gecko/layout/style/nsStyleAnimation.cpp

/* -*- 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 */

#include "mozilla/Util.h"
#include "mozilla/MathAlgorithms.h"

#include "nsStyleAnimation.h"
#include "nsCOMArray.h"
#include "nsIStyleRule.h"
#include "mozilla/css/StyleRule.h"
#include "nsString.h"
#include "nsStyleContext.h"
#include "nsStyleSet.h"
#include "nsComputedDOMStyle.h"
#include "nsCSSParser.h"
#include "mozilla/css/Declaration.h"
#include "mozilla/dom/Element.h"
#include "prlog.h"
#include <math.h>
#include "gfxMatrix.h"
#include "gfxQuaternion.h"
#include "nsPrintfCString.h"

using namespace mozilla;

// HELPER METHODS
// --------------
/*
 * Given two units, this method returns a common unit that they can both be
 * converted into, if possible.  This is intended to facilitate
 * interpolation, distance-computation, and addition between "similar" units.
 *
 * The ordering of the arguments should not affect the output of this method.
 *
 * If there's no sensible common unit, this method returns eUnit_Null.
 *
 * @param   aFirstUnit One unit to resolve.
 * @param   aFirstUnit The other unit to resolve.
 * @return  A "common" unit that both source units can be converted into, or
 *          eUnit_Null if that's not possible.
 */
static
nsStyleAnimation::Unit
GetCommonUnit(nsCSSProperty aProperty,
              nsStyleAnimation::Unit aFirstUnit,
              nsStyleAnimation::Unit aSecondUnit)
{
  if (aFirstUnit != aSecondUnit) {
    if (nsCSSProps::PropHasFlags(aProperty, CSS_PROPERTY_STORES_CALC) &&
        (aFirstUnit == nsStyleAnimation::eUnit_Coord ||
         aFirstUnit == nsStyleAnimation::eUnit_Percent ||
         aFirstUnit == nsStyleAnimation::eUnit_Calc) &&
        (aSecondUnit == nsStyleAnimation::eUnit_Coord ||
         aSecondUnit == nsStyleAnimation::eUnit_Percent ||
         aSecondUnit == nsStyleAnimation::eUnit_Calc)) {
      // We can use calc() as the common unit.
      return nsStyleAnimation::eUnit_Calc;
    }
    return nsStyleAnimation::eUnit_Null;
  }
  return aFirstUnit;
}

static
nsCSSUnit
GetCommonUnit(nsCSSProperty aProperty,
              nsCSSUnit aFirstUnit,
              nsCSSUnit aSecondUnit)
{
  if (aFirstUnit != aSecondUnit) {
    if (nsCSSProps::PropHasFlags(aProperty, CSS_PROPERTY_STORES_CALC) &&
        (aFirstUnit == eCSSUnit_Pixel ||
         aFirstUnit == eCSSUnit_Percent ||
         aFirstUnit == eCSSUnit_Calc) &&
        (aSecondUnit == eCSSUnit_Pixel ||
         aSecondUnit == eCSSUnit_Percent ||
         aSecondUnit == eCSSUnit_Calc)) {
      // We can use calc() as the common unit.
      return eCSSUnit_Calc;
    }
    return eCSSUnit_Null;
  }
  return aFirstUnit;
}

static nsCSSKeyword
ToPrimitive(nsCSSKeyword aKeyword)
{
  switch (aKeyword) {
    case eCSSKeyword_translatex:
    case eCSSKeyword_translatey:
    case eCSSKeyword_translatez:
    case eCSSKeyword_translate:
      return eCSSKeyword_translate3d;
    case eCSSKeyword_scalex:
    case eCSSKeyword_scaley:
    case eCSSKeyword_scalez:
    case eCSSKeyword_scale:
      return eCSSKeyword_scale3d;
    default:
      return aKeyword;
  }
}

static already_AddRefed<nsCSSValue::Array>
AppendFunction(nsCSSKeyword aTransformFunction)
{
  uint32_t nargs;
  switch (aTransformFunction) {
    case eCSSKeyword_matrix3d:
      nargs = 16;
      break;
    case eCSSKeyword_matrix:
      nargs = 6;
      break;
    case eCSSKeyword_rotate3d:
      nargs = 4;
      break;
    case eCSSKeyword_interpolatematrix:
    case eCSSKeyword_translate3d:
    case eCSSKeyword_scale3d:
      nargs = 3;
      break;
    case eCSSKeyword_translate:
    case eCSSKeyword_skew:
    case eCSSKeyword_scale:
      nargs = 2;
      break;
    default:
      NS_ERROR("must be a transform function");
    case eCSSKeyword_translatex:
    case eCSSKeyword_translatey:
    case eCSSKeyword_translatez:
    case eCSSKeyword_scalex:
    case eCSSKeyword_scaley:
    case eCSSKeyword_scalez:
    case eCSSKeyword_skewx:
    case eCSSKeyword_skewy:
    case eCSSKeyword_rotate:
    case eCSSKeyword_rotatex:
    case eCSSKeyword_rotatey:
    case eCSSKeyword_rotatez:
    case eCSSKeyword_perspective:
      nargs = 1;
      break;
  }

  nsRefPtr<nsCSSValue::Array> arr = nsCSSValue::Array::Create(nargs + 1);
  arr->Item(0).SetStringValue(
    NS_ConvertUTF8toUTF16(nsCSSKeywords::GetStringValue(aTransformFunction)),
    eCSSUnit_Ident);

  return arr.forget();
}

static already_AddRefed<nsCSSValue::Array>
ToPrimitive(nsCSSValue::Array* aArray)
{
  nsCSSKeyword tfunc = nsStyleTransformMatrix::TransformFunctionOf(aArray);
  nsCSSKeyword primitive = ToPrimitive(tfunc);
  nsRefPtr<nsCSSValue::Array> arr = AppendFunction(primitive);

  // FIXME: This would produce fewer calc() expressions if the
  // zero were of compatible type (length vs. percent) when
  // needed.

  nsCSSValue zero(0.0f, eCSSUnit_Pixel);
  nsCSSValue one(1.0f, eCSSUnit_Number);
  switch(tfunc) {
    case eCSSKeyword_translate:
    {
      NS_ABORT_IF_FALSE(aArray->Count() == 2 || aArray->Count() == 3,
                        "unexpected count");
      arr->Item(1) = aArray->Item(1);
      arr->Item(2) = aArray->Count() == 3 ? aArray->Item(2) : zero;
      arr->Item(3) = zero;
      break;
    }
    case eCSSKeyword_translatex:
    {
      NS_ABORT_IF_FALSE(aArray->Count() == 2, "unexpected count");
      arr->Item(1) = aArray->Item(1);
      arr->Item(2) = zero;
      arr->Item(3) = zero;
      break;
    }
    case eCSSKeyword_translatey:
    {
      NS_ABORT_IF_FALSE(aArray->Count() == 2, "unexpected count");
      arr->Item(1) = zero;
      arr->Item(2) = aArray->Item(1);
      arr->Item(3) = zero;
      break;
    }
    case eCSSKeyword_translatez:
    {
      NS_ABORT_IF_FALSE(aArray->Count() == 2, "unexpected count");
      arr->Item(1) = zero;
      arr->Item(2) = zero;
      arr->Item(3) = aArray->Item(1);
      break;
    }
    case eCSSKeyword_scale:
    {
      NS_ABORT_IF_FALSE(aArray->Count() == 2 || aArray->Count() == 3,
                        "unexpected count");
      arr->Item(1) = aArray->Item(1);
      arr->Item(2) = aArray->Count() == 3 ? aArray->Item(2) : aArray->Item(1);
      arr->Item(3) = one;
      break;
    }
    case eCSSKeyword_scalex:
    {
      NS_ABORT_IF_FALSE(aArray->Count() == 2, "unexpected count");
      arr->Item(1) = aArray->Item(1);
      arr->Item(2) = one;
      arr->Item(3) = one;
      break;
    }
    case eCSSKeyword_scaley:
    {
      NS_ABORT_IF_FALSE(aArray->Count() == 2, "unexpected count");
      arr->Item(1) = one;
      arr->Item(2) = aArray->Item(1);
      arr->Item(3) = one;
      break;
    }
    case eCSSKeyword_scalez:
    {
      NS_ABORT_IF_FALSE(aArray->Count() == 2, "unexpected count");
      arr->Item(1) = one;
      arr->Item(2) = one;
      arr->Item(3) = aArray->Item(1);
      break;
    }
    default:
      arr = aArray;
  }
  return arr.forget();
}

inline void
nscoordToCSSValue(nscoord aCoord, nsCSSValue& aCSSValue)
{
  aCSSValue.SetFloatValue(nsPresContext::AppUnitsToFloatCSSPixels(aCoord),
                          eCSSUnit_Pixel);
}

// Like nsStyleCoord::Calc, but with length in float pixels instead of nscoord.
struct CalcValue {
  float mLength, mPercent;
  bool mHasPercent;
};

// Requires a canonical calc() value that we generated.
static CalcValue
ExtractCalcValueInternal(const nsCSSValue& aValue)
{
  NS_ABORT_IF_FALSE(aValue.GetUnit() == eCSSUnit_Calc, "unexpected unit");
  nsCSSValue::Array *arr = aValue.GetArrayValue();
  NS_ABORT_IF_FALSE(arr->Count() == 1, "unexpected length");

  const nsCSSValue &topval = arr->Item(0);
  CalcValue result;
  if (topval.GetUnit() == eCSSUnit_Pixel) {
    result.mLength = topval.GetFloatValue();
    result.mPercent = 0.0f;
    result.mHasPercent = false;
  } else {
    NS_ABORT_IF_FALSE(topval.GetUnit() == eCSSUnit_Calc_Plus,
                      "unexpected unit");
    nsCSSValue::Array *arr2 = topval.GetArrayValue();
    const nsCSSValue &len = arr2->Item(0);
    const nsCSSValue &pct = arr2->Item(1);
    NS_ABORT_IF_FALSE(len.GetUnit() == eCSSUnit_Pixel, "unexpected unit");
    NS_ABORT_IF_FALSE(pct.GetUnit() == eCSSUnit_Percent, "unexpected unit");
    result.mLength = len.GetFloatValue();
    result.mPercent = pct.GetPercentValue();
    result.mHasPercent = true;
  }

  return result;
}

// Requires a canonical calc() value that we generated.
static CalcValue
ExtractCalcValue(const nsStyleAnimation::Value& aValue)
{
  CalcValue result;
  if (aValue.GetUnit() == nsStyleAnimation::eUnit_Coord) {
    result.mLength =
      nsPresContext::AppUnitsToFloatCSSPixels(aValue.GetCoordValue());
    result.mPercent = 0.0f;
    result.mHasPercent = false;
    return result;
  }
  if (aValue.GetUnit() == nsStyleAnimation::eUnit_Percent) {
    result.mLength = 0.0f;
    result.mPercent = aValue.GetPercentValue();
    result.mHasPercent = true;
    return result;
  }
  NS_ABORT_IF_FALSE(aValue.GetUnit() == nsStyleAnimation::eUnit_Calc,
                    "unexpected unit");
  nsCSSValue *val = aValue.GetCSSValueValue();
  return ExtractCalcValueInternal(*val);
}

static CalcValue
ExtractCalcValue(const nsCSSValue& aValue)
{
  CalcValue result;
  if (aValue.GetUnit() == eCSSUnit_Pixel) {
    result.mLength = aValue.GetFloatValue();
    result.mPercent = 0.0f;
    result.mHasPercent = false;
    return result;
  }
  if (aValue.GetUnit() == eCSSUnit_Percent) {
    result.mLength = 0.0f;
    result.mPercent = aValue.GetPercentValue();
    result.mHasPercent = true;
    return result;
  }
  return ExtractCalcValueInternal(aValue);
}

static void
SetCalcValue(const nsStyleCoord::Calc* aCalc, nsCSSValue& aValue)
{
  nsRefPtr<nsCSSValue::Array> arr = nsCSSValue::Array::Create(1);
  if (!aCalc->mHasPercent) {
    nscoordToCSSValue(aCalc->mLength, arr->Item(0));
  } else {
    nsCSSValue::Array *arr2 = nsCSSValue::Array::Create(2);
    arr->Item(0).SetArrayValue(arr2, eCSSUnit_Calc_Plus);
    nscoordToCSSValue(aCalc->mLength, arr2->Item(0));
    arr2->Item(1).SetPercentValue(aCalc->mPercent);
  }

  aValue.SetArrayValue(arr, eCSSUnit_Calc);
}

static already_AddRefed<nsStringBuffer>
GetURIAsUtf16StringBuffer(nsIURI* aUri)
{
  nsAutoCString utf8String;
  nsresult rv = aUri->GetSpec(utf8String);
  NS_ENSURE_SUCCESS(rv, nullptr);

  return nsCSSValue::BufferFromString(NS_ConvertUTF8toUTF16(utf8String));
}

// CLASS METHODS
// -------------

bool
nsStyleAnimation::ComputeDistance(nsCSSProperty aProperty,
                                  const Value& aStartValue,
                                  const Value& aEndValue,
                                  double& aDistance)
{
  Unit commonUnit =
    GetCommonUnit(aProperty, aStartValue.GetUnit(), aEndValue.GetUnit());

  switch (commonUnit) {
    case eUnit_Null:
    case eUnit_Auto:
    case eUnit_None:
    case eUnit_Normal:
    case eUnit_UnparsedString:
      return false;

    case eUnit_Enumerated:
      switch (aProperty) {
        case eCSSProperty_font_stretch: {
          // just like eUnit_Integer.
          int32_t startInt = aStartValue.GetIntValue();
          int32_t endInt = aEndValue.GetIntValue();
          aDistance = NS_ABS(endInt - startInt);
          return true;
        }
        default:
          return false;
      }
   case eUnit_Visibility: {
      int32_t startVal =
        aStartValue.GetIntValue() == NS_STYLE_VISIBILITY_VISIBLE;
      int32_t endVal =
        aEndValue.GetIntValue() == NS_STYLE_VISIBILITY_VISIBLE;
      aDistance = NS_ABS(startVal - endVal);
      return true;
    }
    case eUnit_Integer: {
      int32_t startInt = aStartValue.GetIntValue();
      int32_t endInt = aEndValue.GetIntValue();
      aDistance = NS_ABS(endInt - startInt);
      return true;
    }
    case eUnit_Coord: {
      nscoord startCoord = aStartValue.GetCoordValue();
      nscoord endCoord = aEndValue.GetCoordValue();
      aDistance = fabs(double(endCoord - startCoord));
      return true;
    }
    case eUnit_Percent: {
      float startPct = aStartValue.GetPercentValue();
      float endPct = aEndValue.GetPercentValue();
      aDistance = fabs(double(endPct - startPct));
      return true;
    }
    case eUnit_Float: {
#ifdef MOZ_FLEXBOX
      // Special case for flex-grow and flex-shrink: animations are
      // disallowed between 0 and other values.
      if ((aProperty == eCSSProperty_flex_grow ||
           aProperty == eCSSProperty_flex_shrink) &&
          (aStartValue.GetFloatValue() == 0.0f ||
           aEndValue.GetFloatValue() == 0.0f) &&
          aStartValue.GetFloatValue() != aEndValue.GetFloatValue()) {
        return false;
      }
#endif // MOZ_FLEXBOX

      float startFloat = aStartValue.GetFloatValue();
      float endFloat = aEndValue.GetFloatValue();
      aDistance = fabs(double(endFloat - startFloat));
      return true;
    }
    case eUnit_Color: {
      // http://www.w3.org/TR/smil-animation/#animateColorElement says
      // that we should use Euclidean RGB cube distance.  However, we
      // have to extend that to RGBA.  For now, we'll just use the
      // Euclidean distance in the (part of the) 4-cube of premultiplied
      // colors.
      // FIXME (spec): The CSS transitions spec doesn't say whether
      // colors are premultiplied, but things work better when they are,
      // so use premultiplication.  Spec issue is still open per
      // http://lists.w3.org/Archives/Public/www-style/2009Jul/0050.html
      nscolor startColor = aStartValue.GetColorValue();
      nscolor endColor = aEndValue.GetColorValue();

      // Get a color component on a 0-1 scale, which is much easier to
      // deal with when working with alpha.
      #define GET_COMPONENT(component_, color_) \
        (NS_GET_##component_(color_) * (1.0 / 255.0))

      double startA = GET_COMPONENT(A, startColor);
      double startR = GET_COMPONENT(R, startColor) * startA;
      double startG = GET_COMPONENT(G, startColor) * startA;
      double startB = GET_COMPONENT(B, startColor) * startA;
      double endA = GET_COMPONENT(A, endColor);
      double endR = GET_COMPONENT(R, endColor) * endA;
      double endG = GET_COMPONENT(G, endColor) * endA;
      double endB = GET_COMPONENT(B, endColor) * endA;

