/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ /* Utilities for animation of computed style values */ #ifndef nsStyleAnimation_h_ #define nsStyleAnimation_h_ #include "nsAString.h" #include "nsCRTGlue.h" #include "nsStringBuffer.h" #include "nsCSSProperty.h" #include "nsCoord.h" #include "nsColor.h" #include "nsCSSValue.h" class nsPresContext; class nsStyleContext; struct nsCSSRect; class gfx3DMatrix; namespace mozilla { namespace dom { class Element; } // namespace dom } // namespace mozilla /** * Utility class to handle animated style values */ class nsStyleAnimation { public: class Value; // Mathematical methods // -------------------- /** * Adds |aCount| copies of |aValueToAdd| to |aDest|. The result of this * addition is stored in aDest. * * Note that if |aCount| is 0, then |aDest| will be unchanged. Also, if * this method fails, then |aDest| will be unchanged. * * @param aDest The value to add to. * @param aValueToAdd The value to add. * @param aCount The number of times to add aValueToAdd. * @return true on success, false on failure. */ static bool Add(nsCSSProperty aProperty, Value& aDest, const Value& aValueToAdd, uint32_t aCount) { return AddWeighted(aProperty, 1.0, aDest, aCount, aValueToAdd, aDest); } /** * Calculates a measure of 'distance' between two values. * * This measure of Distance is guaranteed to be proportional to * portions passed to Interpolate, Add, or AddWeighted. However, for * some types of Value it may not produce sensible results for paced * animation. * * If this method succeeds, the returned distance value is guaranteed to be * non-negative. * * @param aStartValue The start of the interval for which the distance * should be calculated. * @param aEndValue The end of the interval for which the distance * should be calculated. * @param aDistance The result of the calculation. * @return true on success, false on failure. */ static bool ComputeDistance(nsCSSProperty aProperty, const Value& aStartValue, const Value& aEndValue, double& aDistance); /** * Calculates an interpolated value that is the specified |aPortion| between * the two given values. * * This really just does the following calculation: * aResultValue = (1.0 - aPortion) * aStartValue + aPortion * aEndValue * * @param aStartValue The value defining the start of the interval of * interpolation. * @param aEndValue The value defining the end of the interval of * interpolation. * @param aPortion A number in the range [0.0, 1.0] defining the * distance of the interpolated value in the interval. * @param [out] aResultValue The resulting interpolated value. * @return true on success, false on failure. */ static bool Interpolate(nsCSSProperty aProperty, const Value& aStartValue, const Value& aEndValue, double aPortion, Value& aResultValue) { return AddWeighted(aProperty, 1.0 - aPortion, aStartValue, aPortion, aEndValue, aResultValue); } /** * Does the calculation: * aResultValue = aCoeff1 * aValue1 + aCoeff2 * aValue2 * * @param [out] aResultValue The resulting interpolated value. May be * the same as aValue1 or aValue2. * @return true on success, false on failure. * * NOTE: Current callers always pass aCoeff1 and aCoeff2 >= 0. They * are currently permitted to be negative; however, if, as we add * support more value types types, we find that this causes * difficulty, we might change this to restrict them to being * positive. */ static bool AddWeighted(nsCSSProperty aProperty, double aCoeff1, const Value& aValue1, double aCoeff2, const Value& aValue2, Value& aResultValue); // Type-conversion methods // ----------------------- /** * Creates a computed value for the given specified value * (property ID + string). A style context is needed in case the * specified value depends on inherited style or on the values of other * properties. * * @param aProperty The property whose value we're computing. * @param aTargetElement The content node to which our computed value is * applicable. * @param aSpecifiedValue The specified value, from which we'll build our * computed value. * @param aUseSVGMode A flag to indicate whether we should parse * |aSpecifiedValue| in SVG mode. * @param [out] aComputedValue The