/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- * * The contents of this file are subject to the Netscape Public License * Version 1.0 (the "NPL"); you may not use this file except in * compliance with the NPL. You may obtain a copy of the NPL at * http://www.mozilla.org/NPL/ * * Software distributed under the NPL is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL * for the specific language governing rights and limitations under the * NPL. * * The Initial Developer of this code under the NPL is Netscape * Communications Corporation. Portions created by Netscape are * Copyright (C) 1998 Netscape Communications Corporation. All Rights * Reserved. */ #include "nsICSSParser.h" #include "nsCSSProps.h" #include "nsCSSKeywords.h" #include "nsCSSScanner.h" #include "nsICSSLoader.h" #include "nsICSSStyleRule.h" #include "nsICSSImportRule.h" #include "nsICSSMediaRule.h" #include "nsICSSCharsetRule.h" #include "nsICSSNameSpaceRule.h" #include "nsIUnicharInputStream.h" #include "nsIStyleSet.h" #include "nsICSSStyleSheet.h" #include "nsICSSDeclaration.h" #include "nsStyleConsts.h" #include "nsIURL.h" #ifdef NECKO #include "nsIIOService.h" #include "nsIURI.h" #include "nsIServiceManager.h" static NS_DEFINE_CID(kIOServiceCID, NS_IOSERVICE_CID); #endif // NECKO #include "nsIURLGroup.h" #include "nsString.h" #include "nsIAtom.h" #include "nsVoidArray.h" #include "nsISupportsArray.h" #include "nsColor.h" #include "nsStyleConsts.h" #include "nsCSSAtoms.h" #include "nsINameSpaceManager.h" #include "nsINameSpace.h" // XXX TODO: // - rework aErrorCode stuff: switch over to nsresult // verify ! is followed by important and nothing else static NS_DEFINE_IID(kICSSParserIID, NS_ICSS_PARSER_IID); static NS_DEFINE_IID(kICSSStyleSheetIID, NS_ICSS_STYLE_SHEET_IID); static NS_DEFINE_IID(kIStyleSheetIID, NS_ISTYLE_SHEET_IID); #define KEYWORD_BUFFER_SIZE 100 // big enough for any keyword // e.g. "P B, H1 B { ... }" has a selector list with two elements, // each of which has two selectors. struct SelectorList { SelectorList(void); ~SelectorList(void); void AddSelector(const nsCSSSelector& aSelector); #ifdef NS_DEBUG void Dump(void); #endif nsCSSSelector* mSelectors; nsAutoString mSourceString; PRInt32 mWeight; SelectorList* mNext; }; SelectorList::SelectorList(void) : mSelectors(nsnull), mNext(nsnull) { } SelectorList::~SelectorList() { nsCSSSelector* sel = mSelectors; while (nsnull != sel) { nsCSSSelector* dead = sel; sel = sel->mNext; delete dead; } if (nsnull != mNext) { delete mNext; } } void SelectorList::AddSelector(const nsCSSSelector& aSelector) { // prepend to list nsCSSSelector* newSel = new nsCSSSelector(aSelector); if (nsnull != newSel) { newSel->mNext = mSelectors; mSelectors = newSel; } } #ifdef NS_DEBUG void SelectorList::Dump() { } #endif //---------------------------------------------------------------------- // Your basic top-down recursive descent style parser class CSSParserImpl : public nsICSSParser { public: CSSParserImpl(); virtual ~CSSParserImpl(); NS_DECL_ISUPPORTS NS_IMETHOD Init(nsICSSStyleSheet* aSheet); NS_IMETHOD GetInfoMask(PRUint32& aResult); NS_IMETHOD SetStyleSheet(nsICSSStyleSheet* aSheet); NS_IMETHOD SetCaseSensitive(PRBool aCaseSensitive); NS_IMETHOD SetChildLoader(nsICSSLoader* aChildLoader); NS_IMETHOD Parse(nsIUnicharInputStream* aInput, nsIURL* aInputURL, nsICSSStyleSheet*& aResult); NS_IMETHOD ParseDeclarations(const nsString& aDeclaration, nsIURL* aBaseURL, nsIStyleRule*& aResult); NS_IMETHOD ParseAndAppendDeclaration(const nsString& aBuffer, nsIURL* aBaseURL, nsICSSDeclaration* aDeclaration, PRInt32* aHint); protected: PRBool GetToken(PRInt32& aErrorCode, PRBool aSkipWS); PRBool GetURLToken(PRInt32& aErrorCode, PRBool aSkipWS); void UngetToken(); PRBool ExpectSymbol(PRInt32& aErrorCode, PRUnichar aSymbol, PRBool aSkipWS); PRBool ExpectEndProperty(PRInt32& aErrorCode, PRBool aSkipWS); nsString* NextIdent(PRInt32& aErrorCode); void SkipUntil(PRInt32& aErrorCode, PRUnichar aStopSymbol); void SkipRuleSet(PRInt32& aErrorCode); PRBool SkipAtRule(PRInt32& aErrorCode); PRBool SkipDeclaration(PRInt32& aErrorCode, PRBool aCheckForBraces); PRBool PushGroup(nsICSSGroupRule* aRule); void PopGroup(void); void AppendRule(nsICSSRule* aRule); PRBool ParseRuleSet(PRInt32& aErrorCode); PRBool ParseAtRule(PRInt32& aErrorCode); PRBool ParseCharsetRule(PRInt32& aErrorCode); PRBool ParseImportRule(PRInt32& aErrorCode); PRBool GatherMedia(PRInt32& aErrorCode, nsString& aMedia, nsISupportsArray* aMediaAtoms); PRBool ProcessImport(PRInt32& aErrorCode, const nsString& aURLSpec, const nsString& aMedia); PRBool ParseMediaRule(PRInt32& aErrorCode); PRBool ParseNameSpaceRule(PRInt32& aErrorCode); PRBool ProcessNameSpace(PRInt32& aErrorCode, const nsString& aPrefix, const nsString& aURLSpec); PRBool ParseFontFaceRule(PRInt32& aErrorCode); PRBool ParsePageRule(PRInt32& aErrorCode); PRBool ParseSelectorList(PRInt32& aErrorCode, SelectorList*& aListHead); PRBool ParseSelectorGroup(PRInt32& aErrorCode, SelectorList*& aListHead); PRBool ParseSelector(PRInt32& aErrorCode, nsCSSSelector& aSelectorResult, nsString& aSource); nsICSSDeclaration* ParseDeclarationBlock(PRInt32& aErrorCode, PRBool aCheckForBraces); PRBool ParseDeclaration(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration, PRBool aCheckForBraces, PRInt32& aChangeHint); PRBool ParseProperty(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration, PRInt32 aPropID, PRInt32& aChangeHint); PRBool ParseProperty(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration, PRInt32 aPropID); PRBool ParseSingleValueProperty(PRInt32& aErrorCode, nsCSSValue& aValue, PRInt32 aPropID); // Property specific parsing routines PRBool ParseAzimuth(PRInt32& aErrorCode, nsCSSValue& aValue); PRBool ParseBackground(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseBackgroundFilter(PRInt32& aErrorCode, nsCSSValue& aValue); PRBool ParseForegroundFilter(PRInt32& aErrorCode, nsCSSValue& aValue); PRBool ParseBackgroundPosition(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseBorder(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseBorderColor(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseBorderSpacing(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseBorderSide(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration, const PRInt32 aPropIDs[]); PRBool ParseBorderStyle(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseBorderWidth(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseClip(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseContent(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseCounterData(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration, PRInt32 aPropID); PRBool ParseCue(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseCursor(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseFont(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseFamily(PRInt32& aErrorCode, nsCSSValue& aValue); PRBool ParseListStyle(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseMargin(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseMarks(PRInt32& aErrorCode, nsCSSValue& aValue); PRBool ParseOutline(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParsePadding(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParsePause(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParsePlayDuring(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseQuotes(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseSize(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); PRBool ParseTextDecoration(PRInt32& aErrorCode, nsCSSValue& aValue); PRBool ParseTextShadow(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration); // Reused utility parsing routines PRBool ParseBoxProperties(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration, const PRInt32 aPropIDs[]); PRInt32 ParseChoice(PRInt32& aErrorCode, nsCSSValue aValues[], const PRInt32 aPropIDs[], PRInt32 aNumIDs); PRBool ParseColor(PRInt32& aErrorCode, nsCSSValue& aValue); PRBool ParseColorComponent(PRInt32& aErrorCode, PRUint8& aComponent, char aStop); PRBool ParseEnum(PRInt32& aErrorCode, nsCSSValue& aValue, const PRInt32 aKeywordTable[]); PRInt32 SearchKeywordTable(PRInt32 aID, const PRInt32 aTable[]); PRBool ParseVariant(PRInt32& aErrorCode, nsCSSValue& aValue, PRInt32 aVariantMask, const PRInt32 aKeywordTable[]); PRBool ParsePositiveVariant(PRInt32& aErrorCode, nsCSSValue& aValue, PRInt32 aVariantMask, const PRInt32 aKeywordTable[]); PRBool ParseCounter(PRInt32& aErrorCode, nsCSSValue& aValue); PRBool ParseAttr(PRInt32& aErrorCode, nsCSSValue& aValue); PRBool ParseURL(PRInt32& aErrorCode, nsCSSValue& aValue); PRBool TranslateDimension(nsCSSValue& aValue, PRInt32 aVariantMask, float aNumber, const nsString& aUnit); // Current token. The value is valid after calling GetToken nsCSSToken mToken; // After an UngetToken is done this flag is true. The next call to // GetToken clears the flag. PRBool mHavePushBack; nsCSSScanner* mScanner; nsIURL* mURL; nsICSSStyleSheet* mSheet; PRInt32 mChildSheetCount; nsICSSLoader* mChildLoader; // not ref counted, it owns us enum nsCSSSection { eCSSSection_Charset, eCSSSection_Import, eCSSSection_NameSpace, eCSSSection_General }; nsCSSSection mSection; PRBool mNavQuirkMode; PRBool mCaseSensitive; nsINameSpace* mNameSpace; nsISupportsArray* mGroupStack; }; NS_HTML nsresult NS_NewCSSParser(nsICSSParser** aInstancePtrResult) { CSSParserImpl *it = new CSSParserImpl(); if (it == nsnull) { return NS_ERROR_OUT_OF_MEMORY; } return it->QueryInterface(kICSSParserIID, (void **) aInstancePtrResult); } CSSParserImpl::CSSParserImpl() : mToken(), mHavePushBack(PR_FALSE), mScanner(nsnull), mURL(nsnull), mSheet(nsnull), mChildSheetCount(0), mChildLoader(nsnull), mSection(eCSSSection_Charset), mNavQuirkMode(PR_TRUE), mCaseSensitive(PR_FALSE), mNameSpace(nsnull), mGroupStack(nsnull) { NS_INIT_REFCNT(); nsCSSAtoms::AddrefAtoms(); } NS_IMETHODIMP CSSParserImpl::Init(nsICSSStyleSheet* aSheet) { NS_IF_RELEASE(mGroupStack); NS_IF_RELEASE(mNameSpace); NS_IF_RELEASE(mSheet); mSheet = aSheet; if (mSheet) { NS_ADDREF(aSheet); mSheet->StyleSheetCount(mChildSheetCount); mSheet->GetNameSpace(mNameSpace); } return NS_OK; } NS_IMPL_ISUPPORTS(CSSParserImpl,kICSSParserIID) CSSParserImpl::~CSSParserImpl() { NS_IF_RELEASE(mGroupStack); NS_IF_RELEASE(mNameSpace); NS_IF_RELEASE(mSheet); nsCSSAtoms::ReleaseAtoms(); } NS_IMETHODIMP CSSParserImpl::GetInfoMask(PRUint32& aResult) { aResult = NS_CSS_GETINFO_CSS1 | NS_CSS_GETINFO_CSSP; return NS_OK; } NS_IMETHODIMP CSSParserImpl::SetStyleSheet(nsICSSStyleSheet* aSheet) { NS_PRECONDITION(nsnull != aSheet, "null ptr"); if (nsnull == aSheet) { return NS_ERROR_NULL_POINTER; } if (aSheet != mSheet) { // Switch to using the new sheet NS_IF_RELEASE(mGroupStack); NS_IF_RELEASE(mNameSpace); NS_IF_RELEASE(mSheet); mSheet = aSheet; NS_ADDREF(mSheet); mSheet->StyleSheetCount(mChildSheetCount); mSheet->GetNameSpace(mNameSpace); } return NS_OK; } NS_IMETHODIMP CSSParserImpl::SetCaseSensitive(PRBool aCaseSensitive) { mCaseSensitive = aCaseSensitive; return NS_OK; } NS_IMETHODIMP CSSParserImpl::SetChildLoader(nsICSSLoader* aChildLoader) { mChildLoader = aChildLoader; // not ref counted, it owns us return NS_OK; } NS_IMETHODIMP CSSParserImpl::Parse(nsIUnicharInputStream* aInput, nsIURL* aInputURL, nsICSSStyleSheet*& aResult) { NS_ASSERTION(nsnull != aInputURL, "need base URL"); if (! mSheet) { NS_NewCSSStyleSheet(&mSheet, aInputURL); mChildSheetCount = 0; } if (! mSheet) { return NS_ERROR_OUT_OF_MEMORY; } PRInt32 errorCode = NS_OK; mScanner = new nsCSSScanner(); if (nsnull == mScanner) { return NS_ERROR_OUT_OF_MEMORY; } mScanner->Init(aInput); mURL = aInputURL; NS_IF_ADDREF(aInputURL); PRInt32 ruleCount = 0; mSheet->StyleRuleCount(ruleCount); if (0 < ruleCount) { nsICSSRule* lastRule = nsnull; mSheet->GetStyleRuleAt(ruleCount - 1, lastRule); if (lastRule) { PRInt32 type; lastRule->GetType(type); switch (type) { case nsICSSRule::CHARSET_RULE: case nsICSSRule::IMPORT_RULE: mSection = eCSSSection_Import; break; case nsICSSRule::NAMESPACE_RULE: mSection = eCSSSection_NameSpace; break; default: mSection = eCSSSection_General; break; } NS_RELEASE(lastRule); } } else { mSection = eCSSSection_Charset; // sheet is empty, any rules are fair } nsCSSToken* tk = &mToken; for (;;) { // Get next non-whitespace token if (!GetToken(errorCode, PR_TRUE)) { break; } if (eCSSToken_HTMLComment == tk->mType) { continue; // legal here only } if (eCSSToken_AtKeyword == tk->mType) { ParseAtRule(errorCode); continue; } UngetToken(); if (ParseRuleSet(errorCode)) { mSection = eCSSSection_General; } } delete mScanner; mScanner = nsnull; NS_IF_RELEASE(mURL); aResult = mSheet; NS_ADDREF(aResult); return NS_OK; } NS_IMETHODIMP CSSParserImpl::ParseDeclarations(const nsString& aDeclaration, nsIURL* aBaseURL, nsIStyleRule*& aResult) { NS_ASSERTION(nsnull != aBaseURL, "need base URL"); nsString* str = new nsString(aDeclaration); if (nsnull == str) { return NS_ERROR_OUT_OF_MEMORY; } nsIUnicharInputStream* input = nsnull; nsresult rv = NS_NewStringUnicharInputStream(&input, str); if (NS_OK != rv) { delete str; return rv; } mScanner = new nsCSSScanner(); if (nsnull == mScanner) { NS_RELEASE(input); return NS_ERROR_OUT_OF_MEMORY; } mScanner->Init(input); NS_RELEASE(input); mURL = aBaseURL; NS_IF_ADDREF(mURL); mSection = eCSSSection_General; PRInt32 errorCode = NS_OK; nsICSSDeclaration* declaration = ParseDeclarationBlock(errorCode, PR_FALSE); if (nsnull != declaration) { // Create a style rule for the delcaration nsICSSStyleRule* rule = nsnull; NS_NewCSSStyleRule(&rule, nsCSSSelector()); rule->SetDeclaration(declaration); aResult = rule; NS_RELEASE(declaration); } else { aResult = nsnull; } delete mScanner; mScanner = nsnull; NS_IF_RELEASE(mURL); return NS_OK; } NS_IMETHODIMP CSSParserImpl::ParseAndAppendDeclaration(const nsString& aBuffer, nsIURL* aBaseURL, nsICSSDeclaration* aDeclaration, PRInt32* aHint) { NS_ASSERTION(nsnull != aBaseURL, "need base URL"); nsString* str = new nsString(aBuffer); if (nsnull == str) { return NS_ERROR_OUT_OF_MEMORY; } nsIUnicharInputStream* input = nsnull; nsresult rv = NS_NewStringUnicharInputStream(&input, str); if (NS_OK != rv) { delete str; return rv; } mScanner = new nsCSSScanner(); if (nsnull == mScanner) { NS_RELEASE(input); return NS_ERROR_OUT_OF_MEMORY; } mScanner->Init(input); NS_RELEASE(input); mURL = aBaseURL; NS_IF_ADDREF(mURL); mSection = eCSSSection_General; PRInt32 errorCode = NS_OK; PRInt32 hint = NS_STYLE_HINT_UNKNOWN; ParseDeclaration(errorCode, aDeclaration, PR_FALSE, hint); if (nsnull != aHint) { *aHint = hint; } delete mScanner; mScanner = nsnull; NS_IF_RELEASE(mURL); return NS_OK; } //---------------------------------------------------------------------- PRBool CSSParserImpl::GetToken(PRInt32& aErrorCode, PRBool aSkipWS) { for (;;) { if (!mHavePushBack) { if (!mScanner->Next(aErrorCode, mToken)) { break; } } mHavePushBack = PR_FALSE; if (aSkipWS && (eCSSToken_WhiteSpace == mToken.mType)) { continue; } return PR_TRUE; } return PR_FALSE; } PRBool CSSParserImpl::GetURLToken(PRInt32& aErrorCode, PRBool aSkipWS) { for (;;) { if (! mHavePushBack) { if (! mScanner->NextURL(aErrorCode, mToken)) { break; } } mHavePushBack = PR_FALSE; if (aSkipWS && (eCSSToken_WhiteSpace == mToken.mType)) { continue; } return PR_TRUE; } return PR_FALSE; } void CSSParserImpl::UngetToken() { NS_PRECONDITION(mHavePushBack == PR_FALSE, "double pushback"); mHavePushBack = PR_TRUE; } PRBool CSSParserImpl::ExpectSymbol(PRInt32& aErrorCode, PRUnichar aSymbol, PRBool aSkipWS) { if (!GetToken(aErrorCode, aSkipWS)) { return PR_FALSE; } if (mToken.IsSymbol(aSymbol)) { return PR_TRUE; } UngetToken(); return PR_FALSE; } PRBool CSSParserImpl::ExpectEndProperty(PRInt32& aErrorCode, PRBool aSkipWS) { if (!GetToken(aErrorCode, aSkipWS)) { return PR_TRUE; // properties may end with eof } if ((eCSSToken_Symbol == mToken.mType) && ((';' == mToken.mSymbol) || ('!' == mToken.mSymbol) || ('}' == mToken.mSymbol))) { // XXX need to verify that ! is only followed by "important [;|}] // XXX this requires a multi-token pushback buffer UngetToken(); return PR_TRUE; } UngetToken(); return PR_FALSE; } nsString* CSSParserImpl::NextIdent(PRInt32& aErrorCode) { if (!GetToken(aErrorCode, PR_TRUE)) { return nsnull; } if (eCSSToken_Ident != mToken.mType) { UngetToken(); return nsnull; } return &mToken.mIdent; } PRBool CSSParserImpl::SkipAtRule(PRInt32& aErrorCode) { for (;;) { if (!GetToken(aErrorCode, PR_TRUE)) { return PR_FALSE; } if (eCSSToken_Symbol == mToken.mType) { PRUnichar symbol = mToken.mSymbol; if (symbol == ';') { break; } if (symbol == '{') { SkipUntil(aErrorCode, '}'); break; } else if (symbol == '(') { SkipUntil(aErrorCode, ')'); } else if (symbol == '[') { SkipUntil(aErrorCode, ']'); } } } return PR_TRUE; } PRBool CSSParserImpl::ParseAtRule(PRInt32& aErrorCode) { if ((mSection <= eCSSSection_Charset) && (mToken.mIdent.EqualsIgnoreCase("charset"))) { if (ParseCharsetRule(aErrorCode)) { mSection = eCSSSection_Import; // only one charset allowed return PR_TRUE; } } if ((mSection <= eCSSSection_Import) && mToken.mIdent.EqualsIgnoreCase("import")) { if (ParseImportRule(aErrorCode)) { mSection = eCSSSection_Import; return PR_TRUE; } } if ((mSection <= eCSSSection_NameSpace) && mToken.mIdent.EqualsIgnoreCase("namespace")) { if (ParseNameSpaceRule(aErrorCode)) { mSection = eCSSSection_NameSpace; return PR_TRUE; } } if (mToken.mIdent.EqualsIgnoreCase("media")) { if (ParseMediaRule(aErrorCode)) { mSection = eCSSSection_General; return PR_TRUE; } } if (mToken.mIdent.EqualsIgnoreCase("font-face")) { if (ParseFontFaceRule(aErrorCode)) { mSection = eCSSSection_General; return PR_TRUE; } } if (mToken.mIdent.EqualsIgnoreCase("page")) { if (ParsePageRule(aErrorCode)) { mSection = eCSSSection_General; return PR_TRUE; } } // Skip over unsupported at rule, don't advance section return SkipAtRule(aErrorCode); } PRBool CSSParserImpl::ParseCharsetRule(PRInt32& aErrorCode) { // XXX not yet implemented return PR_FALSE; } PRBool CSSParserImpl::GatherMedia(PRInt32& aErrorCode, nsString& aMedia, nsISupportsArray* aMediaAtoms) { PRBool first = PR_TRUE; PRBool expectIdent = PR_TRUE; for (;;) { if (!GetToken(aErrorCode, PR_TRUE)) { break; } if (eCSSToken_Symbol == mToken.mType) { PRUnichar symbol = mToken.mSymbol; if ((';' == symbol) || ('{' == symbol)) { UngetToken(); return PR_TRUE; } else if (',' != symbol) { UngetToken(); break; } else if (expectIdent) { UngetToken(); break; } else { expectIdent = PR_TRUE; } } else if (eCSSToken_Ident == mToken.mType) { if (expectIdent) { if (! first) { aMedia.Append(','); } mToken.mIdent.ToLowerCase(); // case insensitive from CSS - must be lower cased if (aMediaAtoms) { nsIAtom* medium = NS_NewAtom(mToken.mIdent); aMediaAtoms->AppendElement(medium); NS_RELEASE(medium); } aMedia.Append(mToken.mIdent); first = PR_FALSE; expectIdent = PR_FALSE; } else { UngetToken(); break; } } else { UngetToken(); break; } } aMedia.Truncate(); if (aMediaAtoms) { aMediaAtoms->Clear(); } return PR_FALSE; } // Parse a CSS2 import rule: "@import STRING | URL [medium [, mdeium]]" PRBool CSSParserImpl::ParseImportRule(PRInt32& aErrorCode) { if (!GetToken(aErrorCode, PR_TRUE)) { return PR_FALSE; } nsAutoString url; nsAutoString media; if (eCSSToken_String == mToken.mType) { url = mToken.mIdent; if (GatherMedia(aErrorCode, media, nsnull)) { if (ExpectSymbol(aErrorCode, ';', PR_TRUE)) { ProcessImport(aErrorCode, url, media); return PR_TRUE; } } } else if ((eCSSToken_Function == mToken.mType) && (mToken.mIdent.EqualsIgnoreCase("url"))) { if (ExpectSymbol(aErrorCode, '(', PR_FALSE)) { if (GetURLToken(aErrorCode, PR_TRUE)) { if ((eCSSToken_String == mToken.mType) || (eCSSToken_URL == mToken.mType)) { url = mToken.mIdent; if (ExpectSymbol(aErrorCode, ')', PR_TRUE)) { if (GatherMedia(aErrorCode, media, nsnull)) { if (ExpectSymbol(aErrorCode, ';', PR_TRUE)) { ProcessImport(aErrorCode, url, media); return PR_TRUE; } } } } } } } // don't advance section, simply ignore invalid @import return PR_FALSE; } PRBool CSSParserImpl::ProcessImport(PRInt32& aErrorCode, const nsString& aURLSpec, const nsString& aMedia) { PRBool result = PR_FALSE; nsICSSImportRule* rule = nsnull; NS_NewCSSImportRule(&rule, aURLSpec, aMedia); if (rule) { AppendRule(rule); NS_RELEASE(rule); } if (mChildLoader) { // XXX probably need a way to encode unicode junk for the part of // the url that follows a "?" nsIURL* url; nsIURLGroup* urlGroup = nsnull; mURL->GetURLGroup(&urlGroup); if (urlGroup) { aErrorCode = urlGroup->CreateURL(&url, mURL, aURLSpec, nsnull); NS_RELEASE(urlGroup); } else { #ifndef NECKO aErrorCode = NS_NewURL(&url, aURLSpec, mURL); #else nsresult rv; NS_WITH_SERVICE(nsIIOService, service, kIOServiceCID, &rv); if (NS_FAILED(rv)) return PR_FALSE; nsIURI *uri = nsnull, *baseUri = nsnull; rv = mURL->QueryInterface(nsIURI::GetIID(), (void**)&baseUri); if (NS_FAILED(rv)) return PR_FALSE; const char *uriStr = aURLSpec.GetBuffer(); rv = service->NewURI(uriStr, baseUri, &uri); NS_RELEASE(baseUri); if (NS_FAILED(rv)) return PR_FALSE; rv = uri->QueryInterface(nsIURL::GetIID(), (void**)&url); NS_RELEASE(uri); #endif // NECKO } if (NS_FAILED(aErrorCode)) { // import url is bad // XXX log this somewhere for easier web page debugging return PR_FALSE; } if (NS_COMFALSE == mSheet->ContainsStyleSheet(url)) { // don't allow circular references mChildLoader->LoadChildSheet(mSheet, url, aMedia, kNameSpaceID_Unknown, mChildSheetCount++); } NS_RELEASE(url); } return result; } // Parse a CSS2 media rule: "@media medium [, mdeium] { ... }" PRBool CSSParserImpl::ParseMediaRule(PRInt32& aErrorCode) { nsAutoString mediaStr; nsISupportsArray* media = nsnull; NS_NewISupportsArray(&media); if (media) { if (GatherMedia(aErrorCode, mediaStr, media)) { if ((0 < mediaStr.Length()) && ExpectSymbol(aErrorCode, '{', PR_TRUE)) { // push media rule on stack, loop over children nsICSSMediaRule* rule = nsnull; NS_NewCSSMediaRule(&rule); if (rule) { if (PushGroup(rule)) { nsCSSSection holdSection = mSection; mSection = eCSSSection_General; for (;;) { // Get next non-whitespace token if (! GetToken(aErrorCode, PR_TRUE)) { break; } if (mToken.IsSymbol('}')) { // done! UngetToken(); break; } if (eCSSToken_AtKeyword == mToken.mType) { SkipAtRule(aErrorCode); // @media cannot contain @rules continue; } UngetToken(); ParseRuleSet(aErrorCode); } PopGroup(); if (ExpectSymbol(aErrorCode, '}', PR_TRUE)) { rule->SetMedia(media); AppendRule(rule); NS_RELEASE(rule); NS_RELEASE(media); return PR_TRUE; } mSection = holdSection; } NS_RELEASE(rule); } else { // failed to create rule, backup and skip block UngetToken(); } } } NS_RELEASE(media); } return PR_FALSE; } // Parse a CSS3 namespace rule: "@namespace [prefix] STRING | URL;" PRBool CSSParserImpl::ParseNameSpaceRule(PRInt32& aErrorCode) { if (!GetToken(aErrorCode, PR_TRUE)) { return PR_FALSE; } nsAutoString prefix; nsAutoString url; if (eCSSToken_Ident == mToken.mType) { prefix = mToken.mIdent; if (! GetToken(aErrorCode, PR_TRUE)) { return PR_FALSE; } } if (eCSSToken_String == mToken.mType) { url = mToken.mIdent; if (ExpectSymbol(aErrorCode, ';', PR_TRUE)) { ProcessNameSpace(aErrorCode, prefix, url); return PR_TRUE; } } else if ((eCSSToken_Function == mToken.mType) && (mToken.mIdent.EqualsIgnoreCase("url"))) { if (ExpectSymbol(aErrorCode, '(', PR_FALSE)) { if (GetURLToken(aErrorCode, PR_TRUE)) { if ((eCSSToken_String == mToken.mType) || (eCSSToken_URL == mToken.mType)) { url = mToken.mIdent; if (ExpectSymbol(aErrorCode, ')', PR_TRUE)) { if (ExpectSymbol(aErrorCode, ';', PR_TRUE)) { ProcessNameSpace(aErrorCode, prefix, url); return PR_TRUE; } } } } } } return PR_FALSE; } PRBool CSSParserImpl::ProcessNameSpace(PRInt32& aErrorCode, const nsString& aPrefix, const nsString& aURLSpec) { PRBool result = PR_FALSE; nsICSSNameSpaceRule* rule = nsnull; nsIAtom* prefix = nsnull; if (0 < aPrefix.Length()) { prefix = NS_NewAtom(aPrefix); } NS_NewCSSNameSpaceRule(&rule, prefix, aURLSpec); if (rule) { AppendRule(rule); NS_RELEASE(rule); NS_IF_RELEASE(mNameSpace); mSheet->GetNameSpace(mNameSpace); } NS_IF_RELEASE(prefix); return result; } PRBool CSSParserImpl::ParseFontFaceRule(PRInt32& aErrorCode) { // XXX not yet implemented return PR_FALSE; } PRBool CSSParserImpl::ParsePageRule(PRInt32& aErrorCode) { // XXX not yet implemented return PR_FALSE; } void CSSParserImpl::SkipUntil(PRInt32& aErrorCode, PRUnichar aStopSymbol) { nsCSSToken* tk = &mToken; for (;;) { if (!GetToken(aErrorCode, PR_TRUE)) { break; } if (eCSSToken_Symbol == tk->mType) { PRUnichar symbol = tk->mSymbol; if (symbol == aStopSymbol) { break; } else if ('{' == symbol) { SkipUntil(aErrorCode, '}'); } else if ('[' == symbol) { SkipUntil(aErrorCode, ']'); } else if ('(' == symbol) { SkipUntil(aErrorCode, ')'); } } } } PRBool CSSParserImpl::SkipDeclaration(PRInt32& aErrorCode, PRBool aCheckForBraces) { nsCSSToken* tk = &mToken; for (;;) { if (!GetToken(aErrorCode, PR_TRUE)) { return PR_FALSE; } if (eCSSToken_Symbol == tk->mType) { PRUnichar symbol = tk->mSymbol; if (';' == symbol) { break; } if (aCheckForBraces) { if ('}' == symbol) { UngetToken(); break; } } if ('{' == symbol) { SkipUntil(aErrorCode, '}'); } else if ('(' == symbol) { SkipUntil(aErrorCode, ')'); } else if ('[' == symbol) { SkipUntil(aErrorCode, ']'); } } } return PR_TRUE; } void CSSParserImpl::SkipRuleSet(PRInt32& aErrorCode) { nsCSSToken* tk = &mToken; for (;;) { if (!GetToken(aErrorCode, PR_TRUE)) { break; } if (eCSSToken_Symbol == tk->mType) { PRUnichar symbol = tk->mSymbol; if ('{' == symbol) { SkipUntil(aErrorCode, '}'); break; } if ('(' == symbol) { SkipUntil(aErrorCode, ')'); } else if ('[' == symbol) { SkipUntil(aErrorCode, ']'); } } } } PRBool CSSParserImpl::PushGroup(nsICSSGroupRule* aRule) { if (! mGroupStack) { NS_NewISupportsArray(&mGroupStack); } if (mGroupStack) { mGroupStack->AppendElement(aRule); return PR_TRUE; } return PR_FALSE; } void CSSParserImpl::PopGroup(void) { if (mGroupStack) { PRUint32 count; mGroupStack->Count(&count); if (0 < count) { mGroupStack->RemoveElementAt(count - 1); } } } void CSSParserImpl::AppendRule(nsICSSRule* aRule) { PRUint32 count = 0; if (mGroupStack) { mGroupStack->Count(&count); } if (0 < count) { nsICSSGroupRule* group = (nsICSSGroupRule*)mGroupStack->ElementAt(count - 1); group->AppendStyleRule(aRule); NS_RELEASE(group); } else { mSheet->AppendStyleRule(aRule); } } PRBool CSSParserImpl::ParseRuleSet(PRInt32& aErrorCode) { // First get the list of selectors for the rule SelectorList* slist = nsnull; if (! ParseSelectorList(aErrorCode, slist)) { SkipRuleSet(aErrorCode); return PR_FALSE; } NS_ASSERTION(nsnull != slist, "null selector list"); // Next parse the declaration block nsICSSDeclaration* declaration = ParseDeclarationBlock(aErrorCode, PR_TRUE); if (nsnull == declaration) { // XXX skip something here delete slist; return PR_FALSE; } #if 0 slist->Dump(); fputs("{\n", stdout); declaration->List(); fputs("}\n", stdout); #endif // Translate the selector list and declaration block into style data SelectorList* list = slist; while (nsnull != list) { nsICSSStyleRule* rule = nsnull; NS_NewCSSStyleRule(&rule, *(list->mSelectors)); if (nsnull != rule) { if (nsnull != list->mSelectors->mNext) { // hand off other selectors to new rule nsCSSSelector* ruleFirst = rule->FirstSelector(); ruleFirst->mNext = list->mSelectors->mNext; list->mSelectors->mNext = nsnull; } rule->SetDeclaration(declaration); rule->SetWeight(list->mWeight); rule->SetSourceSelectorText(list->mSourceString); // capture the original input (need this for namespace prefixes) // rule->List(); AppendRule(rule); NS_RELEASE(rule); } list = list->mNext; } // Release temporary storage delete slist; NS_RELEASE(declaration); return PR_TRUE; } PRBool CSSParserImpl::ParseSelectorList(PRInt32& aErrorCode, SelectorList*& aListHead) { SelectorList* list = nsnull; if (! ParseSelectorGroup(aErrorCode, list)) { // must have at least one selector group aListHead = nsnull; return PR_FALSE; } NS_ASSERTION(nsnull != list, "no selector list"); aListHead = list; // After that there must either be a "," or a "{" nsCSSToken* tk = &mToken; for (;;) { if (! GetToken(aErrorCode, PR_TRUE)) { break; } if (eCSSToken_Symbol != tk->mType) { UngetToken(); break; } if (',' == tk->mSymbol) { SelectorList* newList = nsnull; // Another selector group must follow if (! ParseSelectorGroup(aErrorCode, newList)) { break; } // add new list to the end of the selector list list->mNext = newList; list = newList; continue; } else if ('{' == tk->mSymbol) { UngetToken(); return PR_TRUE; } else { UngetToken(); break; } } delete aListHead; aListHead = nsnull; return PR_FALSE; } static PRBool IsPseudoClass(const nsIAtom* aAtom) { return PRBool((nsCSSAtoms::activePseudo == aAtom) || (nsCSSAtoms::disabledPseudo == aAtom) || (nsCSSAtoms::dragOverPseudo == aAtom) || (nsCSSAtoms::dragPseudo == aAtom) || (nsCSSAtoms::enabledPseudo == aAtom) || (nsCSSAtoms::firstChildPseudo == aAtom) || (nsCSSAtoms::focusPseudo == aAtom) || (nsCSSAtoms::hoverPseudo == aAtom) || (nsCSSAtoms::langPseudo == aAtom) || (nsCSSAtoms::linkPseudo == aAtom) || (nsCSSAtoms::outOfDatePseudo == aAtom) || (nsCSSAtoms::selectedPseudo == aAtom) || (nsCSSAtoms::visitedPseudo == aAtom)); } static PRBool IsSinglePseudoClass(const nsCSSSelector& aSelector) { return PRBool((aSelector.mNameSpace == kNameSpaceID_Unknown) && (aSelector.mTag == nsnull) && (aSelector.mID == nsnull) && (aSelector.mClassList == nsnull) && (aSelector.mAttrList == nsnull) && (aSelector.mPseudoClassList != nsnull) && (aSelector.mPseudoClassList->mNext == nsnull)); } PRBool CSSParserImpl::ParseSelectorGroup(PRInt32& aErrorCode, SelectorList*& aList) { nsAutoString sourceBuffer; SelectorList* list = nsnull; PRUnichar combinator = PRUnichar(0); PRInt32 weight = 0; PRBool havePseudoElement = PR_FALSE; for (;;) { nsCSSSelector selector; if (! ParseSelector(aErrorCode, selector, sourceBuffer)) { break; } if (nsnull == list) { list = new SelectorList(); if (nsnull == list) { aErrorCode = NS_ERROR_OUT_OF_MEMORY; return PR_FALSE; } } sourceBuffer.Append(PRUnichar(' ')); list->AddSelector(selector); nsCSSSelector* listSel = list->mSelectors; // pull out pseudo elements here nsAtomList* prevList = nsnull; nsAtomList* pseudoClassList = listSel->mPseudoClassList; while (nsnull != pseudoClassList) { if (! IsPseudoClass(pseudoClassList->mAtom)) { havePseudoElement = PR_TRUE; if (IsSinglePseudoClass(*listSel)) { // convert to pseudo element selector nsIAtom* pseudoElement = pseudoClassList->mAtom; // steal ref count pseudoClassList->mAtom = nsnull; listSel->Reset(); if (listSel->mNext) {// more to the selector listSel->mOperator = PRUnichar('>'); nsCSSSelector empty; list->AddSelector(empty); // leave a blank (universal) selector in the middle listSel = list->mSelectors; // use the new one for the pseudo } listSel->mTag = pseudoElement; } else { // append new pseudo element selector selector.Reset(); selector.mTag = pseudoClassList->mAtom; // steal ref count list->AddSelector(selector); pseudoClassList->mAtom = nsnull; listSel->mOperator = PRUnichar('>'); if (nsnull == prevList) { // delete list entry listSel->mPseudoClassList = pseudoClassList->mNext; } else { prevList->mNext = pseudoClassList->mNext; } pseudoClassList->mNext = nsnull; delete pseudoClassList; weight += listSel->CalcWeight(); // capture weight from remainder } break; // only one pseudo element per selector } prevList = pseudoClassList; pseudoClassList = pseudoClassList->mNext; } combinator = PRUnichar(0); if (GetToken(aErrorCode, PR_TRUE)) { if ((eCSSToken_Symbol == mToken.mType) && (('+' == mToken.mSymbol) || ('>' == mToken.mSymbol))) { combinator = mToken.mSymbol; list->mSelectors->SetOperator(combinator); sourceBuffer.Append(combinator); sourceBuffer.Append(PRUnichar(' ')); } else { UngetToken(); // give it back to selector } } if (havePseudoElement) { break; } else { weight += selector.CalcWeight(); } } if (PRUnichar(0) != combinator) { // no dangling combinators if (list) { delete list; } list = nsnull; } aList = list; if (nsnull != list) { sourceBuffer.Truncate(sourceBuffer.Length() - 1); // kill trailing space list->mSourceString = sourceBuffer; list->mWeight = weight; } return PRBool(nsnull != aList); } #define SEL_MASK_NSPACE 0x01 #define SEL_MASK_ELEM 0x02 #define SEL_MASK_ID 0x04 #define SEL_MASK_CLASS 0x08 #define SEL_MASK_ATTRIB 0x10 #define SEL_MASK_PCLASS 0x20 #define SEL_MASK_PELEM 0x40 /** * This is the format for selectors: * operator? [[namespace |]? element_name]? [ ID | class | attrib | pseudo ]* */ PRBool CSSParserImpl::ParseSelector(PRInt32& aErrorCode, nsCSSSelector& aSelector, nsString& aSource) { PRInt32 dataMask = 0; nsAutoString buffer; if (! GetToken(aErrorCode, PR_TRUE)) { return PR_FALSE; } if (mToken.IsSymbol('*')) { // universal element selector, or universal namespace mToken.AppendToString(aSource); if (ExpectSymbol(aErrorCode, '|', PR_FALSE)) { // was namespace mToken.AppendToString(aSource); dataMask |= SEL_MASK_NSPACE; aSelector.SetNameSpace(kNameSpaceID_Unknown); // namespace wildcard if (! GetToken(aErrorCode, PR_FALSE)) { return PR_FALSE; } mToken.AppendToString(aSource); if (eCSSToken_Ident == mToken.mType) { // element name dataMask |= SEL_MASK_ELEM; if (mCaseSensitive) { aSelector.SetTag(mToken.mIdent); } else { mToken.mIdent.ToLowerCase(buffer); aSelector.SetTag(buffer); } } else if (mToken.IsSymbol('*')) { // universal selector dataMask |= SEL_MASK_ELEM; // don't set tag } else { UngetToken(); return PR_FALSE; } } else { // was universal element selector aSelector.SetNameSpace(kNameSpaceID_Unknown); // wildcard if (mNameSpace) { // look for default namespace nsINameSpace* defaultNameSpace = nsnull; mNameSpace->FindNameSpace(nsnull, defaultNameSpace); if (defaultNameSpace) { PRInt32 defaultID; defaultNameSpace->GetNameSpaceID(defaultID); aSelector.SetNameSpace(defaultID); NS_RELEASE(defaultNameSpace); } } dataMask |= SEL_MASK_ELEM; // don't set any tag in the selector } if (! GetToken(aErrorCode, PR_FALSE)) { // premature eof is ok (here!) return PR_TRUE; } } else if (eCSSToken_Ident == mToken.mType) { // element name or namespace name mToken.AppendToString(aSource); buffer = mToken.mIdent; // hang on to ident if (ExpectSymbol(aErrorCode, '|', PR_FALSE)) { // was namespace mToken.AppendToString(aSource); dataMask |= SEL_MASK_NSPACE; PRInt32 nameSpaceID = kNameSpaceID_Unknown; if (mNameSpace) { nsIAtom* prefix; if (mCaseSensitive) { prefix = NS_NewAtom(buffer); } else { buffer.ToLowerCase(); prefix = NS_NewAtom(buffer); } mNameSpace->FindNameSpaceID(prefix, nameSpaceID); NS_IF_RELEASE(prefix); } // else, no delcared namespaces if (kNameSpaceID_Unknown == nameSpaceID) { // unknown prefix, dump it return PR_FALSE; } aSelector.SetNameSpace(nameSpaceID); if (! GetToken(aErrorCode, PR_FALSE)) { return PR_FALSE; } mToken.AppendToString(aSource); if (eCSSToken_Ident == mToken.mType) { // element name dataMask |= SEL_MASK_ELEM; if (mCaseSensitive) { aSelector.SetTag(mToken.mIdent); } else { mToken.mIdent.ToLowerCase(buffer); aSelector.SetTag(buffer); } } else if (mToken.IsSymbol('*')) { // universal selector dataMask |= SEL_MASK_ELEM; // don't set tag } else { UngetToken(); return PR_FALSE; } } else { // was element name aSelector.SetNameSpace(kNameSpaceID_Unknown); // wildcard if (mNameSpace) { // look for default namespace nsINameSpace* defaultNameSpace = nsnull; mNameSpace->FindNameSpace(nsnull, defaultNameSpace); if (defaultNameSpace) { PRInt32 defaultID; defaultNameSpace->GetNameSpaceID(defaultID); aSelector.SetNameSpace(defaultID); NS_RELEASE(defaultNameSpace); } } if (mCaseSensitive) { aSelector.SetTag(buffer); } else { buffer.ToLowerCase(); aSelector.SetTag(buffer); } dataMask |= SEL_MASK_ELEM; } if (! GetToken(aErrorCode, PR_FALSE)) { // premature eof is ok (here!) return PR_TRUE; } } else if (mToken.IsSymbol('|')) { // No namespace mToken.AppendToString(aSource); dataMask |= SEL_MASK_NSPACE; aSelector.SetNameSpace(kNameSpaceID_None); // explicit NO namespace // get mandatory tag if (! GetToken(aErrorCode, PR_FALSE)) { return PR_FALSE; } mToken.AppendToString(aSource); if (eCSSToken_Ident == mToken.mType) { // element name dataMask |= SEL_MASK_ELEM; if (mCaseSensitive) { aSelector.SetTag(mToken.mIdent); } else { mToken.mIdent.ToLowerCase(buffer); aSelector.SetTag(buffer); } } else if (mToken.IsSymbol('*')) { // universal selector dataMask |= SEL_MASK_ELEM; // don't set tag } else { UngetToken(); return PR_FALSE; } if (! GetToken(aErrorCode, PR_FALSE)) { // premature eof is ok (here!) return PR_TRUE; } } for (;;) { if (eCSSToken_ID == mToken.mType) { // #id if ((0 == (dataMask & SEL_MASK_ID)) && // only one ID (0 < mToken.mIdent.Length())) { // verify is legal ID mToken.AppendToString(aSource); dataMask |= SEL_MASK_ID; aSelector.SetID(mToken.mIdent); } else { UngetToken(); return PR_FALSE; } } else if (mToken.IsSymbol('.')) { // .class mToken.AppendToString(aSource); if (! GetToken(aErrorCode, PR_FALSE)) { // get ident return PR_FALSE; } if (eCSSToken_Ident != mToken.mType) { // malformed selector (XXX what about leading digits?) UngetToken(); return PR_FALSE; } mToken.AppendToString(aSource); dataMask |= SEL_MASK_CLASS; aSelector.AddClass(mToken.mIdent); // class always case sensitive } else if (mToken.IsSymbol(':')) { // :pseudo mToken.AppendToString(aSource); if (! GetToken(aErrorCode, PR_FALSE)) { // premature eof return PR_FALSE; } if (eCSSToken_Ident != mToken.mType) { // malformed selector UngetToken(); return PR_FALSE; } mToken.AppendToString(aSource); buffer.Truncate(); buffer.Append(':'); buffer.Append(mToken.mIdent); buffer.ToLowerCase(); nsIAtom* pseudo = NS_NewAtom(buffer); if (IsPseudoClass(pseudo)) { // XXX parse lang pseudo class dataMask |= SEL_MASK_PCLASS; aSelector.AddPseudoClass(pseudo); } else { if (0 == (dataMask & SEL_MASK_PELEM)) { dataMask |= SEL_MASK_PELEM; aSelector.AddPseudoClass(pseudo); // store it here, it gets pulled later // ensure selector ends here, must be followed by EOF, space, '{' or ',' if (GetToken(aErrorCode, PR_FALSE)) { // premature eof is ok (here!) if ((eCSSToken_WhiteSpace == mToken.mType) || (mToken.IsSymbol('{') || mToken.IsSymbol(','))) { UngetToken(); return PR_TRUE; } UngetToken(); return PR_FALSE; } } else { // multiple pseudo elements, not legal UngetToken(); NS_RELEASE(pseudo); return PR_FALSE; } } NS_RELEASE(pseudo); } else if (mToken.IsSymbol('[')) { // attribute mToken.AppendToString(aSource); if (! GetToken(aErrorCode, PR_TRUE)) { // premature EOF return PR_FALSE; } mToken.AppendToString(aSource); PRInt32 nameSpaceID = kNameSpaceID_None; nsAutoString attr; if (mToken.IsSymbol('*')) { // wildcard namespace nameSpaceID = kNameSpaceID_Unknown; if (ExpectSymbol(aErrorCode, '|', PR_FALSE)) { mToken.AppendToString(aSource); if (! GetToken(aErrorCode, PR_FALSE)) { // premature EOF return PR_FALSE; } mToken.AppendToString(aSource); if (eCSSToken_Ident == mToken.mType) { // attr name attr = mToken.mIdent; } else { UngetToken(); return PR_FALSE; } } else { return PR_FALSE; } } else if (mToken.IsSymbol('|')) { // NO namespace if (! GetToken(aErrorCode, PR_FALSE)) { // premature EOF return PR_FALSE; } mToken.AppendToString(aSource); if (eCSSToken_Ident == mToken.mType) { // attr name attr = mToken.mIdent; } else { UngetToken(); return PR_FALSE; } } else if (eCSSToken_Ident == mToken.mType) { // attr name or namespace attr = mToken.mIdent; // hang on to it if (ExpectSymbol(aErrorCode, '|', PR_FALSE)) { // was a namespace mToken.AppendToString(aSource); nameSpaceID = kNameSpaceID_Unknown; if (mNameSpace) { nsIAtom* prefix; if (mCaseSensitive) { prefix = NS_NewAtom(attr); } else { attr.ToLowerCase(); prefix = NS_NewAtom(attr); } mNameSpace->FindNameSpaceID(prefix, nameSpaceID); NS_IF_RELEASE(prefix); } // else, no delcared namespaces if (kNameSpaceID_Unknown == nameSpaceID) { // unknown prefix, dump it return PR_FALSE; } if (! GetToken(aErrorCode, PR_FALSE)) { // premature EOF return PR_FALSE; } mToken.AppendToString(aSource); if (eCSSToken_Ident == mToken.mType) { // attr name attr = mToken.mIdent; } else { UngetToken(); return PR_FALSE; } } } else { // malformed UngetToken(); return PR_FALSE; } if (! mCaseSensitive) { attr.ToLowerCase(); } if (! GetToken(aErrorCode, PR_TRUE)) { // premature EOF return PR_FALSE; } if (eCSSToken_Symbol == mToken.mType) { mToken.AppendToString(aSource); PRUint8 func; if (']' == mToken.mSymbol) { dataMask |= SEL_MASK_ATTRIB; aSelector.AddAttribute(nameSpaceID, attr); func = NS_ATTR_FUNC_SET; } else if ('=' == mToken.mSymbol) { func = NS_ATTR_FUNC_EQUALS; } else if ('~' == mToken.mSymbol) { if (! GetToken(aErrorCode, PR_FALSE)) { // premature EOF return PR_FALSE; } mToken.AppendToString(aSource); if (mToken.IsSymbol('=')) { func = NS_ATTR_FUNC_INCLUDES; } else { UngetToken(); return PR_FALSE; } } else if ('|' == mToken.mSymbol) { if (! GetToken(aErrorCode, PR_FALSE)) { // premature EOF return PR_FALSE; } mToken.AppendToString(aSource); if (mToken.IsSymbol('=')) { func = NS_ATTR_FUNC_DASHMATCH; } else { UngetToken(); return PR_FALSE; } } else { UngetToken(); // bad function return PR_FALSE; } if (NS_ATTR_FUNC_SET != func) { // get value if (! GetToken(aErrorCode, PR_TRUE)) { // premature EOF return PR_FALSE; } if ((eCSSToken_Ident == mToken.mType) || (eCSSToken_String == mToken.mType)) { mToken.AppendToString(aSource); nsAutoString value(mToken.mIdent); if (! GetToken(aErrorCode, PR_TRUE)) { // premature EOF return PR_FALSE; } if (mToken.IsSymbol(']')) { mToken.AppendToString(aSource); dataMask |= SEL_MASK_ATTRIB; aSelector.AddAttribute(nameSpaceID, attr, func, value, mCaseSensitive); } else { UngetToken(); return PR_FALSE; } } else { UngetToken(); return PR_FALSE; } } } else { UngetToken(); // bad dog, no biscut! return PR_FALSE; } } else { // not a selector token, we're done break; } if (! GetToken(aErrorCode, PR_FALSE)) { // premature eof is ok (here!) return PR_TRUE; } } UngetToken(); return PRBool(0 != dataMask); } nsICSSDeclaration* CSSParserImpl::ParseDeclarationBlock(PRInt32& aErrorCode, PRBool aCheckForBraces) { if (aCheckForBraces) { if (!ExpectSymbol(aErrorCode, '{', PR_TRUE)) { return nsnull; } } nsICSSDeclaration* declaration = nsnull; if (NS_OK == NS_NewCSSDeclaration(&declaration)) { PRInt32 count = 0; for (;;) { PRInt32 hint; if (ParseDeclaration(aErrorCode, declaration, aCheckForBraces, hint)) { count++; // count declarations } else { if (!SkipDeclaration(aErrorCode, aCheckForBraces)) { break; } if (aCheckForBraces) { if (ExpectSymbol(aErrorCode, '}', PR_TRUE)) { break; } } // Since the skipped declaration didn't end the block we parse // the next declaration. } } if (0 == count) { // didn't get any XXX is this ok with the DOM? NS_RELEASE(declaration); } } return declaration; } PRBool CSSParserImpl::ParseColor(PRInt32& aErrorCode, nsCSSValue& aValue) { char cbuf[KEYWORD_BUFFER_SIZE]; if (!GetToken(aErrorCode, PR_TRUE)) { return PR_FALSE; } nsCSSToken* tk = &mToken; nscolor rgba; switch (tk->mType) { case eCSSToken_ID: // #xxyyzz tk->mIdent.ToCString(cbuf, sizeof(cbuf)); if (NS_HexToRGB(cbuf, &rgba)) { aValue.SetColorValue(rgba); return PR_TRUE; } break; case eCSSToken_Ident: tk->mIdent.ToCString(cbuf, sizeof(cbuf)); if (NS_ColorNameToRGB(cbuf, &rgba)) { aValue.SetStringValue(tk->mIdent, eCSSUnit_String); return PR_TRUE; } break; case eCSSToken_Function: if (mToken.mIdent.EqualsIgnoreCase("rgb")) { // rgb ( component , component , component ) PRUint8 r, g, b; if (ExpectSymbol(aErrorCode, '(', PR_FALSE) && ParseColorComponent(aErrorCode, r, ',') && ParseColorComponent(aErrorCode, g, ',') && ParseColorComponent(aErrorCode, b, ')')) { nscolor rgba = NS_RGB(r,g,b); aValue.SetColorValue(rgba); return PR_TRUE; } return PR_FALSE; // already pushed back } break; default: break; } // It's not a color UngetToken(); return PR_FALSE; } PRBool CSSParserImpl::ParseColorComponent(PRInt32& aErrorCode, PRUint8& aComponent, char aStop) { if (!GetToken(aErrorCode, PR_TRUE)) { return PR_FALSE; } float value; nsCSSToken* tk = &mToken; switch (tk->mType) { case eCSSToken_Number: value = tk->mNumber; break; case eCSSToken_Percentage: value = tk->mNumber * 255.0f; break; default: UngetToken(); return PR_FALSE; } if (ExpectSymbol(aErrorCode, aStop, PR_TRUE)) { if (value < 0.0f) value = 0.0f; if (value > 255.0f) value = 255.0f; aComponent = (PRUint8) value; return PR_TRUE; } return PR_FALSE; } //---------------------------------------------------------------------- PRBool CSSParserImpl::ParseDeclaration(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration, PRBool aCheckForBraces, PRInt32& aChangeHint) { aChangeHint = NS_STYLE_HINT_UNKNOWN; // Get property name nsCSSToken* tk = &mToken; char propertyName[100]; for (;;) { if (!GetToken(aErrorCode, PR_TRUE)) { return PR_FALSE; } if (eCSSToken_Ident == tk->mType) { tk->mIdent.ToCString(propertyName, sizeof(propertyName)); // grab the ident before the ExpectSymbol trashes the token if (!ExpectSymbol(aErrorCode, ':', PR_TRUE)) { return PR_FALSE; } break; } if (tk->IsSymbol(';')) { // dangling semicolons are skipped continue; } // Not a declaration... UngetToken(); return PR_FALSE; } // Map property name to it's ID and then parse the property PRInt32 propID = nsCSSProps::LookupName(propertyName); if (0 > propID) { // unknown property return PR_FALSE; } if (! ParseProperty(aErrorCode, aDeclaration, propID, aChangeHint)) { return PR_FALSE; } // See if the declaration is followed by a "!important" declaration PRBool isImportant = PR_FALSE; if (!GetToken(aErrorCode, PR_TRUE)) { if (aCheckForBraces) { // Premature eof is not ok when proper termination is mandated return PR_FALSE; } return PR_TRUE; } else { if (eCSSToken_Symbol == tk->mType) { if ('!' == tk->mSymbol) { // Look for important ident if (!GetToken(aErrorCode, PR_TRUE)) { // Premature eof is not ok return PR_FALSE; } if ((eCSSToken_Ident != tk->mType) || !tk->mIdent.EqualsIgnoreCase("important")) { UngetToken(); return PR_FALSE; } isImportant = PR_TRUE; } else { // Not a !important declaration UngetToken(); } } else { // Not a !important declaration UngetToken(); } } if (PR_TRUE == isImportant) { aDeclaration->SetValueImportant(propID); } // Make sure valid property declaration is terminated with either a // semicolon or a right-curly-brace (when aCheckForBraces is true). // When aCheckForBraces is false, proper termination is either // semicolon or EOF. if (!GetToken(aErrorCode, PR_TRUE)) { if (aCheckForBraces) { // Premature eof is not ok return PR_FALSE; } return PR_TRUE; } if (eCSSToken_Symbol == tk->mType) { if (';' == tk->mSymbol) { return PR_TRUE; } if (!aCheckForBraces) { // If we didn't hit eof and we didn't see a semicolon then the // declaration is not properly terminated. return PR_FALSE; } if ('}' == tk->mSymbol) { UngetToken(); return PR_TRUE; } } return PR_FALSE; } // Flags for ParseVariant method #define VARIANT_KEYWORD 0x000001 // K #define VARIANT_LENGTH 0x000002 // L #define VARIANT_PERCENT 0x000004 // P #define VARIANT_COLOR 0x000008 // C #define VARIANT_URL 0x000010 // U #define VARIANT_NUMBER 0x000020 // N #define VARIANT_INTEGER 0x000040 // I #define VARIANT_ANGLE 0x000080 // G #define VARIANT_FREQUENCY 0x000100 // F #define VARIANT_TIME 0x000200 // T #define VARIANT_STRING 0x000400 // S #define VARIANT_COUNTER 0x000800 // #define VARIANT_ATTR 0x001000 // #define VARIANT_IDENTIFIER 0x002000 // D #define VARIANT_AUTO 0x010000 // A #define VARIANT_INHERIT 0x020000 // H #define VARIANT_NONE 0x040000 // O #define VARIANT_NORMAL 0x080000 // M // Common combinations of variants #define VARIANT_AL (VARIANT_AUTO | VARIANT_LENGTH) #define VARIANT_LP (VARIANT_LENGTH | VARIANT_PERCENT) #define VARIANT_AH (VARIANT_AUTO | VARIANT_INHERIT) #define VARIANT_AHLP (VARIANT_AH | VARIANT_LP) #define VARIANT_AHI (VARIANT_AH | VARIANT_INTEGER) #define VARIANT_AHK (VARIANT_AH | VARIANT_KEYWORD) #define VARIANT_AHUK (VARIANT_AH | VARIANT_URL | VARIANT_KEYWORD) #define VARIANT_AHL (VARIANT_AH | VARIANT_LENGTH) #define VARIANT_AHKL (VARIANT_AHK | VARIANT_LENGTH) #define VARIANT_HK (VARIANT_INHERIT | VARIANT_KEYWORD) #define VARIANT_HKF (VARIANT_HK | VARIANT_FREQUENCY) #define VARIANT_HKL (VARIANT_HK | VARIANT_LENGTH) #define VARIANT_HKLP (VARIANT_HK | VARIANT_LP) #define VARIANT_HL (VARIANT_INHERIT | VARIANT_LENGTH) #define VARIANT_HI (VARIANT_INHERIT | VARIANT_INTEGER) #define VARIANT_HLP (VARIANT_HL | VARIANT_PERCENT) #define VARIANT_HLPN (VARIANT_HLP | VARIANT_NUMBER) #define VARIANT_HLPO (VARIANT_HLP | VARIANT_NONE) #define VARIANT_HTP (VARIANT_INHERIT | VARIANT_TIME | VARIANT_PERCENT) #define VARIANT_HMK (VARIANT_HK | VARIANT_NORMAL) #define VARIANT_HMKI (VARIANT_HMK | VARIANT_INTEGER) #define VARIANT_HC (VARIANT_INHERIT | VARIANT_COLOR) #define VARIANT_HCK (VARIANT_HK | VARIANT_COLOR) #define VARIANT_HUO (VARIANT_INHERIT | VARIANT_URL | VARIANT_NONE) #define VARIANT_AHUO (VARIANT_AUTO | VARIANT_HUO) #define VARIANT_HPN (VARIANT_INHERIT | VARIANT_PERCENT | VARIANT_NUMBER) #define VARIANT_HOK (VARIANT_HK | VARIANT_NONE) #define VARIANT_HN (VARIANT_INHERIT | VARIANT_NUMBER) #define VARIANT_HON (VARIANT_HN | VARIANT_NONE) #define VARIANT_HOS (VARIANT_INHERIT | VARIANT_NONE | VARIANT_STRING) static const PRInt32 kBorderTopIDs[] = { PROP_BORDER_TOP_WIDTH, PROP_BORDER_TOP_STYLE, PROP_BORDER_TOP_COLOR }; static const PRInt32 kBorderRightIDs[] = { PROP_BORDER_RIGHT_WIDTH, PROP_BORDER_RIGHT_STYLE, PROP_BORDER_RIGHT_COLOR }; static const PRInt32 kBorderBottomIDs[] = { PROP_BORDER_BOTTOM_WIDTH, PROP_BORDER_BOTTOM_STYLE, PROP_BORDER_BOTTOM_COLOR }; static const PRInt32 kBorderLeftIDs[] = { PROP_BORDER_LEFT_WIDTH, PROP_BORDER_LEFT_STYLE, PROP_BORDER_LEFT_COLOR }; PRInt32 CSSParserImpl::SearchKeywordTable(PRInt32 aKeywordID, const PRInt32 aKeywordTable[]) { PRInt32 index = 0; while (0 <= aKeywordTable[index]) { if (aKeywordID == aKeywordTable[index++]) { return index; } index++; } return -1; } PRBool CSSParserImpl::ParseEnum(PRInt32& aErrorCode, nsCSSValue& aValue, const PRInt32 aKeywordTable[]) { nsString* ident = NextIdent(aErrorCode); if (nsnull == ident) { return PR_FALSE; } char cbuf[KEYWORD_BUFFER_SIZE]; ident->ToCString(cbuf, sizeof(cbuf)); PRInt32 keyword = nsCSSKeywords::LookupName(cbuf); if (0 <= keyword) { PRInt32 index = SearchKeywordTable(keyword, aKeywordTable); if (0 < index) { aValue.SetIntValue(aKeywordTable[index], eCSSUnit_Enumerated); return PR_TRUE; } } // Put the unknown identifier back and return UngetToken(); return PR_FALSE; } PRBool CSSParserImpl::TranslateDimension(nsCSSValue& aValue, PRInt32 aVariantMask, float aNumber, const nsString& aUnit) { nsCSSUnit units; PRInt32 type = 0; if (0 != aUnit.Length()) { char cbuf[KEYWORD_BUFFER_SIZE]; aUnit.ToCString(cbuf, sizeof(cbuf)); PRInt32 id = nsCSSKeywords::LookupName(cbuf); switch (id) { case KEYWORD_EM: units = eCSSUnit_EM; type = VARIANT_LENGTH; break; case KEYWORD_EX: units = eCSSUnit_XHeight; type = VARIANT_LENGTH; break; case KEYWORD_PX: units = eCSSUnit_Pixel; type = VARIANT_LENGTH; break; case KEYWORD_IN: units = eCSSUnit_Inch; type = VARIANT_LENGTH; break; case KEYWORD_CM: units = eCSSUnit_Centimeter; type = VARIANT_LENGTH; break; case KEYWORD_MM: units = eCSSUnit_Millimeter; type = VARIANT_LENGTH; break; case KEYWORD_PT: units = eCSSUnit_Point; type = VARIANT_LENGTH; break; case KEYWORD_PC: units = eCSSUnit_Pica; type = VARIANT_LENGTH; break; case KEYWORD_DEG: units = eCSSUnit_Degree; type = VARIANT_ANGLE; break; case KEYWORD_GRAD: units = eCSSUnit_Grad; type = VARIANT_ANGLE; break; case KEYWORD_RAD: units = eCSSUnit_Radian; type = VARIANT_ANGLE; break; case KEYWORD_HZ: units = eCSSUnit_Hertz; type = VARIANT_FREQUENCY; break; case KEYWORD_KHZ: units = eCSSUnit_Kilohertz; type = VARIANT_FREQUENCY; break; case KEYWORD_S: units = eCSSUnit_Seconds; type = VARIANT_TIME; break; case KEYWORD_MS: units = eCSSUnit_Milliseconds; type = VARIANT_TIME; break; default: // unknown unit return PR_FALSE; } } else { // Must be a zero number... NS_ASSERTION(0 == aNumber, "numbers without units must be 0"); if ((VARIANT_LENGTH & aVariantMask) != 0) { units = eCSSUnit_Point; type = VARIANT_LENGTH; } else if ((VARIANT_ANGLE & aVariantMask) != 0) { units = eCSSUnit_Degree; type = VARIANT_ANGLE; } else if ((VARIANT_FREQUENCY & aVariantMask) != 0) { units = eCSSUnit_Hertz; type = VARIANT_FREQUENCY; } else if ((VARIANT_TIME & aVariantMask) != 0) { units = eCSSUnit_Seconds; type = VARIANT_TIME; } } if ((type & aVariantMask) != 