Source/WebCore/svg/SVGPathBlender.cpp - platform/external/webkit - Git at Google

 /*
  * Copyright (C) Research In Motion Limited 2010, 2011. All rights reserved.
  *
  * This library is free software; you can redistribute it and/or
  * modify it under the terms of the GNU Library General Public
  * License as published by the Free Software Foundation; either
  * version 2 of the License, or (at your option) any later version.
  *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
  * Library General Public License for more details.
  *
  * You should have received a copy of the GNU Library General Public License
  * along with this library; see the file COPYING.LIB.  If not, write to
  * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
  * Boston, MA 02110-1301, USA.
  */

 #include "config.h"

 #if ENABLE(SVG)
 #include "SVGPathBlender.h"

 #include "SVGPathSeg.h"

 namespace WebCore {

 SVGPathBlender::SVGPathBlender()
     : m_fromSource(0)
     , m_toSource(0)
     , m_consumer(0)
     , m_progress(0)
 {
 }

 // Helper functions
 static inline FloatPoint blendFloatPoint(const FloatPoint& a, const FloatPoint& b, float progress)
 {
     return FloatPoint((b.x() - a.x()) * progress + a.x(), (b.y() - a.y()) * progress + a.y());
 }

 static inline float blendAnimatedFloat(float from, float to, float progress)
 {
     return (to - from) * progress + from;
 }

 float SVGPathBlender::blendAnimatedDimensonalFloat(float from, float to, FloatBlendMode blendMode)
 {
     if (m_fromMode == m_toMode)
         return blendAnimatedFloat(from, to, m_progress);

     float fromValue = blendMode == BlendHorizontal ? m_fromCurrentPoint.x() : m_fromCurrentPoint.y();
     float toValue = blendMode == BlendHorizontal ? m_toCurrentPoint.x() : m_toCurrentPoint.y();

     // Transform toY to the coordinate mode of fromY
     float animValue = blendAnimatedFloat(from, m_fromMode == AbsoluteCoordinates ? to + toValue : to - toValue, m_progress);

     if (m_isInFirstHalfOfAnimation)
         return animValue;

     // Transform the animated point to the coordinate mode, needed for the current progress.
     float currentValue = blendAnimatedFloat(fromValue, toValue, m_progress);
     return m_toMode == AbsoluteCoordinates ? animValue + currentValue : animValue - currentValue;
 }

 FloatPoint SVGPathBlender::blendAnimatedFloatPoint(const FloatPoint& fromPoint, const FloatPoint& toPoint)
 {
     if (m_fromMode == m_toMode)
         return blendFloatPoint(fromPoint, toPoint, m_progress);

     // Transform toPoint to the coordinate mode of fromPoint
     FloatPoint animatedPoint = toPoint;
     if (m_fromMode == AbsoluteCoordinates)
         animatedPoint += m_toCurrentPoint;
     else
         animatedPoint.move(-m_toCurrentPoint.x(), -m_toCurrentPoint.y());

     animatedPoint = blendFloatPoint(fromPoint, animatedPoint, m_progress);

     if (m_isInFirstHalfOfAnimation)
         return animatedPoint;

     // Transform the animated point to the coordinate mode, needed for the current progress.
     FloatPoint currentPoint = blendFloatPoint(m_fromCurrentPoint, m_toCurrentPoint, m_progress);
     if (m_toMode == AbsoluteCoordinates)
         return animatedPoint + currentPoint;

     animatedPoint.move(-currentPoint.x(), -currentPoint.y());
     return animatedPoint;
 }

 bool SVGPathBlender::blendMoveToSegment()
 {
     FloatPoint fromTargetPoint;
     FloatPoint toTargetPoint;
     if (!m_fromSource->parseMoveToSegment(fromTargetPoint)
         || !m_toSource->parseMoveToSegment(toTargetPoint))
         return false;

