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 3// found in the LICENSE file. 4 5#include "cc/layers/layer_impl.h" 6 7#include "base/debug/trace_event.h" 8#include "base/debug/trace_event_argument.h" 9#include "base/json/json_reader.h" 10#include "base/strings/stringprintf.h" 11#include "cc/animation/animation_registrar.h" 12#include "cc/animation/scrollbar_animation_controller.h" 13#include "cc/base/math_util.h" 14#include "cc/base/simple_enclosed_region.h" 15#include "cc/debug/debug_colors.h" 16#include "cc/debug/layer_tree_debug_state.h" 17#include "cc/debug/micro_benchmark_impl.h" 18#include "cc/debug/traced_value.h" 19#include "cc/input/layer_scroll_offset_delegate.h" 20#include "cc/layers/layer_utils.h" 21#include "cc/layers/painted_scrollbar_layer_impl.h" 22#include "cc/output/copy_output_request.h" 23#include "cc/quads/debug_border_draw_quad.h" 24#include "cc/quads/render_pass.h" 25#include "cc/trees/layer_tree_host_common.h" 26#include "cc/trees/layer_tree_impl.h" 27#include "cc/trees/layer_tree_settings.h" 28#include "cc/trees/proxy.h" 29#include "ui/gfx/box_f.h" 30#include "ui/gfx/geometry/vector2d_conversions.h" 31#include "ui/gfx/point_conversions.h" 32#include "ui/gfx/quad_f.h" 33#include "ui/gfx/rect_conversions.h" 34#include "ui/gfx/size_conversions.h" 35 36namespace cc { 37LayerImpl::LayerImpl(LayerTreeImpl* tree_impl, int id) 38 : parent_(NULL), 39 scroll_parent_(NULL), 40 clip_parent_(NULL), 41 mask_layer_id_(-1), 42 replica_layer_id_(-1), 43 layer_id_(id), 44 layer_tree_impl_(tree_impl), 45 scroll_offset_delegate_(NULL), 46 scroll_clip_layer_(NULL), 47 should_scroll_on_main_thread_(false), 48 have_wheel_event_handlers_(false), 49 have_scroll_event_handlers_(false), 50 user_scrollable_horizontal_(true), 51 user_scrollable_vertical_(true), 52 stacking_order_changed_(false), 53 double_sided_(true), 54 should_flatten_transform_(true), 55 layer_property_changed_(false), 56 masks_to_bounds_(false), 57 contents_opaque_(false), 58 is_root_for_isolated_group_(false), 59 use_parent_backface_visibility_(false), 60 draw_checkerboard_for_missing_tiles_(false), 61 draws_content_(false), 62 hide_layer_and_subtree_(false), 63 force_render_surface_(false), 64 transform_is_invertible_(true), 65 is_container_for_fixed_position_layers_(false), 66 background_color_(0), 67 opacity_(1.0), 68 blend_mode_(SkXfermode::kSrcOver_Mode), 69 num_descendants_that_draw_content_(0), 70 draw_depth_(0.f), 71 needs_push_properties_(false), 72 num_dependents_need_push_properties_(0), 73 sorting_context_id_(0), 74 current_draw_mode_(DRAW_MODE_NONE) { 75 DCHECK_GT(layer_id_, 0); 76 DCHECK(layer_tree_impl_); 77 layer_tree_impl_->RegisterLayer(this); 78 AnimationRegistrar* registrar = layer_tree_impl_->animationRegistrar(); 79 layer_animation_controller_ = 80 registrar->GetAnimationControllerForId(layer_id_); 81 layer_animation_controller_->AddValueObserver(this); 82 if (IsActive()) { 83 layer_animation_controller_->set_value_provider(this); 84 layer_animation_controller_->set_layer_animation_delegate(this); 85 } 86 SetNeedsPushProperties(); 87} 88 89LayerImpl::~LayerImpl() { 90 DCHECK_EQ(DRAW_MODE_NONE, current_draw_mode_); 91 92 layer_animation_controller_->RemoveValueObserver(this); 93 layer_animation_controller_->remove_value_provider(this); 94 layer_animation_controller_->remove_layer_animation_delegate(this); 95 96 if (!copy_requests_.empty() && layer_tree_impl_->IsActiveTree()) 97 layer_tree_impl()->RemoveLayerWithCopyOutputRequest(this); 98 layer_tree_impl_->UnregisterLayer(this); 99 100 TRACE_EVENT_OBJECT_DELETED_WITH_ID( 101 TRACE_DISABLED_BY_DEFAULT("cc.debug"), "cc::LayerImpl", this); 102} 103 104void LayerImpl::AddChild(scoped_ptr<LayerImpl> child) { 105 child->SetParent(this); 106 DCHECK_EQ(layer_tree_impl(), child->layer_tree_impl()); 107 children_.push_back(child.Pass()); 108 layer_tree_impl()->set_needs_update_draw_properties(); 109} 110 111scoped_ptr<LayerImpl> LayerImpl::RemoveChild(LayerImpl* child) { 112 for (OwnedLayerImplList::iterator it = children_.begin(); 113 it != children_.end(); 114 ++it) { 115 if (*it == child) { 116 scoped_ptr<LayerImpl> ret = children_.take(it); 117 children_.erase(it); 118 layer_tree_impl()->set_needs_update_draw_properties(); 119 return ret.Pass(); 120 } 121 } 122 return scoped_ptr<LayerImpl>(); 123} 124 125void LayerImpl::SetParent(LayerImpl* parent) { 126 if (parent_should_know_need_push_properties()) { 127 if (parent_) 128 parent_->RemoveDependentNeedsPushProperties(); 129 if (parent) 130 parent->AddDependentNeedsPushProperties(); 131 } 132 parent_ = parent; 133} 134 135void LayerImpl::ClearChildList() { 136 if (children_.empty()) 137 return; 138 139 children_.clear(); 140 layer_tree_impl()->set_needs_update_draw_properties(); 141} 142 143bool LayerImpl::HasAncestor(const LayerImpl* ancestor) const { 144 if (!ancestor) 145 return false; 146 147 for (const LayerImpl* layer = this; layer; layer = layer->parent()) { 148 if (layer == ancestor) 149 return true; 150 } 151 152 return false; 153} 154 155void LayerImpl::SetScrollParent(LayerImpl* parent) { 156 if (scroll_parent_ == parent) 157 return; 158 159 // Having both a scroll parent and a scroll offset delegate is unsupported. 160 DCHECK(!scroll_offset_delegate_); 161 162 if (parent) 163 DCHECK_EQ(layer_tree_impl()->LayerById(parent->id()), parent); 164 165 scroll_parent_ = parent; 166 SetNeedsPushProperties(); 167} 168 169void LayerImpl::SetDebugInfo( 170 scoped_refptr<base::debug::ConvertableToTraceFormat> other) { 171 debug_info_ = other; 172 SetNeedsPushProperties(); 173} 174 175void LayerImpl::SetScrollChildren(std::set<LayerImpl*>* children) { 176 if (scroll_children_.get() == children) 177 return; 178 scroll_children_.reset(children); 179 SetNeedsPushProperties(); 180} 181 182void LayerImpl::SetNumDescendantsThatDrawContent(int num_descendants) { 183 if (num_descendants_that_draw_content_ == num_descendants) 184 return; 185 num_descendants_that_draw_content_ = num_descendants; 186 SetNeedsPushProperties(); 187} 188 189void LayerImpl::SetClipParent(LayerImpl* ancestor) { 190 if (clip_parent_ == ancestor) 191 return; 192 193 clip_parent_ = ancestor; 194 SetNeedsPushProperties(); 195} 196 197void LayerImpl::SetClipChildren(std::set<LayerImpl*>* children) { 198 if (clip_children_.get() == children) 199 return; 200 clip_children_.reset(children); 201 SetNeedsPushProperties(); 202} 203 204void LayerImpl::PassCopyRequests(ScopedPtrVector<CopyOutputRequest>* requests) { 205 if (requests->empty()) 206 return; 207 208 bool was_empty = copy_requests_.empty(); 209 copy_requests_.insert_and_take(copy_requests_.end(), requests); 