cc/quads/nine_patch_generator.cc - Issue 2591863003: Use nine-patch resource for drawing Aura overlay scrollbar thumb.

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Issue 2591863003: Use nine-patch resource for drawing Aura overlay scrollbar thumb. (Closed)

Patch Set: Addressed sadrul@'s feedback Created 3 years, 9 months ago

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	1 // Copyright 2016 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 "cc/quads/nine_patch_generator.h"

	6

	7 #include "cc/layers/draw_properties.h"

	8 #include "cc/quads/render_pass.h"

	9 #include "cc/quads/texture_draw_quad.h"

	10 #include "cc/trees/layer_tree_impl.h"

	11 #include "ui/gfx/geometry/rect_conversions.h"

	12 #include "ui/gfx/geometry/rect_f.h"

	13

	14 namespace cc {

	15

	16 namespace {

	17

	18 // Maximum number of patches that can be produced for one NinePatchLayer.

	19 const int kMaxOcclusionPatches = 12;

	20 const int kMaxPatches = 9;

	21

	22 gfx::RectF BoundsToRect(int x1, int y1, int x2, int y2) {

	23 return gfx::RectF(x1, y1, x2 - x1, y2 - y1);

	24 }

	25

	26 gfx::RectF NormalizedRect(const gfx::RectF& rect,

	27 float total_width,

	28 float total_height) {

	29 return gfx::RectF(rect.x() / total_width, rect.y() / total_height,

	30 rect.width() / total_width, rect.height() / total_height);

	31 }

	32

	33 } // namespace

	34

	35 NinePatchGenerator::Patch::Patch(const gfx::RectF& image_rect,

	36 const gfx::Size& total_image_bounds,

	37 const gfx::RectF& output_rect)

	38 : image_rect(image_rect),

	39 normalized_image_rect(NormalizedRect(image_rect,

	40 total_image_bounds.width(),

	41 total_image_bounds.height())),

	42 output_rect(output_rect) {}

	43

	44 NinePatchGenerator::NinePatchGenerator()

	45 : fill_center_(false), nearest_neighbor_(false) {}

	46

	47 bool NinePatchGenerator::SetLayout(const gfx::Size& image_bounds,

	48 const gfx::Size& output_bounds,

	49 const gfx::Rect& aperture,

	50 const gfx::Rect& border,

	51 const gfx::Rect& output_occlusion,

	52 bool fill_center,

	53 bool nearest_neighbor) {

	54 if (image_bounds_ == image_bounds && output_bounds_ == output_bounds &&

	55 image_aperture_ == aperture && border_ == border &&

	56 fill_center_ == fill_center && output_occlusion_ == output_occlusion &&

	57 nearest_neighbor_ == nearest_neighbor)

	58 return false;

	59

	60 image_bounds_ = image_bounds;

	61 output_bounds_ = output_bounds;

	62 image_aperture_ = aperture;

	63 border_ = border;

	64 fill_center_ = fill_center;

	65 output_occlusion_ = output_occlusion;

	66 nearest_neighbor_ = nearest_neighbor;

	67

	68 CheckGeometryLimitations();

	69

	70 return true;

	71 }

	72

	73 void NinePatchGenerator::CheckGeometryLimitations() {

	74 // \|border\| is in layer space. It cannot exceed the bounds of the layer.

	75 DCHECK_GE(output_bounds_.width(), border_.width());

	76 DCHECK_GE(output_bounds_.height(), border_.height());

	77

	78 // Sanity Check on \|border\|

	79 DCHECK_LE(border_.x(), border_.width());

	80 DCHECK_LE(border_.y(), border_.height());

	81 DCHECK_GE(border_.x(), 0);

	82 DCHECK_GE(border_.y(), 0);

	83

	84 // \|aperture\| is in image space. It cannot exceed the bounds of the bitmap.

	85 DCHECK(!image_aperture_.size().IsEmpty());

	86 DCHECK(gfx::Rect(image_bounds_).Contains(image_aperture_))

	87 << "image_bounds_ " << gfx::Rect(image_bounds_).ToString()

	88 << " image_aperture_ " << image_aperture_.ToString();

	89

	90 // Sanity check on \|output_occlusion_\|. It should always be within the

	91 // border.

