Roll src/third_party/WebKit d9c6159:8139f33 (svn 201974:201975)
[chromium-blink-merge.git] / cc / base / tiling_data.h
blobc95a6725b4886313ab8990ca5b26a31909738b35
1 // Copyright 2010 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.
5 #ifndef CC_BASE_TILING_DATA_H_
6 #define CC_BASE_TILING_DATA_H_
8 #include <utility>
10 #include "base/basictypes.h"
11 #include "base/logging.h"
12 #include "cc/base/cc_export.h"
13 #include "ui/gfx/geometry/rect.h"
14 #include "ui/gfx/geometry/size.h"
16 namespace gfx {
17 class Vector2d;
20 namespace cc {
22 class CC_EXPORT TilingData {
23 public:
24 TilingData();
25 TilingData(const gfx::Size& max_texture_size,
26 const gfx::Size& tiling_size,
27 bool has_border_texels);
28 TilingData(const gfx::Size& max_texture_size,
29 const gfx::Size& tiling_size,
30 int border_texels);
32 gfx::Size tiling_size() const { return tiling_size_; }
33 void SetTilingSize(const gfx::Size& tiling_size);
35 gfx::Size max_texture_size() const { return max_texture_size_; }
36 void SetMaxTextureSize(const gfx::Size& max_texture_size);
38 int border_texels() const { return border_texels_; }
39 void SetHasBorderTexels(bool has_border_texels);
40 void SetBorderTexels(int border_texels);
42 bool has_empty_bounds() const { return !num_tiles_x_ || !num_tiles_y_; }
43 int num_tiles_x() const { return num_tiles_x_; }
44 int num_tiles_y() const { return num_tiles_y_; }
45 // Return the tile index whose non-border texels include src_position.
46 int TileXIndexFromSrcCoord(int src_position) const;
47 int TileYIndexFromSrcCoord(int src_position) const;
48 // Return the lowest tile index whose border texels include src_position.
49 int FirstBorderTileXIndexFromSrcCoord(int src_position) const;
50 int FirstBorderTileYIndexFromSrcCoord(int src_position) const;
51 // Return the highest tile index whose border texels include src_position.
52 int LastBorderTileXIndexFromSrcCoord(int src_position) const;
53 int LastBorderTileYIndexFromSrcCoord(int src_position) const;
55 gfx::Rect ExpandRectIgnoringBordersToTileBounds(const gfx::Rect& rect) const;
56 gfx::Rect ExpandRectToTileBounds(const gfx::Rect& rect) const;
58 gfx::Rect TileBounds(int i, int j) const;
59 gfx::Rect TileBoundsWithBorder(int i, int j) const;
60 int TilePositionX(int x_index) const;
61 int TilePositionY(int y_index) const;
62 int TileSizeX(int x_index) const;
63 int TileSizeY(int y_index) const;
65 // Difference between TileBound's and TileBoundWithBorder's origin().
66 gfx::Vector2d TextureOffset(int x_index, int y_index) const;
68 class CC_EXPORT BaseIterator {
69 public:
70 operator bool() const { return index_x_ != -1 && index_y_ != -1; }
72 int index_x() const { return index_x_; }
73 int index_y() const { return index_y_; }
74 std::pair<int, int> index() const {
75 return std::make_pair(index_x_, index_y_);
78 protected:
79 BaseIterator();
80 void done() {
81 index_x_ = -1;
82 index_y_ = -1;
85 int index_x_;
86 int index_y_;
89 // Iterate through tiles whose bounds + optional border intersect with |rect|.
90 class CC_EXPORT Iterator : public BaseIterator {
91 public:
92 Iterator();
93 Iterator(const TilingData* tiling_data,
94 const gfx::Rect& consider_rect,
95 bool include_borders);
96 Iterator& operator++();
98 private:
99 int left_;
100 int right_;
101 int bottom_;
104 class CC_EXPORT BaseDifferenceIterator : public BaseIterator {
105 protected:
106 BaseDifferenceIterator();
107 BaseDifferenceIterator(const TilingData* tiling_data,
108 const gfx::Rect& consider_rect,
109 const gfx::Rect& ignore_rect);
111 bool HasConsiderRect() const;
112 bool in_consider_rect() const {
113 return index_x_ >= consider_left_ && index_x_ <= consider_right_ &&
114 index_y_ >= consider_top_ && index_y_ <= consider_bottom_;
116 bool in_ignore_rect() const {
117 return index_x_ >= ignore_left_ && index_x_ <= ignore_right_ &&
118 index_y_ >= ignore_top_ && index_y_ <= ignore_bottom_;
121 int consider_left_;
122 int consider_top_;
123 int consider_right_;
124 int consider_bottom_;
125 int ignore_left_;
126 int ignore_top_;
127 int ignore_right_;
128 int ignore_bottom_;
131 // Iterate through all indices whose bounds (not including borders) intersect
132 // with |consider| but which also do not intersect with |ignore|.
