangeContextEnd(mCommonAncestors, output); NS_ENSURE_SUCCESS(rv, rv); prevNode = nullptr; } } nsRange* r = static_cast(range.get()); rv = SerializeRangeToString(r, output); NS_ENSURE_SUCCESS(rv, rv); if (i == 0) { firstRangeStartDepth = mStartDepth; } } mStartDepth = firstRangeStartDepth; if (prevNode) { nsCOMPtr p = do_QueryInterface(prevNode); rv = SerializeNodeEnd(p, output); NS_ENSURE_SUCCESS(rv, rv); mCommonAncestors.Clear(); nsContentUtils::GetAncestors(p->GetParentNode(), mCommonAncestors); mDisableContextSerialize = false; rv = SerializeRangeContextEnd(mCommonAncestors, output); NS_ENSURE_SUCCESS(rv, rv); } // Just to be safe mDisableContextSerialize = false; mSelection = nullptr; } else if (mRange) { rv = SerializeRangeToString(mRange, output); mRange = nullptr; } else if (mNode) { if (!mNodeFixup && !(mFlags & SkipInvisibleContent) && !mStream && mNodeIsContainer) { rv = SerializeToStringIterative(mNode, output); } else { rv = SerializeToStringRecursive(mNode, output, mNodeIsContainer); } mNode = nullptr; } else { rv = mSerializer->AppendDocumentStart(mDocument, output); if (NS_SUCCEEDED(rv)) { rv = SerializeToStringRecursive(mDocument, output, false, aMaxLength); } } NS_ENSURE_SUCCESS(rv, rv); rv = mSerializer->Flush(output); mCachedBuffer = nsStringBuffer::FromString(output); // We have to be careful how we set aOutputString, because we don't // want it to end up sharing mCachedBuffer if we plan to reuse it. bool setOutput = false; // Try to cache the buffer. if (mCachedBuffer) { if (mCachedBuffer->StorageSize() == bufferSize && !mCachedBuffer->IsReadonly()) { mCachedBuffer->AddRef(); } else { if (NS_SUCCEEDED(rv)) { mCachedBuffer->ToString(output.Length(), aOutputString); setOutput = true; } mCachedBuffer = nullptr; } } if (!setOutput && NS_SUCCEEDED(rv)) { aOutputString.Append(output.get(), output.Length()); } return rv; } NS_IMETHODIMP nsDocumentEncoder::EncodeToStream(nsIOutputStream* aStream) { nsresult rv = NS_OK; if (!mDocument) return NS_ERROR_NOT_INITIALIZED; nsAutoCString encoding; if (!EncodingUtils::FindEncodingForLabelNoReplacement(mCharset, encoding)) { return NS_ERROR_UCONV_NOCONV; } mUnicodeEncoder = EncodingUtils::EncoderForEncoding(encoding); if (mMimeType.LowerCaseEqualsLiteral("text/plain")) { rv = mUnicodeEncoder->SetOutputErrorBehavior(nsIUnicodeEncoder::kOnError_Replace, nullptr, '?'); NS_ENSURE_SUCCESS(rv, rv); } mStream = aStream; nsAutoString buf; rv = EncodeToString(buf); // Force a flush of the last chunk of data. FlushText(buf, true); mStream = nullptr; mUnicodeEncoder = nullptr; return rv; } NS_IMETHODIMP nsDocumentEncoder::EncodeToStringWithContext(nsAString& aContextString, nsAString& aInfoString, nsAString& aEncodedString) { return NS_ERROR_NOT_IMPLEMENTED; } NS_IMETHODIMP nsDocumentEncoder::SetNodeFixup(nsIDocumentEncoderNodeFixup *aFixup) { mNodeFixup = aFixup; return NS_OK; } nsresult NS_NewTextEncoder(nsIDocumentEncoder** aResult); // make mac compiler happy nsresult NS_NewTextEncoder(nsIDocumentEncoder** aResult) { *aResult = new nsDocumentEncoder; if (!