     m_consumer->moveTo(blendAnimatedFloatPoint(fromTargetPoint, toTargetPoint), false, m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
     m_fromCurrentPoint = m_fromMode == AbsoluteCoordinates ? fromTargetPoint : m_fromCurrentPoint + fromTargetPoint;
     m_toCurrentPoint = m_toMode == AbsoluteCoordinates ? toTargetPoint : m_toCurrentPoint + toTargetPoint;
     return true;
 }

 bool SVGPathBlender::blendLineToSegment()
 {
     FloatPoint fromTargetPoint;
     FloatPoint toTargetPoint;
     if (!m_fromSource->parseLineToSegment(fromTargetPoint)
         || !m_toSource->parseLineToSegment(toTargetPoint))
         return false;

     m_consumer->lineTo(blendAnimatedFloatPoint(fromTargetPoint, toTargetPoint), m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
     m_fromCurrentPoint = m_fromMode == AbsoluteCoordinates ? fromTargetPoint : m_fromCurrentPoint + fromTargetPoint;
     m_toCurrentPoint = m_toMode == AbsoluteCoordinates ? toTargetPoint : m_toCurrentPoint + toTargetPoint;
     return true;
 }

 bool SVGPathBlender::blendLineToHorizontalSegment()
 {
     float fromX;
     float toX;
     if (!m_fromSource->parseLineToHorizontalSegment(fromX)
         || !m_toSource->parseLineToHorizontalSegment(toX))
         return false;

     m_consumer->lineToHorizontal(blendAnimatedDimensonalFloat(fromX, toX, BlendHorizontal), m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
     m_fromCurrentPoint.setX(m_fromMode == AbsoluteCoordinates ? fromX : m_fromCurrentPoint.x() + fromX);
     m_toCurrentPoint.setX(m_toMode == AbsoluteCoordinates ? toX : m_toCurrentPoint.x() + toX);
     return true;
 }

 bool SVGPathBlender::blendLineToVerticalSegment()
 {
     float fromY;
     float toY;
     if (!m_fromSource->parseLineToVerticalSegment(fromY)
         || !m_toSource->parseLineToVerticalSegment(toY))
         return false;

     m_consumer->lineToVertical(blendAnimatedDimensonalFloat(fromY, toY, BlendVertical), m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
     m_fromCurrentPoint.setY(m_fromMode == AbsoluteCoordinates ? fromY : m_fromCurrentPoint.y() + fromY);
     m_toCurrentPoint.setY(m_toMode == AbsoluteCoordinates ? toY : m_toCurrentPoint.y() + toY);
     return true;
 }

 bool SVGPathBlender::blendCurveToCubicSegment()
 {
     FloatPoint fromTargetPoint;
     FloatPoint fromPoint1;
     FloatPoint fromPoint2;
     FloatPoint toTargetPoint;
     FloatPoint toPoint1;
     FloatPoint toPoint2;
     if (!m_fromSource->parseCurveToCubicSegment(fromPoint1, fromPoint2, fromTargetPoint)
         || !m_toSource->parseCurveToCubicSegment(toPoint1, toPoint2, toTargetPoint))
         return false;

     m_consumer->curveToCubic(blendAnimatedFloatPoint(fromPoint1, toPoint1),
                              blendAnimatedFloatPoint(fromPoint2, toPoint2),
                              blendAnimatedFloatPoint(fromTargetPoint, toTargetPoint),
                              m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
     m_fromCurrentPoint = m_fromMode == AbsoluteCoordinates ? fromTargetPoint : m_fromCurrentPoint + fromTargetPoint;
     m_toCurrentPoint = m_toMode == AbsoluteCoordinates ? toTargetPoint : m_toCurrentPoint + toTargetPoint;
     return true;
 }

 bool SVGPathBlender::blendCurveToCubicSmoothSegment()
 {
     FloatPoint fromTargetPoint;
     FloatPoint fromPoint2;
     FloatPoint toTargetPoint;
     FloatPoint toPoint2;
     if (!m_fromSource->parseCurveToCubicSmoothSegment(fromPoint2, fromTargetPoint)
         || !m_toSource->parseCurveToCubicSmoothSegment(toPoint2, toTargetPoint))
         return false;

