Source/core/animation/TimedItemCalculationsTest.cpp - platform/external/chromium_org/third_party/WebKit - Git at Google

 /*
  * Copyright (c) 2013, Google Inc. All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions are
  * met:
  *
  *     * Redistributions of source code must retain the above copyright
  * notice, this list of conditions and the following disclaimer.
  *     * Redistributions in binary form must reproduce the above
  * copyright notice, this list of conditions and the following disclaimer
  * in the documentation and/or other materials provided with the
  * distribution.
  *     * Neither the name of Google Inc. nor the names of its
  * contributors may be used to endorse or promote products derived from
  * this software without specific prior written permission.
  *
  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
  * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
  * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
  * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
  * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
  * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
  * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 #include "config.h"
 #include "core/animation/TimedItemCalculations.h"

 #include <gtest/gtest.h>

 using namespace WebCore;

 namespace {

 TEST(AnimationTimedItemCalculationsTest, ActiveTime)
 {
     Timing timing;

     // calculateActiveTime(activeDuration, localTime, startTime)

     // Before Phase
     timing.startDelay = 10;
     timing.fillMode = Timing::FillModeForwards;
     ASSERT_TRUE(isNull(calculateActiveTime(20, 0, TimedItem::PhaseActive, TimedItem::PhaseBefore, timing)));
     timing.fillMode = Timing::FillModeNone;
     ASSERT_TRUE(isNull(calculateActiveTime(20, 0, TimedItem::PhaseActive, TimedItem::PhaseBefore, timing)));
     timing.fillMode = Timing::FillModeBackwards;
     ASSERT_EQ(0, calculateActiveTime(20, 0, TimedItem::PhaseActive, TimedItem::PhaseBefore, timing));
     timing.fillMode = Timing::FillModeBoth;
     ASSERT_EQ(0, calculateActiveTime(20, 0, TimedItem::PhaseActive, TimedItem::PhaseBefore, timing));

     // Active Phase
     timing.startDelay = 10;
     // Active, and parent Before
     timing.fillMode = Timing::FillModeNone;
     ASSERT_TRUE(isNull(calculateActiveTime(20, 15, TimedItem::PhaseBefore, TimedItem::PhaseActive, timing)));
     timing.fillMode = Timing::FillModeForwards;
     ASSERT_TRUE(isNull(calculateActiveTime(20, 15, TimedItem::PhaseBefore, TimedItem::PhaseActive, timing)));
     // Active, and parent After
     timing.fillMode = Timing::FillModeNone;
     ASSERT_TRUE(isNull(calculateActiveTime(20, 15, TimedItem::PhaseAfter, TimedItem::PhaseActive, timing)));
     timing.fillMode = Timing::FillModeBackwards;
     ASSERT_TRUE(isNull(calculateActiveTime(20, 15, TimedItem::PhaseAfter, TimedItem::PhaseActive, timing)));
     // Active, and parent Active
     timing.fillMode = Timing::FillModeForwards;
     ASSERT_EQ(5, calculateActiveTime(20, 15, TimedItem::PhaseActive, TimedItem::PhaseActive, timing));

     // After Phase
     timing.startDelay = 10;
     timing.fillMode = Timing::FillModeForwards;
     ASSERT_EQ(21, calculateActiveTime(21, 45, TimedItem::PhaseActive, TimedItem::PhaseAfter, timing));
     timing.fillMode = Timing::FillModeBoth;
     ASSERT_EQ(21, calculateActiveTime(21, 45, TimedItem::PhaseActive, TimedItem::PhaseAfter, timing));
     timing.fillMode = Timing::FillModeBackwards;
     ASSERT_TRUE(isNull(calculateActiveTime(21, 45, TimedItem::PhaseActive, TimedItem::PhaseAfter, timing)));
     timing.fillMode = Timing::FillModeNone;
     ASSERT_TRUE(isNull(calculateActiveTime(21, 45, TimedItem::PhaseActive, TimedItem::PhaseAfter, timing)));