	92 gfx::Rect border_rect(border_.x(), border_.y(),

	93 output_bounds_.width() - border_.width(),

	94 output_bounds_.height() - border_.height());

	95 DCHECK(output_occlusion_.IsEmpty() \|\| output_occlusion_.Contains(border_rect))

	96 << "border_rect " << border_rect.ToString() << " output_occlusion_ "

	97 << output_occlusion_.ToString();

	98 }

	99

	100 std::vector<NinePatchGenerator::Patch>

	101 NinePatchGenerator::ComputeQuadsWithoutOcclusion() const {

	102 float image_width = image_bounds_.width();

	103 float image_height = image_bounds_.height();

	104 float output_width = output_bounds_.width();

	105 float output_height = output_bounds_.height();

	106 gfx::RectF output_aperture(border_.x(), border_.y(),

	107 output_width - border_.width(),

	108 output_height - border_.height());

	109

	110 std::vector<Patch> patches;

	111 patches.reserve(kMaxPatches);

	112

	113 // Top-left.

	114 patches.push_back(

	115 Patch(BoundsToRect(0, 0, image_aperture_.x(), image_aperture_.y()),

	116 image_bounds_,

	117 BoundsToRect(0, 0, output_aperture.x(), output_aperture.y())));

	118

	119 // Top-right.

	120 patches.push_back(Patch(BoundsToRect(image_aperture_.right(), 0, image_width,

	121 image_aperture_.y()),

	122 image_bounds_,

	123 BoundsToRect(output_aperture.right(), 0, output_width,

	124 output_aperture.y())));

	125

	126 // Bottom-left.

	127 patches.push_back(Patch(BoundsToRect(0, image_aperture_.bottom(),

	128 image_aperture_.x(), image_height),

	129 image_bounds_,

	130 BoundsToRect(0, output_aperture.bottom(),

	131 output_aperture.x(), output_height)));

	132

	133 // Bottom-right.

	134 patches.push_back(

	135 Patch(BoundsToRect(image_aperture_.right(), image_aperture_.bottom(),

	136 image_width, image_height),

	137 image_bounds_,

	138 BoundsToRect(output_aperture.right(), output_aperture.bottom(),

	139 output_width, output_height)));

	140

	141 // Top.

	142 patches.push_back(

	143 Patch(BoundsToRect(image_aperture_.x(), 0, image_aperture_.right(),

	144 image_aperture_.y()),

	145 image_bounds_,

	146 BoundsToRect(output_aperture.x(), 0, output_aperture.right(),

	147 output_aperture.y())));

	148

	149 // Left.

	150 patches.push_back(

	151 Patch(BoundsToRect(0, image_aperture_.y(), image_aperture_.x(),

	152 image_aperture_.bottom()),

	153 image_bounds_,

	154 BoundsToRect(0, output_aperture.y(), output_aperture.x(),

	155 output_aperture.bottom())));

	156

	157 // Right.

	158 patches.push_back(

	159 Patch(BoundsToRect(image_aperture_.right(), image_aperture_.y(),

	160 image_width, image_aperture_.bottom()),

	161 image_bounds_,

	162 BoundsToRect(output_aperture.right(), output_aperture.y(),

	163 output_width, output_aperture.bottom())));

	164

	165 // Bottom.

	166 patches.push_back(

	167 Patch(BoundsToRect(image_aperture_.x(), image_aperture_.bottom(),

	168 image_aperture_.right(), image_height),

	169 image_bounds_,

	170 BoundsToRect(output_aperture.x(), output_aperture.bottom(),

	171 output_aperture.right(), output_height)));

	172

	173 // Center.

	174 if (fill_center_) {

	175 patches.push_back(

	176 Patch(BoundsToRect(image_aperture_.x(), image_aperture_.y(),

	177 image_aperture_.right(), image_aperture_.bottom()),

	178 image_bounds_,

	179 BoundsToRect(output_aperture.x(), output_aperture.y(),

	180 output_aperture.right(), output_aperture.bottom())));

	181 }

	182

	183 return patches;

	184 }

	185

	186 std::vector<NinePatchGenerator::Patch>

	187 NinePatchGenerator::ComputeQuadsWithOcclusion() const {

	188 float image_width = image_bounds_.width();

	189 float image_height = image_bounds_.height();

	190

	191 float output_width = output_bounds_.width();

	192 float output_height = output_bounds_.height();

	193

	194 float layer_border_right = border_.width() - border_.x();

	195 float layer_border_bottom = border_.height() - border_.y();

	196

	197 float image_aperture_right = image_width - image_aperture_.right();

	198 float image_aperture_bottom = image_height - image_aperture_.bottom();

	199

	200 float output_occlusion_right = output_width - output_occlusion_.right();

