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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/. */
/*
* nsIContentSerializer implementation that can be used with an
* nsIDocumentEncoder to convert an XML DOM to an XML string that
* could be parsed into more or less the original DOM.
*/
#include "nsXMLContentSerializer.h"
#include "nsGkAtoms.h"
#include "nsIDOMProcessingInstruction.h"
#include "nsIDOMComment.h"
#include "nsIDOMDocumentType.h"
#include "nsIContent.h"
#include "nsIDocument.h"
#include "nsIDocumentEncoder.h"
#include "nsIParserService.h"
#include "nsNameSpaceManager.h"
#include "nsTextFragment.h"
#include "nsString.h"
#include "mozilla/Sprintf.h"
#include "nsUnicharUtils.h"
#include "nsCRT.h"
#include "nsContentUtils.h"
#include "nsAttrName.h"
#include "nsILineBreaker.h"
#include "mozilla/dom/Element.h"
#include "nsParserConstants.h"
using namespace mozilla::dom;
#define kXMLNS "xmlns"
// to be readable, we assume that an indented line contains
// at least this number of characters (arbitrary value here).
// This is a limit for the indentation.
#define MIN_INDENTED_LINE_LENGTH 15
// the string used to indent.
#define INDENT_STRING " "
#define INDENT_STRING_LENGTH 2
nsresult
NS_NewXMLContentSerializer(nsIContentSerializer** aSerializer)
{
RefPtr<nsXMLContentSerializer> it = new nsXMLContentSerializer();
it.forget(aSerializer);
return NS_OK;
}
nsXMLContentSerializer::nsXMLContentSerializer()
: mPrefixIndex(0),
mColPos(0),
mIndentOverflow(0),
mIsIndentationAddedOnCurrentLine(false),
mInAttribute(false),
mAddNewlineForRootNode(false),
mAddSpace(false),
mMayIgnoreLineBreakSequence(false),
mBodyOnly(false),
mInBody(0)
{
}
nsXMLContentSerializer::~nsXMLContentSerializer()
{
}
NS_IMPL_ISUPPORTS(nsXMLContentSerializer, nsIContentSerializer)
NS_IMETHODIMP
nsXMLContentSerializer::Init(uint32_t aFlags, uint32_t aWrapColumn,
const char* aCharSet, bool aIsCopying,
bool aRewriteEncodingDeclaration)
{
mPrefixIndex = 0;
mColPos = 0;
mIndentOverflow = 0;
mIsIndentationAddedOnCurrentLine = false;
mInAttribute = false;
mAddNewlineForRootNode = false;
mAddSpace = false;
mMayIgnoreLineBreakSequence = false;
mBodyOnly = false;
mInBody = 0;
mCharset = aCharSet;
mFlags = aFlags;
// Set the line break character:
if ((mFlags & nsIDocumentEncoder::OutputCRLineBreak)
&& (mFlags & nsIDocumentEncoder::OutputLFLineBreak)) { // Windows
mLineBreak.AssignLiteral("\r\n");
}
else if (mFlags & nsIDocumentEncoder::OutputCRLineBreak) { // Mac
mLineBreak.Assign('\r');
}
else if (mFlags & nsIDocumentEncoder::OutputLFLineBreak) { // Unix/DOM
mLineBreak.Assign('\n');
}
else {
mLineBreak.AssignLiteral(NS_LINEBREAK); // Platform/default
}
mDoRaw = !!(mFlags & nsIDocumentEncoder::OutputRaw);
mDoFormat = (mFlags & nsIDocumentEncoder::OutputFormatted && !mDoRaw);
mDoWrap = (mFlags & nsIDocumentEncoder::OutputWrap && !mDoRaw);
mAllowLineBreaking = !(mFlags & nsIDocumentEncoder::OutputDisallowLineBreaking);
if (!aWrapColumn) {
mMaxColumn = 72;
}
else {
mMaxColumn = aWrapColumn;
}
mPreLevel = 0;
mIsIndentationAddedOnCurrentLine = false;
return NS_OK;
}
nsresult
nsXMLContentSerializer::AppendTextData(nsIContent* aNode,
int32_t aStartOffset,
int32_t aEndOffset,
nsAString& aStr,
bool aTranslateEntities)
{
nsIContent* content = aNode;
const nsTextFragment* frag;
if (!content || !(frag = content->GetText())) {
return NS_ERROR_FAILURE;
}
int32_t fragLength = frag->GetLength();
int32_t endoffset = (aEndOffset == -1) ? fragLength : std::min(aEndOffset, fragLength);
int32_t length = endoffset - aStartOffset;
NS_ASSERTION(aStartOffset >= 0, "Negative start offset for text fragment!");
NS_ASSERTION(aStartOffset <= endoffset, "A start offset is beyond the end of the text fragment!");
if (length <= 0) {
// XXX Zero is a legal value, maybe non-zero values should be an
// error.
return NS_OK;
}
if (frag->Is2b()) {
const char16_t *strStart = frag->Get2b() + aStartOffset;
if (aTranslateEntities) {
NS_ENSURE_TRUE(AppendAndTranslateEntities(Substring(strStart, strStart + length), aStr),
NS_ERROR_OUT_OF_MEMORY);
}
else {
NS_ENSURE_TRUE(aStr.Append(Substring(strStart, strStart + length), mozilla::fallible),
NS_ERROR_OUT_OF_MEMORY);
}
}
else {
if (aTranslateEntities) {
NS_ENSURE_TRUE(AppendAndTranslateEntities(NS_ConvertASCIItoUTF16(frag->Get1b()+aStartOffset, length), aStr),
NS_ERROR_OUT_OF_MEMORY);
}
else {
NS_ENSURE_TRUE(aStr.Append(NS_ConvertASCIItoUTF16(frag->Get1b()+aStartOffset, length), mozilla::fallible),
NS_ERROR_OUT_OF_MEMORY);
}
}
return NS_OK;
}
NS_IMETHODIMP
nsXMLContentSerializer::AppendText(nsIContent* aText,
int32_t aStartOffset,
int32_t aEndOffset,
nsAString& aStr)
{
NS_ENSURE_ARG(aText);
nsAutoString data;
nsresult rv;
rv = AppendTextData(aText, aStartOffset, aEndOffset, data, true);
if (NS_FAILED(rv))
return NS_ERROR_FAILURE;
if (mDoRaw || PreLevel() > 0) {
NS_ENSURE_TRUE(AppendToStringConvertLF(data, aStr), NS_ERROR_OUT_OF_MEMORY);
}
else if (mDoFormat) {
NS_ENSURE_TRUE(AppendToStringFormatedWrapped(data, aStr), NS_ERROR_OUT_OF_MEMORY);
}
else if (mDoWrap) {
NS_ENSURE_TRUE(AppendToStringWrapped(data, aStr), NS_ERROR_OUT_OF_MEMORY);
}
else {
NS_ENSURE_TRUE(AppendToStringConvertLF(data, aStr), NS_ERROR_OUT_OF_MEMORY);
}
return NS_OK;
}
NS_IMETHODIMP
nsXMLContentSerializer::AppendCDATASection(nsIContent* aCDATASection,
int32_t aStartOffset,
int32_t aEndOffset,
nsAString& aStr)
{
NS_ENSURE_ARG(aCDATASection);
nsresult rv;
NS_NAMED_LITERAL_STRING(cdata , "<![CDATA[");
if (mDoRaw || PreLevel() > 0) {
NS_ENSURE_TRUE(AppendToString(cdata, aStr), NS_ERROR_OUT_OF_MEMORY);
}
else if (mDoFormat) {
NS_ENSURE_TRUE(AppendToStringFormatedWrapped(cdata, aStr), NS_ERROR_OUT_OF_MEMORY);
}
else if (mDoWrap) {
NS_ENSURE_TRUE(AppendToStringWrapped(cdata, aStr), NS_ERROR_OUT_OF_MEMORY);
}
else {
NS_ENSURE_TRUE(AppendToString(cdata, aStr), NS_ERROR_OUT_OF_MEMORY);
}
nsAutoString data;
rv = AppendTextData(aCDATASection, aStartOffset, aEndOffset, data, false);
if (NS_FAILED(rv)) return NS_ERROR_FAILURE;
NS_ENSURE_TRUE(AppendToStringConvertLF(data, aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(NS_LITERAL_STRING("]]>"), aStr), NS_ERROR_OUT_OF_MEMORY);
return NS_OK;
}
NS_IMETHODIMP
nsXMLContentSerializer::AppendProcessingInstruction(nsIContent* aPI,
int32_t aStartOffset,
int32_t aEndOffset,
nsAString& aStr)
{
nsCOMPtr<nsIDOMProcessingInstruction> pi = do_QueryInterface(aPI);