      #undef GET_COMPONENT

      double diffA = startA - endA;
      double diffR = startR - endR;
      double diffG = startG - endG;
      double diffB = startB - endB;
      aDistance = sqrt(diffA * diffA + diffR * diffR +
                       diffG * diffG + diffB * diffB);
      return true;
    }
    case eUnit_Calc: {
      CalcValue v1 = ExtractCalcValue(aStartValue);
      CalcValue v2 = ExtractCalcValue(aEndValue);
      float difflen = v2.mLength - v1.mLength;
      float diffpct = v2.mPercent - v1.mPercent;
      aDistance = sqrt(difflen * difflen + diffpct * diffpct);
      return true;
    }
    case eUnit_CSSValuePair: {
      const nsCSSValuePair *pair1 = aStartValue.GetCSSValuePairValue();
      const nsCSSValuePair *pair2 = aEndValue.GetCSSValuePairValue();
      nsCSSUnit unit[2];
      unit[0] = GetCommonUnit(aProperty, pair1->mXValue.GetUnit(),
                              pair2->mXValue.GetUnit());
      unit[1] = GetCommonUnit(aProperty, pair1->mYValue.GetUnit(),
                              pair2->mYValue.GetUnit());
      if (unit[0] == eCSSUnit_Null || unit[1] == eCSSUnit_Null ||
          unit[0] == eCSSUnit_URL) {
        return false;
      }

      double squareDistance = 0.0;
      static nsCSSValue nsCSSValuePair::* const pairValues[2] = {
        &nsCSSValuePair::mXValue, &nsCSSValuePair::mYValue
      };
      for (uint32_t i = 0; i < 2; ++i) {
        nsCSSValue nsCSSValuePair::*member = pairValues[i];
        double diffsquared;
        switch (unit[i]) {
          case eCSSUnit_Pixel: {
            float diff = (pair1->*member).GetFloatValue() -
                         (pair2->*member).GetFloatValue();
            diffsquared = diff * diff;
            break;
          }
          case eCSSUnit_Percent: {
            float diff = (pair1->*member).GetPercentValue() -
                         (pair2->*member).GetPercentValue();
            diffsquared = diff * diff;
            break;
          }
          case eCSSUnit_Calc: {
            CalcValue v1 = ExtractCalcValue(pair1->*member);
            CalcValue v2 = ExtractCalcValue(pair2->*member);
            float difflen = v2.mLength - v1.mLength;
            float diffpct = v2.mPercent - v1.mPercent;
            diffsquared = difflen * difflen + diffpct * diffpct;
            break;
          }
          default:
            NS_ABORT_IF_FALSE(false, "unexpected unit");
            return false;
        }
        squareDistance += diffsquared;
      }

      aDistance = sqrt(squareDistance);
      return true;
    }
    case eUnit_CSSValueTriplet: {
      const nsCSSValueTriplet *triplet1 = aStartValue.GetCSSValueTripletValue();
      const nsCSSValueTriplet *triplet2 = aEndValue.GetCSSValueTripletValue();
      nsCSSUnit unit[3];
      unit[0] = GetCommonUnit(aProperty, triplet1->mXValue.GetUnit(),
                              triplet2->mXValue.GetUnit());
      unit[1] = GetCommonUnit(aProperty, triplet1->mYValue.GetUnit(),
                              triplet2->mYValue.GetUnit());
      unit[2] = GetCommonUnit(aProperty, triplet1->mZValue.GetUnit(),
                              triplet2->mZValue.GetUnit());
      if (unit[0] == eCSSUnit_Null || unit[1] == eCSSUnit_Null ||
          unit[2] == eCSSUnit_Null) {
        return false;
      }

      double squareDistance = 0.0;
      static nsCSSValue nsCSSValueTriplet::* const pairValues[3] = {
        &nsCSSValueTriplet::mXValue, &nsCSSValueTriplet::mYValue, &nsCSSValueTriplet::mZValue
      };
      for (uint32_t i = 0; i < 3; ++i) {
        nsCSSValue nsCSSValueTriplet::*member = pairValues[i];
        double diffsquared;
        switch (unit[i]) {
          case eCSSUnit_Pixel: {
            float diff = (triplet1->*member).GetFloatValue() -
                         (triplet2->*member).GetFloatValue();
            diffsquared = diff * diff;
            break;
          }
          case eCSSUnit_Percent: {
            float diff = (triplet1->*member).GetPercentValue() -
                         (triplet2->*member).GetPercentValue();
             diffsquared = diff * diff;
             break;
          }
          case eCSSUnit_Calc: {
            CalcValue v1 = ExtractCalcValue(triplet1->*member);
            CalcValue v2 = ExtractCalcValue(triplet2->*member);
            float difflen = v2.mLength - v1.mLength;
            float diffpct = v2.mPercent - v1.mPercent;
            diffsquared = difflen * difflen + diffpct * diffpct;
            break;
          }
          case eCSSUnit_Null:
            diffsquared = 0;
            break;
          default:
            NS_ABORT_IF_FALSE(false, "unexpected unit");
            return false;
        }
        squareDistance += diffsquared;
      }

      aDistance = sqrt(squareDistance);
      return true;
    }
    case eUnit_CSSRect: {
      const nsCSSRect *rect1 = aStartValue.GetCSSRectValue();
      const nsCSSRect *rect2 = aEndValue.GetCSSRectValue();
      if (rect1->mTop.GetUnit() != rect2->mTop.GetUnit() ||
          rect1->mRight.GetUnit() != rect2->mRight.GetUnit() ||
          rect1->mBottom.GetUnit() != rect2->mBottom.GetUnit() ||
          rect1->mLeft.GetUnit() != rect2->mLeft.GetUnit()) {
        // At least until we have calc()
        return false;
      }

      double squareDistance = 0.0;
      for (uint32_t i = 0; i < ArrayLength(nsCSSRect::sides); ++i) {
        nsCSSValue nsCSSRect::*member = nsCSSRect::sides[i];
        NS_ABORT_IF_FALSE((rect1->*member).GetUnit() ==
                            (rect2->*member).GetUnit(),
                          "should have returned above");
        double diff;
        switch ((rect1->*member).GetUnit()) {
          case eCSSUnit_Pixel:
            diff = (rect1->*member).GetFloatValue() -
                   (rect2->*member).GetFloatValue();
            break;
          case eCSSUnit_Auto:
            diff = 0;
            break;
          default:
            NS_ABORT_IF_FALSE(false, "unexpected unit");
            return false;
        }
        squareDistance += diff * diff;
      }

      aDistance = sqrt(squareDistance);
      return true;
    }
    case eUnit_Dasharray: {
      // NOTE: This produces results on substantially different scales
      // for length values and percentage values, which might even be
      // mixed in the same property value.  This means the result isn't
      // particularly useful for paced animation.

      // Call AddWeighted to make us lists of the same length.
      Value normValue1, normValue2;
      if (!AddWeighted(aProperty, 1.0, aStartValue, 0.0, aEndValue,
                       normValue1) ||
          !AddWeighted(aProperty, 0.0, aStartValue, 1.0, aEndValue,
                       normValue2)) {
        return false;
      }

      double squareDistance = 0.0;
      const nsCSSValueList *list1 = normValue1.GetCSSValueListValue();
      const nsCSSValueList *list2 = normValue2.GetCSSValueListValue();

      NS_ABORT_IF_FALSE(!list1 == !list2, "lists should be same length");
      while (list1) {
        const nsCSSValue &val1 = list1->mValue;
        const nsCSSValue &val2 = list2->mValue;

        NS_ABORT_IF_FALSE(val1.GetUnit() == val2.GetUnit(),
                          "unit match should be assured by AddWeighted");
        double diff;
        switch (val1.GetUnit()) {
          case eCSSUnit_Percent:
            diff = val1.GetPercentValue() - val2.GetPercentValue();
            break;
          case eCSSUnit_Number:
            diff = val1.GetFloatValue() - val2.GetFloatValue();
            break;
          default:
            NS_ABORT_IF_FALSE(false, "unexpected unit");
            return false;
        }
        squareDistance += diff * diff;

        list1 = list1->mNext;
        list2 = list2->mNext;
        NS_ABORT_IF_FALSE(!list1 == !list2, "lists should be same length");
      }

      aDistance = sqrt(squareDistance);
      return true;
    }
    case eUnit_Shadow: {
      // Call AddWeighted to make us lists of the same length.
      Value normValue1, normValue2;
      if (!AddWeighted(aProperty, 1.0, aStartValue, 0.0, aEndValue,
                       normValue1) ||
          !AddWeighted(aProperty, 0.0, aStartValue, 1.0, aEndValue,
                       normValue2)) {
        return false;
      }

      const nsCSSValueList *shadow1 = normValue1.GetCSSValueListValue();
      const nsCSSValueList *shadow2 = normValue2.GetCSSValueListValue();

      double squareDistance = 0.0;
      NS_ABORT_IF_FALSE(!shadow1 == !shadow2, "lists should be same length");
      while (shadow1) {
        nsCSSValue::Array *array1 = shadow1->mValue.GetArrayValue();
        nsCSSValue::Array *array2 = shadow2->mValue.GetArrayValue();
        for (size_t i = 0; i < 4; ++i) {
          NS_ABORT_IF_FALSE(array1->Item(i).GetUnit() == eCSSUnit_Pixel,
                            "unexpected unit");
          NS_ABORT_IF_FALSE(array2->Item(i).GetUnit() == eCSSUnit_Pixel,
                            "unexpected unit");
          double diff = array1->Item(i).GetFloatValue() -
                        array2->Item(i).GetFloatValue();
          squareDistance += diff * diff;
        }

        const nsCSSValue &color1 = array1->Item(4);
        const nsCSSValue &color2 = array2->Item(4);
#ifdef DEBUG
        {
          const nsCSSValue &inset1 = array1->Item(5);
          const nsCSSValue &inset2 = array2->Item(5);
          // There are only two possible states of the inset value:
          //  (1) GetUnit() == eCSSUnit_Null
          //  (2) GetUnit() == eCSSUnit_Enumerated &&
          //      GetIntValue() == NS_STYLE_BOX_SHADOW_INSET
          NS_ABORT_IF_FALSE(color1.GetUnit() == color2.GetUnit() &&
                            inset1 == inset2,
                            "AddWeighted should have failed");
        }
#endif

        if (color1.GetUnit() != eCSSUnit_Null) {
          nsStyleAnimation::Value color1Value
            (color1.GetColorValue(), nsStyleAnimation::Value::ColorConstructor);
          nsStyleAnimation::Value color2Value
            (color2.GetColorValue(), nsStyleAnimation::Value::ColorConstructor);
          double colorDistance;

        #ifdef DEBUG
          bool ok =
        #endif
            nsStyleAnimation::ComputeDistance(eCSSProperty_color,
                                              color1Value, color2Value,
                                              colorDistance);
          NS_ABORT_IF_FALSE(ok, "should not fail");
          squareDistance += colorDistance * colorDistance;
        }

        shadow1 = shadow1->mNext;
        shadow2 = shadow2->mNext;
        NS_ABORT_IF_FALSE(!shadow1 == !shadow2, "lists should be same length");
      }
      aDistance = sqrt(squareDistance);
      return true;
    }
    case eUnit_Transform: {
      return false;
    }
    case eUnit_BackgroundPosition: {
      const nsCSSValueList *position1 = aStartValue.GetCSSValueListValue();
      const nsCSSValueList *position2 = aEndValue.GetCSSValueListValue();

      double squareDistance = 0.0;
      NS_ABORT_IF_FALSE(!position1 == !position2, "lists should be same length");

      while (position1 && position2) {
        NS_ASSERTION(position1->mValue.GetUnit() == eCSSUnit_Array &&
                     position2->mValue.GetUnit() == eCSSUnit_Array,
                     "Expected two arrays");

        CalcValue calcVal[4];

        nsCSSValue::Array* bgArray = position1->mValue.GetArrayValue();
        NS_ABORT_IF_FALSE(bgArray->Count() == 4, "Invalid background-position");
        NS_ASSERTION(bgArray->Item(0).GetUnit() == eCSSUnit_Null &&
                     bgArray->Item(2).GetUnit() == eCSSUnit_Null,
                     "Invalid list used");
        for (int i = 0; i < 2; ++i) {
          NS_ABORT_IF_FALSE(bgArray->Item(i*2+1).GetUnit() != eCSSUnit_Null,
                            "Invalid background-position");
          calcVal[i] = ExtractCalcValue(bgArray->Item(i*2+1));
        }

        bgArray = position2->mValue.GetArrayValue();
        NS_ABORT_IF_FALSE(bgArray->Count() == 4, "Invalid background-position");
        NS_ASSERTION(bgArray->Item(0).GetUnit() == eCSSUnit_Null &&
                     bgArray->Item(2).GetUnit() == eCSSUnit_Null,
                     "Invalid list used");
        for (int i = 0; i < 2; ++i) {
          NS_ABORT_IF_FALSE(bgArray->Item(i*2+1).GetUnit() != eCSSUnit_Null,
                            "Invalid background-position");
          calcVal[i+2] = ExtractCalcValue(bgArray->Item(i*2+1));
        }

        for (int i = 0; i < 2; ++i) {
          float difflen = calcVal[i+2].mLength - calcVal[i].mLength;
          float diffpct = calcVal[i+2].mPercent - calcVal[i].mPercent;
          squareDistance += difflen * difflen + diffpct * diffpct;
        }

        position1 = position1->mNext;
        position2 = position2->mNext;
      }
      // fail if lists differ in length.
      if (position1 || position2) {
        return false;
      }

      aDistance = sqrt(squareDistance);
      return true;
    }
    case eUnit_CSSValuePairList: {
      const nsCSSValuePairList *list1 = aStartValue.GetCSSValuePairListValue();
      const nsCSSValuePairList *list2 = aEndValue.GetCSSValuePairListValue();
      double squareDistance = 0.0;
      do {
        static nsCSSValue nsCSSValuePairList::* const pairListValues[] = {
          &nsCSSValuePairList::mXValue,
          &nsCSSValuePairList::mYValue,
        };
        for (uint32_t i = 0; i < ArrayLength(pairListValues); ++i) {
          const nsCSSValue &v1 = list1->*(pairListValues[i]);
          const nsCSSValue &v2 = list2->*(pairListValues[i]);
          nsCSSUnit unit =
            GetCommonUnit(aProperty, v1.GetUnit(), v2.GetUnit());
          if (unit == eCSSUnit_Null) {
            return false;
          }
          double diffsquared = 0.0;
          switch (unit) {
            case eCSSUnit_Pixel: {
              float diff = v1.GetFloatValue() - v2.GetFloatValue();
              diffsquared = diff * diff;
              break;
            }
            case eCSSUnit_Percent: {
              float diff = v1.GetPercentValue() - v2.GetPercentValue();
              diffsquared = diff * diff;
              break;
            }
            case eCSSUnit_Calc: {
              CalcValue val1 = ExtractCalcValue(v1);
              CalcValue val2 = ExtractCalcValue(v2);
              float difflen = val2.mLength - val1.mLength;
              float diffpct = val2.mPercent - val1.mPercent;
              diffsquared = difflen * difflen + diffpct * diffpct;
              break;
            }
            default:
              if (v1 != v2) {
                return false;
              }
              break;
          }
          squareDistance += diffsquared;
        }
        list1 = list1->mNext;
        list2 = list2->mNext;
      } while (list1 && list2);
      if (list1 || list2) {
        // We can't interpolate lists of different lengths.
        return false;
      }
      aDistance = sqrt(squareDistance);
      return true;
    }
  }

  NS_ABORT_IF_FALSE(false, "Can't compute distance using the given common unit");
  return false;
}

#define MAX_PACKED_COLOR_COMPONENT 255

inline uint8_t ClampColor(double aColor)
{
  if (aColor >= MAX_PACKED_COLOR_COMPONENT)
    return MAX_PACKED_COLOR_COMPONENT;
  if (aColor <= 0.0)
    return 0;
  return NSToIntRound(aColor);
}

template <typename T>
T
RestrictValue(uint32_t aRestrictions, T aValue)
{
  T result = aValue;
  switch (aRestrictions) {
    case 0:
      break;
    case CSS_PROPERTY_VALUE_NONNEGATIVE:
      if (result < 0) {
        result = 0;
      }
      break;
    case CSS_PROPERTY_VALUE_AT_LEAST_ONE:
      if (result < 1) {
        result = 1;
      }
      break;
    default:
      NS_ABORT_IF_FALSE(false, "bad value restriction");
      break;
  }
  return result;
}

template <typename T>
T
RestrictValue(nsCSSProperty aProperty, T aValue)
{
  return RestrictValue(nsCSSProps::ValueRestrictions(aProperty), aValue);
}

static inline void
AddCSSValuePixel(double aCoeff1, const nsCSSValue &aValue1,
                 double aCoeff2, const nsCSSValue &aValue2,
                 nsCSSValue &aResult, uint32_t aValueRestrictions = 0)
{
  NS_ABORT_IF_FALSE(aValue1.GetUnit() == eCSSUnit_Pixel, "unexpected unit");
  NS_ABORT_IF_FALSE(aValue2.GetUnit() == eCSSUnit_Pixel, "unexpected unit");
  aResult.SetFloatValue(RestrictValue(aValueRestrictions,
                                      aCoeff1 * aValue1.GetFloatValue() +
                                      aCoeff2 * aValue2.GetFloatValue()),
                        eCSSUnit_Pixel);
}

static inline void
AddCSSValueNumber(double aCoeff1, const nsCSSValue &aValue1,
                  double aCoeff2, const nsCSSValue &aValue2,
                  nsCSSValue &aResult, uint32_t aValueRestrictions = 0)
{
  NS_ABORT_IF_FALSE(aValue1.GetUnit() == eCSSUnit_Number, "unexpected unit");
  NS_ABORT_IF_FALSE(aValue2.GetUnit() == eCSSUnit_Number, "unexpected unit");
  aResult.SetFloatValue(RestrictValue(aValueRestrictions,
                                      aCoeff1 * aValue1.GetFloatValue() +
                                      aCoeff2 * aValue2.GetFloatValue()),
                        eCSSUnit_Number);
}

static inline void
AddCSSValuePercent(double aCoeff1, const nsCSSValue &aValue1,
                   double aCoeff2, const nsCSSValue &aValue2,
                   nsCSSValue &aResult, uint32_t aValueRestrictions = 0)
{
  NS_ABORT_IF_FALSE(aValue1.GetUnit() == eCSSUnit_Percent, "unexpected unit");
  NS_ABORT_IF_FALSE(aValue2.GetUnit() == eCSSUnit_Percent, "unexpected unit");
  aResult.SetPercentValue(RestrictValue(aValueRestrictions,
                                        aCoeff1 * aValue1.GetPercentValue() +
                                        aCoeff2 * aValue2.GetPercentValue()));
}

