/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is mozilla.org code. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 1998 * the Initial Developer. All Rights Reserved. * * Contributor(s): * emk * Daniel Glazman * L. David Baron * Boris Zbarsky * Mats Palmgren * Christian Biesinger * Jeff Walden * Jonathon Jongsma , Collabora Ltd. * Siraj Razick , Collabora Ltd. * * Alternatively, the contents of this file may be used under the terms of * either of the GNU General Public License Version 2 or later (the "GPL"), * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ /* parsing of CSS stylesheets, based on a token stream from the CSS scanner */ #include "nsCSSParser.h" #include "nsCSSProps.h" #include "nsCSSKeywords.h" #include "nsCSSScanner.h" #include "mozilla/css/Loader.h" #include "nsICSSStyleRule.h" #include "nsICSSImportRule.h" #include "nsCSSRules.h" #include "nsICSSNameSpaceRule.h" #include "nsIUnicharInputStream.h" #include "nsCSSStyleSheet.h" #include "mozilla/css/Declaration.h" #include "nsStyleConsts.h" #include "nsIURL.h" #include "nsNetUtil.h" #include "nsCOMPtr.h" #include "nsString.h" #include "nsReadableUtils.h" #include "nsUnicharUtils.h" #include "nsIAtom.h" #include "nsCOMArray.h" #include "nsColor.h" #include "nsCSSPseudoClasses.h" #include "nsCSSPseudoElements.h" #include "nsCSSAnonBoxes.h" #include "nsINameSpaceManager.h" #include "nsXMLNameSpaceMap.h" #include "nsThemeConstants.h" #include "nsContentErrors.h" #include "nsPrintfCString.h" #include "nsIMediaList.h" #include "nsILookAndFeel.h" #include "nsStyleUtil.h" #include "nsIPrincipal.h" #include "prprf.h" #include "math.h" #include "nsContentUtils.h" #include "nsDOMError.h" #include "nsAutoPtr.h" #include "nsTArray.h" #include "prlog.h" #include "CSSCalc.h" #include "nsMediaFeatures.h" namespace css = mozilla::css; // Flags for ParseVariant method #define VARIANT_KEYWORD 0x000001 // K #define VARIANT_LENGTH 0x000002 // L #define VARIANT_PERCENT 0x000004 // P #define VARIANT_COLOR 0x000008 // C eCSSUnit_Color, eCSSUnit_Ident (e.g. "red") #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 eCSSUnit_Initial, eCSSUnit_Inherit #define VARIANT_NONE 0x040000 // O #define VARIANT_NORMAL 0x080000 // M #define VARIANT_SYSFONT 0x100000 // eCSSUnit_System_Font #define VARIANT_GRADIENT 0x200000 // eCSSUnit_Gradient #define VARIANT_CUBIC_BEZIER 0x400000 // CSS transition timing function #define VARIANT_ALL 0x800000 // #define VARIANT_IMAGE_RECT 0x01000000 // eCSSUnit_Function // This is an extra bit that says that a VARIANT_ANGLE allows unitless zero: #define VARIANT_ZERO_ANGLE 0x02000000 // unitless zero for angles #define VARIANT_CALC 0x04000000 // eCSSUnit_Calc #define VARIANT_CALC_NO_MIN_MAX 0x08000000 // no min() and max() for calc() // 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_AHKLP (VARIANT_AHLP | 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_HKI (VARIANT_HK | VARIANT_INTEGER) #define VARIANT_HKL (VARIANT_HK | VARIANT_LENGTH) #define VARIANT_HKLP (VARIANT_HK | VARIANT_LP) #define VARIANT_HKLPO (VARIANT_HKLP | VARIANT_NONE) #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_HC (VARIANT_INHERIT | VARIANT_COLOR) #define VARIANT_HCK (VARIANT_HK | VARIANT_COLOR) #define VARIANT_HUK (VARIANT_HK | VARIANT_URL) #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_HN (VARIANT_INHERIT | VARIANT_NUMBER) #define VARIANT_HON (VARIANT_HN | VARIANT_NONE) #define VARIANT_HOS (VARIANT_INHERIT | VARIANT_NONE | VARIANT_STRING) #define VARIANT_TIMING_FUNCTION (VARIANT_KEYWORD | VARIANT_CUBIC_BEZIER) #define VARIANT_UK (VARIANT_URL | VARIANT_KEYWORD) #define VARIANT_ANGLE_OR_ZERO (VARIANT_ANGLE | VARIANT_ZERO_ANGLE) #define VARIANT_TRANSFORM_LPCALC (VARIANT_LP | VARIANT_CALC | \ VARIANT_CALC_NO_MIN_MAX) //---------------------------------------------------------------------- namespace { // Rule processing function typedef void (* RuleAppendFunc) (nsICSSRule* aRule, void* aData); static void AppendRuleToArray(nsICSSRule* aRule, void* aArray); static void AppendRuleToSheet(nsICSSRule* aRule, void* aParser); // Your basic top-down recursive descent style parser // The exposed methods and members of this class are precisely those // needed by nsCSSParser, far below. class CSSParserImpl { public: CSSParserImpl(); ~CSSParserImpl(); nsresult SetStyleSheet(nsCSSStyleSheet* aSheet); nsresult SetQuirkMode(PRBool aQuirkMode); #ifdef MOZ_SVG nsresult SetSVGMode(PRBool aSVGMode); #endif nsresult SetChildLoader(mozilla::css::Loader* aChildLoader); // Clears everything set by the above Set*() functions. void Reset(); nsresult Parse(nsIUnicharInputStream* aInput, nsIURI* aSheetURI, nsIURI* aBaseURI, nsIPrincipal* aSheetPrincipal, PRUint32 aLineNumber, PRBool aAllowUnsafeRules); nsresult ParseStyleAttribute(const nsAString& aAttributeValue, nsIURI* aDocURL, nsIURI* aBaseURL, nsIPrincipal* aNodePrincipal, nsICSSStyleRule** aResult); nsresult ParseAndAppendDeclaration(const nsAString& aBuffer, nsIURI* aSheetURL, nsIURI* aBaseURL, nsIPrincipal* aSheetPrincipal, css::Declaration* aDeclaration, PRBool aParseOnlyOneDecl, PRBool* aChanged, PRBool aClearOldDecl); nsresult ParseRule(const nsAString& aRule, nsIURI* aSheetURL, nsIURI* aBaseURL, nsIPrincipal* aSheetPrincipal, nsCOMArray& aResult); nsresult ParseProperty(const nsCSSProperty aPropID, const nsAString& aPropValue, nsIURI* aSheetURL, nsIURI* aBaseURL, nsIPrincipal* aSheetPrincipal, css::Declaration* aDeclaration, PRBool* aChanged, PRBool aIsImportant); nsresult ParseMediaList(const nsSubstring& aBuffer, nsIURI* aURL, // for error reporting PRUint32 aLineNumber, // for error reporting nsMediaList* aMediaList, PRBool aHTMLMode); nsresult ParseColorString(const nsSubstring& aBuffer, nsIURI* aURL, // for error reporting PRUint32 aLineNumber, // for error reporting nscolor* aColor); nsresult ParseSelectorString(const nsSubstring& aSelectorString, nsIURI* aURL, // for error reporting PRUint32 aLineNumber, // for error reporting nsCSSSelectorList **aSelectorList); protected: class nsAutoParseCompoundProperty; friend class nsAutoParseCompoundProperty; void AppendRule(nsICSSRule* aRule); friend void AppendRuleToSheet(nsICSSRule*, void*); // calls AppendRule /** * This helper class automatically calls SetParsingCompoundProperty in its * constructor and takes care of resetting it to false in its destructor. */ class nsAutoParseCompoundProperty { public: nsAutoParseCompoundProperty(CSSParserImpl* aParser) : mParser(aParser) { NS_ASSERTION(!aParser->IsParsingCompoundProperty(), "already parsing compound property"); NS_ASSERTION(aParser, "Null parser?"); aParser->SetParsingCompoundProperty(PR_TRUE); } ~nsAutoParseCompoundProperty() { mParser->SetParsingCompoundProperty(PR_FALSE); } private: CSSParserImpl* mParser; }; void InitScanner(nsIUnicharInputStream* aInput, nsIURI* aSheetURI, PRUint32 aLineNumber, nsIURI* aBaseURI, nsIPrincipal* aSheetPrincipal); // the caller must hold on to aBuffer until parsing is done void InitScanner(const nsSubstring& aString, nsIURI* aSheetURI, PRUint32 aLineNumber, nsIURI* aBaseURI, nsIPrincipal* aSheetPrincipal); void ReleaseScanner(void); #ifdef MOZ_SVG PRBool IsSVGMode() const { return mScanner.IsSVGMode(); } #endif PRBool GetToken(PRBool aSkipWS); void UngetToken(); // get the part in paretheses of the url() function, which is really a // part of a token in the CSS grammar, but we're using a combination // of the parser and the scanner to do it to handle the backtracking // required by the error handling of the tokenization (since if we // fail to scan the full token, we should fall back to tokenizing as // FUNCTION ... ')'). // Note that this function WILL WRITE TO aURL IN SOME FAILURE CASES. PRBool GetURLInParens(nsString& aURL); void AssertInitialState() { NS_PRECONDITION(!mHTMLMediaMode, "Bad initial state"); NS_PRECONDITION(!mParsingCompoundProperty, "Bad initial state"); } PRBool ExpectSymbol(PRUnichar aSymbol, PRBool aSkipWS); PRBool ExpectEndProperty(); PRBool CheckEndProperty(); nsSubstring* NextIdent(); void SkipUntil(PRUnichar aStopSymbol); void SkipUntilOneOf(const PRUnichar* aStopSymbolChars); void SkipRuleSet(PRBool aInsideBraces); PRBool SkipAtRule(); PRBool SkipDeclaration(PRBool aCheckForBraces); PRBool PushGroup(nsICSSGroupRule* aRule); void PopGroup(void); PRBool ParseRuleSet(RuleAppendFunc aAppendFunc, void* aProcessData, PRBool aInsideBraces = PR_FALSE); PRBool ParseAtRule(RuleAppendFunc aAppendFunc, void* aProcessData); PRBool ParseCharsetRule(RuleAppendFunc aAppendFunc, void* aProcessData); PRBool ParseImportRule(RuleAppendFunc aAppendFunc, void* aProcessData); PRBool GatherURL(nsString& aURL); PRBool GatherMedia(nsMediaList* aMedia, PRUnichar aStopSymbol); PRBool ParseMediaQuery(PRUnichar aStopSymbol, nsMediaQuery **aQuery, PRBool *aParsedSomething, PRBool *aHitStop); PRBool ParseMediaQueryExpression(nsMediaQuery* aQuery); void ProcessImport(const nsString& aURLSpec, nsMediaList* aMedia, RuleAppendFunc aAppendFunc, void* aProcessData); PRBool ParseGroupRule(nsICSSGroupRule* aRule, RuleAppendFunc aAppendFunc, void* aProcessData); PRBool ParseMediaRule(RuleAppendFunc aAppendFunc, void* aProcessData); PRBool ParseMozDocumentRule(RuleAppendFunc aAppendFunc, void* aProcessData); PRBool ParseNameSpaceRule(RuleAppendFunc aAppendFunc, void* aProcessData); void ProcessNameSpace(const nsString& aPrefix, const nsString& aURLSpec, RuleAppendFunc aAppendFunc, void* aProcessData); PRBool ParseFontFaceRule(RuleAppendFunc aAppendFunc, void* aProcessData); PRBool ParseFontDescriptor(nsCSSFontFaceRule* aRule); PRBool ParseFontDescriptorValue(nsCSSFontDesc aDescID, nsCSSValue& aValue); PRBool ParsePageRule(RuleAppendFunc aAppendFunc, void* aProcessData); enum nsSelectorParsingStatus { // we have parsed a selector and we saw a token that cannot be // part of a selector: eSelectorParsingStatus_Done, // we should continue parsing the selector: eSelectorParsingStatus_Continue, // we saw an unexpected token or token value, // or we saw end-of-file with an unfinished selector: eSelectorParsingStatus_Error }; nsSelectorParsingStatus ParseIDSelector(PRInt32& aDataMask, nsCSSSelector& aSelector); nsSelectorParsingStatus ParseClassSelector(PRInt32& aDataMask, nsCSSSelector& aSelector); // aPseudoElement and aPseudoElementArgs are the location where // pseudo-elements (as opposed to pseudo-classes) are stored; // pseudo-classes are stored on aSelector. aPseudoElement and // aPseudoElementArgs must be non-null iff !aIsNegated. nsSelectorParsingStatus ParsePseudoSelector(PRInt32& aDataMask, nsCSSSelector& aSelector, PRBool aIsNegated, nsIAtom** aPseudoElement, nsPseudoClassList** aPseudoElementArgs, nsCSSPseudoElements::Type* aPseudoElementType); nsSelectorParsingStatus ParseAttributeSelector(PRInt32& aDataMask, nsCSSSelector& aSelector); nsSelectorParsingStatus ParseTypeOrUniversalSelector(PRInt32& aDataMask, nsCSSSelector& aSelector, PRBool aIsNegated); nsSelectorParsingStatus ParsePseudoClassWithIdentArg(nsCSSSelector& aSelector, nsIAtom* aPseudo, nsCSSPseudoClasses::Type aType); nsSelectorParsingStatus ParsePseudoClassWithNthPairArg(nsCSSSelector& aSelector, nsIAtom* aPseudo, nsCSSPseudoClasses::Type aType); nsSelectorParsingStatus ParsePseudoClassWithSelectorListArg(nsCSSSelector& aSelector, nsIAtom* aPseudo, nsCSSPseudoClasses::Type aType); nsSelectorParsingStatus ParseNegatedSimpleSelector(PRInt32& aDataMask, nsCSSSelector& aSelector); // If aStopChar is non-zero, the selector list is done when we hit // aStopChar. Otherwise, it's done when we hit EOF. PRBool ParseSelectorList(nsCSSSelectorList*& aListHead, PRUnichar aStopChar); PRBool ParseSelectorGroup(nsCSSSelectorList*& aListHead); PRBool ParseSelector(nsCSSSelectorList* aList, PRUnichar aPrevCombinator); css::Declaration* ParseDeclarationBlock(PRBool aCheckForBraces); PRBool ParseDeclaration(css::Declaration* aDeclaration, PRBool aCheckForBraces, PRBool aMustCallValueAppended, PRBool* aChanged); // After a parse error parsing |aPropID|, clear the data in // |mTempData|. void ClearTempData(nsCSSProperty aPropID); // After a successful parse of |aPropID|, transfer data from // |mTempData| to |mData|. Set |*aChanged| to true if something // changed, but leave it unmodified otherwise. If aMustCallValueAppended // is false, will not call ValueAppended on aDeclaration if the property // is already set in it. If aOverrideImportant is true, new data will // replace old settings of the same properties, even if the old settings // are !important and the new data aren't. void TransferTempData(css::Declaration* aDeclaration, nsCSSProperty aPropID, PRBool aIsImportant, PRBool aOverrideImportant, PRBool aMustCallValueAppended, PRBool* aChanged); void DoTransferTempData(css::Declaration* aDeclaration, nsCSSProperty aPropID, PRBool aIsImportant, PRBool aOverrideImportant, PRBool aMustCallValueAppended, PRBool* aChanged); // Used to do a fast copy of a property value from source location to // destination location. It's the caller's responsibility to make sure that // the source and destination locations point to the right kind of objects // for the property id. This can only be used for non-shorthand properties. void CopyValue(void *aSource, void *aDest, nsCSSProperty aPropID, PRBool* aChanged); PRBool ParseProperty(nsCSSProperty aPropID); PRBool ParseSingleValueProperty(nsCSSValue& aValue, nsCSSProperty aPropID); #ifdef MOZ_XUL PRBool ParseTreePseudoElement(nsPseudoClassList **aPseudoElementArgs); #endif void InitBoxPropsAsPhysical(const nsCSSProperty *aSourceProperties); // Property specific parsing routines PRBool ParseAzimuth(nsCSSValue& aValue); PRBool ParseBackground(); struct BackgroundItem; friend struct BackgroundItem; struct BackgroundItem { nsCSSValue mImage; nsCSSValue mRepeat; nsCSSValue mAttachment; nsCSSValuePair mPosition; nsCSSValue mClip; nsCSSValue mOrigin; nsCSSValuePair mSize; // The background-color is set as a side-effect, and if so, mLastItem // is set to true. PRBool mLastItem; }; struct BackgroundItemSimpleValueInfo { nsCSSValue BackgroundItem::*member; nsCSSProperty propID; }; PRBool ParseBackgroundItem(BackgroundItem& aItem, PRBool aFirstItem); PRBool ParseBackgroundList(nsCSSProperty aPropID); // a single value prop-id PRBool ParseBackgroundPosition(); PRBool ParseBoxPositionValues(nsCSSValuePair& aOut, PRBool aAcceptsInherit); PRBool ParseBackgroundSize(); PRBool ParseBackgroundSizeValues(nsCSSValuePair& aOut); PRBool ParseBorderColor(); PRBool ParseBorderColors(nsCSSValueList** aResult, nsCSSProperty aProperty); PRBool ParseBorderImage(); PRBool ParseBorderSpacing(); PRBool ParseBorderSide(const nsCSSProperty aPropIDs[], PRBool aSetAllSides); PRBool ParseDirectionalBorderSide(const nsCSSProperty aPropIDs[], PRInt32 aSourceType); PRBool ParseBorderStyle(); PRBool ParseBorderWidth(); PRBool ParseCalc(nsCSSValue &aValue, PRInt32 aVariantMask); PRBool ParseCalcAdditiveExpression(nsCSSValue& aValue, PRInt32& aVariantMask); PRBool ParseCalcMultiplicativeExpression(nsCSSValue& aValue, PRInt32& aVariantMask, PRBool *aHadFinalWS); PRBool ParseCalcTerm(nsCSSValue& aValue, PRInt32& aVariantMask); PRBool ParseCalcMinMax(nsCSSValue& aValue, nsCSSUnit aUnit, PRInt32& aVariantMask); PRBool RequireWhitespace(); // for 'clip' and '-moz-image-region' PRBool ParseRect(nsCSSRect& aRect, nsCSSProperty aPropID); PRBool DoParseRect(nsCSSRect& aRect); PRBool ParseContent(); PRBool ParseCounterData(nsCSSValuePairList** aResult, nsCSSProperty aPropID); PRBool ParseCue(); PRBool ParseCursor(); PRBool ParseFont(); PRBool ParseFontWeight(nsCSSValue& aValue); PRBool ParseOneFamily(nsAString& aValue); PRBool ParseFamily(nsCSSValue& aValue); PRBool ParseFontSrc(nsCSSValue& aValue); PRBool ParseFontSrcFormat(nsTArray& values); PRBool ParseFontRanges(nsCSSValue& aValue); PRBool ParseListStyle(); PRBool ParseMargin(); PRBool ParseMarks(nsCSSValue& aValue); PRBool ParseMozTransform(); PRBool ParseOutline(); PRBool ParseOverflow(); PRBool ParsePadding(); PRBool ParsePause(); PRBool ParseQuotes(); PRBool ParseSize(); PRBool ParseTextDecoration(nsCSSValue& aValue); nsCSSValueList* ParseCSSShadowList(PRBool aIsBoxShadow); PRBool ParseTextShadow(); PRBool ParseBoxShadow(); PRBool ParseTransitionTime(nsCSSProperty aPropID); PRBool ParseTransitionProperty(); PRBool ParseTransition(); PRBool ParseTransitionTimingFunction(); PRBool ParseTransitionTimingFunctionValues(nsCSSValue& aValue); PRBool ParseTransitionTimingFunctionValueComponent(float& aComponent, char aStop); PRBool AppendValueToList(nsCSSValueList**& aListTail, const nsCSSValue& aValue); #ifdef MOZ_SVG PRBool ParsePaint(nsCSSValuePair* aResult, nsCSSProperty aPropID); PRBool ParseDasharray(); PRBool ParseMarker(); #endif // Reused utility parsing routines void AppendValue(nsCSSProperty aPropID, const nsCSSValue& aValue); PRBool ParseBoxProperties(nsCSSRect& aResult, const nsCSSProperty aPropIDs[]); PRBool ParseDirectionalBoxProperty(nsCSSProperty aProperty, PRInt32 aSourceType); PRBool ParseBoxCornerRadius(const nsCSSProperty aPropID); PRBool ParseBoxCornerRadii(nsCSSCornerSizes& aRadii, const nsCSSProperty aPropIDs[]); PRInt32 ParseChoice(nsCSSValue aValues[], const nsCSSProperty aPropIDs[], PRInt32 aNumIDs); PRBool ParseColor(nsCSSValue& aValue); PRBool ParseColorComponent(PRUint8& aComponent, PRInt32& aType, char aStop); // ParseHSLColor parses everything starting with the opening '(' // up through and including the aStop char. PRBool ParseHSLColor(nscolor& aColor, char aStop); // ParseColorOpacity will enforce that the color ends with a ')' // after the opacity PRBool ParseColorOpacity(PRUint8& aOpacity); PRBool ParseEnum(nsCSSValue& aValue, const PRInt32 aKeywordTable[]); PRBool ParseVariant(nsCSSValue& aValue, PRInt32 aVariantMask, const PRInt32 aKeywordTable[]); PRBool ParseNonNegativeVariant(nsCSSValue& aValue, PRInt32 aVariantMask, const PRInt32 aKeywordTable[]); PRBool ParsePositiveNonZeroVariant(nsCSSValue& aValue, PRInt32 aVariantMask, const PRInt32 aKeywordTable[]); PRBool ParseCounter(nsCSSValue& aValue); PRBool ParseAttr(nsCSSValue& aValue); PRBool SetValueToURL(nsCSSValue& aValue, const nsString& aURL); PRBool ParseURL(nsCSSValue& aValue); PRBool TranslateDimension(nsCSSValue& aValue, PRInt32 aVariantMask, float aNumber, const nsString& aUnit); PRBool ParseImageRect(nsCSSValue& aImage); PRBool ParseColorStop(nsCSSValueGradient* aGradient); PRBool ParseGradient(nsCSSValue& aValue, PRBool aIsRadial, PRBool aIsRepeating); void SetParsingCompoundProperty(PRBool aBool) { NS_ASSERTION(aBool == PR_TRUE || aBool == PR_FALSE, "bad PRBool value"); mParsingCompoundProperty = aBool; } PRBool IsParsingCompoundProperty(void) const { return mParsingCompoundProperty; } /* Functions for -moz-transform Parsing */ PRBool ReadSingleTransform(nsCSSValueList**& aTail); PRBool ParseFunction(const nsString &aFunction, const PRInt32 aAllowedTypes[], PRUint16 aMinElems, PRUint16 aMaxElems, nsCSSValue &aValue); PRBool ParseFunctionInternals(const PRInt32 aVariantMask[], PRUint16 aMinElems, PRUint16 aMaxElems, nsTArray& aOutput); /* Functions for -moz-transform-origin Parsing */ PRBool ParseMozTransformOrigin(); /* Find and return the namespace ID associated with aPrefix. If aPrefix has not been declared in an @namespace rule, returns kNameSpaceID_Unknown and sets mFoundUnresolvablePrefix to true. */ PRInt32 GetNamespaceIdForPrefix(const nsString& aPrefix); /* Find the correct default namespace, and set it on aSelector. */ void SetDefaultNamespaceOnSelector(nsCSSSelector& aSelector); // Current token. The value is valid after calling GetToken and invalidated // by UngetToken. nsCSSToken mToken; // Our scanner. nsCSSScanner mScanner; // The URI to be used as a base for relative URIs. nsCOMPtr mBaseURI; // The URI to be used as an HTTP "Referer" and for error reporting. nsCOMPtr mSheetURI; // The principal of the sheet involved nsCOMPtr mSheetPrincipal; // The sheet we're parsing into nsRefPtr mSheet; // Used for @import rules mozilla::css::Loader* mChildLoader; // not ref counted, it owns us // Sheet section we're in. This is used to enforce correct ordering of the // various rule types (eg the fact that a @charset rule must come before // anything else). Note that there are checks of similar things in various // places in nsCSSStyleSheet.cpp (e.g in insertRule, RebuildChildList). enum nsCSSSection { eCSSSection_Charset, eCSSSection_Import, eCSSSection_NameSpace, eCSSSection_General }; nsCSSSection mSection; nsXMLNameSpaceMap *mNameSpaceMap; // weak, mSheet owns it // After an UngetToken is done this flag is true. The next call to // GetToken clears the flag. PRPackedBool mHavePushBack : 1; // True if we are in quirks mode; false in standards or almost standards mode PRPackedBool mNavQuirkMode : 1; // True if unsafe rules should be allowed PRPackedBool mUnsafeRulesEnabled : 1; // True for parsing media lists for HTML attributes, where we have to // ignore CSS comments. PRPackedBool mHTMLMediaMode : 1; // This flag is set when parsing a non-box shorthand; it's used to not apply // some quirks during shorthand parsing PRPackedBool mParsingCompoundProperty : 1; // GetNamespaceIdForPrefix will set mFoundUnresolvablePrefix to true // when it encounters a prefix that is not mapped to a namespace. PRPackedBool mFoundUnresolvablePrefix : 1; #ifdef DEBUG PRPackedBool mScannerInited : 1; #endif // Stack of rule groups; used for @media and such. nsCOMArray mGroupStack; // During the parsing of a property (which may be a shorthand), the data // are stored in |mTempData|. (It is needed to ensure that parser // errors cause the data to be ignored, and to ensure that a // non-'!important' declaration does not override an '!important' // one.) nsCSSExpandedDataBlock mTempData; // All data from successfully parsed properties are placed into |mData|. nsCSSExpandedDataBlock mData; public: // Used from nsCSSParser constructors and destructors CSSParserImpl* mNextFree; }; static void AppendRuleToArray(nsICSSRule* aRule, void* aArray) { static_cast*>(aArray)->AppendObject(aRule); } static void AppendRuleToSheet(nsICSSRule* aRule, void* aParser) { CSSParserImpl* parser = (CSSParserImpl*) aParser; parser->AppendRule(aRule); } #ifdef CSS_REPORT_PARSE_ERRORS #define REPORT_UNEXPECTED(msg_) \ mScanner.ReportUnexpected(#msg_) #define REPORT_UNEXPECTED_P(msg_, params_) \ mScanner.ReportUnexpectedParams(#msg_, params_, NS_ARRAY_LENGTH(params_)) #define REPORT_UNEXPECTED_EOF(lf_) \ mScanner.ReportUnexpectedEOF(#lf_) #define REPORT_UNEXPECTED_EOF_CHAR(ch_) \ mScanner.ReportUnexpectedEOF(ch_) #define REPORT_UNEXPECTED_TOKEN(msg_) \ mScanner.ReportUnexpectedToken(mToken, #msg_) #define REPORT_UNEXPECTED_TOKEN_P(msg_, params_) \ mScanner.ReportUnexpectedTokenParams(mToken, #msg_, \ params_, NS_ARRAY_LENGTH(params_)) #define OUTPUT_ERROR() \ mScanner.OutputError() #define CLEAR_ERROR() \ mScanner.ClearError() #else #define REPORT_UNEXPECTED(msg_) #define REPORT_UNEXPECTED_P(msg_, params_) #define REPORT_UNEXPECTED_EOF(lf_) #define REPORT_UNEXPECTED_EOF_CHAR(ch_) #define REPORT_UNEXPECTED_TOKEN(msg_) #define REPORT_UNEXPECTED_TOKEN_P(msg_, params_) #define OUTPUT_ERROR() #define CLEAR_ERROR() #endif CSSParserImpl::CSSParserImpl() : mToken(), mScanner(), mChildLoader(nsnull), mSection(eCSSSection_Charset), mNameSpaceMap(nsnull), mHavePushBack(PR_FALSE), mNavQuirkMode(PR_FALSE), mUnsafeRulesEnabled(PR_FALSE), mHTMLMediaMode(PR_FALSE), mParsingCompoundProperty(PR_FALSE), mFoundUnresolvablePrefix(PR_FALSE) #ifdef DEBUG , mScannerInited(PR_FALSE) #endif , mNextFree(nsnull) { } CSSParserImpl::~CSSParserImpl() { mData.AssertInitialState(); mTempData.AssertInitialState(); } nsresult CSSParserImpl::SetStyleSheet(nsCSSStyleSheet* aSheet) { if (aSheet != mSheet) { // Switch to using the new sheet, if any mGroupStack.Clear(); mSheet = aSheet; if (mSheet) { mNameSpaceMap = mSheet->GetNameSpaceMap(); } else { mNameSpaceMap = nsnull; } } return NS_OK; } nsresult CSSParserImpl::SetQuirkMode(PRBool aQuirkMode) { NS_ASSERTION(aQuirkMode == PR_TRUE || aQuirkMode == PR_FALSE, "bad PRBool value"); mNavQuirkMode = aQuirkMode; return NS_OK; } #ifdef MOZ_SVG nsresult CSSParserImpl::SetSVGMode(PRBool aSVGMode) { NS_ASSERTION(aSVGMode == PR_TRUE || aSVGMode == PR_FALSE, "bad PRBool value"); mScanner.SetSVGMode(aSVGMode); return NS_OK; } #endif nsresult CSSParserImpl::SetChildLoader(mozilla::css::Loader* aChildLoader) { mChildLoader = aChildLoader; // not ref counted, it owns us return NS_OK; } void CSSParserImpl::Reset() { NS_ASSERTION(! mScannerInited, "resetting with scanner active"); SetStyleSheet(nsnull); SetQuirkMode(PR_FALSE); #ifdef MOZ_SVG SetSVGMode(PR_FALSE); #endif // MOZ_SVG SetChildLoader(nsnull); } void CSSParserImpl::InitScanner(nsIUnicharInputStream* aInput, nsIURI* aSheetURI, PRUint32 aLineNumber, nsIURI* aBaseURI, nsIPrincipal* aSheetPrincipal) { NS_ASSERTION(! mScannerInited, "already have scanner"); mScanner.Init(aInput, nsnull, 0, aSheetURI, aLineNumber); #ifdef DEBUG mScannerInited = PR_TRUE; #endif mBaseURI = aBaseURI; mSheetURI = aSheetURI; mSheetPrincipal = aSheetPrincipal; mHavePushBack = PR_FALSE; } void CSSParserImpl::InitScanner(const nsSubstring& aString, nsIURI* aSheetURI, PRUint32 aLineNumber, nsIURI* aBaseURI, nsIPrincipal* aSheetPrincipal) { // Having it not own the string is OK since the caller will hold on to // the stream until we're done parsing. NS_ASSERTION(! mScannerInited, "already have scanner"); mScanner.Init(nsnull, aString.BeginReading(), aString.Length(), aSheetURI, aLineNumber); #ifdef DEBUG mScannerInited = PR_TRUE; #endif mBaseURI = aBaseURI; mSheetURI = aSheetURI; mSheetPrincipal = aSheetPrincipal; mHavePushBack = PR_FALSE; } void CSSParserImpl::ReleaseScanner(void) { mScanner.Close(); #ifdef DEBUG mScannerInited = PR_FALSE; #endif mBaseURI = nsnull; mSheetURI = nsnull; mSheetPrincipal = nsnull; } nsresult CSSParserImpl::Parse(nsIUnicharInputStream* aInput, nsIURI* aSheetURI, nsIURI* aBaseURI, nsIPrincipal* aSheetPrincipal, PRUint32 aLineNumber, PRBool aAllowUnsafeRules) { NS_PRECONDITION(aSheetPrincipal, "Must have principal here!"); NS_ASSERTION(nsnull != aBaseURI, "need base URI"); NS_ASSERTION(nsnull != aSheetURI, "need sheet URI"); AssertInitialState(); NS_PRECONDITION(mSheet, "Must have sheet to parse into"); NS_ENSURE_STATE(mSheet); #ifdef DEBUG nsIURI* uri = mSheet->GetSheetURI(); PRBool equal; NS_ASSERTION(NS_SUCCEEDED(aSheetURI->Equals(uri, &equal)) && equal, "Sheet URI does not match passed URI"); NS_ASSERTION(NS_SUCCEEDED(mSheet->Principal()->Equals(aSheetPrincipal, &equal)) && equal, "Sheet principal does not match passed principal"); #endif InitScanner(aInput, aSheetURI, aLineNumber, aBaseURI, aSheetPrincipal); PRInt32 ruleCount = mSheet->StyleRuleCount(); if (0 < ruleCount) { nsICSSRule* lastRule = nsnull; mSheet->GetStyleRuleAt(ruleCount - 1, lastRule); if (lastRule) { switch (lastRule->GetType()) { 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 } mUnsafeRulesEnabled = aAllowUnsafeRules; nsCSSToken* tk = &mToken; for (;;) { // Get next non-whitespace token if (!GetToken(PR_TRUE)) { OUTPUT_ERROR(); break; } if (eCSSToken_HTMLComment == tk->mType) { continue; // legal here only } if (eCSSToken_AtKeyword == tk->mType) { ParseAtRule(AppendRuleToSheet, this); continue; } UngetToken(); if (ParseRuleSet(AppendRuleToSheet, this)) { mSection = eCSSSection_General; } } ReleaseScanner(); mUnsafeRulesEnabled = PR_FALSE; // XXX check for low level errors return NS_OK; } /** * Determines whether the identifier contained in the given string is a * vendor-specific identifier, as described in CSS 2.1 section 4.1.2.1. */ static PRBool NonMozillaVendorIdentifier(const nsAString& ident) { return (ident.First() == PRUnichar('-') && !StringBeginsWith(ident, NS_LITERAL_STRING("-moz-"))) || ident.First() == PRUnichar('_'); } nsresult CSSParserImpl::ParseStyleAttribute(const nsAString& aAttributeValue, nsIURI* aDocURI, nsIURI* aBaseURI, nsIPrincipal* aNodePrincipal, nsICSSStyleRule** aResult) { NS_PRECONDITION(aNodePrincipal, "Must have principal here!"); AssertInitialState(); NS_ASSERTION(nsnull != aBaseURI, "need base URI"); // XXX line number? InitScanner(aAttributeValue, aDocURI, 0, aBaseURI, aNodePrincipal); mSection = eCSSSection_General; // In quirks mode, allow style declarations to have braces or not // (bug 99554). PRBool haveBraces; if (mNavQuirkMode && GetToken(PR_TRUE)) { haveBraces = eCSSToken_Symbol == mToken.mType && '{' == mToken.mSymbol; UngetToken(); } else { haveBraces = PR_FALSE; } css::Declaration* declaration = ParseDeclarationBlock(haveBraces); if (declaration) { // Create a style rule for the declaration nsICSSStyleRule* rule = nsnull; nsresult rv = NS_NewCSSStyleRule(&rule, nsnull, declaration); if (NS_FAILED(rv)) { declaration->RuleAbort(); ReleaseScanner(); return rv; } *aResult = rule; } else { *aResult = nsnull; } ReleaseScanner(); // XXX check for low level errors return NS_OK; } nsresult CSSParserImpl::ParseAndAppendDeclaration(const nsAString& aBuffer, nsIURI* aSheetURI, nsIURI* aBaseURI, nsIPrincipal* aSheetPrincipal, css::Declaration* aDeclaration, PRBool aParseOnlyOneDecl, PRBool* aChanged, PRBool aClearOldDecl) { NS_PRECONDITION(aSheetPrincipal, "Must have principal here!"); AssertInitialState(); *aChanged = PR_FALSE; InitScanner(aBuffer, aSheetURI, 0, aBaseURI, aSheetPrincipal); mSection = eCSSSection_General; if (aClearOldDecl) { mData.AssertInitialState(); aDeclaration->ClearData(); // We could check if it was already empty, but... *aChanged = PR_TRUE; } else { aDeclaration->ExpandTo(&mData); } nsresult rv = NS_OK; do { // If we cleared the old decl, then we want to be calling // ValueAppended as we parse. if (!ParseDeclaration(aDeclaration, PR_FALSE, aClearOldDecl, aChanged)) { rv = mScanner.GetLowLevelError(); if (NS_FAILED(rv)) break; if (!SkipDeclaration(PR_FALSE)) { rv = mScanner.GetLowLevelError(); break; } } } while (!aParseOnlyOneDecl); aDeclaration->CompressFrom(&mData); ReleaseScanner(); return rv; } nsresult CSSParserImpl::ParseRule(const nsAString& aRule, nsIURI* aSheetURI, nsIURI* aBaseURI, nsIPrincipal* aSheetPrincipal, nsCOMArray& aResult) { NS_PRECONDITION(aSheetPrincipal, "Must have principal here!"); AssertInitialState(); NS_ASSERTION(nsnull != aBaseURI, "need base URI"); InitScanner(aRule, aSheetURI, 0, aBaseURI, aSheetPrincipal); mSection = eCSSSection_Charset; // callers are responsible for rejecting invalid rules. nsCSSToken* tk = &mToken; // Get first non-whitespace token if (!GetToken(PR_TRUE)) { REPORT_UNEXPECTED(PEParseRuleWSOnly); OUTPUT_ERROR(); } else if (eCSSToken_AtKeyword == tk->mType) { ParseAtRule(AppendRuleToArray, &aResult); } else { UngetToken(); ParseRuleSet(AppendRuleToArray, &aResult); } OUTPUT_ERROR(); ReleaseScanner(); // XXX check for low-level errors return NS_OK; } nsresult CSSParserImpl::ParseProperty(const nsCSSProperty aPropID, const nsAString& aPropValue, nsIURI* aSheetURI, nsIURI* aBaseURI, nsIPrincipal* aSheetPrincipal, css::Declaration* aDeclaration, PRBool* aChanged, PRBool aIsImportant) { NS_PRECONDITION(aSheetPrincipal, "Must have principal here!"); AssertInitialState(); NS_ASSERTION(nsnull != aBaseURI, "need base URI"); NS_ASSERTION(nsnull != aDeclaration, "Need declaration to parse into!"); *aChanged = PR_FALSE; InitScanner(aPropValue, aSheetURI, 0, aBaseURI, aSheetPrincipal); mSection = eCSSSection_General; if (eCSSProperty_UNKNOWN == aPropID) { // unknown property NS_ConvertASCIItoUTF16 propName(nsCSSProps::GetStringValue(aPropID)); const PRUnichar *params[] = { propName.get() }; REPORT_UNEXPECTED_P(PEUnknownProperty, params); REPORT_UNEXPECTED(PEDeclDropped); OUTPUT_ERROR(); ReleaseScanner(); return NS_OK; } mData.AssertInitialState(); mTempData.AssertInitialState(); // We know we don't need to force a ValueAppended call for the new // value. So if we are not processing an !important decl or a // shorthand, there's already a value for this property in the // declaration, it's not !important, and we parse successfully, then // we can just directly copy our parsed value into the declaration // without going through the whole expand/compress thing. if (!aDeclaration->EnsureMutable()) { NS_WARNING("out of memory"); return NS_ERROR_OUT_OF_MEMORY; } void* valueSlot = nsnull; if (!aIsImportant) { valueSlot = aDeclaration->SlotForValue(aPropID); } if (!valueSlot) { // Do it the slow way aDeclaration->ExpandTo(&mData); } nsresult result = NS_OK; PRBool parsedOK = ParseProperty(aPropID); if (parsedOK && !GetToken(PR_TRUE)) { if (valueSlot) { CopyValue(mTempData.PropertyAt(aPropID), valueSlot, aPropID, aChanged); mTempData.ClearPropertyBit(aPropID); } else { TransferTempData(aDeclaration, aPropID, aIsImportant, PR_TRUE, PR_FALSE, aChanged); } } else { if (parsedOK) { // Junk at end of property value. REPORT_UNEXPECTED_TOKEN(PEExpectEndValue); } NS_ConvertASCIItoUTF16 propName(nsCSSProps::GetStringValue(aPropID)); const PRUnichar *params[] = { propName.get() }; REPORT_UNEXPECTED_P(PEValueParsingError, params); REPORT_UNEXPECTED(PEDeclDropped); OUTPUT_ERROR(); ClearTempData(aPropID); result = mScanner.GetLowLevelError(); } CLEAR_ERROR(); if (!valueSlot) { aDeclaration->CompressFrom(&mData); } ReleaseScanner(); return result; } nsresult CSSParserImpl::ParseMediaList(const nsSubstring& aBuffer, nsIURI* aURI, // for error reporting PRUint32 aLineNumber, // for error reporting nsMediaList* aMediaList, PRBool aHTMLMode) { // XXX Are there cases where the caller wants to keep what it already // has in case of parser error? aMediaList->Clear(); // fake base URI since media lists don't have URIs in them InitScanner(aBuffer, aURI, aLineNumber, aURI, nsnull); AssertInitialState(); NS_ASSERTION(aHTMLMode == PR_TRUE || aHTMLMode == PR_FALSE, "invalid PRBool"); mHTMLMediaMode = aHTMLMode; // XXXldb We need to make the scanner not skip CSS comments! (Or // should we?) // For aHTMLMode, we used to follow the parsing rules in // http://www.w3.org/TR/1999/REC-html401-19991224/types.html#type-media-descriptors // which wouldn't work for media queries since they remove all but the // first word. However, they're changed in // http://www.whatwg.org/specs/web-apps/current-work/multipage/section-document.html#media2 // (as of 2008-05-29) which says that the media attribute just points // to a media query. (The main substative difference is the relative // precedence of commas and paretheses.) if (!GatherMedia(aMediaList, PRUnichar(0))) { aMediaList->Clear(); aMediaList->SetNonEmpty(); // don't match anything if (!mHTMLMediaMode) { OUTPUT_ERROR(); } } nsresult rv = mScanner.GetLowLevelError(); CLEAR_ERROR(); ReleaseScanner(); mHTMLMediaMode = PR_FALSE; return rv; } nsresult CSSParserImpl::ParseColorString(const nsSubstring& aBuffer, nsIURI* aURI, // for error reporting PRUint32 aLineNumber, // for error reporting nscolor* aColor) { AssertInitialState(); InitScanner(aBuffer, aURI, aLineNumber, aURI, nsnull); nsCSSValue value; PRBool colorParsed = ParseColor(value); nsresult rv = mScanner.GetLowLevelError(); OUTPUT_ERROR(); ReleaseScanner(); if (!colorParsed) { return NS_FAILED(rv) ? rv : NS_ERROR_FAILURE; } if (value.GetUnit() == eCSSUnit_Ident) { nscolor rgba; if (NS_ColorNameToRGB(nsDependentString(value.GetStringBufferValue()), &rgba)) { (*aColor) = rgba; rv = NS_OK; } } else if (value.GetUnit() == eCSSUnit_Color) { (*aColor) = value.GetColorValue(); rv = NS_OK; } else if (value.GetUnit() == eCSSUnit_EnumColor) { PRInt32 intValue = value.GetIntValue(); if (intValue >= 0) { nsCOMPtr lfSvc = do_GetService("@mozilla.org/widget/lookandfeel;1"); if (lfSvc) { nscolor rgba; rv = lfSvc->GetColor((nsILookAndFeel::nsColorID) value.GetIntValue(), rgba); if (NS_SUCCEEDED(rv)) (*aColor) = rgba; } } else { // XXX - this is NS_COLOR_CURRENTCOLOR, NS_COLOR_MOZ_HYPERLINKTEXT, etc. // which we don't handle as per the ParseColorString definition. Should // remove this limitation at some point. rv = NS_ERROR_FAILURE; } } return rv; } nsresult CSSParserImpl::ParseSelectorString(const nsSubstring& aSelectorString, nsIURI* aURI, // for error reporting PRUint32 aLineNumber, // for error reporting nsCSSSelectorList **aSelectorList) { InitScanner(aSelectorString, aURI, aLineNumber, aURI, nsnull); AssertInitialState(); // This is the only place that cares about mFoundUnresolvablePrefix, // so this is the only place that bothers clearing it. mFoundUnresolvablePrefix = PR_FALSE; PRBool success = ParseSelectorList(*aSelectorList, PRUnichar(0)); PRBool prefixErr = mFoundUnresolvablePrefix; OUTPUT_ERROR(); ReleaseScanner(); if (success) { NS_ASSERTION(*aSelectorList, "Should have list!"); return NS_OK; } NS_ASSERTION(!