     m_consumer->curveToCubicSmooth(blendAnimatedFloatPoint(fromPoint2, toPoint2),
                                    blendAnimatedFloatPoint(fromTargetPoint, toTargetPoint),
                                    m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
     m_fromCurrentPoint = m_fromMode == AbsoluteCoordinates ? fromTargetPoint : m_fromCurrentPoint + fromTargetPoint;
     m_toCurrentPoint = m_toMode == AbsoluteCoordinates ? toTargetPoint : m_toCurrentPoint + toTargetPoint;
     return true;
 }

 bool SVGPathBlender::blendCurveToQuadraticSegment()
 {
     FloatPoint fromTargetPoint;
     FloatPoint fromPoint1;
     FloatPoint toTargetPoint;
     FloatPoint toPoint1;
     if (!m_fromSource->parseCurveToQuadraticSegment(fromPoint1, fromTargetPoint)
         || !m_toSource->parseCurveToQuadraticSegment(toPoint1, toTargetPoint))
         return false;

     m_consumer->curveToQuadratic(blendAnimatedFloatPoint(fromPoint1, toPoint1),
                                  blendAnimatedFloatPoint(fromTargetPoint, toTargetPoint),
                                  m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
     m_fromCurrentPoint = m_fromMode == AbsoluteCoordinates ? fromTargetPoint : m_fromCurrentPoint + fromTargetPoint;
     m_toCurrentPoint = m_toMode == AbsoluteCoordinates ? toTargetPoint : m_toCurrentPoint + toTargetPoint;
     return true;
 }

 bool SVGPathBlender::blendCurveToQuadraticSmoothSegment()
 {
     FloatPoint fromTargetPoint;
     FloatPoint toTargetPoint;
     if (!m_fromSource->parseCurveToQuadraticSmoothSegment(fromTargetPoint)
         || !m_toSource->parseCurveToQuadraticSmoothSegment(toTargetPoint))
         return false;

     m_consumer->curveToQuadraticSmooth(blendAnimatedFloatPoint(fromTargetPoint, toTargetPoint), m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
     m_fromCurrentPoint = m_fromMode == AbsoluteCoordinates ? fromTargetPoint : m_fromCurrentPoint + fromTargetPoint;
     m_toCurrentPoint = m_toMode == AbsoluteCoordinates ? toTargetPoint : m_toCurrentPoint + toTargetPoint;
     return true;
 }

 bool SVGPathBlender::blendArcToSegment()
 {
     float fromRx;
     float fromRy;
     float fromAngle;
     bool fromLargeArc;
     bool fromSweep;
     FloatPoint fromTargetPoint;
     float toRx;
     float toRy;
     float toAngle;
     bool toLargeArc;
     bool toSweep;
     FloatPoint toTargetPoint;
     if (!m_fromSource->parseArcToSegment(fromRx, fromRy, fromAngle, fromLargeArc, fromSweep, fromTargetPoint)
         || !m_toSource->parseArcToSegment(toRx, toRy, toAngle, toLargeArc, toSweep, toTargetPoint))
         return false;

     m_consumer->arcTo(blendAnimatedFloat(fromRx, toRx, m_progress),
                       blendAnimatedFloat(fromRy, toRy, m_progress),
                       blendAnimatedFloat(fromAngle, toAngle, m_progress),
                       m_isInFirstHalfOfAnimation ? fromLargeArc : toLargeArc,
                       m_isInFirstHalfOfAnimation ? fromSweep : toSweep,
                       blendAnimatedFloatPoint(fromTargetPoint, toTargetPoint),
                       m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
     m_fromCurrentPoint = m_fromMode == AbsoluteCoordinates ? fromTargetPoint : m_fromCurrentPoint + fromTargetPoint;
     m_toCurrentPoint = m_toMode == AbsoluteCoordinates ? toTargetPoint : m_toCurrentPoint + toTargetPoint;
     return true;
 }

 static inline PathCoordinateMode coordinateModeOfCommand(const SVGPathSegType& type)
 {
     if (type < PathSegMoveToAbs)
         return AbsoluteCoordinates;