NS_ENSURE_ARG(pi);
nsresult rv;
nsAutoString target, data, start;
NS_ENSURE_TRUE(MaybeAddNewlineForRootNode(aStr), NS_ERROR_OUT_OF_MEMORY);
rv = pi->GetTarget(target);
if (NS_FAILED(rv)) return NS_ERROR_FAILURE;
rv = pi->GetData(data);
if (NS_FAILED(rv)) return NS_ERROR_FAILURE;
NS_ENSURE_TRUE(start.AppendLiteral("<?", mozilla::fallible), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(start.Append(target, mozilla::fallible), NS_ERROR_OUT_OF_MEMORY);
if (mDoRaw || PreLevel() > 0) {
NS_ENSURE_TRUE(AppendToString(start, aStr), NS_ERROR_OUT_OF_MEMORY);
}
else if (mDoFormat) {
if (mAddSpace) {
NS_ENSURE_TRUE(AppendNewLineToString(aStr), NS_ERROR_OUT_OF_MEMORY);
}
NS_ENSURE_TRUE(AppendToStringFormatedWrapped(start, aStr), NS_ERROR_OUT_OF_MEMORY);
}
else if (mDoWrap) {
NS_ENSURE_TRUE(AppendToStringWrapped(start, aStr), NS_ERROR_OUT_OF_MEMORY);
}
else {
NS_ENSURE_TRUE(AppendToString(start, aStr), NS_ERROR_OUT_OF_MEMORY);
}
if (!data.IsEmpty()) {
NS_ENSURE_TRUE(AppendToString(char16_t(' '), aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToStringConvertLF(data, aStr), NS_ERROR_OUT_OF_MEMORY);
}
NS_ENSURE_TRUE(AppendToString(NS_LITERAL_STRING("?>"), aStr), NS_ERROR_OUT_OF_MEMORY);
MaybeFlagNewlineForRootNode(aPI);
return NS_OK;
}
NS_IMETHODIMP
nsXMLContentSerializer::AppendComment(nsIContent* aComment,
int32_t aStartOffset,
int32_t aEndOffset,
nsAString& aStr)
{
nsCOMPtr<nsIDOMComment> comment = do_QueryInterface(aComment);
NS_ENSURE_ARG(comment);
nsresult rv;
nsAutoString data;
rv = comment->GetData(data);
if (NS_FAILED(rv)) return NS_ERROR_FAILURE;
int32_t dataLength = data.Length();
if (aStartOffset || (aEndOffset != -1 && aEndOffset < dataLength)) {
int32_t length =
(aEndOffset == -1) ? dataLength : std::min(aEndOffset, dataLength);
length -= aStartOffset;
nsAutoString frag;
if (length > 0) {
data.Mid(frag, aStartOffset, length);
}
data.Assign(frag);
}
NS_ENSURE_TRUE(MaybeAddNewlineForRootNode(aStr), NS_ERROR_OUT_OF_MEMORY);
NS_NAMED_LITERAL_STRING(startComment, "<!--");
if (mDoRaw || PreLevel() > 0) {
NS_ENSURE_TRUE(AppendToString(startComment, aStr), NS_ERROR_OUT_OF_MEMORY);
}
else if (mDoFormat) {
if (mAddSpace) {
NS_ENSURE_TRUE(AppendNewLineToString(aStr), NS_ERROR_OUT_OF_MEMORY);
}
NS_ENSURE_TRUE(AppendToStringFormatedWrapped(startComment, aStr), NS_ERROR_OUT_OF_MEMORY);
}
else if (mDoWrap) {
NS_ENSURE_TRUE(AppendToStringWrapped(startComment, aStr), NS_ERROR_OUT_OF_MEMORY);
}
else {
NS_ENSURE_TRUE(AppendToString(startComment, aStr), NS_ERROR_OUT_OF_MEMORY);
}
// Even if mDoformat, we don't format the content because it
// could have been preformated by the author
NS_ENSURE_TRUE(AppendToStringConvertLF(data, aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(NS_LITERAL_STRING("-->"), aStr), NS_ERROR_OUT_OF_MEMORY);
MaybeFlagNewlineForRootNode(aComment);
return NS_OK;
}
NS_IMETHODIMP
nsXMLContentSerializer::AppendDoctype(nsIContent* aDocType,
nsAString& aStr)
{
nsCOMPtr<nsIDOMDocumentType> docType = do_QueryInterface(aDocType);
NS_ENSURE_ARG(docType);
nsresult rv;
nsAutoString name, publicId, systemId, internalSubset;
rv = docType->GetName(name);
if (NS_FAILED(rv)) return NS_ERROR_FAILURE;
rv = docType->GetPublicId(publicId);
if (NS_FAILED(rv)) return NS_ERROR_FAILURE;
rv = docType->GetSystemId(systemId);
if (NS_FAILED(rv)) return NS_ERROR_FAILURE;
rv = docType->GetInternalSubset(internalSubset);
if (NS_FAILED(rv)) return NS_ERROR_FAILURE;
NS_ENSURE_TRUE(MaybeAddNewlineForRootNode(aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(NS_LITERAL_STRING("<!DOCTYPE "), aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(name, aStr), NS_ERROR_OUT_OF_MEMORY);
char16_t quote;
if (!publicId.IsEmpty()) {
NS_ENSURE_TRUE(AppendToString(NS_LITERAL_STRING(" PUBLIC "), aStr), NS_ERROR_OUT_OF_MEMORY);
if (publicId.FindChar(char16_t('"')) == -1) {
quote = char16_t('"');
}
else {
quote = char16_t('\'');
}
NS_ENSURE_TRUE(AppendToString(quote, aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(publicId, aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(quote, aStr), NS_ERROR_OUT_OF_MEMORY);
if (!systemId.IsEmpty()) {
NS_ENSURE_TRUE(AppendToString(char16_t(' '), aStr), NS_ERROR_OUT_OF_MEMORY);
if (systemId.FindChar(char16_t('"')) == -1) {
quote = char16_t('"');
}
else {
quote = char16_t('\'');
}
NS_ENSURE_TRUE(AppendToString(quote, aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(systemId, aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(quote, aStr), NS_ERROR_OUT_OF_MEMORY);
}
}
else if (!systemId.IsEmpty()) {
if (systemId.FindChar(char16_t('"')) == -1) {
quote = char16_t('"');
}
else {
quote = char16_t('\'');
}
NS_ENSURE_TRUE(AppendToString(NS_LITERAL_STRING(" SYSTEM "), aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(quote, aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(systemId, aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(quote, aStr), NS_ERROR_OUT_OF_MEMORY);
}
if (!internalSubset.IsEmpty()) {
NS_ENSURE_TRUE(AppendToString(NS_LITERAL_STRING(" ["), aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(internalSubset, aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(char16_t(']'), aStr), NS_ERROR_OUT_OF_MEMORY);
}
NS_ENSURE_TRUE(AppendToString(kGreaterThan, aStr), NS_ERROR_OUT_OF_MEMORY);
MaybeFlagNewlineForRootNode(aDocType);
return NS_OK;
}
nsresult
nsXMLContentSerializer::PushNameSpaceDecl(const nsAString& aPrefix,
const nsAString& aURI,
nsIContent* aOwner)
{
NameSpaceDecl* decl = mNameSpaceStack.AppendElement();
if (!decl) return NS_ERROR_OUT_OF_MEMORY;
decl->mPrefix.Assign(aPrefix);
decl->mURI.Assign(aURI);
// Don't addref - this weak reference will be removed when
// we pop the stack
decl->mOwner = aOwner;
return NS_OK;
}
void
nsXMLContentSerializer::PopNameSpaceDeclsFor(nsIContent* aOwner)
{
int32_t index, count;
count = mNameSpaceStack.Length();
for (index = count - 1; index >= 0; index--) {
if (mNameSpaceStack[index].mOwner != aOwner) {
break;
}
mNameSpaceStack.RemoveElementAt(index);
}
}
bool
nsXMLContentSerializer::ConfirmPrefix(nsAString& aPrefix,
const nsAString& aURI,
nsIContent* aElement,
bool aIsAttribute)
{
if (aPrefix.EqualsLiteral(kXMLNS)) {
return false;
}
if (aURI.EqualsLiteral("http://www.w3.org/XML/1998/namespace")) {
// The prefix must be xml for this namespace. We don't need to declare it,
// so always just set the prefix to xml.