	201 float output_occlusion_bottom = output_height - output_occlusion_.bottom();

	202

	203 gfx::RectF image_occlusion(BoundsToRect(

	204 border_.x() == 0

	205 ? 0

	206 : (output_occlusion_.x() * image_aperture_.x() / border_.x()),

	207 border_.y() == 0

	208 ? 0

	209 : (output_occlusion_.y() * image_aperture_.y() / border_.y()),

	210 image_width - (layer_border_right == 0

	211 ? 0

	212 : output_occlusion_right * image_aperture_right /

	213 layer_border_right),

	214 image_height - (layer_border_bottom == 0

	215 ? 0

	216 : output_occlusion_bottom * image_aperture_bottom /

	217 layer_border_bottom)));

	218 gfx::RectF output_aperture(border_.x(), border_.y(),

	219 output_width - border_.width(),

	220 output_height - border_.height());

	221

	222 std::vector<Patch> patches;

	223 patches.reserve(kMaxOcclusionPatches);

	224

	225 // Top-left-left.

	226 patches.push_back(

	227 Patch(BoundsToRect(0, 0, image_occlusion.x(), image_aperture_.y()),

	228 image_bounds_,

	229 BoundsToRect(0, 0, output_occlusion_.x(), output_aperture.y())));

	230

	231 // Top-left-right.

	232 patches.push_back(

	233 Patch(BoundsToRect(image_occlusion.x(), 0, image_aperture_.x(),

	234 image_occlusion.y()),

	235 image_bounds_,

	236 BoundsToRect(output_occlusion_.x(), 0, output_aperture.x(),

	237 output_occlusion_.y())));

	238

	239 // Top-center.

	240 patches.push_back(

	241 Patch(BoundsToRect(image_aperture_.x(), 0, image_aperture_.right(),

	242 image_occlusion.y()),

	243 image_bounds_,

	244 BoundsToRect(output_aperture.x(), 0, output_aperture.right(),

	245 output_occlusion_.y())));

	246

	247 // Top-right-left.

	248 patches.push_back(

	249 Patch(BoundsToRect(image_aperture_.right(), 0, image_occlusion.right(),

	250 image_occlusion.y()),

	251 image_bounds_,

	252 BoundsToRect(output_aperture.right(), 0, output_occlusion_.right(),

	253 output_occlusion_.y())));

	254

	255 // Top-right-right.

	256 patches.push_back(Patch(BoundsToRect(image_occlusion.right(), 0, image_width,

	257 image_aperture_.y()),

	258 image_bounds_,

	259 BoundsToRect(output_occlusion_.right(), 0,

	260 output_width, output_aperture.y())));

	261

	262 // Left-center.

	263 patches.push_back(

	264 Patch(BoundsToRect(0, image_aperture_.y(), image_occlusion.x(),

	265 image_aperture_.bottom()),

	266 image_bounds_,

	267 BoundsToRect(0, output_aperture.y(), output_occlusion_.x(),

	268 output_aperture.bottom())));

	269

	270 // Right-center.

	271 patches.push_back(

	272 Patch(BoundsToRect(image_occlusion.right(), image_aperture_.y(),

	273 image_width, image_aperture_.bottom()),

	274 image_bounds_,

	275 BoundsToRect(output_occlusion_.right(), output_aperture.y(),

	276 output_width, output_aperture.bottom())));

	277

	278 // Bottom-left-left.

	279 patches.push_back(Patch(BoundsToRect(0, image_aperture_.bottom(),

	280 image_occlusion.x(), image_height),

	281 image_bounds_,

	282 BoundsToRect(0, output_aperture.bottom(),

	283 output_occlusion_.x(), output_height)));

	284

	285 // Bottom-left-right.

	286 patches.push_back(

	287 Patch(BoundsToRect(image_occlusion.x(), image_occlusion.bottom(),

	288 image_aperture_.x(), image_height),

	289 image_bounds_,

	290 BoundsToRect(output_occlusion_.x(), output_occlusion_.bottom(),

	291 output_aperture.x(), output_height)));

	292

	293 // Bottom-center.

	294 patches.push_back(

	295 Patch(BoundsToRect(image_aperture_.x(), image_occlusion.bottom(),

	296 image_aperture_.right(), image_height),

	297 image_bounds_,

	298 BoundsToRect(output_aperture.x(), output_occlusion_.bottom(),

	299 output_aperture.right(), output_height)));

	300

	301 // Bottom-right-left.