*aSelectorList, "Shouldn't have list!"); if (prefixErr) return NS_ERROR_DOM_NAMESPACE_ERR; return NS_ERROR_DOM_SYNTAX_ERR; } //---------------------------------------------------------------------- PRBool CSSParserImpl::GetToken(PRBool aSkipWS) { for (;;) { if (!mHavePushBack) { if (!mScanner.Next(mToken)) { break; } } mHavePushBack = PR_FALSE; if (aSkipWS && (eCSSToken_WhiteSpace == mToken.mType)) { continue; } return PR_TRUE; } return PR_FALSE; } PRBool CSSParserImpl::GetURLInParens(nsString& aURL) { NS_ASSERTION(!mHavePushBack, "mustn't have pushback at this point"); do { if (! mScanner.NextURL(mToken)) { return PR_FALSE; } } while (eCSSToken_WhiteSpace == mToken.mType); aURL = mToken.mIdent; if ((eCSSToken_String != mToken.mType && eCSSToken_URL != mToken.mType) || !ExpectSymbol(')', PR_TRUE)) { // in the failure case, we do not have to match parentheses, since // this is now an invalid URL token. SkipUntil(')'); return PR_FALSE; } return PR_TRUE; } void CSSParserImpl::UngetToken() { NS_PRECONDITION(!mHavePushBack, "double pushback"); mHavePushBack = PR_TRUE; } PRBool CSSParserImpl::ExpectSymbol(PRUnichar aSymbol, PRBool aSkipWS) { if (!GetToken(aSkipWS)) { // CSS2.1 specifies that all "open constructs" are to be closed at // EOF. It simplifies higher layers if we claim to have found an // ), ], }, or ; if we encounter EOF while looking for one of them. // Do still issue a diagnostic, to aid debugging. if (aSymbol == ')' || aSymbol == ']' || aSymbol == '}' || aSymbol == ';') { REPORT_UNEXPECTED_EOF_CHAR(aSymbol); return PR_TRUE; } else return PR_FALSE; } if (mToken.IsSymbol(aSymbol)) { return PR_TRUE; } UngetToken(); return PR_FALSE; } // Checks to see if we're at the end of a property. If an error occurs during // the check, does not signal a parse error. PRBool CSSParserImpl::CheckEndProperty() { if (!GetToken(PR_TRUE)) { 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; } // Checks if we're at the end of a property, raising an error if we're not. PRBool CSSParserImpl::ExpectEndProperty() { if (CheckEndProperty()) return PR_TRUE; // If we're here, we read something incorrect, so we should report it. REPORT_UNEXPECTED_TOKEN(PEExpectEndValue); return PR_FALSE; } nsSubstring* CSSParserImpl::NextIdent() { // XXX Error reporting? if (!GetToken(PR_TRUE)) { return nsnull; } if (eCSSToken_Ident != mToken.mType) { UngetToken(); return nsnull; } return &mToken.mIdent; } PRBool CSSParserImpl::SkipAtRule() { for (;;) { if (!GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PESkipAtRuleEOF); return PR_FALSE; } if (eCSSToken_Symbol == mToken.mType) { PRUnichar symbol = mToken.mSymbol; if (symbol == ';') { break; } if (symbol == '{') { SkipUntil('}'); break; } else if (symbol == '(') { SkipUntil(')'); } else if (symbol == '[') { SkipUntil(']'); } } else if (eCSSToken_Function == mToken.mType) { SkipUntil(')'); } } return PR_TRUE; } PRBool CSSParserImpl::ParseAtRule(RuleAppendFunc aAppendFunc, void* aData) { nsCSSSection newSection; PRBool (CSSParserImpl::*parseFunc)(RuleAppendFunc, void*); if ((mSection <= eCSSSection_Charset) && (mToken.mIdent.LowerCaseEqualsLiteral("charset"))) { parseFunc = &CSSParserImpl::ParseCharsetRule; newSection = eCSSSection_Import; // only one charset allowed } else if ((mSection <= eCSSSection_Import) && mToken.mIdent.LowerCaseEqualsLiteral("import")) { parseFunc = &CSSParserImpl::ParseImportRule; newSection = eCSSSection_Import; } else if ((mSection <= eCSSSection_NameSpace) && mToken.mIdent.LowerCaseEqualsLiteral("namespace")) { parseFunc = &CSSParserImpl::ParseNameSpaceRule; newSection = eCSSSection_NameSpace; } else if (mToken.mIdent.LowerCaseEqualsLiteral("media")) { parseFunc = &CSSParserImpl::ParseMediaRule; newSection = eCSSSection_General; } else if (mToken.mIdent.LowerCaseEqualsLiteral("-moz-document")) { parseFunc = &CSSParserImpl::ParseMozDocumentRule; newSection = eCSSSection_General; } else if (mToken.mIdent.LowerCaseEqualsLiteral("font-face")) { parseFunc = &CSSParserImpl::ParseFontFaceRule; newSection = eCSSSection_General; } else if (mToken.mIdent.LowerCaseEqualsLiteral("page")) { parseFunc = &CSSParserImpl::ParsePageRule; newSection = eCSSSection_General; } else { if (!NonMozillaVendorIdentifier(mToken.mIdent)) { REPORT_UNEXPECTED_TOKEN(PEUnknownAtRule); OUTPUT_ERROR(); } // Skip over unsupported at rule, don't advance section return SkipAtRule(); } if (!(this->*parseFunc)(aAppendFunc, aData)) { // Skip over invalid at rule, don't advance section OUTPUT_ERROR(); return SkipAtRule(); } mSection = newSection; return PR_TRUE; } PRBool CSSParserImpl::ParseCharsetRule(RuleAppendFunc aAppendFunc, void* aData) { if (!GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PECharsetRuleEOF); return PR_FALSE; } if (eCSSToken_String != mToken.mType) { REPORT_UNEXPECTED_TOKEN(PECharsetRuleNotString); return PR_FALSE; } nsAutoString charset = mToken.mIdent; if (!ExpectSymbol(';', PR_TRUE)) { return PR_FALSE; } nsCOMPtr rule; NS_NewCSSCharsetRule(getter_AddRefs(rule), charset); if (rule) { (*aAppendFunc)(rule, aData); } return PR_TRUE; } PRBool CSSParserImpl::GatherURL(nsString& aURL) { if (!GetToken(PR_TRUE)) { return PR_FALSE; } if (eCSSToken_String == mToken.mType) { aURL = mToken.mIdent; return PR_TRUE; } else if (eCSSToken_Function == mToken.mType && mToken.mIdent.LowerCaseEqualsLiteral("url") && GetURLInParens(aURL)) { return PR_TRUE; } return PR_FALSE; } PRBool CSSParserImpl::ParseMediaQuery(PRUnichar aStopSymbol, nsMediaQuery **aQuery, PRBool *aParsedSomething, PRBool *aHitStop) { *aQuery = nsnull; *aParsedSomething = PR_FALSE; *aHitStop = PR_FALSE; // "If the comma-separated list is the empty list it is assumed to // specify the media query 'all'." (css3-mediaqueries, section // "Media Queries") if (!GetToken(PR_TRUE)) { *aHitStop = PR_TRUE; // expected termination by EOF if (aStopSymbol == PRUnichar(0)) return PR_TRUE; // unexpected termination by EOF REPORT_UNEXPECTED_EOF(PEGatherMediaEOF); return PR_TRUE; } if (eCSSToken_Symbol == mToken.mType && mToken.mSymbol == aStopSymbol) { *aHitStop = PR_TRUE; UngetToken(); return PR_TRUE; } UngetToken(); *aParsedSomething = PR_TRUE; nsAutoPtr query(new nsMediaQuery); if (!query) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } if (ExpectSymbol('(', PR_TRUE)) { // we got an expression without a media type UngetToken(); // so ParseMediaQueryExpression can handle it query->SetType(nsGkAtoms::all); query->SetTypeOmitted(); // Just parse the first expression here. if (!ParseMediaQueryExpression(query)) { OUTPUT_ERROR(); query->SetHadUnknownExpression(); } } else { nsCOMPtr mediaType; PRBool gotNotOrOnly = PR_FALSE; for (;;) { if (!GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEGatherMediaEOF); return PR_FALSE; } if (eCSSToken_Ident != mToken.mType) { REPORT_UNEXPECTED_TOKEN(PEGatherMediaNotIdent); UngetToken(); return PR_FALSE; } // case insensitive from CSS - must be lower cased ToLowerCase(mToken.mIdent); mediaType = do_GetAtom(mToken.mIdent); if (gotNotOrOnly || (mediaType != nsGkAtoms::_not && mediaType != nsGkAtoms::only)) break; gotNotOrOnly = PR_TRUE; if (mediaType == nsGkAtoms::_not) query->SetNegated(); else query->SetHasOnly(); } query->SetType(mediaType); } for (;;) { if (!GetToken(PR_TRUE)) { *aHitStop = PR_TRUE; // expected termination by EOF if (aStopSymbol == PRUnichar(0)) break; // unexpected termination by EOF REPORT_UNEXPECTED_EOF(PEGatherMediaEOF); break; } if (eCSSToken_Symbol == mToken.mType && mToken.mSymbol == aStopSymbol) { *aHitStop = PR_TRUE; UngetToken(); break; } if (eCSSToken_Symbol == mToken.mType && mToken.mSymbol == ',') { // Done with the expressions for this query break; } if (eCSSToken_Ident != mToken.mType || !mToken.mIdent.LowerCaseEqualsLiteral("and")) { REPORT_UNEXPECTED_TOKEN(PEGatherMediaNotComma); UngetToken(); return PR_FALSE; } if (!ParseMediaQueryExpression(query)) { OUTPUT_ERROR(); query->SetHadUnknownExpression(); } } *aQuery = query.forget(); return PR_TRUE; } // Returns false only when there is a low-level error in the scanner // (out-of-memory). PRBool CSSParserImpl::GatherMedia(nsMediaList* aMedia, PRUnichar aStopSymbol) { for (;;) { nsAutoPtr query; PRBool parsedSomething, hitStop; if (!ParseMediaQuery(aStopSymbol, getter_Transfers(query), &parsedSomething, &hitStop)) { NS_ASSERTION(!hitStop, "should return true when hit stop"); if (NS_FAILED(mScanner.GetLowLevelError())) { return PR_FALSE; } const PRUnichar stopChars[] = { PRUnichar(','), aStopSymbol /* may be null */, PRUnichar(0) }; SkipUntilOneOf(stopChars); // Rely on SkipUntilOneOf leaving mToken around as the last token read. if (mToken.mType == eCSSToken_Symbol && mToken.mSymbol == aStopSymbol) { UngetToken(); hitStop = PR_TRUE; } } if (parsedSomething) { aMedia->SetNonEmpty(); } if (query) { nsresult rv = aMedia->AppendQuery(query); if (NS_FAILED(rv)) { mScanner.SetLowLevelError(rv); return PR_FALSE; } } if (hitStop) { break; } } return PR_TRUE; } PRBool CSSParserImpl::ParseMediaQueryExpression(nsMediaQuery* aQuery) { if (!ExpectSymbol('(', PR_TRUE)) { REPORT_UNEXPECTED_TOKEN(PEMQExpectedExpressionStart); return PR_FALSE; } if (! GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEMQExpressionEOF); return PR_FALSE; } if (eCSSToken_Ident != mToken.mType) { REPORT_UNEXPECTED_TOKEN(PEMQExpectedFeatureName); UngetToken(); SkipUntil(')'); return PR_FALSE; } nsMediaExpression *expr = aQuery->NewExpression(); if (!expr) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); SkipUntil(')'); return PR_FALSE; } // case insensitive from CSS - must be lower cased ToLowerCase(mToken.mIdent); const PRUnichar *featureString; if (StringBeginsWith(mToken.mIdent, NS_LITERAL_STRING("min-"))) { expr->mRange = nsMediaExpression::eMin; featureString = mToken.mIdent.get() + 4; } else if (StringBeginsWith(mToken.mIdent, NS_LITERAL_STRING("max-"))) { expr->mRange = nsMediaExpression::eMax; featureString = mToken.mIdent.get() + 4; } else { expr->mRange = nsMediaExpression::eEqual; featureString = mToken.mIdent.get(); } nsCOMPtr mediaFeatureAtom = do_GetAtom(featureString); const nsMediaFeature *feature = nsMediaFeatures::features; for (; feature->mName; ++feature) { if (*(feature->mName) == mediaFeatureAtom) { break; } } if (!feature->mName || (expr->mRange != nsMediaExpression::eEqual && feature->mRangeType != nsMediaFeature::eMinMaxAllowed)) { REPORT_UNEXPECTED_TOKEN(PEMQExpectedFeatureName); SkipUntil(')'); return PR_FALSE; } expr->mFeature = feature; if (!GetToken(PR_TRUE) || mToken.IsSymbol(')')) { // Query expressions for any feature can be given without a value. // However, min/max prefixes are not allowed. if (expr->mRange != nsMediaExpression::eEqual) { REPORT_UNEXPECTED(PEMQNoMinMaxWithoutValue); return PR_FALSE; } expr->mValue.Reset(); return PR_TRUE; } if (!mToken.IsSymbol(':')) { REPORT_UNEXPECTED_TOKEN(PEMQExpectedFeatureNameEnd); UngetToken(); SkipUntil(')'); return PR_FALSE; } PRBool rv; switch (feature->mValueType) { case nsMediaFeature::eLength: rv = ParseNonNegativeVariant(expr->mValue, VARIANT_LENGTH, nsnull); break; case nsMediaFeature::eInteger: case nsMediaFeature::eBoolInteger: rv = ParseNonNegativeVariant(expr->mValue, VARIANT_INTEGER, nsnull); // Enforce extra restrictions for eBoolInteger if (rv && feature->mValueType == nsMediaFeature::eBoolInteger && expr->mValue.GetIntValue() > 1) rv = PR_FALSE; break; case nsMediaFeature::eIntRatio: { // Two integers separated by '/', with optional whitespace on // either side of the '/'. nsRefPtr a = nsCSSValue::Array::Create(2); if (!a) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); SkipUntil(')'); return PR_FALSE; } expr->mValue.SetArrayValue(a, eCSSUnit_Array); // We don't bother with ParseNonNegativeVariant since we have to // check for != 0 as well; no need to worry about the UngetToken // since we're throwing out up to the next ')' anyway. rv = ParseVariant(a->Item(0), VARIANT_INTEGER, nsnull) && a->Item(0).GetIntValue() > 0 && ExpectSymbol('/', PR_TRUE) && ParseVariant(a->Item(1), VARIANT_INTEGER, nsnull) && a->Item(1).GetIntValue() > 0; } break; case nsMediaFeature::eResolution: rv = GetToken(PR_TRUE); if (!rv) break; rv = mToken.mType == eCSSToken_Dimension && mToken.mIntegerValid && mToken.mNumber > 0.0f; if (!rv) { UngetToken(); break; } // No worries about whether unitless zero is allowed, since the // value must be positive (and we checked that above). NS_ASSERTION(!mToken.mIdent.IsEmpty(), "unit lied"); if (mToken.mIdent.LowerCaseEqualsLiteral("dpi")) { expr->mValue.SetFloatValue(mToken.mNumber, eCSSUnit_Inch); } else if (mToken.mIdent.LowerCaseEqualsLiteral("dpcm")) { expr->mValue.SetFloatValue(mToken.mNumber, eCSSUnit_Centimeter); } else { rv = PR_FALSE; } break; case nsMediaFeature::eEnumerated: rv = ParseVariant(expr->mValue, VARIANT_KEYWORD, feature->mData.mKeywordTable); break; } if (!rv || !ExpectSymbol(')', PR_TRUE)) { REPORT_UNEXPECTED(PEMQExpectedFeatureValue); SkipUntil(')'); return PR_FALSE; } return PR_TRUE; } // Parse a CSS2 import rule: "@import STRING | URL [medium [, medium]]" PRBool CSSParserImpl::ParseImportRule(RuleAppendFunc aAppendFunc, void* aData) { nsRefPtr media = new nsMediaList(); if (!media) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } nsAutoString url; if (!GatherURL(url)) { REPORT_UNEXPECTED_TOKEN(PEImportNotURI); return PR_FALSE; } if (!ExpectSymbol(';', PR_TRUE)) { if (!GatherMedia(media, ';') || !ExpectSymbol(';', PR_TRUE)) { REPORT_UNEXPECTED_TOKEN(PEImportUnexpected); // don't advance section, simply ignore invalid @import return PR_FALSE; } // Safe to assert this, since we ensured that there is something // other than the ';' coming after the @import's url() token. NS_ASSERTION(media->Count() != 0, "media list must be nonempty"); } ProcessImport(url, media, aAppendFunc, aData); return PR_TRUE; } void CSSParserImpl::ProcessImport(const nsString& aURLSpec, nsMediaList* aMedia, RuleAppendFunc aAppendFunc, void* aData) { nsCOMPtr rule; nsresult rv = NS_NewCSSImportRule(getter_AddRefs(rule), aURLSpec, aMedia); if (NS_FAILED(rv)) { // out of memory mScanner.SetLowLevelError(rv); return; } (*aAppendFunc)(rule, aData); // Diagnose bad URIs even if we don't have a child loader. nsCOMPtr url; // Charset will be deduced from mBaseURI, which is more or less correct. rv = NS_NewURI(getter_AddRefs(url), aURLSpec, nsnull, mBaseURI); if (NS_FAILED(rv)) { if (rv == NS_ERROR_MALFORMED_URI) { // import url is bad const PRUnichar *params[] = { aURLSpec.get() }; REPORT_UNEXPECTED_P(PEImportBadURI, params); OUTPUT_ERROR(); } return; } if (mChildLoader) { mChildLoader->LoadChildSheet(mSheet, url, aMedia, rule); } } // Parse the {} part of an @media or @-moz-document rule. PRBool CSSParserImpl::ParseGroupRule(nsICSSGroupRule* aRule, RuleAppendFunc aAppendFunc, void* aData) { // XXXbz this could use better error reporting throughout the method if (!ExpectSymbol('{', PR_TRUE)) { return PR_FALSE; } // push rule on stack, loop over children if (!PushGroup(aRule)) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } nsCSSSection holdSection = mSection; mSection = eCSSSection_General; for (;;) { // Get next non-whitespace token if (! GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEGroupRuleEOF); break; } if (mToken.IsSymbol('}')) { // done! UngetToken(); break; } if (eCSSToken_AtKeyword == mToken.mType) { SkipAtRule(); // group rules cannot contain @rules continue; } UngetToken(); ParseRuleSet(AppendRuleToSheet, this, PR_TRUE); } PopGroup(); if (!ExpectSymbol('}', PR_TRUE)) { mSection = holdSection; return PR_FALSE; } (*aAppendFunc)(aRule, aData); return PR_TRUE; } // Parse a CSS2 media rule: "@media medium [, medium] { ... }" PRBool CSSParserImpl::ParseMediaRule(RuleAppendFunc aAppendFunc, void* aData) { nsRefPtr media = new nsMediaList(); if (!media) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } if (GatherMedia(media, '{')) { // XXXbz this could use better error reporting throughout the method nsRefPtr rule(new nsCSSMediaRule()); // Append first, so when we do SetMedia() the rule // knows what its stylesheet is. if (rule && ParseGroupRule(rule, aAppendFunc, aData)) { rule->SetMedia(media); return PR_TRUE; } } return PR_FALSE; } // Parse a @-moz-document rule. This is like an @media rule, but instead // of a medium it has a nonempty list of items where each item is either // url(), url-prefix(), or domain(). PRBool CSSParserImpl::ParseMozDocumentRule(RuleAppendFunc aAppendFunc, void* aData) { nsCSSDocumentRule::URL *urls = nsnull; nsCSSDocumentRule::URL **next = &urls; do { if (!GetToken(PR_TRUE) || eCSSToken_Function != mToken.mType || !(mToken.mIdent.LowerCaseEqualsLiteral("url") || mToken.mIdent.LowerCaseEqualsLiteral("url-prefix") || mToken.mIdent.LowerCaseEqualsLiteral("domain"))) { REPORT_UNEXPECTED_TOKEN(PEMozDocRuleBadFunc); delete urls; return PR_FALSE; } nsCSSDocumentRule::URL *cur = *next = new nsCSSDocumentRule::URL; if (!cur) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); delete urls; return PR_FALSE; } next = &cur->next; if (mToken.mIdent.LowerCaseEqualsLiteral("url")) { cur->func = nsCSSDocumentRule::eURL; } else if (mToken.mIdent.LowerCaseEqualsLiteral("url-prefix")) { cur->func = nsCSSDocumentRule::eURLPrefix; } else if (mToken.mIdent.LowerCaseEqualsLiteral("domain")) { cur->func = nsCSSDocumentRule::eDomain; } nsAutoString url; if (!GetURLInParens(url)) { REPORT_UNEXPECTED_TOKEN(PEMozDocRuleNotURI); delete urls; return PR_FALSE; } // We could try to make the URL (as long as it's not domain()) // canonical and absolute with NS_NewURI and GetSpec, but I'm // inclined to think we shouldn't. CopyUTF16toUTF8(url, cur->url); } while (ExpectSymbol(',', PR_TRUE)); nsRefPtr rule(new nsCSSDocumentRule()); if (!rule) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); delete urls; return PR_FALSE; } rule->SetURLs(urls); return ParseGroupRule(rule, aAppendFunc, aData); } // Parse a CSS3 namespace rule: "@namespace [prefix] STRING | URL;" PRBool CSSParserImpl::ParseNameSpaceRule(RuleAppendFunc aAppendFunc, void* aData) { if (!GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEAtNSPrefixEOF); return PR_FALSE; } nsAutoString prefix; nsAutoString url; if (eCSSToken_Ident == mToken.mType) { prefix = mToken.mIdent; // user-specified identifiers are case-sensitive (bug 416106) if (! GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEAtNSURIEOF); return PR_FALSE; } } if (eCSSToken_String == mToken.mType) { url = mToken.mIdent; if (ExpectSymbol(';', PR_TRUE)) { ProcessNameSpace(prefix, url, aAppendFunc, aData); return PR_TRUE; } } else if ((eCSSToken_Function == mToken.mType) && (mToken.mIdent.LowerCaseEqualsLiteral("url"))) { if (GetURLInParens(url) && ExpectSymbol(';', PR_TRUE)) { ProcessNameSpace(prefix, url, aAppendFunc, aData); return PR_TRUE; } } REPORT_UNEXPECTED_TOKEN(PEAtNSUnexpected); return PR_FALSE; } void CSSParserImpl::ProcessNameSpace(const nsString& aPrefix, const nsString& aURLSpec, RuleAppendFunc aAppendFunc, void* aData) { nsCOMPtr rule; nsCOMPtr prefix; if (!aPrefix.IsEmpty()) { prefix = do_GetAtom(aPrefix); } NS_NewCSSNameSpaceRule(getter_AddRefs(rule), prefix, aURLSpec); if (rule) { (*aAppendFunc)(rule, aData); // If this was the first namespace rule encountered, it will trigger // creation of a namespace map. if (!mNameSpaceMap) { mNameSpaceMap = mSheet->GetNameSpaceMap(); } } } // font-face-rule: '@font-face' '{' font-description '}' // font-description: font-descriptor+ PRBool CSSParserImpl::ParseFontFaceRule(RuleAppendFunc aAppendFunc, void* aData) { if (!ExpectSymbol('{', PR_TRUE)) { REPORT_UNEXPECTED_TOKEN(PEBadFontBlockStart); return PR_FALSE; } nsRefPtr rule(new nsCSSFontFaceRule()); if (!rule) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } for (;;) { if (!GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEFontFaceEOF); break; } if (mToken.IsSymbol('}')) { // done! UngetToken(); break; } // ignore extra semicolons if (mToken.IsSymbol(';')) continue; if (!ParseFontDescriptor(rule)) { REPORT_UNEXPECTED(PEDeclSkipped); OUTPUT_ERROR(); if (!SkipDeclaration(PR_TRUE)) break; } } if (!ExpectSymbol('}', PR_TRUE)) { REPORT_UNEXPECTED_TOKEN(PEBadFontBlockEnd); return PR_FALSE; } (*aAppendFunc)(rule, aData); return PR_TRUE; } // font-descriptor: font-family-desc // | font-style-desc // | font-weight-desc // | font-stretch-desc // | font-src-desc // | unicode-range-desc // // All font-*-desc productions follow the pattern // IDENT ':' value ';' // // On entry to this function, mToken is the IDENT. PRBool CSSParserImpl::ParseFontDescriptor(nsCSSFontFaceRule* aRule) { if (eCSSToken_Ident != mToken.mType) { REPORT_UNEXPECTED_TOKEN(PEFontDescExpected); return PR_FALSE; } nsString descName = mToken.mIdent; if (!ExpectSymbol(':', PR_TRUE)) { REPORT_UNEXPECTED_TOKEN(PEParseDeclarationNoColon); OUTPUT_ERROR(); return PR_FALSE; } nsCSSFontDesc descID = nsCSSProps::LookupFontDesc(descName); nsCSSValue value; if (descID == eCSSFontDesc_UNKNOWN) { if (NonMozillaVendorIdentifier(descName)) { // silently skip other vendors' extensions SkipDeclaration(PR_TRUE); return PR_TRUE; } else { const PRUnichar *params[] = { descName.get() }; REPORT_UNEXPECTED_P(PEUnknownFontDesc, params); return PR_FALSE; } } if (!ParseFontDescriptorValue(descID, value)) { const PRUnichar *params[] = { descName.get() }; REPORT_UNEXPECTED_P(PEValueParsingError, params); return PR_FALSE; } if (!ExpectEndProperty()) return PR_FALSE; aRule->SetDesc(descID, value); return PR_TRUE; } PRBool CSSParserImpl::ParsePageRule(RuleAppendFunc aAppendFunc, void* aData) { // XXX not yet implemented return PR_FALSE; } void CSSParserImpl::SkipUntil(PRUnichar aStopSymbol) { nsCSSToken* tk = &mToken; nsAutoTArray stack; stack.AppendElement(aStopSymbol); for (;;) { if (!GetToken(PR_TRUE)) { break; } if (eCSSToken_Symbol == tk->mType) { PRUnichar symbol = tk->mSymbol; PRUint32 stackTopIndex = stack.Length() - 1; if (symbol == stack.ElementAt(stackTopIndex)) { stack.RemoveElementAt(stackTopIndex); if (stackTopIndex == 0) { break; } // Just handle out-of-memory by parsing incorrectly. It's // highly unlikely we're dealing with a legitimate style sheet // anyway. } else if ('{' == symbol) { stack.AppendElement('}'); } else if ('[' == symbol) { stack.AppendElement(']'); } else if ('(' == symbol) { stack.AppendElement(')'); } } else if (eCSSToken_Function == tk->mType) { stack.AppendElement(')'); } } } void CSSParserImpl::SkipUntilOneOf(const PRUnichar* aStopSymbolChars) { nsCSSToken* tk = &mToken; nsDependentString stopSymbolChars(aStopSymbolChars); for (;;) { if (!GetToken(PR_TRUE)) { break; } if (eCSSToken_Symbol == tk->mType) { PRUnichar symbol = tk->mSymbol; if (stopSymbolChars.FindChar(symbol) != -1) { break; } else if ('{' == symbol) { SkipUntil('}'); } else if ('[' == symbol) { SkipUntil(']'); } else if ('(' == symbol) { SkipUntil(')'); } } else if (eCSSToken_Function == tk->mType) { SkipUntil(')'); } } } PRBool CSSParserImpl::SkipDeclaration(PRBool aCheckForBraces) { nsCSSToken* tk = &mToken; for (;;) { if (!GetToken(PR_TRUE)) { if (aCheckForBraces) { REPORT_UNEXPECTED_EOF(PESkipDeclBraceEOF); } return PR_FALSE; } if (eCSSToken_Symbol == tk->mType) { PRUnichar symbol = tk->mSymbol; if (';' == symbol) { break; } if (aCheckForBraces) { if ('}' == symbol) { UngetToken(); break; } } if ('{' == symbol) { SkipUntil('}'); } else if ('(' == symbol) { SkipUntil(')'); } else if ('[' == symbol) { SkipUntil(']'); } } else if (eCSSToken_Function == tk->mType) { SkipUntil(')'); } } return PR_TRUE; } void CSSParserImpl::SkipRuleSet(PRBool aInsideBraces) { nsCSSToken* tk = &mToken; for (;;) { if (!GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PESkipRSBraceEOF); break; } if (eCSSToken_Symbol == tk->mType) { PRUnichar symbol = tk->mSymbol; if ('}' == symbol && aInsideBraces) { // leave block closer for higher-level grammar to consume UngetToken(); break; } else if ('{' == symbol) { SkipUntil('}'); break; } else if ('(' == symbol) { SkipUntil(')'); } else if ('[' == symbol) { SkipUntil(']'); } } else if (eCSSToken_Function == tk->mType) { SkipUntil(')'); } } } PRBool CSSParserImpl::PushGroup(nsICSSGroupRule* aRule) { if (mGroupStack.AppendObject(aRule)) return PR_TRUE; return PR_FALSE; } void CSSParserImpl::PopGroup(void) { PRInt32 count = mGroupStack.Count(); if (0 < count) { mGroupStack.RemoveObjectAt(count - 1); } } void CSSParserImpl::AppendRule(nsICSSRule* aRule) { PRInt32 count = mGroupStack.Count(); if (0 < count) { mGroupStack[count - 1]->AppendStyleRule(aRule); } else { mSheet->AppendStyleRule(aRule); } } PRBool CSSParserImpl::ParseRuleSet(RuleAppendFunc aAppendFunc, void* aData, PRBool aInsideBraces) { // First get the list of selectors for the rule nsCSSSelectorList* slist = nsnull; PRUint32 linenum = mScanner.GetLineNumber(); if (! ParseSelectorList(slist, PRUnichar('{'))) { REPORT_UNEXPECTED(PEBadSelectorRSIgnored); OUTPUT_ERROR(); SkipRuleSet(aInsideBraces); return PR_FALSE; } NS_ASSERTION(nsnull != slist, "null selector list"); CLEAR_ERROR(); // Next parse the declaration block css::Declaration* declaration = ParseDeclarationBlock(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 nsCOMPtr rule; NS_NewCSSStyleRule(getter_AddRefs(rule), slist, declaration); if (!rule) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); delete slist; return PR_FALSE; } rule->SetLineNumber(linenum); (*aAppendFunc)(rule, aData); return PR_TRUE; } PRBool CSSParserImpl::ParseSelectorList(nsCSSSelectorList*& aListHead, PRUnichar aStopChar) { nsCSSSelectorList* list = nsnull; if (! ParseSelectorGroup(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 "{" (the latter if // StopChar is nonzero) nsCSSToken* tk = &mToken; for (;;) { if (! GetToken(PR_TRUE)) { if (aStopChar == PRUnichar(0)) { return PR_TRUE; } REPORT_UNEXPECTED_EOF(PESelectorListExtraEOF); break; } if (eCSSToken_Symbol == tk->mType) { if (',' == tk->mSymbol) { nsCSSSelectorList* newList = nsnull; // Another selector group must follow if (! ParseSelectorGroup(newList)) { break; } // add new list to the end of the selector list list->mNext = newList; list = newList; continue; } else if (aStopChar == tk->mSymbol && aStopChar != PRUnichar(0)) { UngetToken(); return PR_TRUE; } } REPORT_UNEXPECTED_TOKEN(PESelectorListExtra); UngetToken(); break; } delete aListHead; aListHead = nsnull; return PR_FALSE; } static PRBool IsUniversalSelector(const nsCSSSelector& aSelector) { return PRBool((aSelector.mNameSpace == kNameSpaceID_Unknown) && (aSelector.mLowercaseTag == nsnull) && (aSelector.mIDList == nsnull) && (aSelector.mClassList == nsnull) && (aSelector.mAttrList == nsnull) && (aSelector.mNegations == nsnull) && (aSelector.mPseudoClassList == nsnull)); } PRBool CSSParserImpl::ParseSelectorGroup(nsCSSSelectorList*& aList) { PRUnichar combinator = 0; nsAutoPtr list(new nsCSSSelectorList()); for (;;) { if (!ParseSelector(list, combinator)) { return PR_FALSE; } // Look for a combinator. if (!GetToken(PR_FALSE)) { break; // EOF ok here } combinator = PRUnichar(0); if (mToken.mType == eCSSToken_WhiteSpace) { if (!GetToken(PR_TRUE)) { break; // EOF ok here } combinator = PRUnichar(' '); } if (mToken.mType != eCSSToken_Symbol) { UngetToken(); // not a combinator } else { PRUnichar symbol = mToken.mSymbol; if (symbol == '+' || symbol == '>' || symbol == '~') { combinator = mToken.mSymbol; } else { UngetToken(); // not a combinator if (symbol == ',' || symbol == '{' || symbol == ')') { break; // end of selector group } } } if (!combinator) { REPORT_UNEXPECTED_TOKEN(PESelectorListExtra); return PR_FALSE; } } aList = list.forget(); return PR_TRUE; } #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 // // Parses an ID selector #name // CSSParserImpl::nsSelectorParsingStatus CSSParserImpl::ParseIDSelector(PRInt32& aDataMask, nsCSSSelector& aSelector) { NS_ASSERTION(!mToken.mIdent.IsEmpty(), "Empty mIdent in eCSSToken_ID token?"); aDataMask |= SEL_MASK_ID; aSelector.AddID(mToken.mIdent); return eSelectorParsingStatus_Continue; } // // Parses a class selector .name // CSSParserImpl::nsSelectorParsingStatus CSSParserImpl::ParseClassSelector(PRInt32& aDataMask, nsCSSSelector& aSelector) { if (! GetToken(PR_FALSE)) { // get ident REPORT_UNEXPECTED_EOF(PEClassSelEOF); return eSelectorParsingStatus_Error; } if (eCSSToken_Ident != mToken.mType) { // malformed selector REPORT_UNEXPECTED_TOKEN(PEClassSelNotIdent); UngetToken(); return eSelectorParsingStatus_Error; } aDataMask |= SEL_MASK_CLASS; aSelector.AddClass(mToken.mIdent); return eSelectorParsingStatus_Continue; } // // Parse