aPrefix.AssignLiteral("xml");
return false;
}
bool mustHavePrefix;
if (aIsAttribute) {
if (aURI.IsEmpty()) {
// Attribute in the null namespace. This just shouldn't have a prefix.
// And there's no need to push any namespace decls
aPrefix.Truncate();
return false;
}
// Attribute not in the null namespace -- must have a prefix
mustHavePrefix = true;
} else {
// Not an attribute, so doesn't _have_ to have a prefix
mustHavePrefix = false;
}
// Keep track of the closest prefix that's bound to aURI and whether we've
// found such a thing. closestURIMatch holds the prefix, and uriMatch
// indicates whether we actually have one.
nsAutoString closestURIMatch;
bool uriMatch = false;
// Also keep track of whether we've seen aPrefix already. If we have, that
// means that it's already bound to a URI different from aURI, so even if we
// later (so in a more outer scope) see it bound to aURI we can't reuse it.
bool haveSeenOurPrefix = false;
int32_t count = mNameSpaceStack.Length();
int32_t index = count - 1;
while (index >= 0) {
NameSpaceDecl& decl = mNameSpaceStack.ElementAt(index);
// Check if we've found a prefix match
if (aPrefix.Equals(decl.mPrefix)) {
// If the URIs match and aPrefix is not bound to any other URI, we can
// use aPrefix
if (!haveSeenOurPrefix && aURI.Equals(decl.mURI)) {
// Just use our uriMatch stuff. That will deal with an empty aPrefix
// the right way. We can break out of the loop now, though.
uriMatch = true;
closestURIMatch = aPrefix;
break;
}
haveSeenOurPrefix = true;
// If they don't, and either:
// 1) We have a prefix (so we'd be redeclaring this prefix to point to a
// different namespace) or
// 2) We're looking at an existing default namespace decl on aElement (so
// we can't create a new default namespace decl for this URI)
// then generate a new prefix. Note that we do NOT generate new prefixes
// if we happen to have aPrefix == decl->mPrefix == "" and mismatching
// URIs when |decl| doesn't have aElement as its owner. In that case we
// can simply push the new namespace URI as the default namespace for
// aElement.
if (!aPrefix.IsEmpty() || decl.mOwner == aElement) {
NS_ASSERTION(!aURI.IsEmpty(),
"Not allowed to add a xmlns attribute with an empty "
"namespace name unless it declares the default "
"namespace.");
GenerateNewPrefix(aPrefix);
// Now we need to validate our new prefix/uri combination; check it
// against the full namespace stack again. Note that just restarting
// the while loop is ok, since we haven't changed aURI, so the
// closestURIMatch and uriMatch state is not affected.
index = count - 1;
haveSeenOurPrefix = false;
continue;
}
}
// If we've found a URI match, then record the first one
if (!uriMatch && aURI.Equals(decl.mURI)) {
// Need to check that decl->mPrefix is not declared anywhere closer to
// us. If it is, we can't use it.
bool prefixOK = true;
int32_t index2;
for (index2 = count-1; index2 > index && prefixOK; --index2) {
prefixOK = (mNameSpaceStack[index2].mPrefix != decl.mPrefix);
}
if (prefixOK) {
uriMatch = true;
closestURIMatch.Assign(decl.mPrefix);
}
}
--index;
}
// At this point the following invariants hold:
// 1) The prefix in closestURIMatch is mapped to aURI in our scope if
// uriMatch is set.
// 2) There is nothing on the namespace stack that has aPrefix as the prefix
// and a _different_ URI, except for the case aPrefix.IsEmpty (and
// possible default namespaces on ancestors)
// So if uriMatch is set it's OK to use the closestURIMatch prefix. The one
// exception is when closestURIMatch is actually empty (default namespace
// decl) and we must have a prefix.
if (uriMatch && (!mustHavePrefix || !closestURIMatch.IsEmpty())) {
aPrefix.Assign(closestURIMatch);
return false;
}
if (aPrefix.IsEmpty()) {
// At this point, aPrefix is empty (which means we never had a prefix to
// start with). If we must have a prefix, just generate a new prefix and
// then send it back through the namespace stack checks to make sure it's
// OK.
if (mustHavePrefix) {
GenerateNewPrefix(aPrefix);
return ConfirmPrefix(aPrefix, aURI, aElement, aIsAttribute);
}
// One final special case. If aPrefix is empty and we never saw an empty
// prefix (default namespace decl) on the namespace stack and we're in the
// null namespace there is no reason to output an |xmlns=""| here. It just
// makes the output less readable.
if (!haveSeenOurPrefix && aURI.IsEmpty()) {
return false;
}
}
// Now just set aURI as the new default namespace URI. Indicate that we need
// to create a namespace decl for the final prefix
return true;
}
void
nsXMLContentSerializer::GenerateNewPrefix(nsAString& aPrefix)
{
aPrefix.Assign('a');
char buf[128];
SprintfLiteral(buf, "%d", mPrefixIndex++);
AppendASCIItoUTF16(buf, aPrefix);
}
bool
nsXMLContentSerializer::SerializeAttr(const nsAString& aPrefix,
const nsAString& aName,
const nsAString& aValue,
nsAString& aStr,
bool aDoEscapeEntities)
{
nsAutoString attrString_;
// For innerHTML we can do faster appending without
// temporary strings.
bool rawAppend = mDoRaw && aDoEscapeEntities;
nsAString& attrString = (rawAppend) ? aStr : attrString_;
NS_ENSURE_TRUE(attrString.Append(char16_t(' '), mozilla::fallible), false);
if (!aPrefix.IsEmpty()) {
NS_ENSURE_TRUE(attrString.Append(aPrefix, mozilla::fallible), false);
NS_ENSURE_TRUE(attrString.Append(char16_t(':'), mozilla::fallible), false);
}
NS_ENSURE_TRUE(attrString.Append(aName, mozilla::fallible), false);
if (aDoEscapeEntities) {
// if problem characters are turned into character entity references
// then there will be no problem with the value delimiter characters
NS_ENSURE_TRUE(attrString.AppendLiteral("=\"", mozilla::fallible), false);
mInAttribute = true;
bool result = AppendAndTranslateEntities(aValue, attrString);
mInAttribute = false;
NS_ENSURE_TRUE(result, false);
NS_ENSURE_TRUE(attrString.Append(char16_t('"'), mozilla::fallible), false);
if (rawAppend) {
return true;
}
}
else {
// Depending on whether the attribute value contains quotes or apostrophes we
// need to select the delimiter character and escape characters using
// character entity references, ignoring the value of aDoEscapeEntities.
