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chromium / chromium / src / 52c1eb8aeaf97d9158b24bf237b88ba7d8ee396b / . / ui / accelerated_widget_mac / ca_renderer_layer_tree.mm
blob: c4a67a46c11911f04717a28c4452b44ebc0290a7 [file] [log] [blame]
// Copyright 2016 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "ui/accelerated_widget_mac/ca_renderer_layer_tree.h"
#include <AVFoundation/AVFoundation.h>
#include <CoreMedia/CoreMedia.h>
#include <CoreVideo/CoreVideo.h>
#include <GLES2/gl2extchromium.h>
#include "base/command_line.h"
#include "base/mac/sdk_forward_declarations.h"
#include "base/trace_event/trace_event.h"
#include "third_party/skia/include/core/SkColor.h"
#include "ui/base/cocoa/animation_utils.h"
#include "ui/base/ui_base_switches.h"
#include "ui/gfx/geometry/dip_util.h"
#if !defined(MAC_OS_X_VERSION_10_8) || \
MAC_OS_X_VERSION_MIN_REQUIRED < MAC_OS_X_VERSION_10_8
extern NSString* const AVLayerVideoGravityResize;
extern "C" void NSAccessibilityPostNotificationWithUserInfo(
id object,
NSString* notification,
NSDictionary* user_info);
extern "C" OSStatus CMSampleBufferCreateForImageBuffer(
CFAllocatorRef,
CVImageBufferRef,
Boolean dataReady,
CMSampleBufferMakeDataReadyCallback,
void*,
CMVideoFormatDescriptionRef,
const CMSampleTimingInfo*,
CMSampleBufferRef*);
extern "C" CFArrayRef CMSampleBufferGetSampleAttachmentsArray(CMSampleBufferRef,
Boolean);
extern "C" OSStatus CMVideoFormatDescriptionCreateForImageBuffer(
CFAllocatorRef,
CVImageBufferRef,
CMVideoFormatDescriptionRef*);
extern "C" CMTime CMTimeMake(int64_t, int32_t);
extern CFStringRef const kCMSampleAttachmentKey_DisplayImmediately;
extern const CMTime kCMTimeInvalid;
#endif // MAC_OS_X_VERSION_10_8
namespace ui {
namespace {
// This will enqueue |io_surface| to be drawn by |av_layer|. This will
// retain |cv_pixel_buffer| until it is no longer being displayed.
bool AVSampleBufferDisplayLayerEnqueueCVPixelBuffer(
AVSampleBufferDisplayLayer* av_layer,
CVPixelBufferRef cv_pixel_buffer) {
OSStatus os_status = noErr;
base::ScopedCFTypeRef<CMVideoFormatDescriptionRef> video_info;
os_status = CMVideoFormatDescriptionCreateForImageBuffer(
nullptr, cv_pixel_buffer, video_info.InitializeInto());
if (os_status != noErr) {
LOG(ERROR) << "CMVideoFormatDescriptionCreateForImageBuffer failed with "
<< os_status;
return false;
}
// The frame time doesn't matter because we will specify to display
// immediately.
CMTime frame_time = CMTimeMake(0, 1);
CMSampleTimingInfo timing_info = {frame_time, frame_time, kCMTimeInvalid};
base::ScopedCFTypeRef<CMSampleBufferRef> sample_buffer;
os_status = CMSampleBufferCreateForImageBuffer(
nullptr, cv_pixel_buffer, YES, nullptr, nullptr, video_info, &timing_info,
sample_buffer.InitializeInto());
if (os_status != noErr) {
LOG(ERROR) << "CMSampleBufferCreateForImageBuffer failed with "
<< os_status;
return false;
}
// Specify to display immediately via the sample buffer attachments.
CFArrayRef attachments =
CMSampleBufferGetSampleAttachmentsArray(sample_buffer, YES);
if (!attachments) {
LOG(ERROR) << "CMSampleBufferGetSampleAttachmentsArray failed";
return false;
}
if (CFArrayGetCount(attachments) < 1) {
LOG(ERROR) << "CMSampleBufferGetSampleAttachmentsArray result was empty";
return false;
}
CFMutableDictionaryRef attachments_dictionary =
reinterpret_cast<CFMutableDictionaryRef>(
const_cast<void*>(CFArrayGetValueAtIndex(attachments, 0)));
if (!attachments_dictionary) {
LOG(ERROR) << "Failed to get attachments dictionary";
return false;
}
CFDictionarySetValue(attachments_dictionary,
kCMSampleAttachmentKey_DisplayImmediately,
kCFBooleanTrue);
[av_layer enqueueSampleBuffer:sample_buffer];
return true;
}
// This will enqueue |io_surface| to be drawn by |av_layer| by wrapping
// |io_surface| in a CVPixelBuffer. This will increase the in-use count
// of and retain |io_surface| until it is no longer being displayed.