resulting computed value. * @param [out] aIsContextSensitive * Set to true if |aSpecifiedValue| may produce * a different |aComputedValue| depending on other CSS * properties on |aTargetElement| or its ancestors. * false otherwise. * Note that the operation of this method is * significantly faster when |aIsContextSensitive| is * nullptr. * @return true on success, false on failure. */ static bool ComputeValue(nsCSSProperty aProperty, mozilla::dom::Element* aTargetElement, const nsAString& aSpecifiedValue, bool aUseSVGMode, Value& aComputedValue, bool* aIsContextSensitive = nullptr); /** * Creates a specified value for the given computed value. * * The first overload fills in an nsCSSValue object; the second * produces a string. The nsCSSValue result may depend on objects * owned by the |aComputedValue| object, so users of that variant * must keep |aComputedValue| alive longer than |aSpecifiedValue|. * * @param aProperty The property whose value we're uncomputing. * @param aPresContext The presentation context for the document in * which we're working. * @param aComputedValue The computed value to be converted. * @param [out] aSpecifiedValue The resulting specified value. * @return true on success, false on failure. */ static bool UncomputeValue(nsCSSProperty aProperty, nsPresContext* aPresContext, const Value& aComputedValue, nsCSSValue& aSpecifiedValue); static bool UncomputeValue(nsCSSProperty aProperty, nsPresContext* aPresContext, const Value& aComputedValue, nsAString& aSpecifiedValue); /** * Gets the computed value for the given property from the given style * context. * * @param aProperty The property whose value we're looking up. * @param aStyleContext The style context to check for the computed value. * @param [out] aComputedValue The resulting computed value. * @return true on success, false on failure. */ static bool ExtractComputedValue(nsCSSProperty aProperty, nsStyleContext* aStyleContext, Value& aComputedValue); /** * Interpolates between 2 matrices by decomposing them. * * @param aMatrix1 First matrix, using CSS pixel units. * @param aMatrix2 Second matrix, using CSS pixel units. * @param aProgress Interpolation value in the range [0.0, 1.0] */ static gfx3DMatrix InterpolateTransformMatrix(const gfx3DMatrix &aMatrix1, const gfx3DMatrix &aMatrix2, double aProgress); static already_AddRefed AppendTransformFunction(nsCSSKeyword aTransformFunction, nsCSSValueList**& aListTail); /** * The types and values for the values that we extract and animate. */ enum Unit { eUnit_Null, // not initialized eUnit_Normal, eUnit_Auto, eUnit_None, eUnit_Enumerated, eUnit_Visibility, // special case for transitions (which converts // Enumerated to Visibility as needed) eUnit_Integer, eUnit_Coord, eUnit_Percent, eUnit_Float, eUnit_Color, eUnit_Calc, // nsCSSValue* (never null), always with a single // calc() expression that's either length or length+percent eUnit_CSSValuePair, // nsCSSValuePair* (never null) eUnit_CSSValueTriplet, // nsCSSValueTriplet* (never null) eUnit_CSSRect, // nsCSSRect* (never null) eUnit_Dasharray, // nsCSSValueList* (never null) eUnit_Shadow, // nsCSSValueList* (may be null) eUnit_Transform, // nsCSSValueList* (never null) eUnit_BackgroundPosition, // nsCSSValueList* (never null) eUnit_CSSValuePairList, // nsCSSValuePairList* (never null) eUnit_UnparsedString // nsStringBuffer* (never null) }; class Value { private: Unit mUnit; union { int32_t mInt; nscoord mCoord; float mFloat; nscolor mColor; nsCSSValue* mCSSValue; nsCSSValuePair* mCSSValuePair; nsCSSValueTriplet* mCSSValueTriplet; nsCSSRect* mCSSRect; nsCSSValueList* mCSSValueList; nsCSSValuePairList* mCSSValuePairList; nsStringBuffer* mString; } mValue; public: Unit GetUnit() const { NS_ASSERTION(mUnit != eUnit_Null, "uninitialized"); return mUnit; } // Accessor to let us verify assumptions about presence of null unit, // without tripping the assertion in GetUnit(). bool IsNull() const { return mUnit == eUnit_Null; } int32_t GetIntValue() const { NS_ASSERTION(IsIntUnit(mUnit), "unit mismatch"); return mValue.mInt; } nscoord GetCoordValue() const { NS_ASSERTION(mUnit == eUnit_Coord, "unit mismatch"); return