// See http://www.w3.org/TR/REC-html40/appendix/notes.html#h-B.3.2.2 for
// the standard on character entity references in values. We also have to
// make sure to escape any '&' characters.
bool bIncludesSingle = false;
bool bIncludesDouble = false;
nsAString::const_iterator iCurr, iEnd;
aValue.BeginReading(iCurr);
aValue.EndReading(iEnd);
for ( ; iCurr != iEnd; ++iCurr) {
if (*iCurr == char16_t('\'')) {
bIncludesSingle = true;
if (bIncludesDouble) {
break;
}
} else if (*iCurr == char16_t('"')) {
bIncludesDouble = true;
if (bIncludesSingle) {
break;
}
}
}
// Delimiter and escaping is according to the following table
// bIncludesDouble bIncludesSingle Delimiter Escape Double Quote
// FALSE FALSE " FALSE
// FALSE TRUE " FALSE
// TRUE FALSE ' FALSE
// TRUE TRUE " TRUE
char16_t cDelimiter =
(bIncludesDouble && !bIncludesSingle) ? char16_t('\'') : char16_t('"');
NS_ENSURE_TRUE(attrString.Append(char16_t('='), mozilla::fallible), false);
NS_ENSURE_TRUE(attrString.Append(cDelimiter, mozilla::fallible), false);
nsAutoString sValue(aValue);
NS_ENSURE_TRUE(sValue.ReplaceSubstring(NS_LITERAL_STRING("&"),
NS_LITERAL_STRING("&"), mozilla::fallible), false);
if (bIncludesDouble && bIncludesSingle) {
NS_ENSURE_TRUE(sValue.ReplaceSubstring(NS_LITERAL_STRING("\""),
NS_LITERAL_STRING("""), mozilla::fallible), false);
}
NS_ENSURE_TRUE(attrString.Append(sValue, mozilla::fallible), false);
NS_ENSURE_TRUE(attrString.Append(cDelimiter, mozilla::fallible), false);
}
if (mDoRaw || PreLevel() > 0) {
NS_ENSURE_TRUE(AppendToStringConvertLF(attrString, aStr), false);
}
else if (mDoFormat) {
NS_ENSURE_TRUE(AppendToStringFormatedWrapped(attrString, aStr), false);
}
else if (mDoWrap) {
NS_ENSURE_TRUE(AppendToStringWrapped(attrString, aStr), false);
}
else {
NS_ENSURE_TRUE(AppendToStringConvertLF(attrString, aStr), false);
}
return true;
}
uint32_t
nsXMLContentSerializer::ScanNamespaceDeclarations(nsIContent* aContent,
nsIContent *aOriginalElement,
const nsAString& aTagNamespaceURI)
{
uint32_t index, count;
nsAutoString uriStr, valueStr;
count = aContent->GetAttrCount();
// First scan for namespace declarations, pushing each on the stack
uint32_t skipAttr = count;
for (index = 0; index < count; index++) {
const BorrowedAttrInfo info = aContent->GetAttrInfoAt(index);
const nsAttrName* name = info.mName;
int32_t namespaceID = name->NamespaceID();
nsIAtom *attrName = name->LocalName();
if (namespaceID == kNameSpaceID_XMLNS ||
// Also push on the stack attrs named "xmlns" in the null
// namespace... because once we serialize those out they'll look like
// namespace decls. :(
// XXXbz what if we have both "xmlns" in the null namespace and "xmlns"
// in the xmlns namespace?
(namespaceID == kNameSpaceID_None &&
attrName == nsGkAtoms::xmlns)) {
info.mValue->ToString(uriStr);
if (!name->GetPrefix()) {
if (aTagNamespaceURI.IsEmpty() && !uriStr.IsEmpty()) {
// If the element is in no namespace we need to add a xmlns
// attribute to declare that. That xmlns attribute must not have a
// prefix (see http://www.w3.org/TR/REC-xml-names/#dt-prefix), ie it
// must declare the default namespace. We just found an xmlns
// attribute that declares the default namespace to something
// non-empty. We're going to ignore this attribute, for children we
// will detect that we need to add it again and attributes aren't
// affected by the default namespace.
skipAttr = index;
}
else {
// Default NS attribute does not have prefix (and the name is "xmlns")
PushNameSpaceDecl(EmptyString(), uriStr, aOriginalElement);
}
}
else {
PushNameSpaceDecl(nsDependentAtomString(attrName), uriStr,
aOriginalElement);
}
}
}
return skipAttr;
}
bool
nsXMLContentSerializer::IsJavaScript(nsIContent * aContent, nsIAtom* aAttrNameAtom,
int32_t aAttrNamespaceID, const nsAString& aValueString)
{
bool isHtml = aContent->IsHTMLElement();
bool isXul = aContent->IsXULElement();
bool isSvg = aContent->IsSVGElement();
if (aAttrNamespaceID == kNameSpaceID_None &&
(isHtml || isXul || isSvg) &&
(aAttrNameAtom == nsGkAtoms::href ||
aAttrNameAtom == nsGkAtoms::src)) {
static const char kJavaScript[] = "javascript";
int32_t pos = aValueString.FindChar(':');
if (pos < (int32_t)(sizeof kJavaScript - 1))
return false;
nsAutoString scheme(Substring(aValueString, 0, pos));
scheme.StripWhitespace();
if ((scheme.Length() == (sizeof kJavaScript - 1)) &&
scheme.EqualsIgnoreCase(kJavaScript))
return true;
else
return false;
}
return aContent->IsEventAttributeName(aAttrNameAtom);
}
bool
nsXMLContentSerializer::SerializeAttributes(nsIContent* aContent,
nsIContent *aOriginalElement,
nsAString& aTagPrefix,
const nsAString& aTagNamespaceURI,
nsIAtom* aTagName,
nsAString& aStr,
uint32_t aSkipAttr,
bool aAddNSAttr)
{
nsAutoString prefixStr, uriStr, valueStr;
nsAutoString xmlnsStr;
xmlnsStr.AssignLiteral(kXMLNS);
uint32_t index, count;
// If we had to add a new namespace declaration, serialize
// and push it on the namespace stack
if (aAddNSAttr) {
if (aTagPrefix.IsEmpty()) {
// Serialize default namespace decl
NS_ENSURE_TRUE(SerializeAttr(EmptyString(), xmlnsStr, aTagNamespaceURI, aStr, true), false);
}
else {
// Serialize namespace decl
NS_ENSURE_TRUE(SerializeAttr(xmlnsStr, aTagPrefix, aTagNamespaceURI, aStr, true), false);
}
PushNameSpaceDecl(aTagPrefix, aTagNamespaceURI, aOriginalElement);
}
count = aContent->GetAttrCount();
// Now serialize each of the attributes
// XXX Unfortunately we need a namespace manager to get
// attribute URIs.
for (index = 0; index < count; index++) {
if (aSkipAttr == index) {
continue;
}
const nsAttrName* name = aContent->GetAttrNameAt(index);
int32_t namespaceID = name->NamespaceID();
nsIAtom* attrName = name->LocalName();
nsIAtom* attrPrefix = name->GetPrefix();
// Filter out any attribute starting with [-|_]moz
nsDependentAtomString attrNameStr(attrName);
if (StringBeginsWith(attrNameStr, NS_LITERAL_STRING("_moz")) ||
StringBeginsWith(attrNameStr, NS_LITERAL_STRING("-moz"))) {
continue;
}
if (attrPrefix) {
attrPrefix->ToString(prefixStr);
}
else {
prefixStr.Truncate();
}
bool addNSAttr = false;
if (kNameSpaceID_XMLNS != namespaceID) {
nsContentUtils::NameSpaceManager()->GetNameSpaceURI(namespaceID, uriStr);
addNSAttr = ConfirmPrefix(prefixStr, uriStr, aOriginalElement, true);
}
aContent->GetAttr(namespaceID, attrName, valueStr);
nsDependentAtomString nameStr(attrName);
bool isJS = IsJavaScript(aContent, attrName, namespaceID, valueStr);
NS_ENSURE_TRUE(SerializeAttr(prefixStr, nameStr, valueStr, aStr, !isJS), false);
if (addNSAttr) {
NS_ASSERTION(!prefixStr.IsEmpty(),
"Namespaced attributes must have a prefix");
NS_ENSURE_TRUE(SerializeAttr(xmlnsStr, prefixStr, uriStr, aStr, true), false);
PushNameSpaceDecl(prefixStr, uriStr, aOriginalElement);
}
}
return true;
}
NS_IMETHODIMP
nsXMLContentSerializer::AppendElementStart(Element* aElement,
Element* aOriginalElement,
nsAString& aStr)
{
NS_ENSURE_ARG(aElement);
nsIContent* content = aElement;
bool forceFormat = false;
nsresult rv = NS_OK;
if (!CheckElementStart(content, forceFormat, aStr, rv)) {
// When we go to AppendElementEnd for this element, we're going to
// MaybeLeaveFromPreContent(). So make sure to MaybeEnterInPreContent()
// now, so our PreLevel() doesn't get confused.