     // Odd number = relative command
     if (type % 2)
         return RelativeCoordinates;

     return AbsoluteCoordinates;
 }

 static inline bool isSegmentEqual(const SVGPathSegType& fromType, const SVGPathSegType& toType, const PathCoordinateMode& fromMode, const PathCoordinateMode& toMode)
 {
     if (fromType == toType && (fromType == PathSegUnknown || fromType == PathSegClosePath))
         return true;

     unsigned short from = fromType;
     unsigned short to = toType;
     if (fromMode == toMode)
         return from == to;
     if (fromMode == AbsoluteCoordinates)
         return from == to - 1;
     return to == from - 1;
 }

 bool SVGPathBlender::blendAnimatedPath(float progress, SVGPathSource* fromSource, SVGPathSource* toSource, SVGPathConsumer* consumer)
 {
     ASSERT(fromSource);
     ASSERT(toSource);
     ASSERT(consumer);
     m_fromSource = fromSource;
     m_toSource = toSource;
     m_consumer = consumer;
     m_isInFirstHalfOfAnimation = progress < 0.5f;

     m_progress = progress;
     while (true) {
         SVGPathSegType fromCommand;
         SVGPathSegType toCommand;
         if (!m_fromSource->parseSVGSegmentType(fromCommand) || !m_toSource->parseSVGSegmentType(toCommand))
             return false;

         m_fromMode = coordinateModeOfCommand(fromCommand);
         m_toMode = coordinateModeOfCommand(toCommand);
         if (!isSegmentEqual(fromCommand, toCommand, m_fromMode, m_toMode))
             return false;

         switch (fromCommand) {
         case PathSegMoveToRel:
         case PathSegMoveToAbs:
             if (!blendMoveToSegment())
                 return false;
             break;
         case PathSegLineToRel:
         case PathSegLineToAbs:
             if (!blendLineToSegment())
                 return false;
             break;
         case PathSegLineToHorizontalRel:
         case PathSegLineToHorizontalAbs:
             if (!blendLineToHorizontalSegment())
                 return false;
             break;
         case PathSegLineToVerticalRel:
         case PathSegLineToVerticalAbs:
             if (!blendLineToVerticalSegment())
                 return false;
             break;
         case PathSegClosePath:
             m_consumer->closePath();
             break;
         case PathSegCurveToCubicRel:
         case PathSegCurveToCubicAbs:
             if (!blendCurveToCubicSegment())
                 return false;
             break;
         case PathSegCurveToCubicSmoothRel:
         case PathSegCurveToCubicSmoothAbs:
             if (!blendCurveToCubicSmoothSegment())
                 return false;
             break;
         case PathSegCurveToQuadraticRel:
         case PathSegCurveToQuadraticAbs:
             if (!blendCurveToQuadraticSegment())
                 return false;
             break;
         case PathSegCurveToQuadraticSmoothRel:
         case PathSegCurveToQuadraticSmoothAbs:
             if (!blendCurveToQuadraticSmoothSegment())
                 return false;
             break;
         case PathSegArcRel:
         case PathSegArcAbs:
             if (!blendArcToSegment())
                 return false;
             break;
         default:
             return false;
         }
         if (m_fromSource->hasMoreData() != m_toSource->hasMoreData())
             return false;
         if (!m_fromSource->hasMoreData() || !m_toSource->hasMoreData())
             break;
     }
     return true;
 }

 void SVGPathBlender::cleanup()
 {
     ASSERT(m_toSource);
     ASSERT(m_fromSource);
     ASSERT(m_consumer);

     m_consumer->cleanup();
     m_toSource = 0;
     m_fromSource = 0;
     m_consumer = 0;
     m_fromCurrentPoint = FloatPoint();
     m_toCurrentPoint = FloatPoint();
 }