*aResult) return NS_ERROR_OUT_OF_MEMORY; NS_ADDREF(*aResult); return NS_OK; } class nsHTMLCopyEncoder : public nsDocumentEncoder { public: nsHTMLCopyEncoder(); virtual ~nsHTMLCopyEncoder(); NS_IMETHOD Init(nsIDOMDocument* aDocument, const nsAString& aMimeType, uint32_t aFlags); // overridden methods from nsDocumentEncoder NS_IMETHOD SetSelection(nsISelection* aSelection); NS_IMETHOD EncodeToStringWithContext(nsAString& aContextString, nsAString& aInfoString, nsAString& aEncodedString); NS_IMETHOD EncodeToString(nsAString& aOutputString); protected: enum Endpoint { kStart, kEnd }; nsresult PromoteRange(nsIDOMRange *inRange); nsresult PromoteAncestorChain(nsCOMPtr *ioNode, int32_t *ioStartOffset, int32_t *ioEndOffset); nsresult GetPromotedPoint(Endpoint aWhere, nsIDOMNode *aNode, int32_t aOffset, nsCOMPtr *outNode, int32_t *outOffset, nsIDOMNode *aCommon); nsCOMPtr GetChildAt(nsIDOMNode *aParent, int32_t aOffset); bool IsMozBR(nsIDOMNode* aNode); nsresult GetNodeLocation(nsIDOMNode *inChild, nsCOMPtr *outParent, int32_t *outOffset); bool IsRoot(nsIDOMNode* aNode); bool IsFirstNode(nsIDOMNode *aNode); bool IsLastNode(nsIDOMNode *aNode); bool IsEmptyTextContent(nsIDOMNode* aNode); virtual bool IncludeInContext(nsINode *aNode); virtual int32_t GetImmediateContextCount(const nsTArray& aAncestorArray); bool mIsTextWidget; }; nsHTMLCopyEncoder::nsHTMLCopyEncoder() { mIsTextWidget = false; } nsHTMLCopyEncoder::~nsHTMLCopyEncoder() { } NS_IMETHODIMP nsHTMLCopyEncoder::Init(nsIDOMDocument* aDocument, const nsAString& aMimeType, uint32_t aFlags) { if (!aDocument) return NS_ERROR_INVALID_ARG; mIsTextWidget = false; Initialize(); mIsCopying = true; mDocument = do_QueryInterface(aDocument); NS_ENSURE_TRUE(mDocument, NS_ERROR_FAILURE); // Hack, hack! Traditionally, the caller passes text/unicode, which is // treated as "guess text/html or text/plain" in this context. (It has a // different meaning in other contexts. Sigh.) From now on, "text/plain" // means forcing text/plain instead of guessing. if (aMimeType.EqualsLiteral("text/plain")) { mMimeType.AssignLiteral("text/plain"); } else { mMimeType.AssignLiteral("text/html"); } // Make all links absolute when copying // (see related bugs #57296, #41924, #58646, #32768) mFlags = aFlags | OutputAbsoluteLinks; if (!mDocument->IsScriptEnabled()) mFlags |= OutputNoScriptContent; return NS_OK; } NS_IMETHODIMP nsHTMLCopyEncoder::SetSelection(nsISelection* aSelection) { // check for text widgets: we need to recognize these so that // we don't tweak the selection to be outside of the magic // div that ender-lite text widgets are embedded in. if (!aSelection) return NS_ERROR_NULL_POINTER; nsCOMPtr range; nsCOMPtr commonParent; Selection* selection = static_cast(aSelection); uint32_t rangeCount = selection->RangeCount(); // if selection is uninitialized return if (!rangeCount) return NS_ERROR_FAILURE; // we'll just use the common parent of the first range. Implicit assumption // here that multi-range selections are table cell selections, in which case // the common parent is somewhere in the table and we don't really care where. nsresult rv = aSelection->GetRangeAt(0, getter_AddRefs(range)); NS_ENSURE_SUCCESS(rv, rv); if (!range) return NS_ERROR_NULL_POINTER; range->GetCommonAncestorContainer(getter_AddRefs(commonParent)); // Thunderbird's msg compose code abuses the HTML copy encoder and gets // confused