// Add two canonical-form calc values (eUnit_Calc) to make another
// canonical-form calc value.
static void
AddCSSValueCanonicalCalc(double aCoeff1, const nsCSSValue &aValue1,
                         double aCoeff2, const nsCSSValue &aValue2,
                         nsCSSValue &aResult)
{
  CalcValue v1 = ExtractCalcValue(aValue1);
  CalcValue v2 = ExtractCalcValue(aValue2);
  NS_ABORT_IF_FALSE(v1.mHasPercent || v2.mHasPercent,
                    "only used on properties that always have percent in calc");
  nsRefPtr<nsCSSValue::Array> a = nsCSSValue::Array::Create(2),
                              acalc = nsCSSValue::Array::Create(1);
  a->Item(0).SetFloatValue(aCoeff1 * v1.mLength + aCoeff2 * v2.mLength,
                           eCSSUnit_Pixel);
  a->Item(1).SetPercentValue(aCoeff1 * v1.mPercent + aCoeff2 * v2.mPercent);
  acalc->Item(0).SetArrayValue(a, eCSSUnit_Calc_Plus);
  aResult.SetArrayValue(acalc, eCSSUnit_Calc);
}

static void
AddCSSValueAngle(const nsCSSValue &aValue1, double aCoeff1,
                 const nsCSSValue &aValue2, double aCoeff2,
                 nsCSSValue &aResult)
{
  aResult.SetFloatValue(aCoeff1 * aValue1.GetAngleValueInRadians() +
                        aCoeff2 * aValue2.GetAngleValueInRadians(),
                        eCSSUnit_Radian);
}

static bool
AddCSSValuePixelPercentCalc(const uint32_t aValueRestrictions,
                            const nsCSSUnit aCommonUnit,
                            double aCoeff1, const nsCSSValue &aValue1,
                            double aCoeff2, const nsCSSValue &aValue2,
                            nsCSSValue &aResult)
{
  switch (aCommonUnit) {
    case eCSSUnit_Pixel:
      AddCSSValuePixel(aCoeff1, aValue1,
                       aCoeff2, aValue2,
                       aResult, aValueRestrictions);
      break;
    case eCSSUnit_Percent:
      AddCSSValuePercent(aCoeff1, aValue1,
                         aCoeff2, aValue2,
                         aResult, aValueRestrictions);
      break;
    case eCSSUnit_Calc:
      AddCSSValueCanonicalCalc(aCoeff1, aValue1,
                               aCoeff2, aValue2,
                               aResult);
      break;
    default:
      return false;
  }

  return true;
}

static bool
AddShadowItems(double aCoeff1, const nsCSSValue &aValue1,
               double aCoeff2, const nsCSSValue &aValue2,
               nsCSSValueList **&aResultTail)
{
  // X, Y, Radius, Spread, Color, Inset
  NS_ABORT_IF_FALSE(aValue1.GetUnit() == eCSSUnit_Array,
                    "wrong unit");
  NS_ABORT_IF_FALSE(aValue2.GetUnit() == eCSSUnit_Array,
                    "wrong unit");
  nsCSSValue::Array *array1 = aValue1.GetArrayValue();
  nsCSSValue::Array *array2 = aValue2.GetArrayValue();
  nsRefPtr<nsCSSValue::Array> resultArray = nsCSSValue::Array::Create(6);

  for (size_t i = 0; i < 4; ++i) {
    AddCSSValuePixel(aCoeff1, array1->Item(i), aCoeff2, array2->Item(i),
                     resultArray->Item(i),
                     // blur radius must be nonnegative
                     (i == 2) ? CSS_PROPERTY_VALUE_NONNEGATIVE : 0);
  }

  const nsCSSValue& color1 = array1->Item(4);
  const nsCSSValue& color2 = array2->Item(4);
  const nsCSSValue& inset1 = array1->Item(5);
  const nsCSSValue& inset2 = array2->Item(5);
  if (color1.GetUnit() != color2.GetUnit() ||
      inset1.GetUnit() != inset2.GetUnit()) {
    // We don't know how to animate between color and no-color, or
    // between inset and not-inset.
    return false;
  }

  if (color1.GetUnit() != eCSSUnit_Null) {
    nsStyleAnimation::Value color1Value
      (color1.GetColorValue(), nsStyleAnimation::Value::ColorConstructor);
    nsStyleAnimation::Value color2Value
      (color2.GetColorValue(), nsStyleAnimation::Value::ColorConstructor);
    nsStyleAnimation::Value resultColorValue;
  #ifdef DEBUG
    bool ok =
  #endif
      nsStyleAnimation::AddWeighted(eCSSProperty_color, aCoeff1, color1Value,
                                    aCoeff2, color2Value, resultColorValue);
    NS_ABORT_IF_FALSE(ok, "should not fail");
    resultArray->Item(4).SetColorValue(resultColorValue.GetColorValue());
  }

  NS_ABORT_IF_FALSE(inset1 == inset2, "should match");
  resultArray->Item(5) = inset1;

  nsCSSValueList *resultItem = new nsCSSValueList;
  if (!resultItem) {
    return false;
  }
  resultItem->mValue.SetArrayValue(resultArray, eCSSUnit_Array);
  *aResultTail = resultItem;
  aResultTail = &resultItem->mNext;
  return true;
}

static void
AddTransformTranslate(const nsCSSValue &aValue1, double aCoeff1,
                      const nsCSSValue &aValue2, double aCoeff2,
                      nsCSSValue &aResult)
{
  NS_ABORT_IF_FALSE(aValue1.GetUnit() == eCSSUnit_Percent ||
                    aValue1.GetUnit() == eCSSUnit_Pixel ||
                    aValue1.IsCalcUnit(),
                    "unexpected unit");
  NS_ABORT_IF_FALSE(aValue2.GetUnit() == eCSSUnit_Percent ||
                    aValue2.GetUnit() == eCSSUnit_Pixel ||
                    aValue2.IsCalcUnit(),
                    "unexpected unit");

  if (aValue1.GetUnit() != aValue2.GetUnit() || aValue1.IsCalcUnit()) {
    // different units; create a calc() expression
    AddCSSValueCanonicalCalc(aCoeff1, aValue1, aCoeff2, aValue2, aResult);
  } else if (aValue1.GetUnit() == eCSSUnit_Percent) {
    // both percent
    AddCSSValuePercent(aCoeff1, aValue1, aCoeff2, aValue2, aResult);
  } else {
    // both pixels
    AddCSSValuePixel(aCoeff1, aValue1, aCoeff2, aValue2, aResult);
  }
}

static void
AddTransformScale(const nsCSSValue &aValue1, double aCoeff1,
                  const nsCSSValue &aValue2, double aCoeff2,
                  nsCSSValue &aResult)
{
  // Handle scale, and the two matrix components where identity is 1, by
  // subtracting 1, multiplying by the coefficients, and then adding 1
  // back.  This gets the right AddWeighted behavior and gets us the
  // interpolation-against-identity behavior for free.
  NS_ABORT_IF_FALSE(aValue1.GetUnit() == eCSSUnit_Number, "unexpected unit");
  NS_ABORT_IF_FALSE(aValue2.GetUnit() == eCSSUnit_Number, "unexpected unit");

  float v1 = aValue1.GetFloatValue() - 1.0f,
        v2 = aValue2.GetFloatValue() - 1.0f;
  float result = v1 * aCoeff1 + v2 * aCoeff2;
  aResult.SetFloatValue(result + 1.0f, eCSSUnit_Number);
}

/* static */ already_AddRefed<nsCSSValue::Array>
nsStyleAnimation::AppendTransformFunction(nsCSSKeyword aTransformFunction,
                                          nsCSSValueList**& aListTail)
{
  nsRefPtr<nsCSSValue::Array> arr = AppendFunction(aTransformFunction);
  nsCSSValueList *item = new nsCSSValueList;
  item->mValue.SetArrayValue(arr, eCSSUnit_Function);

  *aListTail = item;
  aListTail = &item->mNext;

  return arr.forget();
}

/*
 * The relevant section of the transitions specification:
 * http://dev.w3.org/csswg/css3-transitions/#animation-of-property-types-
 * defers all of the details to the 2-D and 3-D transforms specifications.
 * For the 2-D transforms specification (all that's relevant for us, right
 * now), the relevant section is:
 * http://dev.w3.org/csswg/css3-2d-transforms/#animation
 * This, in turn, refers to the unmatrix program in Graphics Gems,
 * available from http://tog.acm.org/resources/GraphicsGems/ , and in
 * particular as the file GraphicsGems/gemsii/unmatrix.c
 * in http://tog.acm.org/resources/GraphicsGems/AllGems.tar.gz
 *
 * The unmatrix reference is for general 3-D transform matrices (any of the
 * 16 components can have any value).
 *
 * For CSS 2-D transforms, we have a 2-D matrix with the bottom row constant:
 *
 * [ A C E ]
 * [ B D F ]
 * [ 0 0 1 ]
 *
 * For that case, I believe the algorithm in unmatrix reduces to:
 *
 *  (1) If A * D - B * C == 0, the matrix is singular.  Fail.
 *
 *  (2) Set translation components (Tx and Ty) to the translation parts of
 *      the matrix (E and F) and then ignore them for the rest of the time.
 *      (For us, E and F each actually consist of three constants:  a
 *      length, a multiplier for the width, and a multiplier for the
 *      height.  This actually requires its own decomposition, but I'll
 *      keep that separate.)
 *
 *  (3) Let the X scale (Sx) be sqrt(A^2 + B^2).  Then divide both A and B
 *      by it.
 *
 *  (4) Let the XY shear (K) be A * C + B * D.  From C, subtract A times
 *      the XY shear.  From D, subtract B times the XY shear.
 *
 *  (5) Let the Y scale (Sy) be sqrt(C^2 + D^2).  Divide C, D, and the XY
 *      shear (K) by it.
 *
 *  (6) At this point, A * D - B * C is either 1 or -1.  If it is -1,
 *      negate the XY shear (K), the X scale (Sx), and A, B, C, and D.
 *      (Alternatively, we could negate the XY shear (K) and the Y scale
 *      (Sy).)
 *
 *  (7) Let the rotation be R = atan2(B, A).
 *
 * Then the resulting decomposed transformation is:
 *
 *   translate(Tx, Ty) rotate(R) skewX(atan(K)) scale(Sx, Sy)
 *
 * An interesting result of this is that all of the simple transform
 * functions (i.e., all functions other than matrix()), in isolation,
 * decompose back to themselves except for:
 *   'skewY(φ)', which is 'matrix(1, tan(φ), 0, 1, 0, 0)', which decomposes
 *   to 'rotate(φ) skewX(φ) scale(sec(φ), cos(φ))' since (ignoring the
 *   alternate sign possibilities that would get fixed in step 6):
 *     In step 3, the X scale factor is sqrt(1+tan²(φ)) = sqrt(sec²(φ)) = sec(φ).
 *     Thus, after step 3, A = 1/sec(φ) = cos(φ) and B = tan(φ) / sec(φ) = sin(φ).
 *     In step 4, the XY shear is sin(φ).
 *     Thus, after step 4, C = -cos(φ)sin(φ) and D = 1 - sin²(φ) = cos²(φ).
 *     Thus, in step 5, the Y scale is sqrt(cos²(φ)(sin²(φ) + cos²(φ)) = cos(φ).
 *     Thus, after step 5, C = -sin(φ), D = cos(φ), and the XY shear is tan(φ).
 *     Thus, in step 6, A * D - B * C = cos²(φ) + sin²(φ) = 1.
 *     In step 7, the rotation is thus φ.
 *
 *   skew(θ, φ), which is matrix(1, tan(φ), tan(θ), 1, 0, 0), which decomposes
 *   to 'rotate(φ) skewX(θ + φ) scale(sec(φ), cos(φ))' since (ignoring
 *   the alternate sign possibilities that would get fixed in step 6):
 *     In step 3, the X scale factor is sqrt(1+tan²(φ)) = sqrt(sec²(φ)) = sec(φ).
 *     Thus, after step 3, A = 1/sec(φ) = cos(φ) and B = tan(φ) / sec(φ) = sin(φ).
 *     In step 4, the XY shear is cos(φ)tan(θ) + sin(φ).
 *     Thus, after step 4,
 *     C = tan(θ) - cos(φ)(cos(φ)tan(θ) + sin(φ)) = tan(θ)sin²(φ) - cos(φ)sin(φ)
 *     D = 1 - sin(φ)(cos(φ)tan(θ) + sin(φ)) = cos²(φ) - sin(φ)cos(φ)tan(θ)
 *     Thus, in step 5, the Y scale is sqrt(C² + D²) =
 *     sqrt(tan²(θ)(sin⁴(φ) + sin²(φ)cos²(φ)) -
 *          2 tan(θ)(sin³(φ)cos(φ) + sin(φ)cos³(φ)) +
 *          (sin²(φ)cos²(φ) + cos⁴(φ))) =
 *     sqrt(tan²(θ)sin²(φ) - 2 tan(θ)sin(φ)cos(φ) + cos²(φ)) =
 *     cos(φ) - tan(θ)sin(φ) (taking the negative of the obvious solution so
 *     we avoid flipping in step 6).
 *     After step 5, C = -sin(φ) and D = cos(φ), and the XY shear is
 *     (cos(φ)tan(θ) + sin(φ)) / (cos(φ) - tan(θ)sin(φ)) =
 *     (dividing both numerator and denominator by cos(φ))
 *     (tan(θ) + tan(φ)) / (1 - tan(θ)tan(φ)) = tan(θ + φ).
 *     (See http://en.wikipedia.org/wiki/List_of_trigonometric_identities .)
 *     Thus, in step 6, A * D - B * C = cos²(φ) + sin²(φ) = 1.
 *     In step 7, the rotation is thus φ.
 *
 *     To check this result, we can multiply things back together:
 *
 *     [ cos(φ) -sin(φ) ] [ 1 tan(θ + φ) ] [ sec(φ)    0   ]
 *     [ sin(φ)  cos(φ) ] [ 0      1     ] [   0    cos(φ) ]
 *
 *     [ cos(φ)      cos(φ)tan(θ + φ) - sin(φ) ] [ sec(φ)    0   ]
 *     [ sin(φ)      sin(φ)tan(θ + φ) + cos(φ) ] [   0    cos(φ) ]
 *
 *     but since tan(θ + φ) = (tan(θ) + tan(φ)) / (1 - tan(θ)tan(φ)),
 *     cos(φ)tan(θ + φ) - sin(φ)
 *      = cos(φ)(tan(θ) + tan(φ)) - sin(φ) + sin(φ)tan(θ)tan(φ)
 *      = cos(φ)tan(θ) + sin(φ) - sin(φ) + sin(φ)tan(θ)tan(φ)
 *      = cos(φ)tan(θ) + sin(φ)tan(θ)tan(φ)
 *      = tan(θ) (cos(φ) + sin(φ)tan(φ))
 *      = tan(θ) sec(φ) (cos²(φ) + sin²(φ))
 *      = tan(θ) sec(φ)
 *     and
 *     sin(φ)tan(θ + φ) + cos(φ)
 *      = sin(φ)(tan(θ) + tan(φ)) + cos(φ) - cos(φ)tan(θ)tan(φ)
 *      = tan(θ) (sin(φ) - sin(φ)) + sin(φ)tan(φ) + cos(φ)
 *      = sec(φ) (sin²(φ) + cos²(φ))
 *      = sec(φ)
 *     so the above is:
 *     [ cos(φ)  tan(θ) sec(φ) ] [ sec(φ)    0   ]
 *     [ sin(φ)     sec(φ)     ] [   0    cos(φ) ]
 *
 *     [    1   tan(θ) ]
 *     [ tan(φ)    1   ]
 */

/*
 * Decompose2DMatrix implements the above decomposition algorithm.
 */

#define XYSHEAR 0
#define XZSHEAR 1
#define YZSHEAR 2

static bool
Decompose2DMatrix(const gfxMatrix &aMatrix, gfxPoint3D &aScale,
                  float aShear[3], gfxQuaternion &aRotate,
                  gfxPoint3D &aTranslate)
{
  float A = aMatrix.xx,
        B = aMatrix.yx,
        C = aMatrix.xy,
        D = aMatrix.yy;
  if (A * D == B * C) {
    // singular matrix
    return false;
  }

  float scaleX = sqrt(A * A + B * B);
  A /= scaleX;
  B /= scaleX;

  float XYshear = A * C + B * D;
  C -= A * XYshear;
  D -= B * XYshear;

  float scaleY = sqrt(C * C + D * D);
  C /= scaleY;
  D /= scaleY;
  XYshear /= scaleY;

  // A*D - B*C should now be 1 or -1
  NS_ASSERTION(0.99 < NS_ABS(A*D - B*C) && NS_ABS(A*D - B*C) < 1.01,
               "determinant should now be 1 or -1");
  if (A * D < B * C) {
    A = -A;
    B = -B;
    C = -C;
    D = -D;
    XYshear = -XYshear;
    scaleX = -scaleX;
  }

  float rotate = atan2f(B, A);
  aRotate = gfxQuaternion(0, 0, sin(rotate/2), cos(rotate/2));
  aShear[XYSHEAR] = XYshear;
  aScale.x = scaleX;
  aScale.y = scaleY;
  aTranslate.x = aMatrix.x0;
  aTranslate.y = aMatrix.y0;
  return true;
}