     // None
     ASSERT_TRUE(isNull(calculateActiveTime(32, nullValue(), TimedItem::PhaseNone, TimedItem::PhaseNone, timing)));
 }

 TEST(AnimationTimedItemCalculationsTest, ScaledActiveTime)
 {
     Timing timing;

     // calculateScaledActiveTime(activeDuration, activeTime, startOffset)

     // if the active time is null
     ASSERT_TRUE(isNull(calculateScaledActiveTime(4, nullValue(), 5, timing)));

     // if the playback rate is negative
     timing.playbackRate = -1;
     ASSERT_EQ(35, calculateScaledActiveTime(40, 10, 5, timing));

     // otherwise
     timing.playbackRate = 0;
     ASSERT_EQ(5, calculateScaledActiveTime(40, 10, 5, timing));
     timing.playbackRate = 1;
     ASSERT_EQ(15, calculateScaledActiveTime(40, 10, 5, timing));
 }

 TEST(AnimationTimedItemCalculationsTest, IterationTime)
 {
     Timing timing;

     // calculateIterationTime(iterationDuration, repeatedDuration, scaledActiveTime, startOffset)

     // if the scaled active time is null
     ASSERT_TRUE(isNull(calculateIterationTime(1, 1, nullValue(), 1, timing)));

     // if (complex-conditions)...
     ASSERT_EQ(12, calculateIterationTime(12, 12, 12, 0, timing));

     // otherwise
     timing.iterationCount = 10;
     ASSERT_EQ(5, calculateIterationTime(10, 100, 25, 4, timing));
     ASSERT_EQ(7, calculateIterationTime(11, 110, 29, 1, timing));
     timing.iterationStart = 1.1;
     ASSERT_EQ(8, calculateIterationTime(12, 120, 20, 7, timing));
 }

 TEST(AnimationTimedItemCalculationsTest, CurrentIteration)
 {
     Timing timing;

     // calculateCurrentIteration(iterationDuration, iterationTime, scaledActiveTime)

     // if the scaled active time is null
     ASSERT_TRUE(isNull(calculateCurrentIteration(1, 1, nullValue(), timing)));

     // if the scaled active time is zero
     ASSERT_EQ(0, calculateCurrentIteration(1, 1, 0, timing));

     // if the iteration time equals the iteration duration
     timing.iterationStart = 4;
     timing.iterationCount = 7;
     ASSERT_EQ(10, calculateCurrentIteration(5, 5, 9, timing));

     // otherwise
     ASSERT_EQ(3, calculateCurrentIteration(3.2, 3.1, 10, timing));
 }

 TEST(AnimationTimedItemCalculationsTest, DirectedTime)
 {
     Timing timing;

     // calculateDirectedTime(currentIteration, iterationDuration, iterationTime)

     // if the iteration time is null
     ASSERT_TRUE(isNull(calculateDirectedTime(1, 2, nullValue(), timing)));

     // forwards
     ASSERT_EQ(17, calculateDirectedTime(0, 20, 17, timing));
     ASSERT_EQ(17, calculateDirectedTime(1, 20, 17, timing));
     timing.direction = Timing::PlaybackDirectionAlternate;
     ASSERT_EQ(17, calculateDirectedTime(0, 20, 17, timing));
     ASSERT_EQ(17, calculateDirectedTime(2, 20, 17, timing));
     timing.direction = Timing::PlaybackDirectionAlternateReverse;
     ASSERT_EQ(17, calculateDirectedTime(1, 20, 17, timing));
     ASSERT_EQ(17, calculateDirectedTime(3, 20, 17, timing));