a type element selector or a universal selector // namespace|type or namespace|* or *|* or * // CSSParserImpl::nsSelectorParsingStatus CSSParserImpl::ParseTypeOrUniversalSelector(PRInt32& aDataMask, nsCSSSelector& aSelector, PRBool aIsNegated) { nsAutoString buffer; if (mToken.IsSymbol('*')) { // universal element selector, or universal namespace if (ExpectSymbol('|', PR_FALSE)) { // was namespace aDataMask |= SEL_MASK_NSPACE; aSelector.SetNameSpace(kNameSpaceID_Unknown); // namespace wildcard if (! GetToken(PR_FALSE)) { REPORT_UNEXPECTED_EOF(PETypeSelEOF); return eSelectorParsingStatus_Error; } if (eCSSToken_Ident == mToken.mType) { // element name aDataMask |= SEL_MASK_ELEM; aSelector.SetTag(mToken.mIdent); } else if (mToken.IsSymbol('*')) { // universal selector aDataMask |= SEL_MASK_ELEM; // don't set tag } else { REPORT_UNEXPECTED_TOKEN(PETypeSelNotType); UngetToken(); return eSelectorParsingStatus_Error; } } else { // was universal element selector SetDefaultNamespaceOnSelector(aSelector); aDataMask |= SEL_MASK_ELEM; // don't set any tag in the selector } if (! GetToken(PR_FALSE)) { // premature eof is ok (here!) return eSelectorParsingStatus_Done; } } else if (eCSSToken_Ident == mToken.mType) { // element name or namespace name buffer = mToken.mIdent; // hang on to ident if (ExpectSymbol('|', PR_FALSE)) { // was namespace aDataMask |= SEL_MASK_NSPACE; PRInt32 nameSpaceID = GetNamespaceIdForPrefix(buffer); if (nameSpaceID == kNameSpaceID_Unknown) { return eSelectorParsingStatus_Error; } aSelector.SetNameSpace(nameSpaceID); if (! GetToken(PR_FALSE)) { REPORT_UNEXPECTED_EOF(PETypeSelEOF); return eSelectorParsingStatus_Error; } if (eCSSToken_Ident == mToken.mType) { // element name aDataMask |= SEL_MASK_ELEM; aSelector.SetTag(mToken.mIdent); } else if (mToken.IsSymbol('*')) { // universal selector aDataMask |= SEL_MASK_ELEM; // don't set tag } else { REPORT_UNEXPECTED_TOKEN(PETypeSelNotType); UngetToken(); return eSelectorParsingStatus_Error; } } else { // was element name SetDefaultNamespaceOnSelector(aSelector); aSelector.SetTag(buffer); aDataMask |= SEL_MASK_ELEM; } if (! GetToken(PR_FALSE)) { // premature eof is ok (here!) return eSelectorParsingStatus_Done; } } else if (mToken.IsSymbol('|')) { // No namespace aDataMask |= SEL_MASK_NSPACE; aSelector.SetNameSpace(kNameSpaceID_None); // explicit NO namespace // get mandatory tag if (! GetToken(PR_FALSE)) { REPORT_UNEXPECTED_EOF(PETypeSelEOF); return eSelectorParsingStatus_Error; } if (eCSSToken_Ident == mToken.mType) { // element name aDataMask |= SEL_MASK_ELEM; aSelector.SetTag(mToken.mIdent); } else if (mToken.IsSymbol('*')) { // universal selector aDataMask |= SEL_MASK_ELEM; // don't set tag } else { REPORT_UNEXPECTED_TOKEN(PETypeSelNotType); UngetToken(); return eSelectorParsingStatus_Error; } if (! GetToken(PR_FALSE)) { // premature eof is ok (here!) return eSelectorParsingStatus_Done; } } else { SetDefaultNamespaceOnSelector(aSelector); } if (aIsNegated) { // restore last token read in case of a negated type selector UngetToken(); } return eSelectorParsingStatus_Continue; } // // Parse attribute selectors [attr], [attr=value], [attr|=value], // [attr~=value], [attr^=value], [attr$=value] and [attr*=value] // CSSParserImpl::nsSelectorParsingStatus CSSParserImpl::ParseAttributeSelector(PRInt32& aDataMask, nsCSSSelector& aSelector) { if (! GetToken(PR_TRUE)) { // premature EOF REPORT_UNEXPECTED_EOF(PEAttributeNameEOF); return eSelectorParsingStatus_Error; } PRInt32 nameSpaceID = kNameSpaceID_None; nsAutoString attr; if (mToken.IsSymbol('*')) { // wildcard namespace nameSpaceID = kNameSpaceID_Unknown; if (ExpectSymbol('|', PR_FALSE)) { if (! GetToken(PR_FALSE)) { // premature EOF REPORT_UNEXPECTED_EOF(PEAttributeNameEOF); return eSelectorParsingStatus_Error; } if (eCSSToken_Ident == mToken.mType) { // attr name attr = mToken.mIdent; } else { REPORT_UNEXPECTED_TOKEN(PEAttributeNameExpected); UngetToken(); return eSelectorParsingStatus_Error; } } else { REPORT_UNEXPECTED_TOKEN(PEAttSelNoBar); return eSelectorParsingStatus_Error; } } else if (mToken.IsSymbol('|')) { // NO namespace if (! GetToken(PR_FALSE)) { // premature EOF REPORT_UNEXPECTED_EOF(PEAttributeNameEOF); return eSelectorParsingStatus_Error; } if (eCSSToken_Ident == mToken.mType) { // attr name attr = mToken.mIdent; } else { REPORT_UNEXPECTED_TOKEN(PEAttributeNameExpected); UngetToken(); return eSelectorParsingStatus_Error; } } else if (eCSSToken_Ident == mToken.mType) { // attr name or namespace attr = mToken.mIdent; // hang on to it if (ExpectSymbol('|', PR_FALSE)) { // was a namespace nameSpaceID = GetNamespaceIdForPrefix(attr); if (nameSpaceID == kNameSpaceID_Unknown) { return eSelectorParsingStatus_Error; } if (! GetToken(PR_FALSE)) { // premature EOF REPORT_UNEXPECTED_EOF(PEAttributeNameEOF); return eSelectorParsingStatus_Error; } if (eCSSToken_Ident == mToken.mType) { // attr name attr = mToken.mIdent; } else { REPORT_UNEXPECTED_TOKEN(PEAttributeNameExpected); UngetToken(); return eSelectorParsingStatus_Error; } } } else { // malformed REPORT_UNEXPECTED_TOKEN(PEAttributeNameOrNamespaceExpected); UngetToken(); return eSelectorParsingStatus_Error; } if (! GetToken(PR_TRUE)) { // premature EOF REPORT_UNEXPECTED_EOF(PEAttSelInnerEOF); return eSelectorParsingStatus_Error; } if ((eCSSToken_Symbol == mToken.mType) || (eCSSToken_Includes == mToken.mType) || (eCSSToken_Dashmatch == mToken.mType) || (eCSSToken_Beginsmatch == mToken.mType) || (eCSSToken_Endsmatch == mToken.mType) || (eCSSToken_Containsmatch == mToken.mType)) { PRUint8 func; if (eCSSToken_Includes == mToken.mType) { func = NS_ATTR_FUNC_INCLUDES; } else if (eCSSToken_Dashmatch == mToken.mType) { func = NS_ATTR_FUNC_DASHMATCH; } else if (eCSSToken_Beginsmatch == mToken.mType) { func = NS_ATTR_FUNC_BEGINSMATCH; } else if (eCSSToken_Endsmatch == mToken.mType) { func = NS_ATTR_FUNC_ENDSMATCH; } else if (eCSSToken_Containsmatch == mToken.mType) { func = NS_ATTR_FUNC_CONTAINSMATCH; } else if (']' == mToken.mSymbol) { aDataMask |= SEL_MASK_ATTRIB; aSelector.AddAttribute(nameSpaceID, attr); func = NS_ATTR_FUNC_SET; } else if ('=' == mToken.mSymbol) { func = NS_ATTR_FUNC_EQUALS; } else { REPORT_UNEXPECTED_TOKEN(PEAttSelUnexpected); UngetToken(); // bad function return eSelectorParsingStatus_Error; } if (NS_ATTR_FUNC_SET != func) { // get value if (! GetToken(PR_TRUE)) { // premature EOF REPORT_UNEXPECTED_EOF(PEAttSelValueEOF); return eSelectorParsingStatus_Error; } if ((eCSSToken_Ident == mToken.mType) || (eCSSToken_String == mToken.mType)) { nsAutoString value(mToken.mIdent); if (! GetToken(PR_TRUE)) { // premature EOF REPORT_UNEXPECTED_EOF(PEAttSelCloseEOF); return eSelectorParsingStatus_Error; } if (mToken.IsSymbol(']')) { PRBool isCaseSensitive = PR_TRUE; // For cases when this style sheet is applied to an HTML // element in an HTML document, and the attribute selector is // for a non-namespaced attribute, then check to see if it's // one of the known attributes whose VALUE is // case-insensitive. if (nameSpaceID == kNameSpaceID_None) { static const char* caseInsensitiveHTMLAttribute[] = { // list based on http://www.w3.org/TR/html4/ "lang", "dir", "http-equiv", "text", "link", "vlink", "alink", "compact", "align", "frame", "rules", "valign", "scope", "axis", "nowrap", "hreflang", "rel", "rev", "charset", "codetype", "declare", "valuetype", "shape", "nohref", "media", "bgcolor", "clear", "color", "face", "noshade", "noresize", "scrolling", "target", "method", "enctype", "accept-charset", "accept", "checked", "multiple", "selected", "disabled", "readonly", "language", "defer", "type", // additional attributes not in HTML4 "direction", // marquee nsnull }; short i = 0; const char* htmlAttr; while ((htmlAttr = caseInsensitiveHTMLAttribute[i++])) { if (attr.EqualsIgnoreCase(htmlAttr)) { isCaseSensitive = PR_FALSE; break; } } } aDataMask |= SEL_MASK_ATTRIB; aSelector.AddAttribute(nameSpaceID, attr, func, value, isCaseSensitive); } else { REPORT_UNEXPECTED_TOKEN(PEAttSelNoClose); UngetToken(); return eSelectorParsingStatus_Error; } } else { REPORT_UNEXPECTED_TOKEN(PEAttSelBadValue); UngetToken(); return eSelectorParsingStatus_Error; } } } else { REPORT_UNEXPECTED_TOKEN(PEAttSelUnexpected); UngetToken(); // bad dog, no biscut! return eSelectorParsingStatus_Error; } return eSelectorParsingStatus_Continue; } // // Parse pseudo-classes and pseudo-elements // CSSParserImpl::nsSelectorParsingStatus CSSParserImpl::ParsePseudoSelector(PRInt32& aDataMask, nsCSSSelector& aSelector, PRBool aIsNegated, nsIAtom** aPseudoElement, nsPseudoClassList** aPseudoElementArgs, nsCSSPseudoElements::Type* aPseudoElementType) { NS_ASSERTION(aIsNegated || (aPseudoElement && aPseudoElementArgs), "expected location to store pseudo element"); NS_ASSERTION(!aIsNegated || (!aPseudoElement && !aPseudoElementArgs), "negated selectors shouldn't have a place to store " "pseudo elements"); if (! GetToken(PR_FALSE)) { // premature eof REPORT_UNEXPECTED_EOF(PEPseudoSelEOF); return eSelectorParsingStatus_Error; } // First, find out whether we are parsing a CSS3 pseudo-element PRBool parsingPseudoElement = PR_FALSE; if (mToken.IsSymbol(':')) { parsingPseudoElement = PR_TRUE; if (! GetToken(PR_FALSE)) { // premature eof REPORT_UNEXPECTED_EOF(PEPseudoSelEOF); return eSelectorParsingStatus_Error; } } // Do some sanity-checking on the token if (eCSSToken_Ident != mToken.mType && eCSSToken_Function != mToken.mType) { // malformed selector REPORT_UNEXPECTED_TOKEN(PEPseudoSelBadName); UngetToken(); return eSelectorParsingStatus_Error; } // OK, now we know we have an mIdent. Atomize it. All the atoms, for // pseudo-classes as well as pseudo-elements, start with a single ':'. nsAutoString buffer; buffer.Append(PRUnichar(':')); buffer.Append(mToken.mIdent); ToLowerCase(buffer); nsCOMPtr pseudo = do_GetAtom(buffer); if (!pseudo) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return eSelectorParsingStatus_Error; } // stash away some info about this pseudo so we only have to get it once. PRBool isTreePseudo = PR_FALSE; nsCSSPseudoElements::Type pseudoElementType = nsCSSPseudoElements::GetPseudoType(pseudo); #ifdef MOZ_XUL isTreePseudo = (pseudoElementType == nsCSSPseudoElements::ePseudo_XULTree); // If a tree pseudo-element is using the function syntax, it will // get isTree set here and will pass the check below that only // allows functions if they are in our list of things allowed to be // functions. If it is _not_ using the function syntax, isTree will // be false, and it will still pass that check. So the tree // pseudo-elements are allowed to be either functions or not, as // desired. PRBool isTree = (eCSSToken_Function == mToken.mType) && isTreePseudo; #endif PRBool isPseudoElement = (pseudoElementType < nsCSSPseudoElements::ePseudo_PseudoElementCount); // anonymous boxes are only allowed if they're the tree boxes or we have // enabled unsafe rules PRBool isAnonBox = isTreePseudo || (pseudoElementType == nsCSSPseudoElements::ePseudo_AnonBox && mUnsafeRulesEnabled); nsCSSPseudoClasses::Type pseudoClassType = nsCSSPseudoClasses::GetPseudoType(pseudo); PRBool isPseudoClass = (pseudoClassType != nsCSSPseudoClasses::ePseudoClass_NotPseudoClass); NS_ASSERTION(!isPseudoClass || pseudoElementType == nsCSSPseudoElements::ePseudo_NotPseudoElement, "Why is this atom both a pseudo-class and a pseudo-element?"); NS_ASSERTION(isPseudoClass + isPseudoElement + isAnonBox <= 1, "Shouldn't be more than one of these"); if (!isPseudoClass && !isPseudoElement && !isAnonBox) { // Not a pseudo-class, not a pseudo-element.... forget it REPORT_UNEXPECTED_TOKEN(PEPseudoSelUnknown); UngetToken(); return eSelectorParsingStatus_Error; } // If it's a function token, it better be on our "ok" list, and if the name // is that of a function pseudo it better be a function token if ((eCSSToken_Function == mToken.mType) != ( #ifdef MOZ_XUL isTree || #endif nsCSSPseudoClasses::notPseudo == pseudo || nsCSSPseudoClasses::HasStringArg(pseudo) || nsCSSPseudoClasses::HasNthPairArg(pseudo) || nsCSSPseudoClasses::HasSelectorListArg(pseudo))) { // There are no other function pseudos REPORT_UNEXPECTED_TOKEN(PEPseudoSelNonFunc); UngetToken(); return eSelectorParsingStatus_Error; } // If it starts with "::", it better be a pseudo-element if (parsingPseudoElement && !isPseudoElement && !isAnonBox) { REPORT_UNEXPECTED_TOKEN(PEPseudoSelNotPE); UngetToken(); return eSelectorParsingStatus_Error; } if (!parsingPseudoElement && nsCSSPseudoClasses::notPseudo == pseudo) { if (aIsNegated) { // :not() can't be itself negated REPORT_UNEXPECTED_TOKEN(PEPseudoSelDoubleNot); UngetToken(); return eSelectorParsingStatus_Error; } // CSS 3 Negation pseudo-class takes one simple selector as argument nsSelectorParsingStatus parsingStatus = ParseNegatedSimpleSelector(aDataMask, aSelector); if (eSelectorParsingStatus_Continue != parsingStatus) { return parsingStatus; } } else if (!parsingPseudoElement && isPseudoClass) { aDataMask |= SEL_MASK_PCLASS; if (eCSSToken_Function == mToken.mType) { nsSelectorParsingStatus parsingStatus; if (nsCSSPseudoClasses::HasStringArg(pseudo)) { parsingStatus = ParsePseudoClassWithIdentArg(aSelector, pseudo, pseudoClassType); } else if (nsCSSPseudoClasses::HasNthPairArg(pseudo)) { parsingStatus = ParsePseudoClassWithNthPairArg(aSelector, pseudo, pseudoClassType); } else { NS_ABORT_IF_FALSE(nsCSSPseudoClasses::HasSelectorListArg(pseudo), "unexpected pseudo with function token"); parsingStatus = ParsePseudoClassWithSelectorListArg(aSelector, pseudo, pseudoClassType); } if (eSelectorParsingStatus_Continue != parsingStatus) { if (eSelectorParsingStatus_Error == parsingStatus) { SkipUntil(')'); } return parsingStatus; } } else { aSelector.AddPseudoClass(pseudo, pseudoClassType); } } else if (isPseudoElement || isAnonBox) { // Pseudo-element. Make some more sanity checks. if (aIsNegated) { // pseudo-elements can't be negated REPORT_UNEXPECTED_TOKEN(PEPseudoSelPEInNot); UngetToken(); return eSelectorParsingStatus_Error; } // CSS2 pseudo-elements and -moz-tree-* pseudo-elements are allowed // to have a single ':' on them. Others (CSS3+ pseudo-elements and // various -moz-* pseudo-elements) must have |parsingPseudoElement| // set. if (!parsingPseudoElement && !nsCSSPseudoElements::IsCSS2PseudoElement(pseudo) #ifdef MOZ_XUL && !isTreePseudo #endif ) { REPORT_UNEXPECTED_TOKEN(PEPseudoSelNewStyleOnly); UngetToken(); return eSelectorParsingStatus_Error; } if (0 == (aDataMask & SEL_MASK_PELEM)) { aDataMask |= SEL_MASK_PELEM; NS_ADDREF(*aPseudoElement = pseudo); *aPseudoElementType = pseudoElementType; #ifdef MOZ_XUL if (isTree) { // We have encountered a pseudoelement of the form // -moz-tree-xxxx(a,b,c). We parse (a,b,c) and add each // item in the list to the pseudoclass list. They will be pulled // from the list later along with the pseudo-element. if (!ParseTreePseudoElement(aPseudoElementArgs)) { return eSelectorParsingStatus_Error; } } #endif // the next *non*whitespace token must be '{' or ',' or EOF if (!GetToken(PR_TRUE)) { // premature eof is ok (here!) return eSelectorParsingStatus_Done; } if ((mToken.IsSymbol('{') || mToken.IsSymbol(','))) { UngetToken(); return eSelectorParsingStatus_Done; } REPORT_UNEXPECTED_TOKEN(PEPseudoSelTrailing); UngetToken(); return eSelectorParsingStatus_Error; } else { // multiple pseudo elements, not legal REPORT_UNEXPECTED_TOKEN(PEPseudoSelMultiplePE); UngetToken(); return eSelectorParsingStatus_Error; } } #ifdef DEBUG else { // We should never end up here. Indeed, if we ended up here, we know (from // the current if/else cascade) that !isPseudoElement and !isAnonBox. But // then due to our earlier check we know that isPseudoClass. Since we // didn't fall into the isPseudoClass case in this cascade, we must have // parsingPseudoElement. But we've already checked the // parsingPseudoElement && !isPseudoClass && !isAnonBox case and bailed if // it's happened. NS_NOTREACHED("How did this happen?"); } #endif return eSelectorParsingStatus_Continue; } // // Parse the argument of a negation pseudo-class :not() // CSSParserImpl::nsSelectorParsingStatus CSSParserImpl::ParseNegatedSimpleSelector(PRInt32& aDataMask, nsCSSSelector& aSelector) { if (! GetToken(PR_TRUE)) { // premature eof REPORT_UNEXPECTED_EOF(PENegationEOF); return eSelectorParsingStatus_Error; } if (mToken.IsSymbol(')')) { REPORT_UNEXPECTED_TOKEN(PENegationBadArg); return eSelectorParsingStatus_Error; } // Create a new nsCSSSelector and add it to the end of // aSelector.mNegations. // Given the current parsing rules, every selector in mNegations // contains only one simple selector (css3 definition) within it. // This could easily change in future versions of CSS, and the only // thing we need to change to support that is this parsing code and the // serialization code for nsCSSSelector. nsCSSSelector *newSel = new nsCSSSelector(); if (!newSel) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return eSelectorParsingStatus_Error; } nsCSSSelector* negations = &aSelector; while (negations->mNegations) { negations = negations->mNegations; } negations->mNegations = newSel; nsSelectorParsingStatus parsingStatus; if (eCSSToken_ID == mToken.mType) { // #id parsingStatus = ParseIDSelector(aDataMask, *newSel); } else if (mToken.IsSymbol('.')) { // .class parsingStatus = ParseClassSelector(aDataMask, *newSel); } else if (mToken.IsSymbol(':')) { // :pseudo parsingStatus = ParsePseudoSelector(aDataMask, *newSel, PR_TRUE, nsnull, nsnull, nsnull); } else if (mToken.IsSymbol('[')) { // [attribute parsingStatus = ParseAttributeSelector(aDataMask, *newSel); } else { // then it should be a type element or universal selector parsingStatus = ParseTypeOrUniversalSelector(aDataMask, *newSel, PR_TRUE); } if (eSelectorParsingStatus_Error == parsingStatus) { REPORT_UNEXPECTED_TOKEN(PENegationBadInner); return parsingStatus; } // close the parenthesis if (!ExpectSymbol(')', PR_TRUE)) { REPORT_UNEXPECTED_TOKEN(PENegationNoClose); return eSelectorParsingStatus_Error; } NS_ASSERTION(newSel->mNameSpace == kNameSpaceID_Unknown || (!newSel->mIDList && !newSel->mClassList && !newSel->mPseudoClassList && !newSel->mAttrList), "Need to fix the serialization code to deal with this"); return eSelectorParsingStatus_Continue; } // // Parse the argument of a pseudo-class that has an ident arg // CSSParserImpl::nsSelectorParsingStatus CSSParserImpl::ParsePseudoClassWithIdentArg(nsCSSSelector& aSelector, nsIAtom* aPseudo, nsCSSPseudoClasses::Type aType) { if (! GetToken(PR_TRUE)) { // premature eof REPORT_UNEXPECTED_EOF(PEPseudoClassArgEOF); return eSelectorParsingStatus_Error; } // We expect an identifier with a language abbreviation if (eCSSToken_Ident != mToken.mType) { REPORT_UNEXPECTED_TOKEN(PEPseudoClassArgNotIdent); UngetToken(); return eSelectorParsingStatus_Error; // our caller calls SkipUntil(')') } // -moz-locale-dir can only have values of 'ltr' or 'rtl'. if (aPseudo == nsCSSPseudoClasses::mozLocaleDir) { if (!mToken.mIdent.EqualsLiteral("ltr") && !mToken.mIdent.EqualsLiteral("rtl")) { return eSelectorParsingStatus_Error; // our caller calls SkipUntil(')') } } // Add the pseudo with the language parameter aSelector.AddPseudoClass(aPseudo, aType, mToken.mIdent.get()); // close the parenthesis if (!ExpectSymbol(')', PR_TRUE)) { REPORT_UNEXPECTED_TOKEN(PEPseudoClassNoClose); return eSelectorParsingStatus_Error; // our caller calls SkipUntil(')') } return eSelectorParsingStatus_Continue; } CSSParserImpl::nsSelectorParsingStatus CSSParserImpl::ParsePseudoClassWithNthPairArg(nsCSSSelector& aSelector, nsIAtom* aPseudo, nsCSSPseudoClasses::Type aType) { PRInt32 numbers[2] = { 0, 0 }; PRBool lookForB = PR_TRUE; // Follow the whitespace rules as proposed in // http://lists.w3.org/Archives/Public/www-style/2008Mar/0121.html if (! GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEPseudoClassArgEOF); return eSelectorParsingStatus_Error; } if (eCSSToken_Ident == mToken.mType || eCSSToken_Dimension == mToken.mType) { // The CSS tokenization doesn't handle :nth-child() containing - well: // 2n-1 is a dimension // n-1 is an identifier // The easiest way to deal with that is to push everything from the // minus on back onto the scanner's pushback buffer. PRUint32 truncAt = 0; if (StringBeginsWith(mToken.mIdent, NS_LITERAL_STRING("n-"))) { truncAt = 1; } else if (StringBeginsWith(mToken.mIdent, NS_LITERAL_STRING("-n-"))) { truncAt = 2; } if (truncAt != 0) { for (PRUint32 i = mToken.mIdent.Length() - 1; i >= truncAt; --i) { mScanner.Pushback(mToken.mIdent[i]); } mToken.mIdent.Truncate(truncAt); } } if (eCSSToken_Ident == mToken.mType) { if (mToken.mIdent.EqualsIgnoreCase("odd")) { numbers[0] = 2; numbers[1] = 1; lookForB = PR_FALSE; } else if (mToken.mIdent.EqualsIgnoreCase("even")) { numbers[0] = 2; numbers[1] = 0; lookForB = PR_FALSE; } else if (mToken.mIdent.EqualsIgnoreCase("n")) { numbers[0] = 1; } else if (mToken.mIdent.EqualsIgnoreCase("-n")) { numbers[0] = -1; } else { REPORT_UNEXPECTED_TOKEN(PEPseudoClassArgNotNth); return eSelectorParsingStatus_Error; // our caller calls SkipUntil(')') } } else if (eCSSToken_Number == mToken.mType) { if (!mToken.mIntegerValid) { REPORT_UNEXPECTED_TOKEN(PEPseudoClassArgNotNth); return eSelectorParsingStatus_Error; // our caller calls SkipUntil(')') } numbers[1] = mToken.mInteger; lookForB = PR_FALSE; } else if (eCSSToken_Dimension == mToken.mType) { if (!mToken.mIntegerValid || !mToken.mIdent.EqualsIgnoreCase("n")) { REPORT_UNEXPECTED_TOKEN(PEPseudoClassArgNotNth); return eSelectorParsingStatus_Error; // our caller calls SkipUntil(')') } numbers[0] = mToken.mInteger; } // XXX If it's a ')', is that valid? (as 0n+0) else { REPORT_UNEXPECTED_TOKEN(PEPseudoClassArgNotNth); UngetToken(); return eSelectorParsingStatus_Error; // our caller calls SkipUntil(')') } if (! GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEPseudoClassArgEOF); return eSelectorParsingStatus_Error; } if (lookForB && !mToken.IsSymbol(')')) { // The '+' or '-' sign can optionally be separated by whitespace. // If it is separated by whitespace from what follows it, it appears // as a separate token rather than part of the number token. PRBool haveSign = PR_FALSE; PRInt32 sign = 1; if (mToken.IsSymbol('+') || mToken.IsSymbol('-')) { haveSign = PR_TRUE; if (mToken.IsSymbol('-')) { sign = -1; } if (! GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEPseudoClassArgEOF); return eSelectorParsingStatus_Error; } } if (eCSSToken_Number != mToken.mType || !mToken.mIntegerValid || mToken.mHasSign == haveSign) { REPORT_UNEXPECTED_TOKEN(PEPseudoClassArgNotNth); return eSelectorParsingStatus_Error; // our caller calls SkipUntil(')') } numbers[1] = mToken.mInteger * sign; if (! GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEPseudoClassArgEOF); return eSelectorParsingStatus_Error; } } if (!mToken.IsSymbol(')')) { REPORT_UNEXPECTED_TOKEN(PEPseudoClassNoClose); return eSelectorParsingStatus_Error; // our caller calls SkipUntil(')') } aSelector.AddPseudoClass(aPseudo, aType, numbers); return eSelectorParsingStatus_Continue; } // // Parse the argument of a pseudo-class that has a selector list argument. // Such selector lists cannot contain combinators, but can contain // anything that goes between a pair of combinators. // CSSParserImpl::nsSelectorParsingStatus CSSParserImpl::ParsePseudoClassWithSelectorListArg(nsCSSSelector& aSelector, nsIAtom* aPseudo, nsCSSPseudoClasses::Type aType) { nsAutoPtr slist; if (! ParseSelectorList(*getter_Transfers(slist), PRUnichar(')'))) { return eSelectorParsingStatus_Error; // our caller calls SkipUntil(')') } // Check that none of the selectors in the list have combinators or // pseudo-elements. for (nsCSSSelectorList *l = slist; l; l = l->mNext) { nsCSSSelector *s = l->mSelectors; if (s->mNext || s->IsPseudoElement()) { return eSelectorParsingStatus_Error; // our caller calls SkipUntil(')') } } // Add the pseudo with the selector list parameter aSelector.AddPseudoClass(aPseudo, aType, slist.forget()); // close the parenthesis if (!ExpectSymbol(')', PR_TRUE)) { REPORT_UNEXPECTED_TOKEN(PEPseudoClassNoClose); return eSelectorParsingStatus_Error; // our caller calls SkipUntil(')') } return eSelectorParsingStatus_Continue; } /** * This is the format for selectors: * operator? [[namespace |]? element_name]? [ ID | class | attrib | pseudo ]* */ PRBool CSSParserImpl::ParseSelector(nsCSSSelectorList* aList, PRUnichar aPrevCombinator) { if (! GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PESelectorEOF); return PR_FALSE; } nsCSSSelector* selector = aList->AddSelector(aPrevCombinator); nsCOMPtr pseudoElement; nsAutoPtr pseudoElementArgs; nsCSSPseudoElements::Type pseudoElementType = nsCSSPseudoElements::ePseudo_NotPseudoElement; PRInt32 dataMask = 0; nsSelectorParsingStatus parsingStatus = ParseTypeOrUniversalSelector(dataMask, *selector, PR_FALSE); while (parsingStatus == eSelectorParsingStatus_Continue) { if (eCSSToken_ID == mToken.mType) { // #id parsingStatus = ParseIDSelector(dataMask, *selector); } else if (mToken.IsSymbol('.')) { // .class parsingStatus = ParseClassSelector(dataMask, *selector); } else if (mToken.IsSymbol(':')) { // :pseudo parsingStatus = ParsePseudoSelector(dataMask, *selector, PR_FALSE, getter_AddRefs(pseudoElement), getter_Transfers(pseudoElementArgs), &pseudoElementType); } else if (mToken.IsSymbol('[')) { // [attribute parsingStatus = ParseAttributeSelector(dataMask, *selector); } else { // not a selector token, we're done parsingStatus = eSelectorParsingStatus_Done; UngetToken(); break; } if (parsingStatus != eSelectorParsingStatus_Continue) { break; } if (! GetToken(PR_FALSE)) { // premature eof is ok (here!) parsingStatus = eSelectorParsingStatus_Done; break; } } if (parsingStatus == eSelectorParsingStatus_Error) { return PR_FALSE; } if (!dataMask) { if (selector->mNext) { REPORT_UNEXPECTED(PESelectorGroupExtraCombinator); } else { REPORT_UNEXPECTED(PESelectorGroupNoSelector); } return PR_FALSE; } if (pseudoElementType == nsCSSPseudoElements::ePseudo_AnonBox) { // We got an anonymous box pseudo-element; it must be the only // thing in this selector group. if (selector->mNext || !IsUniversalSelector(*selector)) { REPORT_UNEXPECTED(PEAnonBoxNotAlone); return PR_FALSE; } // Rewrite the current selector as this pseudo-element. // It does not contribute to selector weight. selector->mLowercaseTag.swap(pseudoElement); selector->mPseudoClassList = pseudoElementArgs.forget(); selector->SetPseudoType(pseudoElementType); return PR_TRUE; } aList->mWeight += selector->CalcWeight(); // Pseudo-elements other than anonymous boxes are represented as // direct children ('>' combinator) of the rest of the selector. if (pseudoElement) { selector = aList->AddSelector('>'); selector->mLowercaseTag.swap(pseudoElement); selector->mPseudoClassList = pseudoElementArgs.forget(); selector->SetPseudoType(pseudoElementType); } return PR_TRUE; } css::Declaration* CSSParserImpl::ParseDeclarationBlock(PRBool aCheckForBraces) { if (aCheckForBraces) { if (!ExpectSymbol('{', PR_TRUE)) { REPORT_UNEXPECTED_TOKEN(PEBadDeclBlockStart); OUTPUT_ERROR(); return nsnull; } } css::Declaration* declaration = new css::Declaration(); mData.AssertInitialState(); if (declaration) { for (;;) { PRBool changed; if (!ParseDeclaration(declaration, aCheckForBraces, PR_TRUE, &changed)) { if (!SkipDeclaration(aCheckForBraces)) { break; } if (aCheckForBraces) { if (ExpectSymbol('}', PR_TRUE)) { break; } } // Since the skipped declaration didn't end the block we parse // the next declaration. } } declaration->CompressFrom(&mData); } return declaration; } // The types to pass to ParseColorComponent. These correspond to the // various datatypes that can go within rgb(). #define COLOR_TYPE_UNKNOWN 0 #define COLOR_TYPE_INTEGERS 1 #define COLOR_TYPE_PERCENTAGES 2 PRBool CSSParserImpl::ParseColor(nsCSSValue& aValue) { if (!GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEColorEOF); return PR_FALSE; } nsCSSToken* tk = &mToken; nscolor rgba; switch (tk->mType) { case eCSSToken_ID: case eCSSToken_Ref: // #xxyyzz if (NS_HexToRGB(tk->mIdent, &rgba)) { aValue.SetColorValue(rgba); return PR_TRUE; } break; case eCSSToken_Ident: if (NS_ColorNameToRGB(tk->mIdent, &rgba)) { aValue.SetStringValue(tk->mIdent, eCSSUnit_Ident); return PR_TRUE; } else { nsCSSKeyword keyword = nsCSSKeywords::LookupKeyword(tk->mIdent); if (eCSSKeyword_UNKNOWN < keyword) { // known keyword PRInt32 value; if (nsCSSProps::FindKeyword(keyword, nsCSSProps::kColorKTable, value)) { aValue.SetIntValue(value, eCSSUnit_EnumColor); return PR_TRUE; } } } break; case eCSSToken_Function: if (mToken.mIdent.LowerCaseEqualsLiteral("rgb")) { // rgb ( component , component , component ) PRUint8 r, g, b; PRInt32 type = COLOR_TYPE_UNKNOWN; if (ParseColorComponent(r, type, ',') && ParseColorComponent(g, type, ',') && ParseColorComponent(b, type, ')')) { aValue.SetColorValue(NS_RGB(r,g,b)); return PR_TRUE; } return PR_FALSE; // already pushed back } else if (mToken.mIdent.LowerCaseEqualsLiteral("-moz-rgba") || mToken.mIdent.LowerCaseEqualsLiteral("rgba")) { // rgba ( component , component , component , opacity ) PRUint8 r, g, b, a; PRInt32 type = COLOR_TYPE_UNKNOWN; if (ParseColorComponent(r, type, ',') && ParseColorComponent(g, type, ',') && ParseColorComponent(b, type, ',') && ParseColorOpacity(a)) { aValue.SetColorValue(NS_RGBA(r, g, b, a)); return PR_TRUE; } return PR_FALSE; // already pushed back } else if (mToken.mIdent.LowerCaseEqualsLiteral("hsl")) { // hsl ( hue , saturation , lightness ) // "hue" is a number, "saturation" and "lightness" are percentages. if (ParseHSLColor(rgba, ')')) { aValue.SetColorValue(rgba); return PR_TRUE; } return PR_FALSE; } else if (mToken.mIdent.LowerCaseEqualsLiteral("-moz-hsla") || mToken.mIdent.LowerCaseEqualsLiteral("hsla")) { // hsla ( hue , saturation , lightness , opacity ) // "hue" is a number, "saturation" and "lightness" are percentages, // "opacity" is a number. PRUint8 a; if (ParseHSLColor(rgba, ',') && ParseColorOpacity(a)) { aValue.SetColorValue(NS_RGBA(NS_GET_R(rgba), NS_GET_G(rgba), NS_GET_B(rgba), a)); return PR_TRUE; } return PR_FALSE; } break; default: break; } // try 'xxyyzz' without '#' prefix for compatibility with IE and Nav4x (bug 23236 and 45804) if (mNavQuirkMode && !IsParsingCompoundProperty()) { // - If the string starts with 'a-f', the nsCSSScanner builds the // token as a eCSSToken_Ident and we can parse the string as a // 'xxyyzz' RGB color. // - If it only contains '0-9' digits, the token is a // eCSSToken_Number and it must be converted back to a 6 // characters string to be parsed as a RGB color. // - If it starts with '0-9' and contains any 'a-f', the token is a // eCSSToken_Dimension, the mNumber part must be converted back to // a string and the mIdent part must be appended to that string so // that the resulting string has 6 characters. // Note: This is a hack for Nav compatibility. Do not attempt to // simplify it by hacking into the ncCSSScanner. This would be very // bad. nsAutoString str; char buffer[20]; switch (tk->mType) { case eCSSToken_Ident: str.Assign(tk->mIdent); break; case eCSSToken_Number: if (tk->mIntegerValid) { PR_snprintf(buffer, sizeof(buffer), "%06d", tk->mInteger); str.AssignWithConversion(buffer); } break; case eCSSToken_Dimension: if (tk->mIdent.Length() <= 6) { PR_snprintf(buffer, sizeof(buffer), "%06.0f", tk->mNumber); nsAutoString temp; temp.AssignWithConversion(buffer); temp.Right(str, 6 - tk->mIdent.Length()); str.Append(tk->mIdent); } break; default: // There is a whole bunch of cases that are // not handled by this switch. Ignore them. break; } if (NS_HexToRGB(str, &rgba)) { aValue.SetColorValue(rgba); return PR_TRUE; } } // It's not a color REPORT_UNEXPECTED_TOKEN(PEColorNotColor); UngetToken(); return PR_FALSE; } // aType will be set if we have already parsed other color components // in this color spec PRBool CSSParserImpl::ParseColorComponent(PRUint8& aComponent, PRInt32& aType, char aStop) { if (!GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEColorComponentEOF); return PR_FALSE; } float value; nsCSSToken* tk = &mToken; switch (tk->mType) { case eCSSToken_Number: switch (aType) { case COLOR_TYPE_UNKNOWN: aType = COLOR_TYPE_INTEGERS; break; case COLOR_TYPE_INTEGERS: break; case COLOR_TYPE_PERCENTAGES: REPORT_UNEXPECTED_TOKEN(PEExpectedPercent); UngetToken(); return PR_FALSE; default: NS_NOTREACHED("Someone forgot to add the new color component type in here"); } if (!mToken.mIntegerValid) { REPORT_UNEXPECTED_TOKEN(PEExpectedInt); UngetToken(); return