MaybeEnterInPreContent(content);
return rv;
}
NS_ENSURE_SUCCESS(rv, rv);
nsAutoString tagPrefix, tagLocalName, tagNamespaceURI;
aElement->NodeInfo()->GetPrefix(tagPrefix);
aElement->NodeInfo()->GetName(tagLocalName);
aElement->NodeInfo()->GetNamespaceURI(tagNamespaceURI);
uint32_t skipAttr = ScanNamespaceDeclarations(content,
aOriginalElement, tagNamespaceURI);
nsIAtom *name = content->NodeInfo()->NameAtom();
bool lineBreakBeforeOpen = LineBreakBeforeOpen(content->GetNameSpaceID(), name);
if ((mDoFormat || forceFormat) && !mDoRaw && !PreLevel()) {
if (mColPos && lineBreakBeforeOpen) {
NS_ENSURE_TRUE(AppendNewLineToString(aStr), NS_ERROR_OUT_OF_MEMORY);
}
else {
NS_ENSURE_TRUE(MaybeAddNewlineForRootNode(aStr), NS_ERROR_OUT_OF_MEMORY);
}
if (!mColPos) {
NS_ENSURE_TRUE(AppendIndentation(aStr), NS_ERROR_OUT_OF_MEMORY);
}
else if (mAddSpace) {
NS_ENSURE_TRUE(AppendToString(char16_t(' '), aStr), NS_ERROR_OUT_OF_MEMORY);
mAddSpace = false;
}
}
else if (mAddSpace) {
NS_ENSURE_TRUE(AppendToString(char16_t(' '), aStr), NS_ERROR_OUT_OF_MEMORY);
mAddSpace = false;
}
else {
NS_ENSURE_TRUE(MaybeAddNewlineForRootNode(aStr), NS_ERROR_OUT_OF_MEMORY);
}
// Always reset to avoid false newlines in case MaybeAddNewlineForRootNode wasn't
// called
mAddNewlineForRootNode = false;
bool addNSAttr;
addNSAttr = ConfirmPrefix(tagPrefix, tagNamespaceURI, aOriginalElement,
false);
// Serialize the qualified name of the element
NS_ENSURE_TRUE(AppendToString(kLessThan, aStr), NS_ERROR_OUT_OF_MEMORY);
if (!tagPrefix.IsEmpty()) {
NS_ENSURE_TRUE(AppendToString(tagPrefix, aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(NS_LITERAL_STRING(":"), aStr), NS_ERROR_OUT_OF_MEMORY);
}
NS_ENSURE_TRUE(AppendToString(tagLocalName, aStr), NS_ERROR_OUT_OF_MEMORY);
MaybeEnterInPreContent(content);
if ((mDoFormat || forceFormat) && !mDoRaw && !PreLevel()) {
NS_ENSURE_TRUE(IncrIndentation(name), NS_ERROR_OUT_OF_MEMORY);
}
NS_ENSURE_TRUE(SerializeAttributes(content, aOriginalElement, tagPrefix, tagNamespaceURI,
name, aStr, skipAttr, addNSAttr),
NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendEndOfElementStart(aElement, aOriginalElement, aStr),
NS_ERROR_OUT_OF_MEMORY);
if ((mDoFormat || forceFormat) && !mDoRaw && !PreLevel()
&& LineBreakAfterOpen(content->GetNameSpaceID(), name)) {
NS_ENSURE_TRUE(AppendNewLineToString(aStr), NS_ERROR_OUT_OF_MEMORY);
}
NS_ENSURE_TRUE(AfterElementStart(content, aOriginalElement, aStr), NS_ERROR_OUT_OF_MEMORY);
return NS_OK;
}
// aElement is the actual element we're outputting. aOriginalElement is the one
// in the original DOM, which is the one we have to test for kids.
static bool
ElementNeedsSeparateEndTag(Element* aElement, Element* aOriginalElement)
{
if (aOriginalElement->GetChildCount()) {
// We have kids, so we need a separate end tag. This needs to be checked on
// aOriginalElement because that's the one that's actually in the DOM and
// might have kids.
return true;
}
if (!aElement->IsHTMLElement()) {
// Empty non-HTML elements can just skip a separate end tag.
return false;
}
// HTML container tags should have a separate end tag even if empty, per spec.
// See
// https://w3c.github.io/DOM-Parsing/#dfn-concept-xml-serialization-algorithm
bool isHTMLContainer = true; // Default in case we get no parser service.
nsIParserService* parserService = nsContentUtils::GetParserService();
if (parserService) {
nsIAtom* localName = aElement->NodeInfo()->NameAtom();
parserService->IsContainer(
parserService->HTMLCaseSensitiveAtomTagToId(localName),
isHTMLContainer);
}
return isHTMLContainer;
}
bool
nsXMLContentSerializer::AppendEndOfElementStart(Element* aElement,
Element* aOriginalElement,
nsAString& aStr)
{
if (ElementNeedsSeparateEndTag(aElement, aOriginalElement)) {
return AppendToString(kGreaterThan, aStr);
}
// We don't need a separate end tag. For HTML elements (which at this point
// must be non-containers), append a space before the '/', per spec. See
// https://w3c.github.io/DOM-Parsing/#dfn-concept-xml-serialization-algorithm
if (aOriginalElement->IsHTMLElement()) {
if (!AppendToString(kSpace, aStr)) {
return false;
}
}
return AppendToString(NS_LITERAL_STRING("/>"), aStr);
}
NS_IMETHODIMP
nsXMLContentSerializer::AppendElementEnd(Element* aElement,
Element* aOriginalElement,
nsAString& aStr)
{
NS_ENSURE_ARG(aElement);
nsIContent* content = aElement;
bool forceFormat = false, outputElementEnd;
outputElementEnd = CheckElementEnd(aElement, aOriginalElement, forceFormat, aStr);
nsIAtom *name = content->NodeInfo()->NameAtom();
if ((mDoFormat || forceFormat) && !mDoRaw && !PreLevel()) {
DecrIndentation(name);
}
if (!outputElementEnd) {
// Keep this in sync with the cleanup at the end of this method.
PopNameSpaceDeclsFor(aElement);
MaybeLeaveFromPreContent(content);
MaybeFlagNewlineForRootNode(aElement);
AfterElementEnd(content, aStr);
return NS_OK;
}
nsAutoString tagPrefix, tagLocalName, tagNamespaceURI;
aElement->NodeInfo()->GetPrefix(tagPrefix);
aElement->NodeInfo()->GetName(tagLocalName);
aElement->NodeInfo()->GetNamespaceURI(tagNamespaceURI);
#ifdef DEBUG
bool debugNeedToPushNamespace =
#endif
ConfirmPrefix(tagPrefix, tagNamespaceURI, aElement, false);
NS_ASSERTION(!debugNeedToPushNamespace, "Can't push namespaces in closing tag!");
if ((mDoFormat || forceFormat) && !mDoRaw && !PreLevel()) {
bool lineBreakBeforeClose = LineBreakBeforeClose(content->GetNameSpaceID(), name);
if (mColPos && lineBreakBeforeClose) {
NS_ENSURE_TRUE(AppendNewLineToString(aStr), NS_ERROR_OUT_OF_MEMORY);
}
if (!mColPos) {
NS_ENSURE_TRUE(AppendIndentation(aStr), NS_ERROR_OUT_OF_MEMORY);
}
else if (mAddSpace) {
NS_ENSURE_TRUE(AppendToString(char16_t(' '), aStr), NS_ERROR_OUT_OF_MEMORY);
mAddSpace = false;
}
}
else if (mAddSpace) {
NS_ENSURE_TRUE(AppendToString(char16_t(' '), aStr), NS_ERROR_OUT_OF_MEMORY);
mAddSpace = false;
}
NS_ENSURE_TRUE(AppendToString(kEndTag, aStr), NS_ERROR_OUT_OF_MEMORY);
if (!tagPrefix.IsEmpty()) {
NS_ENSURE_TRUE(AppendToString(tagPrefix, aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(NS_LITERAL_STRING(":"), aStr), NS_ERROR_OUT_OF_MEMORY);
}
NS_ENSURE_TRUE(AppendToString(tagLocalName, aStr), NS_ERROR_OUT_OF_MEMORY);
NS_ENSURE_TRUE(AppendToString(kGreaterThan, aStr), NS_ERROR_OUT_OF_MEMORY);
// Keep what follows in sync with the cleanup in the !outputElementEnd case.