 }

 #endif // ENABLE(SVG)
	/*
	* Copyright (C) Research In Motion Limited 2010, 2011. All rights reserved.
	*
	* This library is free software; you can redistribute it and/or
	* modify it under the terms of the GNU Library General Public
	* License as published by the Free Software Foundation; either
	* version 2 of the License, or (at your option) any later version.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	* Library General Public License for more details.
	*
	* You should have received a copy of the GNU Library General Public License
	* along with this library; see the file COPYING.LIB. If not, write to
	* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
	* Boston, MA 02110-1301, USA.
	*/

	#include "config.h"

	#if ENABLE(SVG)
	#include "SVGPathBlender.h"

	#include "SVGPathSeg.h"

	namespace WebCore {

	SVGPathBlender::SVGPathBlender()
	: m_fromSource(0)
	, m_toSource(0)
	, m_consumer(0)
	, m_progress(0)
	{
	}

	// Helper functions
	static inline FloatPoint blendFloatPoint(const FloatPoint& a, const FloatPoint& b, float progress)
	{
	return FloatPoint((b.x() - a.x()) * progress + a.x(), (b.y() - a.y()) * progress + a.y());
	}

	static inline float blendAnimatedFloat(float from, float to, float progress)
	{
	return (to - from) * progress + from;
	}

	float SVGPathBlender::blendAnimatedDimensonalFloat(float from, float to, FloatBlendMode blendMode)
	{
	if (m_fromMode == m_toMode)
	return blendAnimatedFloat(from, to, m_progress);

	float fromValue = blendMode == BlendHorizontal ? m_fromCurrentPoint.x() : m_fromCurrentPoint.y();
	float toValue = blendMode == BlendHorizontal ? m_toCurrentPoint.x() : m_toCurrentPoint.y();

	// Transform toY to the coordinate mode of fromY
	float animValue = blendAnimatedFloat(from, m_fromMode == AbsoluteCoordinates ? to + toValue : to - toValue, m_progress);

	if (m_isInFirstHalfOfAnimation)
	return animValue;

	// Transform the animated point to the coordinate mode, needed for the current progress.
	float currentValue = blendAnimatedFloat(fromValue, toValue, m_progress);
	return m_toMode == AbsoluteCoordinates ? animValue + currentValue : animValue - currentValue;
	}

	FloatPoint SVGPathBlender::blendAnimatedFloatPoint(const FloatPoint& fromPoint, const FloatPoint& toPoint)
	{
	if (m_fromMode == m_toMode)
	return blendFloatPoint(fromPoint, toPoint, m_progress);

	// Transform toPoint to the coordinate mode of fromPoint
	FloatPoint animatedPoint = toPoint;
	if (m_fromMode == AbsoluteCoordinates)
	animatedPoint += m_toCurrentPoint;
	else
	animatedPoint.move(-m_toCurrentPoint.x(), -m_toCurrentPoint.y());

	animatedPoint = blendFloatPoint(fromPoint, animatedPoint, m_progress);

	if (m_isInFirstHalfOfAnimation)
	return animatedPoint;

	// Transform the animated point to the coordinate mode, needed for the current progress.
	FloatPoint currentPoint = blendFloatPoint(m_fromCurrentPoint, m_toCurrentPoint, m_progress);
	if (m_toMode == AbsoluteCoordinates)
	return animatedPoint + currentPoint;

	animatedPoint.move(-currentPoint.x(), -currentPoint.y());
	return animatedPoint;
	}

	bool SVGPathBlender::blendMoveToSegment()
	{
	FloatPoint fromTargetPoint;
	FloatPoint toTargetPoint;
	if (!m_fromSource->parseMoveToSegment(fromTargetPoint)
	\|\| !m_toSource->parseMoveToSegment(toTargetPoint))
	return false;

	m_consumer->moveTo(blendAnimatedFloatPoint(fromTargetPoint, toTargetPoint), false, m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
	m_fromCurrentPoint = m_fromMode == AbsoluteCoordinates ? fromTargetPoint : m_fromCurrentPoint + fromTargetPoint;
	m_toCurrentPoint = m_toMode == AbsoluteCoordinates ? toTargetPoint : m_toCurrentPoint + toTargetPoint;
	return true;
	}