0) { aValue.SetFloatValue(aNumber, units); return PR_TRUE; } return PR_FALSE; } PRBool CSSParserImpl::ParsePositiveVariant(PRInt32& aErrorCode, nsCSSValue& aValue, PRInt32 aVariantMask, const PRInt32 aKeywordTable[]) { if (ParseVariant(aErrorCode, aValue, aVariantMask, aKeywordTable)) { if (eCSSUnit_Number == aValue.GetUnit() || aValue.IsLengthUnit()){ if (aValue.GetFloatValue() < 0) { return PR_FALSE; } } else if(aValue.GetUnit() == eCSSUnit_Percent) { if (aValue.GetPercentValue() < 0) { return PR_FALSE; } } return PR_TRUE; } return PR_FALSE; } PRBool CSSParserImpl::ParseVariant(PRInt32& aErrorCode, nsCSSValue& aValue, PRInt32 aVariantMask, const PRInt32 aKeywordTable[]) { if (!GetToken(aErrorCode, PR_TRUE)) { return PR_FALSE; } nsCSSToken* tk = &mToken; if (((aVariantMask & (VARIANT_AHK | VARIANT_NORMAL | VARIANT_NONE)) != 0) && (eCSSToken_Ident == tk->mType)) { char cbuf[KEYWORD_BUFFER_SIZE]; tk->mIdent.ToCString(cbuf, sizeof(cbuf)); PRInt32 keyword = nsCSSKeywords::LookupName(cbuf); if (0 <= keyword) { // known keyword if ((aVariantMask & VARIANT_AUTO) != 0) { if (KEYWORD_AUTO == keyword) { aValue.SetAutoValue(); return PR_TRUE; } } if ((aVariantMask & VARIANT_INHERIT) != 0) { if (KEYWORD_INHERIT == keyword) { aValue.SetInheritValue(); return PR_TRUE; } } if ((aVariantMask & VARIANT_NONE) != 0) { if (KEYWORD_NONE == keyword) { aValue.SetNoneValue(); return PR_TRUE; } } if ((aVariantMask & VARIANT_NORMAL) != 0) { if (KEYWORD_NORMAL == keyword) { aValue.SetNormalValue(); return PR_TRUE; } } if ((aVariantMask & VARIANT_KEYWORD) != 0) { PRInt32 index = SearchKeywordTable(keyword, aKeywordTable); if (0 < index) { aValue.SetIntValue(aKeywordTable[index], eCSSUnit_Enumerated); return PR_TRUE; } } } } if (((aVariantMask & (VARIANT_LENGTH | VARIANT_ANGLE | VARIANT_FREQUENCY | VARIANT_TIME)) != 0) && tk->IsDimension()) { return TranslateDimension(aValue, aVariantMask, tk->mNumber, tk->mIdent); } if (((aVariantMask & VARIANT_PERCENT) != 0) && (eCSSToken_Percentage == tk->mType)) { aValue.SetPercentValue(tk->mNumber); return PR_TRUE; } if (((aVariantMask & VARIANT_NUMBER) != 0) && (eCSSToken_Number == tk->mType)) { aValue.SetFloatValue(tk->mNumber, eCSSUnit_Number); return PR_TRUE; } if (((aVariantMask & VARIANT_INTEGER) != 0) && (eCSSToken_Number == tk->mType) && tk->mIntegerValid) { aValue.SetIntValue(tk->mInteger, eCSSUnit_Integer); return PR_TRUE; } if (PR_TRUE == mNavQuirkMode) { // NONSTANDARD: Nav interprets unitless numbers as px if (((aVariantMask & VARIANT_LENGTH) != 0) && (eCSSToken_Number == tk->mType)) { aValue.SetFloatValue(tk->mNumber, eCSSUnit_Pixel); return PR_TRUE; } } if (((aVariantMask & VARIANT_URL) != 0) && (eCSSToken_Function == tk->mType) && tk->mIdent.EqualsIgnoreCase("url")) { if (ParseURL(aErrorCode, aValue)) { return PR_TRUE; } return PR_FALSE; } if ((aVariantMask & VARIANT_COLOR) != 0) { if ((eCSSToken_ID == tk->mType) || (eCSSToken_Ident == tk->mType) || ((eCSSToken_Function == tk->mType) && (tk->mIdent.EqualsIgnoreCase("rgb")))) { // Put token back so that parse color can get it UngetToken(); if (ParseColor(aErrorCode, aValue)) { return PR_TRUE; } return PR_FALSE; } } if (((aVariantMask & VARIANT_STRING) != 0) && (eCSSToken_String == tk->mType)) { nsAutoString buffer; buffer.Append(tk->mSymbol); buffer.Append(tk->mIdent); buffer.Append(tk->mSymbol); aValue.SetStringValue(buffer, eCSSUnit_String); return PR_TRUE; } if (((aVariantMask & VARIANT_IDENTIFIER) != 0) && (eCSSToken_Ident == tk->mType)) { aValue.SetStringValue(tk->mIdent, eCSSUnit_String); return PR_TRUE; } if (((aVariantMask & VARIANT_COUNTER) != 0) && (eCSSToken_Function == tk->mType) && (tk->mIdent.EqualsIgnoreCase("counter") || tk->mIdent.EqualsIgnoreCase("counters"))) { if (ParseCounter(aErrorCode, aValue)) { return PR_TRUE; } return PR_FALSE; } if (((aVariantMask & VARIANT_ATTR) != 0) && (eCSSToken_Function == tk->mType) && tk->mIdent.EqualsIgnoreCase("attr")) { if (ParseAttr(aErrorCode, aValue)) { return PR_TRUE; } return PR_FALSE; } UngetToken(); return PR_FALSE; } PRBool CSSParserImpl::ParseCounter(PRInt32& aErrorCode, nsCSSValue& aValue) { nsCSSUnit unit = (mToken.mIdent.EqualsIgnoreCase("counter") ? eCSSUnit_Counter : eCSSUnit_Counters); if (ExpectSymbol(aErrorCode, '(', PR_FALSE)) { if (GetToken(aErrorCode, PR_TRUE)) { if (eCSSToken_Ident == mToken.mType) { nsAutoString counter; counter.Append(mToken.mIdent); if (eCSSUnit_Counters == unit) { // get mandatory string if (! ExpectSymbol(aErrorCode, ',', PR_TRUE)) { return PR_FALSE; } if (GetToken(aErrorCode, PR_TRUE) && (eCSSToken_String == mToken.mType)) { counter.Append(','); counter.Append(mToken.mSymbol); // quote too counter.Append(mToken.mIdent); counter.Append(mToken.mSymbol); // quote too } else { UngetToken(); return PR_FALSE; } } // get optional type if (ExpectSymbol(aErrorCode, ',', PR_TRUE)) { if (GetToken(aErrorCode, PR_TRUE) && (eCSSToken_Ident == mToken.mType)) { char cbuf[KEYWORD_BUFFER_SIZE]; mToken.mIdent.ToCString(cbuf, sizeof(cbuf)); PRInt32 keyword = nsCSSKeywords::LookupName(cbuf); if ((0 <= keyword) && (0 < SearchKeywordTable(keyword, nsCSSProps::kListStyleKTable))) { counter.Append(','); counter.Append(mToken.mIdent); } else { return PR_FALSE; } } else { UngetToken(); return PR_FALSE; } } if (ExpectSymbol(aErrorCode, ')', PR_TRUE)) { aValue.SetStringValue(counter, unit); return PR_TRUE; } } else { UngetToken(); } } } return PR_FALSE; } PRBool CSSParserImpl::ParseAttr(PRInt32& aErrorCode, nsCSSValue& aValue) { if (ExpectSymbol(aErrorCode, '(', PR_FALSE)) { if (GetToken(aErrorCode, PR_TRUE)) { nsAutoString attr; if (eCSSToken_Ident == mToken.mType) { // attr name or namespace nsAutoString holdIdent(mToken.mIdent); if (ExpectSymbol(aErrorCode, '|', PR_FALSE)) { // namespace PRInt32 nameSpaceID = kNameSpaceID_Unknown; if (mNameSpace) { nsIAtom* prefix; if (mCaseSensitive) { prefix = NS_NewAtom(holdIdent); } else { holdIdent.ToLowerCase(); prefix = NS_NewAtom(holdIdent); } mNameSpace->FindNameSpaceID(prefix, nameSpaceID); NS_IF_RELEASE(prefix); } // else, no delcared namespaces if (kNameSpaceID_Unknown == nameSpaceID) { // unknown prefix, dump it return PR_FALSE; } attr.Append(nameSpaceID, 10); attr.Append('|'); if (! GetToken(aErrorCode, PR_FALSE)) { return PR_FALSE; } if (eCSSToken_Ident == mToken.mType) { attr.Append(mToken.mIdent); } else { UngetToken(); return PR_FALSE; } } else { // no namespace attr = holdIdent; } } else if (mToken.IsSymbol('*')) { // namespace wildcard if (ExpectSymbol(aErrorCode, '|', PR_FALSE)) { attr.Append(kNameSpaceID_Unknown, 10); attr.Append('|'); if (! GetToken(aErrorCode, PR_FALSE)) { return PR_FALSE; } if (eCSSToken_Ident == mToken.mType) { attr.Append(mToken.mIdent); } else { UngetToken(); return PR_FALSE; } } else { return PR_FALSE; } } else if (mToken.IsSymbol('|')) { // explicit NO namespace if (! GetToken(aErrorCode, PR_FALSE)) { return PR_FALSE; } if (eCSSToken_Ident == mToken.mType) { attr.Append(mToken.mIdent); } else { UngetToken(); return PR_FALSE; } } else { UngetToken(); return PR_FALSE; } if (ExpectSymbol(aErrorCode, ')', PR_TRUE)) { aValue.SetStringValue(attr, eCSSUnit_Attr); return PR_TRUE; } } } return PR_FALSE; } PRBool CSSParserImpl::ParseURL(PRInt32& aErrorCode, nsCSSValue& aValue) { if (ExpectSymbol(aErrorCode, '(', PR_FALSE)) { if (! GetURLToken(aErrorCode, PR_TRUE)) { return PR_FALSE; } nsCSSToken* tk = &mToken; if ((eCSSToken_String == tk->mType) || (eCSSToken_URL == tk->mType)) { // Translate url into an absolute url if the url is relative to // the style sheet. // XXX editors won't like this - too bad for now nsAutoString absURL; if (nsnull != mURL) { nsString baseURL; nsresult rv; #ifndef NECKO rv = NS_MakeAbsoluteURL(mURL, baseURL, tk->mIdent, absURL); #else NS_WITH_SERVICE(nsIIOService, service, kIOServiceCID, &rv); if (NS_FAILED(rv)) return PR_FALSE; nsIURI *baseUri = nsnull; rv = mURL->QueryInterface(nsIURI::GetIID(), (void**)&baseUri); if (NS_FAILED(rv)) return PR_FALSE; char *absUrlStr = nsnull; const char *urlSpec = (tk->mIdent).GetBuffer(); rv = service->MakeAbsolute(urlSpec, baseUri, &absUrlStr); NS_RELEASE(baseUri); absURL = absUrlStr; delete [] absUrlStr; #endif // NECKO if (NS_FAILED(rv)) { absURL = tk->mIdent; } } else { absURL = tk->mIdent; } if (ExpectSymbol(aErrorCode, ')', PR_TRUE)) { aValue.SetStringValue(absURL, eCSSUnit_URL); return PR_TRUE; } } } return PR_FALSE; } PRInt32 CSSParserImpl::ParseChoice(PRInt32& aErrorCode, nsCSSValue aValues[], const PRInt32 aPropIDs[], PRInt32 aNumIDs) { PRInt32 found = 0; PRInt32 loop; for (loop = 0; loop < aNumIDs; loop++) { // Try each property parser in order PRInt32 hadFound = found; PRInt32 index; for (index = 0; index < aNumIDs; index++) { PRInt32 bit = 1 << index; if ((found & bit) == 0) { if (ParseSingleValueProperty(aErrorCode, aValues[index], aPropIDs[index])) { found |= bit; } } } if (found == hadFound) { // found nothing new break; } } if (0 < found) { if (1 == found) { // only first property if (eCSSUnit_Inherit == aValues[0].GetUnit()) { // one inherit, all inherit for (loop = 1; loop < aNumIDs; loop++) { aValues[loop].SetInheritValue(); } found = ((1 << aNumIDs) - 1); } } else { // more than one value, verify no inherits for (loop = 0; loop < aNumIDs; loop++) { if (eCSSUnit_Inherit == aValues[loop].GetUnit()) { found = -1; break; } } } } return found; } /** * Parse a "box" property. Box properties have 1 to 4 values. When less * than 4 values are provided a standard mapping is used to replicate * existing values. */ PRBool CSSParserImpl::ParseBoxProperties(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration, const PRInt32 aPropIDs[]) { // Get up to four values for the property nsCSSValue values[4]; PRInt32 count = 0; PRInt32 index; for (index = 0; index < 4; index++) { if (! ParseSingleValueProperty(aErrorCode, values[index], aPropIDs[index])) { break; } count++; } if ((count == 0) || (PR_FALSE == ExpectEndProperty(aErrorCode, PR_TRUE))) { return PR_FALSE; } if (1 < count) { // verify no more than single inherit for (index = 0; index < 4; index++) { if (eCSSUnit_Inherit == values[index].GetUnit()) { return PR_FALSE; } } } // Provide missing values by replicating some of the values found switch (count) { case 1: // Make right == top values[1] = values[0]; case 2: // Make bottom == top values[2] = values[0]; case 3: // Make left == right values[3] = values[1]; } for (index = 0; index < 4; index++) { aDeclaration->AppendValue(aPropIDs[index], values[index]); } return PR_TRUE; } PRBool CSSParserImpl::ParseProperty(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration, PRInt32 aPropID, PRInt32& aChangeHint) { // Strip out properties we use internally. These properties are used // by compound property parsing routines (e.g. "background-position"). switch (aPropID) { case PROP_BACKGROUND_X_POSITION: case PROP_BACKGROUND_Y_POSITION: case PROP_BORDER_X_SPACING: case PROP_BORDER_Y_SPACING: case PROP_CLIP_BOTTOM: case PROP_CLIP_LEFT: case PROP_CLIP_RIGHT: case PROP_CLIP_TOP: // The user can't use these return PR_FALSE; default: break; } if (aChangeHint < nsCSSProps::kHintTable[aPropID]) { aChangeHint = nsCSSProps::kHintTable[aPropID]; } return ParseProperty(aErrorCode, aDeclaration, aPropID); } PRBool CSSParserImpl::ParseProperty(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration, PRInt32 aPropID) { switch (aPropID) { // handle shorthand or multiple properties case PROP_BACKGROUND: return ParseBackground(aErrorCode, aDeclaration); case PROP_BACKGROUND_POSITION: return ParseBackgroundPosition(aErrorCode, aDeclaration); case PROP_BORDER: return ParseBorder(aErrorCode, aDeclaration); case PROP_BORDER_COLOR: return ParseBorderColor(aErrorCode, aDeclaration); case PROP_BORDER_SPACING: return ParseBorderSpacing(aErrorCode, aDeclaration); case PROP_BORDER_STYLE: return ParseBorderStyle(aErrorCode, aDeclaration); case PROP_BORDER_BOTTOM: return ParseBorderSide(aErrorCode, aDeclaration, kBorderBottomIDs); case PROP_BORDER_LEFT: return ParseBorderSide(aErrorCode, aDeclaration, kBorderLeftIDs); case PROP_BORDER_RIGHT: return ParseBorderSide(aErrorCode, aDeclaration, kBorderRightIDs); case PROP_BORDER_TOP: return ParseBorderSide(aErrorCode, aDeclaration, kBorderTopIDs); case PROP_BORDER_WIDTH: return ParseBorderWidth(aErrorCode, aDeclaration); case PROP_CLIP: return ParseClip(aErrorCode, aDeclaration); case PROP_CONTENT: return ParseContent(aErrorCode, aDeclaration); case PROP_COUNTER_INCREMENT: case PROP_COUNTER_RESET: return ParseCounterData(aErrorCode, aDeclaration, aPropID); case PROP_CUE: return ParseCue(aErrorCode, aDeclaration); case PROP_CURSOR: return ParseCursor(aErrorCode, aDeclaration); case PROP_FONT: return ParseFont(aErrorCode, aDeclaration); case PROP_LIST_STYLE: return ParseListStyle(aErrorCode, aDeclaration); case PROP_MARGIN: return ParseMargin(aErrorCode, aDeclaration); case PROP_OUTLINE: return ParseOutline(aErrorCode, aDeclaration); case PROP_PADDING: return ParsePadding(aErrorCode, aDeclaration); case PROP_PAUSE: return ParsePause(aErrorCode, aDeclaration); case PROP_PLAY_DURING: return ParsePlayDuring(aErrorCode, aDeclaration); case