ui/gfx/interpolated_transform.cc - Issue 7262024: Interpolated transforms

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Issue 7262024: Interpolated transforms (Closed) Base URL: http://git.chromium.org/git/chromium.git@trunk

Patch Set: Formatting fixes; more comments. Created 9 years, 5 months ago

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	1 // Copyright (c) 2011 The Chromium Authors. All rights reserved.

	2 // Use of this source code is governed by a BSD-style license that can be

	3 // found in the LICENSE file.

	4

	5 #include "ui/gfx/interpolated_transform.h"

	6

	7 #include "base/logging.h"

	8 #include "ui/base/animation/tween.h"

	9

	10 namespace ui {

	11

	12 ///////////////////////////////////////////////////////////////////////////////

	13 // InterpolatedTransform

	14 //

	15

	16 InterpolatedTransform::InterpolatedTransform()

	17 : start_time_(0.0f),

	18 end_time_(1.0f) {

	19 }

	20

	21 InterpolatedTransform::InterpolatedTransform(float start_time,

	22 float end_time)

	23 : start_time_(start_time),

	24 end_time_(end_time) {

	25 }

	26

	27 InterpolatedTransform::~InterpolatedTransform() {}

	28

	29 ui::Transform InterpolatedTransform::Interpolate(float t) const {

	30 ui::Transform result = InterpolateButDoNotCompose(t);

	31 if (child_.get()) {

	32 result.ConcatTransform(child_->Interpolate(t));

	33 }

	34 return result;

	35 }

	36

	37 void InterpolatedTransform::SetChild(InterpolatedTransform* child) {

	38 child_.reset(child);

	39 }

	40

	41 inline float InterpolatedTransform::ValueBetween(float time,

	42 float start_value,

	43 float end_value) const {

	44 // can't handle NaN

	45 DCHECK(time == time && start_time_ == start_time_ && end_time_ == end_time_);

	46 if (time != time \|\| start_time_ != start_time_ \|\| end_time_ != end_time_)

	47 return start_value;

	48

	49 // Ok if equal -- we'll get a step function. Note: if end_time_ ==

	50 // start_time_ == x, then if none of the numbers are NaN, then it

	51 // must be true that time < x or time >= x, so we will return early

	52 // due to one of the following if statements.

	53 DCHECK(end_time_ >= start_time_);

	54

	55 if (time < start_time_)

	56 return start_value;

	57

	58 if (time >= end_time_)

	59 return end_value;

	60

	61 float t = (time - start_time_) / (end_time_ - start_time_);

	62 return static_cast<float>(Tween::ValueBetween(t, start_value, end_value));

	63 }

	64

	65 ///////////////////////////////////////////////////////////////////////////////

	66 // InterpolatedRotation

	67 //

	68

	69 InterpolatedRotation::InterpolatedRotation(float start_degrees,

	70 float end_degrees)

	71 : InterpolatedTransform(),

	72 start_degrees_(start_degrees),

	73 end_degrees_(end_degrees) {

	74 }

	75

	76 InterpolatedRotation::InterpolatedRotation(float start_degrees,

	77 float end_degrees,

	78 float start_time,

	79 float end_time)

	80 : InterpolatedTransform(start_time, end_time),

	81 start_degrees_(start_degrees),

	82 end_degrees_(end_degrees) {

	83 }

	84

	85 InterpolatedRotation::~InterpolatedRotation() {}

	86

	87 ui::Transform InterpolatedRotation::InterpolateButDoNotCompose(float t) const {

	88 ui::Transform result;

	89 result.SetRotate(ValueBetween(t, start_degrees_, end_degrees_));

	90 return result;

	91 }

	92

	93 ///////////////////////////////////////////////////////////////////////////////

	94 // InterpolatedScale

	95 //

	96

	97 InterpolatedScale::InterpolatedScale(float start_scale,

	98 float end_scale)

	99 : InterpolatedTransform(),

	100 start_scale_(start_scale),

	101 end_scale_(end_scale) {

	102 }

	103

	104 InterpolatedScale::InterpolatedScale(float start_scale,

	105 float end_scale,

	106 float start_time,

	107 float end_time)

	108 : InterpolatedTransform(start_time, end_time),

	109 start_scale_(start_scale),

	110 end_scale_(end_scale) {

	111 }

	112

	113 InterpolatedScale::~InterpolatedScale() {}

	114

	115 ui::Transform InterpolatedScale::InterpolateButDoNotCompose(float t) const {

	116 ui::Transform result;

	117 float interpolated_scale = ValueBetween(t, start_scale_, end_scale_);

	118 //TODO(vollick) 3d xforms.