	bool SVGPathBlender::blendLineToSegment()
	{
	FloatPoint fromTargetPoint;
	FloatPoint toTargetPoint;
	if (!m_fromSource->parseLineToSegment(fromTargetPoint)
	\|\| !m_toSource->parseLineToSegment(toTargetPoint))
	return false;

	m_consumer->lineTo(blendAnimatedFloatPoint(fromTargetPoint, toTargetPoint), m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
	m_fromCurrentPoint = m_fromMode == AbsoluteCoordinates ? fromTargetPoint : m_fromCurrentPoint + fromTargetPoint;
	m_toCurrentPoint = m_toMode == AbsoluteCoordinates ? toTargetPoint : m_toCurrentPoint + toTargetPoint;
	return true;
	}

	bool SVGPathBlender::blendLineToHorizontalSegment()
	{
	float fromX;
	float toX;
	if (!m_fromSource->parseLineToHorizontalSegment(fromX)
	\|\| !m_toSource->parseLineToHorizontalSegment(toX))
	return false;

	m_consumer->lineToHorizontal(blendAnimatedDimensonalFloat(fromX, toX, BlendHorizontal), m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
	m_fromCurrentPoint.setX(m_fromMode == AbsoluteCoordinates ? fromX : m_fromCurrentPoint.x() + fromX);
	m_toCurrentPoint.setX(m_toMode == AbsoluteCoordinates ? toX : m_toCurrentPoint.x() + toX);
	return true;
	}

	bool SVGPathBlender::blendLineToVerticalSegment()
	{
	float fromY;
	float toY;
	if (!m_fromSource->parseLineToVerticalSegment(fromY)
	\|\| !m_toSource->parseLineToVerticalSegment(toY))
	return false;

	m_consumer->lineToVertical(blendAnimatedDimensonalFloat(fromY, toY, BlendVertical), m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
	m_fromCurrentPoint.setY(m_fromMode == AbsoluteCoordinates ? fromY : m_fromCurrentPoint.y() + fromY);
	m_toCurrentPoint.setY(m_toMode == AbsoluteCoordinates ? toY : m_toCurrentPoint.y() + toY);
	return true;
	}

	bool SVGPathBlender::blendCurveToCubicSegment()
	{
	FloatPoint fromTargetPoint;
	FloatPoint fromPoint1;
	FloatPoint fromPoint2;
	FloatPoint toTargetPoint;
	FloatPoint toPoint1;
	FloatPoint toPoint2;
	if (!m_fromSource->parseCurveToCubicSegment(fromPoint1, fromPoint2, fromTargetPoint)
	\|\| !m_toSource->parseCurveToCubicSegment(toPoint1, toPoint2, toTargetPoint))
	return false;

	m_consumer->curveToCubic(blendAnimatedFloatPoint(fromPoint1, toPoint1),
	blendAnimatedFloatPoint(fromPoint2, toPoint2),
	blendAnimatedFloatPoint(fromTargetPoint, toTargetPoint),
	m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
	m_fromCurrentPoint = m_fromMode == AbsoluteCoordinates ? fromTargetPoint : m_fromCurrentPoint + fromTargetPoint;
	m_toCurrentPoint = m_toMode == AbsoluteCoordinates ? toTargetPoint : m_toCurrentPoint + toTargetPoint;
	return true;
	}

	bool SVGPathBlender::blendCurveToCubicSmoothSegment()
	{
	FloatPoint fromTargetPoint;
	FloatPoint fromPoint2;
	FloatPoint toTargetPoint;
	FloatPoint toPoint2;
	if (!m_fromSource->parseCurveToCubicSmoothSegment(fromPoint2, fromTargetPoint)
	\|\| !m_toSource->parseCurveToCubicSmoothSegment(toPoint2, toTargetPoint))
	return false;

