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Issue 11442020: optimize computing bounds by calling SkMatrix44::map2() (Closed) Base URL: svn://svn.chromium.org/chrome/trunk/src/
Patch Set: Created 8 years ago
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1 // Copyright 2012 The Chromium Authors. All rights reserved. 1 // Copyright 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be 2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file. 3 // found in the LICENSE file.
4 4
5 #include "cc/math_util.h" 5 #include "cc/math_util.h"
6 6
7 #include <cmath> 7 #include <cmath>
8 #include <limits> 8 #include <limits>
9 9
10 #include "ui/gfx/quad_f.h" 10 #include "ui/gfx/quad_f.h"
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102 102
103 gfx::Rect MathUtil::mapClippedRect(const gfx::Transform& transform, const gfx::R ect& srcRect) 103 gfx::Rect MathUtil::mapClippedRect(const gfx::Transform& transform, const gfx::R ect& srcRect)
104 { 104 {
105 return gfx::ToEnclosingRect(mapClippedRect(transform, gfx::RectF(srcRect))); 105 return gfx::ToEnclosingRect(mapClippedRect(transform, gfx::RectF(srcRect)));
106 } 106 }
107 107
108 gfx::RectF MathUtil::mapClippedRect(const gfx::Transform& transform, const gfx:: RectF& srcRect) 108 gfx::RectF MathUtil::mapClippedRect(const gfx::Transform& transform, const gfx:: RectF& srcRect)
109 { 109 {
110 if (transform.IsIdentityOrTranslation()) 110 if (transform.IsIdentityOrTranslation())
111 return srcRect + gfx::Vector2dF(static_cast<float>(transform.matrix().ge tDouble(0, 3)), static_cast<float>(transform.matrix().getDouble(1, 3))); 111 return srcRect + gfx::Vector2dF(static_cast<float>(transform.matrix().ge tDouble(0, 3)), static_cast<float>(transform.matrix().getDouble(1, 3)));
112
113 // Apply the transform, but retain the result in homogeneous coordinates.
112 114
113 // Apply the transform, but retain the result in homogeneous coordinates. 115 double quad[4 * 2]; // input: 4 x 2D points
114 gfx::QuadF q = gfx::QuadF(srcRect); 116 quad[0] = srcRect.x(); quad[1] = srcRect.y();
115 HomogeneousCoordinate h1 = mapHomogeneousPoint(transform, gfx::Point3F(q.p1( ))); 117 quad[2] = srcRect.right(); quad[3] = srcRect.y();
116 HomogeneousCoordinate h2 = mapHomogeneousPoint(transform, gfx::Point3F(q.p2( ))); 118 quad[4] = srcRect.x(); quad[5] = srcRect.bottom();
117 HomogeneousCoordinate h3 = mapHomogeneousPoint(transform, gfx::Point3F(q.p3( ))); 119 quad[6] = srcRect.right(); quad[7] = srcRect.bottom();
118 HomogeneousCoordinate h4 = mapHomogeneousPoint(transform, gfx::Point3F(q.p4( )));
119 120
120 return computeEnclosingClippedRect(h1, h2, h3, h4); 121 double result[4 * 4]; // output: 4 x 4D homogeneous points
122 transform.matrix().map2(quad, 4, result);
123
124 return computeEnclosingClippedRect(*reinterpret_cast<HomogeneousCoordinate*> (&result[0]),
danakj 2012/12/07 16:31:55 Can we do this without casting please?
125 *reinterpret_cast<HomogeneousCoordinate*> (&result[4]),
126 *reinterpret_cast<HomogeneousCoordinate*> (&result[8]),
127 *reinterpret_cast<HomogeneousCoordinate*> (&result[12]));
121 } 128 }
122 129
123 gfx::RectF MathUtil::projectClippedRect(const gfx::Transform& transform, const g fx::RectF& srcRect) 130 gfx::RectF MathUtil::projectClippedRect(const gfx::Transform& transform, const g fx::RectF& srcRect)
124 { 131 {
125 if (transform.IsIdentityOrTranslation()) 132 if (transform.IsIdentityOrTranslation())
126 return srcRect + gfx::Vector2dF(static_cast<float>(transform.matrix().ge tDouble(0, 3)), static_cast<float>(transform.matrix().getDouble(1, 3))); 133 return srcRect + gfx::Vector2dF(static_cast<float>(transform.matrix().ge tDouble(0, 3)), static_cast<float>(transform.matrix().getDouble(1, 3)));
127 134
128 // Perform the projection, but retain the result in homogeneous coordinates. 135 // Perform the projection, but retain the result in homogeneous coordinates.
129 gfx::QuadF q = gfx::QuadF(srcRect); 136 gfx::QuadF q = gfx::QuadF(srcRect);
130 HomogeneousCoordinate h1 = projectHomogeneousPoint(transform, q.p1()); 137 HomogeneousCoordinate h1 = projectHomogeneousPoint(transform, q.p1());
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482 matrix.setDouble(1, 0, b); 489 matrix.setDouble(1, 0, b);
483 matrix.setDouble(0, 1, c); 490 matrix.setDouble(0, 1, c);
484 matrix.setDouble(1, 1, d); 491 matrix.setDouble(1, 1, d);
485 matrix.setDouble(0, 3, e); 492 matrix.setDouble(0, 3, e);
486 matrix.setDouble(1, 3, f); 493 matrix.setDouble(1, 3, f);
487 494
488 return result; 495 return result;
489 } 496 }
490 497
491 } // namespace cc 498 } // namespace cc
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