210 requests->clear(); 211 212 if (was_empty && layer_tree_impl()->IsActiveTree()) 213 layer_tree_impl()->AddLayerWithCopyOutputRequest(this); 214 NoteLayerPropertyChangedForSubtree(); 215} 216 217void LayerImpl::TakeCopyRequestsAndTransformToTarget( 218 ScopedPtrVector<CopyOutputRequest>* requests) { 219 DCHECK(!copy_requests_.empty()); 220 DCHECK(layer_tree_impl()->IsActiveTree()); 221 222 size_t first_inserted_request = requests->size(); 223 requests->insert_and_take(requests->end(), ©_requests_); 224 copy_requests_.clear(); 225 226 for (size_t i = first_inserted_request; i < requests->size(); ++i) { 227 CopyOutputRequest* request = requests->at(i); 228 if (!request->has_area()) 229 continue; 230 231 gfx::Rect request_in_layer_space = request->area(); 232 gfx::Rect request_in_content_space = 233 LayerRectToContentRect(request_in_layer_space); 234 request->set_area(MathUtil::MapEnclosingClippedRect( 235 draw_properties_.target_space_transform, request_in_content_space)); 236 } 237 238 layer_tree_impl()->RemoveLayerWithCopyOutputRequest(this); 239} 240 241void LayerImpl::CreateRenderSurface() { 242 DCHECK(!draw_properties_.render_surface); 243 draw_properties_.render_surface = 244 make_scoped_ptr(new RenderSurfaceImpl(this)); 245 draw_properties_.render_target = this; 246} 247 248void LayerImpl::ClearRenderSurface() { 249 draw_properties_.render_surface.reset(); 250} 251 252void LayerImpl::ClearRenderSurfaceLayerList() { 253 if (draw_properties_.render_surface) 254 draw_properties_.render_surface->layer_list().clear(); 255} 256 257void LayerImpl::PopulateSharedQuadState(SharedQuadState* state) const { 258 state->SetAll(draw_properties_.target_space_transform, 259 draw_properties_.content_bounds, 260 draw_properties_.visible_content_rect, 261 draw_properties_.clip_rect, 262 draw_properties_.is_clipped, 263 draw_properties_.opacity, 264 blend_mode_, 265 sorting_context_id_); 266} 267 268bool LayerImpl::WillDraw(DrawMode draw_mode, 269 ResourceProvider* resource_provider) { 270 // WillDraw/DidDraw must be matched. 271 DCHECK_NE(DRAW_MODE_NONE, draw_mode); 272 DCHECK_EQ(DRAW_MODE_NONE, current_draw_mode_); 273 current_draw_mode_ = draw_mode; 274 return true; 275} 276 277void LayerImpl::DidDraw(ResourceProvider* resource_provider) { 278 DCHECK_NE(DRAW_MODE_NONE, current_draw_mode_); 279 current_draw_mode_ = DRAW_MODE_NONE; 280} 281 282bool LayerImpl::ShowDebugBorders() const { 283 return layer_tree_impl()->debug_state().show_debug_borders; 284} 285 286void LayerImpl::GetDebugBorderProperties(SkColor* color, float* width) const { 287 if (draws_content_) { 288 *color = DebugColors::ContentLayerBorderColor(); 289 *width = DebugColors::ContentLayerBorderWidth(layer_tree_impl()); 290 return; 291 } 292 293 if (masks_to_bounds_) { 294 *color = DebugColors::MaskingLayerBorderColor(); 295 *width = DebugColors::MaskingLayerBorderWidth(layer_tree_impl()); 296 return; 297 } 298 299 *color = DebugColors::ContainerLayerBorderColor(); 300 *width = DebugColors::ContainerLayerBorderWidth(layer_tree_impl()); 301} 302 303void LayerImpl::AppendDebugBorderQuad( 304 RenderPass* render_pass, 305 const gfx::Size& content_bounds, 306 const SharedQuadState* shared_quad_state, 307 AppendQuadsData* append_quads_data) const { 308 SkColor color; 309 float width; 310 GetDebugBorderProperties(&color, &width); 311 AppendDebugBorderQuad(render_pass, 312 content_bounds, 313 shared_quad_state, 314 append_quads_data, 315 color, 316 width); 317} 318 319void LayerImpl::AppendDebugBorderQuad(RenderPass* render_pass, 320 const gfx::Size& content_bounds, 321 const SharedQuadState* shared_quad_state, 322 AppendQuadsData* append_quads_data, 323 SkColor color, 324 float width) const { 325 if (!ShowDebugBorders()) 326 return; 327 328 gfx::Rect quad_rect(content_bounds); 329 gfx::Rect visible_quad_rect(quad_rect); 330 DebugBorderDrawQuad* debug_border_quad = 331 render_pass->CreateAndAppendDrawQuad<DebugBorderDrawQuad>(); 332 debug_border_quad->SetNew( 333 shared_quad_state, quad_rect, visible_quad_rect, color, width); 334} 335 336bool LayerImpl::HasDelegatedContent() const { 337 return false; 338} 339 340bool LayerImpl::HasContributingDelegatedRenderPasses() const { 341 return false; 342} 343 344RenderPassId LayerImpl::FirstContributingRenderPassId() const { 345 return RenderPassId(0, 0); 346} 347 348RenderPassId LayerImpl::NextContributingRenderPassId(RenderPassId id) const { 349 return RenderPassId(0, 0); 350} 351 352ResourceProvider::ResourceId LayerImpl::ContentsResourceId() const { 353 NOTREACHED(); 354 return 0; 355} 356 357void LayerImpl::SetSentScrollDelta(const gfx::Vector2d& sent_scroll_delta) { 358 // Pending tree never has sent scroll deltas 359 DCHECK(layer_tree_impl()->IsActiveTree()); 360 361 if (sent_scroll_delta_ == sent_scroll_delta) 362 return; 363 364 sent_scroll_delta_ = sent_scroll_delta; 365} 366 367gfx::Vector2dF LayerImpl::ScrollBy(const gfx::Vector2dF& scroll) { 368 DCHECK(scrollable()); 369 gfx::Vector2dF min_delta = -scroll_offset_; 370 gfx::Vector2dF max_delta = MaxScrollOffset() - scroll_offset_; 371 // Clamp new_delta so that position + delta stays within scroll bounds. 372 gfx::Vector2dF new_delta = (ScrollDelta() + scroll); 373 new_delta.SetToMax(min_delta); 374 new_delta.SetToMin(max_delta); 375 gfx::Vector2dF unscrolled = 376 ScrollDelta() + scroll - new_delta; 377 SetScrollDelta(new_delta); 378 379 return unscrolled; 380} 381 382void LayerImpl::SetScrollClipLayer(int scroll_clip_layer_id) { 383 scroll_clip_layer_ = layer_tree_impl()->LayerById(scroll_clip_layer_id); 384} 385 386void LayerImpl::ApplySentScrollDeltasFromAbortedCommit() { 387 // Pending tree never has sent scroll deltas 388 DCHECK(layer_tree_impl()->IsActiveTree()); 389 390 // Apply sent scroll deltas to scroll position / scroll delta as if the 391 // main thread had applied them and then committed those values. 392 // 393 // This function should not change the total scroll offset; it just shifts 394 // some of the scroll delta to the scroll offset. Therefore, adjust these 395 // variables directly rather than calling the scroll offset delegate to 396 // avoid sending it multiple spurious calls. 397 // 398 // Because of the way scroll delta is calculated with a delegate, this will 399 // leave the total scroll offset unchanged on this layer regardless of 400 // whether a delegate is being used. 401 scroll_offset_ += sent_scroll_delta_; 402 scroll_delta_ -= sent_scroll_delta_; 403 sent_scroll_delta_ = gfx::Vector2d(); 404} 405 406void LayerImpl::ApplyScrollDeltasSinceBeginMainFrame() { 407 // Only the pending tree can have missing scrolls. 