if mIsTextWidget ends up becoming true, so for now we skip // this logic in Thunderbird. #ifndef MOZ_THUNDERBIRD for (nsCOMPtr selContent(do_QueryInterface(commonParent)); selContent; selContent = selContent->GetParent()) { // checking for selection inside a plaintext form widget if (selContent->IsAnyOfHTMLElements(nsGkAtoms::input, nsGkAtoms::textarea)) { mIsTextWidget = true; break; } } // normalize selection if we are not in a widget if (mIsTextWidget) { mSelection = aSelection; mMimeType.AssignLiteral("text/plain"); return NS_OK; } #endif // also consider ourselves in a text widget if we can't find an html document nsCOMPtr htmlDoc = do_QueryInterface(mDocument); if (!(htmlDoc && mDocument->IsHTMLDocument())) { mIsTextWidget = true; mSelection = aSelection; // mMimeType is set to text/plain when encoding starts. return NS_OK; } // there's no Clone() for selection! fix... //nsresult rv = aSelection->Clone(getter_AddRefs(mSelection); //NS_ENSURE_SUCCESS(rv, rv); NS_NewDomSelection(getter_AddRefs(mSelection)); NS_ENSURE_TRUE(mSelection, NS_ERROR_FAILURE); // loop thru the ranges in the selection for (uint32_t rangeIdx = 0; rangeIdx < rangeCount; ++rangeIdx) { range = selection->GetRangeAt(rangeIdx); NS_ENSURE_TRUE(range, NS_ERROR_FAILURE); nsCOMPtr myRange; range->CloneRange(getter_AddRefs(myRange)); NS_ENSURE_TRUE(myRange, NS_ERROR_FAILURE); // adjust range to include any ancestors who's children are entirely selected rv = PromoteRange(myRange); NS_ENSURE_SUCCESS(rv, rv); rv = mSelection->AddRange(myRange); NS_ENSURE_SUCCESS(rv, rv); } return NS_OK; } NS_IMETHODIMP nsHTMLCopyEncoder::EncodeToString(nsAString& aOutputString) { if (mIsTextWidget) { mMimeType.AssignLiteral("text/plain"); } return nsDocumentEncoder::EncodeToString(aOutputString); } NS_IMETHODIMP nsHTMLCopyEncoder::EncodeToStringWithContext(nsAString& aContextString, nsAString& aInfoString, nsAString& aEncodedString) { nsresult rv = EncodeToString(aEncodedString); NS_ENSURE_SUCCESS(rv, rv); // do not encode any context info or range hints if we are in a text widget. if (mIsTextWidget) return NS_OK; // now encode common ancestors into aContextString. Note that the common ancestors // will be for the last range in the selection in the case of multirange selections. // encoding ancestors every range in a multirange selection in a way that could be // understood by the paste code would be a lot more work to do. As a practical matter, // selections are single range, and the ones that aren't are table cell selections // where all the cells are in the same table. // leaf of ancestors might be text node. If so discard it. int32_t count = mCommonAncestors.Length(); int32_t i; nsCOMPtr node; if (count > 0) node = mCommonAncestors.ElementAt(0); if (node && IsTextNode(node)) { mCommonAncestors.RemoveElementAt(0); // don't forget to adjust range depth info if (mStartDepth) mStartDepth--; if (mEndDepth) mEndDepth--; // and the count count--; } i = count; while (i > 0) { node = mCommonAncestors.ElementAt(--i); SerializeNodeStart(node, 0, -1, aContextString); } //i = 0; guaranteed by above while (i < count) { node = mCommonAncestors.ElementAt(i++); SerializeNodeEnd(node, aContextString); } // encode range info : the