PROP_QUOTES: return ParseQuotes(aErrorCode, aDeclaration); case PROP_SIZE: return ParseSize(aErrorCode, aDeclaration); case PROP_TEXT_SHADOW: return ParseTextShadow(aErrorCode, aDeclaration); default: // must be single property { nsCSSValue value; if (ParseSingleValueProperty(aErrorCode, value, aPropID)) { if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(aPropID, value); return PR_TRUE; } } } } return PR_FALSE; } // Bits used in determining which background position info we have #define BG_CENTER 0x01 #define BG_TOP 0x02 #define BG_BOTTOM 0x04 #define BG_LEFT 0x08 #define BG_RIGHT 0x10 #define BG_CENTER1 0x20 #define BG_CENTER2 0x40 // Note: Don't change this table unless you update // parseBackgroundPosition! static const PRInt32 kBackgroundXYPositionKTable[] = { KEYWORD_CENTER, BG_CENTER, KEYWORD_TOP, BG_TOP, KEYWORD_BOTTOM, BG_BOTTOM, KEYWORD_LEFT, BG_LEFT, KEYWORD_RIGHT, BG_RIGHT, -1, }; PRBool CSSParserImpl::ParseSingleValueProperty(PRInt32& aErrorCode, nsCSSValue& aValue, PRInt32 aPropID) { switch (aPropID) { case PROP_BACKGROUND: case PROP_BACKGROUND_POSITION: case PROP_BORDER: case PROP_BORDER_COLOR: case PROP_BORDER_SPACING: case PROP_BORDER_STYLE: case PROP_BORDER_BOTTOM: case PROP_BORDER_LEFT: case PROP_BORDER_RIGHT: case PROP_BORDER_TOP: case PROP_BORDER_WIDTH: case PROP_CLIP: case PROP_CONTENT: case PROP_COUNTER_INCREMENT: case PROP_COUNTER_RESET: case PROP_CUE: case PROP_CURSOR: case PROP_FONT: case PROP_LIST_STYLE: case PROP_MARGIN: case PROP_OUTLINE: case PROP_PADDING: case PROP_PAUSE: case PROP_QUOTES: case PROP_SIZE: case PROP_TEXT_SHADOW: NS_ERROR("not a single value property"); return PR_FALSE; case PROP_AZIMUTH: return ParseAzimuth(aErrorCode, aValue); case PROP_BACKGROUND_ATTACHMENT: return ParseVariant(aErrorCode, aValue, VARIANT_HK, nsCSSProps::kBackgroundAttachmentKTable); case PROP_BACKGROUND_COLOR: return ParseVariant(aErrorCode, aValue, VARIANT_HCK, nsCSSProps::kBackgroundColorKTable); case PROP_BACKGROUND_FILTER: // XXX return ParseBackgroundFilter(aErrorCode, aValue); case PROP_BACKGROUND_IMAGE: return ParseVariant(aErrorCode, aValue, VARIANT_HUO, nsnull); case PROP_BACKGROUND_REPEAT: return ParseVariant(aErrorCode, aValue, VARIANT_HK, nsCSSProps::kBackgroundRepeatKTable); case PROP_BACKGROUND_X_POSITION: case PROP_BACKGROUND_Y_POSITION: return ParseVariant(aErrorCode, aValue, VARIANT_HKLP, kBackgroundXYPositionKTable); case PROP_BORDER_COLLAPSE: return ParseVariant(aErrorCode, aValue, VARIANT_HK, nsCSSProps::kBorderCollapseKTable); case PROP_BORDER_BOTTOM_COLOR: case PROP_BORDER_LEFT_COLOR: case PROP_BORDER_RIGHT_COLOR: case PROP_BORDER_TOP_COLOR: return ParseVariant(aErrorCode, aValue, VARIANT_HCK, nsCSSProps::kBorderColorKTable); case PROP_BORDER_BOTTOM_STYLE: case PROP_BORDER_LEFT_STYLE: case PROP_BORDER_RIGHT_STYLE: case PROP_BORDER_TOP_STYLE: return ParseVariant(aErrorCode, aValue, VARIANT_HOK, nsCSSProps::kBorderStyleKTable); case PROP_BORDER_BOTTOM_WIDTH: case PROP_BORDER_LEFT_WIDTH: case PROP_BORDER_RIGHT_WIDTH: case PROP_BORDER_TOP_WIDTH: return ParseVariant(aErrorCode, aValue, VARIANT_HKL, nsCSSProps::kBorderWidthKTable); case PROP__MOZ_BORDER_RADIUS: return ParseVariant(aErrorCode, aValue, VARIANT_HLP, nsnull); case PROP_BOTTOM: case PROP_TOP: case PROP_LEFT: case PROP_RIGHT: return ParseVariant(aErrorCode, aValue, VARIANT_AHLP, nsnull); case PROP_HEIGHT: case PROP_WIDTH: return ParsePositiveVariant(aErrorCode, aValue, VARIANT_AHLP, nsnull); case PROP_CAPTION_SIDE: return ParseVariant(aErrorCode, aValue, VARIANT_HK, nsCSSProps::kCaptionSideKTable); case PROP_CLEAR: return ParseVariant(aErrorCode, aValue, VARIANT_HOK, nsCSSProps::kClearKTable); case PROP_COLOR: return ParseVariant(aErrorCode, aValue, VARIANT_HC, nsnull); case PROP_CUE_AFTER: case PROP_CUE_BEFORE: return ParseVariant(aErrorCode, aValue, VARIANT_HUO, nsnull); case PROP_DIRECTION: return ParseVariant(aErrorCode, aValue, VARIANT_HK, nsCSSProps::kDirectionKTable); case PROP_DISPLAY: return ParseVariant(aErrorCode, aValue, VARIANT_HOK, nsCSSProps::kDisplayKTable); case PROP_ELEVATION: return ParseVariant(aErrorCode, aValue, VARIANT_HK | VARIANT_ANGLE, nsCSSProps::kElevationKTable); case PROP_EMPTY_CELLS: return ParseVariant(aErrorCode, aValue, VARIANT_HK, nsCSSProps::kEmptyCellsKTable); case PROP_FILTER: return ParseForegroundFilter(aErrorCode, aValue); case PROP_FLOAT: return ParseVariant(aErrorCode, aValue, VARIANT_HOK, nsCSSProps::kFloatKTable); case PROP_FONT_FAMILY: return ParseFamily(aErrorCode, aValue); case PROP_FONT_SIZE: return ParsePositiveVariant(aErrorCode, aValue, VARIANT_HKLP, nsCSSProps::kFontSizeKTable); case PROP_FONT_SIZE_ADJUST: return ParseVariant(aErrorCode, aValue, VARIANT_HON, nsnull); case PROP_FONT_STRETCH: return ParseVariant(aErrorCode, aValue, VARIANT_HMK, nsCSSProps::kFontStretchKTable); case PROP_FONT_STYLE: return ParseVariant(aErrorCode, aValue, VARIANT_HMK, nsCSSProps::kFontStyleKTable); case PROP_FONT_VARIANT: return ParseVariant(aErrorCode, aValue, VARIANT_HMK, nsCSSProps::kFontVariantKTable); case PROP_FONT_WEIGHT: return ParseVariant(aErrorCode, aValue, VARIANT_HMKI, nsCSSProps::kFontWeightKTable); case PROP_LETTER_SPACING: case PROP_WORD_SPACING: return ParseVariant(aErrorCode, aValue, VARIANT_HL | VARIANT_NORMAL, nsnull); case PROP_LINE_HEIGHT: return ParsePositiveVariant(aErrorCode, aValue, VARIANT_HLPN | VARIANT_NORMAL, nsnull); case PROP_LIST_STYLE_IMAGE: return ParseVariant(aErrorCode, aValue, VARIANT_HUO, nsnull); case PROP_LIST_STYLE_POSITION: return ParseVariant(aErrorCode, aValue, VARIANT_HK, nsCSSProps::kListStylePositionKTable); case PROP_LIST_STYLE_TYPE: return ParseVariant(aErrorCode, aValue, VARIANT_HOK, nsCSSProps::kListStyleKTable); case PROP_MARGIN_BOTTOM: case PROP_MARGIN_LEFT: case PROP_MARGIN_RIGHT: case PROP_MARGIN_TOP: return ParseVariant(aErrorCode, aValue, VARIANT_AHLP, nsnull); case PROP_MARKER_OFFSET: return ParseVariant(aErrorCode, aValue, VARIANT_AHL, nsnull); case PROP_MARKS: return ParseMarks(aErrorCode, aValue); case PROP_MAX_HEIGHT: case PROP_MAX_WIDTH: return ParseVariant(aErrorCode, aValue, VARIANT_HLPO, nsnull); case PROP_MIN_HEIGHT: case PROP_MIN_WIDTH: return ParseVariant(aErrorCode, aValue, VARIANT_HLP, nsnull); case PROP_OPACITY: return ParseVariant(aErrorCode, aValue, VARIANT_HPN, nsnull); case PROP_ORPHANS: case PROP_WIDOWS: return ParseVariant(aErrorCode, aValue, VARIANT_HI, nsnull); case PROP_OUTLINE_COLOR: return ParseVariant(aErrorCode, aValue, VARIANT_HCK, nsCSSProps::kOutlineColorKTable); case PROP_OUTLINE_STYLE: return ParseVariant(aErrorCode, aValue, VARIANT_HOK, nsCSSProps::kBorderStyleKTable); case PROP_OUTLINE_WIDTH: return ParseVariant(aErrorCode, aValue, VARIANT_HKL, nsCSSProps::kBorderWidthKTable); case PROP_OVERFLOW: return ParseVariant(aErrorCode, aValue, VARIANT_AHK, nsCSSProps::kOverflowKTable); case PROP_PADDING_BOTTOM: case PROP_PADDING_LEFT: case PROP_PADDING_RIGHT: case PROP_PADDING_TOP: return ParsePositiveVariant(aErrorCode, aValue, VARIANT_HLP, nsnull); case PROP_PAGE: return ParseVariant(aErrorCode, aValue, VARIANT_AUTO | VARIANT_IDENTIFIER, nsnull); case PROP_PAGE_BREAK_AFTER: case PROP_PAGE_BREAK_BEFORE: return ParseVariant(aErrorCode, aValue, VARIANT_AHK, nsCSSProps::kPageBreakKTable); case PROP_PAGE_BREAK_INSIDE: return ParseVariant(aErrorCode, aValue, VARIANT_AHK, nsCSSProps::kPageBreakInsideKTable); case PROP_PAUSE_AFTER: case PROP_PAUSE_BEFORE: return ParseVariant(aErrorCode, aValue, VARIANT_HTP, nsnull); case PROP_PITCH: return ParseVariant(aErrorCode, aValue, VARIANT_HKF, nsCSSProps::kPitchKTable); case PROP_PITCH_RANGE: return ParseVariant(aErrorCode, aValue, VARIANT_HN, nsnull); case PROP_POSITION: return ParseVariant(aErrorCode, aValue, VARIANT_HK, nsCSSProps::kPositionKTable); case PROP_RICHNESS: return ParseVariant(aErrorCode, aValue, VARIANT_HN, nsnull); case PROP_SPEAK: return ParseVariant(aErrorCode, aValue, VARIANT_HMK | VARIANT_NONE, nsCSSProps::kSpeakKTable); case PROP_SPEAK_HEADER: return ParseVariant(aErrorCode, aValue, VARIANT_HK, nsCSSProps::kSpeakHeaderKTable); case PROP_SPEAK_NUMERAL: return ParseVariant(aErrorCode, aValue, VARIANT_HK, nsCSSProps::kSpeakNumeralKTable); case PROP_SPEAK_PUNCTUATION: return ParseVariant(aErrorCode, aValue, VARIANT_HK, nsCSSProps::kSpeakPunctuationKTable); case PROP_SPEECH_RATE: return ParseVariant(aErrorCode, aValue, VARIANT_HN | VARIANT_KEYWORD, nsCSSProps::kSpeechRateKTable); case PROP_STRESS: return ParseVariant(aErrorCode, aValue, VARIANT_HN, nsnull); case PROP_TABLE_LAYOUT: return ParseVariant(aErrorCode, aValue, VARIANT_AHK, nsCSSProps::kTableLayoutKTable); case PROP_TEXT_ALIGN: return ParseVariant(aErrorCode, aValue, VARIANT_HK | VARIANT_STRING, nsCSSProps::kTextAlignKTable); case PROP_TEXT_DECORATION: return ParseTextDecoration(aErrorCode, aValue); case PROP_TEXT_INDENT: return ParseVariant(aErrorCode, aValue, VARIANT_HLP, nsnull); case PROP_TEXT_TRANSFORM: return ParseVariant(aErrorCode, aValue, VARIANT_HOK, nsCSSProps::kTextTransformKTable); case PROP_UNICODE_BIDI: return ParseVariant(aErrorCode, aValue, VARIANT_HMK, nsCSSProps::kUnicodeBidiKTable); case PROP_VERTICAL_ALIGN: return ParseVariant(aErrorCode, aValue, VARIANT_HKLP, nsCSSProps::kVerticalAlignKTable); case PROP_VISIBILITY: return ParseVariant(aErrorCode, aValue, VARIANT_HK, nsCSSProps::kVisibilityKTable); case PROP_VOICE_FAMILY: return ParseFamily(aErrorCode, aValue); case PROP_VOLUME: return ParseVariant(aErrorCode, aValue, VARIANT_HPN | VARIANT_KEYWORD, nsCSSProps::kVolumeKTable); case PROP_WHITE_SPACE: return ParseVariant(aErrorCode, aValue, VARIANT_HMK, nsCSSProps::kWhitespaceKTable); case PROP_Z_INDEX: return ParseVariant(aErrorCode, aValue, VARIANT_AHI, nsnull); } return PR_FALSE; } PRBool CSSParserImpl::ParseAzimuth(PRInt32& aErrorCode, nsCSSValue& aValue) { if (ParseVariant(aErrorCode, aValue, VARIANT_HK | VARIANT_ANGLE, nsCSSProps::kAzimuthKTable)) { if (eCSSUnit_Enumerated == aValue.GetUnit()) { PRInt32 intValue = aValue.GetIntValue(); if ((NS_STYLE_AZIMUTH_LEFT_SIDE <= intValue) && (intValue <= NS_STYLE_AZIMUTH_BEHIND)) { // look for optional modifier nsCSSValue modifier; if (ParseEnum(aErrorCode, modifier, nsCSSProps::kAzimuthKTable)) { PRInt32 enumValue = modifier.GetIntValue(); if (((intValue == NS_STYLE_AZIMUTH_BEHIND) && (NS_STYLE_AZIMUTH_LEFT_SIDE <= enumValue) && (enumValue <= NS_STYLE_AZIMUTH_RIGHT_SIDE)) || ((enumValue == NS_STYLE_AZIMUTH_BEHIND) && (NS_STYLE_AZIMUTH_LEFT_SIDE <= intValue) && (intValue <= NS_STYLE_AZIMUTH_RIGHT_SIDE))) { aValue.SetIntValue(intValue | enumValue, eCSSUnit_Enumerated); return PR_TRUE; } // Put the unknown identifier back and return UngetToken(); return PR_FALSE; } } } return PR_TRUE; } return PR_FALSE; } PRBool CSSParserImpl::ParseBackground(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { const PRInt32 numProps = 6; static const PRInt32 kBackgroundIDs[numProps] = { PROP_BACKGROUND_COLOR, PROP_BACKGROUND_IMAGE, PROP_BACKGROUND_REPEAT, PROP_BACKGROUND_ATTACHMENT, PROP_BACKGROUND_X_POSITION, PROP_BACKGROUND_Y_POSITION // PROP_BACKGROUND_FILTER }; nsCSSValue values[numProps]; PRInt32 found = ParseChoice(aErrorCode, values, kBackgroundIDs, numProps); if ((found < 1) || (PR_FALSE == ExpectEndProperty(aErrorCode, PR_TRUE))) { return PR_FALSE; } if (0 != (found & 0x30)) { // found one or more position values, validate them if (0 == (found & 0x20)) { // x value only if (eCSSUnit_Enumerated == values[4].GetUnit()) { switch (values[4].GetIntValue()) { case BG_CENTER: values[4].SetIntValue(50, eCSSUnit_Enumerated); values[5].SetIntValue(50, eCSSUnit_Enumerated); break; case BG_TOP: values[4].SetIntValue(50, eCSSUnit_Enumerated); values[5].SetIntValue(0, eCSSUnit_Enumerated); break; case BG_BOTTOM: values[4].SetIntValue(50, eCSSUnit_Enumerated); values[5].SetIntValue(100, eCSSUnit_Enumerated); break; case BG_LEFT: values[4].SetIntValue(0, eCSSUnit_Enumerated); values[5].SetIntValue(50, eCSSUnit_Enumerated); break; case BG_RIGHT: values[4].SetIntValue(100, eCSSUnit_Enumerated); values[5].SetIntValue(50, eCSSUnit_Enumerated); break; } } else if (eCSSUnit_Inherit == values[4].GetUnit()) { values[5].SetInheritValue(); } else { values[5].SetPercentValue(50.0f); } } else { // both x & y values nsCSSUnit xUnit = values[4].GetUnit(); nsCSSUnit yUnit = values[5].GetUnit(); if (eCSSUnit_Enumerated == xUnit) { // if one is enumerated, both must be if (eCSSUnit_Enumerated == yUnit) { PRInt32 xValue = values[4].GetIntValue(); PRInt32 yValue = values[5].GetIntValue(); if (0 != (xValue & (BG_LEFT | BG_CENTER | BG_RIGHT))) { // x is really an x value if (0 != (yValue & (BG_LEFT | BG_RIGHT))) { // y is also an x value return PR_FALSE; } } else { // x is a y value if (0 != (yValue & (BG_TOP | BG_BOTTOM))) { // y is also a y value return PR_FALSE; } PRInt32 holdXValue = xValue; xValue = yValue; yValue = holdXValue; } switch (xValue) { case BG_LEFT: values[4].SetIntValue(0, eCSSUnit_Enumerated); break; case BG_CENTER: values[4].SetIntValue(50, eCSSUnit_Enumerated); break; case BG_RIGHT: values[4].SetIntValue(100, eCSSUnit_Enumerated); break; default: NS_ERROR("bad x