PopNameSpaceDeclsFor(aElement);
MaybeLeaveFromPreContent(content);
if ((mDoFormat || forceFormat) && !mDoRaw && !PreLevel()
&& LineBreakAfterClose(content->GetNameSpaceID(), name)) {
NS_ENSURE_TRUE(AppendNewLineToString(aStr), NS_ERROR_OUT_OF_MEMORY);
}
else {
MaybeFlagNewlineForRootNode(aElement);
}
AfterElementEnd(content, aStr);
return NS_OK;
}
NS_IMETHODIMP
nsXMLContentSerializer::AppendDocumentStart(nsIDocument *aDocument,
nsAString& aStr)
{
NS_ENSURE_ARG_POINTER(aDocument);
nsAutoString version, encoding, standalone;
aDocument->GetXMLDeclaration(version, encoding, standalone);
if (version.IsEmpty())
return NS_OK; // A declaration must have version, or there is no decl
NS_NAMED_LITERAL_STRING(endQuote, "\"");
aStr += NS_LITERAL_STRING("<?xml version=\"") + version + endQuote;
if (!mCharset.IsEmpty()) {
aStr += NS_LITERAL_STRING(" encoding=\"") +
NS_ConvertASCIItoUTF16(mCharset) + endQuote;
}
// Otherwise just don't output an encoding attr. Not that we expect
// mCharset to ever be empty.
#ifdef DEBUG
else {
NS_WARNING("Empty mCharset? How come?");
}
#endif
if (!standalone.IsEmpty()) {
aStr += NS_LITERAL_STRING(" standalone=\"") + standalone + endQuote;
}
NS_ENSURE_TRUE(aStr.AppendLiteral("?>", mozilla::fallible), NS_ERROR_OUT_OF_MEMORY);
mAddNewlineForRootNode = true;
return NS_OK;
}
bool
nsXMLContentSerializer::CheckElementStart(nsIContent * aContent,
bool & aForceFormat,
nsAString& aStr,
nsresult& aResult)
{
aResult = NS_OK;
aForceFormat = false;
return true;
}
bool
nsXMLContentSerializer::CheckElementEnd(Element* aElement,
Element* aOriginalElement,
bool& aForceFormat,
nsAString& aStr)
{
// We don't output a separate end tag for empty element
aForceFormat = false;
return ElementNeedsSeparateEndTag(aElement, aOriginalElement);
}
bool
nsXMLContentSerializer::AppendToString(const char16_t aChar,
nsAString& aOutputStr)
{
if (mBodyOnly && !mInBody) {
return true;
}
mColPos += 1;
return aOutputStr.Append(aChar, mozilla::fallible);
}
bool
nsXMLContentSerializer::AppendToString(const nsAString& aStr,
nsAString& aOutputStr)
{
if (mBodyOnly && !mInBody) {
return true;
}
mColPos += aStr.Length();
return aOutputStr.Append(aStr, mozilla::fallible);
}
static const uint16_t kGTVal = 62;
#define _ 0
// This table indexes into kEntityStrings[].
static const uint8_t kEntities[] = {
_, _, _, _, _, _, _, _, _, _,
_, _, _, _, _, _, _, _, _, _,
_, _, _, _, _, _, _, _, _, _,
_, _, _, _, _, _, _, _, 2, _,
_, _, _, _, _, _, _, _, _, _,
_, _, _, _, _, _, _, _, _, _,
3, _, 4
};
// This table indexes into kEntityStrings[].
static const uint8_t kAttrEntities[] = {
_, _, _, _, _, _, _, _, _, _,
_, _, _, _, _, _, _, _, _, _,
_, _, _, _, _, _, _, _, _, _,
_, _, _, _, 1, _, _, _, 2, _,
_, _, _, _, _, _, _, _, _, _,
_, _, _, _, _, _, _, _, _, _,
3, _, 4
};
#undef _
static const char* const kEntityStrings[] = {
/* 0 */ nullptr,
/* 1 */ """,
/* 2 */ "&",
/* 3 */ "<",
/* 4 */ ">",
};
bool
nsXMLContentSerializer::AppendAndTranslateEntities(const nsAString& aStr,
nsAString& aOutputStr)
{
nsReadingIterator<char16_t> done_reading;
aStr.EndReading(done_reading);
// for each chunk of |aString|...
uint32_t advanceLength = 0;
nsReadingIterator<char16_t> iter;
const uint8_t* entityTable = mInAttribute ? kAttrEntities : kEntities;
for (aStr.BeginReading(iter);
iter != done_reading;
iter.advance(int32_t(advanceLength))) {
uint32_t fragmentLength = done_reading - iter;
const char16_t* c = iter.get();
const char16_t* fragmentStart = c;
const char16_t* fragmentEnd = c + fragmentLength;
const char* entityText = nullptr;
advanceLength = 0;
// for each character in this chunk, check if it
// needs to be replaced
for (; c < fragmentEnd; c++, advanceLength++) {
char16_t val = *c;
if ((val <= kGTVal) && entityTable[val]) {
entityText = kEntityStrings[entityTable[val]];
break;
}
}
NS_ENSURE_TRUE(aOutputStr.Append(fragmentStart, advanceLength, mozilla::fallible), false);
if (entityText) {
NS_ENSURE_TRUE(AppendASCIItoUTF16(entityText, aOutputStr, mozilla::fallible), false);
advanceLength++;
}
}
return true;
}
bool
nsXMLContentSerializer::MaybeAddNewlineForRootNode(nsAString& aStr)
{
if (mAddNewlineForRootNode) {
return AppendNewLineToString(aStr);
}
return true;
}
void
nsXMLContentSerializer::MaybeFlagNewlineForRootNode(nsINode* aNode)
{
nsINode* parent = aNode->GetParentNode();
if (parent) {
mAddNewlineForRootNode = parent->IsNodeOfType(nsINode::eDOCUMENT);
}
}
void
nsXMLContentSerializer::MaybeEnterInPreContent(nsIContent* aNode)
{
// support of the xml:space attribute
if (ShouldMaintainPreLevel() &&
aNode->HasAttr(kNameSpaceID_XML, nsGkAtoms::space)) {
nsAutoString space;
aNode->GetAttr(kNameSpaceID_XML, nsGkAtoms::space, space);
if (space.EqualsLiteral("preserve"))
++PreLevel();
}
}
void
nsXMLContentSerializer::MaybeLeaveFromPreContent(nsIContent* aNode)
{
// support of the xml:space attribute
if (ShouldMaintainPreLevel() &&
aNode->HasAttr(kNameSpaceID_XML, nsGkAtoms::space)) {
nsAutoString space;
aNode->GetAttr(kNameSpaceID_XML, nsGkAtoms::space, space);
if (space.EqualsLiteral("preserve"))
--PreLevel();
}
}
bool
nsXMLContentSerializer::AppendNewLineToString(nsAString& aStr)
{
bool result = AppendToString(mLineBreak, aStr);
mMayIgnoreLineBreakSequence = true;
mColPos = 0;
mAddSpace = false;
mIsIndentationAddedOnCurrentLine = false;
return result;
}
bool
nsXMLContentSerializer::AppendIndentation(nsAString& aStr)
{
mIsIndentationAddedOnCurrentLine = true;
bool result = AppendToString(mIndent, aStr);
mAddSpace = false;
mMayIgnoreLineBreakSequence = false;
return result;
}
bool
nsXMLContentSerializer::IncrIndentation(nsIAtom* aName)
{
// we want to keep the source readable
if (mDoWrap &&
mIndent.Length() >= uint32_t(mMaxColumn) - MIN_INDENTED_LINE_LENGTH) {
++mIndentOverflow;
}
else {
return mIndent.AppendLiteral(INDENT_STRING, mozilla::fallible);
}
return true;
}
void
nsXMLContentSerializer::DecrIndentation(nsIAtom* aName)
{
if(mIndentOverflow)
--mIndentOverflow;
else
mIndent.Cut(0, INDENT_STRING_LENGTH);
}
bool
nsXMLContentSerializer::LineBreakBeforeOpen(int32_t aNamespaceID, nsIAtom* aName)
{
return mAddSpace;
}
bool
nsXMLContentSerializer::LineBreakAfterOpen(int32_t aNamespaceID, nsIAtom* aName)
{