	m_consumer->curveToCubicSmooth(blendAnimatedFloatPoint(fromPoint2, toPoint2),
	blendAnimatedFloatPoint(fromTargetPoint, toTargetPoint),
	m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
	m_fromCurrentPoint = m_fromMode == AbsoluteCoordinates ? fromTargetPoint : m_fromCurrentPoint + fromTargetPoint;
	m_toCurrentPoint = m_toMode == AbsoluteCoordinates ? toTargetPoint : m_toCurrentPoint + toTargetPoint;
	return true;
	}

	bool SVGPathBlender::blendCurveToQuadraticSegment()
	{
	FloatPoint fromTargetPoint;
	FloatPoint fromPoint1;
	FloatPoint toTargetPoint;
	FloatPoint toPoint1;
	if (!m_fromSource->parseCurveToQuadraticSegment(fromPoint1, fromTargetPoint)
	\|\| !m_toSource->parseCurveToQuadraticSegment(toPoint1, toTargetPoint))
	return false;

	m_consumer->curveToQuadratic(blendAnimatedFloatPoint(fromPoint1, toPoint1),
	blendAnimatedFloatPoint(fromTargetPoint, toTargetPoint),
	m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
	m_fromCurrentPoint = m_fromMode == AbsoluteCoordinates ? fromTargetPoint : m_fromCurrentPoint + fromTargetPoint;
	m_toCurrentPoint = m_toMode == AbsoluteCoordinates ? toTargetPoint : m_toCurrentPoint + toTargetPoint;
	return true;
	}

	bool SVGPathBlender::blendCurveToQuadraticSmoothSegment()
	{
	FloatPoint fromTargetPoint;
	FloatPoint toTargetPoint;
	if (!m_fromSource->parseCurveToQuadraticSmoothSegment(fromTargetPoint)
	\|\| !m_toSource->parseCurveToQuadraticSmoothSegment(toTargetPoint))
	return false;

	m_consumer->curveToQuadraticSmooth(blendAnimatedFloatPoint(fromTargetPoint, toTargetPoint), m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
	m_fromCurrentPoint = m_fromMode == AbsoluteCoordinates ? fromTargetPoint : m_fromCurrentPoint + fromTargetPoint;
	m_toCurrentPoint = m_toMode == AbsoluteCoordinates ? toTargetPoint : m_toCurrentPoint + toTargetPoint;
	return true;
	}

	bool SVGPathBlender::blendArcToSegment()
	{
	float fromRx;
	float fromRy;
	float fromAngle;
	bool fromLargeArc;
	bool fromSweep;
	FloatPoint fromTargetPoint;
	float toRx;
	float toRy;
	float toAngle;
	bool toLargeArc;
	bool toSweep;
	FloatPoint toTargetPoint;
	if (!m_fromSource->parseArcToSegment(fromRx, fromRy, fromAngle, fromLargeArc, fromSweep, fromTargetPoint)
	\|\| !m_toSource->parseArcToSegment(toRx, toRy, toAngle, toLargeArc, toSweep, toTargetPoint))
	return false;

	m_consumer->arcTo(blendAnimatedFloat(fromRx, toRx, m_progress),
	blendAnimatedFloat(fromRy, toRy, m_progress),
	blendAnimatedFloat(fromAngle, toAngle, m_progress),
	m_isInFirstHalfOfAnimation ? fromLargeArc : toLargeArc,
	m_isInFirstHalfOfAnimation ? fromSweep : toSweep,
	blendAnimatedFloatPoint(fromTargetPoint, toTargetPoint),
	m_isInFirstHalfOfAnimation ? m_fromMode : m_toMode);
	m_fromCurrentPoint = m_fromMode == AbsoluteCoordinates ? fromTargetPoint : m_fromCurrentPoint + fromTargetPoint;
	m_toCurrentPoint = m_toMode == AbsoluteCoordinates ? toTargetPoint : m_toCurrentPoint + toTargetPoint;
	return true;
	}

	static inline PathCoordinateMode coordinateModeOfCommand(const SVGPathSegType& type)
	{
	if (type < PathSegMoveToAbs)
	return AbsoluteCoordinates;