     // reverse
     timing.direction = Timing::PlaybackDirectionReverse;
     ASSERT_EQ(3, calculateDirectedTime(0, 20, 17, timing));
     ASSERT_EQ(3, calculateDirectedTime(1, 20, 17, timing));
     timing.direction = Timing::PlaybackDirectionAlternate;
     ASSERT_EQ(3, calculateDirectedTime(1, 20, 17, timing));
     ASSERT_EQ(3, calculateDirectedTime(3, 20, 17, timing));
     timing.direction = Timing::PlaybackDirectionAlternateReverse;
     ASSERT_EQ(3, calculateDirectedTime(0, 20, 17, timing));
     ASSERT_EQ(3, calculateDirectedTime(2, 20, 17, timing));
 }

 TEST(AnimationTimedItemCalculationsTest, TransformedTime)
 {
     Timing timing;

     // calculateTransformedTime(currentIteration, iterationDuration, iterationTime)

     // Iteration time is null
     ASSERT_TRUE(isNull(calculateTransformedTime(1, 2, nullValue(), timing)));

     // PlaybackDirectionForwards
     ASSERT_EQ(12, calculateTransformedTime(0, 20, 12, timing));
     ASSERT_EQ(12, calculateTransformedTime(1, 20, 12, timing));

     // PlaybackDirectionForwards with timing function
     timing.timingFunction = StepsTimingFunction::create(4, false /* stepAtStart */);
     ASSERT_EQ(10, calculateTransformedTime(0, 20, 12, timing));
     ASSERT_EQ(10, calculateTransformedTime(1, 20, 12, timing));

     // PlaybackDirectionReverse
     timing.timingFunction = 0;
     timing.direction = Timing::PlaybackDirectionReverse;
     ASSERT_EQ(8, calculateTransformedTime(0, 20, 12, timing));
     ASSERT_EQ(8, calculateTransformedTime(1, 20, 12, timing));

     // PlaybackDirectionReverse with timing function
     timing.timingFunction = StepsTimingFunction::create(4, false /* stepAtStart */);
     ASSERT_EQ(5, calculateTransformedTime(0, 20, 12, timing));
     ASSERT_EQ(5, calculateTransformedTime(1, 20, 12, timing));

     // Timing function when directed time is null.
     ASSERT_TRUE(isNull(calculateTransformedTime(1, 2, nullValue(), timing)));
 }

 }
	/*
	* Copyright (c) 2013, Google Inc. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions are
	* met:
	*
	* * Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* * Redistributions in binary form must reproduce the above
	* copyright notice, this list of conditions and the following disclaimer
	* in the documentation and/or other materials provided with the
	* distribution.
	* * Neither the name of Google Inc. nor the names of its
	* contributors may be used to endorse or promote products derived from
	* this software without specific prior written permission.
	*
	* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#include "config.h"
	#include "core/animation/TimedItemCalculations.h"

	#include <gtest/gtest.h>

	using namespace WebCore;

	namespace {

	TEST(AnimationTimedItemCalculationsTest, ActiveTime)
	{
	Timing timing;

	// calculateActiveTime(activeDuration, localTime, startTime)

	// Before Phase
	timing.startDelay = 10;
	timing.fillMode = Timing::FillModeForwards;
	ASSERT_TRUE(isNull(calculateActiveTime(20, 0, TimedItem::PhaseActive, TimedItem::PhaseBefore, timing)));
	timing.fillMode = Timing::FillModeNone;
	ASSERT_TRUE(isNull(calculateActiveTime(20, 0, TimedItem::PhaseActive, TimedItem::PhaseBefore, timing)));
	timing.fillMode = Timing::FillModeBackwards;
	ASSERT_EQ(0, calculateActiveTime(20, 0, TimedItem::PhaseActive, TimedItem::PhaseBefore, timing));
	timing.fillMode = Timing::FillModeBoth;
	ASSERT_EQ(0, calculateActiveTime(20, 0, TimedItem::PhaseActive, TimedItem::PhaseBefore, timing));