return false;
}
bool
nsXMLContentSerializer::LineBreakBeforeClose(int32_t aNamespaceID, nsIAtom* aName)
{
return mAddSpace;
}
bool
nsXMLContentSerializer::LineBreakAfterClose(int32_t aNamespaceID, nsIAtom* aName)
{
return false;
}
bool
nsXMLContentSerializer::AppendToStringConvertLF(const nsAString& aStr,
nsAString& aOutputStr)
{
if (mBodyOnly && !mInBody) {
return true;
}
if (mDoRaw) {
NS_ENSURE_TRUE(AppendToString(aStr, aOutputStr), false);
}
else {
// Convert line-endings to mLineBreak
uint32_t start = 0;
uint32_t theLen = aStr.Length();
while (start < theLen) {
int32_t eol = aStr.FindChar('\n', start);
if (eol == kNotFound) {
nsDependentSubstring dataSubstring(aStr, start, theLen - start);
NS_ENSURE_TRUE(AppendToString(dataSubstring, aOutputStr), false);
start = theLen;
// if there was a line break before this substring
// AppendNewLineToString was called, so we should reverse
// this flag
mMayIgnoreLineBreakSequence = false;
}
else {
nsDependentSubstring dataSubstring(aStr, start, eol - start);
NS_ENSURE_TRUE(AppendToString(dataSubstring, aOutputStr), false);
NS_ENSURE_TRUE(AppendNewLineToString(aOutputStr), false);
start = eol + 1;
}
}
}
return true;
}
bool
nsXMLContentSerializer::AppendFormatedWrapped_WhitespaceSequence(
nsASingleFragmentString::const_char_iterator &aPos,
const nsASingleFragmentString::const_char_iterator aEnd,
const nsASingleFragmentString::const_char_iterator aSequenceStart,
bool &aMayIgnoreStartOfLineWhitespaceSequence,
nsAString &aOutputStr)
{
// Handle the complete sequence of whitespace.
// Continue to iterate until we find the first non-whitespace char.
// Updates "aPos" to point to the first unhandled char.
// Also updates the aMayIgnoreStartOfLineWhitespaceSequence flag,
// as well as the other "global" state flags.
bool sawBlankOrTab = false;
bool leaveLoop = false;
do {
switch (*aPos) {
case ' ':
case '\t':
sawBlankOrTab = true;
MOZ_FALLTHROUGH;
case '\n':
++aPos;
// do not increase mColPos,
// because we will reduce the whitespace to a single char
break;
default:
leaveLoop = true;
break;
}
} while (!leaveLoop && aPos < aEnd);
if (mAddSpace) {
// if we had previously been asked to add space,
// our situation has not changed
}
else if (!sawBlankOrTab && mMayIgnoreLineBreakSequence) {
// nothing to do in the case where line breaks have already been added
// before the call of AppendToStringWrapped
// and only if we found line break in the sequence
mMayIgnoreLineBreakSequence = false;
}
else if (aMayIgnoreStartOfLineWhitespaceSequence) {
// nothing to do
aMayIgnoreStartOfLineWhitespaceSequence = false;
}
else {
if (sawBlankOrTab) {
if (mDoWrap && mColPos + 1 >= mMaxColumn) {
// no much sense in delaying, we only have one slot left,
// let's write a break now
bool result = aOutputStr.Append(mLineBreak, mozilla::fallible);
mColPos = 0;
mIsIndentationAddedOnCurrentLine = false;
mMayIgnoreLineBreakSequence = true;
NS_ENSURE_TRUE(result, false);
}
else {
// do not write out yet, we may write out either a space or a linebreak
// let's delay writing it out until we know more
mAddSpace = true;
++mColPos; // eat a slot of available space
}
}
else {
// Asian text usually does not contain spaces, therefore we should not
// transform a linebreak into a space.
// Since we only saw linebreaks, but no spaces or tabs,
// let's write a linebreak now.
NS_ENSURE_TRUE(AppendNewLineToString(aOutputStr), false);
}
}
return true;
}
bool
nsXMLContentSerializer::AppendWrapped_NonWhitespaceSequence(
nsASingleFragmentString::const_char_iterator &aPos,
const nsASingleFragmentString::const_char_iterator aEnd,
const nsASingleFragmentString::const_char_iterator aSequenceStart,
bool &aMayIgnoreStartOfLineWhitespaceSequence,
bool &aSequenceStartAfterAWhiteSpace,
nsAString& aOutputStr)
{
mMayIgnoreLineBreakSequence = false;
aMayIgnoreStartOfLineWhitespaceSequence = false;
// Handle the complete sequence of non-whitespace in this block
// Iterate until we find the first whitespace char or an aEnd condition
// Updates "aPos" to point to the first unhandled char.
// Also updates the aMayIgnoreStartOfLineWhitespaceSequence flag,
// as well as the other "global" state flags.
bool thisSequenceStartsAtBeginningOfLine = !mColPos;
bool onceAgainBecauseWeAddedBreakInFront = false;
bool foundWhitespaceInLoop;
uint32_t length, colPos;
do {
if (mColPos) {
colPos = mColPos;
}
else {
if (mDoFormat && !mDoRaw && !PreLevel() && !onceAgainBecauseWeAddedBreakInFront) {
colPos = mIndent.Length();
}
else
colPos = 0;
}
foundWhitespaceInLoop = false;
length = 0;
// we iterate until the next whitespace character
// or until we reach the maximum of character per line
// or until the end of the string to add.
do {
if (*aPos == ' ' || *aPos == '\t' || *aPos == '\n') {
foundWhitespaceInLoop = true;
break;
}
++aPos;
++length;
} while ( (!mDoWrap || colPos + length < mMaxColumn) && aPos < aEnd);
// in the case we don't reached the end of the string, but we reached the maxcolumn,
// we see if there is a whitespace after the maxcolumn
// if yes, then we can append directly the string instead of
// appending a new line etc.
if (*aPos == ' ' || *aPos == '\t' || *aPos == '\n') {
foundWhitespaceInLoop = true;
}
if (aPos == aEnd || foundWhitespaceInLoop) {
// there is enough room for the complete block we found
if (mDoFormat && !mColPos) {
NS_ENSURE_TRUE(AppendIndentation(aOutputStr), false);
}
else if (mAddSpace) {
bool result = aOutputStr.Append(char16_t(' '), mozilla::fallible);
mAddSpace = false;
NS_ENSURE_TRUE(result, false);
}
mColPos += length;
NS_ENSURE_TRUE(aOutputStr.Append(aSequenceStart, aPos - aSequenceStart, mozilla::fallible), false);
// We have not yet reached the max column, we will continue to
// fill the current line in the next outer loop iteration
// (this one in AppendToStringWrapped)
// make sure we return in this outer loop
onceAgainBecauseWeAddedBreakInFront = false;
}
else { // we reach the max column
if (!thisSequenceStartsAtBeginningOfLine &&
(mAddSpace || (!mDoFormat && aSequenceStartAfterAWhiteSpace))) {
// when !mDoFormat, mAddSpace is not used, mAddSpace is always false
// so, in the case where mDoWrap && !mDoFormat, if we want to enter in this condition...