408 DCHECK(layer_tree_impl()->IsPendingTree()); 409 if (!scrollable()) 410 return; 411 412 // Pending tree should never have sent scroll deltas. 413 DCHECK(sent_scroll_delta().IsZero()); 414 415 LayerImpl* active_twin = layer_tree_impl()->FindActiveTreeLayerById(id()); 416 if (active_twin) { 417 // Scrolls that happens after begin frame (where the sent scroll delta 418 // comes from) and commit need to be applied to the pending tree 419 // so that it is up to date with the total scroll. 420 SetScrollDelta(active_twin->ScrollDelta() - 421 active_twin->sent_scroll_delta()); 422 } 423} 424 425InputHandler::ScrollStatus LayerImpl::TryScroll( 426 const gfx::PointF& screen_space_point, 427 InputHandler::ScrollInputType type) const { 428 if (should_scroll_on_main_thread()) { 429 TRACE_EVENT0("cc", "LayerImpl::TryScroll: Failed ShouldScrollOnMainThread"); 430 return InputHandler::ScrollOnMainThread; 431 } 432 433 if (!screen_space_transform().IsInvertible()) { 434 TRACE_EVENT0("cc", "LayerImpl::TryScroll: Ignored NonInvertibleTransform"); 435 return InputHandler::ScrollIgnored; 436 } 437 438 if (!non_fast_scrollable_region().IsEmpty()) { 439 bool clipped = false; 440 gfx::Transform inverse_screen_space_transform( 441 gfx::Transform::kSkipInitialization); 442 if (!screen_space_transform().GetInverse(&inverse_screen_space_transform)) { 443 // TODO(shawnsingh): We shouldn't be applying a projection if screen space 444 // transform is uninvertible here. Perhaps we should be returning 445 // ScrollOnMainThread in this case? 446 } 447 448 gfx::PointF hit_test_point_in_content_space = 449 MathUtil::ProjectPoint(inverse_screen_space_transform, 450 screen_space_point, 451 &clipped); 452 gfx::PointF hit_test_point_in_layer_space = 453 gfx::ScalePoint(hit_test_point_in_content_space, 454 1.f / contents_scale_x(), 455 1.f / contents_scale_y()); 456 if (!clipped && 457 non_fast_scrollable_region().Contains( 458 gfx::ToRoundedPoint(hit_test_point_in_layer_space))) { 459 TRACE_EVENT0("cc", 460 "LayerImpl::tryScroll: Failed NonFastScrollableRegion"); 461 return InputHandler::ScrollOnMainThread; 462 } 463 } 464 465 if (type == InputHandler::Wheel && have_wheel_event_handlers()) { 466 TRACE_EVENT0("cc", "LayerImpl::tryScroll: Failed WheelEventHandlers"); 467 return InputHandler::ScrollOnMainThread; 468 } 469 470 if (!scrollable()) { 471 TRACE_EVENT0("cc", "LayerImpl::tryScroll: Ignored not scrollable"); 472 return InputHandler::ScrollIgnored; 473 } 474 475 gfx::Vector2d max_scroll_offset = MaxScrollOffset(); 476 if (max_scroll_offset.x() <= 0 && max_scroll_offset.y() <= 0) { 477 TRACE_EVENT0("cc", 478 "LayerImpl::tryScroll: Ignored. Technically scrollable," 479 " but has no affordance in either direction."); 480 return InputHandler::ScrollIgnored; 481 } 482 483 return InputHandler::ScrollStarted; 484} 485 486gfx::Rect LayerImpl::LayerRectToContentRect( 487 const gfx::RectF& layer_rect) const { 488 gfx::RectF content_rect = 489 gfx::ScaleRect(layer_rect, contents_scale_x(), contents_scale_y()); 490 // Intersect with content rect to avoid the extra pixel because for some 491 // values x and y, ceil((x / y) * y) may be x + 1. 492 content_rect.Intersect(gfx::Rect(content_bounds())); 493 return gfx::ToEnclosingRect(content_rect); 494} 495 496skia::RefPtr<SkPicture> LayerImpl::GetPicture() { 497 return skia::RefPtr<SkPicture>(); 498} 499 500scoped_ptr<LayerImpl> LayerImpl::CreateLayerImpl(LayerTreeImpl* tree_impl) { 501 return LayerImpl::Create(tree_impl, layer_id_); 502} 503 504void LayerImpl::PushPropertiesTo(LayerImpl* layer) { 505 layer->SetTransformOrigin(transform_origin_); 506 layer->SetBackgroundColor(background_color_); 507 layer->SetBounds(bounds_); 508 layer->SetContentBounds(content_bounds()); 509 layer->SetContentsScale(contents_scale_x(), contents_scale_y()); 510 layer->SetDoubleSided(double_sided_); 511 layer->SetDrawCheckerboardForMissingTiles( 512 draw_checkerboard_for_missing_tiles_); 513 layer->SetForceRenderSurface(force_render_surface_); 514 layer->SetDrawsContent(DrawsContent()); 515 layer->SetHideLayerAndSubtree(hide_layer_and_subtree_); 516 layer->SetFilters(filters()); 517 layer->SetBackgroundFilters(background_filters()); 518 layer->SetMasksToBounds(masks_to_bounds_); 519 layer->SetShouldScrollOnMainThread(should_scroll_on_main_thread_); 520 layer->SetHaveWheelEventHandlers(have_wheel_event_handlers_); 521 layer->SetHaveScrollEventHandlers(have_scroll_event_handlers_); 522 layer->SetNonFastScrollableRegion(non_fast_scrollable_region_); 523 layer->SetTouchEventHandlerRegion(touch_event_handler_region_); 524 layer->SetContentsOpaque(contents_opaque_); 525 layer->SetOpacity(opacity_); 526 layer->SetBlendMode(blend_mode_); 527 layer->SetIsRootForIsolatedGroup(is_root_for_isolated_group_); 528 layer->SetPosition(position_); 529 layer->SetIsContainerForFixedPositionLayers( 530 is_container_for_fixed_position_layers_); 531 layer->SetPositionConstraint(position_constraint_); 532 layer->SetShouldFlattenTransform(should_flatten_transform_); 533 layer->SetUseParentBackfaceVisibility(use_parent_backface_visibility_); 534 layer->SetTransformAndInvertibility(transform_, transform_is_invertible_); 535 536 layer->SetScrollClipLayer(scroll_clip_layer_ ? scroll_clip_layer_->id() 537 : Layer::INVALID_ID); 538 layer->set_user_scrollable_horizontal(user_scrollable_horizontal_); 539 layer->set_user_scrollable_vertical(user_scrollable_vertical_); 540 541 // Save the difference but clear the sent delta so that we don't subtract 542 // it again in SetScrollOffsetAndDelta's pending twin mirroring logic. 543 gfx::Vector2dF remaining_delta = 544 layer->ScrollDelta() - layer->sent_scroll_delta(); 545 layer->SetSentScrollDelta(gfx::Vector2d()); 546 layer->SetScrollOffsetAndDelta(scroll_offset_, remaining_delta); 547 548 layer->Set3dSortingContextId(sorting_context_id_); 549 layer->SetNumDescendantsThatDrawContent(num_descendants_that_draw_content_); 550 551 LayerImpl* scroll_parent = NULL; 552 if (scroll_parent_) { 553 scroll_parent = layer->layer_tree_impl()->LayerById(scroll_parent_->id()); 554 DCHECK(scroll_parent); 555 } 556 557 layer->SetScrollParent(scroll_parent); 558 if (scroll_children_) { 559 std::set<LayerImpl*>* scroll_children = new std::set<LayerImpl*>; 560 for (std::set<LayerImpl*>::iterator it = scroll_children_->begin(); 561 it != scroll_children_->end(); 562 ++it) { 563 DCHECK_EQ((*it)->scroll_parent(), this); 564 LayerImpl* scroll_child = 565 layer->layer_tree_impl()->LayerById((*it)->id()); 566 DCHECK(scroll_child); 567 scroll_children->insert(scroll_child); 568 } 569 layer->SetScrollChildren(scroll_children); 570 } else { 571 layer->SetScrollChildren(NULL); 572 } 573 574 LayerImpl* clip_parent = NULL; 575 if (clip_parent_) { 576 clip_parent = layer->layer_tree_impl()->LayerById( 577 clip_parent_->id()); 578 DCHECK(clip_parent); 579 } 580 581 layer->SetClipParent(clip_parent); 582 if (clip_children_) { 583 std::set<LayerImpl*>* clip_children = new std::set<LayerImpl*>; 584 for (std::set<LayerImpl*>::iterator it = clip_children_->begin(); 585 it != clip_children_->end(); ++it) 586 clip_children->insert(layer->layer_tree_impl()->LayerById((*it)->id())); 587 layer->SetClipChildren(clip_children); 588 } else { 589 layer->SetClipChildren(NULL); 590 } 591 592 layer->PassCopyRequests(©_requests_); 593 594 // If the main thread commits multiple times before the impl thread actually 595 // draws, then damage tracking will become incorrect if we simply clobber the 596 // update_rect here. The LayerImpl's update_rect needs to accumulate (i.e. 597 // union) any update changes that have occurred on the main thread. 