	119 result.SetScale(interpolated_scale, interpolated_scale);

	120 return result;

	121 }

	122

	123 ///////////////////////////////////////////////////////////////////////////////

	124 // InterpolatedTranslation

	125 //

	126

	127 InterpolatedTranslation::InterpolatedTranslation(const gfx::Point& start_pos,

	128 const gfx::Point& end_pos)

	129 : InterpolatedTransform(),

	130 start_pos_(start_pos),

	131 end_pos_(end_pos) {

	132 }

	133

	134 InterpolatedTranslation::InterpolatedTranslation(const gfx::Point& start_pos,

	135 const gfx::Point& end_pos,

	136 float start_time,

	137 float end_time)

	138 : InterpolatedTransform(start_time, end_time),

	139 start_pos_(start_pos),

	140 end_pos_(end_pos) {

	141 }

	142

	143 InterpolatedTranslation::~InterpolatedTranslation() {}

	144

	145 ui::Transform

	146 InterpolatedTranslation::InterpolateButDoNotCompose(float t) const {

	147 ui::Transform result;

	148 //TODO(vollick) 3d xforms.
	sky 2011/06/28 18:43:46 nit: '//TODO' -> '// TODO' nit: '//TODO' -> '// TODO'
	149 result.SetTranslate(ValueBetween(t, start_pos_.x(), end_pos_.x()),

	150 ValueBetween(t, start_pos_.y(), end_pos_.y()));

	151

	152 return result;

	153 }

	154

	155 ///////////////////////////////////////////////////////////////////////////////

	156 // InterpolatedConstantTransform

	157 //

	158

	159 InterpolatedConstantTransform::InterpolatedConstantTransform(

	160 const ui::Transform& transform)

	161 : InterpolatedTransform(),

	162 transform_(transform) {

	163 }

	164

	165 ui::Transform

	166 InterpolatedConstantTransform::InterpolateButDoNotCompose(float t) const {

	167 return transform_;

	168 }

	169

	170 InterpolatedConstantTransform::~InterpolatedConstantTransform() {}

	171

	172 ///////////////////////////////////////////////////////////////////////////////

	173 // InterpolatedTransformAboutPivot

	174 //

	175

	176 InterpolatedTransformAboutPivot::InterpolatedTransformAboutPivot(

	177 const gfx::Point& pivot,

	178 InterpolatedTransform* transform)

	179 : InterpolatedTransform() {

	180 Init(pivot, transform);

	181 }

	182

	183 InterpolatedTransformAboutPivot::InterpolatedTransformAboutPivot(

	184 const gfx::Point& pivot,

	185 InterpolatedTransform* transform,

	186 float start_time,

	187 float end_time)

	188 : InterpolatedTransform() {

	189 Init(pivot, transform);

	190 }

	191

	192 InterpolatedTransformAboutPivot::~InterpolatedTransformAboutPivot() {}

	193

	194 ui::Transform

	195 InterpolatedTransformAboutPivot::InterpolateButDoNotCompose(float t) const {

	196 if (transform_.get()) {

	197 return transform_->Interpolate(t);

	198 }

	199 return ui::Transform();

	200 }

	201

	202 void InterpolatedTransformAboutPivot::Init(const gfx::Point& pivot,

	203 InterpolatedTransform* xform) {

	204 ui::Transform to_pivot;

	205 ui::Transform from_pivot;

	206 to_pivot.SetTranslate(-pivot.x(), -pivot.y());

	207 from_pivot.SetTranslate(pivot.x(), pivot.y());

	208

	209 scoped_ptr<InterpolatedTransform> pre_transform(

	210 new InterpolatedConstantTransform(to_pivot));

	211 scoped_ptr<InterpolatedTransform> post_transform(

	212 new InterpolatedConstantTransform(from_pivot));

	213

	214 pre_transform->SetChild(xform);

	215 xform->SetChild(post_transform.release());

	216 transform_.reset(pre_transform.release());

	217 }

	218

	219 } // namespace ui

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