start and end depth of the selection, where the depth is // distance down in the parent hierarchy. Later we will need to add leading/trailing // whitespace info to this. nsAutoString infoString; infoString.AppendInt(mStartDepth); infoString.Append(char16_t(',')); infoString.AppendInt(mEndDepth); aInfoString = infoString; return NS_OK; } bool nsHTMLCopyEncoder::IncludeInContext(nsINode *aNode) { nsCOMPtr content(do_QueryInterface(aNode)); if (!content) return false; return content->IsAnyOfHTMLElements(nsGkAtoms::b, nsGkAtoms::i, nsGkAtoms::u, nsGkAtoms::a, nsGkAtoms::tt, nsGkAtoms::s, nsGkAtoms::big, nsGkAtoms::small, nsGkAtoms::strike, nsGkAtoms::em, nsGkAtoms::strong, nsGkAtoms::dfn, nsGkAtoms::code, nsGkAtoms::cite, nsGkAtoms::var, nsGkAtoms::abbr, nsGkAtoms::font, nsGkAtoms::script, nsGkAtoms::span, nsGkAtoms::pre, nsGkAtoms::h1, nsGkAtoms::h2, nsGkAtoms::h3, nsGkAtoms::h4, nsGkAtoms::h5, nsGkAtoms::h6); } nsresult nsHTMLCopyEncoder::PromoteRange(nsIDOMRange *inRange) { if (!inRange) return NS_ERROR_NULL_POINTER; nsresult rv; nsCOMPtr startNode, endNode, common; int32_t startOffset, endOffset; rv = inRange->GetCommonAncestorContainer(getter_AddRefs(common)); NS_ENSURE_SUCCESS(rv, rv); rv = inRange->GetStartContainer(getter_AddRefs(startNode)); NS_ENSURE_SUCCESS(rv, rv); rv = inRange->GetStartOffset(&startOffset); NS_ENSURE_SUCCESS(rv, rv); rv = inRange->GetEndContainer(getter_AddRefs(endNode)); NS_ENSURE_SUCCESS(rv, rv); rv = inRange->GetEndOffset(&endOffset); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr opStartNode; nsCOMPtr opEndNode; int32_t opStartOffset, opEndOffset; nsCOMPtr opRange; // examine range endpoints. rv = GetPromotedPoint( kStart, startNode, startOffset, address_of(opStartNode), &opStartOffset, common); NS_ENSURE_SUCCESS(rv, rv); rv = GetPromotedPoint( kEnd, endNode, endOffset, address_of(opEndNode), &opEndOffset, common); NS_ENSURE_SUCCESS(rv, rv); // if both range endpoints are at the common ancestor, check for possible inclusion of ancestors if ( (opStartNode == common) && (opEndNode == common) ) { rv = PromoteAncestorChain(address_of(opStartNode), &opStartOffset, &opEndOffset); NS_ENSURE_SUCCESS(rv, rv); opEndNode = opStartNode; } // set the range to the new values rv = inRange->SetStart(opStartNode, opStartOffset); NS_ENSURE_SUCCESS(rv, rv); rv = inRange->SetEnd(opEndNode, opEndOffset); return rv; } // PromoteAncestorChain will promote a range represented by [{*ioNode,*ioStartOffset} , {*ioNode,*ioEndOffset}] // The promotion is different from that found in getPromotedPoint: it will only promote one endpoint if it can // promote the other. Thus, instead of having a startnode/endNode, there is just the one ioNode. nsresult nsHTMLCopyEncoder::PromoteAncestorChain(nsCOMPtr *ioNode, int32_t *ioStartOffset, int32_t *ioEndOffset) { if (!ioNode || !ioStartOffset || !ioEndOffset) return NS_ERROR_NULL_POINTER; nsresult rv = NS_OK; bool done = false; nsCOMPtr frontNode, endNode, parent; int32_t frontOffset, endOffset; //save the editable state of the ioNode, so we don't promote an ancestor if it has different editable state nsCOMPtr node = do_QueryInterface(*ioNode); bool isEditable = node->IsEditable(); // loop for as long as we can promote