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modules/graphics/src/test/java/test/javafx/animation/TransitionTest.java
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@@ -1,7 +1,7 @@
/*
- * Copyright (c) 2011, 2015, Oracle and/or its affiliates. All rights reserved.
+ * Copyright (c) 2011, 2016, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
@@ -91,131 +91,131 @@
assertNull(transition.getParentTargetNode());
}
@Test
public void testStart() {
- transition.impl_start(true);
+ transition.doStart(true);
transition.setInterpolator(Interpolator.DISCRETE);
assertEquals(DEFAULT_INTERPOLATOR, transition.getCachedInterpolator());
transition.shim_impl_finished();
- transition.impl_start(true);
+ transition.doStart(true);
assertEquals(Interpolator.DISCRETE, transition.getCachedInterpolator());
transition.shim_impl_finished();
}
@Test
public void testPlayTo() {
- assertTrue(transition.impl_startable(true));
+ assertTrue(transition.startable(true));
// normal play with linear interpolator
transition.setInterpolator(Interpolator.LINEAR);
- transition.impl_start(true);
- transition.impl_playTo(0, 2);
+ transition.doStart(true);
+ transition.doPlayTo(0, 2);
assertEquals(0.0, transition.frac, EPSILON);
- transition.impl_playTo(1, 2);
+ transition.doPlayTo(1, 2);
assertEquals(0.5, transition.frac, EPSILON);
- transition.impl_playTo(2, 2);
+ transition.doPlayTo(2, 2);
assertEquals(1.0, transition.frac, EPSILON);
transition.shim_impl_finished();
// normal play with discrete interpolator
transition.setInterpolator(Interpolator.DISCRETE);
- transition.impl_start(true);
- transition.impl_playTo(0, 2);
+ transition.doStart(true);
+ transition.doPlayTo(0, 2);
assertEquals(0.0, transition.frac, EPSILON);
- transition.impl_playTo(1, 2);
+ transition.doPlayTo(1, 2);
assertEquals(0.0, transition.frac, EPSILON);
- transition.impl_playTo(2, 2);
+ transition.doPlayTo(2, 2);
assertEquals(1.0, transition.frac, EPSILON);
transition.shim_impl_finished();
}
@Test
public void testJumpTo() {
// not running
- transition.impl_jumpTo(0, 2, false);
+ transition.doJumpTo(0, 2, false);
assertEquals(0.0, transition.frac, EPSILON);
- transition.impl_jumpTo(1, 2, false);
+ transition.doJumpTo(1, 2, false);
assertEquals(0.0, transition.frac, EPSILON);
- transition.impl_jumpTo(2, 2, false);
+ transition.doJumpTo(2, 2, false);
assertEquals(0.0, transition.frac, EPSILON);
// running with linear interpolator
transition.setInterpolator(Interpolator.LINEAR);
- assertTrue(transition.impl_startable(true));
- transition.impl_start(true);
- transition.impl_jumpTo(0, 2, false);
+ assertTrue(transition.startable(true));
+ transition.doStart(true);
+ transition.doJumpTo(0, 2, false);
assertEquals(0.0, transition.frac, EPSILON);
- transition.impl_jumpTo(1, 2, false);
+ transition.doJumpTo(1, 2, false);
assertEquals(0.5, transition.frac, EPSILON);
- transition.impl_jumpTo(2, 2, false);
+ transition.doJumpTo(2, 2, false);
assertEquals(1.0, transition.frac, EPSILON);
// paused with linear interpolator
- transition.impl_pause();
- transition.impl_jumpTo(0, 2, false);
+ transition.doPause();
+ transition.doJumpTo(0, 2, false);
assertEquals(0.0, transition.frac, EPSILON);
- transition.impl_jumpTo(1, 2, false);
+ transition.doJumpTo(1, 2, false);
assertEquals(0.5, transition.frac, EPSILON);
- transition.impl_jumpTo(2, 2, false);
+ transition.doJumpTo(2, 2, false);
assertEquals(1.0, transition.frac, EPSILON);
transition.shim_impl_finished();
// running with discrete interpolator
transition.setInterpolator(Interpolator.DISCRETE);
- assertTrue(transition.impl_startable(true));
- transition.impl_start(true);
- transition.impl_jumpTo(0, 2, false);
+ assertTrue(transition.startable(true));
+ transition.doStart(true);
+ transition.doJumpTo(0, 2, false);
assertEquals(0.0, transition.frac, EPSILON);
- transition.impl_jumpTo(1, 2, false);
+ transition.doJumpTo(1, 2, false);
assertEquals(0.0, transition.frac, EPSILON);
- transition.impl_jumpTo(2, 2, false);
+ transition.doJumpTo(2, 2, false);
assertEquals(1.0, transition.frac, EPSILON);
// paused with discrete interpolator
- transition.impl_pause();
- transition.impl_jumpTo(0, 2, false);
+ transition.doPause();
+ transition.doJumpTo(0, 2, false);
assertEquals(0.0, transition.frac, EPSILON);
- transition.impl_jumpTo(1, 2, false);
+ transition.doJumpTo(1, 2, false);
assertEquals(0.0, transition.frac, EPSILON);
- transition.impl_jumpTo(2, 2, false);
+ transition.doJumpTo(2, 2, false);
assertEquals(1.0, transition.frac, EPSILON);
transition.shim_impl_finished();
}
@Test
public void testForcedJumpTo() {
transition.setInterpolator(Interpolator.LINEAR);
// not running
- transition.impl_jumpTo(0, 2, true);
+ transition.doJumpTo(0, 2, true);
assertEquals(0.0, transition.frac, EPSILON);
- transition.impl_jumpTo(1, 2, true);
+ transition.doJumpTo(1, 2, true);
assertEquals(0.5, transition.frac, EPSILON);
- transition.impl_jumpTo(2, 2, true);
+ transition.doJumpTo(2, 2, true);
assertEquals(1.0, transition.frac, EPSILON);
// running with linear interpolator
- assertTrue(transition.impl_startable(true));
- transition.impl_start(true);
- transition.impl_jumpTo(0, 2, true);
+ assertTrue(transition.startable(true));
+ transition.doStart(true);
+ transition.doJumpTo(0, 2, true);
assertEquals(0.0, transition.frac, EPSILON);
- transition.impl_jumpTo(1, 2, true);
+ transition.doJumpTo(1, 2, true);
assertEquals(0.5, transition.frac, EPSILON);
- transition.impl_jumpTo(2, 2, true);
+ transition.doJumpTo(2, 2, true);
assertEquals(1.0, transition.frac, EPSILON);
// paused with linear interpolator
- transition.impl_pause();
- transition.impl_jumpTo(0, 2, true);
+ transition.doPause();
+ transition.doJumpTo(0, 2, true);
assertEquals(0.0, transition.frac, EPSILON);
- transition.impl_jumpTo(1, 2, true);
+ transition.doJumpTo(1, 2, true);
assertEquals(0.5, transition.frac, EPSILON);
- transition.impl_jumpTo(2, 2, true);
+ transition.doJumpTo(2, 2, true);
assertEquals(1.0, transition.frac, EPSILON);
transition.shim_impl_finished();
}
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