bool AVSampleBufferDisplayLayerEnqueueIOSurface(
AVSampleBufferDisplayLayer* av_layer,
IOSurfaceRef io_surface) {
CVReturn cv_return = kCVReturnSuccess;
base::ScopedCFTypeRef<CVPixelBufferRef> cv_pixel_buffer;
cv_return = CVPixelBufferCreateWithIOSurface(
nullptr, io_surface, nullptr, cv_pixel_buffer.InitializeInto());
if (cv_return != kCVReturnSuccess) {
LOG(ERROR) << "CVPixelBufferCreateWithIOSurface failed with " << cv_return;
return false;
}
return AVSampleBufferDisplayLayerEnqueueCVPixelBuffer(av_layer,
cv_pixel_buffer);
}
} // namespace
CARendererLayerTree::CARendererLayerTree() {}
CARendererLayerTree::~CARendererLayerTree() {}
bool CARendererLayerTree::ScheduleCALayer(
bool is_clipped,
const gfx::Rect& clip_rect,
unsigned sorting_context_id,
const gfx::Transform& transform,
base::ScopedCFTypeRef<IOSurfaceRef> io_surface,
base::ScopedCFTypeRef<CVPixelBufferRef> cv_pixel_buffer,
const gfx::RectF& contents_rect,
const gfx::Rect& rect,
unsigned background_color,
unsigned edge_aa_mask,
float opacity,
unsigned filter) {
// Excessive logging to debug white screens (crbug.com/583805).
// TODO(ccameron): change this back to a DLOG.
if (has_committed_) {
LOG(ERROR) << "ScheduleCALayer called after CommitScheduledCALayers.";
return false;
}
return root_layer_.AddContentLayer(is_clipped, clip_rect, sorting_context_id,
transform, io_surface, cv_pixel_buffer,
contents_rect, rect, background_color,
edge_aa_mask, opacity, filter);
}
void CARendererLayerTree::CommitScheduledCALayers(
CALayer* superlayer,
std::unique_ptr<CARendererLayerTree> old_tree,
float scale_factor) {
TRACE_EVENT0("gpu", "CARendererLayerTree::CommitScheduledCALayers");
RootLayer* old_root_layer = nullptr;
if (old_tree) {
DCHECK(old_tree->has_committed_);
if (old_tree->scale_factor_ == scale_factor)
old_root_layer = &old_tree->root_layer_;
}
root_layer_.CommitToCA(superlayer, old_root_layer, scale_factor);
// If there are any extra CALayers in |old_tree| that were not stolen by this
// tree, they will be removed from the CALayer tree in this deallocation.
old_tree.reset();
has_committed_ = true;
scale_factor_ = scale_factor;
}
bool CARendererLayerTree::CommitFullscreenLowPowerLayer(
AVSampleBufferDisplayLayer* fullscreen_low_power_layer) {
DCHECK(has_committed_);
const ContentLayer* video_layer = nullptr;
gfx::RectF video_layer_frame_dip;
for (const auto& clip_layer : root_layer_.clip_and_sorting_layers) {
for (const auto& transform_layer : clip_layer.transform_layers) {
for (const auto& content_layer : transform_layer.content_layers) {
// Detached mode requires that no layers be on top of the video layer.
if (video_layer)
return false;
// See if this is the video layer.
if (content_layer.use_av_layer) {
video_layer = &content_layer;
video_layer_frame_dip = gfx::RectF(video_layer->rect);
if (!transform_layer.transform.IsPositiveScaleOrTranslation())
return false;
if (content_layer.opacity != 1)
return false;
transform_layer.transform.TransformRect(&video_layer_frame_dip);
video_layer_frame_dip.Scale(1 / scale_factor_);
continue;
}
// If we haven't found the video layer yet, make sure everything is
// solid black or transparent
if (content_layer.io_surface)
return false;
if (content_layer.background_color != SK_ColorBLACK &&
content_layer.background_color != SK_ColorTRANSPARENT) {
return false;
}
}
}
}
if (!video_layer)
return false;
if (video_layer->cv_pixel_buffer) {
AVSampleBufferDisplayLayerEnqueueCVPixelBuffer(
fullscreen_low_power_layer, video_layer->cv_pixel_buffer);
} else {
AVSampleBufferDisplayLayerEnqueueIOSurface(fullscreen_low_power_layer,
video_layer->io_surface);
}
[fullscreen_low_power_layer setVideoGravity:AVLayerVideoGravityResize];
[fullscreen_low_power_layer setFrame:video_layer_frame_dip.ToCGRect()];
return true;
}
CARendererLayerTree::RootLayer::RootLayer() {}
// Note that for all destructors, the the CALayer will have been reset to nil if
// another layer has taken it.