/**
 * Implementation of the unmatrix algorithm, specified by:
 *
 * http://dev.w3.org/csswg/css3-2d-transforms/#unmatrix
 *
 * This, in turn, refers to the unmatrix program in Graphics Gems,
 * available from http://tog.acm.org/resources/GraphicsGems/ , and in
 * particular as the file GraphicsGems/gemsii/unmatrix.c
 * in http://tog.acm.org/resources/GraphicsGems/AllGems.tar.gz
 */
static bool
Decompose3DMatrix(const gfx3DMatrix &aMatrix, gfxPoint3D &aScale,
                  float aShear[3], gfxQuaternion &aRotate,
                  gfxPoint3D &aTranslate, gfxPointH3D &aPerspective)
{
  gfx3DMatrix local = aMatrix;

  if (local[3][3] == 0) {
    return false;
  }
  /* Normalize the matrix */
  local.Normalize();

  /**
   * perspective is used to solve for perspective, but it also provides
   * an easy way to test for singularity of the upper 3x3 component.
   */
  gfx3DMatrix perspective = local;
  gfxPointH3D empty(0, 0, 0, 1);
  perspective.SetTransposedVector(3, empty);

  if (perspective.Determinant() == 0.0) {
    return false;
  }

  /* First, isolate perspective. */
  if (local[0][3] != 0 || local[1][3] != 0 ||
      local[2][3] != 0) {
    /* aPerspective is the right hand side of the equation. */
    aPerspective = local.TransposedVector(3);

    /**
     * Solve the equation by inverting perspective and multiplying
     * aPerspective by the inverse.
     */
    perspective.Invert();
    aPerspective = perspective.TransposeTransform4D(aPerspective);

    /* Clear the perspective partition */
    local.SetTransposedVector(3, empty);
  } else {
    aPerspective = gfxPointH3D(0, 0, 0, 1);
  }

  /* Next take care of translation */
  for (int i = 0; i < 3; i++) {
    aTranslate[i] = local[3][i];
    local[3][i] = 0;
  }

  /* Now get scale and shear. */

  /* Compute X scale factor and normalize first row. */
  aScale.x = local[0].Length();
  local[0] /= aScale.x;

  /* Compute XY shear factor and make 2nd local orthogonal to 1st. */
  aShear[XYSHEAR] = local[0].DotProduct(local[1]);
  local[1] -= local[0] * aShear[XYSHEAR];

  /* Now, compute Y scale and normalize 2nd local. */
  aScale.y = local[1].Length();
  local[1] /= aScale.y;
  aShear[XYSHEAR] /= aScale.y;

  /* Compute XZ and YZ shears, make 3rd local orthogonal */
  aShear[XZSHEAR] = local[0].DotProduct(local[2]);
  local[2] -= local[0] * aShear[XZSHEAR];
  aShear[YZSHEAR] = local[1].DotProduct(local[2]);
  local[2] -= local[1] * aShear[YZSHEAR];

  /* Next, get Z scale and normalize 3rd local. */
  aScale.z = local[2].Length();
  local[2] /= aScale.z;

  aShear[XZSHEAR] /= aScale.z;
  aShear[YZSHEAR] /= aScale.z;

  /**
   * At this point, the matrix (in locals) is orthonormal.
   * Check for a coordinate system flip.  If the determinant
   * is -1, then negate the matrix and the scaling factors.
   */
  if (local[0].DotProduct(local[1].CrossProduct(local[2])) < 0) {
    aScale *= -1;
    for (int i = 0; i < 3; i++) {
      local[i] *= -1;
    }
  }

  /* Now, get the rotations out */
  aRotate = gfxQuaternion(local);

  return true;
}

template<typename T>
T InterpolateNumerically(const T& aOne, const T& aTwo, double aCoeff)
{
  return aOne + (aTwo - aOne) * aCoeff;
}


/* static */ gfx3DMatrix
nsStyleAnimation::InterpolateTransformMatrix(const gfx3DMatrix &aMatrix1,
                                             const gfx3DMatrix &aMatrix2,
                                             double aProgress)
{
  // Decompose both matrices

  // TODO: What do we do if one of these returns false (singular matrix)

  gfxPoint3D scale1(1, 1, 1), translate1;
  gfxPointH3D perspective1(0, 0, 0, 1);
  gfxQuaternion rotate1;
  float shear1[3] = { 0.0f, 0.0f, 0.0f};

  gfxPoint3D scale2(1, 1, 1), translate2;
  gfxPointH3D perspective2(0, 0, 0, 1);
  gfxQuaternion rotate2;
  float shear2[3] = { 0.0f, 0.0f, 0.0f};

  gfxMatrix matrix2d1, matrix2d2;
  if (aMatrix1.Is2D(&matrix2d1) && aMatrix2.Is2D(&matrix2d2)) {
    Decompose2DMatrix(matrix2d1, scale1, shear1, rotate1, translate1);
    Decompose2DMatrix(matrix2d2, scale2, shear2, rotate2, translate2);
  } else {
    Decompose3DMatrix(aMatrix1, scale1, shear1,
                      rotate1, translate1, perspective1);
    Decompose3DMatrix(aMatrix2, scale2, shear2,
                      rotate2, translate2, perspective2);
  }

  // Interpolate each of the pieces
  gfx3DMatrix result;

  gfxPointH3D perspective =
    InterpolateNumerically(perspective1, perspective2, aProgress);
  result.SetTransposedVector(3, perspective);

  gfxPoint3D translate =
    InterpolateNumerically(translate1, translate2, aProgress);
  result.Translate(translate);

  gfxQuaternion q3 = rotate1.Slerp(rotate2, aProgress);
  gfx3DMatrix rotate = q3.ToMatrix();
  if (!rotate.IsIdentity()) {
      result = rotate * result;
  }

  // TODO: Would it be better to interpolate these as angles? How do we convert back to angles?
  float yzshear =
    InterpolateNumerically(shear1[YZSHEAR], shear2[YZSHEAR], aProgress);
  if (yzshear != 0.0) {
    result.SkewYZ(yzshear);
  }

  float xzshear =
    InterpolateNumerically(shear1[XZSHEAR], shear2[XZSHEAR], aProgress);
  if (xzshear != 0.0) {
    result.SkewXZ(xzshear);
  }

  float xyshear =
    InterpolateNumerically(shear1[XYSHEAR], shear2[XYSHEAR], aProgress);
  if (xyshear != 0.0) {
    result.SkewXY(xyshear);
  }

  gfxPoint3D scale =
    InterpolateNumerically(scale1, scale2, aProgress);
  if (scale != gfxPoint3D(1.0, 1.0, 1.0)) {
    result.Scale(scale.x, scale.y, scale.z);
  }

  return result;
}

static nsCSSValueList*
AddDifferentTransformLists(const nsCSSValueList* aList1, double aCoeff1,
                           const nsCSSValueList* aList2, double aCoeff2)
{
  nsAutoPtr<nsCSSValueList> result;
  nsCSSValueList **resultTail = getter_Transfers(result);

  nsRefPtr<nsCSSValue::Array> arr;
  arr = nsStyleAnimation::AppendTransformFunction(eCSSKeyword_interpolatematrix, resultTail);

  // FIXME: We should change the other transform code to also only
  // take a single progress value, as having values that don't
  // sum to 1 doesn't make sense for these.
  if (aList1 == aList2) {
    arr->Item(1).Reset();
  } else {
    aList1->CloneInto(arr->Item(1).SetListValue());
  }

  aList2->CloneInto(arr->Item(2).SetListValue());
  arr->Item(3).SetPercentValue(aCoeff2);

  return result.forget();
}

static bool
TransformFunctionsMatch(nsCSSKeyword func1, nsCSSKeyword func2)
{
  return ToPrimitive(func1) == ToPrimitive(func2);
}

static nsCSSValueList*
AddTransformLists(const nsCSSValueList* aList1, double aCoeff1,
                  const nsCSSValueList* aList2, double aCoeff2)
{
  nsAutoPtr<nsCSSValueList> result;
  nsCSSValueList **resultTail = getter_Transfers(result);

  do {
    nsRefPtr<nsCSSValue::Array> a1 = ToPrimitive(aList1->mValue.GetArrayValue()),
                                a2 = ToPrimitive(aList2->mValue.GetArrayValue());
    NS_ABORT_IF_FALSE(TransformFunctionsMatch(nsStyleTransformMatrix::TransformFunctionOf(a1),
                                              nsStyleTransformMatrix::TransformFunctionOf(a2)),
                      "transform function mismatch");
    NS_ABORT_IF_FALSE(!*resultTail,
                      "resultTail isn't pointing to the tail (may leak)");

    nsCSSKeyword tfunc = nsStyleTransformMatrix::TransformFunctionOf(a1);
    nsRefPtr<nsCSSValue::Array> arr;
    if (tfunc != eCSSKeyword_matrix &&
        tfunc != eCSSKeyword_matrix3d &&
        tfunc != eCSSKeyword_interpolatematrix &&
        tfunc != eCSSKeyword_rotate3d &&
        tfunc != eCSSKeyword_perspective) {
      arr = nsStyleAnimation::AppendTransformFunction(tfunc, resultTail);
    }

    switch (tfunc) {
      case eCSSKeyword_translate3d: {
          NS_ABORT_IF_FALSE(a1->Count() == 4, "unexpected count");
          NS_ABORT_IF_FALSE(a2->Count() == 4, "unexpected count");
          AddTransformTranslate(a1->Item(1), aCoeff1, a2->Item(1), aCoeff2,
                                arr->Item(1));
          AddTransformTranslate(a1->Item(2), aCoeff1, a2->Item(2), aCoeff2,
                                arr->Item(2));
          AddTransformTranslate(a1->Item(3), aCoeff1, a2->Item(3), aCoeff2,
                                arr->Item(3));
          break;
      }
      case eCSSKeyword_scale3d: {
          NS_ABORT_IF_FALSE(a1->Count() == 4, "unexpected count");
          NS_ABORT_IF_FALSE(a2->Count() == 4, "unexpected count");

          AddTransformScale(a1->Item(1), aCoeff1, a2->Item(1), aCoeff2,
                            arr->Item(1));
          AddTransformScale(a1->Item(2), aCoeff1, a2->Item(2), aCoeff2,
                            arr->Item(2));
          AddTransformScale(a1->Item(3), aCoeff1, a2->Item(3), aCoeff2,
                            arr->Item(3));

          break;
      }
      // It would probably be nicer to animate skew in tangent space
      // rather than angle space.  However, it's easy to specify
      // skews with infinite tangents, and behavior changes pretty
      // drastically when crossing such skews (since the direction of
      // animation flips), so interop is probably more important here.
      case eCSSKeyword_skew: {
        NS_ABORT_IF_FALSE(a1->Count() == 2 || a1->Count() == 3,
                          "unexpected count");
        NS_ABORT_IF_FALSE(a2->Count() == 2 || a2->Count() == 3,
                          "unexpected count");

        nsCSSValue zero(0.0f, eCSSUnit_Radian);
        // Add Y component of skew.
        AddCSSValueAngle(a1->Count() == 3 ? a1->Item(2) : zero,
                         aCoeff1,
                         a2->Count() == 3 ? a2->Item(2) : zero,
                         aCoeff2,
                         arr->Item(2));

        // Add X component of skew (which can be merged with case below
        // in non-DEBUG).
        AddCSSValueAngle(a1->Item(1), aCoeff1, a2->Item(1), aCoeff2,
                         arr->Item(1));

        break;
      }
      case eCSSKeyword_skewx:
      case eCSSKeyword_skewy:
      case eCSSKeyword_rotate:
      case eCSSKeyword_rotatex:
      case eCSSKeyword_rotatey:
      case eCSSKeyword_rotatez: {
        NS_ABORT_IF_FALSE(a1->Count() == 2, "unexpected count");
        NS_ABORT_IF_FALSE(a2->Count() == 2, "unexpected count");

        AddCSSValueAngle(a1->Item(1), aCoeff1, a2->Item(1), aCoeff2,
                         arr->Item(1));

        break;
      }
      case eCSSKeyword_matrix:
      case eCSSKeyword_matrix3d:
      case eCSSKeyword_interpolatematrix:
      case eCSSKeyword_rotate3d:
      case eCSSKeyword_perspective: {
        // FIXME: If the matrix contains only numbers then we could decompose
        // here.

        // Construct temporary lists with only this item in them.
        nsCSSValueList tempList1, tempList2;
        tempList1.mValue = aList1->mValue;
        tempList2.mValue = aList2->mValue;

        if (aList1 == aList2) {
          *resultTail =
            AddDifferentTransformLists(&tempList1, aCoeff1, &tempList1, aCoeff2);
        } else {
          *resultTail =
            AddDifferentTransformLists(&tempList1, aCoeff1, &tempList2, aCoeff2);
        }

        // Now advance resultTail to point to the new tail slot.
        while (*resultTail) {
          resultTail = &(*resultTail)->mNext;
        }

        break;
      }
      default:
        NS_ABORT_IF_FALSE(false, "unknown transform function");
    }

    aList1 = aList1->mNext;
    aList2 = aList2->mNext;
  } while (aList1);
  NS_ABORT_IF_FALSE(!aList2, "list length mismatch");
  NS_ABORT_IF_FALSE(!*resultTail,
                    "resultTail isn't pointing to the tail");

  return result.forget();
}

bool
nsStyleAnimation::AddWeighted(nsCSSProperty aProperty,
                              double aCoeff1, const Value& aValue1,
                              double aCoeff2, const Value& aValue2,
                              Value& aResultValue)
{
  Unit commonUnit =
    GetCommonUnit(aProperty, aValue1.GetUnit(), aValue2.GetUnit());
  // Maybe need a followup method to convert the inputs into the common
  // unit-type, if they don't already match it. (Or would it make sense to do
  // that in GetCommonUnit? in which case maybe ConvertToCommonUnit would be
  // better.)

  switch (commonUnit) {
    case eUnit_Null:
    case eUnit_Auto:
    case eUnit_None:
    case eUnit_Normal:
    case eUnit_UnparsedString:
      return false;

    case eUnit_Enumerated:
      switch (aProperty) {
        case eCSSProperty_font_stretch: {
          // Animate just like eUnit_Integer.
          int32_t result = floor(aCoeff1 * double(aValue1.GetIntValue()) +
                                 aCoeff2 * double(aValue2.GetIntValue()));
          if (result < NS_STYLE_FONT_STRETCH_ULTRA_CONDENSED) {
            result = NS_STYLE_FONT_STRETCH_ULTRA_CONDENSED;
          } else if (result > NS_STYLE_FONT_STRETCH_ULTRA_EXPANDED) {
            result = NS_STYLE_FONT_STRETCH_ULTRA_EXPANDED;
          }
          aResultValue.SetIntValue(result, eUnit_Enumerated);
          return true;
        }
        default:
          return false;
      }
    case eUnit_Visibility: {
      int32_t val1 = aValue1.GetIntValue() == NS_STYLE_VISIBILITY_VISIBLE;
      int32_t val2 = aValue2.GetIntValue() == NS_STYLE_VISIBILITY_VISIBLE;
      double interp = aCoeff1 * val1 + aCoeff2 * val2;
      int32_t result = interp > 0.0 ? NS_STYLE_VISIBILITY_VISIBLE
                                    : NS_STYLE_VISIBILITY_HIDDEN;
      aResultValue.SetIntValue(result, eUnit_Visibility);
      return true;
    }
    case eUnit_Integer: {
      // http://dev.w3.org/csswg/css3-transitions/#animation-of-property-types-
      // says we should use floor
      int32_t result = floor(aCoeff1 * double(aValue1.GetIntValue()) +
                             aCoeff2 * double(aValue2.GetIntValue()));
      if (aProperty == eCSSProperty_font_weight) {
        if (result < 100) {
          result = 100;
        } else if (result > 900) {
          result = 900;
        }
        result -= result % 100;
      } else {
        result = RestrictValue(aProperty, result);
      }
      aResultValue.SetIntValue(result, eUnit_Integer);
      return true;
    }
    case eUnit_Coord: {
      aResultValue.SetCoordValue(RestrictValue(aProperty, NSToCoordRound(
        aCoeff1 * aValue1.GetCoordValue() +
        aCoeff2 * aValue2.GetCoordValue())));
      return true;
    }
    case eUnit_Percent: {
      aResultValue.SetPercentValue(RestrictValue(aProperty,
        aCoeff1 * aValue1.GetPercentValue() +
        aCoeff2 * aValue2.GetPercentValue()));
      return true;
    }
    case eUnit_Float: {
#ifdef MOZ_FLEXBOX
      // Special case for flex-grow and flex-shrink: animations are
      // disallowed between 0 and other values.
      if ((aProperty == eCSSProperty_flex_grow ||
           aProperty == eCSSProperty_flex_shrink) &&
          (aValue1.GetFloatValue() == 0.0f ||
           aValue2.GetFloatValue() == 0.0f) &&
          aValue1.GetFloatValue() != aValue2.GetFloatValue()) {
        return false;
      }
#endif // MOZ_FLEXBOX

      aResultValue.SetFloatValue(RestrictValue(aProperty,
        aCoeff1 * aValue1.GetFloatValue() +
        aCoeff2 * aValue2.GetFloatValue()));
      return true;
    }
    case eUnit_Color: {
      nscolor color1 = aValue1.GetColorValue();
      nscolor color2 = aValue2.GetColorValue();
      // FIXME (spec): The CSS transitions spec doesn't say whether
      // colors are premultiplied, but things work better when they are,
      // so use premultiplication.  Spec issue is still open per
      // http://lists.w3.org/Archives/Public/www-style/2009Jul/0050.html