598 update_rect_.Union(layer->update_rect()); 599 layer->SetUpdateRect(update_rect_); 600 601 layer->SetStackingOrderChanged(stacking_order_changed_); 602 layer->SetDebugInfo(debug_info_); 603 604 // Reset any state that should be cleared for the next update. 605 stacking_order_changed_ = false; 606 update_rect_ = gfx::RectF(); 607 needs_push_properties_ = false; 608 num_dependents_need_push_properties_ = 0; 609} 610 611gfx::Vector2dF LayerImpl::FixedContainerSizeDelta() const { 612 if (!scroll_clip_layer_) 613 return gfx::Vector2dF(); 614 615 float scale_delta = layer_tree_impl()->page_scale_delta(); 616 float scale = layer_tree_impl()->page_scale_factor(); 617 618 gfx::Vector2dF delta_from_scroll = scroll_clip_layer_->bounds_delta(); 619 delta_from_scroll.Scale(1.f / scale); 620 621 // The delta-from-pinch component requires some explanation: A viewport of 622 // size (w,h) will appear to be size (w/s,h/s) under scale s in the content 623 // space. If s -> s' on the impl thread, where s' = s * ds, then the apparent 624 // viewport size change in the content space due to ds is: 625 // 626 // (w/s',h/s') - (w/s,h/s) = (w,h)(1/s' - 1/s) = (w,h)(1 - ds)/(s ds) 627 // 628 gfx::Vector2dF delta_from_pinch = 629 gfx::Rect(scroll_clip_layer_->bounds()).bottom_right() - gfx::PointF(); 630 delta_from_pinch.Scale((1.f - scale_delta) / (scale * scale_delta)); 631 632 return delta_from_scroll + delta_from_pinch; 633} 634 635base::DictionaryValue* LayerImpl::LayerTreeAsJson() const { 636 base::DictionaryValue* result = new base::DictionaryValue; 637 result->SetString("LayerType", LayerTypeAsString()); 638 639 base::ListValue* list = new base::ListValue; 640 list->AppendInteger(bounds().width()); 641 list->AppendInteger(bounds().height()); 642 result->Set("Bounds", list); 643 644 list = new base::ListValue; 645 list->AppendDouble(position_.x()); 646 list->AppendDouble(position_.y()); 647 result->Set("Position", list); 648 649 const gfx::Transform& gfx_transform = draw_properties_.target_space_transform; 650 double transform[16]; 651 gfx_transform.matrix().asColMajord(transform); 652 list = new base::ListValue; 653 for (int i = 0; i < 16; ++i) 654 list->AppendDouble(transform[i]); 655 result->Set("DrawTransform", list); 656 657 result->SetBoolean("DrawsContent", draws_content_); 658 result->SetBoolean("Is3dSorted", Is3dSorted()); 659 result->SetDouble("Opacity", opacity()); 660 result->SetBoolean("ContentsOpaque", contents_opaque_); 661 662 if (scrollable()) 663 result->SetBoolean("Scrollable", true); 664 665 if (have_wheel_event_handlers_) 666 result->SetBoolean("WheelHandler", have_wheel_event_handlers_); 667 if (have_scroll_event_handlers_) 668 result->SetBoolean("ScrollHandler", have_scroll_event_handlers_); 669 if (!touch_event_handler_region_.IsEmpty()) { 670 scoped_ptr<base::Value> region = touch_event_handler_region_.AsValue(); 671 result->Set("TouchRegion", region.release()); 672 } 673 674 list = new base::ListValue; 675 for (size_t i = 0; i < children_.size(); ++i) 676 list->Append(children_[i]->LayerTreeAsJson()); 677 result->Set("Children", list); 678 679 return result; 680} 681 682void LayerImpl::SetStackingOrderChanged(bool stacking_order_changed) { 683 if (stacking_order_changed) { 684 stacking_order_changed_ = true; 685 NoteLayerPropertyChangedForSubtree(); 686 } 687} 688 689void LayerImpl::NoteLayerPropertyChanged() { 690 layer_property_changed_ = true; 691 layer_tree_impl()->set_needs_update_draw_properties(); 692 SetNeedsPushProperties(); 693} 694 695void LayerImpl::NoteLayerPropertyChangedForSubtree() { 696 layer_property_changed_ = true; 697 layer_tree_impl()->set_needs_update_draw_properties(); 698 for (size_t i = 0; i < children_.size(); ++i) 699 children_[i]->NoteLayerPropertyChangedForDescendantsInternal(); 700 SetNeedsPushProperties(); 701} 702 703void LayerImpl::NoteLayerPropertyChangedForDescendantsInternal() { 704 layer_property_changed_ = true; 705 for (size_t i = 0; i < children_.size(); ++i) 706 children_[i]->NoteLayerPropertyChangedForDescendantsInternal(); 707} 708 709void LayerImpl::NoteLayerPropertyChangedForDescendants() { 710 layer_tree_impl()->set_needs_update_draw_properties(); 711 for (size_t i = 0; i < children_.size(); ++i) 712 children_[i]->NoteLayerPropertyChangedForDescendantsInternal(); 713 SetNeedsPushProperties(); 714} 715 716const char* LayerImpl::LayerTypeAsString() const { 717 return "cc::LayerImpl"; 718} 719 720void LayerImpl::ResetAllChangeTrackingForSubtree() { 721 layer_property_changed_ = false; 722 723 update_rect_ = gfx::RectF(); 724 damage_rect_ = gfx::RectF(); 725 726 if (draw_properties_.render_surface) 727 draw_properties_.render_surface->ResetPropertyChangedFlag(); 728 729 if (mask_layer_) 730 mask_layer_->ResetAllChangeTrackingForSubtree(); 731 732 if (replica_layer_) { 733 // This also resets the replica mask, if it exists. 734 replica_layer_->ResetAllChangeTrackingForSubtree(); 735 } 736 737 for (size_t i = 0; i < children_.size(); ++i) 738 children_[i]->ResetAllChangeTrackingForSubtree(); 739 740 needs_push_properties_ = false; 741 num_dependents_need_push_properties_ = 0; 742} 743 744gfx::Vector2dF LayerImpl::ScrollOffsetForAnimation() const { 745 return TotalScrollOffset(); 746} 747 748void LayerImpl::OnFilterAnimated(const FilterOperations& filters) { 749 SetFilters(filters); 750} 751 752void LayerImpl::OnOpacityAnimated(float opacity) { 753 SetOpacity(opacity); 754} 755 756void LayerImpl::OnTransformAnimated(const gfx::Transform& transform) { 757 SetTransform(transform); 758} 759 760void LayerImpl::OnScrollOffsetAnimated(const gfx::Vector2dF& scroll_offset) { 761 // Only layers in the active tree should need to do anything here, since 762 // layers in the pending tree will find out about these changes as a 763 // result of the call to SetScrollDelta. 