CARendererLayerTree::RootLayer::~RootLayer() {
[ca_layer removeFromSuperlayer];
}
CARendererLayerTree::ClipAndSortingLayer::ClipAndSortingLayer(
bool is_clipped,
gfx::Rect clip_rect,
unsigned sorting_context_id,
bool is_singleton_sorting_context)
: is_clipped(is_clipped),
clip_rect(clip_rect),
sorting_context_id(sorting_context_id),
is_singleton_sorting_context(is_singleton_sorting_context) {}
CARendererLayerTree::ClipAndSortingLayer::ClipAndSortingLayer(
ClipAndSortingLayer&& layer)
: transform_layers(std::move(layer.transform_layers)),
is_clipped(layer.is_clipped),
clip_rect(layer.clip_rect),
sorting_context_id(layer.sorting_context_id),
is_singleton_sorting_context(layer.is_singleton_sorting_context),
ca_layer(layer.ca_layer) {
// Ensure that the ca_layer be reset, so that when the destructor is called,
// the layer hierarchy is unaffected.
// TODO(ccameron): Add a move constructor for scoped_nsobject to do this
// automatically.
layer.ca_layer.reset();
}
CARendererLayerTree::ClipAndSortingLayer::~ClipAndSortingLayer() {
[ca_layer removeFromSuperlayer];
}
CARendererLayerTree::TransformLayer::TransformLayer(
const gfx::Transform& transform)
: transform(transform) {}
CARendererLayerTree::TransformLayer::TransformLayer(TransformLayer&& layer)
: transform(layer.transform),
content_layers(std::move(layer.content_layers)),
ca_layer(layer.ca_layer) {
layer.ca_layer.reset();
}
CARendererLayerTree::TransformLayer::~TransformLayer() {
[ca_layer removeFromSuperlayer];
}
CARendererLayerTree::ContentLayer::ContentLayer(
base::ScopedCFTypeRef<IOSurfaceRef> io_surface,
base::ScopedCFTypeRef<CVPixelBufferRef> cv_pixel_buffer,
const gfx::RectF& contents_rect,
const gfx::Rect& rect,
unsigned background_color,
unsigned edge_aa_mask,
float opacity,
unsigned filter)
: io_surface(io_surface),
cv_pixel_buffer(cv_pixel_buffer),
contents_rect(contents_rect),
rect(rect),
background_color(background_color),
ca_edge_aa_mask(0),
opacity(opacity),
ca_filter(filter == GL_LINEAR ? kCAFilterLinear : kCAFilterNearest) {
DCHECK(filter == GL_LINEAR || filter == GL_NEAREST);
// Because the root layer has setGeometryFlipped:YES, there is some ambiguity
// about what exactly top and bottom mean. This ambiguity is resolved in
// different ways for solid color CALayers and for CALayers that have content
// (surprise!). For CALayers with IOSurface content, the top edge in the AA
// mask refers to what appears as the bottom edge on-screen. For CALayers
// without content (solid color layers), the top edge in the AA mask is the
// top edge on-screen.
// https://crbug.com/567946
if (edge_aa_mask & GL_CA_LAYER_EDGE_LEFT_CHROMIUM)
ca_edge_aa_mask |= kCALayerLeftEdge;
if (edge_aa_mask & GL_CA_LAYER_EDGE_RIGHT_CHROMIUM)
ca_edge_aa_mask |= kCALayerRightEdge;
if (io_surface) {
if (edge_aa_mask & GL_CA_LAYER_EDGE_TOP_CHROMIUM)
ca_edge_aa_mask |= kCALayerBottomEdge;
if (edge_aa_mask & GL_CA_LAYER_EDGE_BOTTOM_CHROMIUM)
ca_edge_aa_mask |= kCALayerTopEdge;
} else {
if (edge_aa_mask & GL_CA_LAYER_EDGE_TOP_CHROMIUM)
ca_edge_aa_mask |= kCALayerTopEdge;
if (edge_aa_mask & GL_CA_LAYER_EDGE_BOTTOM_CHROMIUM)
ca_edge_aa_mask |= kCALayerBottomEdge;
}
// Only allow 4:2:0 frames which fill the layer's contents to be promoted to
// AV layers.
if (IOSurfaceGetPixelFormat(io_surface) ==
kCVPixelFormatType_420YpCbCr8BiPlanarVideoRange &&
contents_rect == gfx::RectF(0, 0, 1, 1)) {
// Disable AVSampleBufferDisplayLayer due to reports of memory leaks.