PR_FALSE; } value = tk->mNumber; break; case eCSSToken_Percentage: switch (aType) { case COLOR_TYPE_UNKNOWN: aType = COLOR_TYPE_PERCENTAGES; break; case COLOR_TYPE_INTEGERS: REPORT_UNEXPECTED_TOKEN(PEExpectedInt); UngetToken(); return PR_FALSE; case COLOR_TYPE_PERCENTAGES: break; default: NS_NOTREACHED("Someone forgot to add the new color component type in here"); } value = tk->mNumber * 255.0f; break; default: REPORT_UNEXPECTED_TOKEN(PEColorBadRGBContents); UngetToken(); return PR_FALSE; } if (ExpectSymbol(aStop, PR_TRUE)) { if (value < 0.0f) value = 0.0f; if (value > 255.0f) value = 255.0f; aComponent = NSToIntRound(value); return PR_TRUE; } const PRUnichar stopString[] = { PRUnichar(aStop), PRUnichar(0) }; const PRUnichar *params[] = { nsnull, stopString }; REPORT_UNEXPECTED_TOKEN_P(PEColorComponentBadTerm, params); return PR_FALSE; } PRBool CSSParserImpl::ParseHSLColor(nscolor& aColor, char aStop) { float h, s, l; // Get the hue if (!GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEColorHueEOF); return PR_FALSE; } if (mToken.mType != eCSSToken_Number) { REPORT_UNEXPECTED_TOKEN(PEExpectedNumber); UngetToken(); return PR_FALSE; } h = mToken.mNumber; h /= 360.0f; // hue values are wraparound h = h - floor(h); if (!ExpectSymbol(',', PR_TRUE)) { REPORT_UNEXPECTED_TOKEN(PEExpectedComma); return PR_FALSE; } // Get the saturation if (!GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEColorSaturationEOF); return PR_FALSE; } if (mToken.mType != eCSSToken_Percentage) { REPORT_UNEXPECTED_TOKEN(PEExpectedPercent); UngetToken(); return PR_FALSE; } s = mToken.mNumber; if (s < 0.0f) s = 0.0f; if (s > 1.0f) s = 1.0f; if (!ExpectSymbol(',', PR_TRUE)) { REPORT_UNEXPECTED_TOKEN(PEExpectedComma); return PR_FALSE; } // Get the lightness if (!GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEColorLightnessEOF); return PR_FALSE; } if (mToken.mType != eCSSToken_Percentage) { REPORT_UNEXPECTED_TOKEN(PEExpectedPercent); UngetToken(); return PR_FALSE; } l = mToken.mNumber; if (l < 0.0f) l = 0.0f; if (l > 1.0f) l = 1.0f; if (ExpectSymbol(aStop, PR_TRUE)) { aColor = NS_HSL2RGB(h, s, l); return PR_TRUE; } const PRUnichar stopString[] = { PRUnichar(aStop), PRUnichar(0) }; const PRUnichar *params[] = { nsnull, stopString }; REPORT_UNEXPECTED_TOKEN_P(PEColorComponentBadTerm, params); return PR_FALSE; } PRBool CSSParserImpl::ParseColorOpacity(PRUint8& aOpacity) { if (!GetToken(PR_TRUE)) { REPORT_UNEXPECTED_EOF(PEColorOpacityEOF); return PR_FALSE; } if (mToken.mType != eCSSToken_Number) { REPORT_UNEXPECTED_TOKEN(PEExpectedNumber); UngetToken(); return PR_FALSE; } if (mToken.mNumber < 0.0f) { mToken.mNumber = 0.0f; } else if (mToken.mNumber > 1.0f) { mToken.mNumber = 1.0f; } PRUint8 value = nsStyleUtil::FloatToColorComponent(mToken.mNumber); // Need to compare to something slightly larger // than 0.5 due to floating point inaccuracies. NS_ASSERTION(fabs(255.0f*mToken.mNumber - value) <= 0.51f, "FloatToColorComponent did something weird"); if (!ExpectSymbol(')', PR_TRUE)) { REPORT_UNEXPECTED_TOKEN(PEExpectedCloseParen); return PR_FALSE; } aOpacity = value; return PR_TRUE; } #ifdef MOZ_XUL PRBool CSSParserImpl::ParseTreePseudoElement(nsPseudoClassList **aPseudoElementArgs) { // The argument to a tree pseudo-element is a sequence of identifiers // that are either space- or comma-separated. (Was the intent to // allow only comma-separated? That's not what was done.) nsCSSSelector fakeSelector; // so we can reuse AddPseudoClass while (!ExpectSymbol(')', PR_TRUE)) { if (!GetToken(PR_TRUE)) { return PR_FALSE; } if (eCSSToken_Ident == mToken.mType) { nsCOMPtr pseudo = do_GetAtom(mToken.mIdent); fakeSelector.AddPseudoClass(pseudo, nsCSSPseudoClasses::ePseudoClass_NotPseudoClass); } else if (!mToken.IsSymbol(',')) { UngetToken(); SkipUntil(')'); return PR_FALSE; } } *aPseudoElementArgs = fakeSelector.mPseudoClassList; fakeSelector.mPseudoClassList = nsnull; return PR_TRUE; } #endif //---------------------------------------------------------------------- PRBool CSSParserImpl::ParseDeclaration(css::Declaration* aDeclaration, PRBool aCheckForBraces, PRBool aMustCallValueAppended, PRBool* aChanged) { mTempData.AssertInitialState(); // Get property name nsCSSToken* tk = &mToken; nsAutoString propertyName; for (;;) { if (!GetToken(PR_TRUE)) { if (aCheckForBraces) { REPORT_UNEXPECTED_EOF(PEDeclEndEOF); } return PR_FALSE; } if (eCSSToken_Ident == tk->mType) { propertyName = tk->mIdent; // grab the ident before the ExpectSymbol trashes the token if (!ExpectSymbol(':', PR_TRUE)) { REPORT_UNEXPECTED_TOKEN(PEParseDeclarationNoColon); REPORT_UNEXPECTED(PEDeclDropped); OUTPUT_ERROR(); return PR_FALSE; } break; } if (tk->IsSymbol(';')) { // dangling semicolons are skipped continue; } if (!tk->IsSymbol('}')) { REPORT_UNEXPECTED_TOKEN(PEParseDeclarationDeclExpected); REPORT_UNEXPECTED(PEDeclSkipped); OUTPUT_ERROR(); } // Not a declaration... UngetToken(); return PR_FALSE; } // Map property name to its ID and then parse the property nsCSSProperty propID = nsCSSProps::LookupProperty(propertyName); if (eCSSProperty_UNKNOWN == propID) { // unknown property if (!NonMozillaVendorIdentifier(propertyName)) { const PRUnichar *params[] = { propertyName.get() }; REPORT_UNEXPECTED_P(PEUnknownProperty, params); REPORT_UNEXPECTED(PEDeclDropped); OUTPUT_ERROR(); } return PR_FALSE; } if (! ParseProperty(propID)) { // XXX Much better to put stuff in the value parsers instead... const PRUnichar *params[] = { propertyName.get() }; REPORT_UNEXPECTED_P(PEValueParsingError, params); REPORT_UNEXPECTED(PEDeclDropped); OUTPUT_ERROR(); ClearTempData(propID); return PR_FALSE; } CLEAR_ERROR(); // See if the declaration is followed by a "!important" declaration PRBool isImportant = PR_FALSE; if (!GetToken(PR_TRUE)) { // EOF is a perfectly good way to end a declaration and declaration block TransferTempData(aDeclaration, propID, isImportant, PR_FALSE, aMustCallValueAppended, aChanged); return PR_TRUE; } if (eCSSToken_Symbol == tk->mType && '!' == tk->mSymbol) { // Look for important ident if (!GetToken(PR_TRUE)) { // Premature eof is not ok REPORT_UNEXPECTED_EOF(PEImportantEOF); ClearTempData(propID); return PR_FALSE; } if ((eCSSToken_Ident != tk->mType) || !tk->mIdent.LowerCaseEqualsLiteral("important")) { REPORT_UNEXPECTED_TOKEN(PEExpectedImportant); OUTPUT_ERROR(); UngetToken(); ClearTempData(propID); return PR_FALSE; } isImportant = PR_TRUE; } else { // Not a !important declaration UngetToken(); } // Make sure valid property declaration is terminated with either a // semicolon, EOF or a right-curly-brace (this last only when // aCheckForBraces is true). if (!GetToken(PR_TRUE)) { // EOF is a perfectly good way to end a declaration and declaration block TransferTempData(aDeclaration, propID, isImportant, PR_FALSE, aMustCallValueAppended, aChanged); return PR_TRUE; } if (eCSSToken_Symbol == tk->mType) { if (';' == tk->mSymbol) { TransferTempData(aDeclaration, propID, isImportant, PR_FALSE, aMustCallValueAppended, aChanged); return PR_TRUE; } if (aCheckForBraces && '}' == tk->mSymbol) { // Unget the '}' so we'll be able to tell that this is the end // of the declaration block when we unwind from here. UngetToken(); TransferTempData(aDeclaration, propID, isImportant, PR_FALSE, aMustCallValueAppended, aChanged); return PR_TRUE; } } if (aCheckForBraces) REPORT_UNEXPECTED_TOKEN(PEBadDeclOrRuleEnd2); else REPORT_UNEXPECTED_TOKEN(PEBadDeclEnd); REPORT_UNEXPECTED(PEDeclDropped); OUTPUT_ERROR(); ClearTempData(propID); return PR_FALSE; } void CSSParserImpl::ClearTempData(nsCSSProperty aPropID) { if (nsCSSProps::IsShorthand(aPropID)) { CSSPROPS_FOR_SHORTHAND_SUBPROPERTIES(p, aPropID) { mTempData.ClearProperty(*p); } } else { mTempData.ClearProperty(aPropID); } mTempData.AssertInitialState(); } void CSSParserImpl::TransferTempData(css::Declaration* aDeclaration, nsCSSProperty aPropID, PRBool aIsImportant, PRBool aOverrideImportant, PRBool aMustCallValueAppended, PRBool* aChanged) { if (nsCSSProps::IsShorthand(aPropID)) { CSSPROPS_FOR_SHORTHAND_SUBPROPERTIES(p, aPropID) { DoTransferTempData(aDeclaration, *p, aIsImportant, aOverrideImportant, aMustCallValueAppended, aChanged); } } else { DoTransferTempData(aDeclaration, aPropID, aIsImportant, aOverrideImportant, aMustCallValueAppended, aChanged); } mTempData.AssertInitialState(); } // Perhaps the transferring code should be in nsCSSExpandedDataBlock, in // case some other caller wants to use it in the future (although I // can't think of why). void CSSParserImpl::DoTransferTempData(css::Declaration* aDeclaration, nsCSSProperty aPropID, PRBool aIsImportant, PRBool aOverrideImportant, PRBool aMustCallValueAppended, PRBool* aChanged) { NS_ASSERTION(mTempData.HasPropertyBit(aPropID), "oops"); if (aIsImportant) { if (!mData.HasImportantBit(aPropID)) *aChanged = PR_TRUE; mData.SetImportantBit(aPropID); } else { if (mData.HasImportantBit(aPropID)) { // When parsing a declaration block, an !important declaration // is not overwritten by an ordinary declaration of the same // property later in the block. However, CSSOM manipulations // come through here too, and in that case we do want to // overwrite the property. if (!aOverrideImportant) { mTempData.ClearProperty(aPropID); return; } *aChanged = PR_TRUE; mData.ClearImportantBit(aPropID); } } if (aMustCallValueAppended || !mData.HasPropertyBit(aPropID)) { aDeclaration->ValueAppended(aPropID); } mData.SetPropertyBit(aPropID); mTempData.ClearPropertyBit(aPropID); /* * Save needless copying and allocation by calling the destructor in * the destination, copying memory directly, and then using placement * new. */ void *v_source = mTempData.PropertyAt(aPropID); void *v_dest = mData.PropertyAt(aPropID); CopyValue(v_source, v_dest, aPropID, aChanged); } void CSSParserImpl::CopyValue(void *aSource, void *aDest, nsCSSProperty aPropID, PRBool* aChanged) { switch (nsCSSProps::kTypeTable[aPropID]) { case eCSSType_Value: { nsCSSValue *source = static_cast(aSource); nsCSSValue *dest = static_cast(aDest); if (*source != *dest) *aChanged = PR_TRUE; dest->~nsCSSValue(); memcpy(dest, source, sizeof(nsCSSValue)); new (source) nsCSSValue(); } break; case eCSSType_Rect: { nsCSSRect *source = static_cast(aSource); nsCSSRect *dest = static_cast(aDest); if (*source != *dest) *aChanged = PR_TRUE; dest->~nsCSSRect(); memcpy(dest, source, sizeof(nsCSSRect)); new (source) nsCSSRect(); } break; case eCSSType_ValuePair: { nsCSSValuePair *source = static_cast(aSource); nsCSSValuePair *dest = static_cast(aDest); if (*source != *dest) *aChanged = PR_TRUE; dest->~nsCSSValuePair(); memcpy(dest, source, sizeof(nsCSSValuePair)); new (source) nsCSSValuePair(); } break; case eCSSType_ValueList: { nsCSSValueList **source = static_cast(aSource); nsCSSValueList **dest = static_cast(aDest); if (!nsCSSValueList::Equal(*source, *dest)) *aChanged = PR_TRUE; delete *dest; *dest = *source; *source = nsnull; } break; case eCSSType_ValuePairList: { nsCSSValuePairList **source = static_cast(aSource); nsCSSValuePairList **dest = static_cast(aDest); if (!nsCSSValuePairList::Equal(*source, *dest)) *aChanged = PR_TRUE; delete *dest; *dest = *source; *source = nsnull; } break; } } static const nsCSSProperty kBorderTopIDs[] = { eCSSProperty_border_top_width, eCSSProperty_border_top_style, eCSSProperty_border_top_color }; static const nsCSSProperty kBorderRightIDs[] = { eCSSProperty_border_right_width_value, eCSSProperty_border_right_style_value, eCSSProperty_border_right_color_value, eCSSProperty_border_right_width, eCSSProperty_border_right_style, eCSSProperty_border_right_color }; static const nsCSSProperty kBorderBottomIDs[] = { eCSSProperty_border_bottom_width, eCSSProperty_border_bottom_style, eCSSProperty_border_bottom_color }; static const nsCSSProperty kBorderLeftIDs[] = { eCSSProperty_border_left_width_value, eCSSProperty_border_left_style_value, eCSSProperty_border_left_color_value, eCSSProperty_border_left_width, eCSSProperty_border_left_style, eCSSProperty_border_left_color }; static const nsCSSProperty kBorderStartIDs[] = { eCSSProperty_border_start_width_value, eCSSProperty_border_start_style_value, eCSSProperty_border_start_color_value, eCSSProperty_border_start_width, eCSSProperty_border_start_style, eCSSProperty_border_start_color }; static const nsCSSProperty kBorderEndIDs[] = { eCSSProperty_border_end_width_value, eCSSProperty_border_end_style_value, eCSSProperty_border_end_color_value, eCSSProperty_border_end_width, eCSSProperty_border_end_style, eCSSProperty_border_end_color }; static const nsCSSProperty kColumnRuleIDs[] = { eCSSProperty__moz_column_rule_width, eCSSProperty__moz_column_rule_style, eCSSProperty__moz_column_rule_color }; PRBool CSSParserImpl::ParseEnum(nsCSSValue& aValue, const PRInt32 aKeywordTable[]) { nsSubstring* ident = NextIdent(); if (nsnull == ident) { return PR_FALSE; } nsCSSKeyword keyword = nsCSSKeywords::LookupKeyword(*ident); if (eCSSKeyword_UNKNOWN < keyword) { PRInt32 value; if (nsCSSProps::FindKeyword(keyword, aKeywordTable, value)) { aValue.SetIntValue(value, eCSSUnit_Enumerated); return PR_TRUE; } } // Put the unknown identifier back and return UngetToken(); return PR_FALSE; } struct UnitInfo { char name[5]; // needs to be long enough for the longest unit, with // terminating null. PRUint32 length; nsCSSUnit unit; PRInt32 type; }; #define STR_WITH_LEN(_str) \ _str, sizeof(_str) - 1 const UnitInfo UnitData[] = { { STR_WITH_LEN("px"), eCSSUnit_Pixel, VARIANT_LENGTH }, { STR_WITH_LEN("em"), eCSSUnit_EM, VARIANT_LENGTH }, { STR_WITH_LEN("ex"), eCSSUnit_XHeight, VARIANT_LENGTH }, { STR_WITH_LEN("pt"), eCSSUnit_Point, VARIANT_LENGTH }, { STR_WITH_LEN("in"), eCSSUnit_Inch, VARIANT_LENGTH }, { STR_WITH_LEN("cm"), eCSSUnit_Centimeter, VARIANT_LENGTH }, { STR_WITH_LEN("ch"), eCSSUnit_Char, VARIANT_LENGTH }, { STR_WITH_LEN("rem"), eCSSUnit_RootEM, VARIANT_LENGTH }, { STR_WITH_LEN("mm"), eCSSUnit_Millimeter, VARIANT_LENGTH }, { STR_WITH_LEN("pc"), eCSSUnit_Pica, VARIANT_LENGTH }, { STR_WITH_LEN("deg"), eCSSUnit_Degree, VARIANT_ANGLE }, { STR_WITH_LEN("grad"), eCSSUnit_Grad, VARIANT_ANGLE }, { STR_WITH_LEN("rad"), eCSSUnit_Radian, VARIANT_ANGLE }, { STR_WITH_LEN("hz"), eCSSUnit_Hertz, VARIANT_FREQUENCY }, { STR_WITH_LEN("khz"), eCSSUnit_Kilohertz, VARIANT_FREQUENCY }, { STR_WITH_LEN("s"), eCSSUnit_Seconds, VARIANT_TIME }, { STR_WITH_LEN("ms"), eCSSUnit_Milliseconds, VARIANT_TIME } }; #undef STR_WITH_LEN PRBool CSSParserImpl::TranslateDimension(nsCSSValue& aValue, PRInt32 aVariantMask, float aNumber, const nsString& aUnit) { nsCSSUnit units; PRInt32 type = 0; if (!aUnit.IsEmpty()) { PRUint32 i; for (i = 0; i < NS_ARRAY_LENGTH(UnitData); ++i) { if (aUnit.LowerCaseEqualsASCII(UnitData[i].name, UnitData[i].length)) { units = UnitData[i].unit; type = UnitData[i].type; break; } } if (i == NS_ARRAY_LENGTH(UnitData)) { // 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) { NS_ASSERTION(aVariantMask & VARIANT_ZERO_ANGLE, "must have allowed zero angle"); units = eCSSUnit_Degree; type = VARIANT_ANGLE; } else { NS_ERROR("Variant mask does not include dimension; why were we called?"); return PR_FALSE; } } if ((type & aVariantMask) != 0) { aValue.SetFloatValue(aNumber, units); return PR_TRUE; } return PR_FALSE; } // Note that this does include VARIANT_CALC, which is numeric. This is // because calc() parsing, as proposed, drops range restrictions inside // the calc() expression and clamps the result of the calculation to the // range. #define VARIANT_ALL_NONNUMERIC \ VARIANT_KEYWORD | \ VARIANT_COLOR | \ VARIANT_URL | \ VARIANT_STRING | \ VARIANT_COUNTER | \ VARIANT_ATTR | \ VARIANT_IDENTIFIER | \ VARIANT_AUTO | \ VARIANT_INHERIT | \ VARIANT_NONE | \ VARIANT_NORMAL | \ VARIANT_SYSFONT | \ VARIANT_GRADIENT | \ VARIANT_CUBIC_BEZIER | \ VARIANT_ALL | \ VARIANT_CALC | \ VARIANT_CALC_NO_MIN_MAX // Note that callers passing VARIANT_CALC in aVariantMask will get // full-range parsing inside the calc() expression, and the code that // computes the calc will be required to clamp the resulting value to an // appropriate range. PRBool CSSParserImpl::ParseNonNegativeVariant(nsCSSValue& aValue, PRInt32 aVariantMask, const PRInt32 aKeywordTable[]) { // The variant mask must only contain non-numeric variants or the ones // that we specifically handle. NS_ABORT_IF_FALSE((aVariantMask & ~(VARIANT_ALL_NONNUMERIC | VARIANT_NUMBER | VARIANT_LENGTH | VARIANT_PERCENT | VARIANT_INTEGER)) == 0, "need to update code below to handle additional variants"); if (ParseVariant(aValue, aVariantMask, aKeywordTable)) { if (eCSSUnit_Number == aValue.GetUnit() || aValue.IsLengthUnit()){ if (aValue.GetFloatValue() < 0) { UngetToken(); return PR_FALSE; } } else if (aValue.GetUnit() == eCSSUnit_Percent) { if (aValue.GetPercentValue() < 0) { UngetToken(); return PR_FALSE; } } else if (aValue.GetUnit() == eCSSUnit_Integer) { if (aValue.GetIntValue() < 0) { UngetToken(); return PR_FALSE; } } return PR_TRUE; } return PR_FALSE; } // Note that callers passing VARIANT_CALC in aVariantMask will get // full-range parsing inside the calc() expression, and the code that // computes the calc will be required to clamp the resulting value to an // appropriate range. PRBool CSSParserImpl::ParsePositiveNonZeroVariant(nsCSSValue& aValue, PRInt32 aVariantMask, const PRInt32 aKeywordTable[]) { // The variant mask must only contain non-numeric variants or the ones // that we specifically handle. NS_ABORT_IF_FALSE((aVariantMask & ~(VARIANT_ALL_NONNUMERIC | VARIANT_INTEGER)) == 0, "need to update code below to handle additional variants"); if (ParseVariant(aValue, aVariantMask, aKeywordTable)) { if (aValue.GetUnit() == eCSSUnit_Integer) { if (aValue.GetIntValue() <= 0) { UngetToken(); return PR_FALSE; } } return PR_TRUE; } return PR_FALSE; } // Assigns to aValue iff it returns PR_TRUE. PRBool CSSParserImpl::ParseVariant(nsCSSValue& aValue, PRInt32 aVariantMask, const PRInt32 aKeywordTable[]) { NS_ASSERTION(IsParsingCompoundProperty() || ((~aVariantMask) & (VARIANT_LENGTH|VARIANT_COLOR)), "cannot distinguish lengths and colors in quirks mode"); if (!GetToken(PR_TRUE)) { return PR_FALSE; } nsCSSToken* tk = &mToken; if (((aVariantMask & (VARIANT_AHK | VARIANT_NORMAL | VARIANT_NONE | VARIANT_ALL)) != 0) && (eCSSToken_Ident == tk->mType)) { nsCSSKeyword keyword = nsCSSKeywords::LookupKeyword(tk->mIdent); if (eCSSKeyword_UNKNOWN < keyword) { // known keyword if ((aVariantMask & VARIANT_AUTO) != 0) { if (eCSSKeyword_auto == keyword) { aValue.SetAutoValue(); return PR_TRUE; } } if ((aVariantMask & VARIANT_INHERIT) != 0) { // XXX Should we check IsParsingCompoundProperty, or do all // callers handle it? (Not all callers set it, though, since // they want the quirks that are disabled by setting it.) if (eCSSKeyword_inherit == keyword) { aValue.SetInheritValue(); return PR_TRUE; } else if (eCSSKeyword__moz_initial == keyword) { // anything that can inherit can also take an initial val. aValue.SetInitialValue(); return PR_TRUE; } } if ((aVariantMask & VARIANT_NONE) != 0) { if (eCSSKeyword_none == keyword) { aValue.SetNoneValue(); return PR_TRUE; } } if ((aVariantMask & VARIANT_ALL) != 0) { if (eCSSKeyword_all == keyword) { aValue.SetAllValue(); return PR_TRUE; } } if ((aVariantMask & VARIANT_NORMAL) != 0) { if (eCSSKeyword_normal == keyword) { aValue.SetNormalValue(); return PR_TRUE; } } if ((aVariantMask & VARIANT_SYSFONT) != 0) { if (eCSSKeyword__moz_use_system_font == keyword && !IsParsingCompoundProperty()) { aValue.SetSystemFontValue(); return PR_TRUE; } } if ((aVariantMask & VARIANT_KEYWORD) != 0) { PRInt32 value; if (nsCSSProps::FindKeyword(keyword, aKeywordTable, value)) { aValue.SetIntValue(value, eCSSUnit_Enumerated); return PR_TRUE; } } } } if (((aVariantMask & (VARIANT_LENGTH | VARIANT_ANGLE | VARIANT_FREQUENCY | VARIANT_TIME)) != 0 && eCSSToken_Dimension == tk->mType) || ((aVariantMask & (VARIANT_LENGTH | VARIANT_ZERO_ANGLE)) != 0 && eCSSToken_Number == tk->mType && tk->mNumber == 0.0f)) { if (TranslateDimension(aValue, aVariantMask, tk->mNumber, tk->mIdent)) { return PR_TRUE; } // Put the token back; we didn't parse it, so we shouldn't consume it UngetToken(); return PR_FALSE; } 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 (mNavQuirkMode && !IsParsingCompoundProperty()) { // 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; } } #ifdef MOZ_SVG if (IsSVGMode() && !IsParsingCompoundProperty()) { // STANDARD: SVG Spec states that lengths and coordinates can be unitless // in which case they default to user-units (1 px = 1 user unit) if (((aVariantMask & VARIANT_LENGTH) != 0) && (eCSSToken_Number == tk->mType)) { aValue.SetFloatValue(tk->mNumber, eCSSUnit_Pixel); return PR_TRUE; } } #endif if (((aVariantMask & VARIANT_URL) != 0) && (eCSSToken_Function == tk->mType) && tk->mIdent.LowerCaseEqualsLiteral("url")) { if (ParseURL(aValue)) { return PR_TRUE; } return PR_FALSE; } if ((aVariantMask & VARIANT_GRADIENT) != 0 && eCSSToken_Function == tk->mType) { // a generated gradient if (tk->mIdent.LowerCaseEqualsLiteral("-moz-linear-gradient")) return ParseGradient(aValue, PR_FALSE, PR_FALSE); if (tk->mIdent.LowerCaseEqualsLiteral("-moz-radial-gradient")) return ParseGradient(aValue, PR_TRUE, PR_FALSE); if (tk->mIdent.LowerCaseEqualsLiteral("-moz-repeating-linear-gradient")) return ParseGradient(aValue, PR_FALSE, PR_TRUE); if (tk->mIdent.LowerCaseEqualsLiteral("-moz-repeating-radial-gradient")) return ParseGradient(aValue, PR_TRUE, PR_TRUE); } if ((aVariantMask & VARIANT_IMAGE_RECT) != 0 && eCSSToken_Function == tk->mType && tk->mIdent.LowerCaseEqualsLiteral("-moz-image-rect")) { return ParseImageRect(aValue); } if ((aVariantMask & VARIANT_COLOR) != 0) { if ((mNavQuirkMode && !IsParsingCompoundProperty()) || // NONSTANDARD: Nav interprets 'xxyyzz' values even without '#' prefix (eCSSToken_ID == tk->mType) || (eCSSToken_Ref == tk->mType) || (eCSSToken_Ident == tk->mType) || ((eCSSToken_Function == tk->mType) && (tk->mIdent.LowerCaseEqualsLiteral("rgb") || tk->mIdent.LowerCaseEqualsLiteral("hsl") || tk->mIdent.LowerCaseEqualsLiteral("-moz-rgba") || tk->mIdent.LowerCaseEqualsLiteral("-moz-hsla") || tk->mIdent.LowerCaseEqualsLiteral("rgba") || tk->mIdent.LowerCaseEqualsLiteral("hsla")))) { // Put token back so that parse color can get it UngetToken(); if (ParseColor(aValue)) { return PR_TRUE; } return PR_FALSE; } } if (((aVariantMask & VARIANT_STRING) != 0) && (eCSSToken_String == tk->mType)) { nsAutoString buffer; buffer.Append(tk->mIdent); aValue.SetStringValue(buffer, eCSSUnit_String); return PR_TRUE; } if (((aVariantMask & VARIANT_IDENTIFIER) != 0) && (eCSSToken_Ident == tk->mType)) { aValue.SetStringValue(tk->mIdent, eCSSUnit_Ident); return PR_TRUE; } if (((aVariantMask & VARIANT_COUNTER) != 0) && (eCSSToken_Function == tk->mType) && (tk->mIdent.LowerCaseEqualsLiteral("counter") || tk->mIdent.LowerCaseEqualsLiteral("counters"))) { return ParseCounter(aValue); } if (((aVariantMask & VARIANT_ATTR) != 0) && (eCSSToken_Function == tk->mType) && tk->mIdent.LowerCaseEqualsLiteral("attr")) { return ParseAttr(aValue); } if (((aVariantMask & VARIANT_CUBIC_BEZIER) != 0) && (eCSSToken_Function == tk->mType)) { if (tk->mIdent.LowerCaseEqualsLiteral("cubic-bezier")) { return ParseTransitionTimingFunctionValues(aValue); } } if ((aVariantMask & VARIANT_CALC) && (eCSSToken_Function == tk->mType) && (tk->mIdent.LowerCaseEqualsLiteral("-moz-calc") || tk->mIdent.LowerCaseEqualsLiteral("-moz-min") || tk->mIdent.LowerCaseEqualsLiteral("-moz-max"))) { // calc() currently allows only lengths and percents inside it. return ParseCalc(aValue, aVariantMask & (VARIANT_LP | VARIANT_CALC_NO_MIN_MAX)); } UngetToken(); return PR_FALSE; } PRBool CSSParserImpl::ParseCounter(nsCSSValue& aValue) { nsCSSUnit unit = (mToken.mIdent.LowerCaseEqualsLiteral("counter") ? eCSSUnit_Counter : eCSSUnit_Counters); // A non-iterative for loop to break out when an error occurs. for (;;) { if (!GetToken(PR_TRUE)) { break; } if (eCSSToken_Ident != mToken.mType) { UngetToken(); break; } nsRefPtr val = nsCSSValue::Array::Create(unit == eCSSUnit_Counter ? 2 : 3); if (!val) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } val->Item(0).SetStringValue(mToken.mIdent, eCSSUnit_Ident); if (eCSSUnit_Counters == unit) { // must have a comma and then a separator string if (!ExpectSymbol(',', PR_TRUE) || !GetToken(PR_TRUE)) { break; } if (eCSSToken_String != mToken.mType) { UngetToken(); break; } val->Item(1).SetStringValue(mToken.mIdent, eCSSUnit_String); } // get optional type PRInt32 type = NS_STYLE_LIST_STYLE_DECIMAL; if (ExpectSymbol(',', PR_TRUE)) { if (!GetToken(PR_TRUE)) { break; } nsCSSKeyword keyword; if (eCSSToken_Ident != mToken.mType || (keyword = nsCSSKeywords::LookupKeyword(mToken.mIdent)) == eCSSKeyword_UNKNOWN || !nsCSSProps::FindKeyword(keyword, nsCSSProps::kListStyleKTable, type)) { UngetToken(); break; } } PRInt32 typeItem = eCSSUnit_Counters == unit ? 2 : 1; val->Item(typeItem).SetIntValue(type, eCSSUnit_Enumerated); if (!ExpectSymbol(')', PR_TRUE)) { break; } aValue.SetArrayValue(val, unit); return PR_TRUE; } SkipUntil(')'); return PR_FALSE; } PRBool CSSParserImpl::ParseAttr(nsCSSValue& aValue) { if (!GetToken(PR_TRUE)) { return PR_FALSE; } nsAutoString attr; if (eCSSToken_Ident == mToken.mType) { // attr name or namespace nsAutoString holdIdent(mToken.mIdent); if (ExpectSymbol('|', PR_FALSE)) { // namespace PRInt32 nameSpaceID = GetNamespaceIdForPrefix(holdIdent); if (nameSpaceID == kNameSpaceID_Unknown) { return PR_FALSE; } attr.AppendInt(nameSpaceID, 10); attr.Append(PRUnichar('|')); if (! GetToken(PR_FALSE)) { REPORT_UNEXPECTED_EOF(PEAttributeNameEOF); return PR_FALSE; } if (eCSSToken_Ident == mToken.mType) { attr.Append(mToken.mIdent); } else { REPORT_UNEXPECTED_TOKEN(PEAttributeNameExpected); UngetToken(); return PR_FALSE; } } else { // no namespace attr = holdIdent; } } else if (mToken.IsSymbol('*')) { // namespace wildcard // Wildcard namespace makes no sense here and is not allowed REPORT_UNEXPECTED_TOKEN(PEAttributeNameExpected); UngetToken(); return PR_FALSE; } else if (mToken.IsSymbol('|')) { // explicit NO namespace if (! GetToken(PR_FALSE)) { REPORT_UNEXPECTED_EOF(PEAttributeNameEOF); return PR_FALSE; } if (eCSSToken_Ident == mToken.mType) { attr.Append(mToken.mIdent); } else { REPORT_UNEXPECTED_TOKEN(PEAttributeNameExpected); UngetToken(); return PR_FALSE; } } else { REPORT_UNEXPECTED_TOKEN(PEAttributeNameOrNamespaceExpected); UngetToken(); return PR_FALSE; } if (!ExpectSymbol(')', PR_TRUE)) { return PR_FALSE; } aValue.SetStringValue(attr, eCSSUnit_Attr); return PR_TRUE; } PRBool CSSParserImpl::SetValueToURL(nsCSSValue& aValue, const nsString& aURL) { if (!mSheetPrincipal) { NS_NOTREACHED("Codepaths that expect to parse URLs MUST pass in an " "origin principal"); return PR_FALSE; } // Translate url into an absolute url if the url is relative to the // style sheet. nsCOMPtr uri; NS_NewURI(getter_AddRefs(uri), aURL, nsnull, mBaseURI); nsStringBuffer* buffer = nsCSSValue::BufferFromString(aURL); if (NS_UNLIKELY(!buffer)) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } nsCSSValue::URL *urlVal = new nsCSSValue::URL(uri, buffer, mSheetURI, mSheetPrincipal); buffer->Release(); if (NS_UNLIKELY(!urlVal)) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } aValue.SetURLValue(urlVal); return PR_TRUE; } PRBool CSSParserImpl::ParseURL(nsCSSValue& aValue) { nsAutoString url; if (!GetURLInParens(url)) return PR_FALSE; return SetValueToURL(aValue, url); } /** * Parse the arguments of -moz-image-rect() function. * -moz-image-rect(, , , , ) */ PRBool CSSParserImpl::ParseImageRect(nsCSSValue& aImage) { // A non-iterative for loop to break out when an error occurs. for (;;) { nsCSSValue newFunction; static const PRUint32 kNumArgs = 5; nsCSSValue::Array* func = newFunction.InitFunction(eCSSKeyword__moz_image_rect, kNumArgs); if (!func) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } // func->Item(0) is reserved for the function name. nsCSSValue& url = func->Item(1); nsCSSValue& top = func->Item(2); nsCSSValue& right = func->Item(3); nsCSSValue& bottom = func->Item(4); nsCSSValue& left = func->Item(5); if (!GetToken(PR_TRUE)) break; if (mToken.mType == eCSSToken_String) { if (!SetValueToURL(url, mToken.mIdent)) break; } else if (mToken.mType == eCSSToken_Function && mToken.mIdent.LowerCaseEqualsLiteral("url")) { if (!ParseURL(url)) break; } else { UngetToken(); break; } if (!ExpectSymbol(',', PR_TRUE)) break; static const PRInt32 VARIANT_SIDE = VARIANT_NUMBER | VARIANT_PERCENT; if (!ParseNonNegativeVariant(top, VARIANT_SIDE, nsnull) || !ExpectSymbol(',', PR_TRUE) || !ParseNonNegativeVariant(right, VARIANT_SIDE, nsnull) || !ExpectSymbol(',', PR_TRUE) || !ParseNonNegativeVariant(bottom, VARIANT_SIDE, nsnull) || !ExpectSymbol(',', PR_TRUE) || !ParseNonNegativeVariant(left, VARIANT_SIDE, nsnull) || !ExpectSymbol(')', PR_TRUE)) break; aImage = newFunction; return PR_TRUE; } // If we detect a syntax error, we must match the opening parenthesis of the // function with the closing parenthesis and skip all the tokens in between. SkipUntil(')'); return PR_FALSE; } // : [ | ]? PRBool CSSParserImpl::ParseColorStop(nsCSSValueGradient* aGradient) { nsCSSValueGradientStop* stop = aGradient->mStops.AppendElement(); if (!stop) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } if (!ParseVariant(stop->mColor, VARIANT_COLOR, nsnull)) { return PR_FALSE; } // Stop positions do not have to fall between the starting-point and // ending-point, so we don't use ParseNonNegativeVariant. if (!ParseVariant(stop->mLocation, VARIANT_LP, nsnull)) { stop->mLocation.SetNoneValue(); } return PR_TRUE; } // // : linear-gradient( ? ')' // : radial-gradient( ? ? // ')' // // : [ || ] , // // : [ || ] , // : circle | ellipse // : closest-side | closest-corner // | farthest-side | farthest-corner // | contain | cover // // : , [, ]* PRBool CSSParserImpl::ParseGradient(nsCSSValue& aValue, PRBool aIsRadial, PRBool aIsRepeating) { nsRefPtr cssGradient = new nsCSSValueGradient(aIsRadial, aIsRepeating); // // N.B. ParseBoxPositionValues is not guaranteed to put back // everything it scanned if it fails, so we must only call it // if there is no alternative to consuming a . // ParseVariant, as used here, will either succeed and consume // a single token, or fail and consume none, so we can be more // cavalier about calling it. if (!GetToken(PR_TRUE)) { return PR_FALSE; } nsCSSTokenType ty = mToken.mType; nsString id = mToken.mIdent; UngetToken(); PRBool haveGradientLine = PR_FALSE; switch (ty) { case eCSSToken_Percentage: case eCSSToken_Number: case eCSSToken_Dimension: haveGradientLine = PR_TRUE; break; case eCSSToken_Function: case eCSSToken_ID: case eCSSToken_Ref: // this is a color break; case eCSSToken_Ident: { // This is only a gradient line if it's a box position keyword. nsCSSKeyword kw = nsCSSKeywords::LookupKeyword(id); PRInt32 junk; if (kw != eCSSKeyword_UNKNOWN && nsCSSProps::FindKeyword(kw, nsCSSProps::kBackgroundPositionKTable, junk)) { haveGradientLine = PR_TRUE; } break; } default: // error SkipUntil(')'); return PR_FALSE; } if (haveGradientLine) { PRBool haveAngle = ParseVariant(cssGradient->mAngle, VARIANT_ANGLE, nsnull); // if we got an angle, we might now have a comma, ending the gradient-line if (!haveAngle || !ExpectSymbol(',', PR_TRUE)) { // This intermediate is necessary because nsCSSValueGradient cannot // contain a nsCSSValuePair (because the latter type is defined in // nsCSSStruct.h rather than nsCSSValue.h). nsCSSValuePair bgPos; if (ParseBoxPositionValues(bgPos, PR_FALSE)) { cssGradient->mBgPosX = bgPos.mXValue; cssGradient->mBgPosY = bgPos.mYValue; } else { SkipUntil(')'); return PR_FALSE; } if (!ExpectSymbol(',', PR_TRUE) && // if we didn't already get an angle, we might have one now, // otherwise it's an error (haveAngle || !ParseVariant(cssGradient->mAngle, VARIANT_ANGLE, nsnull) || // now we better have a comma !ExpectSymbol(',', PR_TRUE))) { SkipUntil(')'); return PR_FALSE; } } } // radial gradients might have a here if (aIsRadial) { PRBool haveShape = ParseVariant(cssGradient->mRadialShape, VARIANT_KEYWORD, nsCSSProps::kRadialGradientShapeKTable); PRBool haveSize = ParseVariant(cssGradient->mRadialSize, VARIANT_KEYWORD, nsCSSProps::kRadialGradientSizeKTable); // could be in either order if (!haveShape) { haveShape = ParseVariant(cssGradient->mRadialShape, VARIANT_KEYWORD, nsCSSProps::kRadialGradientShapeKTable); } if ((haveShape || haveSize) && !ExpectSymbol(',', PR_TRUE)) { SkipUntil(')'); return PR_FALSE; } } // At least two color stops are required if (!ParseColorStop(cssGradient) || !ExpectSymbol(',', PR_TRUE) || !ParseColorStop(cssGradient)) { SkipUntil(')'); return PR_FALSE; } // Additional color stops while (ExpectSymbol(',', PR_TRUE)) { if (!ParseColorStop(cssGradient)) { SkipUntil(')'); return PR_FALSE; } } if (!ExpectSymbol(')', PR_TRUE)) { SkipUntil(')'); return PR_FALSE; } aValue.SetGradientValue(cssGradient); return PR_TRUE; } PRInt32 CSSParserImpl::ParseChoice(nsCSSValue aValues[], const nsCSSProperty aPropIDs[], PRInt32 aNumIDs) { PRInt32 found = 0; nsAutoParseCompoundProperty compound(this); 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(aValues[index], aPropIDs[index])) { found |= bit; // It's more efficient to break since it will reset |hadFound| // to |found|. Furthermore, ParseListStyle depends on our going // through the properties in order for each value.. break; } } } 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 if (eCSSUnit_Initial == aValues[0].GetUnit()) { // one initial, all initial for (loop = 1; loop < aNumIDs; loop++) { aValues[loop].SetInitialValue(); } found = ((1 << aNumIDs) - 1); } } else { // more than one value, verify no inherits or initials for (loop = 0; loop < aNumIDs; loop++) { if (eCSSUnit_Inherit == aValues[loop].GetUnit()) { found = -1; break; } else if (eCSSUnit_Initial == aValues[loop].GetUnit()) { found = -1; break; } } } } return found; } void CSSParserImpl::AppendValue(nsCSSProperty aPropID, const nsCSSValue& aValue) { NS_ASSERTION(0 <= aPropID && aPropID < eCSSProperty_COUNT_no_shorthands, "property out of range"); NS_ASSERTION(nsCSSProps::kTypeTable[aPropID] == eCSSType_Value, nsPrintfCString(64, "type error (property=\'%s\')", nsCSSProps::GetStringValue(aPropID).get()).get()); nsCSSValue& storage = *static_cast(mTempData.PropertyAt(aPropID)); storage = aValue; mTempData.SetPropertyBit(aPropID); } /** * 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(nsCSSRect& aResult, const nsCSSProperty aPropIDs[]) { // Get up to four values for the property PRInt32 count = 0; nsCSSRect result; NS_FOR_CSS_SIDES (index) { if (! ParseSingleValueProperty(result.