both endpoints while (!done) { rv = (*ioNode)->GetParentNode(getter_AddRefs(parent)); if ((NS_FAILED(rv)) || !parent) done = true; else { // passing parent as last param to GetPromotedPoint() allows it to promote only one level // up the hierarchy. rv = GetPromotedPoint( kStart, *ioNode, *ioStartOffset, address_of(frontNode), &frontOffset, parent); NS_ENSURE_SUCCESS(rv, rv); // then we make the same attempt with the endpoint rv = GetPromotedPoint( kEnd, *ioNode, *ioEndOffset, address_of(endNode), &endOffset, parent); NS_ENSURE_SUCCESS(rv, rv); nsCOMPtr frontINode = do_QueryInterface(frontNode); // if both endpoints were promoted one level and isEditable is the same as the original node, // keep looping - otherwise we are done. if ( (frontNode != parent) || (endNode != parent) || (frontINode->IsEditable() != isEditable) ) done = true; else { *ioNode = frontNode; *ioStartOffset = frontOffset; *ioEndOffset = endOffset; } } } return rv; } nsresult nsHTMLCopyEncoder::GetPromotedPoint(Endpoint aWhere, nsIDOMNode *aNode, int32_t aOffset, nsCOMPtr *outNode, int32_t *outOffset, nsIDOMNode *common) { nsresult rv = NS_OK; nsCOMPtr node = aNode; nsCOMPtr parent = aNode; int32_t offset = aOffset; bool bResetPromotion = false; // default values *outNode = node; *outOffset = offset; if (common == node) return NS_OK; if (aWhere == kStart) { // some special casing for text nodes nsCOMPtr t = do_QueryInterface(aNode); if (IsTextNode(t)) { // if not at beginning of text node, we are done if (offset > 0) { // unless everything before us in just whitespace. NOTE: we need a more // general solution that truly detects all cases of non-significant // whitesace with no false alarms. nsCOMPtr nodeAsText = do_QueryInterface(aNode); nsAutoString text; nodeAsText->SubstringData(0, offset, text); text.CompressWhitespace(); if (!text.IsEmpty()) return NS_OK; bResetPromotion = true; } // else rv = GetNodeLocation(aNode, address_of(parent), &offset); NS_ENSURE_SUCCESS(rv, rv); } else { node = GetChildAt(parent,offset); } if (!node) node = parent; // finding the real start for this point. look up the tree for as long as we are the // first node in the container, and as long as we haven't hit the body node. if (!IsRoot(node) && (parent != common)) { rv = GetNodeLocation(node, address_of(parent), &offset); NS_ENSURE_SUCCESS(rv, rv); if (offset == -1) return NS_OK; // we hit generated content; STOP nsIParserService *parserService = nsContentUtils::GetParserService(); if (!parserService) return NS_ERROR_OUT_OF_MEMORY; while ((IsFirstNode(node)) && (!IsRoot(parent)) && (parent != common)) { if (bResetPromotion) { nsCOMPtr content = do_QueryInterface(parent); if (content && content->IsHTMLElement()) { bool isBlock = false; parserService->IsBlock(parserService->HTMLAtomTagToId( content->NodeInfo()->NameAtom()), isBlock); if (isBlock) { bResetPromotion = false; } } } node = parent; rv = GetNodeLocation(node, address_of(parent), &offset); NS_ENSURE_SUCCESS(rv, rv); if (offset == -1) // we hit generated content; STOP { // back up a bit parent = node; offset = 0; break; } } if (bResetPromotion) { *outNode = aNode; *outOffset = aOffset; } else { *outNode = parent; *outOffset = offset; } return rv; } } if (aWhere == kEnd) { // some special casing for text nodes nsCOMPtr n = do_QueryInterface(aNode); if (IsTextNode(n)) { // if not at end of text node, we are done uint32_t len = n->Length(); if (offset < (int32_t)len) { // unless everything after us in just whitespace. NOTE: we need a more // general solution that truly detects all cases of non-significant // whitespace with no false alarms. nsCOMPtr nodeAsText = do_QueryInterface(aNode); nsAutoString text; nodeAsText->SubstringData(offset, len-offset, text); text.CompressWhitespace(); if (!text.IsEmpty()) return NS_OK; bResetPromotion = true; } rv = GetNodeLocation(aNode, address_of(parent), &offset); NS_ENSURE_SUCCESS(rv, rv); } else { if (offset) offset--; // we want node _before_ offset node = GetChildAt(parent,offset); } if (!node) node = parent; // finding the real end for this point. look up the tree for as long as we are the // last node in the container, and as long as we haven't hit the body node. if (!IsRoot(node) && (parent != common)) { rv = GetNodeLocation(node, address_of(parent), &offset); NS_ENSURE_SUCCESS(rv, rv); if (offset == -1) return NS_OK; // we hit generated content; STOP nsIParserService *parserService = nsContentUtils::GetParserService(); if (!parserService) return NS_ERROR_OUT_OF_MEMORY; while ((IsLastNode(node)) && (!IsRoot(parent)) && (parent != common)) { if (bResetPromotion) { nsCOMPtr content = do_QueryInterface(parent); if (content && content->IsHTMLElement()) { bool isBlock = false; parserService->IsBlock(parserService->HTMLAtomTagToId( content->NodeInfo()->NameAtom()), isBlock); if (isBlock) { bResetPromotion = false; } } } node = parent; rv = GetNodeLocation(node, address_of(parent), &offset); NS_ENSURE_SUCCESS(rv, rv); if (offset == -1) // we hit generated content; STOP { // back up a bit parent = node; offset = 0; break; } } if (bResetPromotion) { *outNode = aNode; *outOffset = aOffset; } else { *outNode = parent; offset++; // add one since this in an endpoint - want to be AFTER node. *outOffset = offset; } return rv; } } return rv; } nsCOMPtr nsHTMLCopyEncoder::GetChildAt(nsIDOMNode *aParent, int32_t aOffset) { nsCOMPtr resultNode; if (!aParent) return resultNode; nsCOMPtr content = do_QueryInterface(aParent); NS_PRECONDITION(content, "null content in nsHTMLCopyEncoder::GetChildAt"); resultNode = do_QueryInterface(content->GetChildAt(aOffset)); return resultNode; } bool nsHTMLCopyEncoder::IsMozBR(nsIDOMNode* aNode) { MOZ_ASSERT(aNode); nsCOMPtr element = do_QueryInterface(aNode); return element && element->IsHTMLElement(nsGkAtoms::br) && element->AttrValueIs(kNameSpaceID_None, nsGkAtoms::type, NS_LITERAL_STRING("_moz"), eIgnoreCase); } nsresult nsHTMLCopyEncoder::GetNodeLocation(nsIDOMNode *inChild, nsCOMPtr *outParent, int32_t *outOffset) { NS_ASSERTION((inChild && outParent && outOffset), "bad args"); nsresult result = NS_ERROR_NULL_POINTER; if (inChild && outParent && outOffset) { result = inChild->GetParentNode(getter_AddRefs(*outParent)); if ((NS_SUCCEEDED(result)) && (*outParent)) { nsCOMPtr content = do_QueryInterface(*outParent); nsCOMPtr cChild = do_QueryInterface(inChild); if (!cChild || !content) return NS_ERROR_NULL_POINTER; *outOffset = content->IndexOf(cChild); } } return