      // To save some math, scale the alpha down to a 0-1 scale, but
      // leave the color components on a 0-255 scale.
      double A1 = NS_GET_A(color1) * (1.0 / 255.0);
      double R1 = NS_GET_R(color1) * A1;
      double G1 = NS_GET_G(color1) * A1;
      double B1 = NS_GET_B(color1) * A1;
      double A2 = NS_GET_A(color2) * (1.0 / 255.0);
      double R2 = NS_GET_R(color2) * A2;
      double G2 = NS_GET_G(color2) * A2;
      double B2 = NS_GET_B(color2) * A2;
      double Aresf = (A1 * aCoeff1 + A2 * aCoeff2);
      nscolor resultColor;
      if (Aresf <= 0.0) {
        resultColor = NS_RGBA(0, 0, 0, 0);
      } else {
        if (Aresf > 1.0) {
          Aresf = 1.0;
        }
        double factor = 1.0 / Aresf;
        uint8_t Ares = NSToIntRound(Aresf * 255.0);
        uint8_t Rres = ClampColor((R1 * aCoeff1 + R2 * aCoeff2) * factor);
        uint8_t Gres = ClampColor((G1 * aCoeff1 + G2 * aCoeff2) * factor);
        uint8_t Bres = ClampColor((B1 * aCoeff1 + B2 * aCoeff2) * factor);
        resultColor = NS_RGBA(Rres, Gres, Bres, Ares);
      }
      aResultValue.SetColorValue(resultColor);
      return true;
    }
    case eUnit_Calc: {
      CalcValue v1 = ExtractCalcValue(aValue1);
      CalcValue v2 = ExtractCalcValue(aValue2);
      double len = aCoeff1 * v1.mLength + aCoeff2 * v2.mLength;
      double pct = aCoeff1 * v1.mPercent + aCoeff2 * v2.mPercent;
      bool hasPct = (aCoeff1 != 0.0 && v1.mHasPercent) ||
                      (aCoeff2 != 0.0 && v2.mHasPercent);
      nsCSSValue *val = new nsCSSValue();
      nsCSSValue::Array *arr = nsCSSValue::Array::Create(1);
      val->SetArrayValue(arr, eCSSUnit_Calc);
      if (hasPct) {
        nsCSSValue::Array *arr2 = nsCSSValue::Array::Create(2);
        arr2->Item(0).SetFloatValue(len, eCSSUnit_Pixel);
        arr2->Item(1).SetPercentValue(pct);
        arr->Item(0).SetArrayValue(arr2, eCSSUnit_Calc_Plus);
      } else {
        arr->Item(0).SetFloatValue(len, eCSSUnit_Pixel);
      }
      aResultValue.SetAndAdoptCSSValueValue(val, eUnit_Calc);
      return true;
    }
    case eUnit_CSSValuePair: {
      const nsCSSValuePair *pair1 = aValue1.GetCSSValuePairValue();
      const nsCSSValuePair *pair2 = aValue2.GetCSSValuePairValue();
      nsCSSUnit unit[2];
      unit[0] = GetCommonUnit(aProperty, pair1->mXValue.GetUnit(),
                              pair2->mXValue.GetUnit());
      unit[1] = GetCommonUnit(aProperty, pair1->mYValue.GetUnit(),
                              pair2->mYValue.GetUnit());
      if (unit[0] == eCSSUnit_Null || unit[1] == eCSSUnit_Null ||
          unit[0] == eCSSUnit_URL) {
        return false;
      }

      nsAutoPtr<nsCSSValuePair> result(new nsCSSValuePair);
      static nsCSSValue nsCSSValuePair::* const pairValues[2] = {
        &nsCSSValuePair::mXValue, &nsCSSValuePair::mYValue
      };
      uint32_t restrictions = nsCSSProps::ValueRestrictions(aProperty);
      for (uint32_t i = 0; i < 2; ++i) {
        nsCSSValue nsCSSValuePair::*member = pairValues[i];
        if (!AddCSSValuePixelPercentCalc(restrictions, unit[i],
                                         aCoeff1, pair1->*member,
                                         aCoeff2, pair2->*member,
                                         result->*member) ) {
          NS_ABORT_IF_FALSE(false, "unexpected unit");
          return false;
        }
      }

      aResultValue.SetAndAdoptCSSValuePairValue(result.forget(),
                                                eUnit_CSSValuePair);
      return true;
    }
    case eUnit_CSSValueTriplet: {
      nsCSSValueTriplet triplet1(*aValue1.GetCSSValueTripletValue());
      nsCSSValueTriplet triplet2(*aValue2.GetCSSValueTripletValue());

      nsCSSUnit unit[3];
      unit[0] = GetCommonUnit(aProperty, triplet1.mXValue.GetUnit(),
                              triplet2.mXValue.GetUnit());
      unit[1] = GetCommonUnit(aProperty, triplet1.mYValue.GetUnit(),
                               triplet2.mYValue.GetUnit());
      unit[2] = GetCommonUnit(aProperty, triplet1.mZValue.GetUnit(),
                              triplet2.mZValue.GetUnit());
      if (unit[0] == eCSSUnit_Null || unit[1] == eCSSUnit_Null ||
          unit[2] == eCSSUnit_Null) {
        return false;
      }

      nsAutoPtr<nsCSSValueTriplet> result(new nsCSSValueTriplet);
      static nsCSSValue nsCSSValueTriplet::* const tripletValues[3] = {
        &nsCSSValueTriplet::mXValue, &nsCSSValueTriplet::mYValue, &nsCSSValueTriplet::mZValue
      };
      uint32_t restrictions = nsCSSProps::ValueRestrictions(aProperty);
      for (uint32_t i = 0; i < 3; ++i) {
        nsCSSValue nsCSSValueTriplet::*member = tripletValues[i];
        if (!AddCSSValuePixelPercentCalc(restrictions, unit[i],
                                         aCoeff1, &triplet1->*member,
                                         aCoeff2, &triplet2->*member,
                                         result->*member) ) {
          NS_ABORT_IF_FALSE(false, "unexpected unit");
          return false;
        }
      }

      aResultValue.SetAndAdoptCSSValueTripletValue(result.forget(),
                                                   eUnit_CSSValueTriplet);
      return true;
    }
    case eUnit_CSSRect: {
      NS_ABORT_IF_FALSE(nsCSSProps::ValueRestrictions(aProperty) == 0,
                        "must add code for handling value restrictions");
      const nsCSSRect *rect1 = aValue1.GetCSSRectValue();
      const nsCSSRect *rect2 = aValue2.GetCSSRectValue();
      if (rect1->mTop.GetUnit() != rect2->mTop.GetUnit() ||
          rect1->mRight.GetUnit() != rect2->mRight.GetUnit() ||
          rect1->mBottom.GetUnit() != rect2->mBottom.GetUnit() ||
          rect1->mLeft.GetUnit() != rect2->mLeft.GetUnit()) {
        // At least until we have calc()
        return false;
      }

      nsAutoPtr<nsCSSRect> result(new nsCSSRect);
      for (uint32_t i = 0; i < ArrayLength(nsCSSRect::sides); ++i) {
        nsCSSValue nsCSSRect::*member = nsCSSRect::sides[i];
        NS_ABORT_IF_FALSE((rect1->*member).GetUnit() ==
                            (rect2->*member).GetUnit(),
                          "should have returned above");
        switch ((rect1->*member).GetUnit()) {
          case eCSSUnit_Pixel:
            AddCSSValuePixel(aCoeff1, rect1->*member, aCoeff2, rect2->*member,
                             result->*member);
            break;
          case eCSSUnit_Auto:
            if (float(aCoeff1 + aCoeff2) != 1.0f) {
              // Interpolating between two auto values makes sense;
              // adding in other ratios does not.
              return false;
            }
            (result->*member).SetAutoValue();
            break;
          default:
            NS_ABORT_IF_FALSE(false, "unexpected unit");
            return false;
        }
      }

      aResultValue.SetAndAdoptCSSRectValue(result.forget(), eUnit_CSSRect);
      return true;
    }
    case eUnit_Dasharray: {
      const nsCSSValueList *list1 = aValue1.GetCSSValueListValue();
      const nsCSSValueList *list2 = aValue2.GetCSSValueListValue();

      uint32_t len1 = 0, len2 = 0;
      for (const nsCSSValueList *v = list1; v; v = v->mNext) {
        ++len1;
      }
      for (const nsCSSValueList *v = list2; v; v = v->mNext) {
        ++len2;
      }
      NS_ABORT_IF_FALSE(len1 > 0 && len2 > 0, "unexpected length");
      if (list1->mValue.GetUnit() == eCSSUnit_None ||
          list2->mValue.GetUnit() == eCSSUnit_None) {
        // One of our values is "none".  Can't do addition with that.
        NS_ABORT_IF_FALSE(
          (list1->mValue.GetUnit() != eCSSUnit_None || len1 == 1) &&
          (list2->mValue.GetUnit() != eCSSUnit_None || len2 == 1),
          "multi-value valuelist with 'none' as first element");
        return false;
      }

      nsAutoPtr<nsCSSValueList> result;
      nsCSSValueList **resultTail = getter_Transfers(result);
      for (uint32_t i = 0, i_end = EuclidLCM<uint32_t>(len1, len2); i != i_end; ++i) {
        const nsCSSValue &v1 = list1->mValue;
        const nsCSSValue &v2 = list2->mValue;
        NS_ABORT_IF_FALSE(v1.GetUnit() == eCSSUnit_Number ||
                          v1.GetUnit() == eCSSUnit_Percent, "unexpected");
        NS_ABORT_IF_FALSE(v2.GetUnit() == eCSSUnit_Number ||
                          v2.GetUnit() == eCSSUnit_Percent, "unexpected");
        if (v1.GetUnit() != v2.GetUnit()) {
          // Can't animate between lengths and percentages (until calc()).
          return false;
        }

        nsCSSValueList *item = new nsCSSValueList;
        if (!item) {
          return false;
        }
        *resultTail = item;
        resultTail = &item->mNext;

        if (v1.GetUnit() == eCSSUnit_Number) {
          AddCSSValueNumber(aCoeff1, v1, aCoeff2, v2, item->mValue,
                            CSS_PROPERTY_VALUE_NONNEGATIVE);
        } else {
          AddCSSValuePercent(aCoeff1, v1, aCoeff2, v2, item->mValue,
                             CSS_PROPERTY_VALUE_NONNEGATIVE);
        }

        list1 = list1->mNext;
        if (!list1) {
          list1 = aValue1.GetCSSValueListValue();
        }
        list2 = list2->mNext;
        if (!list2) {
          list2 = aValue2.GetCSSValueListValue();
        }
      }

      aResultValue.SetAndAdoptCSSValueListValue(result.forget(),
                                                eUnit_Dasharray);
      return true;
    }
    case eUnit_Shadow: {
      // This is implemented according to:
      // http://dev.w3.org/csswg/css3-transitions/#animation-of-property-types-
      // and the third item in the summary of:
      // http://lists.w3.org/Archives/Public/www-style/2009Jul/0050.html
      const nsCSSValueList *shadow1 = aValue1.GetCSSValueListValue();
      const nsCSSValueList *shadow2 = aValue2.GetCSSValueListValue();
      nsAutoPtr<nsCSSValueList> result;
      nsCSSValueList **resultTail = getter_Transfers(result);
      while (shadow1 && shadow2) {
        if (!AddShadowItems(aCoeff1, shadow1->mValue,
                            aCoeff2, shadow2->mValue,
                            resultTail)) {
          return false;
        }
        shadow1 = shadow1->mNext;
        shadow2 = shadow2->mNext;
      }
      if (shadow1 || shadow2) {
        const nsCSSValueList *longShadow;
        double longCoeff;
        if (shadow1) {
          longShadow = shadow1;
          longCoeff = aCoeff1;
        } else {
          longShadow = shadow2;
          longCoeff = aCoeff2;
        }

        while (longShadow) {
          // Passing coefficients that add to less than 1 produces the
          // desired result of interpolating "0 0 0 transparent" with
          // the current shadow.
          if (!AddShadowItems(longCoeff, longShadow->mValue,
                              0.0, longShadow->mValue,
                              resultTail)) {
            return false;
          }

          longShadow = longShadow->mNext;
        }
      }
      aResultValue.SetAndAdoptCSSValueListValue(result.forget(), eUnit_Shadow);
      return true;
    }
    case eUnit_Transform: {
      const nsCSSValueList *list1 = aValue1.GetCSSValueListValue();
      const nsCSSValueList *list2 = aValue2.GetCSSValueListValue();

      // We want to avoid the matrix decomposition when we can, since
      // avoiding it can produce better results both for compound
      // transforms and for skew and skewY (see below).  We can do this
      // in two cases:
      //   (1) if one of the transforms is 'none'
      //   (2) if the lists have the same length and the transform
      //       functions match
      nsAutoPtr<nsCSSValueList> result;
      if (list1->mValue.GetUnit() == eCSSUnit_None) {
        if (list2->mValue.GetUnit() == eCSSUnit_None) {
          result = new nsCSSValueList;
          if (result) {
            result->mValue.SetNoneValue();
          }
        } else {
          result = AddTransformLists(list2, 0, list2, aCoeff2);
        }
      } else {
        if (list2->mValue.GetUnit() == eCSSUnit_None) {
          result = AddTransformLists(list1, 0, list1, aCoeff1);
        } else {
          bool match = true;

          {
            const nsCSSValueList *item1 = list1, *item2 = list2;
            do {
              nsCSSKeyword func1 = nsStyleTransformMatrix::TransformFunctionOf(
                                     item1->mValue.GetArrayValue());
              nsCSSKeyword func2 = nsStyleTransformMatrix::TransformFunctionOf(
                                     item2->mValue.GetArrayValue());

              if (!TransformFunctionsMatch(func1, func2)) {
                break;
              }

              item1 = item1->mNext;
              item2 = item2->mNext;
            } while (item1 && item2);
            if (item1 || item2) {
              // Either |break| above or length mismatch.
              match = false;
            }
          }

          if (match) {
            result = AddTransformLists(list1, aCoeff1, list2, aCoeff2);
          } else {
            result = AddDifferentTransformLists(list1, aCoeff1, list2, aCoeff2);
          }
        }
      }

      aResultValue.SetAndAdoptCSSValueListValue(result.forget(),
                                                eUnit_Transform);
      return true;
    }
    case eUnit_BackgroundPosition: {
      const nsCSSValueList *position1 = aValue1.GetCSSValueListValue();
      const nsCSSValueList *position2 = aValue2.GetCSSValueListValue();
      nsAutoPtr<nsCSSValueList> result;
      nsCSSValueList **resultTail = getter_Transfers(result);
      while (position1 && position2) {
        nsCSSValueList *item = new nsCSSValueList;
        if (!item) {
          return false;
        }
        *resultTail = item;
        resultTail = &item->mNext;

        nsCSSValue::Array* bgPos1 = position1->mValue.GetArrayValue();
        nsCSSValue::Array* bgPos2 = position2->mValue.GetArrayValue();
        nsCSSValue::Array* bgPosRes = nsCSSValue::Array::Create(4);
        item->mValue.SetArrayValue(bgPosRes, eCSSUnit_Array);

        uint32_t restrictions = nsCSSProps::ValueRestrictions(aProperty);

        /* Only iterate over elements 1 and 3. The background position is
         * 'uncomputed' to only those elements.
         */
        for (int i = 1; i < 4; i+=2) {
          const nsCSSValue& v1 = bgPos1->Item(i);
          const nsCSSValue& v2 = bgPos2->Item(i);
          nsCSSValue& vr = bgPosRes->Item(i);

          nsCSSUnit unit = GetCommonUnit(aProperty, v1.GetUnit(), v2.GetUnit());

          if (!AddCSSValuePixelPercentCalc(restrictions, unit, aCoeff1, v1,
                                           aCoeff2, v2, vr) ) {
            if (v1 != v2) {
              return false;
            }
            vr = v1;
          }
        }

        position1 = position1->mNext;
        position2 = position2->mNext;
      }

      // Check for different lengths
      if (position1 || position2) {
        return false;
      }

      aResultValue.SetAndAdoptCSSValueListValue(result.forget(),
                                                eUnit_BackgroundPosition);
      return true;
    }
    case eUnit_CSSValuePairList: {
      const nsCSSValuePairList *list1 = aValue1.GetCSSValuePairListValue();
      const nsCSSValuePairList *list2 = aValue2.GetCSSValuePairListValue();
      nsAutoPtr<nsCSSValuePairList> result;
      nsCSSValuePairList **resultTail = getter_Transfers(result);
      do {
        nsCSSValuePairList *item = new nsCSSValuePairList;
        if (!item) {
          return false;
        }
        *resultTail = item;
        resultTail = &item->mNext;

        static nsCSSValue nsCSSValuePairList::* const pairListValues[] = {
          &nsCSSValuePairList::mXValue,
          &nsCSSValuePairList::mYValue,
        };
        uint32_t restrictions = nsCSSProps::ValueRestrictions(aProperty);
        for (uint32_t i = 0; i < ArrayLength(pairListValues); ++i) {
          const nsCSSValue &v1 = list1->*(pairListValues[i]);
          const nsCSSValue &v2 = list2->*(pairListValues[i]);
          nsCSSValue &vr = item->*(pairListValues[i]);
          nsCSSUnit unit =
            GetCommonUnit(aProperty, v1.GetUnit(), v2.GetUnit());
          if (unit == eCSSUnit_Null) {
            return false;
          }
          if (!AddCSSValuePixelPercentCalc(restrictions, unit, aCoeff1, v1,
                                           aCoeff2, v2, vr) ) {
            if (v1 != v2) {
              return false;
            }
            vr = v1;
          }
        }
        list1 = list1->mNext;
        list2 = list2->mNext;
      } while (list1 && list2);
      if (list1 || list2) {
        // We can't interpolate lists of different lengths.
        return false;
      }

      aResultValue.SetAndAdoptCSSValuePairListValue(result.forget());
      return true;
    }
  }