*(nsCSSRect::sides[index]), aPropIDs[index])) { break; } count++; } if ((count == 0) || (PR_FALSE == ExpectEndProperty())) { return PR_FALSE; } if (1 < count) { // verify no more than single inherit or initial NS_FOR_CSS_SIDES (index) { nsCSSUnit unit = (result.*(nsCSSRect::sides[index])).GetUnit(); if (eCSSUnit_Inherit == unit || eCSSUnit_Initial == unit) { return PR_FALSE; } } } // Provide missing values by replicating some of the values found switch (count) { case 1: // Make right == top result.mRight = result.mTop; case 2: // Make bottom == top result.mBottom = result.mTop; case 3: // Make left == right result.mLeft = result.mRight; } NS_FOR_CSS_SIDES (index) { mTempData.SetPropertyBit(aPropIDs[index]); } aResult = result; return PR_TRUE; } PRBool CSSParserImpl::ParseDirectionalBoxProperty(nsCSSProperty aProperty, PRInt32 aSourceType) { const nsCSSProperty* subprops = nsCSSProps::SubpropertyEntryFor(aProperty); NS_ASSERTION(subprops[3] == eCSSProperty_UNKNOWN, "not box property with physical vs. logical cascading"); nsCSSValue value; if (!ParseSingleValueProperty(value, subprops[0]) || !ExpectEndProperty()) return PR_FALSE; AppendValue(subprops[0], value); nsCSSValue typeVal(aSourceType, eCSSUnit_Enumerated); AppendValue(subprops[1], typeVal); AppendValue(subprops[2], typeVal); return PR_TRUE; } PRBool CSSParserImpl::ParseBoxCornerRadius(nsCSSProperty aPropID) { nsCSSValue dimenX, dimenY; // required first value if (! ParseNonNegativeVariant(dimenX, VARIANT_HLP, nsnull)) return PR_FALSE; // optional second value (forbidden if first value is inherit/initial) if (dimenX.GetUnit() == eCSSUnit_Inherit || dimenX.GetUnit() == eCSSUnit_Initial || ! ParseNonNegativeVariant(dimenY, VARIANT_LP, nsnull)) dimenY = dimenX; NS_ASSERTION(nsCSSProps::kTypeTable[aPropID] == eCSSType_ValuePair, nsPrintfCString(64, "type error (property='%s')", nsCSSProps::GetStringValue(aPropID).get()) .get()); nsCSSValuePair& storage = *static_cast(mTempData.PropertyAt(aPropID)); storage.mXValue = dimenX; storage.mYValue = dimenY; mTempData.SetPropertyBit(aPropID); return PR_TRUE; } PRBool CSSParserImpl::ParseBoxCornerRadii(nsCSSCornerSizes& aRadii, const nsCSSProperty aPropIDs[]) { // Rectangles are used as scratch storage. // top => top-left, right => top-right, // bottom => bottom-right, left => bottom-left. nsCSSRect dimenX, dimenY; PRInt32 countX = 0, countY = 0; NS_FOR_CSS_SIDES (side) { if (! ParseNonNegativeVariant(dimenX.*nsCSSRect::sides[side], side > 0 ? VARIANT_LP : VARIANT_HLP, nsnull)) break; countX++; } if (countX == 0) return PR_FALSE; if (ExpectSymbol('/', PR_TRUE)) { NS_FOR_CSS_SIDES (side) { if (! ParseNonNegativeVariant(dimenY.*nsCSSRect::sides[side], VARIANT_LP, nsnull)) break; countY++; } if (countY == 0) return PR_FALSE; } if (!ExpectEndProperty()) return PR_FALSE; // if 'initial' or 'inherit' was used, it must be the only value if (countX > 1 || countY > 0) { nsCSSUnit unit = dimenX.mTop.GetUnit(); if (eCSSUnit_Inherit == unit || eCSSUnit_Initial == unit) return PR_FALSE; } // if we have no Y-values, use the X-values if (countY == 0) { dimenY = dimenX; countY = countX; } // Provide missing values by replicating some of the values found switch (countX) { case 1: dimenX.mRight = dimenX.mTop; // top-right same as top-left, and case 2: dimenX.mBottom = dimenX.mTop; // bottom-right same as top-left, and case 3: dimenX.mLeft = dimenX.mRight; // bottom-left same as top-right } switch (countY) { case 1: dimenY.mRight = dimenY.mTop; // top-right same as top-left, and case 2: dimenY.mBottom = dimenY.mTop; // bottom-right same as top-left, and case 3: dimenY.mLeft = dimenY.mRight; // bottom-left same as top-right } NS_FOR_CSS_SIDES(side) { nsCSSValuePair& corner = aRadii.GetFullCorner(NS_SIDE_TO_FULL_CORNER(side, PR_FALSE)); corner.mXValue = dimenX.*nsCSSRect::sides[side]; corner.mYValue = dimenY.*nsCSSRect::sides[side]; mTempData.SetPropertyBit(aPropIDs[side]); } return PR_TRUE; } // These must be in CSS order (top,right,bottom,left) for indexing to work static const nsCSSProperty kBorderStyleIDs[] = { eCSSProperty_border_top_style, eCSSProperty_border_right_style_value, eCSSProperty_border_bottom_style, eCSSProperty_border_left_style_value }; static const nsCSSProperty kBorderWidthIDs[] = { eCSSProperty_border_top_width, eCSSProperty_border_right_width_value, eCSSProperty_border_bottom_width, eCSSProperty_border_left_width_value }; static const nsCSSProperty kBorderColorIDs[] = { eCSSProperty_border_top_color, eCSSProperty_border_right_color_value, eCSSProperty_border_bottom_color, eCSSProperty_border_left_color_value }; static const nsCSSProperty kBorderRadiusIDs[] = { eCSSProperty__moz_border_radius_topLeft, eCSSProperty__moz_border_radius_topRight, eCSSProperty__moz_border_radius_bottomRight, eCSSProperty__moz_border_radius_bottomLeft }; static const nsCSSProperty kOutlineRadiusIDs[] = { eCSSProperty__moz_outline_radius_topLeft, eCSSProperty__moz_outline_radius_topRight, eCSSProperty__moz_outline_radius_bottomRight, eCSSProperty__moz_outline_radius_bottomLeft }; PRBool CSSParserImpl::ParseProperty(nsCSSProperty aPropID) { NS_ASSERTION(aPropID < eCSSProperty_COUNT, "index out of range"); switch (aPropID) { // handle shorthand or multiple properties case eCSSProperty_background: return ParseBackground(); case eCSSProperty_background_position: return ParseBackgroundPosition(); case eCSSProperty_background_attachment: case eCSSProperty_background_clip: case eCSSProperty_background_image: case eCSSProperty_background_origin: case eCSSProperty_background_repeat: return ParseBackgroundList(aPropID); case eCSSProperty_background_size: return ParseBackgroundSize(); case eCSSProperty_border: return ParseBorderSide(kBorderTopIDs, PR_TRUE); case eCSSProperty_border_color: return ParseBorderColor(); case eCSSProperty_border_spacing: return ParseBorderSpacing(); case eCSSProperty_border_style: return ParseBorderStyle(); case eCSSProperty_border_bottom: return ParseBorderSide(kBorderBottomIDs, PR_FALSE); case eCSSProperty_border_end: return ParseDirectionalBorderSide(kBorderEndIDs, NS_BOXPROP_SOURCE_LOGICAL); case eCSSProperty_border_left: return ParseDirectionalBorderSide(kBorderLeftIDs, NS_BOXPROP_SOURCE_PHYSICAL); case eCSSProperty_border_right: return ParseDirectionalBorderSide(kBorderRightIDs, NS_BOXPROP_SOURCE_PHYSICAL); case eCSSProperty_border_start: return ParseDirectionalBorderSide(kBorderStartIDs, NS_BOXPROP_SOURCE_LOGICAL); case eCSSProperty_border_top: return ParseBorderSide(kBorderTopIDs, PR_FALSE); case eCSSProperty_border_bottom_colors: return ParseBorderColors(&mTempData.mMargin.mBorderColors.mBottom, aPropID); case eCSSProperty_border_left_colors: return ParseBorderColors(&mTempData.mMargin.mBorderColors.mLeft, aPropID); case eCSSProperty_border_right_colors: return ParseBorderColors(&mTempData.mMargin.mBorderColors.mRight, aPropID); case eCSSProperty_border_top_colors: return ParseBorderColors(&mTempData.mMargin.mBorderColors.mTop, aPropID); case eCSSProperty_border_image: return ParseBorderImage(); case eCSSProperty_border_width: return ParseBorderWidth(); case eCSSProperty_border_end_color: return ParseDirectionalBoxProperty(eCSSProperty_border_end_color, NS_BOXPROP_SOURCE_LOGICAL); case eCSSProperty_border_left_color: return ParseDirectionalBoxProperty(eCSSProperty_border_left_color, NS_BOXPROP_SOURCE_PHYSICAL); case eCSSProperty_border_right_color: return ParseDirectionalBoxProperty(eCSSProperty_border_right_color, NS_BOXPROP_SOURCE_PHYSICAL); case eCSSProperty_border_start_color: return ParseDirectionalBoxProperty(eCSSProperty_border_start_color, NS_BOXPROP_SOURCE_LOGICAL); case eCSSProperty_border_end_width: return ParseDirectionalBoxProperty(eCSSProperty_border_end_width, NS_BOXPROP_SOURCE_LOGICAL); case eCSSProperty_border_left_width: return ParseDirectionalBoxProperty(eCSSProperty_border_left_width, NS_BOXPROP_SOURCE_PHYSICAL); case eCSSProperty_border_right_width: return ParseDirectionalBoxProperty(eCSSProperty_border_right_width, NS_BOXPROP_SOURCE_PHYSICAL); case eCSSProperty_border_start_width: return ParseDirectionalBoxProperty(eCSSProperty_border_start_width, NS_BOXPROP_SOURCE_LOGICAL); case eCSSProperty_border_end_style: return ParseDirectionalBoxProperty(eCSSProperty_border_end_style, NS_BOXPROP_SOURCE_LOGICAL); case eCSSProperty_border_left_style: return ParseDirectionalBoxProperty(eCSSProperty_border_left_style, NS_BOXPROP_SOURCE_PHYSICAL); case eCSSProperty_border_right_style: return ParseDirectionalBoxProperty(eCSSProperty_border_right_style, NS_BOXPROP_SOURCE_PHYSICAL); case eCSSProperty_border_start_style: return ParseDirectionalBoxProperty(eCSSProperty_border_start_style, NS_BOXPROP_SOURCE_LOGICAL); case eCSSProperty__moz_border_radius: return ParseBoxCornerRadii(mTempData.mMargin.mBorderRadius, kBorderRadiusIDs); case eCSSProperty__moz_outline_radius: return ParseBoxCornerRadii(mTempData.mMargin.mOutlineRadius, kOutlineRadiusIDs); case eCSSProperty__moz_border_radius_topLeft: case eCSSProperty__moz_border_radius_topRight: case eCSSProperty__moz_border_radius_bottomRight: case eCSSProperty__moz_border_radius_bottomLeft: case eCSSProperty__moz_outline_radius_topLeft: case eCSSProperty__moz_outline_radius_topRight: case eCSSProperty__moz_outline_radius_bottomRight: case eCSSProperty__moz_outline_radius_bottomLeft: return ParseBoxCornerRadius(aPropID); case eCSSProperty_box_shadow: return ParseBoxShadow(); case eCSSProperty_clip: return ParseRect(mTempData.mDisplay.mClip, eCSSProperty_clip); case eCSSProperty__moz_column_rule: return ParseBorderSide(kColumnRuleIDs, PR_FALSE); case eCSSProperty_content: return ParseContent(); case eCSSProperty_counter_increment: return ParseCounterData(&mTempData.mContent.mCounterIncrement, aPropID); case eCSSProperty_counter_reset: return ParseCounterData(&mTempData.mContent.mCounterReset, aPropID); case eCSSProperty_cue: return ParseCue(); case eCSSProperty_cursor: return ParseCursor(); case eCSSProperty_font: return ParseFont(); case eCSSProperty_image_region: return ParseRect(mTempData.mList.mImageRegion, eCSSProperty_image_region); case eCSSProperty_list_style: return ParseListStyle(); case eCSSProperty_margin: return ParseMargin(); case eCSSProperty_margin_end: return ParseDirectionalBoxProperty(eCSSProperty_margin_end, NS_BOXPROP_SOURCE_LOGICAL); case eCSSProperty_margin_left: return ParseDirectionalBoxProperty(eCSSProperty_margin_left, NS_BOXPROP_SOURCE_PHYSICAL); case eCSSProperty_margin_right: return ParseDirectionalBoxProperty(eCSSProperty_margin_right, NS_BOXPROP_SOURCE_PHYSICAL); case eCSSProperty_margin_start: return ParseDirectionalBoxProperty(eCSSProperty_margin_start, NS_BOXPROP_SOURCE_LOGICAL); case eCSSProperty_outline: return ParseOutline(); case eCSSProperty_overflow: return ParseOverflow(); case eCSSProperty_padding: return ParsePadding(); case eCSSProperty_padding_end: return ParseDirectionalBoxProperty(eCSSProperty_padding_end, NS_BOXPROP_SOURCE_LOGICAL); case eCSSProperty_padding_left: return ParseDirectionalBoxProperty(eCSSProperty_padding_left, NS_BOXPROP_SOURCE_PHYSICAL); case eCSSProperty_padding_right: return ParseDirectionalBoxProperty(eCSSProperty_padding_right, NS_BOXPROP_SOURCE_PHYSICAL); case eCSSProperty_padding_start: return ParseDirectionalBoxProperty(eCSSProperty_padding_start, NS_BOXPROP_SOURCE_LOGICAL); case eCSSProperty_pause: return ParsePause(); case eCSSProperty_quotes: return ParseQuotes(); case eCSSProperty_size: return ParseSize(); case eCSSProperty_text_shadow: return ParseTextShadow(); case eCSSProperty__moz_transform: return ParseMozTransform(); case eCSSProperty__moz_transform_origin: return ParseMozTransformOrigin(); case eCSSProperty_transition: return ParseTransition(); case eCSSProperty_transition_property: return ParseTransitionProperty(); case eCSSProperty_transition_timing_function: return ParseTransitionTimingFunction(); case eCSSProperty_transition_duration: case eCSSProperty_transition_delay: return ParseTransitionTime(aPropID); #ifdef MOZ_SVG case eCSSProperty_fill: return ParsePaint(&mTempData.mSVG.mFill, eCSSProperty_fill); case eCSSProperty_stroke: return ParsePaint(&mTempData.mSVG.mStroke, eCSSProperty_stroke); case eCSSProperty_stroke_dasharray: return ParseDasharray(); case eCSSProperty_marker: return ParseMarker(); #endif // Strip out properties we use internally. case eCSSProperty__x_system_font: case eCSSProperty_margin_end_value: case eCSSProperty_margin_left_value: case eCSSProperty_margin_right_value: case eCSSProperty_margin_start_value: case eCSSProperty_margin_left_ltr_source: case eCSSProperty_margin_left_rtl_source: case eCSSProperty_margin_right_ltr_source: case eCSSProperty_margin_right_rtl_source: case eCSSProperty_padding_end_value: case eCSSProperty_padding_left_value: case eCSSProperty_padding_right_value: case eCSSProperty_padding_start_value: case eCSSProperty_padding_left_ltr_source: case eCSSProperty_padding_left_rtl_source: case eCSSProperty_padding_right_ltr_source: case eCSSProperty_padding_right_rtl_source: case eCSSProperty_border_end_color_value: case eCSSProperty_border_left_color_value: case eCSSProperty_border_right_color_value: case eCSSProperty_border_start_color_value: case eCSSProperty_border_left_color_ltr_source: case eCSSProperty_border_left_color_rtl_source: case eCSSProperty_border_right_color_ltr_source: case eCSSProperty_border_right_color_rtl_source: case eCSSProperty_border_end_style_value: case eCSSProperty_border_left_style_value: case eCSSProperty_border_right_style_value: case eCSSProperty_border_start_style_value: case eCSSProperty_border_left_style_ltr_source: case eCSSProperty_border_left_style_rtl_source: case eCSSProperty_border_right_style_ltr_source: case eCSSProperty_border_right_style_rtl_source: case eCSSProperty_border_end_width_value: case eCSSProperty_border_left_width_value: case eCSSProperty_border_right_width_value: case eCSSProperty_border_start_width_value: case eCSSProperty_border_left_width_ltr_source: case eCSSProperty_border_left_width_rtl_source: case eCSSProperty_border_right_width_ltr_source: case eCSSProperty_border_right_width_rtl_source: // The user can't use these REPORT_UNEXPECTED(PEInaccessibleProperty2); return PR_FALSE; default: // must be single property { nsCSSValue value; if (ParseSingleValueProperty(value, aPropID)) { if (ExpectEndProperty()) { AppendValue(aPropID, value); return PR_TRUE; } // XXX Report errors? } // XXX Report errors? } } return PR_FALSE; } // Bits used in determining which background position info we have #define BG_CENTER NS_STYLE_BG_POSITION_CENTER #define BG_TOP NS_STYLE_BG_POSITION_TOP #define BG_BOTTOM NS_STYLE_BG_POSITION_BOTTOM #define BG_LEFT NS_STYLE_BG_POSITION_LEFT #define BG_RIGHT NS_STYLE_BG_POSITION_RIGHT #define BG_CTB (BG_CENTER | BG_TOP | BG_BOTTOM) #define BG_CLR (BG_CENTER | BG_LEFT | BG_RIGHT) PRBool CSSParserImpl::ParseSingleValueProperty(nsCSSValue& aValue, nsCSSProperty aPropID) { switch (aPropID) { case eCSSProperty_UNKNOWN: case eCSSProperty_background: case eCSSProperty_background_position: case eCSSProperty_border: case eCSSProperty_border_color: case eCSSProperty_border_bottom_colors: case eCSSProperty_border_image: case eCSSProperty_border_left_colors: case eCSSProperty_border_right_colors: case eCSSProperty_border_end_color: case eCSSProperty_border_left_color: case eCSSProperty_border_right_color: case eCSSProperty_border_start_color: case eCSSProperty_border_end_style: case eCSSProperty_border_left_style: case eCSSProperty_border_right_style: case eCSSProperty_border_start_style: case eCSSProperty_border_end_width: case eCSSProperty_border_left_width: case eCSSProperty_border_right_width: case eCSSProperty_border_start_width: case eCSSProperty_border_top_colors: case eCSSProperty_border_spacing: case eCSSProperty_border_style: case eCSSProperty_border_bottom: case eCSSProperty_border_end: case eCSSProperty_border_left: case eCSSProperty_border_right: case eCSSProperty_border_start: case eCSSProperty_border_top: case eCSSProperty_border_width: case eCSSProperty_background_size: case eCSSProperty__moz_border_radius: case eCSSProperty__moz_border_radius_topLeft: case eCSSProperty__moz_border_radius_topRight: case eCSSProperty__moz_border_radius_bottomRight: case eCSSProperty__moz_border_radius_bottomLeft: case eCSSProperty_box_shadow: case eCSSProperty_clip: case eCSSProperty__moz_column_rule: case eCSSProperty_content: case eCSSProperty_counter_increment: case eCSSProperty_counter_reset: case eCSSProperty_cue: case eCSSProperty_cursor: case eCSSProperty_font: case eCSSProperty_image_region: case eCSSProperty_list_style: case eCSSProperty_margin: case eCSSProperty_margin_end: case eCSSProperty_margin_left: case eCSSProperty_margin_right: case eCSSProperty_margin_start: case eCSSProperty_outline: case eCSSProperty__moz_outline_radius: case eCSSProperty__moz_outline_radius_topLeft: case eCSSProperty__moz_outline_radius_topRight: case eCSSProperty__moz_outline_radius_bottomRight: case eCSSProperty__moz_outline_radius_bottomLeft: case eCSSProperty_overflow: case eCSSProperty_padding: case eCSSProperty_padding_end: case eCSSProperty_padding_left: case eCSSProperty_padding_right: case eCSSProperty_padding_start: case eCSSProperty_pause: case eCSSProperty_quotes: case eCSSProperty_size: case eCSSProperty_text_shadow: case eCSSProperty__moz_transform: case eCSSProperty__moz_transform_origin: case eCSSProperty_transition: case eCSSProperty_transition_property: case eCSSProperty_transition_timing_function: case eCSSProperty_transition_duration: case eCSSProperty_transition_delay: case eCSSProperty_COUNT: #ifdef MOZ_SVG case eCSSProperty_fill: case eCSSProperty_stroke: case eCSSProperty_stroke_dasharray: case eCSSProperty_marker: #endif case eCSSPropertyExtra_no_properties: case eCSSPropertyExtra_all_properties: NS_ERROR("not a single value property"); return PR_FALSE; case eCSSProperty__x_system_font: case eCSSProperty_margin_left_ltr_source: case eCSSProperty_margin_left_rtl_source: case eCSSProperty_margin_right_ltr_source: case eCSSProperty_margin_right_rtl_source: case eCSSProperty_padding_left_ltr_source: case eCSSProperty_padding_left_rtl_source: case eCSSProperty_padding_right_ltr_source: case eCSSProperty_padding_right_rtl_source: case eCSSProperty_border_left_color_ltr_source: case eCSSProperty_border_left_color_rtl_source: case eCSSProperty_border_right_color_ltr_source: case eCSSProperty_border_right_color_rtl_source: case eCSSProperty_border_left_style_ltr_source: case eCSSProperty_border_left_style_rtl_source: case eCSSProperty_border_right_style_ltr_source: case eCSSProperty_border_right_style_rtl_source: case eCSSProperty_border_left_width_ltr_source: case eCSSProperty_border_left_width_rtl_source: case eCSSProperty_border_right_width_ltr_source: case eCSSProperty_border_right_width_rtl_source: #ifdef MOZ_MATHML case eCSSProperty_script_size_multiplier: case eCSSProperty_script_min_size: #endif NS_ERROR("not currently parsed here"); return PR_FALSE; case eCSSProperty_appearance: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kAppearanceKTable); case eCSSProperty_azimuth: return ParseAzimuth(aValue); case eCSSProperty_background_attachment: // Used only internally. return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kBackgroundAttachmentKTable); case eCSSProperty_background_clip: // Used only internally. return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kBackgroundOriginKTable); case eCSSProperty_background_color: return ParseVariant(aValue, VARIANT_HC, nsnull); case eCSSProperty_background_image: // Used only internally. return ParseVariant(aValue, VARIANT_HUO | VARIANT_GRADIENT | VARIANT_IMAGE_RECT, nsnull); case eCSSProperty__moz_background_inline_policy: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kBackgroundInlinePolicyKTable); case eCSSProperty_background_origin: // Used only internally. return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kBackgroundOriginKTable); case eCSSProperty_background_repeat: // Used only internally. return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kBackgroundRepeatKTable); case eCSSProperty_binding: return ParseVariant(aValue, VARIANT_HUO, nsnull); case eCSSProperty_border_collapse: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kBorderCollapseKTable); case eCSSProperty_border_bottom_color: case eCSSProperty_border_end_color_value: // for internal use case eCSSProperty_border_left_color_value: // for internal use case eCSSProperty_border_right_color_value: // for internal use case eCSSProperty_border_start_color_value: // for internal use case eCSSProperty_border_top_color: case eCSSProperty__moz_column_rule_color: return ParseVariant(aValue, VARIANT_HCK, nsCSSProps::kBorderColorKTable); case eCSSProperty_border_bottom_style: case eCSSProperty_border_end_style_value: // for internal use case eCSSProperty_border_left_style_value: // for internal use case eCSSProperty_border_right_style_value: // for internal use case eCSSProperty_border_start_style_value: // for internal use case eCSSProperty_border_top_style: case eCSSProperty__moz_column_rule_style: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kBorderStyleKTable); case eCSSProperty_border_bottom_width: case eCSSProperty_border_end_width_value: // for internal use case eCSSProperty_border_left_width_value: // for internal use case eCSSProperty_border_right_width_value: // for internal use case eCSSProperty_border_start_width_value: // for internal use case eCSSProperty_border_top_width: case eCSSProperty__moz_column_rule_width: return ParseNonNegativeVariant(aValue, VARIANT_HKL | VARIANT_CALC, nsCSSProps::kBorderWidthKTable); case eCSSProperty__moz_column_count: // Need to reject 0 in addition to negatives. If we accept 0, we // need to change NS_STYLE_COLUMN_COUNT_AUTO to something else. return ParsePositiveNonZeroVariant(aValue, VARIANT_AHI, nsnull); case eCSSProperty__moz_column_width: return ParseNonNegativeVariant(aValue, VARIANT_AHL | VARIANT_CALC, nsnull); case eCSSProperty__moz_column_gap: return ParseNonNegativeVariant(aValue, VARIANT_HL | VARIANT_NORMAL, nsnull); case eCSSProperty_bottom: case eCSSProperty_top: case eCSSProperty_left: case eCSSProperty_right: return ParseVariant(aValue, VARIANT_AHLP, nsnull); case eCSSProperty_box_align: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kBoxAlignKTable); case eCSSProperty_box_direction: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kBoxDirectionKTable); case eCSSProperty_box_flex: return ParseNonNegativeVariant(aValue, VARIANT_HN, nsnull); case eCSSProperty_box_orient: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kBoxOrientKTable); case eCSSProperty_box_pack: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kBoxPackKTable); case eCSSProperty_box_ordinal_group: return ParseNonNegativeVariant(aValue, VARIANT_HI, nsnull); #ifdef MOZ_SVG case eCSSProperty_clip_path: return ParseVariant(aValue, VARIANT_HUO, nsnull); case eCSSProperty_clip_rule: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kFillRuleKTable); case eCSSProperty_color_interpolation: case eCSSProperty_color_interpolation_filters: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kColorInterpolationKTable); case eCSSProperty_dominant_baseline: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kDominantBaselineKTable); case eCSSProperty_fill_opacity: return ParseVariant(aValue, VARIANT_HN, nsnull); case eCSSProperty_fill_rule: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kFillRuleKTable); case eCSSProperty_filter: return ParseVariant(aValue, VARIANT_HUO, nsnull); case eCSSProperty_flood_color: return ParseVariant(aValue, VARIANT_HC, nsnull); case eCSSProperty_flood_opacity: return ParseVariant(aValue, VARIANT_HN, nsnull); case eCSSProperty_image_rendering: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kImageRenderingKTable); case eCSSProperty_lighting_color: return ParseVariant(aValue, VARIANT_HC, nsnull); case eCSSProperty_marker_end: case eCSSProperty_marker_mid: case eCSSProperty_marker_start: return ParseVariant(aValue, VARIANT_HUO, nsnull); case eCSSProperty_mask: return ParseVariant(aValue, VARIANT_HUO, nsnull); case eCSSProperty_shape_rendering: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kShapeRenderingKTable); case eCSSProperty_stop_color: return ParseVariant(aValue, VARIANT_HC, nsnull); case eCSSProperty_stop_opacity: return ParseVariant(aValue, VARIANT_HN, nsnull); case eCSSProperty_stroke_dashoffset: return ParseVariant(aValue, VARIANT_HLPN, nsnull); case eCSSProperty_stroke_linecap: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kStrokeLinecapKTable); case eCSSProperty_stroke_linejoin: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kStrokeLinejoinKTable); case eCSSProperty_stroke_miterlimit: return ParseVariant(aValue, VARIANT_HN, nsnull) && // Enforce the restriction that the value is greater than 1. (aValue.GetUnit() != eCSSUnit_Number || aValue.GetFloatValue() >= 1.0f); case eCSSProperty_stroke_opacity: return ParseVariant(aValue, VARIANT_HN, nsnull); case eCSSProperty_stroke_width: return ParseNonNegativeVariant(aValue, VARIANT_HLPN, nsnull); case eCSSProperty_text_anchor: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kTextAnchorKTable); case eCSSProperty_text_rendering: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kTextRenderingKTable); #endif case eCSSProperty_box_sizing: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kBoxSizingKTable); case eCSSProperty_height: return ParseNonNegativeVariant(aValue, VARIANT_AHLP, nsnull); case eCSSProperty_width: return ParseNonNegativeVariant(aValue, VARIANT_AHKLP, nsCSSProps::kWidthKTable); case eCSSProperty_force_broken_image_icon: return ParseNonNegativeVariant(aValue, VARIANT_HI, nsnull); case eCSSProperty_caption_side: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kCaptionSideKTable); case eCSSProperty_clear: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kClearKTable); case eCSSProperty_color: return ParseVariant(aValue, VARIANT_HC, nsnull); case eCSSProperty_cue_after: case eCSSProperty_cue_before: return ParseVariant(aValue, VARIANT_HUO, nsnull); case eCSSProperty_direction: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kDirectionKTable); case eCSSProperty_display: if (ParseVariant(aValue, VARIANT_HK, nsCSSProps::kDisplayKTable)) { if (aValue.GetUnit() == eCSSUnit_Enumerated) { switch (aValue.GetIntValue()) { case NS_STYLE_DISPLAY_MARKER: // bug 2055 case NS_STYLE_DISPLAY_RUN_IN: // bug 2056 case NS_STYLE_DISPLAY_COMPACT: // bug 14983 return PR_FALSE; } } return PR_TRUE; } return PR_FALSE; case eCSSProperty_elevation: return ParseVariant(aValue, VARIANT_HK | VARIANT_ANGLE, nsCSSProps::kElevationKTable); case eCSSProperty_empty_cells: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kEmptyCellsKTable); case eCSSProperty_float: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kFloatKTable); case eCSSProperty_float_edge: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kFloatEdgeKTable); case eCSSProperty_font_family: return ParseFamily(aValue); case eCSSProperty_font_feature_settings: case eCSSProperty_font_language_override: return ParseVariant(aValue, VARIANT_NORMAL | VARIANT_INHERIT | VARIANT_STRING, nsnull); case eCSSProperty_font_size: return ParseNonNegativeVariant(aValue, VARIANT_HKLP | VARIANT_SYSFONT | VARIANT_CALC, nsCSSProps::kFontSizeKTable); case eCSSProperty_font_size_adjust: return ParseVariant(aValue, VARIANT_HON | VARIANT_SYSFONT, nsnull); case eCSSProperty_font_stretch: return ParseVariant(aValue, VARIANT_HK | VARIANT_SYSFONT, nsCSSProps::kFontStretchKTable); case eCSSProperty_font_style: return ParseVariant(aValue, VARIANT_HK | VARIANT_SYSFONT, nsCSSProps::kFontStyleKTable); case eCSSProperty_font_variant: return ParseVariant(aValue, VARIANT_HK | VARIANT_SYSFONT, nsCSSProps::kFontVariantKTable); case eCSSProperty_font_weight: return ParseFontWeight(aValue); case eCSSProperty_ime_mode: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kIMEModeKTable); case eCSSProperty__moz_tab_size: return ParseNonNegativeVariant(aValue, VARIANT_HI, nsnull); case eCSSProperty_letter_spacing: case eCSSProperty_word_spacing: return ParseVariant(aValue, VARIANT_HL | VARIANT_NORMAL | VARIANT_CALC, nsnull); case eCSSProperty_line_height: return ParseNonNegativeVariant(aValue, VARIANT_HLPN | VARIANT_KEYWORD | VARIANT_NORMAL | VARIANT_SYSFONT, nsCSSProps::kLineHeightKTable); case eCSSProperty_list_style_image: return ParseVariant(aValue, VARIANT_HUO, nsnull); case eCSSProperty_list_style_position: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kListStylePositionKTable); case eCSSProperty_list_style_type: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kListStyleKTable); case eCSSProperty_margin_bottom: case eCSSProperty_margin_end_value: // for internal use case eCSSProperty_margin_left_value: // for internal use case eCSSProperty_margin_right_value: // for internal use case eCSSProperty_margin_start_value: // for internal use case eCSSProperty_margin_top: return ParseVariant(aValue, VARIANT_AHLP, nsnull); case eCSSProperty_marker_offset: return ParseVariant(aValue, VARIANT_AHL | VARIANT_CALC, nsnull); case eCSSProperty_marks: return ParseMarks(aValue); case eCSSProperty_max_height: return ParseNonNegativeVariant(aValue, VARIANT_HLPO, nsnull); case eCSSProperty_max_width: return ParseNonNegativeVariant(aValue, VARIANT_HKLPO, nsCSSProps::kWidthKTable); case eCSSProperty_min_height: return ParseNonNegativeVariant(aValue, VARIANT_HLP, nsnull); case eCSSProperty_min_width: return ParseNonNegativeVariant(aValue, VARIANT_HKLP, nsCSSProps::kWidthKTable); case eCSSProperty_opacity: return ParseVariant(aValue, VARIANT_HN, nsnull); case eCSSProperty_orphans: case eCSSProperty_widows: return ParsePositiveNonZeroVariant(aValue, VARIANT_HI, nsnull); case eCSSProperty_outline_color: return ParseVariant(aValue, VARIANT_HCK, nsCSSProps::kOutlineColorKTable); case eCSSProperty_outline_style: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kOutlineStyleKTable); case eCSSProperty_outline_width: return ParseNonNegativeVariant(aValue, VARIANT_HKL, nsCSSProps::kBorderWidthKTable); case eCSSProperty_outline_offset: return ParseVariant(aValue, VARIANT_HL | VARIANT_CALC, nsnull); case eCSSProperty_overflow_x: case eCSSProperty_overflow_y: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kOverflowSubKTable); case eCSSProperty_padding_bottom: case