764 if (!IsActive()) 765 return; 766 767 SetScrollDelta(scroll_offset - scroll_offset_); 768 769 layer_tree_impl_->DidAnimateScrollOffset(); 770} 771 772void LayerImpl::OnAnimationWaitingForDeletion() {} 773 774bool LayerImpl::IsActive() const { 775 return layer_tree_impl_->IsActiveTree(); 776} 777 778// TODO(aelias): Convert so that bounds returns SizeF. 779gfx::Size LayerImpl::bounds() const { 780 return gfx::ToCeiledSize(gfx::SizeF(bounds_.width() + bounds_delta_.x(), 781 bounds_.height() + bounds_delta_.y())); 782} 783 784void LayerImpl::SetBounds(const gfx::Size& bounds) { 785 if (bounds_ == bounds) 786 return; 787 788 bounds_ = bounds; 789 790 ScrollbarParametersDidChange(); 791 if (masks_to_bounds()) 792 NoteLayerPropertyChangedForSubtree(); 793 else 794 NoteLayerPropertyChanged(); 795} 796 797void LayerImpl::SetBoundsDelta(const gfx::Vector2dF& bounds_delta) { 798 if (bounds_delta_ == bounds_delta) 799 return; 800 801 bounds_delta_ = bounds_delta; 802 803 ScrollbarParametersDidChange(); 804 if (masks_to_bounds()) 805 NoteLayerPropertyChangedForSubtree(); 806 else 807 NoteLayerPropertyChanged(); 808} 809 810void LayerImpl::SetMaskLayer(scoped_ptr<LayerImpl> mask_layer) { 811 int new_layer_id = mask_layer ? mask_layer->id() : -1; 812 813 if (mask_layer) { 814 DCHECK_EQ(layer_tree_impl(), mask_layer->layer_tree_impl()); 815 DCHECK_NE(new_layer_id, mask_layer_id_); 816 } else if (new_layer_id == mask_layer_id_) { 817 return; 818 } 819 820 mask_layer_ = mask_layer.Pass(); 821 mask_layer_id_ = new_layer_id; 822 if (mask_layer_) 823 mask_layer_->SetParent(this); 824 NoteLayerPropertyChangedForSubtree(); 825} 826 827scoped_ptr<LayerImpl> LayerImpl::TakeMaskLayer() { 828 mask_layer_id_ = -1; 829 return mask_layer_.Pass(); 830} 831 832void LayerImpl::SetReplicaLayer(scoped_ptr<LayerImpl> replica_layer) { 833 int new_layer_id = replica_layer ? replica_layer->id() : -1; 834 835 if (replica_layer) { 836 DCHECK_EQ(layer_tree_impl(), replica_layer->layer_tree_impl()); 837 DCHECK_NE(new_layer_id, replica_layer_id_); 838 } else if (new_layer_id == replica_layer_id_) { 839 return; 840 } 841 842 replica_layer_ = replica_layer.Pass(); 843 replica_layer_id_ = new_layer_id; 844 if (replica_layer_) 845 replica_layer_->SetParent(this); 846 NoteLayerPropertyChangedForSubtree(); 847} 848 849scoped_ptr<LayerImpl> LayerImpl::TakeReplicaLayer() { 850 replica_layer_id_ = -1; 851 return replica_layer_.Pass(); 852} 853 854ScrollbarLayerImplBase* LayerImpl::ToScrollbarLayer() { 855 return NULL; 856} 857 858void LayerImpl::SetDrawsContent(bool draws_content) { 859 if (draws_content_ == draws_content) 860 return; 861 862 draws_content_ = draws_content; 863 NoteLayerPropertyChanged(); 864} 865 866void LayerImpl::SetHideLayerAndSubtree(bool hide) { 867 if (hide_layer_and_subtree_ == hide) 868 return; 869 870 hide_layer_and_subtree_ = hide; 871 NoteLayerPropertyChangedForSubtree(); 872} 873 874void LayerImpl::SetTransformOrigin(const gfx::Point3F& transform_origin) { 875 if (transform_origin_ == transform_origin) 876 return; 877 transform_origin_ = transform_origin; 878 NoteLayerPropertyChangedForSubtree(); 879} 880 881void LayerImpl::SetBackgroundColor(SkColor background_color) { 882 if (background_color_ == background_color) 883 return; 884 885 background_color_ = background_color; 886 NoteLayerPropertyChanged(); 887} 888 889SkColor LayerImpl::SafeOpaqueBackgroundColor() const { 890 SkColor color = background_color(); 891 if (SkColorGetA(color) == 255 && !contents_opaque()) { 892 color = SK_ColorTRANSPARENT; 893 } else if (SkColorGetA(color) != 255 && contents_opaque()) { 894 for (const LayerImpl* layer = parent(); layer; 895 layer = layer->parent()) { 896 color = layer->background_color(); 897 if (SkColorGetA(color) == 255) 898 break; 899 } 900 if (SkColorGetA(color) != 255) 901 color = layer_tree_impl()->background_color(); 902 if (SkColorGetA(color) != 255) 903 color = SkColorSetA(color, 255); 904 } 905 return color; 906} 907 908void LayerImpl::SetFilters(const FilterOperations& filters) { 909 if (filters_ == filters) 910 return; 911 912 filters_ = filters; 913 NoteLayerPropertyChangedForSubtree(); 914} 915 916bool LayerImpl::FilterIsAnimating() const { 917 return layer_animation_controller_->IsAnimatingProperty(Animation::Filter); 918} 919 920bool LayerImpl::FilterIsAnimatingOnImplOnly() const { 921 Animation* filter_animation = 922 layer_animation_controller_->GetAnimation(Animation::Filter); 923 return filter_animation && filter_animation->is_impl_only(); 924} 925 926void LayerImpl::SetBackgroundFilters( 927 const FilterOperations& filters) { 928 if (background_filters_ == filters) 929 return; 930 931 background_filters_ = filters; 932 NoteLayerPropertyChanged(); 933} 934 935void LayerImpl::SetMasksToBounds(bool masks_to_bounds) { 936 if (masks_to_bounds_ == masks_to_bounds) 937 return; 938 939 masks_to_bounds_ = masks_to_bounds; 940 NoteLayerPropertyChangedForSubtree(); 941} 942 943void LayerImpl::SetContentsOpaque(bool opaque) { 944 if (contents_opaque_ == opaque) 945 return; 946 947 contents_opaque_ = opaque; 948 NoteLayerPropertyChangedForSubtree(); 949} 950 951void LayerImpl::SetOpacity(float opacity) { 952 if (opacity_ == opacity) 953 return; 954 955 opacity_ = opacity; 956 NoteLayerPropertyChangedForSubtree(); 957} 958 959bool LayerImpl::OpacityIsAnimating() const { 960 return layer_animation_controller_->IsAnimatingProperty(Animation::Opacity); 961} 962 963bool LayerImpl::OpacityIsAnimatingOnImplOnly() const { 964 Animation* opacity_animation = 965 layer_animation_controller_->GetAnimation(Animation::Opacity); 966 return opacity_animation && opacity_animation->is_impl_only(); 967} 968 969void LayerImpl::SetBlendMode(SkXfermode::Mode blend_mode) { 970 if (blend_mode_ == blend_mode) 971 return; 972 973 blend_mode_ = blend_mode; 974 NoteLayerPropertyChangedForSubtree(); 975} 976 977void LayerImpl::SetIsRootForIsolatedGroup(bool root) { 978 if (is_root_for_isolated_group_ == root) 979 return; 980 981 is_root_for_isolated_group_ = root; 982 SetNeedsPushProperties(); 983} 984 985void LayerImpl::SetPosition(const gfx::PointF& position) { 986 if (position_ == position) 987 return; 988 989 position_ = position; 990 NoteLayerPropertyChangedForSubtree(); 991} 992 993void LayerImpl::SetShouldFlattenTransform(bool flatten) { 994 if (should_flatten_transform_ == flatten) 995 return; 996 997 should_flatten_transform_ = flatten; 998 NoteLayerPropertyChangedForSubtree(); 