  NS_ABORT_IF_FALSE(false, "Can't interpolate using the given common unit");
  return false;
}

already_AddRefed<css::StyleRule>
BuildStyleRule(nsCSSProperty aProperty,
               dom::Element* aTargetElement,
               const nsAString& aSpecifiedValue,
               bool aUseSVGMode)
{
  // Set up an empty CSS Declaration
  nsAutoPtr<css::Declaration> declaration(new css::Declaration());
  declaration->InitializeEmpty();

  bool changed; // ignored, but needed as outparam for ParseProperty
  nsIDocument* doc = aTargetElement->OwnerDoc();
  nsCOMPtr<nsIURI> baseURI = aTargetElement->GetBaseURI();
  nsCSSParser parser(doc->CSSLoader());

  if (aUseSVGMode) {
    parser.SetSVGMode(true);
  }

  nsCSSProperty propertyToCheck = nsCSSProps::IsShorthand(aProperty) ?
    nsCSSProps::SubpropertyEntryFor(aProperty)[0] : aProperty;

  // Get a parser, parse the property, and check for CSS parsing errors.
  // If any of these steps fails, we bail out and delete the declaration.
  if (NS_FAILED(parser.ParseProperty(aProperty, aSpecifiedValue,
                                     doc->GetDocumentURI(), baseURI,
                                     aTargetElement->NodePrincipal(),
                                     declaration, &changed, false)) ||
      // check whether property parsed without CSS parsing errors
      !declaration->HasNonImportantValueFor(propertyToCheck)) {
    NS_WARNING("failure in BuildStyleRule");
    return nullptr;
  }

  nsRefPtr<css::StyleRule> rule = new css::StyleRule(nullptr, declaration.forget());
  return rule.forget();
}

inline
already_AddRefed<nsStyleContext>
LookupStyleContext(dom::Element* aElement)
{
  nsIDocument* doc = aElement->GetCurrentDoc();
  nsIPresShell* shell = doc->GetShell();
  if (!shell) {
    return nullptr;
  }
  return nsComputedDOMStyle::GetStyleContextForElement(aElement, nullptr, shell);
}

bool
nsStyleAnimation::ComputeValue(nsCSSProperty aProperty,
                               dom::Element* aTargetElement,
                               const nsAString& aSpecifiedValue,
                               bool aUseSVGMode,
                               Value& aComputedValue,
                               bool* aIsContextSensitive)
{
  NS_ABORT_IF_FALSE(aTargetElement, "null target element");
  NS_ABORT_IF_FALSE(aTargetElement->GetCurrentDoc(),
                    "we should only be able to actively animate nodes that "
                    "are in a document");

  nsCSSProperty propToParse =
    nsCSSProps::PropHasFlags(aProperty, CSS_PROPERTY_REPORT_OTHER_NAME)
      ? nsCSSProps::OtherNameFor(aProperty) : aProperty;

  // Parse specified value into a temporary css::StyleRule
  nsRefPtr<css::StyleRule> styleRule =
    BuildStyleRule(propToParse, aTargetElement, aSpecifiedValue, aUseSVGMode);
  if (!styleRule) {
    return false;
  }

  if (nsCSSProps::IsShorthand(aProperty) ||
      nsCSSProps::kAnimTypeTable[aProperty] == eStyleAnimType_None) {
    // Just capture the specified value
    aComputedValue.SetUnparsedStringValue(nsString(aSpecifiedValue));
    if (aIsContextSensitive) {
      // Since we're just returning the string as-is, aComputedValue isn't going
      // to change depending on the context
      *aIsContextSensitive = false;
    }
    return true;
  }

  // Look up style context for our target element
  nsRefPtr<nsStyleContext> styleContext = LookupStyleContext(aTargetElement);
  if (!styleContext) {
    return false;
  }
  nsStyleSet* styleSet = styleContext->PresContext()->StyleSet();

  nsRefPtr<nsStyleContext> tmpStyleContext;
  if (aIsContextSensitive) {
    nsCOMArray<nsIStyleRule> ruleArray;
    ruleArray.AppendObject(styleSet->InitialStyleRule());
    ruleArray.AppendObject(styleRule);
    styleRule->RuleMatched();
    tmpStyleContext =
      styleSet->ResolveStyleByAddingRules(styleContext, ruleArray);
    if (!tmpStyleContext) {
      return false;
    }

    // Force walk of rule tree
    nsStyleStructID sid = nsCSSProps::kSIDTable[aProperty];
    tmpStyleContext->GetStyleData(sid);

    // If the rule node will have cached style data if the value is not
    // context-sensitive. So if there's nothing cached, it's not context
    // sensitive.
    *aIsContextSensitive =
      !tmpStyleContext->GetRuleNode()->NodeHasCachedData(sid);
  }

  // If we're not concerned whether the property is context sensitive then just
  // add the rule to a new temporary style context alongside the target
  // element's style context.
  // Also, if we previously discovered that this property IS context-sensitive
  // then we need to throw the temporary style context out since the property's
  // value may have been biased by the 'initial' values supplied.
  if (!aIsContextSensitive || *aIsContextSensitive) {
    nsCOMArray<nsIStyleRule> ruleArray;
    ruleArray.AppendObject(styleRule);
    styleRule->RuleMatched();
    tmpStyleContext =
      styleSet->ResolveStyleByAddingRules(styleContext, ruleArray);
    if (!tmpStyleContext) {
      return false;
    }
  }

  // Extract computed value of our property from the temporary style rule
  return ExtractComputedValue(aProperty, tmpStyleContext, aComputedValue);
}

bool
nsStyleAnimation::UncomputeValue(nsCSSProperty aProperty,
                                 nsPresContext* aPresContext,
                                 const Value& aComputedValue,
                                 nsCSSValue& aSpecifiedValue)
{
  NS_ABORT_IF_FALSE(aPresContext, "null pres context");

  switch (aComputedValue.GetUnit()) {
    case eUnit_Normal:
      aSpecifiedValue.SetNormalValue();
      break;
    case eUnit_Auto:
      aSpecifiedValue.SetAutoValue();
      break;
    case eUnit_None:
      aSpecifiedValue.SetNoneValue();
      break;
    case eUnit_Enumerated:
    case eUnit_Visibility:
      aSpecifiedValue.
        SetIntValue(aComputedValue.GetIntValue(), eCSSUnit_Enumerated);
      break;
    case eUnit_Integer:
      aSpecifiedValue.
        SetIntValue(aComputedValue.GetIntValue(), eCSSUnit_Integer);
      break;
    case eUnit_Coord:
      nscoordToCSSValue(aComputedValue.GetCoordValue(), aSpecifiedValue);
      break;
    case eUnit_Percent:
      aSpecifiedValue.SetPercentValue(aComputedValue.GetPercentValue());
      break;
    case eUnit_Float:
      aSpecifiedValue.
        SetFloatValue(aComputedValue.GetFloatValue(), eCSSUnit_Number);
      break;
    case eUnit_Color:
      // colors can be alone, or part of a paint server
      aSpecifiedValue.SetColorValue(aComputedValue.GetColorValue());
      break;
    case eUnit_Calc: {
      nsCSSValue *val = aComputedValue.GetCSSValueValue();
      NS_ABORT_IF_FALSE(val->GetUnit() == eCSSUnit_Calc, "unexpected unit");
      aSpecifiedValue = *val;
      break;
    }
    case eUnit_CSSValuePair: {
      // Rule node processing expects pair values to be collapsed to a
      // single value if both halves would be equal, for most but not
      // all properties.  At present, all animatable properties that
      // use pairs do expect collapsing.
      const nsCSSValuePair* pair = aComputedValue.GetCSSValuePairValue();
      if (pair->mXValue == pair->mYValue) {
        aSpecifiedValue = pair->mXValue;
      } else {
        aSpecifiedValue.SetPairValue(pair);
      }
    } break;
    case eUnit_CSSValueTriplet: {
      // Rule node processing expects triplet values to be collapsed to a
      // single value if both halves would be equal, for most but not
      // all properties.  At present, all animatable properties that
      // use pairs do expect collapsing.
      const nsCSSValueTriplet* triplet = aComputedValue.GetCSSValueTripletValue();
      if (triplet->mXValue == triplet->mYValue && triplet->mYValue == triplet->mZValue) {
        aSpecifiedValue = triplet->mXValue;
      } else {
        aSpecifiedValue.SetTripletValue(triplet);
      }
    } break;
    case eUnit_CSSRect: {
      nsCSSRect& rect = aSpecifiedValue.SetRectValue();
      rect = *aComputedValue.GetCSSRectValue();
    } break;
    case eUnit_Dasharray:
    case eUnit_Shadow:
    case eUnit_Transform:
    case eUnit_BackgroundPosition:
      aSpecifiedValue.
        SetDependentListValue(aComputedValue.GetCSSValueListValue());
      break;
    case eUnit_CSSValuePairList:
      aSpecifiedValue.
        SetDependentPairListValue(aComputedValue.GetCSSValuePairListValue());
      break;
    default:
      return false;
  }
  return true;
}

bool
nsStyleAnimation::UncomputeValue(nsCSSProperty aProperty,
                                 nsPresContext* aPresContext,
                                 const Value& aComputedValue,
                                 nsAString& aSpecifiedValue)
{
  NS_ABORT_IF_FALSE(aPresContext, "null pres context");
  aSpecifiedValue.Truncate(); // Clear outparam, if it's not already empty

  if (aComputedValue.GetUnit() == eUnit_UnparsedString) {
    aComputedValue.GetStringValue(aSpecifiedValue);
    return true;
  }
  nsCSSValue val;
  if (!nsStyleAnimation::UncomputeValue(aProperty, aPresContext,
                                        aComputedValue, val)) {
    return false;
  }

  val.AppendToString(aProperty, aSpecifiedValue);
  return true;
}

inline const void*
StyleDataAtOffset(const void* aStyleStruct, ptrdiff_t aOffset)
{
  return reinterpret_cast<const char*>(aStyleStruct) + aOffset;
}

inline void*
StyleDataAtOffset(void* aStyleStruct, ptrdiff_t aOffset)
{
  return reinterpret_cast<char*>(aStyleStruct) + aOffset;
}

static void
ExtractBorderColor(nsStyleContext* aStyleContext, const void* aStyleBorder,
                   mozilla::css::Side aSide, nsStyleAnimation::Value& aComputedValue)
{
  nscolor color;
  bool foreground;
  static_cast<const nsStyleBorder*>(aStyleBorder)->
    GetBorderColor(aSide, color, foreground);
  if (foreground) {
    // FIXME: should add test for this
    color = aStyleContext->GetStyleColor()->mColor;
  }
  aComputedValue.SetColorValue(color);
}

static bool
StyleCoordToValue(const nsStyleCoord& aCoord, nsStyleAnimation::Value& aValue)
{
  switch (aCoord.GetUnit()) {
    case eStyleUnit_Normal:
      aValue.SetNormalValue();
      break;
    case eStyleUnit_Auto:
      aValue.SetAutoValue();
      break;
    case eStyleUnit_None:
      aValue.SetNoneValue();
      break;
    case eStyleUnit_Percent:
      aValue.SetPercentValue(aCoord.GetPercentValue());
      break;
    case eStyleUnit_Factor:
      aValue.SetFloatValue(aCoord.GetFactorValue());
      break;
    case eStyleUnit_Coord:
      aValue.SetCoordValue(aCoord.GetCoordValue());
      break;
    case eStyleUnit_Enumerated:
      aValue.SetIntValue(aCoord.GetIntValue(),
                         nsStyleAnimation::eUnit_Enumerated);
      break;
    case eStyleUnit_Integer:
      aValue.SetIntValue(aCoord.GetIntValue(),
                         nsStyleAnimation::eUnit_Integer);
      break;
    case eStyleUnit_Calc: {
      nsAutoPtr<nsCSSValue> val(new nsCSSValue);
      SetCalcValue(aCoord.GetCalcValue(), *val);
      aValue.SetAndAdoptCSSValueValue(val.forget(),
                                      nsStyleAnimation::eUnit_Calc);
      break;
    }
    default:
      return false;
  }
  return true;
}

static bool
StyleCoordToCSSValue(const nsStyleCoord& aCoord, nsCSSValue& aCSSValue)
{
  switch (aCoord.GetUnit()) {
    case eStyleUnit_Coord:
      nscoordToCSSValue(aCoord.GetCoordValue(), aCSSValue);
      break;
    case eStyleUnit_Percent:
      aCSSValue.SetPercentValue(aCoord.GetPercentValue());
      break;
    case eStyleUnit_Calc:
      SetCalcValue(aCoord.GetCalcValue(), aCSSValue);
      break;
    default:
      NS_ABORT_IF_FALSE(false, "unexpected unit");
      return false;
  }
  return true;
}

/*
 * Assign |aOutput = aInput|, except with any non-pixel lengths
 * replaced with the equivalent in pixels, and any non-canonical calc()
 * expressions replaced with canonical ones.
 */
static void
SubstitutePixelValues(nsStyleContext* aStyleContext,
                      const nsCSSValue& aInput, nsCSSValue& aOutput)
{
  if (aInput.IsCalcUnit()) {
    bool canStoreInRuleTree = true;
    nsRuleNode::ComputedCalc c =
      nsRuleNode::SpecifiedCalcToComputedCalc(aInput, aStyleContext,
                                              aStyleContext->PresContext(),
                                              canStoreInRuleTree);
    nsStyleCoord::Calc c2;
    c2.mLength = c.mLength;
    c2.mPercent = c.mPercent;
    c2.mHasPercent = true; // doesn't matter for transform translate
    SetCalcValue(&c2, aOutput);
  } else if (aInput.UnitHasArrayValue()) {
    const nsCSSValue::Array *inputArray = aInput.GetArrayValue();
    nsRefPtr<nsCSSValue::Array> outputArray =
      nsCSSValue::Array::Create(inputArray->Count());
    for (size_t i = 0, i_end = inputArray->Count(); i < i_end; ++i) {
      SubstitutePixelValues(aStyleContext,
                            inputArray->Item(i), outputArray->Item(i));
    }
    aOutput.SetArrayValue(outputArray, aInput.GetUnit());
  } else if (aInput.IsLengthUnit() &&
             aInput.GetUnit() != eCSSUnit_Pixel) {
    bool canStoreInRuleTree = true;
    nscoord len = nsRuleNode::CalcLength(aInput, aStyleContext,
                                         aStyleContext->PresContext(),
                                         canStoreInRuleTree);
    aOutput.SetFloatValue(nsPresContext::AppUnitsToFloatCSSPixels(len),
                          eCSSUnit_Pixel);
  } else {
    aOutput = aInput;
  }
}

bool
nsStyleAnimation::ExtractComputedValue(nsCSSProperty aProperty,
                                       nsStyleContext* aStyleContext,
                                       Value& aComputedValue)
{
  NS_ABORT_IF_FALSE(0 <= aProperty &&
                    aProperty < eCSSProperty_COUNT_no_shorthands,
                    "bad property");
  const void* styleStruct =
    aStyleContext->GetStyleData(nsCSSProps::kSIDTable[aProperty]);
  ptrdiff_t ssOffset = nsCSSProps::kStyleStructOffsetTable[aProperty];
  nsStyleAnimType animType = nsCSSProps::kAnimTypeTable[aProperty];
  NS_ABORT_IF_FALSE(0 <= ssOffset || animType == eStyleAnimType_Custom,
                    "must be dealing with animatable property");
  switch (animType) {
    case eStyleAnimType_Custom:
      switch (aProperty) {
        // For border-width, ignore the border-image business (which
        // only exists until we update our implementation to the current
        // spec) and use GetComputedBorder