eCSSProperty_padding_end_value: // for internal use case eCSSProperty_padding_left_value: // for internal use case eCSSProperty_padding_right_value: // for internal use case eCSSProperty_padding_start_value: // for internal use case eCSSProperty_padding_top: return ParseNonNegativeVariant(aValue, VARIANT_HLP, nsnull); case eCSSProperty_page: return ParseVariant(aValue, VARIANT_AUTO | VARIANT_IDENTIFIER, nsnull); case eCSSProperty_page_break_after: case eCSSProperty_page_break_before: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kPageBreakKTable); case eCSSProperty_page_break_inside: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kPageBreakInsideKTable); case eCSSProperty_pause_after: case eCSSProperty_pause_before: return ParseVariant(aValue, VARIANT_HTP, nsnull); case eCSSProperty_pitch: return ParseVariant(aValue, VARIANT_HKF, nsCSSProps::kPitchKTable); case eCSSProperty_pitch_range: return ParseVariant(aValue, VARIANT_HN, nsnull); case eCSSProperty_pointer_events: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kPointerEventsKTable); case eCSSProperty_position: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kPositionKTable); case eCSSProperty_resize: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kResizeKTable); case eCSSProperty_richness: return ParseVariant(aValue, VARIANT_HN, nsnull); #ifdef MOZ_MATHML // script-level can take Integer or Number values, but only Integer ("relative") // values can be specified in a style sheet. Also we only allow this property // when unsafe rules are enabled, because otherwise it could interfere // with rulenode optimizations if used in a non-MathML-enabled document. case eCSSProperty_script_level: if (!mUnsafeRulesEnabled) return PR_FALSE; return ParseVariant(aValue, VARIANT_HI, nsnull); #endif case eCSSProperty_speak: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kSpeakKTable); case eCSSProperty_speak_header: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kSpeakHeaderKTable); case eCSSProperty_speak_numeral: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kSpeakNumeralKTable); case eCSSProperty_speak_punctuation: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kSpeakPunctuationKTable); case eCSSProperty_speech_rate: return ParseVariant(aValue, VARIANT_HN | VARIANT_KEYWORD, nsCSSProps::kSpeechRateKTable); case eCSSProperty_stack_sizing: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kStackSizingKTable); case eCSSProperty_stress: return ParseVariant(aValue, VARIANT_HN, nsnull); case eCSSProperty_table_layout: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kTableLayoutKTable); case eCSSProperty_text_align: // When we support aligning on a string, we can parse text-align // as a string.... return ParseVariant(aValue, VARIANT_HK /* | VARIANT_STRING */, nsCSSProps::kTextAlignKTable); case eCSSProperty_text_decoration: return ParseTextDecoration(aValue); case eCSSProperty_text_indent: return ParseVariant(aValue, VARIANT_HLP, nsnull); case eCSSProperty_text_transform: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kTextTransformKTable); case eCSSProperty_unicode_bidi: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kUnicodeBidiKTable); case eCSSProperty_user_focus: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kUserFocusKTable); case eCSSProperty_user_input: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kUserInputKTable); case eCSSProperty_user_modify: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kUserModifyKTable); case eCSSProperty_user_select: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kUserSelectKTable); case eCSSProperty_vertical_align: return ParseVariant(aValue, VARIANT_HKLP, nsCSSProps::kVerticalAlignKTable); case eCSSProperty_visibility: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kVisibilityKTable); case eCSSProperty_voice_family: return ParseFamily(aValue); case eCSSProperty_volume: return ParseVariant(aValue, VARIANT_HPN | VARIANT_KEYWORD, nsCSSProps::kVolumeKTable); case eCSSProperty_white_space: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kWhitespaceKTable); case eCSSProperty__moz_window_shadow: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kWindowShadowKTable); case eCSSProperty_word_wrap: return ParseVariant(aValue, VARIANT_HK, nsCSSProps::kWordwrapKTable); case eCSSProperty_z_index: return ParseVariant(aValue, VARIANT_AHI, nsnull); case eCSSPropertyExtra_x_none_value: return ParseVariant(aValue, VARIANT_NONE | VARIANT_INHERIT, nsnull); } // explicitly do NOT have a default case to let the compiler // help find missing properties return PR_FALSE; } // nsFont::EnumerateFamilies callback for ParseFontDescriptorValue struct NS_STACK_CLASS ExtractFirstFamilyData { nsAutoString mFamilyName; PRBool mGood; ExtractFirstFamilyData() : mFamilyName(), mGood(PR_FALSE) {} }; static PRBool ExtractFirstFamily(const nsString& aFamily, PRBool aGeneric, void* aData) { ExtractFirstFamilyData* realData = (ExtractFirstFamilyData*) aData; if (aGeneric || realData->mFamilyName.Length() > 0) { realData->mGood = PR_FALSE; return PR_FALSE; } realData->mFamilyName.Assign(aFamily); realData->mGood = PR_TRUE; return PR_TRUE; } // font-descriptor: descriptor ':' value ';' // caller has advanced mToken to point at the descriptor PRBool CSSParserImpl::ParseFontDescriptorValue(nsCSSFontDesc aDescID, nsCSSValue& aValue) { switch (aDescID) { // These four are similar to the properties of the same name, // possibly with more restrictions on the values they can take. case eCSSFontDesc_Family: { if (!ParseFamily(aValue) || aValue.GetUnit() != eCSSUnit_Families) return PR_FALSE; // the style parameters to the nsFont constructor are ignored, // because it's only being used to call EnumerateFamilies nsAutoString valueStr; aValue.GetStringValue(valueStr); nsFont font(valueStr, 0, 0, 0, 0, 0, 0); ExtractFirstFamilyData dat; font.EnumerateFamilies(ExtractFirstFamily, (void*) &dat); if (!dat.mGood) return PR_FALSE; aValue.SetStringValue(dat.mFamilyName, eCSSUnit_String); return PR_TRUE; } case eCSSFontDesc_Style: // property is VARIANT_HMK|VARIANT_SYSFONT return ParseVariant(aValue, VARIANT_KEYWORD | VARIANT_NORMAL, nsCSSProps::kFontStyleKTable); case eCSSFontDesc_Weight: return (ParseFontWeight(aValue) && aValue.GetUnit() != eCSSUnit_Inherit && aValue.GetUnit() != eCSSUnit_Initial && (aValue.GetUnit() != eCSSUnit_Enumerated || (aValue.GetIntValue() != NS_STYLE_FONT_WEIGHT_BOLDER && aValue.GetIntValue() != NS_STYLE_FONT_WEIGHT_LIGHTER))); case eCSSFontDesc_Stretch: // property is VARIANT_HK|VARIANT_SYSFONT return (ParseVariant(aValue, VARIANT_KEYWORD, nsCSSProps::kFontStretchKTable) && (aValue.GetIntValue() != NS_STYLE_FONT_STRETCH_WIDER && aValue.GetIntValue() != NS_STYLE_FONT_STRETCH_NARROWER)); // These two are unique to @font-face and have their own special grammar. case eCSSFontDesc_Src: return ParseFontSrc(aValue); case eCSSFontDesc_UnicodeRange: return ParseFontRanges(aValue); case eCSSFontDesc_FontFeatureSettings: case eCSSFontDesc_FontLanguageOverride: return ParseVariant(aValue, VARIANT_NORMAL | VARIANT_STRING, nsnull); case eCSSFontDesc_UNKNOWN: case eCSSFontDesc_COUNT: NS_NOTREACHED("bad nsCSSFontDesc code"); } // explicitly do NOT have a default case to let the compiler // help find missing descriptors return PR_FALSE; } void CSSParserImpl::InitBoxPropsAsPhysical(const nsCSSProperty *aSourceProperties) { nsCSSValue physical(NS_BOXPROP_SOURCE_PHYSICAL, eCSSUnit_Enumerated); for (const nsCSSProperty *prop = aSourceProperties; *prop != eCSSProperty_UNKNOWN; ++prop) { AppendValue(*prop, physical); } } PRBool CSSParserImpl::ParseAzimuth(nsCSSValue& aValue) { if (ParseVariant(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(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; } static nsCSSValue BoxPositionMaskToCSSValue(PRInt32 aMask, PRBool isX) { PRInt32 val = NS_STYLE_BG_POSITION_CENTER; if (isX) { if (aMask & BG_LEFT) { val = NS_STYLE_BG_POSITION_LEFT; } else if (aMask & BG_RIGHT) { val = NS_STYLE_BG_POSITION_RIGHT; } } else { if (aMask & BG_TOP) { val = NS_STYLE_BG_POSITION_TOP; } else if (aMask & BG_BOTTOM) { val = NS_STYLE_BG_POSITION_BOTTOM; } } return nsCSSValue(val, eCSSUnit_Enumerated); } PRBool CSSParserImpl::ParseBackground() { nsAutoParseCompoundProperty compound(this); // These two are set through side-effects of ParseBackgroundItem. mTempData.SetPropertyBit(eCSSProperty_background_color); mTempData.mColor.mBackColor.SetColorValue(NS_RGBA(0, 0, 0, 0)); BackgroundItem bgitem; nsCSSValuePairList *positionHead = nsnull, **positionTail = &positionHead; nsCSSValuePairList *sizeHead = nsnull, **sizeTail = &sizeHead; static const BackgroundItemSimpleValueInfo simpleValues[] = { { &BackgroundItem::mImage, eCSSProperty_background_image }, { &BackgroundItem::mRepeat, eCSSProperty_background_repeat }, { &BackgroundItem::mAttachment, eCSSProperty_background_attachment }, { &BackgroundItem::mClip, eCSSProperty_background_clip }, { &BackgroundItem::mOrigin, eCSSProperty_background_origin } }; nsCSSValueList *simpleHeads[NS_ARRAY_LENGTH(simpleValues)]; nsCSSValueList **simpleTails[NS_ARRAY_LENGTH(simpleValues)]; for (PRUint32 i = 0; i < NS_ARRAY_LENGTH(simpleValues); ++i) { simpleHeads[i] = nsnull; simpleTails[i] = &simpleHeads[i]; } for (;;) { if (!ParseBackgroundItem(bgitem, !positionHead)) { break; } nsCSSValuePairList *positionItem = new nsCSSValuePairList; if (!positionItem) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } positionItem->mXValue = bgitem.mPosition.mXValue; positionItem->mYValue = bgitem.mPosition.mYValue; *positionTail = positionItem; positionTail = &positionItem->mNext; nsCSSValuePairList *sizeItem = new nsCSSValuePairList; if (!sizeItem) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } sizeItem->mXValue = bgitem.mSize.mXValue; sizeItem->mYValue = bgitem.mSize.mYValue; *sizeTail = sizeItem; sizeTail = &sizeItem->mNext; PRBool fail = PR_FALSE; for (PRUint32 i = 0; i < NS_ARRAY_LENGTH(simpleValues); ++i) { nsCSSValueList *item = new nsCSSValueList; if (!item) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); fail = PR_TRUE; break; } item->mValue = bgitem.*(simpleValues[i].member); *simpleTails[i] = item; simpleTails[i] = &item->mNext; } if (fail) { break; } if (!bgitem.mLastItem && ExpectSymbol(',', PR_TRUE)) { continue; } if (!ExpectEndProperty()) { break; } mTempData.mColor.mBackPosition = positionHead; mTempData.mColor.mBackSize = sizeHead; for (PRUint32 i = 0; i < NS_ARRAY_LENGTH(simpleValues); ++i) { nsCSSValueList **source = static_cast( mTempData.PropertyAt(simpleValues[i].propID)); *source = simpleHeads[i]; } mTempData.SetPropertyBit(eCSSProperty_background_image); mTempData.SetPropertyBit(eCSSProperty_background_repeat); mTempData.SetPropertyBit(eCSSProperty_background_attachment); mTempData.SetPropertyBit(eCSSProperty_background_position); mTempData.SetPropertyBit(eCSSProperty_background_clip); mTempData.SetPropertyBit(eCSSProperty_background_origin); mTempData.SetPropertyBit(eCSSProperty_background_size); return PR_TRUE; } delete positionHead; delete sizeHead; for (PRUint32 i = 0; i < NS_ARRAY_LENGTH(simpleValues); ++i) { delete simpleHeads[i]; } return PR_FALSE; } // Parse one item of the background shorthand property. PRBool CSSParserImpl::ParseBackgroundItem(CSSParserImpl::BackgroundItem& aItem, PRBool aFirstItem) { // Fill in the values that the shorthand will set if we don't find // other values. aItem.mImage.SetNoneValue(); aItem.mRepeat.SetIntValue(NS_STYLE_BG_REPEAT_XY, eCSSUnit_Enumerated); aItem.mAttachment.SetIntValue(NS_STYLE_BG_ATTACHMENT_SCROLL, eCSSUnit_Enumerated); aItem.mPosition.mXValue.SetPercentValue(0.0f); aItem.mPosition.mYValue.SetPercentValue(0.0f); aItem.mClip.SetIntValue(NS_STYLE_BG_CLIP_BORDER, eCSSUnit_Enumerated); aItem.mOrigin.SetIntValue(NS_STYLE_BG_ORIGIN_PADDING, eCSSUnit_Enumerated); aItem.mSize.mXValue.SetAutoValue(); aItem.mSize.mYValue.SetAutoValue(); aItem.mLastItem = PR_FALSE; PRBool haveColor = PR_FALSE, haveImage = PR_FALSE, haveRepeat = PR_FALSE, haveAttach = PR_FALSE, havePosition = PR_FALSE, haveOrigin = PR_FALSE, haveSomething = PR_FALSE; while (GetToken(PR_TRUE)) { nsCSSTokenType tt = mToken.mType; UngetToken(); // ...but we'll still cheat and use mToken if (tt == eCSSToken_Symbol) { // ExpectEndProperty only looks for symbols, and nothing else will // show up as one. break; } if (tt == eCSSToken_Ident) { nsCSSKeyword keyword = nsCSSKeywords::LookupKeyword(mToken.mIdent); PRInt32 dummy; if (keyword == eCSSKeyword_inherit || keyword == eCSSKeyword__moz_initial) { if (haveSomething || !aFirstItem) return PR_FALSE; haveColor = haveImage = haveRepeat = haveAttach = havePosition = haveOrigin = PR_TRUE; GetToken(PR_TRUE); // undo the UngetToken above nsCSSValue val; if (keyword == eCSSKeyword_inherit) { val.SetInheritValue(); } else { val.SetInitialValue(); } mTempData.mColor.mBackColor = val; aItem.mImage = val; aItem.mRepeat = val; aItem.mAttachment = val; aItem.mPosition.SetBothValuesTo(val); aItem.mClip = val; aItem.mOrigin = val; aItem.mSize.mXValue = val; aItem.mSize.mYValue = val; aItem.mLastItem = PR_TRUE; haveSomething = PR_TRUE; break; } else if (keyword == eCSSKeyword_none) { if (haveImage) return PR_FALSE; haveImage = PR_TRUE; if (!ParseSingleValueProperty(aItem.mImage, eCSSProperty_background_image)) { NS_NOTREACHED("should be able to parse"); return PR_FALSE; } } else if (nsCSSProps::FindKeyword(keyword, nsCSSProps::kBackgroundAttachmentKTable, dummy)) { if (haveAttach) return PR_FALSE; haveAttach = PR_TRUE; if (!ParseSingleValueProperty(aItem.mAttachment, eCSSProperty_background_attachment)) { NS_NOTREACHED("should be able to parse"); return PR_FALSE; } } else if (nsCSSProps::FindKeyword(keyword, nsCSSProps::kBackgroundRepeatKTable, dummy)) { if (haveRepeat) return PR_FALSE; haveRepeat = PR_TRUE; if (!ParseSingleValueProperty(aItem.mRepeat, eCSSProperty_background_repeat)) { NS_NOTREACHED("should be able to parse"); return PR_FALSE; } } else if (nsCSSProps::FindKeyword(keyword, nsCSSProps::kBackgroundPositionKTable, dummy)) { if (havePosition) return PR_FALSE; havePosition = PR_TRUE; if (!ParseBoxPositionValues(aItem.mPosition, PR_FALSE)) { return PR_FALSE; } } else if (nsCSSProps::FindKeyword(keyword, nsCSSProps::kBackgroundOriginKTable, dummy)) { if (haveOrigin) return PR_FALSE; haveOrigin = PR_TRUE; if (!ParseSingleValueProperty(aItem.mOrigin, eCSSProperty_background_origin)) { NS_NOTREACHED("should be able to parse"); return PR_FALSE; } PR_STATIC_ASSERT(NS_STYLE_BG_CLIP_BORDER == NS_STYLE_BG_ORIGIN_BORDER); PR_STATIC_ASSERT(NS_STYLE_BG_CLIP_PADDING == NS_STYLE_BG_ORIGIN_PADDING); PR_STATIC_ASSERT(NS_STYLE_BG_CLIP_CONTENT == NS_STYLE_BG_ORIGIN_CONTENT); aItem.mClip = aItem.mOrigin; } else { if (haveColor) return PR_FALSE; haveColor = PR_TRUE; if (!ParseSingleValueProperty(mTempData.mColor.mBackColor, eCSSProperty_background_color)) { return PR_FALSE; } aItem.mLastItem = PR_TRUE; } } else if (eCSSToken_Function == tt && (mToken.mIdent.LowerCaseEqualsLiteral("url") || mToken.mIdent.LowerCaseEqualsLiteral("-moz-linear-gradient") || mToken.mIdent.LowerCaseEqualsLiteral("-moz-radial-gradient") || mToken.mIdent.LowerCaseEqualsLiteral("-moz-repeating-linear-gradient") || mToken.mIdent.LowerCaseEqualsLiteral("-moz-repeating-radial-gradient") || mToken.mIdent.LowerCaseEqualsLiteral("-moz-image-rect"))) { if (haveImage) return PR_FALSE; haveImage = PR_TRUE; if (!ParseSingleValueProperty(aItem.mImage, eCSSProperty_background_image)) { return PR_FALSE; } } else if (tt == eCSSToken_Dimension || tt == eCSSToken_Number || tt == eCSSToken_Percentage) { if (havePosition) return PR_FALSE; havePosition = PR_TRUE; if (!ParseBoxPositionValues(aItem.mPosition, PR_FALSE)) { return PR_FALSE; } } else { if (haveColor) return PR_FALSE; haveColor = PR_TRUE; // Note: This parses 'inherit' and 'initial', but // we've already checked for them, so it's ok. if (!ParseSingleValueProperty(mTempData.mColor.mBackColor, eCSSProperty_background_color)) { return PR_FALSE; } aItem.mLastItem = PR_TRUE; } haveSomething = PR_TRUE; } return haveSomething; } // This function is very similar to ParseBackgroundPosition and // ParseBackgroundSize. PRBool CSSParserImpl::ParseBackgroundList(nsCSSProperty aPropID) { // aPropID is a single value prop-id nsCSSValue value; nsCSSValueList *head = nsnull, **tail = &head; for (;;) { if (!ParseSingleValueProperty(value, aPropID)) { break; } PRBool inheritOrInitial = value.GetUnit() == eCSSUnit_Inherit || value.GetUnit() == eCSSUnit_Initial; if (inheritOrInitial && head) { // inherit and initial are only allowed on their own break; } nsCSSValueList *item = new nsCSSValueList; if (!item) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } item->mValue = value; *tail = item; tail = &item->mNext; if (!inheritOrInitial && ExpectSymbol(',', PR_TRUE)) { continue; } if (!ExpectEndProperty()) { break; } nsCSSValueList **source = static_cast(mTempData.PropertyAt(aPropID)); *source = head; mTempData.SetPropertyBit(aPropID); return PR_TRUE; } delete head; return PR_FALSE; } // This function is very similar to ParseBackgroundList and ParseBackgroundSize. PRBool CSSParserImpl::ParseBackgroundPosition() { // aPropID is a single value prop-id nsCSSValuePair valuePair; nsCSSValuePairList *head = nsnull, **tail = &head; for (;;) { if (!ParseBoxPositionValues(valuePair, !head)) { break; } PRBool inheritOrInitial = valuePair.mXValue.GetUnit() == eCSSUnit_Inherit || valuePair.mXValue.GetUnit() == eCSSUnit_Initial; nsCSSValuePairList *item = new nsCSSValuePairList; if (!item) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } item->mXValue = valuePair.mXValue; item->mYValue = valuePair.mYValue; *tail = item; tail = &item->mNext; if (!inheritOrInitial && ExpectSymbol(',', PR_TRUE)) { continue; } if (!ExpectEndProperty()) { break; } mTempData.mColor.mBackPosition = head; mTempData.SetPropertyBit(eCSSProperty_background_position); return PR_TRUE; } delete head; return PR_FALSE; } /** * Parses two values that correspond to positions in a box. These can be * values corresponding to percentages of the box, raw offsets, or keywords * like "top," "left center," etc. * * @param aOut The nsCSSValuePair in which to place the result. * @param aAcceptsInherit If true, 'inherit' and 'initial' are legal values * @return Whether or not the operation succeeded. */ PRBool CSSParserImpl::ParseBoxPositionValues(nsCSSValuePair &aOut, PRBool aAcceptsInherit) { // First try a percentage or a length value nsCSSValue &xValue = aOut.mXValue, &yValue = aOut.mYValue; PRInt32 variantMask = aAcceptsInherit ? VARIANT_HLP : VARIANT_LP; if (ParseVariant(xValue, variantMask, nsnull)) { if (eCSSUnit_Inherit == xValue.GetUnit() || eCSSUnit_Initial == xValue.GetUnit()) { // both are inherited or both are set to initial yValue = xValue; return PR_TRUE; } // We have one percentage/length. Get the optional second // percentage/length/keyword. if (ParseVariant(yValue, VARIANT_LP, nsnull)) { // We have two numbers return PR_TRUE; } if (ParseEnum(yValue, nsCSSProps::kBackgroundPositionKTable)) { PRInt32 yVal = yValue.GetIntValue(); if (!(yVal & BG_CTB)) { // The second keyword can only be 'center', 'top', or 'bottom' return PR_FALSE; } yValue = BoxPositionMaskToCSSValue(yVal, PR_FALSE); return PR_TRUE; } // If only one percentage or length value is given, it sets the // horizontal position only, and the vertical position will be 50%. yValue.SetPercentValue(0.5f); return PR_TRUE; } // 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; if (ParseEnum(xValue, nsCSSProps::kBackgroundPositionKTable)) { PRInt32 bit = xValue.GetIntValue(); mask |= bit; if (ParseEnum(xValue, nsCSSProps::kBackgroundPositionKTable)) { bit = xValue.GetIntValue(); if (mask & (bit & ~BG_CENTER)) { // Only the 'center' keyword can be duplicated. return PR_FALSE; } mask |= bit; } else { // Only one keyword. See if we have a length or percentage. if (ParseVariant(yValue, VARIANT_LP, nsnull)) { if (!(mask & BG_CLR)) { // The first keyword can only be 'center', 'left', or 'right' return PR_FALSE; } xValue = BoxPositionMaskToCSSValue(mask, PR_TRUE); return PR_TRUE; } } } // 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; } // Create style values xValue = BoxPositionMaskToCSSValue(mask, PR_TRUE); yValue = BoxPositionMaskToCSSValue(mask, PR_FALSE); return PR_TRUE; } // This function is very similar to ParseBackgroundList and // ParseBackgroundPosition. PRBool CSSParserImpl::ParseBackgroundSize() { nsCSSValuePair valuePair; nsCSSValuePairList *head = nsnull, **tail = &head; if (ParseVariant(valuePair.mXValue, VARIANT_INHERIT, nsnull)) { // 'initial' and 'inherit' stand alone, no second value. head = new nsCSSValuePairList; if (!head) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } head->mXValue = valuePair.mXValue; head->mYValue.Reset(); mTempData.mColor.mBackSize = head; mTempData.SetPropertyBit(eCSSProperty_background_size); return ExpectEndProperty(); } for (;;) { if (!ParseBackgroundSizeValues(valuePair)) { break; } nsCSSValuePairList *item = new nsCSSValuePairList; if (!item) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } item->mXValue = valuePair.mXValue; item->mYValue = valuePair.mYValue; *tail = item; tail = &item->mNext; if (ExpectSymbol(',', PR_TRUE)) { continue; } if (!ExpectEndProperty()) { break; } mTempData.mColor.mBackSize = head; mTempData.SetPropertyBit(eCSSProperty_background_size); return PR_TRUE; } delete head; return PR_FALSE; } /** * Parses two values that correspond to lengths for the background-size * property. These can be one or two lengths (or the 'auto' keyword) or * percentages corresponding to the element's dimensions or the single keywords * 'contain' or 'cover'. 'initial' and 'inherit' must be handled by the caller * if desired. * * @param aOut The nsCSSValuePair in which to place the result. * @return Whether or not the operation succeeded. */ PRBool CSSParserImpl::ParseBackgroundSizeValues(nsCSSValuePair &aOut) { // First try a percentage or a length value nsCSSValue &xValue = aOut.mXValue, &yValue = aOut.mYValue; if (ParseNonNegativeVariant(xValue, VARIANT_LP | VARIANT_AUTO, nsnull)) { // We have one percentage/length/auto. Get the optional second // percentage/length/keyword. if (ParseNonNegativeVariant(yValue, VARIANT_LP | VARIANT_AUTO, nsnull)) { // We have a second percentage/length/auto. return PR_TRUE; } // If only one percentage or length value is given, it sets the // horizontal size only, and the vertical size will be as if by 'auto'. yValue.SetAutoValue(); return PR_TRUE; } // Now address 'contain' and 'cover'. if (!ParseEnum(xValue, nsCSSProps::kBackgroundSizeKTable)) return PR_FALSE; yValue.Reset(); return PR_TRUE; } PRBool CSSParserImpl::ParseBorderColor() { static const nsCSSProperty kBorderColorSources[] = { eCSSProperty_border_left_color_ltr_source, eCSSProperty_border_left_color_rtl_source, eCSSProperty_border_right_color_ltr_source, eCSSProperty_border_right_color_rtl_source, eCSSProperty_UNKNOWN }; // do this now, in case 4 values weren't specified InitBoxPropsAsPhysical(kBorderColorSources); return ParseBoxProperties(mTempData.mMargin.mBorderColor, kBorderColorIDs); } PRBool CSSParserImpl::ParseBorderImage() { if (ParseVariant(mTempData.mMargin.mBorderImage, VARIANT_INHERIT | VARIANT_NONE, nsnull)) { mTempData.SetPropertyBit(eCSSProperty_border_image); return PR_TRUE; } // [ | ]{1,4} [ / {1,4} ]? [stretch | repeat | round]{0,2} nsRefPtr arr = nsCSSValue::Array::Create(11); if (!arr) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } nsCSSValue& url = arr->Item(0); nsCSSValue& splitTop = arr->Item(1); nsCSSValue& splitRight = arr->Item(2); nsCSSValue& splitBottom = arr->Item(3); nsCSSValue& splitLeft = arr->Item(4); nsCSSValue& borderWidthTop = arr->Item(5); nsCSSValue& borderWidthRight = arr->Item(6); nsCSSValue& borderWidthBottom = arr->Item(7); nsCSSValue& borderWidthLeft = arr->Item(8); nsCSSValue& horizontalKeyword = arr->Item(9); nsCSSValue& verticalKeyword = arr->Item(10); // if (!ParseVariant(url, VARIANT_URL, nsnull)) { return PR_FALSE; } // [ | ]{1,4} if (!ParseNonNegativeVariant(splitTop, VARIANT_NUMBER | VARIANT_PERCENT, nsnull)) { return PR_FALSE; } if (!ParseNonNegativeVariant(splitRight, VARIANT_NUMBER | VARIANT_PERCENT, nsnull)) { splitRight = splitTop; } if (!ParseNonNegativeVariant(splitBottom, VARIANT_NUMBER | VARIANT_PERCENT, nsnull)) { splitBottom = splitTop; } if (!ParseNonNegativeVariant(splitLeft, VARIANT_NUMBER | VARIANT_PERCENT, nsnull)) { splitLeft = splitRight; } // [ / {1,4} ]? if (ExpectSymbol('/', PR_TRUE)) { // if have '/', at least one value is required if (!ParseNonNegativeVariant(borderWidthTop, VARIANT_LENGTH, nsnull)) { return PR_FALSE; } if (!ParseNonNegativeVariant(borderWidthRight, VARIANT_LENGTH, nsnull)) { borderWidthRight = borderWidthTop; } if (!ParseNonNegativeVariant(borderWidthBottom, VARIANT_LENGTH, nsnull)) { borderWidthBottom = borderWidthTop; } if (!ParseNonNegativeVariant(borderWidthLeft, VARIANT_LENGTH, nsnull)) { borderWidthLeft = borderWidthRight; } } // [stretch | repeat | round]{0,2} // missing keywords are handled in nsRuleNode::ComputeBorderData() if (ParseEnum(horizontalKeyword, nsCSSProps::kBorderImageKTable)) { (void)ParseEnum(verticalKeyword, nsCSSProps::kBorderImageKTable); } if (!ExpectEndProperty()) { return PR_FALSE; } mTempData.mMargin.mBorderImage.SetArrayValue(arr, eCSSUnit_Array); mTempData.SetPropertyBit(eCSSProperty_border_image); return PR_TRUE; } PRBool CSSParserImpl::ParseBorderSpacing() { nsCSSValue xValue; if (ParseNonNegativeVariant(xValue, VARIANT_HL | VARIANT_CALC, nsnull)) { if (xValue.IsLengthUnit() || xValue.IsCalcUnit()) { // We have one length. Get the optional second length. nsCSSValue yValue; if (ParseNonNegativeVariant(yValue, VARIANT_LENGTH | VARIANT_CALC, nsnull)) { // We have two numbers if (ExpectEndProperty()) { mTempData.mTable.mBorderSpacing.mXValue = xValue; mTempData.mTable.mBorderSpacing.mYValue = yValue; mTempData.SetPropertyBit(eCSSProperty_border_spacing); 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()) { mTempData.mTable.mBorderSpacing.SetBothValuesTo(xValue); mTempData.SetPropertyBit(eCSSProperty_border_spacing); return PR_TRUE; } } return PR_FALSE; } PRBool CSSParserImpl::ParseBorderSide(const nsCSSProperty aPropIDs[], PRBool aSetAllSides) { const PRInt32 numProps = 3; nsCSSValue values[numProps]; PRInt32 found = ParseChoice(values, aPropIDs, numProps); if ((found < 1) || (PR_FALSE == ExpectEndProperty())) { 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].SetIntValue(NS_STYLE_BORDER_STYLE_NONE, eCSSUnit_Enumerated); } if ((found & 4) == 0) { // text color will be used values[2].SetIntValue(NS_STYLE_COLOR_MOZ_USE_TEXT_COLOR, eCSSUnit_Enumerated); } if (aSetAllSides) { static const nsCSSProperty kBorderSources[] = { eCSSProperty_border_left_color_ltr_source, eCSSProperty_border_left_color_rtl_source, eCSSProperty_border_right_color_ltr_source, eCSSProperty_border_right_color_rtl_source, eCSSProperty_border_left_style_ltr_source, eCSSProperty_border_left_style_rtl_source, eCSSProperty_border_right_style_ltr_source, eCSSProperty_border_right_style_rtl_source, eCSSProperty_border_left_width_ltr_source, eCSSProperty_border_left_width_rtl_source, eCSSProperty_border_right_width_ltr_source, eCSSProperty_border_right_width_rtl_source, eCSSProperty_UNKNOWN }; InitBoxPropsAsPhysical(kBorderSources); // Parsing "border" shorthand; set all four sides to the same thing for (PRInt32 index = 0; index < 4; index++) { NS_ASSERTION(numProps == 3, "This code needs updating"); AppendValue(kBorderWidthIDs[index], values[0]); AppendValue(kBorderStyleIDs[index], values[1]); AppendValue(kBorderColorIDs[index], values[2]); } static const nsCSSProperty kBorderColorsProps[] = { eCSSProperty_border_top_colors, eCSSProperty_border_right_colors, eCSSProperty_border_bottom_colors, eCSSProperty_border_left_colors }; // Set the other properties that the border shorthand sets to their // initial values. nsCSSValue extraValue; switch (values[0].GetUnit()) { case eCSSUnit_Inherit: extraValue.SetInheritValue(); break; case eCSSUnit_Initial: extraValue.SetInitialValue(); break; default: extraValue.SetNoneValue(); break; } NS_FOR_CSS_SIDES(side) { nsCSSValueList *l = new nsCSSValueList; if (!l) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } l->mValue = extraValue; mTempData.mMargin.mBorderColors.*(nsCSSValueListRect::sides[side]) = l; mTempData.SetPropertyBit(kBorderColorsProps[side]); } mTempData.mMargin.mBorderImage = extraValue; mTempData.SetPropertyBit(eCSSProperty_border_image); } else { // Just set our one side for (PRInt32 index = 0; index < numProps; index++) { AppendValue(aPropIDs[index], values[index]); } } return PR_TRUE; } PRBool CSSParserImpl::ParseDirectionalBorderSide(const nsCSSProperty aPropIDs[], PRInt32 aSourceType) { const PRInt32 numProps = 3; nsCSSValue values[numProps]; PRInt32 found = ParseChoice(values, aPropIDs, numProps); if ((found < 1) || (PR_FALSE == ExpectEndProperty())) { 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].SetIntValue(NS_STYLE_BORDER_STYLE_NONE, eCSSUnit_Enumerated); } if ((found & 4) == 0) { // text color will be used values[2].SetIntValue(NS_STYLE_COLOR_MOZ_USE_TEXT_COLOR, eCSSUnit_Enumerated); } for (PRInt32 index = 0; index < numProps; index++) { const nsCSSProperty* subprops = nsCSSProps::SubpropertyEntryFor(aPropIDs[index + numProps]); NS_ASSERTION(subprops[3] == eCSSProperty_UNKNOWN, "not box property with physical vs. logical cascading"); AppendValue(subprops[0], values[index]); nsCSSValue typeVal(aSourceType, eCSSUnit_Enumerated); AppendValue(subprops[1], typeVal); AppendValue(subprops[2], typeVal); } return PR_TRUE; } PRBool CSSParserImpl::ParseBorderStyle() { static const nsCSSProperty kBorderStyleSources[] = { eCSSProperty_border_left_style_ltr_source, eCSSProperty_border_left_style_rtl_source, eCSSProperty_border_right_style_ltr_source, eCSSProperty_border_right_style_rtl_source, eCSSProperty_UNKNOWN }; // do this now, in case 4 values weren't specified InitBoxPropsAsPhysical(kBorderStyleSources); return ParseBoxProperties(mTempData.mMargin.mBorderStyle, kBorderStyleIDs); } PRBool CSSParserImpl::ParseBorderWidth() { static const nsCSSProperty kBorderWidthSources[] = { eCSSProperty_border_left_width_ltr_source, eCSSProperty_border_left_width_rtl_source, eCSSProperty_border_right_width_ltr_source, eCSSProperty_border_right_width_rtl_source, eCSSProperty_UNKNOWN }; // do this now, in case 4 values weren't specified InitBoxPropsAsPhysical(kBorderWidthSources); return ParseBoxProperties(mTempData.mMargin.mBorderWidth, kBorderWidthIDs); } PRBool CSSParserImpl::ParseBorderColors(nsCSSValueList** aResult, nsCSSProperty aProperty) { nsCSSValueList *list = nsnull; for (nsCSSValueList **curp = &list, *cur; ; curp = &cur->mNext) { cur = *curp = new nsCSSValueList(); if (!cur) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } if (!ParseVariant(cur->mValue, (cur == list) ? (VARIANT_HCK | VARIANT_NONE) : (VARIANT_COLOR | VARIANT_KEYWORD), nsCSSProps::kBorderColorKTable)) { break; } if (ExpectEndProperty()) { // Only success case here, since having the failure case at the // end allows more sharing of code. mTempData.SetPropertyBit(aProperty); *aResult = list; return PR_TRUE; } if (cur->mValue.GetUnit() == eCSSUnit_Inherit || cur->mValue.GetUnit() == eCSSUnit_Initial || cur->mValue.GetUnit() == eCSSUnit_None) { // 'inherit', 'initial', and 'none' are only allowed on their own break; } } // Have failure case at the end so we can |break| to get to it. delete list; return PR_FALSE; } static PRBool HasMinMax(const nsCSSValue::Array *aArray) { for (PRUint32 i = 0, i_end = aArray->Count(); i != i_end; ++i) { const nsCSSValue &v = aArray->Item(i); if (v.IsCalcUnit() && (v.GetUnit() == eCSSUnit_Calc_Minimum || v.GetUnit() == eCSSUnit_Calc_Maximum || HasMinMax(v.GetArrayValue()))) { return PR_TRUE; } } return PR_FALSE; } // Parse the top level of a calc() expression, which can be calc(), // min(), or max(). PRBool CSSParserImpl::ParseCalc(nsCSSValue &aValue, PRInt32 aVariantMask) { // Parsing calc expressions requires, in a number of cases, looking // for a token that is *either* a value of the property or a number. // This can be done without lookahead when we assume that the property // values cannot themselves be numbers. NS_ASSERTION(!