mValue.mCoord; } float GetPercentValue() const { NS_ASSERTION(mUnit == eUnit_Percent, "unit mismatch"); return mValue.mFloat; } float GetFloatValue() const { NS_ASSERTION(mUnit == eUnit_Float, "unit mismatch"); return mValue.mFloat; } nscolor GetColorValue() const { NS_ASSERTION(mUnit == eUnit_Color, "unit mismatch"); return mValue.mColor; } nsCSSValue* GetCSSValueValue() const { NS_ASSERTION(IsCSSValueUnit(mUnit), "unit mismatch"); return mValue.mCSSValue; } nsCSSValuePair* GetCSSValuePairValue() const { NS_ASSERTION(IsCSSValuePairUnit(mUnit), "unit mismatch"); return mValue.mCSSValuePair; } nsCSSValueTriplet* GetCSSValueTripletValue() const { NS_ASSERTION(IsCSSValueTripletUnit(mUnit), "unit mismatch"); return mValue.mCSSValueTriplet; } nsCSSRect* GetCSSRectValue() const { NS_ASSERTION(IsCSSRectUnit(mUnit), "unit mismatch"); return mValue.mCSSRect; } nsCSSValueList* GetCSSValueListValue() const { NS_ASSERTION(IsCSSValueListUnit(mUnit), "unit mismatch"); return mValue.mCSSValueList; } nsCSSValuePairList* GetCSSValuePairListValue() const { NS_ASSERTION(IsCSSValuePairListUnit(mUnit), "unit mismatch"); return mValue.mCSSValuePairList; } const PRUnichar* GetStringBufferValue() const { NS_ASSERTION(IsStringUnit(mUnit), "unit mismatch"); return GetBufferValue(mValue.mString); } void GetStringValue(nsAString& aBuffer) const { NS_ASSERTION(IsStringUnit(mUnit), "unit mismatch"); aBuffer.Truncate(); uint32_t len = NS_strlen(GetBufferValue(mValue.mString)); mValue.mString->ToString(len, aBuffer); } explicit Value(Unit aUnit = eUnit_Null) : mUnit(aUnit) { NS_ASSERTION(aUnit == eUnit_Null || aUnit == eUnit_Normal || aUnit == eUnit_Auto || aUnit == eUnit_None, "must be valueless unit"); } Value(const Value& aOther) : mUnit(eUnit_Null) { *this = aOther; } enum IntegerConstructorType { IntegerConstructor }; Value(int32_t aInt, Unit aUnit, IntegerConstructorType); enum CoordConstructorType { CoordConstructor }; Value(nscoord aLength, CoordConstructorType); enum PercentConstructorType { PercentConstructor }; Value(float aPercent, PercentConstructorType); enum FloatConstructorType { FloatConstructor }; Value(float aFloat, FloatConstructorType); enum ColorConstructorType { ColorConstructor }; Value(nscolor aColor, ColorConstructorType); ~Value() { FreeValue(); } void SetNormalValue(); void SetAutoValue(); void SetNoneValue(); void SetIntValue(int32_t aInt, Unit aUnit); void SetCoordValue(nscoord aCoord); void SetPercentValue(float aPercent); void SetFloatValue(float aFloat); void SetColorValue(nscolor aColor); void SetUnparsedStringValue(const nsString& aString); // These setters take ownership of |aValue|, and are therefore named // "SetAndAdopt*". void SetAndAdoptCSSValueValue(nsCSSValue *aValue, Unit aUnit); void SetAndAdoptCSSValuePairValue(nsCSSValuePair *aValue, Unit aUnit); void SetAndAdoptCSSValueTripletValue(nsCSSValueTriplet *aValue, Unit aUnit); void SetAndAdoptCSSRectValue(nsCSSRect *aValue, Unit aUnit); void SetAndAdoptCSSValueListValue(nsCSSValueList *aValue, Unit aUnit); void SetAndAdoptCSSValuePairListValue(nsCSSValuePairList *aValue); Value& operator=(const Value& aOther); bool operator==(const Value& aOther) const; bool operator!=(const Value& aOther) const { return !(*this == aOther); } private: void FreeValue(); static const PRUnichar* GetBufferValue(nsStringBuffer* aBuffer) { return static_cast(aBuffer->Data()); } static bool IsIntUnit(Unit aUnit) { return aUnit == eUnit_Enumerated || aUnit == eUnit_Visibility || aUnit == eUnit_Integer; } static bool IsCSSValueUnit(Unit aUnit) { return aUnit == eUnit_Calc; } static bool IsCSSValuePairUnit(Unit aUnit) { return aUnit == eUnit_CSSValuePair; } static bool IsCSSValueTripletUnit(Unit aUnit) { return aUnit == eUnit_CSSValueTriplet; } static bool IsCSSRectUnit(Unit aUnit) { return aUnit == eUnit_CSSRect; } static bool IsCSSValueListUnit(Unit aUnit) { return aUnit == eUnit_Dasharray || aUnit == eUnit_Shadow || aUnit == eUnit_Transform || aUnit == eUnit_BackgroundPosition; } static bool IsCSSValuePairListUnit(Unit aUnit) { return aUnit == eUnit_CSSValuePairList; } static bool IsStringUnit(Unit aUnit) { return aUnit == eUnit_UnparsedString; } }; }; #endif