999} 1000 1001void LayerImpl::Set3dSortingContextId(int id) { 1002 if (id == sorting_context_id_) 1003 return; 1004 sorting_context_id_ = id; 1005 NoteLayerPropertyChangedForSubtree(); 1006} 1007 1008void LayerImpl::SetTransform(const gfx::Transform& transform) { 1009 if (transform_ == transform) 1010 return; 1011 1012 transform_ = transform; 1013 transform_is_invertible_ = transform_.IsInvertible(); 1014 NoteLayerPropertyChangedForSubtree(); 1015} 1016 1017void LayerImpl::SetTransformAndInvertibility(const gfx::Transform& transform, 1018 bool transform_is_invertible) { 1019 if (transform_ == transform) { 1020 DCHECK(transform_is_invertible_ == transform_is_invertible) 1021 << "Can't change invertibility if transform is unchanged"; 1022 return; 1023 } 1024 transform_ = transform; 1025 transform_is_invertible_ = transform_is_invertible; 1026 NoteLayerPropertyChangedForSubtree(); 1027} 1028 1029bool LayerImpl::TransformIsAnimating() const { 1030 return layer_animation_controller_->IsAnimatingProperty(Animation::Transform); 1031} 1032 1033bool LayerImpl::TransformIsAnimatingOnImplOnly() const { 1034 Animation* transform_animation = 1035 layer_animation_controller_->GetAnimation(Animation::Transform); 1036 return transform_animation && transform_animation->is_impl_only(); 1037} 1038 1039void LayerImpl::SetUpdateRect(const gfx::RectF& update_rect) { 1040 update_rect_ = update_rect; 1041 SetNeedsPushProperties(); 1042} 1043 1044void LayerImpl::AddDamageRect(const gfx::RectF& damage_rect) { 1045 damage_rect_ = gfx::UnionRects(damage_rect_, damage_rect); 1046} 1047 1048void LayerImpl::SetContentBounds(const gfx::Size& content_bounds) { 1049 if (this->content_bounds() == content_bounds) 1050 return; 1051 1052 draw_properties_.content_bounds = content_bounds; 1053 NoteLayerPropertyChanged(); 1054} 1055 1056void LayerImpl::SetContentsScale(float contents_scale_x, 1057 float contents_scale_y) { 1058 if (this->contents_scale_x() == contents_scale_x && 1059 this->contents_scale_y() == contents_scale_y) 1060 return; 1061 1062 draw_properties_.contents_scale_x = contents_scale_x; 1063 draw_properties_.contents_scale_y = contents_scale_y; 1064 NoteLayerPropertyChanged(); 1065} 1066 1067void LayerImpl::SetScrollOffsetDelegate( 1068 ScrollOffsetDelegate* scroll_offset_delegate) { 1069 // Having both a scroll parent and a scroll offset delegate is unsupported. 1070 DCHECK(!scroll_parent_); 1071 if (!scroll_offset_delegate && scroll_offset_delegate_) { 1072 scroll_delta_ = 1073 scroll_offset_delegate_->GetTotalScrollOffset() - scroll_offset_; 1074 } 1075 gfx::Vector2dF total_offset = TotalScrollOffset(); 1076 scroll_offset_delegate_ = scroll_offset_delegate; 1077 if (scroll_offset_delegate_) 1078 scroll_offset_delegate_->SetTotalScrollOffset(total_offset); 1079} 1080 1081bool LayerImpl::IsExternalFlingActive() const { 1082 return scroll_offset_delegate_ && 1083 scroll_offset_delegate_->IsExternalFlingActive(); 1084} 1085 1086void LayerImpl::SetScrollOffset(const gfx::Vector2d& scroll_offset) { 1087 SetScrollOffsetAndDelta(scroll_offset, ScrollDelta()); 1088} 1089 1090void LayerImpl::SetScrollOffsetAndDelta(const gfx::Vector2d& scroll_offset, 1091 const gfx::Vector2dF& scroll_delta) { 1092 bool changed = false; 1093 1094 last_scroll_offset_ = scroll_offset; 1095 1096 if (scroll_offset_ != scroll_offset) { 1097 changed = true; 1098 scroll_offset_ = scroll_offset; 1099 1100 if (scroll_offset_delegate_) 1101 scroll_offset_delegate_->SetTotalScrollOffset(TotalScrollOffset()); 1102 } 1103 1104 if (ScrollDelta() != scroll_delta) { 1105 changed = true; 1106 if (layer_tree_impl()->IsActiveTree()) { 1107 LayerImpl* pending_twin = 1108 layer_tree_impl()->FindPendingTreeLayerById(id()); 1109 if (pending_twin) { 1110 // The pending twin can't mirror the scroll delta of the active 1111 // layer. Although the delta - sent scroll delta difference is 1112 // identical for both twins, the sent scroll delta for the pending 1113 // layer is zero, as anything that has been sent has been baked 1114 // into the layer's position/scroll offset as a part of commit. 1115 DCHECK(pending_twin->sent_scroll_delta().IsZero()); 1116 pending_twin->SetScrollDelta(scroll_delta - sent_scroll_delta()); 1117 } 1118 } 1119 1120 if (scroll_offset_delegate_) { 1121 scroll_offset_delegate_->SetTotalScrollOffset(scroll_offset_ + 1122 scroll_delta); 1123 } else { 1124 scroll_delta_ = scroll_delta; 1125 } 1126 } 1127 1128 if (changed) { 1129 NoteLayerPropertyChangedForSubtree(); 1130 ScrollbarParametersDidChange(); 1131 } 1132} 1133 1134gfx::Vector2dF LayerImpl::ScrollDelta() const { 1135 if (scroll_offset_delegate_) 1136 return scroll_offset_delegate_->GetTotalScrollOffset() - scroll_offset_; 1137 return scroll_delta_; 1138} 1139 1140void LayerImpl::SetScrollDelta(const gfx::Vector2dF& scroll_delta) { 1141 SetScrollOffsetAndDelta(scroll_offset_, scroll_delta); 1142} 1143 1144gfx::Vector2dF LayerImpl::TotalScrollOffset() const { 1145 return scroll_offset_ + ScrollDelta(); 1146} 1147 1148void LayerImpl::SetDoubleSided(bool double_sided) { 1149 if (double_sided_ == double_sided) 1150 return; 1151 1152 double_sided_ = double_sided; 1153 NoteLayerPropertyChangedForSubtree(); 1154} 1155 1156SimpleEnclosedRegion LayerImpl::VisibleContentOpaqueRegion() const { 1157 if (contents_opaque()) 1158 return SimpleEnclosedRegion(visible_content_rect()); 1159 return SimpleEnclosedRegion(); 1160} 1161 1162void LayerImpl::DidBeginTracing() {} 1163 1164void LayerImpl::ReleaseResources() {} 1165 1166gfx::Vector2d LayerImpl::MaxScrollOffset() const { 1167 if (!scroll_clip_layer_ || bounds().IsEmpty()) 1168 return gfx::Vector2d(); 1169 1170 LayerImpl const* page_scale_layer = layer_tree_impl()->page_scale_layer(); 1171 DCHECK(this != page_scale_layer); 1172 DCHECK(this != layer_tree_impl()->InnerViewportScrollLayer() || 1173 IsContainerForFixedPositionLayers()); 1174 1175 gfx::SizeF scaled_scroll_bounds(bounds()); 1176 1177 float scale_factor = 1.f; 1178 for (LayerImpl const* current_layer = this; 1179 current_layer != scroll_clip_layer_; 1180 current_layer = current_layer->parent()) { 1181 DCHECK(current_layer); 1182 float current_layer_scale = 1.f; 1183 1184 const gfx::Transform& layer_transform = current_layer->transform(); 1185 if (current_layer == page_scale_layer) { 1186 DCHECK(layer_transform.IsIdentity()); 1187 current_layer_scale = layer_tree_impl()->total_page_scale_factor(); 1188 } else { 1189 // TODO(wjmaclean) Should we allow for translation too? 1190 DCHECK(layer_transform.IsScale2d()); 1191 gfx::Vector2dF layer_scale = layer_transform.Scale2d(); 1192 // TODO(wjmaclean) Allow for non-isotropic scales. 