result; } bool nsHTMLCopyEncoder::IsRoot(nsIDOMNode* aNode) { nsCOMPtr content = do_QueryInterface(aNode); if (!content) { return false; } if (mIsTextWidget) { return content->IsHTMLElement(nsGkAtoms::div); } return content->IsAnyOfHTMLElements(nsGkAtoms::body, nsGkAtoms::td, nsGkAtoms::th); } bool nsHTMLCopyEncoder::IsFirstNode(nsIDOMNode *aNode) { nsCOMPtr parent; int32_t offset, j=0; nsresult rv = GetNodeLocation(aNode, address_of(parent), &offset); if (NS_FAILED(rv)) { NS_NOTREACHED("failure in IsFirstNode"); return false; } if (offset == 0) // easy case, we are first dom child return true; if (!parent) return true; // need to check if any nodes before us are really visible. // Mike wrote something for me along these lines in nsSelectionController, // but I don't think it's ready for use yet - revisit. // HACK: for now, simply consider all whitespace text nodes to be // invisible formatting nodes. nsCOMPtr childList; nsCOMPtr child; rv = parent->GetChildNodes(getter_AddRefs(childList)); if (NS_FAILED(rv) || !childList) { NS_NOTREACHED("failure in IsFirstNode"); return true; } while (j < offset) { childList->Item(j, getter_AddRefs(child)); if (!IsEmptyTextContent(child)) return false; j++; } return true; } bool nsHTMLCopyEncoder::IsLastNode(nsIDOMNode *aNode) { nsCOMPtr parent; int32_t offset,j; nsresult rv = GetNodeLocation(aNode, address_of(parent), &offset); if (NS_FAILED(rv)) { NS_NOTREACHED("failure in IsLastNode"); return false; } nsCOMPtr parentNode = do_QueryInterface(parent); if (!parentNode) { return true; } uint32_t numChildren = parentNode->Length(); if (offset+1 == (int32_t)numChildren) // easy case, we are last dom child return true; // need to check if any nodes after us are really visible. // Mike wrote something for me along these lines in nsSelectionController, // but I don't think it's ready for use yet - revisit. // HACK: for now, simply consider all whitespace text nodes to be // invisible formatting nodes. j = (int32_t)numChildren-1; nsCOMPtrchildList; nsCOMPtr child; rv = parent->GetChildNodes(getter_AddRefs(childList)); if (NS_FAILED(rv) || !childList) { NS_NOTREACHED("failure in IsLastNode"); return true; } while (j > offset) { childList->Item(j, getter_AddRefs(child)); j--; if (IsMozBR(child)) // we ignore trailing moz BRs. continue; if (!IsEmptyTextContent(child)) return false; } return true; } bool nsHTMLCopyEncoder::IsEmptyTextContent(nsIDOMNode* aNode) { nsCOMPtr cont = do_QueryInterface(aNode); return cont && cont->TextIsOnlyWhitespace(); } nsresult NS_NewHTMLCopyTextEncoder(nsIDocumentEncoder** aResult); // make mac compiler happy nsresult NS_NewHTMLCopyTextEncoder(nsIDocumentEncoder** aResult) { *aResult = new nsHTMLCopyEncoder; if (!*aResult) return NS_ERROR_OUT_OF_MEMORY; NS_ADDREF(*aResult); return NS_OK; } int32_t nsHTMLCopyEncoder::GetImmediateContextCount(const nsTArray& aAncestorArray) { int32_t i = aAncestorArray.Length(), j = 0; while (j < i) { nsINode *node = aAncestorArray.ElementAt(j); if (!node) { break; } nsCOMPtr content(do_QueryInterface(node)); if (!content || !content->IsAnyOfHTMLElements(nsGkAtoms::tr, nsGkAtoms::thead, nsGkAtoms::tbody, nsGkAtoms::tfoot, nsGkAtoms::table)) { break; } ++j; } return j; }