	// Active Phase
	timing.startDelay = 10;
	// Active, and parent Before
	timing.fillMode = Timing::FillModeNone;
	ASSERT_TRUE(isNull(calculateActiveTime(20, 15, TimedItem::PhaseBefore, TimedItem::PhaseActive, timing)));
	timing.fillMode = Timing::FillModeForwards;
	ASSERT_TRUE(isNull(calculateActiveTime(20, 15, TimedItem::PhaseBefore, TimedItem::PhaseActive, timing)));
	// Active, and parent After
	timing.fillMode = Timing::FillModeNone;
	ASSERT_TRUE(isNull(calculateActiveTime(20, 15, TimedItem::PhaseAfter, TimedItem::PhaseActive, timing)));
	timing.fillMode = Timing::FillModeBackwards;
	ASSERT_TRUE(isNull(calculateActiveTime(20, 15, TimedItem::PhaseAfter, TimedItem::PhaseActive, timing)));
	// Active, and parent Active
	timing.fillMode = Timing::FillModeForwards;
	ASSERT_EQ(5, calculateActiveTime(20, 15, TimedItem::PhaseActive, TimedItem::PhaseActive, timing));

	// After Phase
	timing.startDelay = 10;
	timing.fillMode = Timing::FillModeForwards;
	ASSERT_EQ(21, calculateActiveTime(21, 45, TimedItem::PhaseActive, TimedItem::PhaseAfter, timing));
	timing.fillMode = Timing::FillModeBoth;
	ASSERT_EQ(21, calculateActiveTime(21, 45, TimedItem::PhaseActive, TimedItem::PhaseAfter, timing));
	timing.fillMode = Timing::FillModeBackwards;
	ASSERT_TRUE(isNull(calculateActiveTime(21, 45, TimedItem::PhaseActive, TimedItem::PhaseAfter, timing)));
	timing.fillMode = Timing::FillModeNone;
	ASSERT_TRUE(isNull(calculateActiveTime(21, 45, TimedItem::PhaseActive, TimedItem::PhaseAfter, timing)));

	// None
	ASSERT_TRUE(isNull(calculateActiveTime(32, nullValue(), TimedItem::PhaseNone, TimedItem::PhaseNone, timing)));
	}

	TEST(AnimationTimedItemCalculationsTest, ScaledActiveTime)
	{
	Timing timing;

	// calculateScaledActiveTime(activeDuration, activeTime, startOffset)

	// if the active time is null
	ASSERT_TRUE(isNull(calculateScaledActiveTime(4, nullValue(), 5, timing)));

	// if the playback rate is negative
	timing.playbackRate = -1;
	ASSERT_EQ(35, calculateScaledActiveTime(40, 10, 5, timing));

	// otherwise
	timing.playbackRate = 0;
	ASSERT_EQ(5, calculateScaledActiveTime(40, 10, 5, timing));
	timing.playbackRate = 1;
	ASSERT_EQ(15, calculateScaledActiveTime(40, 10, 5, timing));
	}

	TEST(AnimationTimedItemCalculationsTest, IterationTime)
	{
	Timing timing;

	// calculateIterationTime(iterationDuration, repeatedDuration, scaledActiveTime, startOffset)

	// if the scaled active time is null
	ASSERT_TRUE(isNull(calculateIterationTime(1, 1, nullValue(), 1, timing)));

	// if (complex-conditions)...
	ASSERT_EQ(12, calculateIterationTime(12, 12, 12, 0, timing));

	// otherwise
	timing.iterationCount = 10;
	ASSERT_EQ(5, calculateIterationTime(10, 100, 25, 4, timing));
	ASSERT_EQ(7, calculateIterationTime(11, 110, 29, 1, timing));
	timing.iterationStart = 1.1;
	ASSERT_EQ(8, calculateIterationTime(12, 120, 20, 7, timing));
	}

	TEST(AnimationTimedItemCalculationsTest, CurrentIteration)
	{
	Timing timing;

	// calculateCurrentIteration(iterationDuration, iterationTime, scaledActiveTime)