1193 DCHECK(layer_scale.x() == layer_scale.y()); 1194 current_layer_scale = layer_scale.x(); 1195 } 1196 1197 scale_factor *= current_layer_scale; 1198 } 1199 // TODO(wjmaclean) Once we move to a model where the two-viewport model is 1200 // turned on in all builds, remove the next two lines. For now however, the 1201 // page scale layer may coincide with the clip layer, and so this is 1202 // necessary. 1203 if (page_scale_layer == scroll_clip_layer_) 1204 scale_factor *= layer_tree_impl()->total_page_scale_factor(); 1205 1206 scaled_scroll_bounds.SetSize(scale_factor * scaled_scroll_bounds.width(), 1207 scale_factor * scaled_scroll_bounds.height()); 1208 scaled_scroll_bounds = gfx::ToFlooredSize(scaled_scroll_bounds); 1209 1210 gfx::Vector2dF max_offset( 1211 scaled_scroll_bounds.width() - scroll_clip_layer_->bounds().width(), 1212 scaled_scroll_bounds.height() - scroll_clip_layer_->bounds().height()); 1213 // We need the final scroll offset to be in CSS coords. 1214 max_offset.Scale(1 / scale_factor); 1215 max_offset.SetToMax(gfx::Vector2dF()); 1216 return gfx::ToFlooredVector2d(max_offset); 1217} 1218 1219gfx::Vector2dF LayerImpl::ClampScrollToMaxScrollOffset() { 1220 gfx::Vector2dF max_offset = MaxScrollOffset(); 1221 gfx::Vector2dF old_offset = TotalScrollOffset(); 1222 gfx::Vector2dF clamped_offset = old_offset; 1223 1224 clamped_offset.SetToMin(max_offset); 1225 clamped_offset.SetToMax(gfx::Vector2d()); 1226 gfx::Vector2dF delta = clamped_offset - old_offset; 1227 if (!delta.IsZero()) 1228 ScrollBy(delta); 1229 1230 return delta; 1231} 1232 1233void LayerImpl::SetScrollbarPosition(ScrollbarLayerImplBase* scrollbar_layer, 1234 LayerImpl* scrollbar_clip_layer) const { 1235 DCHECK(scrollbar_layer); 1236 LayerImpl* page_scale_layer = layer_tree_impl()->page_scale_layer(); 1237 1238 DCHECK(this != page_scale_layer); 1239 DCHECK(scrollbar_clip_layer); 1240 DCHECK(this != layer_tree_impl()->InnerViewportScrollLayer() || 1241 IsContainerForFixedPositionLayers()); 1242 gfx::RectF clip_rect(gfx::PointF(), scrollbar_clip_layer->bounds()); 1243 1244 // See comment in MaxScrollOffset() regarding the use of the content layer 1245 // bounds here. 1246 gfx::RectF scroll_rect(gfx::PointF(), bounds()); 1247 1248 if (scroll_rect.size().IsEmpty()) 1249 return; 1250 1251 // TODO(wjmaclean) This computation is nearly identical to the one in 1252 // MaxScrollOffset. Find some way to combine these. 1253 gfx::Vector2dF current_offset; 1254 for (LayerImpl const* current_layer = this; 1255 current_layer != scrollbar_clip_layer; 1256 current_layer = current_layer->parent()) { 1257 DCHECK(current_layer); 1258 const gfx::Transform& layer_transform = current_layer->transform(); 1259 if (current_layer == page_scale_layer) { 1260 DCHECK(layer_transform.IsIdentity()); 1261 float scale_factor = layer_tree_impl()->total_page_scale_factor(); 1262 current_offset.Scale(scale_factor); 1263 scroll_rect.Scale(scale_factor); 1264 } else { 1265 DCHECK(layer_transform.IsScale2d()); 1266 gfx::Vector2dF layer_scale = layer_transform.Scale2d(); 1267 DCHECK(layer_scale.x() == layer_scale.y()); 1268 gfx::Vector2dF new_offset = 1269 current_layer->scroll_offset() + current_layer->ScrollDelta(); 1270 new_offset.Scale(layer_scale.x(), layer_scale.y()); 1271 current_offset += new_offset; 1272 } 1273 } 1274 // TODO(wjmaclean) Once we move to a model where the two-viewport model is 1275 // turned on in all builds, remove the next two lines. For now however, the 1276 // page scale layer may coincide with the clip layer, and so this is 1277 // necessary. 1278 if (page_scale_layer == scrollbar_clip_layer) { 1279 scroll_rect.Scale(layer_tree_impl()->total_page_scale_factor()); 1280 current_offset.Scale(layer_tree_impl()->total_page_scale_factor()); 1281 } 1282 1283 bool scrollbar_needs_animation = false; 1284 scrollbar_needs_animation |= scrollbar_layer->SetVerticalAdjust( 1285 scrollbar_clip_layer->bounds_delta().y()); 1286 if (scrollbar_layer->orientation() == HORIZONTAL) { 1287 float visible_ratio = clip_rect.width() / scroll_rect.width(); 1288 scrollbar_needs_animation |= 1289 scrollbar_layer->SetCurrentPos(current_offset.x()); 1290 scrollbar_needs_animation |= 1291 scrollbar_layer->SetMaximum(scroll_rect.width() - clip_rect.width()); 1292 scrollbar_needs_animation |= 1293 scrollbar_layer->SetVisibleToTotalLengthRatio(visible_ratio); 1294 } else { 1295 float visible_ratio = clip_rect.height() / scroll_rect.height(); 1296 scrollbar_needs_animation |= 1297 scrollbar_layer->SetCurrentPos(current_offset.y()); 1298 scrollbar_needs_animation |= 1299 scrollbar_layer->SetMaximum(scroll_rect.height() - clip_rect.height()); 1300 scrollbar_needs_animation |= 1301 scrollbar_layer->SetVisibleToTotalLengthRatio(visible_ratio); 1302 } 1303 if (scrollbar_needs_animation) { 1304 layer_tree_impl()->set_needs_update_draw_properties(); 1305 // TODO(wjmaclean) The scrollbar animator for the pinch-zoom scrollbars 1306 // should activate for every scroll on the main frame, not just the 1307 // scrolls that move the pinch virtual viewport (i.e. trigger from 1308 // either inner or outer viewport). 1309 if (scrollbar_animation_controller_) { 1310 // When both non-overlay and overlay scrollbars are both present, don't 1311 // animate the overlay scrollbars when page scale factor is at the min. 1312 // Non-overlay scrollbars also shouldn't trigger animations. 1313 bool is_animatable_scrollbar = 1314 scrollbar_layer->is_overlay_scrollbar() && 1315 ((layer_tree_impl()->total_page_scale_factor() > 1316 layer_tree_impl()->min_page_scale_factor()) || 1317 !layer_tree_impl()->settings().use_pinch_zoom_scrollbars); 1318 if (is_animatable_scrollbar) 1319 scrollbar_animation_controller_->DidScrollUpdate(); 1320 } 1321 } 1322} 1323 1324void LayerImpl::DidBecomeActive() { 1325 if (layer_tree_impl_->settings().scrollbar_animator == 1326 LayerTreeSettings::NoAnimator) { 1327 return; 1328 } 1329 1330 bool need_scrollbar_animation_controller = scrollable() && scrollbars_; 1331 if (!need_scrollbar_animation_controller) { 1332 scrollbar_animation_controller_.reset(); 1333 return; 1334 } 1335 1336 if (scrollbar_animation_controller_) 1337 return; 1338 1339 scrollbar_animation_controller_ = 1340 layer_tree_impl_->CreateScrollbarAnimationController(this); 1341} 1342 1343void LayerImpl::ClearScrollbars() { 1344 if (!scrollbars_) 1345 return; 1346 1347 scrollbars_.reset(NULL); 1348} 1349 1350void LayerImpl::AddScrollbar(ScrollbarLayerImplBase* layer) { 1351 DCHECK(layer); 1352 DCHECK(!scrollbars_ || scrollbars_->find(layer) == scrollbars_->end()); 1353 if (!scrollbars_) 1354 