133 class CC_EXPORT DifferenceIterator : public BaseDifferenceIterator {
134 public:
135 DifferenceIterator();
136 DifferenceIterator(const TilingData* tiling_data,
137 const gfx::Rect& consider_rect,
138 const gfx::Rect& ignore_rect);
139 DifferenceIterator& operator++();
142 // Iterate through all indices whose bounds + border intersect with
143 // |consider| but which also do not intersect with |ignore|. The iterator
144 // order is a counterclockwise spiral around the given center.
145 class CC_EXPORT SpiralDifferenceIterator : public BaseDifferenceIterator {
146 public:
147 SpiralDifferenceIterator();
148 SpiralDifferenceIterator(const TilingData* tiling_data,
149 const gfx::Rect& consider_rect,
150 const gfx::Rect& ignore_rect,
151 const gfx::Rect& center_rect);
152 SpiralDifferenceIterator& operator++();
154 private:
155 bool valid_column() const {
156 return index_x_ >= consider_left_ && index_x_ <= consider_right_;
158 bool valid_row() const {
159 return index_y_ >= consider_top_ && index_y_ <= consider_bottom_;
162 int current_step_count() const {
163 return (direction_ == UP || direction_ == DOWN) ? vertical_step_count_
164 : horizontal_step_count_;
167 bool needs_direction_switch() const;
168 void switch_direction();
170 enum Direction { UP, LEFT, DOWN, RIGHT };
172 Direction direction_;
173 int delta_x_;
174 int delta_y_;
175 int current_step_;
176 int horizontal_step_count_;
177 int vertical_step_count_;
180 class CC_EXPORT ReverseSpiralDifferenceIterator
181 : public BaseDifferenceIterator {
182 public:
183 ReverseSpiralDifferenceIterator();
184 ReverseSpiralDifferenceIterator(const TilingData* tiling_data,
185 const gfx::Rect& consider_rect,
186 const gfx::Rect& ignore_rect,
187 const gfx::Rect& center_rect);
188 ReverseSpiralDifferenceIterator& operator++();
190 private:
191 bool in_around_rect() const {
192 return index_x_ >= around_left_ && index_x_ <= around_right_ &&
193 index_y_ >= around_top_ && index_y_ <= around_bottom_;
195 bool valid_column() const {
196 return index_x_ >= consider_left_ && index_x_ <= consider_right_;
198 bool valid_row() const {
199 return index_y_ >= consider_top_ && index_y_ <= consider_bottom_;
202 int current_step_count() const {
203 return (direction_ == UP || direction_ == DOWN) ? vertical_step_count_
204 : horizontal_step_count_;
207 bool needs_direction_switch() const;
208 void switch_direction();
210 int around_left_;
211 int around_top_;
212 int around_right_;
213 int around_bottom_;
215 enum Direction { LEFT, UP, RIGHT, DOWN };
217 Direction direction_;
218 int delta_x_;
219 int delta_y_;
220 int current_step_;
221 int horizontal_step_count_;
222 int vertical_step_count_;
225 private:
226 void AssertTile(int i, int j) const {
227 DCHECK_GE(i, 0);
228 DCHECK_LT(i, num_tiles_x_);
229 DCHECK_GE(j, 0);
230 DCHECK_LT(j, num_tiles_y_);
233 void RecomputeNumTiles();
235 gfx::Size max_texture_size_;
236 gfx::Size tiling_size_;
237 int border_texels_;
239 // These are computed values.
240 int num_tiles_x_;
241 int num_tiles_y_;
244 } // namespace cc
246 #endif // CC_BASE_TILING_DATA_H_