value"); } switch (yValue) { case BG_TOP: values[5].SetIntValue(0, eCSSUnit_Enumerated); break; case BG_CENTER: values[5].SetIntValue(50, eCSSUnit_Enumerated); break; case BG_BOTTOM: values[5].SetIntValue(100, eCSSUnit_Enumerated); break; default: NS_ERROR("bad y value"); } } else { return PR_FALSE; } } else { if (eCSSUnit_Enumerated == yUnit) { return PR_FALSE; } } } } // Provide missing values if ((found & 0x01) == 0) { values[0].SetIntValue(NS_STYLE_BG_COLOR_TRANSPARENT, eCSSUnit_Enumerated); } if ((found & 0x02) == 0) { values[1].SetNoneValue(); } if ((found & 0x04) == 0) { values[2].SetIntValue(NS_STYLE_BG_REPEAT_XY, eCSSUnit_Enumerated); } if ((found & 0x08) == 0) { values[3].SetIntValue(NS_STYLE_BG_ATTACHMENT_SCROLL, eCSSUnit_Enumerated); } if ((found & 0x30) == 0) { values[4].SetPercentValue(0.0f); values[5].SetPercentValue(0.0f); } // Note: no default for filter (yet) PRInt32 index; for (index = 0; index < numProps; index++) { aDeclaration->AppendValue(kBackgroundIDs[index], values[index]); } return PR_TRUE; } PRBool CSSParserImpl::ParseBackgroundPosition(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { // First try a number or a length value nsCSSValue xValue; if (ParseVariant(aErrorCode, xValue, VARIANT_HLP, nsnull)) { if (eCSSUnit_Inherit == xValue.GetUnit()) { // both are inherited if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_BACKGROUND_X_POSITION, xValue); aDeclaration->AppendValue(PROP_BACKGROUND_Y_POSITION, xValue); return PR_TRUE; } return PR_FALSE; } // We have one number/length. Get the optional second number/length. nsCSSValue yValue; if (ParseVariant(aErrorCode, yValue, VARIANT_LP, nsnull)) { // We have two numbers if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_BACKGROUND_X_POSITION, xValue); aDeclaration->AppendValue(PROP_BACKGROUND_Y_POSITION, yValue); return PR_TRUE; } return PR_FALSE; } // We have one number which is the x position. Create an value for // the vertical position which is of value 50% if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_BACKGROUND_X_POSITION, xValue); aDeclaration->AppendValue(PROP_BACKGROUND_Y_POSITION, nsCSSValue(0.5f, eCSSUnit_Percent)); return PR_TRUE; } return PR_FALSE; } // Now try keywords. We do this manually to allow for the first // appearance of "center" to apply to the either the x or y // position (it's ambiguous so we have to disambiguate). Each // allowed keyword value is assigned it's own bit. We don't allow // any duplicate keywords other than center. We try to get two // keywords but it's okay if there is only one. PRInt32 mask = 0; PRInt32 centerBit = BG_CENTER1; for (PRInt32 i = 0; i < 2; i++) { if (PR_FALSE == ParseEnum(aErrorCode, xValue, kBackgroundXYPositionKTable)) { break; } PRInt32 bit = xValue.GetIntValue(); if (BG_CENTER == bit) { // Special hack for center bits: We can have two of them mask |= centerBit; centerBit <<= 1; continue; } else if ((mask & bit) != 0) { // no duplicate values allowed (other than center) return PR_FALSE; } mask |= bit; } // Check for bad input. Bad input consists of no matching keywords, // or pairs of x keywords or pairs of y keywords. if ((mask == 0) || (mask == (BG_TOP | BG_BOTTOM)) || (mask == (BG_LEFT | BG_RIGHT))) { return PR_FALSE; } // Map good input PRInt32 xEnumValue = 50; if ((mask & (BG_LEFT | BG_RIGHT)) != 0) { // We have an x value xEnumValue = ((mask & BG_LEFT) != 0) ? 0 : 100; } PRInt32 yEnumValue = 50; if ((mask & (BG_TOP | BG_BOTTOM)) != 0) { // We have a y value yEnumValue = ((mask & BG_TOP) != 0) ? 0 : 100; } if (ExpectEndProperty(aErrorCode, PR_TRUE)) { // Create style values aDeclaration->AppendValue(PROP_BACKGROUND_X_POSITION, nsCSSValue(xEnumValue, eCSSUnit_Enumerated)); aDeclaration->AppendValue(PROP_BACKGROUND_Y_POSITION, nsCSSValue(yEnumValue, eCSSUnit_Enumerated)); return PR_TRUE; } return PR_FALSE; } PRBool CSSParserImpl::ParseBackgroundFilter(PRInt32& aErrorCode, nsCSSValue& aValue) { // XXX not yet supported return PR_FALSE; } PRBool CSSParserImpl::ParseForegroundFilter(PRInt32& aErrorCode, nsCSSValue& aValue) { // XXX not yet supported return PR_FALSE; } // These must be in CSS order (top,right,bottom,left) for indexing to work static const PRInt32 kBorderStyleIDs[] = { PROP_BORDER_TOP_STYLE, PROP_BORDER_RIGHT_STYLE, PROP_BORDER_BOTTOM_STYLE, PROP_BORDER_LEFT_STYLE }; static const PRInt32 kBorderWidthIDs[] = { PROP_BORDER_TOP_WIDTH, PROP_BORDER_RIGHT_WIDTH, PROP_BORDER_BOTTOM_WIDTH, PROP_BORDER_LEFT_WIDTH }; static const PRInt32 kBorderColorIDs[] = { PROP_BORDER_TOP_COLOR, PROP_BORDER_RIGHT_COLOR, PROP_BORDER_BOTTOM_COLOR, PROP_BORDER_LEFT_COLOR }; PRBool CSSParserImpl::ParseBorder(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { const PRInt32 numProps = 3; static const PRInt32 kBorderIDs[] = { PROP_BORDER_TOP_WIDTH, // only one value per property PROP_BORDER_TOP_STYLE, PROP_BORDER_TOP_COLOR }; nsCSSValue values[numProps]; PRInt32 found = ParseChoice(aErrorCode, values, kBorderIDs, numProps); if ((found < 1) || (PR_FALSE == ExpectEndProperty(aErrorCode, PR_TRUE))) { return PR_FALSE; } if (0 == (found & 1)) { // provide missing border width's values[0].SetIntValue(NS_STYLE_BORDER_WIDTH_MEDIUM, eCSSUnit_Enumerated); } if (0 == (found & 2)) { // provide missing border style's values[1].SetNoneValue(); } if (0 == (found & 4)) { // clear missing color values so color property will be used values[2].Reset(); } PRInt32 index; for (index = 0; index < 4; index++) { aDeclaration->AppendValue(kBorderWidthIDs[index], values[0]); aDeclaration->AppendValue(kBorderStyleIDs[index], values[1]); aDeclaration->AppendValue(kBorderColorIDs[index], values[2]); } return PR_TRUE; } PRBool CSSParserImpl::ParseBorderColor(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { return ParseBoxProperties(aErrorCode, aDeclaration, kBorderColorIDs); } PRBool CSSParserImpl::ParseBorderSpacing(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { nsCSSValue xValue; if (ParseVariant(aErrorCode, xValue, VARIANT_HL, nsnull)) { if (xValue.IsLengthUnit()) { // We have one length. Get the optional second length. nsCSSValue yValue; if (ParseVariant(aErrorCode, yValue, VARIANT_LENGTH, nsnull)) { // We have two numbers if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_BORDER_X_SPACING, xValue); aDeclaration->AppendValue(PROP_BORDER_Y_SPACING, yValue); return PR_TRUE; } return PR_FALSE; } } // We have one length which is the horizontal spacing. Create a value for // the vertical spacing which is equal if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_BORDER_X_SPACING, xValue); aDeclaration->AppendValue(PROP_BORDER_Y_SPACING, xValue); return PR_TRUE; } } return PR_FALSE; } PRBool CSSParserImpl::ParseBorderSide(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration, const PRInt32 aPropIDs[]) { const PRInt32 numProps = 3; nsCSSValue values[numProps]; PRInt32 found = ParseChoice(aErrorCode, values, aPropIDs, numProps); if ((found < 1) || (PR_FALSE == ExpectEndProperty(aErrorCode, PR_TRUE))) { return PR_FALSE; } if ((found & 1) == 0) { // Provide default border-width values[0].SetIntValue(NS_STYLE_BORDER_WIDTH_MEDIUM, eCSSUnit_Enumerated); } if ((found & 2) == 0) { // Provide default border-style values[1].SetNoneValue(); } if ((found & 4) == 0) { // reset border-color so color property gets used values[2].Reset(); } PRInt32 index; for (index = 0; index < numProps; index++) { aDeclaration->AppendValue(aPropIDs[index], values[index]); } return PR_TRUE; } PRBool CSSParserImpl::ParseBorderStyle(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { return ParseBoxProperties(aErrorCode, aDeclaration, kBorderStyleIDs); } PRBool CSSParserImpl::ParseBorderWidth(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { return ParseBoxProperties(aErrorCode, aDeclaration, kBorderWidthIDs); } PRBool CSSParserImpl::ParseClip(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { static const PRInt32 kClipIDs[] = { PROP_CLIP_TOP, PROP_CLIP_RIGHT, PROP_CLIP_BOTTOM, PROP_CLIP_LEFT }; if (! GetToken(aErrorCode, PR_TRUE)) { return PR_FALSE; } PRInt32 index; if ((eCSSToken_Ident == mToken.mType) && mToken.mIdent.EqualsIgnoreCase("auto")) { if (ExpectEndProperty(aErrorCode, PR_TRUE)) { nsCSSValue valueAuto(eCSSUnit_Auto); for (index = 0; index < 4; index++) { aDeclaration->AppendValue(kClipIDs[index], valueAuto); } return PR_TRUE; } } else if ((eCSSToken_Ident == mToken.mType) && mToken.mIdent.EqualsIgnoreCase("inherit")) { if (ExpectEndProperty(aErrorCode, PR_TRUE)) { nsCSSValue inherit(eCSSUnit_Inherit); for (index = 0; index < 4; index++) { aDeclaration->AppendValue(kClipIDs[index], inherit); } return PR_TRUE; } } else if ((eCSSToken_Function == mToken.mType) && mToken.mIdent.EqualsIgnoreCase("rect")) { if (!ExpectSymbol(aErrorCode, '(', PR_TRUE)) { return PR_FALSE; } nsCSSValue values[4]; for (index = 0; index < 4; index++) { if (! ParseVariant(aErrorCode, values[index], VARIANT_AL, nsnull)) { return PR_FALSE; } if (3 != index) { // skip optional commas between elements ExpectSymbol(aErrorCode, ',', PR_TRUE); } } if (!ExpectSymbol(aErrorCode, ')', PR_TRUE)) { return PR_FALSE; } if (ExpectEndProperty(aErrorCode, PR_TRUE)) { for (index = 0; index < 4; index++) { aDeclaration->AppendValue(kClipIDs[index], values[index]); } return PR_TRUE; } } else { UngetToken(); } return PR_FALSE; } #define VARIANT_CONTENT (VARIANT_STRING | VARIANT_URL | VARIANT_COUNTER | VARIANT_ATTR | \ VARIANT_KEYWORD) PRBool CSSParserImpl::ParseContent(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { nsCSSValue value; if (ParseVariant(aErrorCode, value, VARIANT_CONTENT | VARIANT_INHERIT, nsCSSProps::kContentKTable)) { if (eCSSUnit_Inherit == value.GetUnit()) { if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_CONTENT, value); return PR_TRUE; } return PR_FALSE; } nsCSSValueList* listHead = new nsCSSValueList(); nsCSSValueList* list = listHead; if (nsnull == list) { aErrorCode = NS_ERROR_OUT_OF_MEMORY; return PR_FALSE; } list->mValue = value; while (nsnull != list) { if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aErrorCode = aDeclaration->AppendStructValue(PROP_CONTENT, listHead); return NS_SUCCEEDED(aErrorCode); } if (ParseVariant(aErrorCode, value, VARIANT_CONTENT, nsCSSProps::kContentKTable)) { list->mNext = new nsCSSValueList(); list = list->mNext; if (nsnull != list) { list->mValue = value; } else { aErrorCode = NS_ERROR_OUT_OF_MEMORY; } } else { break; } } delete listHead; } return PR_FALSE; } PRBool CSSParserImpl::ParseCounterData(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration, PRInt32 aPropID) { nsString* ident = NextIdent(aErrorCode); if (nsnull == ident) { return PR_FALSE; } if (ident->EqualsIgnoreCase("none")) { if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(aPropID, nsCSSValue(eCSSUnit_None)); return PR_TRUE; } return PR_FALSE; } else if (ident->EqualsIgnoreCase("inherit")) { if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(aPropID, nsCSSValue(eCSSUnit_Inherit)); return PR_TRUE; } return PR_FALSE; } else { nsCSSCounterData* dataHead = new nsCSSCounterData(); nsCSSCounterData* data = dataHead; if (nsnull == data) { aErrorCode = NS_ERROR_OUT_OF_MEMORY; return PR_FALSE; } data->mCounter.SetStringValue(*ident, eCSSUnit_String); while (nsnull != data) { if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aErrorCode = aDeclaration->AppendStructValue(aPropID, dataHead); return NS_SUCCEEDED(aErrorCode); } if (! GetToken(aErrorCode, PR_TRUE)) { break; } if ((eCSSToken_Number == mToken.mType) && (mToken.mIntegerValid)) { data->mValue.SetIntValue(mToken.mInteger, eCSSUnit_Integer); if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aErrorCode = aDeclaration->AppendStructValue(aPropID, dataHead); return NS_SUCCEEDED(aErrorCode); } if (! GetToken(aErrorCode, PR_TRUE)) { break; } } if (eCSSToken_Ident == mToken.mType) { data->mNext = new nsCSSCounterData(); data = data->mNext; if (nsnull != data) { data->mCounter.SetStringValue(mToken.mIdent, eCSSUnit_String); } else { aErrorCode = NS_ERROR_OUT_OF_MEMORY; } } else { break; } } delete dataHead; } return PR_FALSE; } PRBool CSSParserImpl::ParseCue(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { nsCSSValue before; if (ParseSingleValueProperty(aErrorCode, before, PROP_CUE_BEFORE)) { if (eCSSUnit_URL == before.GetUnit()) { nsCSSValue after; if (ParseSingleValueProperty(aErrorCode, after, PROP_CUE_AFTER)) { if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_CUE_BEFORE, before); aDeclaration->AppendValue(PROP_CUE_AFTER, after); return PR_TRUE; } return PR_FALSE; } } if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_CUE_BEFORE, before); aDeclaration->AppendValue(PROP_CUE_AFTER, before); return PR_TRUE; } } return PR_FALSE; } PRBool CSSParserImpl::ParseCursor(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { nsCSSValue value; if (ParseVariant(aErrorCode, value, VARIANT_AHUK, nsCSSProps::kCursorKTable)) { if (eCSSUnit_URL == value.GetUnit()) { nsCSSValueList* listHead = new nsCSSValueList(); nsCSSValueList* list = listHead; if (nsnull == list) { aErrorCode = NS_ERROR_OUT_OF_MEMORY; return PR_FALSE; } list->mValue = value; while (nsnull != list) { if (eCSSUnit_URL != value.GetUnit()) { if (PR_FALSE == ExpectEndProperty(aErrorCode, PR_TRUE)) { return PR_FALSE; } } if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aErrorCode = aDeclaration->AppendStructValue(PROP_CURSOR, listHead); return NS_SUCCEEDED(aErrorCode); } if (ParseVariant(aErrorCode, value, VARIANT_AHUK, nsCSSProps::kCursorKTable)) { list->mNext = new nsCSSValueList(); list = list->mNext; if (nsnull != list) { list->mValue = value; } else { aErrorCode = NS_ERROR_OUT_OF_MEMORY; } } else { break; } } delete listHead; return PR_FALSE; } if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_CURSOR, value); return PR_TRUE; } } return PR_FALSE; } PRBool CSSParserImpl::ParseFont(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { static const PRInt32 fontIDs[] = { PROP_FONT_STYLE, PROP_FONT_VARIANT, PROP_FONT_WEIGHT }; nsCSSValue family; if (ParseVariant(aErrorCode, family, VARIANT_HK, nsCSSProps::kFontKTable)) { if (ExpectEndProperty(aErrorCode, PR_TRUE)) { if (eCSSUnit_Inherit == family.GetUnit()) { aDeclaration->AppendValue(PROP_FONT_FAMILY, family); aDeclaration->AppendValue(PROP_FONT_STYLE, family); aDeclaration->AppendValue(PROP_FONT_VARIANT, family); aDeclaration->AppendValue(PROP_FONT_WEIGHT, family); aDeclaration->AppendValue(PROP_FONT_SIZE, family); aDeclaration->AppendValue(PROP_LINE_HEIGHT, family); aDeclaration->AppendValue(PROP_FONT_STRETCH, family); aDeclaration->AppendValue(PROP_FONT_SIZE_ADJUST, family); } else { aDeclaration->AppendValue(PROP_FONT_FAMILY, family); // keyword value overrides everything else nsCSSValue empty; aDeclaration->AppendValue(PROP_FONT_STYLE, empty); aDeclaration->AppendValue(PROP_FONT_VARIANT, empty); aDeclaration->AppendValue(PROP_FONT_WEIGHT, empty); aDeclaration->AppendValue(PROP_FONT_SIZE, empty); aDeclaration->AppendValue(PROP_LINE_HEIGHT, empty); aDeclaration->AppendValue(PROP_FONT_STRETCH, empty); aDeclaration->AppendValue(PROP_FONT_SIZE_ADJUST, empty); } return PR_TRUE; } return PR_FALSE; } // Get optional font-style, font-variant and font-weight (in any order) const PRInt32 numProps = 3; nsCSSValue values[numProps]; PRInt32 found = ParseChoice(aErrorCode, values, fontIDs, numProps); if ((found < 0) || (eCSSUnit_Inherit == values[0].GetUnit())) { // illegal data return PR_FALSE; } if ((found & 1) == 0) { // Provide default font-style values[0].SetNormalValue(); } if ((found & 2) == 0) { // Provide default font-variant values[1].SetNormalValue(); } if ((found & 4) == 0) { // Provide default font-weight values[2].SetNormalValue(); } // Get mandatory font-size nsCSSValue size; if (! ParseVariant(aErrorCode, size, VARIANT_KEYWORD | VARIANT_LP, nsCSSProps::kFontSizeKTable)) { return PR_FALSE; } // Get optional "/" line-height nsCSSValue lineHeight; if (ExpectSymbol(aErrorCode, '/', PR_TRUE)) { if (! ParseVariant(aErrorCode, lineHeight, VARIANT_NUMBER | VARIANT_LP | VARIANT_NORMAL, nsnull)) { return PR_FALSE; } } else { lineHeight.SetNormalValue(); } // Get final mandatory font-family if (ParseFamily(aErrorCode, family)) { if ((eCSSUnit_Inherit != family.GetUnit()) && ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_FONT_FAMILY, family); aDeclaration->AppendValue(PROP_FONT_STYLE, values[0]); aDeclaration->AppendValue(PROP_FONT_VARIANT, values[1]); aDeclaration->AppendValue(PROP_FONT_WEIGHT, values[2]); aDeclaration->AppendValue(PROP_FONT_SIZE, size); aDeclaration->AppendValue(PROP_LINE_HEIGHT, lineHeight); aDeclaration->AppendValue(PROP_FONT_STRETCH, nsCSSValue(eCSSUnit_Normal)); aDeclaration->AppendValue(PROP_FONT_SIZE_ADJUST, nsCSSValue(eCSSUnit_None)); return PR_TRUE; } } return PR_FALSE; } PRBool CSSParserImpl::ParseFamily(PRInt32& aErrorCode, nsCSSValue& aValue) { nsCSSToken* tk = &mToken; nsAutoString family; PRBool firstOne = PR_TRUE; for (;;) { if (!GetToken(aErrorCode, PR_TRUE)) { break; } if (eCSSToken_Ident == tk->mType) { if (firstOne) { if (tk->mIdent.EqualsIgnoreCase("inherit")) { aValue.SetInheritValue(); return PR_TRUE; } } else { family.Append(PRUnichar(',')); } family.Append(tk->mIdent); for (;;) { if (!GetToken(aErrorCode, PR_FALSE)) { break; } if (eCSSToken_Ident == tk->mType) { family.Append(tk->mIdent); } else if (eCSSToken_WhiteSpace == tk->mType) { // Lookahead one token and drop whitespace if we ending the // font name. if (!GetToken(aErrorCode, PR_TRUE)) { break; } if (eCSSToken_Ident != tk->mType) { UngetToken(); break; } UngetToken(); family.Append(PRUnichar(' ')); } else { UngetToken(); break; } } firstOne = PR_FALSE; } else if (eCSSToken_String == tk->mType) { if (!firstOne) { family.Append(PRUnichar(',')); } family.Append(tk->mSymbol); // replace the quotes family.Append(tk->mIdent); family.Append(tk->mSymbol); firstOne = PR_FALSE; } else if (eCSSToken_Symbol == tk->mType) { if (',' != tk->mSymbol) { UngetToken(); break; } } else { UngetToken(); break; } } if (family.Length() == 0) { return PR_FALSE; } aValue.SetStringValue(family, eCSSUnit_String); return PR_TRUE; } PRBool CSSParserImpl::ParseListStyle(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { const PRInt32 numProps = 3; static const PRInt32 listStyleIDs[] = { PROP_LIST_STYLE_TYPE, PROP_LIST_STYLE_POSITION, PROP_LIST_STYLE_IMAGE }; nsCSSValue values[numProps]; PRInt32 index; PRInt32 found = ParseChoice(aErrorCode, values, listStyleIDs, numProps); if ((found < 1) || (PR_FALSE == ExpectEndProperty(aErrorCode, PR_TRUE))) { return PR_FALSE; } // Provide default values if ((found & 1) == 0) { values[0].SetIntValue(NS_STYLE_LIST_STYLE_DISC, eCSSUnit_Enumerated); } if ((found & 2) == 0) { values[1].SetIntValue(NS_STYLE_LIST_STYLE_POSITION_OUTSIDE, eCSSUnit_Enumerated); } if ((found & 4) == 0) { values[2].SetNoneValue(); } for (index = 0; index < numProps; index++) { aDeclaration->AppendValue(listStyleIDs[index], values[index]); } return PR_TRUE; } PRBool CSSParserImpl::ParseMargin(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { static const PRInt32 kMarginSideIDs[] = { PROP_MARGIN_TOP, PROP_MARGIN_RIGHT, PROP_MARGIN_BOTTOM, PROP_MARGIN_LEFT }; return ParseBoxProperties(aErrorCode, aDeclaration, kMarginSideIDs); } PRBool CSSParserImpl::ParseMarks(PRInt32& aErrorCode, nsCSSValue& aValue) { if (ParseVariant(aErrorCode, aValue, VARIANT_HOK, nsCSSProps::kPageMarksKTable)) { if (eCSSUnit_Enumerated == aValue.GetUnit()) { if (PR_FALSE == ExpectEndProperty(aErrorCode, PR_TRUE)) { nsCSSValue second; if (ParseEnum(aErrorCode, second, nsCSSProps::kPageMarksKTable)) { aValue.SetIntValue(aValue.GetIntValue() | second.GetIntValue(), eCSSUnit_Enumerated); return PR_TRUE; } return PR_FALSE; } } return PR_TRUE; } return PR_FALSE; } PRBool CSSParserImpl::ParseOutline(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { const PRInt32 numProps = 3; static const PRInt32 kOutlineIDs[] = { PROP_OUTLINE_COLOR, PROP_OUTLINE_STYLE, PROP_OUTLINE_WIDTH }; nsCSSValue values[numProps]; PRInt32 found = ParseChoice(aErrorCode, values, kOutlineIDs, numProps); if ((found < 1) || (PR_FALSE == ExpectEndProperty(aErrorCode, PR_TRUE))) { return PR_FALSE; } // Provide default values if ((found & 1) == 0) { values[0].SetIntValue(NS_STYLE_COLOR_INVERT, eCSSUnit_Enumerated); } if ((found & 2) == 0) { values[1].SetNoneValue(); } if ((found & 4) == 0) { values[2].SetIntValue(NS_STYLE_BORDER_WIDTH_MEDIUM, eCSSUnit_Enumerated); } PRInt32 index; for (index = 0; index < numProps; index++) { aDeclaration->AppendValue(kOutlineIDs[index], values[index]); } return PR_TRUE; } PRBool CSSParserImpl::ParsePadding(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { static const PRInt32 kPaddingSideIDs[] = { PROP_PADDING_TOP, PROP_PADDING_RIGHT, PROP_PADDING_BOTTOM, PROP_PADDING_LEFT }; return ParseBoxProperties(aErrorCode, aDeclaration, kPaddingSideIDs); } PRBool CSSParserImpl::ParsePause(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { nsCSSValue before; if (ParseSingleValueProperty(aErrorCode, before, PROP_PAUSE_BEFORE)) { if (eCSSUnit_Inherit != before.GetUnit()) { nsCSSValue after; if (ParseSingleValueProperty(aErrorCode, after, PROP_PAUSE_AFTER)) { if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_PAUSE_BEFORE, before); aDeclaration->AppendValue(PROP_PAUSE_AFTER, after); return PR_TRUE; } return PR_FALSE; } } if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_PAUSE_BEFORE, before); aDeclaration->AppendValue(PROP_PAUSE_AFTER, before); return PR_TRUE; } } return PR_FALSE; } PRBool CSSParserImpl::ParsePlayDuring(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { nsCSSValue playDuring; nsCSSValue flags; if (ParseVariant(aErrorCode, playDuring, VARIANT_AHUO, nsnull)) { if (eCSSUnit_URL == playDuring.GetUnit()) { if (ParseEnum(aErrorCode, flags, nsCSSProps::kPlayDuringKTable)) { PRInt32 intValue = flags.GetIntValue(); if (ParseEnum(aErrorCode, flags, nsCSSProps::kPlayDuringKTable)) { flags.SetIntValue(intValue | flags.GetIntValue(), eCSSUnit_Enumerated); } } } if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_PLAY_DURING, playDuring); aDeclaration->AppendValue(PROP_PLAY_DURING_FLAGS, flags); return PR_TRUE; } } return PR_FALSE; } PRBool CSSParserImpl::ParseQuotes(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { nsCSSValue open; if (ParseVariant(aErrorCode, open, VARIANT_HOS, nsnull)) { if (eCSSUnit_String == open.GetUnit()) { nsCSSQuotes* quotesHead = new nsCSSQuotes(); nsCSSQuotes* quotes = quotesHead; if (nsnull == quotes) { aErrorCode = NS_ERROR_OUT_OF_MEMORY; return PR_FALSE; } quotes->mOpen = open; while (nsnull != quotes) { // get mandatory close if (ParseVariant(aErrorCode, quotes->mClose, VARIANT_STRING, nsnull)) { if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aErrorCode = aDeclaration->AppendStructValue(PROP_QUOTES, quotesHead); return NS_SUCCEEDED(aErrorCode); } // look for another open if (ParseVariant(aErrorCode, open, VARIANT_STRING, nsnull)) { quotes->mNext = new nsCSSQuotes(); quotes = quotes->mNext; if (nsnull != quotes) { quotes->mOpen = open; continue; } aErrorCode = NS_ERROR_OUT_OF_MEMORY; } } break; } delete quotesHead; return PR_FALSE; } if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_QUOTES_OPEN, open); return PR_TRUE; } } return PR_FALSE; } PRBool CSSParserImpl::ParseSize(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { nsCSSValue width; if (ParseVariant(aErrorCode, width, VARIANT_AHKL, nsCSSProps::kPageSizeKTable)) { if (width.IsLengthUnit()) { nsCSSValue height; if (ParseVariant(aErrorCode, height, VARIANT_LENGTH, nsnull)) { if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_SIZE_WIDTH, width); aDeclaration->AppendValue(PROP_SIZE_HEIGHT, height); return PR_TRUE; } return PR_FALSE; } } if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_SIZE_WIDTH, width); aDeclaration->AppendValue(PROP_SIZE_HEIGHT, width); return PR_TRUE; } } return PR_FALSE; } PRBool CSSParserImpl::ParseTextDecoration(PRInt32& aErrorCode, nsCSSValue& aValue) { if (ParseVariant(aErrorCode, aValue, VARIANT_HOK, nsCSSProps::kTextDecorationKTable)) { if (eCSSUnit_Enumerated == aValue.GetUnit()) { // look for more keywords PRInt32 intValue = aValue.GetIntValue(); nsCSSValue keyword; PRInt32 index; for (index = 0; index < 3; index++) { if (ParseEnum(aErrorCode, keyword, nsCSSProps::kTextDecorationKTable)) { intValue |= keyword.GetIntValue(); } else { break; } } aValue.SetIntValue(intValue, eCSSUnit_Enumerated); } return PR_TRUE; } return PR_FALSE; } PRBool CSSParserImpl::ParseTextShadow(PRInt32& aErrorCode, nsICSSDeclaration* aDeclaration) { nsCSSValue value; if (ParseVariant(aErrorCode, value, VARIANT_HC | VARIANT_LENGTH | VARIANT_NONE, nsnull)) { nsCSSUnit unit = value.GetUnit(); if ((eCSSUnit_Color == unit) || (eCSSUnit_String == unit) || value.IsLengthUnit()) { nsCSSShadow* shadowHead = new nsCSSShadow(); nsCSSShadow* shadow = shadowHead; if (nsnull == shadow) { aErrorCode = NS_ERROR_OUT_OF_MEMORY; return PR_FALSE; } while (nsnull != shadow) { PRBool haveColor = PR_FALSE; if (value.IsLengthUnit()) { shadow->mXOffset = value; } else { haveColor = PR_TRUE; shadow->mColor = value; if (ParseVariant(aErrorCode, value, VARIANT_LENGTH, nsnull)) { shadow->mXOffset = value; } else { break; } } if (ParseVariant(aErrorCode, value, VARIANT_LENGTH, nsnull)) { shadow->mYOffset = value; } else { break; } if (ParseVariant(aErrorCode, value, VARIANT_LENGTH, nsnull)) { shadow->mRadius = value; } // optional if (PR_FALSE == haveColor) { if (ParseVariant(aErrorCode, value, VARIANT_COLOR, nsnull)) { shadow->mColor = value; } } if (ExpectSymbol(aErrorCode, ',', PR_TRUE)) { shadow->mNext = new nsCSSShadow(); shadow = shadow->mNext; if (nsnull == shadow) { aErrorCode = NS_ERROR_OUT_OF_MEMORY; break; } if (PR_FALSE == ParseVariant(aErrorCode, value, VARIANT_COLOR | VARIANT_LENGTH, nsnull)) { break; } } else { if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aErrorCode = aDeclaration->AppendStructValue(PROP_TEXT_SHADOW, shadowHead); return NS_SUCCEEDED(aErrorCode); } break; } } delete shadowHead; return PR_FALSE; } // value is inherit or none if (ExpectEndProperty(aErrorCode, PR_TRUE)) { aDeclaration->AppendValue(PROP_TEXT_SHADOW_X, value); return PR_TRUE; } } return PR_FALSE; }