scrollbars_.reset(new ScrollbarSet()); 1355 1356 scrollbars_->insert(layer); 1357} 1358 1359void LayerImpl::RemoveScrollbar(ScrollbarLayerImplBase* layer) { 1360 DCHECK(scrollbars_); 1361 DCHECK(layer); 1362 DCHECK(scrollbars_->find(layer) != scrollbars_->end()); 1363 1364 scrollbars_->erase(layer); 1365 if (scrollbars_->empty()) 1366 scrollbars_.reset(); 1367} 1368 1369bool LayerImpl::HasScrollbar(ScrollbarOrientation orientation) const { 1370 if (!scrollbars_) 1371 return false; 1372 1373 for (ScrollbarSet::iterator it = scrollbars_->begin(); 1374 it != scrollbars_->end(); 1375 ++it) 1376 if ((*it)->orientation() == orientation) 1377 return true; 1378 1379 return false; 1380} 1381 1382void LayerImpl::ScrollbarParametersDidChange() { 1383 if (!scrollbars_) 1384 return; 1385 1386 for (ScrollbarSet::iterator it = scrollbars_->begin(); 1387 it != scrollbars_->end(); 1388 ++it) 1389 (*it)->ScrollbarParametersDidChange(); 1390} 1391 1392void LayerImpl::SetNeedsPushProperties() { 1393 if (needs_push_properties_) 1394 return; 1395 if (!parent_should_know_need_push_properties() && parent_) 1396 parent_->AddDependentNeedsPushProperties(); 1397 needs_push_properties_ = true; 1398} 1399 1400void LayerImpl::AddDependentNeedsPushProperties() { 1401 DCHECK_GE(num_dependents_need_push_properties_, 0); 1402 1403 if (!parent_should_know_need_push_properties() && parent_) 1404 parent_->AddDependentNeedsPushProperties(); 1405 1406 num_dependents_need_push_properties_++; 1407} 1408 1409void LayerImpl::RemoveDependentNeedsPushProperties() { 1410 num_dependents_need_push_properties_--; 1411 DCHECK_GE(num_dependents_need_push_properties_, 0); 1412 1413 if (!parent_should_know_need_push_properties() && parent_) 1414 parent_->RemoveDependentNeedsPushProperties(); 1415} 1416 1417void LayerImpl::GetAllTilesForTracing(std::set<const Tile*>* tiles) const { 1418} 1419 1420void LayerImpl::AsValueInto(base::debug::TracedValue* state) const { 1421 TracedValue::MakeDictIntoImplicitSnapshotWithCategory( 1422 TRACE_DISABLED_BY_DEFAULT("cc.debug"), 1423 state, 1424 "cc::LayerImpl", 1425 LayerTypeAsString(), 1426 this); 1427 state->SetInteger("layer_id", id()); 1428 state->BeginDictionary("bounds"); 1429 MathUtil::AddToTracedValue(bounds_, state); 1430 state->EndDictionary(); 1431 1432 state->SetDouble("opacity", opacity()); 1433 1434 state->BeginArray("position"); 1435 MathUtil::AddToTracedValue(position_, state); 1436 state->EndArray(); 1437 1438 state->SetInteger("draws_content", DrawsContent()); 1439 state->SetInteger("gpu_memory_usage", GPUMemoryUsageInBytes()); 1440 1441 state->BeginArray("scroll_offset"); 1442 MathUtil::AddToTracedValue(scroll_offset_, state); 1443 state->EndArray(); 1444 1445 state->BeginArray("transform_origin"); 1446 MathUtil::AddToTracedValue(transform_origin_, state); 1447 state->EndArray(); 1448 1449 bool clipped; 1450 gfx::QuadF layer_quad = MathUtil::MapQuad( 1451 screen_space_transform(), 1452 gfx::QuadF(gfx::Rect(content_bounds())), 1453 &clipped); 1454 state->BeginArray("layer_quad"); 1455 MathUtil::AddToTracedValue(layer_quad, state); 1456 state->EndArray(); 1457 if (!touch_event_handler_region_.IsEmpty()) { 1458 state->BeginArray("touch_event_handler_region"); 1459 touch_event_handler_region_.AsValueInto(state); 1460 state->EndArray(); 1461 } 1462 if (have_wheel_event_handlers_) { 1463 gfx::Rect wheel_rect(content_bounds()); 1464 Region wheel_region(wheel_rect); 1465 state->BeginArray("wheel_event_handler_region"); 1466 wheel_region.AsValueInto(state); 1467 state->EndArray(); 1468 } 1469 if (have_scroll_event_handlers_) { 1470 gfx::Rect scroll_rect(content_bounds()); 1471 Region scroll_region(scroll_rect); 1472 state->BeginArray("scroll_event_handler_region"); 1473 scroll_region.AsValueInto(state); 1474 state->EndArray(); 1475 } 1476 if (!non_fast_scrollable_region_.IsEmpty()) { 1477 state->BeginArray("non_fast_scrollable_region"); 1478 non_fast_scrollable_region_.AsValueInto(state); 1479 state->EndArray(); 1480 } 1481 1482 state->BeginArray("children"); 1483 for (size_t i = 0; i < children_.size(); ++i) { 1484 state->BeginDictionary(); 1485 children_[i]->AsValueInto(state); 1486 state->EndDictionary(); 1487 } 1488 state->EndArray(); 1489 if (mask_layer_) { 1490 state->BeginDictionary("mask_layer"); 1491 mask_layer_->AsValueInto(state); 1492 state->EndDictionary(); 1493 } 1494 if (replica_layer_) { 1495 state->BeginDictionary("replica_layer"); 1496 replica_layer_->AsValueInto(state); 1497 state->EndDictionary(); 1498 } 1499 1500 if (scroll_parent_) 1501 state->SetInteger("scroll_parent", scroll_parent_->id()); 1502 1503 if (clip_parent_) 1504 state->SetInteger("clip_parent", clip_parent_->id()); 1505 1506 state->SetBoolean("can_use_lcd_text", can_use_lcd_text()); 1507 state->SetBoolean("contents_opaque", contents_opaque()); 1508 1509 state->SetBoolean( 1510 "has_animation_bounds", 1511 layer_animation_controller()->HasAnimationThatInflatesBounds()); 1512 1513 gfx::BoxF box; 1514 if (LayerUtils::GetAnimationBounds(*this, &box)) { 1515 state->BeginArray("animation_bounds"); 1516 MathUtil::AddToTracedValue(box, state); 1517 state->EndArray(); 1518 } 1519 1520 if (debug_info_.get()) { 1521 std::string str; 1522 debug_info_->AppendAsTraceFormat(&str); 1523 base::JSONReader json_reader; 1524 scoped_ptr<base::Value> debug_info_value(json_reader.ReadToValue(str)); 1525 1526 if (debug_info_value->IsType(base::Value::TYPE_DICTIONARY)) { 1527 base::DictionaryValue* dictionary_value = NULL; 1528 bool converted_to_dictionary = 1529 debug_info_value->GetAsDictionary(&dictionary_value); 1530 DCHECK(converted_to_dictionary); 1531 for (base::DictionaryValue::Iterator it(*dictionary_value); !it.IsAtEnd(); 1532 it.Advance()) { 1533 state->SetValue(it.key().data(), it.value().DeepCopy()); 1534 } 1535 } else { 1536 NOTREACHED(); 1537 } 1538 } 1539} 1540 1541bool LayerImpl::IsDrawnRenderSurfaceLayerListMember() const { 1542 return draw_properties_.last_drawn_render_surface_layer_list_id == 1543 layer_tree_impl_->current_render_surface_list_id(); 1544} 1545 1546size_t LayerImpl::GPUMemoryUsageInBytes() const { return 0; } 1547 1548void LayerImpl::RunMicroBenchmark(MicroBenchmarkImpl* benchmark) { 1549 benchmark->RunOnLayer(this); 1550} 1551 1552int LayerImpl::NumDescendantsThatDrawContent() const { 1553 return num_descendants_that_draw_content_; 1554} 1555 1556void LayerImpl::NotifyAnimationFinished( 1557 base::TimeTicks monotonic_time, 1558 Animation::TargetProperty target_property) { 1559 if (target_property == Animation::ScrollOffset) 1560 layer_tree_impl_->InputScrollAnimationFinished(); 1561} 1562 1563} // namespace cc 1564