	// if the scaled active time is null
	ASSERT_TRUE(isNull(calculateCurrentIteration(1, 1, nullValue(), timing)));

	// if the scaled active time is zero
	ASSERT_EQ(0, calculateCurrentIteration(1, 1, 0, timing));

	// if the iteration time equals the iteration duration
	timing.iterationStart = 4;
	timing.iterationCount = 7;
	ASSERT_EQ(10, calculateCurrentIteration(5, 5, 9, timing));

	// otherwise
	ASSERT_EQ(3, calculateCurrentIteration(3.2, 3.1, 10, timing));
	}

	TEST(AnimationTimedItemCalculationsTest, DirectedTime)
	{
	Timing timing;

	// calculateDirectedTime(currentIteration, iterationDuration, iterationTime)

	// if the iteration time is null
	ASSERT_TRUE(isNull(calculateDirectedTime(1, 2, nullValue(), timing)));

	// forwards
	ASSERT_EQ(17, calculateDirectedTime(0, 20, 17, timing));
	ASSERT_EQ(17, calculateDirectedTime(1, 20, 17, timing));
	timing.direction = Timing::PlaybackDirectionAlternate;
	ASSERT_EQ(17, calculateDirectedTime(0, 20, 17, timing));
	ASSERT_EQ(17, calculateDirectedTime(2, 20, 17, timing));
	timing.direction = Timing::PlaybackDirectionAlternateReverse;
	ASSERT_EQ(17, calculateDirectedTime(1, 20, 17, timing));
	ASSERT_EQ(17, calculateDirectedTime(3, 20, 17, timing));

	// reverse
	timing.direction = Timing::PlaybackDirectionReverse;
	ASSERT_EQ(3, calculateDirectedTime(0, 20, 17, timing));
	ASSERT_EQ(3, calculateDirectedTime(1, 20, 17, timing));
	timing.direction = Timing::PlaybackDirectionAlternate;
	ASSERT_EQ(3, calculateDirectedTime(1, 20, 17, timing));
	ASSERT_EQ(3, calculateDirectedTime(3, 20, 17, timing));
	timing.direction = Timing::PlaybackDirectionAlternateReverse;
	ASSERT_EQ(3, calculateDirectedTime(0, 20, 17, timing));
	ASSERT_EQ(3, calculateDirectedTime(2, 20, 17, timing));
	}

	TEST(AnimationTimedItemCalculationsTest, TransformedTime)
	{
	Timing timing;

	// calculateTransformedTime(currentIteration, iterationDuration, iterationTime)

	// Iteration time is null
	ASSERT_TRUE(isNull(calculateTransformedTime(1, 2, nullValue(), timing)));

	// PlaybackDirectionForwards
	ASSERT_EQ(12, calculateTransformedTime(0, 20, 12, timing));
	ASSERT_EQ(12, calculateTransformedTime(1, 20, 12, timing));

	// PlaybackDirectionForwards with timing function
	timing.timingFunction = StepsTimingFunction::create(4, false /* stepAtStart */);
	ASSERT_EQ(10, calculateTransformedTime(0, 20, 12, timing));
	ASSERT_EQ(10, calculateTransformedTime(1, 20, 12, timing));

	// PlaybackDirectionReverse
	timing.timingFunction = 0;
	timing.direction = Timing::PlaybackDirectionReverse;
	ASSERT_EQ(8, calculateTransformedTime(0, 20, 12, timing));
	ASSERT_EQ(8, calculateTransformedTime(1, 20, 12, timing));

	// PlaybackDirectionReverse with timing function
	timing.timingFunction = StepsTimingFunction::create(4, false /* stepAtStart */);
	ASSERT_EQ(5, calculateTransformedTime(0, 20, 12, timing));
	ASSERT_EQ(5, calculateTransformedTime(1, 20, 12, timing));

	// Timing function when directed time is null.
	ASSERT_TRUE(isNull(calculateTransformedTime(1, 2, nullValue(), timing)));
	}

	}