        #define BORDER_WIDTH_CASE(prop_, side_)                               \
        case prop_:                                                           \
          aComputedValue.SetCoordValue(                                       \
            static_cast<const nsStyleBorder*>(styleStruct)->                  \
              GetComputedBorder().side_);                                     \
          break;
        BORDER_WIDTH_CASE(eCSSProperty_border_bottom_width, bottom)
        BORDER_WIDTH_CASE(eCSSProperty_border_left_width_value, left)
        BORDER_WIDTH_CASE(eCSSProperty_border_right_width_value, right)
        BORDER_WIDTH_CASE(eCSSProperty_border_top_width, top)
        #undef BORDER_WIDTH_CASE

        case eCSSProperty__moz_column_rule_width:
          aComputedValue.SetCoordValue(
            static_cast<const nsStyleColumn*>(styleStruct)->
              GetComputedColumnRuleWidth());
          break;

        case eCSSProperty_border_bottom_color:
          ExtractBorderColor(aStyleContext, styleStruct, NS_SIDE_BOTTOM,
                             aComputedValue);
          break;
        case eCSSProperty_border_left_color_value:
          ExtractBorderColor(aStyleContext, styleStruct, NS_SIDE_LEFT,
                             aComputedValue);
          break;
        case eCSSProperty_border_right_color_value:
          ExtractBorderColor(aStyleContext, styleStruct, NS_SIDE_RIGHT,
                             aComputedValue);
          break;
        case eCSSProperty_border_top_color:
          ExtractBorderColor(aStyleContext, styleStruct, NS_SIDE_TOP,
                             aComputedValue);
          break;

        case eCSSProperty_outline_color: {
          const nsStyleOutline *styleOutline =
            static_cast<const nsStyleOutline*>(styleStruct);
          nscolor color;
          if (!styleOutline->GetOutlineColor(color))
            color = aStyleContext->GetStyleColor()->mColor;
          aComputedValue.SetColorValue(color);
          break;
        }

        case eCSSProperty__moz_column_rule_color: {
          const nsStyleColumn *styleColumn =
            static_cast<const nsStyleColumn*>(styleStruct);
          nscolor color;
          if (styleColumn->mColumnRuleColorIsForeground) {
            color = aStyleContext->GetStyleColor()->mColor;
          } else {
            color = styleColumn->mColumnRuleColor;
          }
          aComputedValue.SetColorValue(color);
          break;
        }

        case eCSSProperty__moz_column_count: {
          const nsStyleColumn *styleColumn =
            static_cast<const nsStyleColumn*>(styleStruct);
          if (styleColumn->mColumnCount == NS_STYLE_COLUMN_COUNT_AUTO) {
            aComputedValue.SetAutoValue();
          } else {
            aComputedValue.SetIntValue(styleColumn->mColumnCount,
                                       eUnit_Integer);
          }
          break;
        }

#ifdef MOZ_FLEXBOX
        case eCSSProperty_order: {
          const nsStylePosition *stylePosition =
            static_cast<const nsStylePosition*>(styleStruct);
          aComputedValue.SetIntValue(stylePosition->mOrder,
                                     eUnit_Integer);
          break;
        }
#endif // MOZ_FLEXBOX

        case eCSSProperty_text_decoration_color: {
          const nsStyleTextReset *styleTextReset =
            static_cast<const nsStyleTextReset*>(styleStruct);
          nscolor color;
          bool isForeground;
          styleTextReset->GetDecorationColor(color, isForeground);
          if (isForeground) {
            color = aStyleContext->GetStyleColor()->mColor;
          }
          aComputedValue.SetColorValue(color);
          break;
        }

        case eCSSProperty_text_decoration_style: {
          uint8_t decorationStyle =
            static_cast<const nsStyleTextReset*>(styleStruct)->
              GetDecorationStyle();
          aComputedValue.SetIntValue(decorationStyle, eUnit_Enumerated);
          break;
        }

        case eCSSProperty_border_spacing: {
          const nsStyleTableBorder *styleTableBorder =
            static_cast<const nsStyleTableBorder*>(styleStruct);
          nsAutoPtr<nsCSSValuePair> pair(new nsCSSValuePair);
          if (!pair) {
            return false;
          }
          nscoordToCSSValue(styleTableBorder->mBorderSpacingX, pair->mXValue);
          nscoordToCSSValue(styleTableBorder->mBorderSpacingY, pair->mYValue);
          aComputedValue.SetAndAdoptCSSValuePairValue(pair.forget(),
                                                      eUnit_CSSValuePair);
          break;
        }

        case eCSSProperty_transform_origin: {
          const nsStyleDisplay *styleDisplay =
            static_cast<const nsStyleDisplay*>(styleStruct);
          nsAutoPtr<nsCSSValueTriplet> triplet(new nsCSSValueTriplet);
          if (!triplet ||
              !StyleCoordToCSSValue(styleDisplay->mTransformOrigin[0],
                                    triplet->mXValue) ||
              !StyleCoordToCSSValue(styleDisplay->mTransformOrigin[1],
                                    triplet->mYValue) ||
              !StyleCoordToCSSValue(styleDisplay->mTransformOrigin[2],
                                    triplet->mZValue)) {
            return false;
          }
          aComputedValue.SetAndAdoptCSSValueTripletValue(triplet.forget(),
                                                         eUnit_CSSValueTriplet);
          break;
        }

        case eCSSProperty_perspective_origin: {
          const nsStyleDisplay *styleDisplay =
            static_cast<const nsStyleDisplay*>(styleStruct);
          nsAutoPtr<nsCSSValuePair> pair(new nsCSSValuePair);
          if (!pair ||
              !StyleCoordToCSSValue(styleDisplay->mPerspectiveOrigin[0],
                                    pair->mXValue) ||
              !StyleCoordToCSSValue(styleDisplay->mPerspectiveOrigin[1],
                                    pair->mYValue)) {
            return false;
          }
          aComputedValue.SetAndAdoptCSSValuePairValue(pair.forget(),
                                                      eUnit_CSSValuePair);
          break;
        }

        case eCSSProperty_stroke_dasharray: {
          const nsStyleSVG *svg = static_cast<const nsStyleSVG*>(styleStruct);
          NS_ABORT_IF_FALSE((svg->mStrokeDasharray != nullptr) ==
                            (svg->mStrokeDasharrayLength != 0),
                            "pointer/length mismatch");
          nsAutoPtr<nsCSSValueList> result;
          if (svg->mStrokeDasharray) {
            NS_ABORT_IF_FALSE(svg->mStrokeDasharrayLength > 0,
                              "non-null list should have positive length");
            nsCSSValueList **resultTail = getter_Transfers(result);
            for (uint32_t i = 0, i_end = svg->mStrokeDasharrayLength;
                 i != i_end; ++i) {
              nsCSSValueList *item = new nsCSSValueList;
              if (!item) {
                return false;
              }
              *resultTail = item;
              resultTail = &item->mNext;

              const nsStyleCoord &coord = svg->mStrokeDasharray[i];
              nsCSSValue &value = item->mValue;
              switch (coord.GetUnit()) {
                case eStyleUnit_Coord:
                  // Number means the same thing as length; we want to
                  // animate them the same way.  Normalize both to number
                  // since it has more accuracy (float vs nscoord).
                  value.SetFloatValue(nsPresContext::
                    AppUnitsToFloatCSSPixels(coord.GetCoordValue()),
                    eCSSUnit_Number);
                  break;
                case eStyleUnit_Factor:
                  value.SetFloatValue(coord.GetFactorValue(),
                                      eCSSUnit_Number);
                  break;
                case eStyleUnit_Percent:
                  value.SetPercentValue(coord.GetPercentValue());
                  break;
                default:
                  NS_ABORT_IF_FALSE(false, "unexpected unit");
                  return false;
              }
            }
          } else {
            result = new nsCSSValueList;
            if (!result) {
              return false;
            }
            result->mValue.SetNoneValue();
          }
          aComputedValue.SetAndAdoptCSSValueListValue(result.forget(),
                                                      eUnit_Dasharray);
          break;
        }

        case eCSSProperty_font_stretch: {
          int16_t stretch =
            static_cast<const nsStyleFont*>(styleStruct)->mFont.stretch;
          MOZ_STATIC_ASSERT(NS_STYLE_FONT_STRETCH_ULTRA_CONDENSED == -4 &&
                            NS_STYLE_FONT_STRETCH_ULTRA_EXPANDED == 4,
                            "font stretch constants not as expected");
          if (stretch < NS_STYLE_FONT_STRETCH_ULTRA_CONDENSED ||
              stretch > NS_STYLE_FONT_STRETCH_ULTRA_EXPANDED) {
            return false;
          }
          aComputedValue.SetIntValue(stretch, eUnit_Enumerated);
          return true;
        }

        case eCSSProperty_font_weight: {
          uint16_t weight =
            static_cast<const nsStyleFont*>(styleStruct)->mFont.weight;
          if (weight % 100 != 0) {
            return false;
          }
          aComputedValue.SetIntValue(weight, eUnit_Integer);
          return true;
        }

        case eCSSProperty_image_region: {
          const nsStyleList *list =
            static_cast<const nsStyleList*>(styleStruct);
          const nsRect &srect = list->mImageRegion;
          if (srect.IsEmpty()) {
            aComputedValue.SetAutoValue();
            break;
          }

          nsCSSRect *vrect = new nsCSSRect;
          nscoordToCSSValue(srect.x, vrect->mLeft);
          nscoordToCSSValue(srect.y, vrect->mTop);
          nscoordToCSSValue(srect.XMost(), vrect->mRight);
          nscoordToCSSValue(srect.YMost(), vrect->mBottom);
          aComputedValue.SetAndAdoptCSSRectValue(vrect, eUnit_CSSRect);
          break;
        }

        case eCSSProperty_clip: {
          const nsStyleDisplay *display =
            static_cast<const nsStyleDisplay*>(styleStruct);
          if (!(display->mClipFlags & NS_STYLE_CLIP_RECT)) {
            aComputedValue.SetAutoValue();
          } else {
            nsCSSRect *vrect = new nsCSSRect;
            const nsRect &srect = display->mClip;
            if (display->mClipFlags & NS_STYLE_CLIP_TOP_AUTO) {
              vrect->mTop.SetAutoValue();
            } else {
              nscoordToCSSValue(srect.y, vrect->mTop);
            }
            if (display->mClipFlags & NS_STYLE_CLIP_RIGHT_AUTO) {
              vrect->mRight.SetAutoValue();
            } else {
              nscoordToCSSValue(srect.XMost(), vrect->mRight);
            }
            if (display->mClipFlags & NS_STYLE_CLIP_BOTTOM_AUTO) {
              vrect->mBottom.SetAutoValue();
            } else {
              nscoordToCSSValue(srect.YMost(), vrect->mBottom);
            }
            if (display->mClipFlags & NS_STYLE_CLIP_LEFT_AUTO) {
              vrect->mLeft.SetAutoValue();
            } else {
              nscoordToCSSValue(srect.x, vrect->mLeft);
            }
            aComputedValue.SetAndAdoptCSSRectValue(vrect, eUnit_CSSRect);
          }
          break;
        }

        case eCSSProperty_background_position: {
          const nsStyleBackground *bg =
            static_cast<const nsStyleBackground*>(styleStruct);
          nsAutoPtr<nsCSSValueList> result;
          nsCSSValueList **resultTail = getter_Transfers(result);
          NS_ABORT_IF_FALSE(bg->mPositionCount > 0, "unexpected count");
          for (uint32_t i = 0, i_end = bg->mPositionCount; i != i_end; ++i) {
            nsCSSValueList *item = new nsCSSValueList;
            *resultTail = item;
            resultTail = &item->mNext;
            nsRefPtr<nsCSSValue::Array> bgArray = nsCSSValue::Array::Create(4);
            item->mValue.SetArrayValue(bgArray.get(), eCSSUnit_Array);

            const nsStyleBackground::Position &pos = bg->mLayers[i].mPosition;
            // XXXbz is there a good reason we can't just
            // SetCalcValue(&pos.mXPosition, item->mXValue) here?
            nsCSSValue &xValue = bgArray->Item(1),
                       &yValue = bgArray->Item(3);
            if (!pos.mXPosition.mHasPercent) {
              NS_ABORT_IF_FALSE(pos.mXPosition.mPercent == 0.0f,
                                "Shouldn't have mPercent!");
              nscoordToCSSValue(pos.mXPosition.mLength, xValue);
            } else if (pos.mXPosition.mLength == 0) {
              xValue.SetPercentValue(pos.mXPosition.mPercent);
            } else {
              SetCalcValue(&pos.mXPosition, xValue);
            }

            if (!pos.mYPosition.mHasPercent) {
              NS_ABORT_IF_FALSE(pos.mYPosition.mPercent == 0.0f,
                                "Shouldn't have mPercent!");
              nscoordToCSSValue(pos.mYPosition.mLength, yValue);
            } else if (pos.mYPosition.mLength == 0) {
              yValue.SetPercentValue(pos.mYPosition.mPercent);
            } else {
              SetCalcValue(&pos.mYPosition, yValue);
            }
          }

          aComputedValue.SetAndAdoptCSSValueListValue(result.forget(),
                                                      eUnit_BackgroundPosition);
          break;
        }

        case eCSSProperty_background_size: {
          const nsStyleBackground *bg =
            static_cast<const nsStyleBackground*>(styleStruct);
          nsAutoPtr<nsCSSValuePairList> result;
          nsCSSValuePairList **resultTail = getter_Transfers(result);
          NS_ABORT_IF_FALSE(bg->mSizeCount > 0, "unexpected count");
          for (uint32_t i = 0, i_end = bg->mSizeCount; i != i_end; ++i) {
            nsCSSValuePairList *item = new nsCSSValuePairList;
            *resultTail = item;
            resultTail = &item->mNext;

            const nsStyleBackground::Size &size = bg->mLayers[i].mSize;
            switch (size.mWidthType) {
              case nsStyleBackground::Size::eContain:
              case nsStyleBackground::Size::eCover:
                item->mXValue.SetIntValue(size.mWidthType,
                                          eCSSUnit_Enumerated);
                break;
              case nsStyleBackground::Size::eAuto:
                item->mXValue.SetAutoValue();
                break;
              case nsStyleBackground::Size::eLengthPercentage:
                // XXXbz is there a good reason we can't just
                // SetCalcValue(&size.mWidth, item->mXValue) here?
                if (!size.mWidth.mHasPercent &&
                    // negative values must have come from calc()
                    size.mWidth.mLength >= 0) {
                  NS_ABORT_IF_FALSE(size.mWidth.mPercent == 0.0f,
                                    "Shouldn't have mPercent");
                  nscoordToCSSValue(size.mWidth.mLength, item->mXValue);
                } else if (size.mWidth.mLength == 0 &&
                           // negative values must have come from calc()
                           size.mWidth.mPercent >= 0.0f) {
                  item->mXValue.SetPercentValue(size.mWidth.mPercent);
                } else {
                  SetCalcValue(&size.mWidth, item->mXValue);
                }
                break;
            }

            switch (size.mHeightType) {
              case nsStyleBackground::Size::eContain:
              case nsStyleBackground::Size::eCover:
                // leave it null
                break;
              case nsStyleBackground::Size::eAuto:
                item->mYValue.SetAutoValue();
                break;
              case nsStyleBackground::Size::eLengthPercentage:
                // XXXbz is there a good reason we can't just
                // SetCalcValue(&size.mHeight, item->mYValue) here?
                if (!size.mHeight.mHasPercent &&
                    // negative values must have come from calc()
                    size.mHeight.mLength >= 0) {
                  NS_ABORT_IF_FALSE(size.mHeight.mPercent == 0.0f,
                                    "Shouldn't have mPercent");
                  nscoordToCSSValue(size.mHeight.mLength, item->mYValue);
                } else if (size.mHeight.mLength == 0 &&
                           // negative values must have come from calc()
                           size.mHeight.mPercent >= 0.0f) {
                  item->mYValue.SetPercentValue(size.mHeight.mPercent);
                } else {
                  SetCalcValue(&size.mHeight, item->mYValue);
                }
                break;
            }
          }

          aComputedValue.SetAndAdoptCSSValuePairListValue(result.forget());
          break;
        }

        case eCSSProperty_transform: {
          const nsStyleDisplay *display =
            static_cast<const nsStyleDisplay*>(styleStruct);
          nsAutoPtr<nsCSSValueList> result;
          if (display->mSpecifiedTransform) {
            // Clone, and convert all lengths (not percents) to pixels.
            nsCSSValueList **resultTail = getter_Transfers(result);
            for (const nsCSSValueList *l = display->mSpecifiedTransform;
                 l; l = l->mNext) {
              nsCSSValueList *clone = new nsCSSValueList;
              *resultTail = clone;
              resultTail = &clone->mNext;