// We can avoid to wrap. We try to add the whole block
// in an empty new line
NS_ENSURE_TRUE(AppendNewLineToString(aOutputStr), false);
aPos = aSequenceStart;
thisSequenceStartsAtBeginningOfLine = true;
onceAgainBecauseWeAddedBreakInFront = true;
}
else {
// we must wrap
onceAgainBecauseWeAddedBreakInFront = false;
bool foundWrapPosition = false;
int32_t wrapPosition = 0;
if (mAllowLineBreaking) {
nsILineBreaker *lineBreaker = nsContentUtils::LineBreaker();
wrapPosition = lineBreaker->Prev(aSequenceStart,
(aEnd - aSequenceStart),
(aPos - aSequenceStart) + 1);
if (wrapPosition != NS_LINEBREAKER_NEED_MORE_TEXT) {
foundWrapPosition = true;
}
else {
wrapPosition = lineBreaker->Next(aSequenceStart,
(aEnd - aSequenceStart),
(aPos - aSequenceStart));
if (wrapPosition != NS_LINEBREAKER_NEED_MORE_TEXT) {
foundWrapPosition = true;
}
}
}
if (foundWrapPosition) {
if (!mColPos && mDoFormat) {
NS_ENSURE_TRUE(AppendIndentation(aOutputStr), false);
}
else if (mAddSpace) {
bool result = aOutputStr.Append(char16_t(' '), mozilla::fallible);
mAddSpace = false;
NS_ENSURE_TRUE(result, false);
}
NS_ENSURE_TRUE(aOutputStr.Append(aSequenceStart, wrapPosition, mozilla::fallible), false);
NS_ENSURE_TRUE(AppendNewLineToString(aOutputStr), false);
aPos = aSequenceStart + wrapPosition;
aMayIgnoreStartOfLineWhitespaceSequence = true;
}
else {
// try some simple fallback logic
// go forward up to the next whitespace position,
// in the worst case this will be all the rest of the data
// we update the mColPos variable with the length of
// the part already parsed.
mColPos += length;
// now try to find the next whitespace
do {
if (*aPos == ' ' || *aPos == '\t' || *aPos == '\n') {
break;
}
++aPos;
++mColPos;
} while (aPos < aEnd);
if (mAddSpace) {
bool result = aOutputStr.Append(char16_t(' '), mozilla::fallible);
mAddSpace = false;
NS_ENSURE_TRUE(result, false);
}
NS_ENSURE_TRUE(aOutputStr.Append(aSequenceStart, aPos - aSequenceStart, mozilla::fallible), false);
}
}
aSequenceStartAfterAWhiteSpace = false;
}
} while (onceAgainBecauseWeAddedBreakInFront);
return true;
}
bool
nsXMLContentSerializer::AppendToStringFormatedWrapped(const nsASingleFragmentString& aStr,
nsAString& aOutputStr)
{
if (mBodyOnly && !mInBody) {
return true;
}
nsASingleFragmentString::const_char_iterator pos, end, sequenceStart;
aStr.BeginReading(pos);
aStr.EndReading(end);
bool sequenceStartAfterAWhitespace = false;
if (pos < end) {
nsAString::const_char_iterator end2;
aOutputStr.EndReading(end2);
--end2;
if (*end2 == ' ' || *end2 == '\n' || *end2 == '\t') {
sequenceStartAfterAWhitespace = true;
}
}
// if the current line already has text on it, such as a tag,
// leading whitespace is significant
bool mayIgnoreStartOfLineWhitespaceSequence =
(!mColPos || (mIsIndentationAddedOnCurrentLine &&
sequenceStartAfterAWhitespace &&
uint32_t(mColPos) == mIndent.Length()));
while (pos < end) {
sequenceStart = pos;
// if beginning of a whitespace sequence
if (*pos == ' ' || *pos == '\n' || *pos == '\t') {
NS_ENSURE_TRUE(AppendFormatedWrapped_WhitespaceSequence(pos, end, sequenceStart,
mayIgnoreStartOfLineWhitespaceSequence, aOutputStr), false);
}
else { // any other non-whitespace char
NS_ENSURE_TRUE(AppendWrapped_NonWhitespaceSequence(pos, end, sequenceStart,
mayIgnoreStartOfLineWhitespaceSequence, sequenceStartAfterAWhitespace,
aOutputStr), false);
}
}
return true;
}
bool
nsXMLContentSerializer::AppendWrapped_WhitespaceSequence(
nsASingleFragmentString::const_char_iterator &aPos,
const nsASingleFragmentString::const_char_iterator aEnd,
const nsASingleFragmentString::const_char_iterator aSequenceStart,
nsAString &aOutputStr)
{
// Handle the complete sequence of whitespace.
// Continue to iterate until we find the first non-whitespace char.
// Updates "aPos" to point to the first unhandled char.
mAddSpace = false;
mIsIndentationAddedOnCurrentLine = false;
bool leaveLoop = false;
nsASingleFragmentString::const_char_iterator lastPos = aPos;
do {
switch (*aPos) {
case ' ':
case '\t':
// if there are too many spaces on a line, we wrap
if (mColPos >= mMaxColumn) {
if (lastPos != aPos) {
NS_ENSURE_TRUE(aOutputStr.Append(lastPos, aPos - lastPos, mozilla::fallible), false);
}
NS_ENSURE_TRUE(AppendToString(mLineBreak, aOutputStr), false);
mColPos = 0;
lastPos = aPos;
}
++mColPos;
++aPos;
break;
case '\n':
if (lastPos != aPos) {
NS_ENSURE_TRUE(aOutputStr.Append(lastPos, aPos - lastPos, mozilla::fallible), false);
}
NS_ENSURE_TRUE(AppendToString(mLineBreak, aOutputStr), false);
mColPos = 0;
++aPos;
lastPos = aPos;
break;
default:
leaveLoop = true;
break;
}
} while (!leaveLoop && aPos < aEnd);
if (lastPos != aPos) {
NS_ENSURE_TRUE(aOutputStr.Append(lastPos, aPos - lastPos, mozilla::fallible), false);
}
return true;
}
bool
nsXMLContentSerializer::AppendToStringWrapped(const nsASingleFragmentString& aStr,
nsAString& aOutputStr)
{
if (mBodyOnly && !mInBody) {
return true;
}
nsASingleFragmentString::const_char_iterator pos, end, sequenceStart;
aStr.BeginReading(pos);
aStr.EndReading(end);
// not used in this case, but needed by AppendWrapped_NonWhitespaceSequence
bool mayIgnoreStartOfLineWhitespaceSequence = false;
mMayIgnoreLineBreakSequence = false;
bool sequenceStartAfterAWhitespace = false;
if (pos < end && !aOutputStr.IsEmpty()) {
nsAString::const_char_iterator end2;
aOutputStr.EndReading(end2);
--end2;
if (*end2 == ' ' || *end2 == '\n' || *end2 == '\t') {
sequenceStartAfterAWhitespace = true;
}
}
while (pos < end) {
sequenceStart = pos;
// if beginning of a whitespace sequence
if (*pos == ' ' || *pos == '\n' || *pos == '\t') {
sequenceStartAfterAWhitespace = true;
NS_ENSURE_TRUE(AppendWrapped_WhitespaceSequence(pos, end,
sequenceStart, aOutputStr), false);
}
else { // any other non-whitespace char
NS_ENSURE_TRUE(AppendWrapped_NonWhitespaceSequence(pos, end, sequenceStart,
mayIgnoreStartOfLineWhitespaceSequence,
sequenceStartAfterAWhitespace, aOutputStr), false);
}
}
return true;
}
bool
nsXMLContentSerializer::ShouldMaintainPreLevel() const
{
// Only attempt to maintain the pre level for consumers who care about it.
return !mDoRaw || (mFlags & nsIDocumentEncoder::OutputNoFormattingInPre);
}
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