	// Odd number = relative command
	if (type % 2)
	return RelativeCoordinates;

	return AbsoluteCoordinates;
	}

	static inline bool isSegmentEqual(const SVGPathSegType& fromType, const SVGPathSegType& toType, const PathCoordinateMode& fromMode, const PathCoordinateMode& toMode)
	{
	if (fromType == toType && (fromType == PathSegUnknown \|\| fromType == PathSegClosePath))
	return true;

	unsigned short from = fromType;
	unsigned short to = toType;
	if (fromMode == toMode)
	return from == to;
	if (fromMode == AbsoluteCoordinates)
	return from == to - 1;
	return to == from - 1;
	}

	bool SVGPathBlender::blendAnimatedPath(float progress, SVGPathSource* fromSource, SVGPathSource* toSource, SVGPathConsumer* consumer)
	{
	ASSERT(fromSource);
	ASSERT(toSource);
	ASSERT(consumer);
	m_fromSource = fromSource;
	m_toSource = toSource;
	m_consumer = consumer;
	m_isInFirstHalfOfAnimation = progress < 0.5f;

	m_progress = progress;
	while (true) {
	SVGPathSegType fromCommand;
	SVGPathSegType toCommand;
	if (!m_fromSource->parseSVGSegmentType(fromCommand) \|\| !m_toSource->parseSVGSegmentType(toCommand))
	return false;

	m_fromMode = coordinateModeOfCommand(fromCommand);
	m_toMode = coordinateModeOfCommand(toCommand);
	if (!isSegmentEqual(fromCommand, toCommand, m_fromMode, m_toMode))
	return false;

	switch (fromCommand) {
	case PathSegMoveToRel:
	case PathSegMoveToAbs:
	if (!blendMoveToSegment())
	return false;
	break;
	case PathSegLineToRel:
	case PathSegLineToAbs:
	if (!blendLineToSegment())
	return false;
	break;
	case PathSegLineToHorizontalRel:
	case PathSegLineToHorizontalAbs:
	if (!blendLineToHorizontalSegment())
	return false;
	break;
	case PathSegLineToVerticalRel:
	case PathSegLineToVerticalAbs:
	if (!blendLineToVerticalSegment())
	return false;
	break;
	case PathSegClosePath:
	m_consumer->closePath();
	break;
	case PathSegCurveToCubicRel:
	case PathSegCurveToCubicAbs:
	if (!blendCurveToCubicSegment())
	return false;
	break;
	case PathSegCurveToCubicSmoothRel:
	case PathSegCurveToCubicSmoothAbs:
	if (!blendCurveToCubicSmoothSegment())
	return false;
	break;
	case PathSegCurveToQuadraticRel:
	case PathSegCurveToQuadraticAbs:
	if (!blendCurveToQuadraticSegment())
	return false;
	break;
	case PathSegCurveToQuadraticSmoothRel:
	case PathSegCurveToQuadraticSmoothAbs:
	if (!blendCurveToQuadraticSmoothSegment())
	return false;
	break;
	case PathSegArcRel:
	case PathSegArcAbs:
	if (!blendArcToSegment())
	return false;
	break;
	default:
	return false;
	}
	if (m_fromSource->hasMoreData() != m_toSource->hasMoreData())
	return false;
	if (!m_fromSource->hasMoreData() \|\| !m_toSource->hasMoreData())
	break;
	}
	return true;
	}

	void SVGPathBlender::cleanup()
	{
	ASSERT(m_toSource);
	ASSERT(m_fromSource);
	ASSERT(m_consumer);

	m_consumer->cleanup();
	m_toSource = 0;
	m_fromSource = 0;
	m_consumer = 0;
	m_fromCurrentPoint = FloatPoint();
	m_toCurrentPoint = FloatPoint();
	}

	}

	#endif // ENABLE(SVG)