(aVariantMask & VARIANT_NUMBER), "unexpected variant mask"); NS_ABORT_IF_FALSE(aVariantMask != 0, "unexpected variant mask"); PRBool noMinMax = aVariantMask & VARIANT_CALC_NO_MIN_MAX; aVariantMask &= ~VARIANT_CALC_NO_MIN_MAX; nsCSSUnit unit; if (mToken.mIdent.LowerCaseEqualsLiteral("-moz-min")) { unit = eCSSUnit_Calc_Minimum; } else if (mToken.mIdent.LowerCaseEqualsLiteral("-moz-max")) { unit = eCSSUnit_Calc_Maximum; } else { NS_ASSERTION(mToken.mIdent.LowerCaseEqualsLiteral("-moz-calc"), "unexpected function"); unit = eCSSUnit_Calc; } if (unit != eCSSUnit_Calc) { if (noMinMax) { SkipUntil(')'); return PR_FALSE; } return ParseCalcMinMax(aValue, unit, aVariantMask); } // One-iteration loop so we can break to the error-handling case. do { // The toplevel of a calc() is always an nsCSSValue::Array of length 1. nsRefPtr arr = nsCSSValue::Array::Create(1); if (!arr) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } if (!ParseCalcAdditiveExpression(arr->Item(0), aVariantMask)) break; if (!ExpectSymbol(')', PR_TRUE)) break; if (noMinMax && HasMinMax(arr)) { return PR_FALSE; } aValue.SetArrayValue(arr, eCSSUnit_Calc); return PR_TRUE; } while (PR_FALSE); SkipUntil(')'); return PR_FALSE; } // We optimize away the production given that // ParseVariant consumes initial whitespace and we call // ExpectSymbol(')') with PR_TRUE for aSkipWS. // * If aVariantMask is VARIANT_NUMBER, this function parses the // production. // * If aVariantMask does not contain VARIANT_NUMBER, this function // parses the production. // * Otherwise (VARIANT_NUMBER and other bits) this function parses // whichever one of the productions matches ***and modifies // aVariantMask*** to reflect which one it has parsed by either // removing VARIANT_NUMBER or removing all other bits. // It does so iteratively, but builds the correct recursive // data structure. PRBool CSSParserImpl::ParseCalcAdditiveExpression(nsCSSValue& aValue, PRInt32& aVariantMask) { NS_ABORT_IF_FALSE(aVariantMask != 0, "unexpected variant mask"); nsCSSValue *storage = &aValue; for (;;) { PRBool haveWS; if (!ParseCalcMultiplicativeExpression(*storage, aVariantMask, &haveWS)) return PR_FALSE; if (!haveWS || !GetToken(PR_FALSE)) return PR_TRUE; nsCSSUnit unit; if (mToken.IsSymbol('+')) { unit = eCSSUnit_Calc_Plus; } else if (mToken.IsSymbol('-')) { unit = eCSSUnit_Calc_Minus; } else { UngetToken(); return PR_TRUE; } if (!RequireWhitespace()) return PR_FALSE; nsRefPtr arr = nsCSSValue::Array::Create(2); if (!arr) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } arr->Item(0) = aValue; storage = &arr->Item(1); aValue.SetArrayValue(arr, unit); } } struct ReduceNumberCalcOps : public mozilla::css::BasicFloatCalcOps, public mozilla::css::CSSValueInputCalcOps { result_type ComputeLeafValue(const nsCSSValue& aValue) { NS_ABORT_IF_FALSE(aValue.GetUnit() == eCSSUnit_Number, "unexpected unit"); return aValue.GetFloatValue(); } float ComputeNumber(const nsCSSValue& aValue) { return mozilla::css::ComputeCalc(aValue, *this); } }; // * If aVariantMask is VARIANT_NUMBER, this function parses the // production. // * If aVariantMask does not contain VARIANT_NUMBER, this function // parses the production. // * Otherwise (VARIANT_NUMBER and other bits) this function parses // whichever one of the productions matches ***and modifies // aVariantMask*** to reflect which one it has parsed by either // removing VARIANT_NUMBER or removing all other bits. // It does so iteratively, but builds the correct recursive data // structure. // This function always consumes *trailing* whitespace when it returns // true; whether there was any such whitespace is returned in the // aHadFinalWS parameter. PRBool CSSParserImpl::ParseCalcMultiplicativeExpression(nsCSSValue& aValue, PRInt32& aVariantMask, PRBool *aHadFinalWS) { NS_ABORT_IF_FALSE(aVariantMask != 0, "unexpected variant mask"); PRBool gotValue = PR_FALSE; // already got the part with the unit PRBool afterDivision = PR_FALSE; nsCSSValue *storage = &aValue; for (;;) { PRInt32 variantMask; if (afterDivision || gotValue) { variantMask = VARIANT_NUMBER; } else { variantMask = aVariantMask | VARIANT_NUMBER; } if (!ParseCalcTerm(*storage, variantMask)) return PR_FALSE; NS_ABORT_IF_FALSE(variantMask != 0, "ParseCalcTerm did not set variantMask appropriately"); NS_ABORT_IF_FALSE(!(variantMask & VARIANT_NUMBER) || !(variantMask & ~PRInt32(VARIANT_NUMBER)), "ParseCalcTerm did not set variantMask appropriately"); if (variantMask & VARIANT_NUMBER) { // Simplify the value immediately so we can check for division by // zero. ReduceNumberCalcOps ops; float number = mozilla::css::ComputeCalc(*storage, ops); if (number == 0.0 && afterDivision) return PR_FALSE; storage->SetFloatValue(number, eCSSUnit_Number); } else { gotValue = PR_TRUE; if (storage != &aValue) { // Simplify any numbers in the Times_L position (which are // not simplified by the check above). NS_ABORT_IF_FALSE(storage == &aValue.GetArrayValue()->Item(1), "unexpected relationship to current storage"); nsCSSValue &leftValue = aValue.GetArrayValue()->Item(0); ReduceNumberCalcOps ops; float number = mozilla::css::ComputeCalc(leftValue, ops); leftValue.SetFloatValue(number, eCSSUnit_Number); } } PRBool hadWS = RequireWhitespace(); if (!GetToken(PR_FALSE)) { *aHadFinalWS = hadWS; break; } nsCSSUnit unit; if (mToken.IsSymbol('*')) { unit = gotValue ? eCSSUnit_Calc_Times_R : eCSSUnit_Calc_Times_L; afterDivision = PR_FALSE; } else if (mToken.IsSymbol('/')) { unit = eCSSUnit_Calc_Divided; afterDivision = PR_TRUE; } else { UngetToken(); *aHadFinalWS = hadWS; break; } nsRefPtr arr = nsCSSValue::Array::Create(2); if (!arr) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } arr->Item(0) = aValue; storage = &arr->Item(1); aValue.SetArrayValue(arr, unit); } // Adjust aVariantMask (see comments above function) to reflect which // option we took. if (aVariantMask & VARIANT_NUMBER) { if (gotValue) { aVariantMask &= ~PRInt32(VARIANT_NUMBER); } else { aVariantMask = VARIANT_NUMBER; } } else { if (!gotValue) { // We had to find a value, but we didn't. return PR_FALSE; } } return PR_TRUE; } // * If aVariantMask is VARIANT_NUMBER, this function parses the // production. // * If aVariantMask does not contain VARIANT_NUMBER, this function // parses the production. // * Otherwise (VARIANT_NUMBER and other bits) this function parses // whichever one of the productions matches ***and modifies // aVariantMask*** to reflect which one it has parsed by either // removing VARIANT_NUMBER or removing all other bits. PRBool CSSParserImpl::ParseCalcTerm(nsCSSValue& aValue, PRInt32& aVariantMask) { NS_ABORT_IF_FALSE(aVariantMask != 0, "unexpected variant mask"); if (!GetToken(PR_TRUE)) return PR_FALSE; // Either an additive expression in parentheses... if (mToken.IsSymbol('(')) { if (!ParseCalcAdditiveExpression(aValue, aVariantMask) || !ExpectSymbol(')', PR_TRUE)) { SkipUntil(')'); return PR_FALSE; } return PR_TRUE; } // ... or a min() or max() expression if (mToken.mType == eCSSToken_Function && (mToken.mIdent.LowerCaseEqualsLiteral("min") || mToken.mIdent.LowerCaseEqualsLiteral("max"))) { nsCSSUnit unit = mToken.mIdent.LowerCaseEqualsLiteral("min") ? eCSSUnit_Calc_Minimum : eCSSUnit_Calc_Maximum; return ParseCalcMinMax(aValue, unit, aVariantMask); } // ... or just a value UngetToken(); if (!ParseVariant(aValue, aVariantMask, nsnull)) { return PR_FALSE; } // If we did the value parsing, we need to adjust aVariantMask to // reflect which option we took (see above). if (aVariantMask & VARIANT_NUMBER) { if (aValue.GetUnit() == eCSSUnit_Number) { aVariantMask = VARIANT_NUMBER; } else { aVariantMask &= ~PRInt32(VARIANT_NUMBER); } } return PR_TRUE; } // This function handles and modifies aVariantMask exactly as // described for ParcCalcTerm above. PRBool CSSParserImpl::ParseCalcMinMax(nsCSSValue& aValue, nsCSSUnit aUnit, PRInt32& aVariantMask) { NS_ABORT_IF_FALSE(aVariantMask != 0, "unexpected variant mask"); NS_ASSERTION(aUnit == eCSSUnit_Calc_Minimum || aUnit == eCSSUnit_Calc_Maximum, "unexpected unit"); NS_ASSERTION(mToken.mType == eCSSToken_Function, "unexpected current token"); NS_ASSERTION(aUnit != eCSSUnit_Calc_Minimum || mToken.mIdent.LowerCaseEqualsLiteral("min") || mToken.mIdent.LowerCaseEqualsLiteral("-moz-min"), "unexpected current token"); NS_ASSERTION(aUnit != eCSSUnit_Calc_Maximum || mToken.mIdent.LowerCaseEqualsLiteral("max") || mToken.mIdent.LowerCaseEqualsLiteral("-moz-max"), "unexpected current token"); nsAutoTArray values; for (;;) { nsCSSValue *v = values.AppendElement(); if (!v) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } if (!ParseCalcAdditiveExpression(*v, aVariantMask)) return PR_FALSE; NS_ABORT_IF_FALSE(!(aVariantMask & VARIANT_NUMBER) || !(aVariantMask & ~PRInt32(VARIANT_NUMBER)), "parsing additive expr did not adjust variant mask"); NS_ABORT_IF_FALSE(aVariantMask != 0, "unexpected variant mask"); if (ExpectSymbol(',', PR_TRUE)) continue; if (ExpectSymbol(')', PR_TRUE)) break; SkipUntil(')'); return PR_FALSE; } // We allow min() and max() to take 1 or more arguments; the code // above already ensures that. NS_ABORT_IF_FALSE(values.Length() > 0, "unexpected length"); nsRefPtr arr = nsCSSValue::Array::Create(values.Length()); if (!arr) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } for (PRUint32 i = 0, i_end = values.Length(); i < i_end; ++i) { arr->Item(i) = values[i]; } aValue.SetArrayValue(arr, aUnit); return PR_TRUE; } // This function consumes all consecutive whitespace and returns whether // there was any. PRBool CSSParserImpl::RequireWhitespace() { if (!GetToken(PR_FALSE)) return PR_FALSE; if (mToken.mType != eCSSToken_WhiteSpace) { UngetToken(); return PR_FALSE; } // Skip any additional whitespace tokens. if (GetToken(PR_TRUE)) { UngetToken(); } return PR_TRUE; } PRBool CSSParserImpl::ParseRect(nsCSSRect& aRect, nsCSSProperty aPropID) { nsCSSRect rect; PRBool result; if ((result = DoParseRect(rect)) && rect != aRect) { aRect = rect; mTempData.SetPropertyBit(aPropID); } return result; } PRBool CSSParserImpl::DoParseRect(nsCSSRect& aRect) { if (! GetToken(PR_TRUE)) { return PR_FALSE; } if (eCSSToken_Ident == mToken.mType) { nsCSSKeyword keyword = nsCSSKeywords::LookupKeyword(mToken.mIdent); switch (keyword) { case eCSSKeyword_auto: if (ExpectEndProperty()) { aRect.SetAllSidesTo(nsCSSValue(eCSSUnit_RectIsAuto)); return PR_TRUE; } break; case eCSSKeyword_inherit: if (ExpectEndProperty()) { aRect.SetAllSidesTo(nsCSSValue(eCSSUnit_Inherit)); return PR_TRUE; } break; case eCSSKeyword__moz_initial: if (ExpectEndProperty()) { aRect.SetAllSidesTo(nsCSSValue(eCSSUnit_Initial)); return PR_TRUE; } break; default: UngetToken(); break; } } else if ((eCSSToken_Function == mToken.mType) && mToken.mIdent.LowerCaseEqualsLiteral("rect")) { NS_FOR_CSS_SIDES(side) { if (! ParseVariant(aRect.*(nsCSSRect::sides[side]), VARIANT_AL, nsnull)) { return PR_FALSE; } if (3 != side) { // skip optional commas between elements (void)ExpectSymbol(',', PR_TRUE); } } if (!ExpectSymbol(')', PR_TRUE)) { return PR_FALSE; } if (ExpectEndProperty()) { return PR_TRUE; } } else { UngetToken(); } return PR_FALSE; } #define VARIANT_CONTENT (VARIANT_STRING | VARIANT_URL | VARIANT_COUNTER | VARIANT_ATTR | \ VARIANT_KEYWORD) PRBool CSSParserImpl::ParseContent() { // XXX Rewrite to make it look more like ParseCursor or ParseCounterData? nsCSSValue value; if (ParseVariant(value, VARIANT_CONTENT | VARIANT_INHERIT | VARIANT_NORMAL | VARIANT_NONE, nsCSSProps::kContentKTable)) { nsCSSValueList* listHead = new nsCSSValueList(); nsCSSValueList* list = listHead; if (nsnull == list) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } list->mValue = value; while (nsnull != list) { if (ExpectEndProperty()) { mTempData.SetPropertyBit(eCSSProperty_content); mTempData.mContent.mContent = listHead; return PR_TRUE; } if (eCSSUnit_Inherit == value.GetUnit() || eCSSUnit_Initial == value.GetUnit() || eCSSUnit_Normal == value.GetUnit() || eCSSUnit_None == value.GetUnit() || (eCSSUnit_Enumerated == value.GetUnit() && NS_STYLE_CONTENT_ALT_CONTENT == value.GetIntValue())) { // This only matters the first time through the loop. delete listHead; return PR_FALSE; } if (ParseVariant(value, VARIANT_CONTENT, nsCSSProps::kContentKTable) && // Make sure we didn't end up with NS_STYLE_CONTENT_ALT_CONTENT here (value.GetUnit() != eCSSUnit_Enumerated || value.GetIntValue() != NS_STYLE_CONTENT_ALT_CONTENT)) { list->mNext = new nsCSSValueList(); list = list->mNext; if (nsnull != list) { list->mValue = value; } else { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); } } else { break; } } delete listHead; } return PR_FALSE; } struct SingleCounterPropValue { char str[13]; nsCSSUnit unit; }; PRBool CSSParserImpl::ParseCounterData(nsCSSValuePairList** aResult, nsCSSProperty aPropID) { nsSubstring* ident = NextIdent(); if (nsnull == ident) { return PR_FALSE; } static const SingleCounterPropValue singleValues[] = { { "none", eCSSUnit_None }, { "inherit", eCSSUnit_Inherit }, { "-moz-initial", eCSSUnit_Initial } }; for (const SingleCounterPropValue *sv = singleValues, *sv_end = singleValues + NS_ARRAY_LENGTH(singleValues); sv != sv_end; ++sv) { if (ident->LowerCaseEqualsASCII(sv->str)) { if (CheckEndProperty()) { nsCSSValuePairList* dataHead = new nsCSSValuePairList(); if (!dataHead) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } dataHead->mXValue = nsCSSValue(sv->unit); *aResult = dataHead; mTempData.SetPropertyBit(aPropID); return PR_TRUE; } return PR_FALSE; } } UngetToken(); // undo NextIdent nsCSSValuePairList* dataHead = nsnull; nsCSSValuePairList **next = &dataHead; for (;;) { if (!GetToken(PR_TRUE) || mToken.mType != eCSSToken_Ident) { break; } nsCSSValuePairList *data = *next = new nsCSSValuePairList(); if (!data) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } next = &data->mNext; data->mXValue.SetStringValue(mToken.mIdent, eCSSUnit_Ident); if (GetToken(PR_TRUE)) { if (eCSSToken_Number == mToken.mType && mToken.mIntegerValid) { data->mYValue.SetIntValue(mToken.mInteger, eCSSUnit_Integer); } else { UngetToken(); } } if (ExpectEndProperty()) { mTempData.SetPropertyBit(aPropID); *aResult = dataHead; return PR_TRUE; } } delete dataHead; return PR_FALSE; } PRBool CSSParserImpl::ParseCue() { nsCSSValue before; if (ParseSingleValueProperty(before, eCSSProperty_cue_before)) { if (eCSSUnit_Inherit != before.GetUnit() && eCSSUnit_Initial != before.GetUnit()) { nsCSSValue after; if (ParseSingleValueProperty(after, eCSSProperty_cue_after)) { if (ExpectEndProperty()) { AppendValue(eCSSProperty_cue_before, before); AppendValue(eCSSProperty_cue_after, after); return PR_TRUE; } return PR_FALSE; } } if (ExpectEndProperty()) { AppendValue(eCSSProperty_cue_before, before); AppendValue(eCSSProperty_cue_after, before); return PR_TRUE; } } return PR_FALSE; } PRBool CSSParserImpl::ParseCursor() { nsCSSValueList *list = nsnull; for (nsCSSValueList **curp = &list, *cur; ; curp = &cur->mNext) { cur = *curp = new nsCSSValueList(); if (!cur) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } if (!ParseVariant(cur->mValue, (cur == list) ? VARIANT_HUK : VARIANT_UK, nsCSSProps::kCursorKTable)) { break; } if (cur->mValue.GetUnit() != eCSSUnit_URL) { if (!ExpectEndProperty()) { break; } // Only success case here, since having the failure case at the // end allows more sharing of code. mTempData.SetPropertyBit(eCSSProperty_cursor); mTempData.mUserInterface.mCursor = list; return PR_TRUE; } // We have a URL, so make a value array with three values. nsRefPtr val = nsCSSValue::Array::Create(3); if (!val) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } val->Item(0) = cur->mValue; cur->mValue.SetArrayValue(val, eCSSUnit_Array); // Parse optional x and y position of cursor hotspot (css3-ui). if (ParseVariant(val->Item(1), VARIANT_NUMBER, nsnull)) { // If we have one number, we must have two. if (!ParseVariant(val->Item(2), VARIANT_NUMBER, nsnull)) { break; } } if (!ExpectSymbol(',', PR_TRUE)) { break; } } // Have failure case at the end so we can |break| to get to it. delete list; return PR_FALSE; } PRBool CSSParserImpl::ParseFont() { static const nsCSSProperty fontIDs[] = { eCSSProperty_font_style, eCSSProperty_font_variant, eCSSProperty_font_weight }; nsCSSValue family; if (ParseVariant(family, VARIANT_HK, nsCSSProps::kFontKTable)) { if (ExpectEndProperty()) { if (eCSSUnit_Inherit == family.GetUnit() || eCSSUnit_Initial == family.GetUnit()) { AppendValue(eCSSProperty__x_system_font, nsCSSValue(eCSSUnit_None)); AppendValue(eCSSProperty_font_family, family); AppendValue(eCSSProperty_font_style, family); AppendValue(eCSSProperty_font_variant, family); AppendValue(eCSSProperty_font_weight, family); AppendValue(eCSSProperty_font_size, family); AppendValue(eCSSProperty_line_height, family); AppendValue(eCSSProperty_font_stretch, family); AppendValue(eCSSProperty_font_size_adjust, family); AppendValue(eCSSProperty_font_feature_settings, family); AppendValue(eCSSProperty_font_language_override, family); } else { AppendValue(eCSSProperty__x_system_font, family); nsCSSValue systemFont(eCSSUnit_System_Font); AppendValue(eCSSProperty_font_family, systemFont); AppendValue(eCSSProperty_font_style, systemFont); AppendValue(eCSSProperty_font_variant, systemFont); AppendValue(eCSSProperty_font_weight, systemFont); AppendValue(eCSSProperty_font_size, systemFont); AppendValue(eCSSProperty_line_height, systemFont); AppendValue(eCSSProperty_font_stretch, systemFont); AppendValue(eCSSProperty_font_size_adjust, systemFont); AppendValue(eCSSProperty_font_feature_settings, systemFont); AppendValue(eCSSProperty_font_language_override, systemFont); } 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(values, fontIDs, numProps); if ((found < 0) || (eCSSUnit_Inherit == values[0].GetUnit()) || (eCSSUnit_Initial == values[0].GetUnit())) { // illegal data return PR_FALSE; } if ((found & 1) == 0) { // Provide default font-style values[0].SetIntValue(NS_FONT_STYLE_NORMAL, eCSSUnit_Enumerated); } if ((found & 2) == 0) { // Provide default font-variant values[1].SetIntValue(NS_FONT_VARIANT_NORMAL, eCSSUnit_Enumerated); } if ((found & 4) == 0) { // Provide default font-weight values[2].SetIntValue(NS_FONT_WEIGHT_NORMAL, eCSSUnit_Enumerated); } // Get mandatory font-size nsCSSValue size; if (! ParseVariant(size, VARIANT_KEYWORD | VARIANT_LP, nsCSSProps::kFontSizeKTable)) { return PR_FALSE; } // Get optional "/" line-height nsCSSValue lineHeight; if (ExpectSymbol('/', PR_TRUE)) { if (! ParseNonNegativeVariant(lineHeight, VARIANT_NUMBER | VARIANT_LP | VARIANT_NORMAL, nsnull)) { return PR_FALSE; } } else { lineHeight.SetNormalValue(); } // Get final mandatory font-family nsAutoParseCompoundProperty compound(this); if (ParseFamily(family)) { if ((eCSSUnit_Inherit != family.GetUnit()) && (eCSSUnit_Initial != family.GetUnit()) && ExpectEndProperty()) { AppendValue(eCSSProperty__x_system_font, nsCSSValue(eCSSUnit_None)); AppendValue(eCSSProperty_font_family, family); AppendValue(eCSSProperty_font_style, values[0]); AppendValue(eCSSProperty_font_variant, values[1]); AppendValue(eCSSProperty_font_weight, values[2]); AppendValue(eCSSProperty_font_size, size); AppendValue(eCSSProperty_line_height, lineHeight); AppendValue(eCSSProperty_font_stretch, nsCSSValue(NS_FONT_STRETCH_NORMAL, eCSSUnit_Enumerated)); AppendValue(eCSSProperty_font_size_adjust, nsCSSValue(eCSSUnit_None)); AppendValue(eCSSProperty_font_feature_settings, nsCSSValue(eCSSUnit_Normal)); AppendValue(eCSSProperty_font_language_override, nsCSSValue(eCSSUnit_Normal)); return PR_TRUE; } } return PR_FALSE; } PRBool CSSParserImpl::ParseFontWeight(nsCSSValue& aValue) { if (ParseVariant(aValue, VARIANT_HKI | VARIANT_SYSFONT, nsCSSProps::kFontWeightKTable)) { if (eCSSUnit_Integer == aValue.GetUnit()) { // ensure unit value PRInt32 intValue = aValue.GetIntValue(); if ((100 <= intValue) && (intValue <= 900) && (0 == (intValue % 100))) { return PR_TRUE; } else { UngetToken(); return PR_FALSE; } } return PR_TRUE; } return PR_FALSE; } PRBool CSSParserImpl::ParseOneFamily(nsAString& aFamily) { if (!GetToken(PR_TRUE)) return PR_FALSE; nsCSSToken* tk = &mToken; if (eCSSToken_Ident == tk->mType) { aFamily.Append(tk->mIdent); for (;;) { if (!GetToken(PR_FALSE)) break; if (eCSSToken_Ident == tk->mType) { aFamily.Append(tk->mIdent); } else if (eCSSToken_WhiteSpace == tk->mType) { // Lookahead one token and drop whitespace if we are ending the // font name. if (!GetToken(PR_TRUE)) break; UngetToken(); if (eCSSToken_Ident == tk->mType) aFamily.Append(PRUnichar(' ')); else break; } else { UngetToken(); break; } } return PR_TRUE; } else if (eCSSToken_String == tk->mType) { aFamily.Append(tk->mSymbol); // replace the quotes aFamily.Append(tk->mIdent); // XXX What if it had escaped quotes? aFamily.Append(tk->mSymbol); return PR_TRUE; } else { UngetToken(); return PR_FALSE; } } /////////////////////////////////////////////////////// // -moz-transform Parsing Implementation /* Reads a function list of arguments. Do not call this function * directly; it's mean to be caled from ParseFunction. */ PRBool CSSParserImpl::ParseFunctionInternals(const PRInt32 aVariantMask[], PRUint16 aMinElems, PRUint16 aMaxElems, nsTArray &aOutput) { for (PRUint16 index = 0; index < aMaxElems; ++index) { nsCSSValue newValue; if (!ParseVariant(newValue, aVariantMask[index], nsnull)) return PR_FALSE; if (!aOutput.AppendElement(newValue)) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } // See whether to continue or whether to look for end of function. if (!ExpectSymbol(',', PR_TRUE)) { // We need to read the closing parenthesis, and also must take care // that we haven't read too few symbols. return ExpectSymbol(')', PR_TRUE) && (index + 1) >= aMinElems; } } // If we're here, we finished looping without hitting the end, so we read too // many elements. return PR_FALSE; } /* Parses a function [ input of the form (a [, b]*) ] and stores it * as an nsCSSValue that holds a function of the form * function-name arg1 arg2 ... argN * * On error, the return value is PR_FALSE. * * @param aFunction The name of the function that we're reading. * @param aAllowedTypes An array of values corresponding to the legal * types for each element in the function. The zeroth element in the * array corresponds to the first function parameter, etc. The length * of this array _must_ be greater than or equal to aMaxElems or the * behavior is undefined. * @param aMinElems Minimum number of elements to read. Reading fewer than * this many elements will result in the function failing. * @param aMaxElems Maximum number of elements to read. Reading more than * this many elements will result in the function failing. * @param aValue (out) The value that was parsed. */ PRBool CSSParserImpl::ParseFunction(const nsString &aFunction, const PRInt32 aAllowedTypes[], PRUint16 aMinElems, PRUint16 aMaxElems, nsCSSValue &aValue) { typedef nsTArray::size_type arrlen_t; /* 2^16 - 2, so that if we have 2^16 - 2 transforms, we have 2^16 - 1 * elements stored in the the nsCSSValue::Array. */ static const arrlen_t MAX_ALLOWED_ELEMS = 0xFFFE; /* Make a copy of the function name, since the reference is _probably_ to * mToken.mIdent, which is going to get overwritten during the course of this * function. */ nsString functionName(aFunction); /* Read in a list of values as an nsTArray, failing if we can't or if * it's out of bounds. */ nsTArray foundValues; if (!ParseFunctionInternals(aAllowedTypes, aMinElems, aMaxElems, foundValues)) return PR_FALSE; /* Now, convert this nsTArray into an nsCSSValue::Array object. * We'll need N + 1 spots, one for the function name and the rest for the * arguments. In case the user has given us more than 2^16 - 2 arguments, * we'll truncate them at 2^16 - 2 arguments. */ PRUint16 numElements = (foundValues.Length() <= MAX_ALLOWED_ELEMS ? foundValues.Length() + 1 : MAX_ALLOWED_ELEMS); nsRefPtr convertedArray = nsCSSValue::Array::Create(numElements); if (!convertedArray) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } /* Copy things over. */ convertedArray->Item(0).SetStringValue(functionName, eCSSUnit_Ident); for (PRUint16 index = 0; index + 1 < numElements; ++index) convertedArray->Item(index + 1) = foundValues[static_cast(index)]; /* Fill in the outparam value with the array. */ aValue.SetArrayValue(convertedArray, eCSSUnit_Function); /* Return it! */ return PR_TRUE; } /** * Given a token, determines the minimum and maximum number of function * parameters to read, along with the mask that should be used to read * those function parameters. If the token isn't a transform function, * returns an error. * * @param aToken The token identifying the function. * @param aMinElems [out] The minimum number of elements to read. * @param aMaxElems [out] The maximum number of elements to read * @param aVariantMask [out] The variant mask to use during parsing * @return Whether the information was loaded successfully. */ static PRBool GetFunctionParseInformation(nsCSSKeyword aToken, PRUint16 &aMinElems, PRUint16 &aMaxElems, const PRInt32 *& aVariantMask) { /* These types represent the common variant masks that will be used to * parse out the individual functions. The order in the enumeration * must match the order in which the masks are declared. */ enum { eLengthPercentCalc, eTwoLengthPercentCalcs, eAngle, eTwoAngles, eNumber, eTwoNumbers, eMatrix, eNumVariantMasks }; static const PRInt32 kMaxElemsPerFunction = 6; static const PRInt32 kVariantMasks[eNumVariantMasks][kMaxElemsPerFunction] = { {VARIANT_TRANSFORM_LPCALC}, {VARIANT_TRANSFORM_LPCALC, VARIANT_TRANSFORM_LPCALC}, {VARIANT_ANGLE_OR_ZERO}, {VARIANT_ANGLE_OR_ZERO, VARIANT_ANGLE_OR_ZERO}, {VARIANT_NUMBER}, {VARIANT_NUMBER, VARIANT_NUMBER}, {VARIANT_NUMBER, VARIANT_NUMBER, VARIANT_NUMBER, VARIANT_NUMBER, VARIANT_TRANSFORM_LPCALC, VARIANT_TRANSFORM_LPCALC}}; #ifdef DEBUG static const PRUint8 kVariantMaskLengths[eNumVariantMasks] = {1, 2, 1, 2, 1, 2, 6}; #endif PRInt32 variantIndex = eNumVariantMasks; switch (aToken) { case eCSSKeyword_translatex: case eCSSKeyword_translatey: /* Exactly one length or percent. */ variantIndex = eLengthPercentCalc; aMinElems = 1U; aMaxElems = 1U; break; case eCSSKeyword_scalex: /* Exactly one scale factor. */ variantIndex = eNumber; aMinElems = 1U; aMaxElems = 1U; break; case eCSSKeyword_scaley: /* Exactly one scale factor. */ variantIndex = eNumber; aMinElems = 1U; aMaxElems = 1U; break; case eCSSKeyword_rotate: /* Exactly one angle. */ variantIndex = eAngle; aMinElems = 1U; aMaxElems = 1U; break; case eCSSKeyword_translate: /* One or two lengths or percents. */ variantIndex = eTwoLengthPercentCalcs; aMinElems = 1U; aMaxElems = 2U; break; case eCSSKeyword_skew: /* Exactly one or two angles. */ variantIndex = eTwoAngles; aMinElems = 1U; aMaxElems = 2U; break; case eCSSKeyword_scale: /* One or two scale factors. */ variantIndex = eTwoNumbers; aMinElems = 1U; aMaxElems = 2U; break; case eCSSKeyword_skewx: /* Exactly one angle. */ variantIndex = eAngle; aMinElems = 1U; aMaxElems = 1U; break; case eCSSKeyword_skewy: /* Exactly one angle. */ variantIndex = eAngle; aMinElems = 1U; aMaxElems = 1U; break; case eCSSKeyword_matrix: /* Six values, which can be numbers, lengths, or percents. */ variantIndex = eMatrix; aMinElems = 6U; aMaxElems = 6U; break; default: /* Oh dear, we didn't match. Report an error. */ return PR_FALSE; } NS_ASSERTION(aMinElems > 0, "Didn't update minimum elements!"); NS_ASSERTION(aMaxElems > 0, "Didn't update maximum elements!"); NS_ASSERTION(aMinElems <= aMaxElems, "aMinElems > aMaxElems!"); NS_ASSERTION(variantIndex >= 0, "Invalid variant mask!"); NS_ASSERTION(variantIndex < eNumVariantMasks, "Invalid variant mask!"); #ifdef DEBUG NS_ASSERTION(aMaxElems <= kVariantMaskLengths[variantIndex], "Invalid aMaxElems for this variant mask."); #endif // Convert the index into a mask. aVariantMask = kVariantMasks[variantIndex]; return PR_TRUE; } /* Reads a single transform function from the tokenizer stream, reporting an * error if something goes wrong. */ PRBool CSSParserImpl::ReadSingleTransform(nsCSSValueList **& aTail) { typedef nsTArray::size_type arrlen_t; if (!GetToken(PR_TRUE)) return PR_FALSE; /* Check to make sure that we've read a function. */ if (mToken.mType != eCSSToken_Function) { UngetToken(); return PR_FALSE; } /* Load up the variant mask information for ParseFunction. If we can't, * abort. */ const PRInt32* variantMask; PRUint16 minElems, maxElems; if (!GetFunctionParseInformation(nsCSSKeywords::LookupKeyword(mToken.mIdent), minElems, maxElems, variantMask)) return PR_FALSE; /* Create a cell to populate, fail if we're out of memory. */ nsAutoPtr newCell(new nsCSSValue); if (!newCell) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } /* Try reading things in, failing if we can't */ if (!ParseFunction(mToken.mIdent, variantMask, minElems, maxElems, *newCell)) return PR_FALSE; /* Wrap up our result in an nsCSSValueList cell. */ nsAutoPtr toAppend(new nsCSSValueList); if (!toAppend) return PR_FALSE; toAppend->mValue = *newCell; /* Chain the element to the end of the transform list, then update the * list. */ *aTail = toAppend.forget(); aTail = &(*aTail)->mNext; /* It worked! Return true. */ return PR_TRUE; } /* Parses a -moz-transform property list by continuously reading in properties * and constructing a matrix from it. */ PRBool CSSParserImpl::ParseMozTransform() { mTempData.mDisplay.mTransform = nsnull; /* First, check to see if this is some sort of keyword - none, inherit, * or initial. */ nsCSSValue keywordValue; if (ParseVariant(keywordValue, VARIANT_INHERIT | VARIANT_NONE, nsnull)) { /* Looks like it is. Make a new value list and fill it in, failing if * we can't. */ mTempData.mDisplay.mTransform = new nsCSSValueList; if (!mTempData.mDisplay.mTransform) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } /* Inform the parser that everything worked. */ mTempData.mDisplay.mTransform->mValue = keywordValue; mTempData.SetPropertyBit(eCSSProperty__moz_transform); return PR_TRUE; } /* We will read a nonempty list of transforms. Thus we'll read in a * transform, then continuously read transforms until we're no longer * able to do so. */ nsCSSValueList *transformList = nsnull; nsCSSValueList **tail = &transformList; do { /* Try reading a transform. If we fail to do so, abort. */ if (!ReadSingleTransform(tail)) { delete transformList; return PR_FALSE; } } while (!CheckEndProperty()); /* Confirm that this is the end of the property and set error code * appropriately otherwise. */ if (!ExpectEndProperty()) { delete transformList; return PR_FALSE; } /* Validate our data. */ NS_ASSERTION(transformList, "Didn't read any transforms!"); mTempData.SetPropertyBit(eCSSProperty__moz_transform); mTempData.mDisplay.mTransform = transformList; return PR_TRUE; } PRBool CSSParserImpl::ParseMozTransformOrigin() { /* Read in a box position, fail if we can't. */ if (!ParseBoxPositionValues(mTempData.mDisplay.mTransformOrigin, PR_TRUE) || !ExpectEndProperty()) return PR_FALSE; /* Set the property bit and return. */ mTempData.SetPropertyBit(eCSSProperty__moz_transform_origin); return PR_TRUE; } PRBool CSSParserImpl::ParseFamily(nsCSSValue& aValue) { if (!GetToken(PR_TRUE)) return PR_FALSE; if (eCSSToken_Ident == mToken.mType) { nsCSSKeyword keyword = nsCSSKeywords::LookupKeyword(mToken.mIdent); if (keyword == eCSSKeyword_inherit) { aValue.SetInheritValue(); return PR_TRUE; } if (keyword == eCSSKeyword__moz_initial) { aValue.SetInitialValue(); return PR_TRUE; } if (keyword == eCSSKeyword__moz_use_system_font && !IsParsingCompoundProperty()) { aValue.SetSystemFontValue(); return PR_TRUE; } } UngetToken(); nsAutoString family; for (;;) { if (!ParseOneFamily(family)) return PR_FALSE; if (!ExpectSymbol(',', PR_TRUE)) break; family.Append(PRUnichar(',')); } if (family.IsEmpty()) { return PR_FALSE; } aValue.SetStringValue(family, eCSSUnit_Families); return PR_TRUE; } // src: ( uri-src | local-src ) (',' ( uri-src | local-src ) )* // uri-src: uri [ 'format(' string ( ',' string )* ')' ] // local-src: 'local(' ( string | ident ) ')' PRBool CSSParserImpl::ParseFontSrc(nsCSSValue& aValue) { // could we maybe turn nsCSSValue::Array into nsTArray? nsTArray values; nsCSSValue cur; for (;;) { if (!GetToken(PR_TRUE)) break; if (mToken.mType == eCSSToken_Function && mToken.mIdent.LowerCaseEqualsLiteral("url")) { if (!ParseURL(cur)) return PR_FALSE; values.AppendElement(cur); if (!ParseFontSrcFormat(values)) return PR_FALSE; } else if (mToken.mType == eCSSToken_Function && mToken.mIdent.LowerCaseEqualsLiteral("local")) { // css3-fonts does not specify a formal grammar for local(). // The text permits both unquoted identifiers and quoted // strings. We resolve this ambiguity in the spec by // assuming that the appropriate