              SubstitutePixelValues(aStyleContext, l->mValue, clone->mValue);
            }
          } else {
            result = new nsCSSValueList();
            result->mValue.SetNoneValue();
          }

          aComputedValue.SetAndAdoptCSSValueListValue(result.forget(),
                                                      eUnit_Transform);
          break;
        }

        default:
          NS_ABORT_IF_FALSE(false, "missing property implementation");
          return false;
      };
      return true;
    case eStyleAnimType_Coord:
      return StyleCoordToValue(*static_cast<const nsStyleCoord*>(
        StyleDataAtOffset(styleStruct, ssOffset)), aComputedValue);
    case eStyleAnimType_Sides_Top:
    case eStyleAnimType_Sides_Right:
    case eStyleAnimType_Sides_Bottom:
    case eStyleAnimType_Sides_Left: {
      MOZ_STATIC_ASSERT(
       NS_SIDE_TOP    == eStyleAnimType_Sides_Top   -eStyleAnimType_Sides_Top &&
       NS_SIDE_RIGHT  == eStyleAnimType_Sides_Right -eStyleAnimType_Sides_Top &&
       NS_SIDE_BOTTOM == eStyleAnimType_Sides_Bottom-eStyleAnimType_Sides_Top &&
       NS_SIDE_LEFT   == eStyleAnimType_Sides_Left  -eStyleAnimType_Sides_Top,
       "box side constants out of sync with animation side constants");

      const nsStyleCoord &coord = static_cast<const nsStyleSides*>(
        StyleDataAtOffset(styleStruct, ssOffset))->
          Get(mozilla::css::Side(animType - eStyleAnimType_Sides_Top));
      return StyleCoordToValue(coord, aComputedValue);
    }
    case eStyleAnimType_Corner_TopLeft:
    case eStyleAnimType_Corner_TopRight:
    case eStyleAnimType_Corner_BottomRight:
    case eStyleAnimType_Corner_BottomLeft: {
      MOZ_STATIC_ASSERT(
       NS_CORNER_TOP_LEFT     == eStyleAnimType_Corner_TopLeft -
                                 eStyleAnimType_Corner_TopLeft        &&
       NS_CORNER_TOP_RIGHT    == eStyleAnimType_Corner_TopRight -
                                 eStyleAnimType_Corner_TopLeft        &&
       NS_CORNER_BOTTOM_RIGHT == eStyleAnimType_Corner_BottomRight -
                                 eStyleAnimType_Corner_TopLeft        &&
       NS_CORNER_BOTTOM_LEFT  == eStyleAnimType_Corner_BottomLeft -
                                 eStyleAnimType_Corner_TopLeft,
       "box corner constants out of sync with animation corner constants");

      const nsStyleCorners *corners = static_cast<const nsStyleCorners*>(
        StyleDataAtOffset(styleStruct, ssOffset));
      uint8_t fullCorner = animType - eStyleAnimType_Corner_TopLeft;
      const nsStyleCoord &horiz =
        corners->Get(NS_FULL_TO_HALF_CORNER(fullCorner, false));
      const nsStyleCoord &vert =
        corners->Get(NS_FULL_TO_HALF_CORNER(fullCorner, true));
      nsAutoPtr<nsCSSValuePair> pair(new nsCSSValuePair);
      if (!pair ||
          !StyleCoordToCSSValue(horiz, pair->mXValue) ||
          !StyleCoordToCSSValue(vert, pair->mYValue)) {
        return false;
      }
      aComputedValue.SetAndAdoptCSSValuePairValue(pair.forget(),
                                                  eUnit_CSSValuePair);
      return true;
    }
    case eStyleAnimType_nscoord:
      aComputedValue.SetCoordValue(*static_cast<const nscoord*>(
        StyleDataAtOffset(styleStruct, ssOffset)));
      return true;
    case eStyleAnimType_EnumU8:
      aComputedValue.SetIntValue(*static_cast<const uint8_t*>(
        StyleDataAtOffset(styleStruct, ssOffset)), eUnit_Enumerated);
      return true;
    case eStyleAnimType_float:
      aComputedValue.SetFloatValue(*static_cast<const float*>(
        StyleDataAtOffset(styleStruct, ssOffset)));
      if (aProperty == eCSSProperty_font_size_adjust &&
          aComputedValue.GetFloatValue() == 0.0f) {
        // In nsStyleFont, we set mFont.sizeAdjust to 0 to represent
        // font-size-adjust: none.  Here, we have to treat this as a keyword
        // instead of a float value, to make sure we don't end up doing
        // interpolation with it.
        aComputedValue.SetNoneValue();
      }
      return true;
    case eStyleAnimType_Color:
      aComputedValue.SetColorValue(*static_cast<const nscolor*>(
        StyleDataAtOffset(styleStruct, ssOffset)));
      return true;
    case eStyleAnimType_PaintServer: {
      const nsStyleSVGPaint &paint = *static_cast<const nsStyleSVGPaint*>(
        StyleDataAtOffset(styleStruct, ssOffset));
      if (paint.mType == eStyleSVGPaintType_Color) {
        aComputedValue.SetColorValue(paint.mPaint.mColor);
        return true;
      }
      if (paint.mType == eStyleSVGPaintType_Server) {
        if (!paint.mPaint.mPaintServer) {
          NS_WARNING("Null paint server");
          return false;
        }
        nsAutoPtr<nsCSSValuePair> pair(new nsCSSValuePair);
        nsRefPtr<nsStringBuffer> uriAsStringBuffer =
          GetURIAsUtf16StringBuffer(paint.mPaint.mPaintServer);
        NS_ENSURE_TRUE(!!uriAsStringBuffer, false);
        nsIDocument* doc = aStyleContext->PresContext()->Document();
        nsRefPtr<mozilla::css::URLValue> url =
          new mozilla::css::URLValue(paint.mPaint.mPaintServer,
                                     uriAsStringBuffer,
                                     doc->GetDocumentURI(),
                                     doc->NodePrincipal());
        pair->mXValue.SetURLValue(url);
        pair->mYValue.SetColorValue(paint.mFallbackColor);
        aComputedValue.SetAndAdoptCSSValuePairValue(pair.forget(),
                                                    eUnit_CSSValuePair);
        return true;
      }
      NS_ABORT_IF_FALSE(paint.mType == eStyleSVGPaintType_None,
          "Unexpected SVG paint type");
      aComputedValue.SetNoneValue();
      return true;
    }
    case eStyleAnimType_Shadow: {
      const nsCSSShadowArray *shadowArray =
        *static_cast<const nsRefPtr<nsCSSShadowArray>*>(
          StyleDataAtOffset(styleStruct, ssOffset));
      if (!shadowArray) {
        aComputedValue.SetAndAdoptCSSValueListValue(nullptr, eUnit_Shadow);
        return true;
      }
      nsAutoPtr<nsCSSValueList> result;
      nsCSSValueList **resultTail = getter_Transfers(result);
      for (uint32_t i = 0, i_end = shadowArray->Length(); i < i_end; ++i) {
        const nsCSSShadowItem *shadow = shadowArray->ShadowAt(i);
        // X, Y, Radius, Spread, Color, Inset
        nsRefPtr<nsCSSValue::Array> arr = nsCSSValue::Array::Create(6);
        nscoordToCSSValue(shadow->mXOffset, arr->Item(0));
        nscoordToCSSValue(shadow->mYOffset, arr->Item(1));
        nscoordToCSSValue(shadow->mRadius, arr->Item(2));
        // NOTE: This code sometimes stores mSpread: 0 even when
        // the parser would be required to leave it null.
        nscoordToCSSValue(shadow->mSpread, arr->Item(3));
        if (shadow->mHasColor) {
          arr->Item(4).SetColorValue(shadow->mColor);
        }
        if (shadow->mInset) {
          arr->Item(5).SetIntValue(NS_STYLE_BOX_SHADOW_INSET,
                                   eCSSUnit_Enumerated);
        }

        nsCSSValueList *resultItem = new nsCSSValueList;
        if (!resultItem) {
          return false;
        }
        resultItem->mValue.SetArrayValue(arr, eCSSUnit_Array);
        *resultTail = resultItem;
        resultTail = &resultItem->mNext;
      }
      aComputedValue.SetAndAdoptCSSValueListValue(result.forget(),
                                                  eUnit_Shadow);
      return true;
    }
    case eStyleAnimType_None:
      NS_NOTREACHED("shouldn't use on non-animatable properties");
  }
  return false;
}

nsStyleAnimation::Value::Value(int32_t aInt, Unit aUnit,
                               IntegerConstructorType)
{
  NS_ASSERTION(IsIntUnit(aUnit), "unit must be of integer type");
  mUnit = aUnit;
  mValue.mInt = aInt;
}

nsStyleAnimation::Value::Value(nscoord aLength, CoordConstructorType)
{
  mUnit = eUnit_Coord;
  mValue.mCoord = aLength;
}

nsStyleAnimation::Value::Value(float aPercent, PercentConstructorType)
{
  mUnit = eUnit_Percent;
  mValue.mFloat = aPercent;
}

nsStyleAnimation::Value::Value(float aFloat, FloatConstructorType)
{
  mUnit = eUnit_Float;
  mValue.mFloat = aFloat;
}

nsStyleAnimation::Value::Value(nscolor aColor, ColorConstructorType)
{
  mUnit = eUnit_Color;
  mValue.mColor = aColor;
}

nsStyleAnimation::Value&
nsStyleAnimation::Value::operator=(const Value& aOther)
{
  FreeValue();

  mUnit = aOther.mUnit;
  switch (mUnit) {
    case eUnit_Null:
    case eUnit_Normal:
    case eUnit_Auto:
    case eUnit_None:
      break;
    case eUnit_Enumerated:
    case eUnit_Visibility:
    case eUnit_Integer:
      mValue.mInt = aOther.mValue.mInt;
      break;
    case eUnit_Coord:
      mValue.mCoord = aOther.mValue.mCoord;
      break;
    case eUnit_Percent:
    case eUnit_Float:
      mValue.mFloat = aOther.mValue.mFloat;
      break;
    case eUnit_Color:
      mValue.mColor = aOther.mValue.mColor;
      break;
    case eUnit_Calc:
      NS_ABORT_IF_FALSE(aOther.mValue.mCSSValue, "values may not be null");
      mValue.mCSSValue = new nsCSSValue(*aOther.mValue.mCSSValue);
      if (!mValue.mCSSValue) {
        mUnit = eUnit_Null;
      }
      break;
    case eUnit_CSSValuePair:
      NS_ABORT_IF_FALSE(aOther.mValue.mCSSValuePair,
                        "value pairs may not be null");
      mValue.mCSSValuePair = new nsCSSValuePair(*aOther.mValue.mCSSValuePair);
      if (!mValue.mCSSValuePair) {
        mUnit = eUnit_Null;
      }
      break;
    case eUnit_CSSValueTriplet:
      NS_ABORT_IF_FALSE(aOther.mValue.mCSSValueTriplet,
                        "value triplets may not be null");
      mValue.mCSSValueTriplet = new nsCSSValueTriplet(*aOther.mValue.mCSSValueTriplet);
      if (!mValue.mCSSValueTriplet) {
        mUnit = eUnit_Null;
      }
      break;
    case eUnit_CSSRect:
      NS_ABORT_IF_FALSE(aOther.mValue.mCSSRect, "rects may not be null");
      mValue.mCSSRect = new nsCSSRect(*aOther.mValue.mCSSRect);
      if (!mValue.mCSSRect) {
        mUnit = eUnit_Null;
      }
      break;
    case eUnit_Dasharray:
    case eUnit_Shadow:
    case eUnit_Transform:
    case eUnit_BackgroundPosition:
      NS_ABORT_IF_FALSE(mUnit == eUnit_Shadow || aOther.mValue.mCSSValueList,
                        "value lists other than shadows may not be null");
      if (aOther.mValue.mCSSValueList) {
        mValue.mCSSValueList = aOther.mValue.mCSSValueList->Clone();
        if (!mValue.mCSSValueList) {
          mUnit = eUnit_Null;
        }
      } else {
        mValue.mCSSValueList = nullptr;
      }
      break;
    case eUnit_CSSValuePairList:
      NS_ABORT_IF_FALSE(aOther.mValue.mCSSValuePairList,
                        "value pair lists may not be null");
      mValue.mCSSValuePairList = aOther.mValue.mCSSValuePairList->Clone();
      if (!mValue.mCSSValuePairList) {
        mUnit = eUnit_Null;
      }
      break;
    case eUnit_UnparsedString:
      NS_ABORT_IF_FALSE(aOther.mValue.mString, "expecting non-null string");
      mValue.mString = aOther.mValue.mString;
      mValue.mString->AddRef();
      break;
  }

  return *this;
}

void
nsStyleAnimation::Value::SetNormalValue()
{
  FreeValue();
  mUnit = eUnit_Normal;
}

void
nsStyleAnimation::Value::SetAutoValue()
{
  FreeValue();
  mUnit = eUnit_Auto;
}

void
nsStyleAnimation::Value::SetNoneValue()
{
  FreeValue();
  mUnit = eUnit_None;
}

void
nsStyleAnimation::Value::SetIntValue(int32_t aInt, Unit aUnit)
{
  NS_ASSERTION(IsIntUnit(aUnit), "unit must be of integer type");
  FreeValue();
  mUnit = aUnit;
  mValue.mInt = aInt;
}

void
nsStyleAnimation::Value::SetCoordValue(nscoord aLength)
{
  FreeValue();
  mUnit = eUnit_Coord;
  mValue.mCoord = aLength;
}

void
nsStyleAnimation::Value::SetPercentValue(float aPercent)
{
  FreeValue();
  mUnit = eUnit_Percent;
  mValue.mFloat = aPercent;
}

void
nsStyleAnimation::Value::SetFloatValue(float aFloat)
{
  FreeValue();
  mUnit = eUnit_Float;
  mValue.mFloat = aFloat;
}

void
nsStyleAnimation::Value::SetColorValue(nscolor aColor)
{
  FreeValue();
  mUnit = eUnit_Color;
  mValue.mColor = aColor;
}

void
nsStyleAnimation::Value::SetUnparsedStringValue(const nsString& aString)
{
  FreeValue();
  mUnit = eUnit_UnparsedString;
  mValue.mString = nsCSSValue::BufferFromString(aString).get();
  if (NS_UNLIKELY(!mValue.mString)) {
    // not much we can do here; just make sure that our promise of a
    // non-null mValue.mString holds for string units.
    mUnit = eUnit_Null;
  }
}

void
nsStyleAnimation::Value::SetAndAdoptCSSValueValue(nsCSSValue *aValue,
                                                  Unit aUnit)
{
  FreeValue();
  NS_ABORT_IF_FALSE(IsCSSValueUnit(aUnit), "bad unit");
  NS_ABORT_IF_FALSE(aValue != nullptr, "values may not be null");
  mUnit = aUnit;
  mValue.mCSSValue = aValue; // take ownership
}

void
nsStyleAnimation::Value::SetAndAdoptCSSValuePairValue(
                           nsCSSValuePair *aValuePair, Unit aUnit)
{
  FreeValue();
  NS_ABORT_IF_FALSE(IsCSSValuePairUnit(aUnit), "bad unit");
  NS_ABORT_IF_FALSE(aValuePair != nullptr, "value pairs may not be null");
  mUnit = aUnit;
  mValue.mCSSValuePair = aValuePair; // take ownership
}

void
nsStyleAnimation::Value::SetAndAdoptCSSValueTripletValue(
                           nsCSSValueTriplet *aValueTriplet, Unit aUnit)
{
    FreeValue();
    NS_ABORT_IF_FALSE(IsCSSValueTripletUnit(aUnit), "bad unit");
    NS_ABORT_IF_FALSE(aValueTriplet != nullptr, "value pairs may not be null");
    mUnit = aUnit;
    mValue.mCSSValueTriplet = aValueTriplet; // take ownership
}

void
nsStyleAnimation::Value::SetAndAdoptCSSRectValue(nsCSSRect *aRect, Unit aUnit)
{
  FreeValue();
  NS_ABORT_IF_FALSE(IsCSSRectUnit(aUnit), "bad unit");
  NS_ABORT_IF_FALSE(aRect != nullptr, "value pairs may not be null");
  mUnit = aUnit;
  mValue.mCSSRect = aRect; // take ownership
}

void
nsStyleAnimation::Value::SetAndAdoptCSSValueListValue(
                           nsCSSValueList *aValueList, Unit aUnit)
{
  FreeValue();
  NS_ABORT_IF_FALSE(IsCSSValueListUnit(aUnit), "bad unit");
  NS_ABORT_IF_FALSE(aUnit != eUnit_Dasharray || aValueList != nullptr,
                    "dasharrays may not be null");
  mUnit = aUnit;
  mValue.mCSSValueList = aValueList; // take ownership
}

void
nsStyleAnimation::Value::SetAndAdoptCSSValuePairListValue(
                           nsCSSValuePairList *aValuePairList)
{
  FreeValue();
  NS_ABORT_IF_FALSE(aValuePairList, "may not be null");
  mUnit = eUnit_CSSValuePairList;
  mValue.mCSSValuePairList = aValuePairList; // take ownership
}

void
nsStyleAnimation::Value::FreeValue()
{
  if (IsCSSValueUnit(mUnit)) {
    delete mValue.mCSSValue;
  } else if (IsCSSValueListUnit(mUnit)) {
    delete mValue.mCSSValueList;
  } else if (IsCSSValuePairUnit(mUnit)) {
    delete mValue.mCSSValuePair;
  } else if (IsCSSValueTripletUnit(mUnit)) {
    delete mValue.mCSSValueTriplet;
  } else if (IsCSSRectUnit(mUnit)) {
    delete mValue.mCSSRect;
  } else if (IsCSSValuePairListUnit(mUnit)) {
    delete mValue.mCSSValuePairList;
  } else if (IsStringUnit(mUnit)) {
    NS_ABORT_IF_FALSE(mValue.mString, "expecting non-null string");
    mValue.mString->Release();
  }
}

bool
nsStyleAnimation::Value::operator==(const Value& aOther) const
{
  if (mUnit != aOther.mUnit) {
    return false;
  }

  switch (mUnit) {
    case eUnit_Null:
    case eUnit_Normal:
    case eUnit_Auto:
    case eUnit_None:
      return true;
    case eUnit_Enumerated:
    case eUnit_Visibility:
    case eUnit_Integer:
      return mValue.mInt == aOther.mValue.mInt;
    case eUnit_Coord:
      return mValue.mCoord == aOther.mValue.mCoord;
    case eUnit_Percent:
    case eUnit_Float:
      return mValue.mFloat == aOther.mValue.mFloat;
    case eUnit_Color:
      return mValue.mColor == aOther.mValue.mColor;
    case eUnit_Calc:
      return *mValue.mCSSValue == *aOther.mValue.mCSSValue;
    case eUnit_CSSValuePair:
      return *mValue.mCSSValuePair == *aOther.mValue.mCSSValuePair;
    case eUnit_CSSValueTriplet:
      return *mValue.mCSSValueTriplet == *aOther.mValue.mCSSValueTriplet;
    case eUnit_CSSRect:
      return *mValue.mCSSRect == *aOther.mValue.mCSSRect;
    case eUnit_Dasharray:
    case eUnit_Shadow:
    case eUnit_Transform:
    case eUnit_BackgroundPosition:
      return *mValue.mCSSValueList == *aOther.mValue.mCSSValueList;
    case eUnit_CSSValuePairList:
      return *mValue.mCSSValuePairList == *aOther.mValue.mCSSValuePairList;
    case eUnit_UnparsedString:
      return (NS_strcmp(GetStringBufferValue(),
                        aOther.GetStringBufferValue()) == 0);
  }

  NS_NOTREACHED("incomplete case");
  return false;
}