	302 patches.push_back(

	303 Patch(BoundsToRect(image_aperture_.right(), image_occlusion.bottom(),

	304 image_occlusion.right(), image_height),

	305 image_bounds_,

	306 BoundsToRect(output_aperture.right(), output_occlusion_.bottom(),

	307 output_occlusion_.right(), output_height)));

	308

	309 // Bottom-right-right.

	310 patches.push_back(

	311 Patch(BoundsToRect(image_occlusion.right(), image_aperture_.bottom(),

	312 image_width, image_height),

	313 image_bounds_,

	314 BoundsToRect(output_occlusion_.right(), output_aperture.bottom(),

	315 output_width, output_height)));

	316

	317 return patches;

	318 }

	319

	320 std::vector<NinePatchGenerator::Patch> NinePatchGenerator::GeneratePatches()

	321 const {

	322 DCHECK(!output_bounds_.IsEmpty());

	323

	324 std::vector<Patch> patches;

	325

	326 if (output_occlusion_.IsEmpty() \|\| fill_center_)

	327 patches = ComputeQuadsWithoutOcclusion();

	328 else

	329 patches = ComputeQuadsWithOcclusion();

	330

	331 return patches;

	332 }

	333

	334 void NinePatchGenerator::AppendQuads(LayerImpl* layer_impl,

	335 UIResourceId ui_resource_id,

	336 RenderPass* render_pass,

	337 SharedQuadState* shared_quad_state,

	338 const std::vector<Patch>& patches) {

	339 if (!ui_resource_id)

	340 return;

	341

	342 ResourceId resource =

	343 layer_impl->layer_tree_impl()->ResourceIdForUIResource(ui_resource_id);

	344

	345 if (!resource)

	346 return;

	347

	348 const float vertex_opacity[] = {1.0f, 1.0f, 1.0f, 1.0f};

	349 const bool opaque =

	350 layer_impl->layer_tree_impl()->IsUIResourceOpaque(ui_resource_id);

	351 constexpr bool flipped = false;

	352 constexpr bool premultiplied_alpha = true;

	353

	354 for (const auto& patch : patches) {

	355 gfx::Rect output_rect = gfx::ToEnclosingRect(patch.output_rect);

	356 gfx::Rect visible_rect =

	357 layer_impl->draw_properties()

	358 .occlusion_in_content_space.GetUnoccludedContentRect(output_rect);

	359 gfx::Rect opaque_rect = opaque ? visible_rect : gfx::Rect();

	360 if (!visible_rect.IsEmpty()) {

	361 gfx::RectF image_rect = patch.normalized_image_rect;

	362 TextureDrawQuad* quad =

	363 render_pass->CreateAndAppendDrawQuad<TextureDrawQuad>();

	364 quad->SetNew(shared_quad_state, output_rect, opaque_rect, visible_rect,

	365 resource, premultiplied_alpha, image_rect.origin(),

	366 image_rect.bottom_right(), SK_ColorTRANSPARENT,

	367 vertex_opacity, flipped, nearest_neighbor_, false);

	368 layer_impl->ValidateQuadResources(quad);

	369 }

	370 }

	371 }

	372

	373 void NinePatchGenerator::AsJson(base::DictionaryValue* dictionary) const {

	374 base::ListValue* list = new base::ListValue;

	375 list->AppendInteger(image_aperture_.origin().x());

	376 list->AppendInteger(image_aperture_.origin().y());

	377 list->AppendInteger(image_aperture_.size().width());

	378 list->AppendInteger(image_aperture_.size().height());

	379 dictionary->Set("ImageAperture", list);

	380

	381 list = new base::ListValue;

	382 list->AppendInteger(image_bounds_.width());

	383 list->AppendInteger(image_bounds_.height());

	384 dictionary->Set("ImageBounds", list);

	385

	386 dictionary->Set("Border", MathUtil::AsValue(border_).release());

	387

	388 dictionary->SetBoolean("FillCenter", fill_center_);

	389

	390 list = new base::ListValue;

	391 list->AppendInteger(output_occlusion_.x());

	392 list->AppendInteger(output_occlusion_.y());

	393 list->AppendInteger(output_occlusion_.width());

	394 list->AppendInteger(output_occlusion_.height());

	395 dictionary->Set("OutputOcclusion", list);

	396 }

	397

	398 } // namespace cc

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« cc/layers/nine_patch_layer_impl.cc ('K') | « cc/quads/nine_patch_generator.h ('k') | cc/quads/nine_patch_generator_unittest.cc » ('j') | ui/native_theme/native_theme_aura.cc » ('J')