production is a single // , possibly surrounded by whitespace. nsAutoString family; if (!ParseOneFamily(family)) { SkipUntil(')'); return PR_FALSE; } if (!ExpectSymbol(')', PR_TRUE)) { SkipUntil(')'); return PR_FALSE; } // the style parameters to the nsFont constructor are ignored, // because it's only being used to call EnumerateFamilies nsFont font(family, 0, 0, 0, 0, 0, 0); ExtractFirstFamilyData dat; font.EnumerateFamilies(ExtractFirstFamily, (void*) &dat); if (!dat.mGood) return PR_FALSE; cur.SetStringValue(dat.mFamilyName, eCSSUnit_Local_Font); values.AppendElement(cur); } else { return PR_FALSE; } if (!ExpectSymbol(',', PR_TRUE)) break; } if (values.Length() == 0) return PR_FALSE; nsRefPtr srcVals = nsCSSValue::Array::Create(values.Length()); if (!srcVals) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } PRUint32 i; for (i = 0; i < values.Length(); i++) srcVals->Item(i) = values[i]; aValue.SetArrayValue(srcVals, eCSSUnit_Array); return PR_TRUE; } PRBool CSSParserImpl::ParseFontSrcFormat(nsTArray & values) { if (!GetToken(PR_TRUE)) return PR_TRUE; // EOF harmless here if (mToken.mType != eCSSToken_Function || !mToken.mIdent.LowerCaseEqualsLiteral("format")) { UngetToken(); return PR_TRUE; } do { if (!GetToken(PR_TRUE)) return PR_FALSE; // EOF - no need for SkipUntil if (mToken.mType != eCSSToken_String) { UngetToken(); SkipUntil(')'); return PR_FALSE; } nsCSSValue cur(mToken.mIdent, eCSSUnit_Font_Format); values.AppendElement(cur); } while (ExpectSymbol(',', PR_TRUE)); if (!ExpectSymbol(')', PR_TRUE)) { SkipUntil(')'); return PR_FALSE; } return PR_TRUE; } // font-ranges: urange ( ',' urange )* PRBool CSSParserImpl::ParseFontRanges(nsCSSValue& aValue) { nsTArray ranges; for (;;) { if (!GetToken(PR_TRUE)) break; if (mToken.mType != eCSSToken_URange) { UngetToken(); break; } // An invalid range token is a parsing error, causing the entire // descriptor to be ignored. if (!mToken.mIntegerValid) return PR_FALSE; PRUint32 low = mToken.mInteger; PRUint32 high = mToken.mInteger2; // A range that descends, or a range that is entirely outside the // current range of Unicode (U+0-10FFFF) is ignored, but does not // invalidate the descriptor. A range that straddles the high end // is clipped. if (low <= 0x10FFFF && low <= high) { if (high > 0x10FFFF) high = 0x10FFFF; ranges.AppendElement(low); ranges.AppendElement(high); } if (!ExpectSymbol(',', PR_TRUE)) break; } if (ranges.Length() == 0) return PR_FALSE; nsRefPtr srcVals = nsCSSValue::Array::Create(ranges.Length()); if (!srcVals) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } for (PRUint32 i = 0; i < ranges.Length(); i++) srcVals->Item(i).SetIntValue(ranges[i], eCSSUnit_Integer); aValue.SetArrayValue(srcVals, eCSSUnit_Array); return PR_TRUE; } PRBool CSSParserImpl::ParseListStyle() { // 'list-style' can accept 'none' for two different subproperties, // 'list-style-type' and 'list-style-position'. In order to accept // 'none' as the value of either but still allow another value for // either, we need to ensure that the first 'none' we find gets // allocated to a dummy property instead. static const nsCSSProperty listStyleIDs[] = { eCSSPropertyExtra_x_none_value, eCSSProperty_list_style_type, eCSSProperty_list_style_position, eCSSProperty_list_style_image }; nsCSSValue values[NS_ARRAY_LENGTH(listStyleIDs)]; PRInt32 found = ParseChoice(values, listStyleIDs, NS_ARRAY_LENGTH(listStyleIDs)); if (found < 1 || !ExpectEndProperty()) { return PR_FALSE; } if ((found & (1|2|8)) == (1|2|8)) { if (values[0].GetUnit() == eCSSUnit_None) { // We found a 'none' plus another value for both of // 'list-style-type' and 'list-style-image'. This is a parse // error, since the 'none' has to count for at least one of them. return PR_FALSE; } else { NS_ASSERTION(found == (1|2|4|8) && values[0] == values[1] && values[0] == values[2] && values[0] == values[3], "should be a special value"); } } // Provide default values if ((found & 2) == 0) { if (found & 1) { values[1].SetIntValue(NS_STYLE_LIST_STYLE_NONE, eCSSUnit_Enumerated); } else { values[1].SetIntValue(NS_STYLE_LIST_STYLE_DISC, eCSSUnit_Enumerated); } } if ((found & 4) == 0) { values[2].SetIntValue(NS_STYLE_LIST_STYLE_POSITION_OUTSIDE, eCSSUnit_Enumerated); } if ((found & 8) == 0) { values[3].SetNoneValue(); } // Start at 1 to avoid appending fake value. for (PRUint32 index = 1; index < NS_ARRAY_LENGTH(listStyleIDs); ++index) { AppendValue(listStyleIDs[index], values[index]); } return PR_TRUE; } PRBool CSSParserImpl::ParseMargin() { static const nsCSSProperty kMarginSideIDs[] = { eCSSProperty_margin_top, eCSSProperty_margin_right_value, eCSSProperty_margin_bottom, eCSSProperty_margin_left_value }; static const nsCSSProperty kMarginSources[] = { eCSSProperty_margin_left_ltr_source, eCSSProperty_margin_left_rtl_source, eCSSProperty_margin_right_ltr_source, eCSSProperty_margin_right_rtl_source, eCSSProperty_UNKNOWN }; // do this now, in case 4 values weren't specified InitBoxPropsAsPhysical(kMarginSources); return ParseBoxProperties(mTempData.mMargin.mMargin, kMarginSideIDs); } PRBool CSSParserImpl::ParseMarks(nsCSSValue& aValue) { if (ParseVariant(aValue, VARIANT_HK, nsCSSProps::kPageMarksKTable)) { if (eCSSUnit_Enumerated == aValue.GetUnit()) { if (NS_STYLE_PAGE_MARKS_NONE != aValue.GetIntValue() && PR_FALSE == CheckEndProperty()) { nsCSSValue second; if (ParseEnum(second, nsCSSProps::kPageMarksKTable)) { // 'none' keyword in conjuction with others is not allowed if (NS_STYLE_PAGE_MARKS_NONE != second.GetIntValue()) { aValue.SetIntValue(aValue.GetIntValue() | second.GetIntValue(), eCSSUnit_Enumerated); return PR_TRUE; } } return PR_FALSE; } } return PR_TRUE; } return PR_FALSE; } PRBool CSSParserImpl::ParseOutline() { const PRInt32 numProps = 3; static const nsCSSProperty kOutlineIDs[] = { eCSSProperty_outline_color, eCSSProperty_outline_style, eCSSProperty_outline_width }; nsCSSValue values[numProps]; PRInt32 found = ParseChoice(values, kOutlineIDs, numProps); if ((found < 1) || (PR_FALSE == ExpectEndProperty())) { return PR_FALSE; } // Provide default values if ((found & 1) == 0) { // Provide default outline-color #ifdef GFX_HAS_INVERT values[0].SetIntValue(NS_STYLE_COLOR_INVERT, eCSSUnit_Enumerated); #else values[0].SetIntValue(NS_STYLE_COLOR_MOZ_USE_TEXT_COLOR, eCSSUnit_Enumerated); #endif } if ((found & 2) == 0) { // Provide default outline-style values[1].SetIntValue(NS_STYLE_BORDER_STYLE_NONE, eCSSUnit_Enumerated); } if ((found & 4) == 0) { // Provide default outline-width values[2].SetIntValue(NS_STYLE_BORDER_WIDTH_MEDIUM, eCSSUnit_Enumerated); } PRInt32 index; for (index = 0; index < numProps; index++) { AppendValue(kOutlineIDs[index], values[index]); } return PR_TRUE; } PRBool CSSParserImpl::ParseOverflow() { nsCSSValue overflow; if (!ParseVariant(overflow, VARIANT_HK, nsCSSProps::kOverflowKTable) || !ExpectEndProperty()) return PR_FALSE; nsCSSValue overflowX(overflow); nsCSSValue overflowY(overflow); if (eCSSUnit_Enumerated == overflow.GetUnit()) switch(overflow.GetIntValue()) { case NS_STYLE_OVERFLOW_SCROLLBARS_HORIZONTAL: overflowX.SetIntValue(NS_STYLE_OVERFLOW_SCROLL, eCSSUnit_Enumerated); overflowY.SetIntValue(NS_STYLE_OVERFLOW_HIDDEN, eCSSUnit_Enumerated); break; case NS_STYLE_OVERFLOW_SCROLLBARS_VERTICAL: overflowX.SetIntValue(NS_STYLE_OVERFLOW_HIDDEN, eCSSUnit_Enumerated); overflowY.SetIntValue(NS_STYLE_OVERFLOW_SCROLL, eCSSUnit_Enumerated); break; } AppendValue(eCSSProperty_overflow_x, overflowX); AppendValue(eCSSProperty_overflow_y, overflowY); return PR_TRUE; } PRBool CSSParserImpl::ParsePadding() { static const nsCSSProperty kPaddingSideIDs[] = { eCSSProperty_padding_top, eCSSProperty_padding_right_value, eCSSProperty_padding_bottom, eCSSProperty_padding_left_value }; static const nsCSSProperty kPaddingSources[] = { eCSSProperty_padding_left_ltr_source, eCSSProperty_padding_left_rtl_source, eCSSProperty_padding_right_ltr_source, eCSSProperty_padding_right_rtl_source, eCSSProperty_UNKNOWN }; // do this now, in case 4 values weren't specified InitBoxPropsAsPhysical(kPaddingSources); return ParseBoxProperties(mTempData.mMargin.mPadding, kPaddingSideIDs); } PRBool CSSParserImpl::ParsePause() { nsCSSValue before; if (ParseSingleValueProperty(before, eCSSProperty_pause_before)) { if (eCSSUnit_Inherit != before.GetUnit() && eCSSUnit_Initial != before.GetUnit()) { nsCSSValue after; if (ParseSingleValueProperty(after, eCSSProperty_pause_after)) { if (ExpectEndProperty()) { AppendValue(eCSSProperty_pause_before, before); AppendValue(eCSSProperty_pause_after, after); return PR_TRUE; } return PR_FALSE; } } if (ExpectEndProperty()) { AppendValue(eCSSProperty_pause_before, before); AppendValue(eCSSProperty_pause_after, before); return PR_TRUE; } } return PR_FALSE; } PRBool CSSParserImpl::ParseQuotes() { nsCSSValue open; if (ParseVariant(open, VARIANT_HOS, nsnull)) { if (eCSSUnit_String == open.GetUnit()) { nsCSSValuePairList* quotesHead = new nsCSSValuePairList(); nsCSSValuePairList* quotes = quotesHead; if (nsnull == quotes) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } quotes->mXValue = open; while (nsnull != quotes) { // get mandatory close if (ParseVariant(quotes->mYValue, VARIANT_STRING, nsnull)) { if (CheckEndProperty()) { mTempData.SetPropertyBit(eCSSProperty_quotes); mTempData.mContent.mQuotes = quotesHead; return PR_TRUE; } // look for another open if (ParseVariant(open, VARIANT_STRING, nsnull)) { quotes->mNext = new nsCSSValuePairList(); quotes = quotes->mNext; if (nsnull != quotes) { quotes->mXValue = open; continue; } mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); } } break; } delete quotesHead; return PR_FALSE; } if (ExpectEndProperty()) { nsCSSValuePairList* quotesHead = new nsCSSValuePairList(); quotesHead->mXValue = open; mTempData.mContent.mQuotes = quotesHead; mTempData.SetPropertyBit(eCSSProperty_quotes); return PR_TRUE; } } return PR_FALSE; } PRBool CSSParserImpl::ParseSize() { nsCSSValue width; if (ParseVariant(width, VARIANT_AHKL, nsCSSProps::kPageSizeKTable)) { if (width.IsLengthUnit()) { nsCSSValue height; if (ParseVariant(height, VARIANT_LENGTH, nsnull)) { if (ExpectEndProperty()) { mTempData.mPage.mSize.mXValue = width; mTempData.mPage.mSize.mYValue = height; mTempData.SetPropertyBit(eCSSProperty_size); return PR_TRUE; } return PR_FALSE; } } if (ExpectEndProperty()) { mTempData.mPage.mSize.SetBothValuesTo(width); mTempData.SetPropertyBit(eCSSProperty_size); return PR_TRUE; } } return PR_FALSE; } PRBool CSSParserImpl::ParseTextDecoration(nsCSSValue& aValue) { if (ParseVariant(aValue, VARIANT_HK, nsCSSProps::kTextDecorationKTable)) { if (eCSSUnit_Enumerated == aValue.GetUnit()) { PRInt32 intValue = aValue.GetIntValue(); if (intValue != NS_STYLE_TEXT_DECORATION_NONE) { // look for more keywords nsCSSValue keyword; PRInt32 index; for (index = 0; index < 3; index++) { if (ParseEnum(keyword, nsCSSProps::kTextDecorationKTable)) { PRInt32 newValue = keyword.GetIntValue(); if (newValue == NS_STYLE_TEXT_DECORATION_NONE || newValue & intValue) { // 'none' keyword in conjuction with others is not allowed, and // duplicate keyword is not allowed. return PR_FALSE; } intValue |= newValue; } else { break; } } aValue.SetIntValue(intValue, eCSSUnit_Enumerated); } } return PR_TRUE; } return PR_FALSE; } PRBool CSSParserImpl::ParseTransitionTime(nsCSSProperty aPropID) { NS_ABORT_IF_FALSE(aPropID == eCSSProperty_transition_duration || aPropID == eCSSProperty_transition_delay, "Invalid property"); nsCSSValueList** storage = aPropID == eCSSProperty_transition_duration ? &mTempData.mDisplay.mTransitionDuration : &mTempData.mDisplay.mTransitionDelay; nsCSSValue timeval; // first see if 'inherit' or '-moz-initial' is specified. If one is, // it can be the only thing specified, so don't attempt to parse any // additional properties if (ParseVariant(timeval, VARIANT_INHERIT, nsnull)) { nsCSSValueList* list = new nsCSSValueList(); if (!list) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } list->mValue = timeval; mTempData.SetPropertyBit(aPropID); *storage = list; return PR_TRUE; } // now try to parse normal time values nsCSSValueList *listHead = nsnull; nsCSSValueList **next = &listHead; for (;;) { if (!ParseVariant(timeval, VARIANT_TIME, nsnull)) { break; } if (!AppendValueToList(next, timeval)) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } if (CheckEndProperty()) { mTempData.SetPropertyBit(aPropID); *storage = listHead; return PR_TRUE; } if (!ExpectSymbol(',', PR_TRUE)) { break; } } delete listHead; return PR_FALSE; } PRBool CSSParserImpl::ParseTransitionProperty() { nsCSSValue value; // first see if 'inherit', '-moz-initial', 'none', or 'all' is // specified. If one is, it can be the only thing specified, so don't // attempt to parse any additional properties if (ParseVariant(value, VARIANT_INHERIT | VARIANT_NONE | VARIANT_ALL, nsnull)) { nsCSSValueList* list = new nsCSSValueList(); if (!list) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } list->mValue = value; mTempData.SetPropertyBit(eCSSProperty_transition_property); mTempData.mDisplay.mTransitionProperty = list; return PR_TRUE; } // Accept a list of arbitrary identifiers. They should be CSS // properties, but we want to accept any so that we accept properties // that we don't know about yet, e.g. // transition-property: invalid-property, left, opacity; nsCSSValueList *listHead = nsnull; nsCSSValueList **next = &listHead; for (;;) { if (!ParseVariant(value, VARIANT_IDENTIFIER, nsnull)) { break; } // Exclude 'none' and 'all' and 'inherit' and 'initial' according to // the same rules as for 'counter-reset' in CSS 2.1 (except // 'counter-reset' doesn't exclude 'all' since it doesn't support // 'all' as a special value). nsDependentString str(value.GetStringBufferValue()); if (str.EqualsLiteral("none") || str.EqualsLiteral("all") || str.EqualsLiteral("inherit") || str.EqualsLiteral("initial")) { break; } if (!AppendValueToList(next, value)) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } if (CheckEndProperty()) { mTempData.SetPropertyBit(eCSSProperty_transition_property); mTempData.mDisplay.mTransitionProperty = listHead; return PR_TRUE; } if (!ExpectSymbol(',', PR_TRUE)) { break; } } delete listHead; return PR_FALSE; } PRBool CSSParserImpl::ParseTransitionTimingFunction() { nsCSSValue timeFunction; // first see if 'inherit' or '-moz-initial' is specified. If one is, // it can be the only thing specified, so don't attempt to parse any // additional properties if (ParseVariant(timeFunction, VARIANT_INHERIT, nsnull)) { nsCSSValueList* list = new nsCSSValueList(); if (!list) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } list->mValue = timeFunction; mTempData.SetPropertyBit(eCSSProperty_transition_timing_function); mTempData.mDisplay.mTransitionTimingFunction = list; return PR_TRUE; } nsCSSValueList *listHead = nsnull; nsCSSValueList **next = &listHead; for (;;) { if (!ParseVariant(timeFunction, VARIANT_TIMING_FUNCTION, nsCSSProps::kTransitionTimingFunctionKTable)) { break; } if (!AppendValueToList(next, timeFunction)) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } if (CheckEndProperty()) { mTempData.SetPropertyBit(eCSSProperty_transition_timing_function); mTempData.mDisplay.mTransitionTimingFunction = listHead; return PR_TRUE; } if (!ExpectSymbol (',', PR_TRUE)) { break; } } delete listHead; return PR_FALSE; } PRBool CSSParserImpl::ParseTransitionTimingFunctionValues(nsCSSValue& aValue) { NS_ASSERTION(!mHavePushBack && mToken.mType == eCSSToken_Function && mToken.mIdent.LowerCaseEqualsLiteral("cubic-bezier"), "unexpected initial state"); nsRefPtr val = nsCSSValue::Array::Create(4); if (!val) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } float x1, x2, y1, y2; if (!ParseTransitionTimingFunctionValueComponent(x1, ',') || !ParseTransitionTimingFunctionValueComponent(y1, ',') || !ParseTransitionTimingFunctionValueComponent(x2, ',') || !ParseTransitionTimingFunctionValueComponent(y2, ')')) { return PR_FALSE; } val->Item(0).SetFloatValue(x1, eCSSUnit_Number); val->Item(1).SetFloatValue(y1, eCSSUnit_Number); val->Item(2).SetFloatValue(x2, eCSSUnit_Number); val->Item(3).SetFloatValue(y2, eCSSUnit_Number); aValue.SetArrayValue(val, eCSSUnit_Cubic_Bezier); return PR_TRUE; } PRBool CSSParserImpl::ParseTransitionTimingFunctionValueComponent(float& aComponent, char aStop) { if (!GetToken(PR_TRUE)) { return PR_FALSE; } nsCSSToken* tk = &mToken; if (tk->mType == eCSSToken_Number) { aComponent = tk->mNumber; if (ExpectSymbol(aStop, PR_TRUE)) { return PR_TRUE; } } return PR_FALSE; } PRBool CSSParserImpl::AppendValueToList(nsCSSValueList**& aListTail, const nsCSSValue& aValue) { NS_ABORT_IF_FALSE(!*aListTail, "should not have a next entry"); nsCSSValueList *entry = new nsCSSValueList(); if (!entry) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } entry->mValue = aValue; *aListTail = entry; aListTail = &entry->mNext; return PR_TRUE; } PRBool CSSParserImpl::ParseTransition() { static const nsCSSProperty kTransitionProperties[] = { eCSSProperty_transition_duration, eCSSProperty_transition_timing_function, // Must check 'transition-delay' after 'transition-duration', since // that's our assumption about what the spec means for the shorthand // syntax (the first time given is the duration, and the second // given is the delay). eCSSProperty_transition_delay, // Must check 'transition-property' after // 'transition-timing-function' since 'transition-property' accepts // any keyword. eCSSProperty_transition_property }; static const PRUint32 numProps = NS_ARRAY_LENGTH(kTransitionProperties); // this is a shorthand property that accepts -property, -delay, // -duration, and -timing-function with some components missing. // there can be multiple transitions, separated with commas nsCSSValue tempValue; // first see if 'inherit' or '-moz-initial' is specified. If one is, // it can be the only thing specified, so don't attempt to parse any // additional properties if (ParseVariant(tempValue, VARIANT_INHERIT, nsnull)) { for (PRUint32 i = 0; i < numProps; ++i) { nsCSSValueList* list = new nsCSSValueList(); if (!list) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } list->mValue = tempValue; nsCSSProperty prop = kTransitionProperties[i]; *static_cast(mTempData.PropertyAt(prop)) = list; mTempData.SetPropertyBit(prop); } return PR_TRUE; } nsAutoPtr values[numProps]; nsCSSValueList **tails[numProps] = { getter_Transfers(values[0]), getter_Transfers(values[1]), getter_Transfers(values[2]), getter_Transfers(values[3]) }; PRBool atEOP = PR_FALSE; // at end of property? for (;;) { // loop over comma-separated transitions // whether a particular subproperty was specified for this transition PRBool parsedProperty[numProps] = { PR_FALSE, PR_FALSE, PR_FALSE, PR_FALSE }; for (;;) { // loop over values within a transition PRBool foundProperty = PR_FALSE; // check to see if we're at the end of one full transition definition // (either because we hit a comma or because we hit the end of the // property definition) if (ExpectSymbol(',', PR_TRUE)) break; if (CheckEndProperty()) { atEOP = PR_TRUE; break; } // else, try to parse the next transition sub-property for (PRUint32 i = 0; !foundProperty && i < numProps; ++i) { if (!parsedProperty[i]) { // if we haven't found this property yet, try to parse it PRInt32 variantMask; const PRInt32* table = nsnull; switch (kTransitionProperties[i]) { case eCSSProperty_transition_property: variantMask = VARIANT_IDENTIFIER | VARIANT_NONE | VARIANT_ALL; break; case eCSSProperty_transition_duration: case eCSSProperty_transition_delay: variantMask = VARIANT_TIME; break; case eCSSProperty_transition_timing_function: variantMask = VARIANT_TIMING_FUNCTION; table = nsCSSProps::kTransitionTimingFunctionKTable; break; default: NS_ABORT_IF_FALSE(PR_FALSE, "Invalid transition property"); } if (ParseVariant(tempValue, variantMask, table)) { parsedProperty[i] = PR_TRUE; if (!AppendValueToList(tails[i], tempValue)) { return PR_FALSE; } foundProperty = PR_TRUE; break; // out of inner loop; continue looking for next sub-property } } } if (!foundProperty) { // We're not at a ',' or at the end of the property, but we couldn't // parse any of the sub-properties, so the declaration is invalid. return PR_FALSE; } } // We hit the end of the property or the end of one transition // definition, add its components to the list. for (PRUint32 i = 0; i < numProps; ++i) { // If all of the subproperties were not explicitly specified, fill // in the missing ones with initial values. if (!parsedProperty[i]) { switch (kTransitionProperties[i]) { case eCSSProperty_transition_property: tempValue.SetAllValue(); break; case eCSSProperty_transition_duration: case eCSSProperty_transition_delay: tempValue.SetFloatValue(0.0, eCSSUnit_Seconds); break; case eCSSProperty_transition_timing_function: tempValue.SetIntValue(NS_STYLE_TRANSITION_TIMING_FUNCTION_EASE, eCSSUnit_Enumerated); break; default: NS_ABORT_IF_FALSE(PR_FALSE, "Invalid transition property"); } if (!AppendValueToList(tails[i], tempValue)) { return PR_FALSE; } } } if (atEOP) break; // else we just hit a ',' so continue parsing the next compound transition } // Make two checks on the list for 'transition-property': // + If there is more than one item, then none of the items can be // 'none' or 'all'. // + None of the items can be 'inherit' or 'initial' (this is the case, // like with counter-reset &c., where CSS 2.1 specifies 'initial', so // we should check it without the -moz- prefix). { NS_ABORT_IF_FALSE(kTransitionProperties[3] == eCSSProperty_transition_property, "array index mismatch"); nsCSSValueList *l = values[3]; PRBool multipleItems = !!l->mNext; do { const nsCSSValue& val = l->mValue; if (val.GetUnit() != eCSSUnit_Ident) { NS_ABORT_IF_FALSE(val.GetUnit() == eCSSUnit_None || val.GetUnit() == eCSSUnit_All, "unexpected unit"); if (multipleItems) { // This is a syntax error. return PR_FALSE; } continue; } nsDependentString str(val.GetStringBufferValue()); if (str.EqualsLiteral("inherit") || str.EqualsLiteral("initial")) { return PR_FALSE; } } while ((l = l->mNext)); } // Save all parsed transition sub-properties in mTempData for (PRUint32 i = 0; i < numProps; ++i) { nsCSSProperty prop = kTransitionProperties[i]; *static_cast(mTempData.PropertyAt(prop)) = values[i].forget(); mTempData.SetPropertyBit(prop); } return PR_TRUE; } nsCSSValueList* CSSParserImpl::ParseCSSShadowList(PRBool aIsBoxShadow) { nsAutoParseCompoundProperty compound(this); // Parses x, y, radius, color (in two possible orders) // This parses the input into a list. Either it contains just a "none" or // "inherit" value, or a list of arrays. // The resulting arrays will always contain the above order, with color and // radius as null values as needed enum { IndexX, IndexY, IndexRadius, IndexSpread, IndexColor, IndexInset }; nsCSSValueList *list = nsnull; for (nsCSSValueList **curp = &list, *cur; ; curp = &cur->mNext) { cur = *curp = new nsCSSValueList(); if (!cur) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } nsCSSValue isInset; if (aIsBoxShadow) { // Optional inset keyword (ignore errors) ParseVariant(isInset, VARIANT_KEYWORD, nsCSSProps::kBoxShadowTypeKTable); } PRBool isFirstToken = (cur == list && isInset.GetUnit() == eCSSUnit_Null); if (!ParseVariant(cur->mValue, ( isFirstToken ? VARIANT_INHERIT | VARIANT_NONE : 0) | VARIANT_COLOR | VARIANT_LENGTH | VARIANT_CALC, nsnull)) { break; } nsCSSUnit unit = cur->mValue.GetUnit(); if (unit != eCSSUnit_None && unit != eCSSUnit_Inherit && unit != eCSSUnit_Initial) { nsRefPtr val = nsCSSValue::Array::Create(6); if (!val) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } PRBool haveColor = PR_FALSE; if (cur->mValue.IsLengthUnit() || cur->mValue.IsCalcUnit()) { val->Item(IndexX) = cur->mValue; } else { // Must be a color (as string or color value) NS_ASSERTION(unit == eCSSUnit_Ident || unit == eCSSUnit_Color || unit == eCSSUnit_EnumColor, "Must be a color value (named color, numeric color, " "or system color)"); haveColor = PR_TRUE; val->Item(IndexColor) = cur->mValue; // Parse the X coordinate if (!ParseVariant(val->Item(IndexX), VARIANT_LENGTH | VARIANT_CALC, nsnull)) { break; } } cur->mValue.SetArrayValue(val, eCSSUnit_Array); // Y coordinate; this one is not optional if (!ParseVariant(val->Item(IndexY), VARIANT_LENGTH | VARIANT_CALC, nsnull)) { break; } // Optional radius. Ignore errors except if they pass a negative // value which we must reject. If we use ParseNonNegativeVariant we can't // tell the difference between an unspecified radius and a negative // radius, so that's why we don't use it. if (ParseVariant(val->Item(IndexRadius), VARIANT_LENGTH | VARIANT_CALC, nsnull) && val->Item(IndexRadius).IsLengthUnit() && val->Item(IndexRadius).GetFloatValue() < 0) { break; } if (aIsBoxShadow) { // Optional spread (ignore errors) ParseVariant(val->Item(IndexSpread), VARIANT_LENGTH | VARIANT_CALC, nsnull); } if (!haveColor) { // Optional color (ignore errors) ParseVariant(val->Item(IndexColor), VARIANT_COLOR, nsnull); } if (aIsBoxShadow && isInset.GetUnit() == eCSSUnit_Null) { // Optional inset keyword (ignore errors) ParseVariant(val->Item(IndexInset), VARIANT_KEYWORD, nsCSSProps::kBoxShadowTypeKTable); } else if (isInset.GetUnit() == eCSSUnit_Enumerated) { val->Item(IndexInset) = isInset; } // Might be at a comma now if (ExpectSymbol(',', PR_TRUE)) { // Go to next value continue; } } if (!ExpectEndProperty()) { // If we don't have a comma to delimit the next value, we // must be at the end of the property. Otherwise we've hit // something else, which is an error. break; } // Only success case here, since having the failure case at the // end allows more sharing of code. return list; } // Have failure case at the end so we can |break| to get to it. delete list; return nsnull; } PRBool CSSParserImpl::ParseTextShadow() { nsCSSValueList* list = ParseCSSShadowList(PR_FALSE); if (!list) return PR_FALSE; mTempData.SetPropertyBit(eCSSProperty_text_shadow); mTempData.mText.mTextShadow = list; return PR_TRUE; } PRBool CSSParserImpl::ParseBoxShadow() { nsCSSValueList* list = ParseCSSShadowList(PR_TRUE); if (!list) return PR_FALSE; mTempData.SetPropertyBit(eCSSProperty_box_shadow); mTempData.mMargin.mBoxShadow = list; return PR_TRUE; } PRInt32 CSSParserImpl::GetNamespaceIdForPrefix(const nsString& aPrefix) { NS_PRECONDITION(!aPrefix.IsEmpty(), "Must have a prefix here"); PRInt32 nameSpaceID = kNameSpaceID_Unknown; if (mNameSpaceMap) { // user-specified identifiers are case-sensitive (bug 416106) nsCOMPtr prefix = do_GetAtom(aPrefix); nameSpaceID = mNameSpaceMap->FindNameSpaceID(prefix); } // else no declared namespaces if (nameSpaceID == kNameSpaceID_Unknown) { // unknown prefix, dump it const PRUnichar *params[] = { aPrefix.get() }; REPORT_UNEXPECTED_P(PEUnknownNamespacePrefix, params); mFoundUnresolvablePrefix = PR_TRUE; } return nameSpaceID; } void CSSParserImpl::SetDefaultNamespaceOnSelector(nsCSSSelector& aSelector) { if (mNameSpaceMap) { aSelector.SetNameSpace(mNameSpaceMap->FindNameSpaceID(nsnull)); } else { aSelector.SetNameSpace(kNameSpaceID_Unknown); // wildcard } } #ifdef MOZ_SVG PRBool CSSParserImpl::ParsePaint(nsCSSValuePair* aResult, nsCSSProperty aPropID) { if (!ParseVariant(aResult->mXValue, VARIANT_HC | VARIANT_NONE | VARIANT_URL, nsnull)) return PR_FALSE; if (aResult->mXValue.GetUnit() == eCSSUnit_URL) { if (!ParseVariant(aResult->mYValue, VARIANT_COLOR | VARIANT_NONE, nsnull)) aResult->mYValue.SetColorValue(NS_RGB(0, 0, 0)); } else { aResult->mYValue = aResult->mXValue; } if (!ExpectEndProperty()) return PR_FALSE; mTempData.SetPropertyBit(aPropID); return PR_TRUE; } PRBool CSSParserImpl::ParseDasharray() { nsCSSValue value; if (ParseVariant(value, VARIANT_HLPN | VARIANT_NONE, nsnull)) { nsCSSValueList *listHead = new nsCSSValueList; nsCSSValueList *list = listHead; if (!list) { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); return PR_FALSE; } list->mValue = value; for (;;) { if (CheckEndProperty()) { mTempData.SetPropertyBit(eCSSProperty_stroke_dasharray); mTempData.mSVG.mStrokeDasharray = listHead; return PR_TRUE; } if (eCSSUnit_Inherit == value.GetUnit() || eCSSUnit_Initial == value.GetUnit() || eCSSUnit_None == value.GetUnit()) break; // skip optional commas between elements (void)ExpectSymbol(',', PR_TRUE); if (!ParseVariant(value, VARIANT_LENGTH | VARIANT_PERCENT | VARIANT_NUMBER, nsnull)) break; list->mNext = new nsCSSValueList; list = list->mNext; if (list) list->mValue = value; else { mScanner.SetLowLevelError(NS_ERROR_OUT_OF_MEMORY); break; } } delete listHead; } return PR_FALSE; } PRBool CSSParserImpl::ParseMarker() { nsCSSValue marker; if (ParseSingleValueProperty(marker, eCSSProperty_marker_end)) { if (ExpectEndProperty()) { AppendValue(eCSSProperty_marker_end, marker); AppendValue(eCSSProperty_marker_mid, marker); AppendValue(eCSSProperty_marker_start, marker); return PR_TRUE; } } return PR_FALSE; } #endif } // anonymous namespace // Recycling of parser implementation objects static CSSParserImpl* gFreeList = nsnull; nsCSSParser::nsCSSParser(mozilla::css::Loader* aLoader, nsCSSStyleSheet* aSheet) { CSSParserImpl *impl = gFreeList; if (impl) { gFreeList = impl->mNextFree; impl->mNextFree = nsnull; } else { impl = new CSSParserImpl(); } if (aLoader) { impl->SetChildLoader(aLoader); impl->SetQuirkMode(aLoader->GetCompatibilityMode() == eCompatibility_NavQuirks); } if (aSheet) { impl->SetStyleSheet(aSheet); } mImpl = static_cast(impl); } nsCSSParser::~nsCSSParser() { CSSParserImpl *impl = static_cast(mImpl); impl->Reset(); impl->mNextFree = gFreeList; gFreeList = impl; } /* static */ void nsCSSParser::Shutdown() { CSSParserImpl *tofree = gFreeList; CSSParserImpl *next; while (tofree) { next = tofree->mNextFree; delete tofree; tofree = next; } } // Wrapper methods nsresult nsCSSParser::SetStyleSheet(nsCSSStyleSheet* aSheet) { return static_cast(mImpl)-> SetStyleSheet(aSheet); } nsresult nsCSSParser::SetQuirkMode(PRBool aQuirkMode) { return static_cast(mImpl)-> SetQuirkMode(aQuirkMode); } #ifdef MOZ_SVG nsresult nsCSSParser::SetSVGMode(PRBool aSVGMode) { return static_cast(mImpl)-> SetSVGMode(aSVGMode); } #endif nsresult nsCSSParser::SetChildLoader(mozilla::css::Loader* aChildLoader) { return static_cast(mImpl)-> SetChildLoader(aChildLoader); } nsresult nsCSSParser::Parse(nsIUnicharInputStream* aInput, nsIURI* aSheetURI, nsIURI* aBaseURI, nsIPrincipal* aSheetPrincipal, PRUint32 aLineNumber, PRBool aAllowUnsafeRules) { return static_cast(mImpl)-> Parse(aInput, aSheetURI, aBaseURI, aSheetPrincipal, aLineNumber, aAllowUnsafeRules); } nsresult nsCSSParser::ParseStyleAttribute(const nsAString& aAttributeValue, nsIURI* aDocURI, nsIURI* aBaseURI, nsIPrincipal* aNodePrincipal, nsICSSStyleRule** aResult) { return static_cast(mImpl)-> ParseStyleAttribute(aAttributeValue, aDocURI, aBaseURI, aNodePrincipal, aResult); } nsresult nsCSSParser::ParseAndAppendDeclaration(const nsAString& aBuffer, nsIURI* aSheetURI, nsIURI* aBaseURI, nsIPrincipal* aSheetPrincipal, css::Declaration* aDeclaration, PRBool aParseOnlyOneDecl, PRBool* aChanged, PRBool aClearOldDecl) { return static_cast(mImpl)-> ParseAndAppendDeclaration(aBuffer, aSheetURI, aBaseURI, aSheetPrincipal, aDeclaration, aParseOnlyOneDecl, aChanged, aClearOldDecl); } nsresult nsCSSParser::ParseRule(const nsAString& aRule, nsIURI* aSheetURI, nsIURI* aBaseURI, nsIPrincipal* aSheetPrincipal, nsCOMArray& aResult) { return static_cast(mImpl)-> ParseRule(aRule, aSheetURI, aBaseURI, aSheetPrincipal, aResult); } nsresult nsCSSParser::ParseProperty(const nsCSSProperty aPropID, const nsAString& aPropValue, nsIURI* aSheetURI, nsIURI* aBaseURI, nsIPrincipal* aSheetPrincipal, css::Declaration* aDeclaration, PRBool* aChanged, PRBool aIsImportant) { return static_cast(mImpl)-> ParseProperty(aPropID, aPropValue, aSheetURI, aBaseURI, aSheetPrincipal, aDeclaration, aChanged, aIsImportant); } nsresult nsCSSParser::ParseMediaList(const nsSubstring& aBuffer, nsIURI* aURI, PRUint32 aLineNumber, nsMediaList* aMediaList, PRBool aHTMLMode) { return static_cast(mImpl)-> ParseMediaList(aBuffer, aURI, aLineNumber, aMediaList, aHTMLMode); } nsresult nsCSSParser::ParseColorString(const nsSubstring& aBuffer, nsIURI* aURI, PRUint32 aLineNumber, nscolor* aColor) { return static_cast(mImpl)-> ParseColorString(aBuffer, aURI, aLineNumber, aColor); } nsresult nsCSSParser::ParseSelectorString(const nsSubstring& aSelectorString, nsIURI* aURI, PRUint32 aLineNumber, nsCSSSelectorList** aSelectorList) { return static_cast(mImpl)-> ParseSelectorString(aSelectorString, aURI, aLineNumber, aSelectorList); }