// https://crbug.com/631485
use_av_layer = false;
}
}
CARendererLayerTree::ContentLayer::ContentLayer(ContentLayer&& layer)
: io_surface(layer.io_surface),
cv_pixel_buffer(layer.cv_pixel_buffer),
contents_rect(layer.contents_rect),
rect(layer.rect),
background_color(layer.background_color),
ca_edge_aa_mask(layer.ca_edge_aa_mask),
opacity(layer.opacity),
ca_filter(layer.ca_filter),
ca_layer(std::move(layer.ca_layer)),
av_layer(std::move(layer.av_layer)),
use_av_layer(layer.use_av_layer) {
DCHECK(!layer.ca_layer);
DCHECK(!layer.av_layer);
}
CARendererLayerTree::ContentLayer::~ContentLayer() {
[ca_layer removeFromSuperlayer];
}
bool CARendererLayerTree::RootLayer::AddContentLayer(
bool is_clipped,
const gfx::Rect& clip_rect,
unsigned sorting_context_id,
const gfx::Transform& transform,
base::ScopedCFTypeRef<IOSurfaceRef> io_surface,
base::ScopedCFTypeRef<CVPixelBufferRef> cv_pixel_buffer,
const gfx::RectF& contents_rect,
const gfx::Rect& rect,
unsigned background_color,
unsigned edge_aa_mask,
float opacity,
unsigned filter) {
bool needs_new_clip_and_sorting_layer = true;
// In sorting_context_id 0, all quads are listed in back-to-front order.
// This is accomplished by having the CALayers be siblings of each other.
// If a quad has a 3D transform, it is necessary to put it in its own sorting
// context, so that it will not intersect with quads before and after it.
bool is_singleton_sorting_context =
!sorting_context_id && !transform.IsFlat();
if (!clip_and_sorting_layers.empty()) {
ClipAndSortingLayer& current_layer = clip_and_sorting_layers.back();
// It is in error to change the clipping settings within a non-zero sorting
// context. The result will be incorrect layering and intersection.
if (sorting_context_id &&
current_layer.sorting_context_id == sorting_context_id &&
(current_layer.is_clipped != is_clipped ||
current_layer.clip_rect != clip_rect)) {
// Excessive logging to debug white screens (crbug.com/583805).
// TODO(ccameron): change this back to a DLOG.
LOG(ERROR) << "CALayer changed clip inside non-zero sorting context.";
return false;
}
if (!is_singleton_sorting_context &&
!current_layer.is_singleton_sorting_context &&
current_layer.is_clipped == is_clipped &&
current_layer.clip_rect == clip_rect &&
current_layer.sorting_context_id == sorting_context_id) {
needs_new_clip_and_sorting_layer = false;
}
}
if (needs_new_clip_and_sorting_layer) {
clip_and_sorting_layers.push_back(
ClipAndSortingLayer(is_clipped, clip_rect, sorting_context_id,
is_singleton_sorting_context));
}
clip_and_sorting_layers.back().AddContentLayer(
transform, io_surface, cv_pixel_buffer, contents_rect, rect,
background_color, edge_aa_mask, opacity, filter);
return true;
}
void CARendererLayerTree::ClipAndSortingLayer::AddContentLayer(
const gfx::Transform& transform,
base::ScopedCFTypeRef<IOSurfaceRef> io_surface,
base::ScopedCFTypeRef<CVPixelBufferRef> cv_pixel_buffer,
const gfx::RectF& contents_rect,
const gfx::Rect& rect,
unsigned background_color,
unsigned edge_aa_mask,
float opacity,
unsigned filter) {
bool needs_new_transform_layer = true;
if (!transform_layers.empty()) {
const TransformLayer& current_layer = transform_layers.back();
if (current_layer.transform == transform)
needs_new_transform_layer = false;
}
if (needs_new_transform_layer)
transform_layers.push_back(TransformLayer(transform));
transform_layers.back().AddContentLayer(io_surface, cv_pixel_buffer,
contents_rect, rect, background_color,
edge_aa_mask, opacity, filter);
}
void CARendererLayerTree::TransformLayer::AddContentLayer(
base::ScopedCFTypeRef<IOSurfaceRef> io_surface,
base::ScopedCFTypeRef<CVPixelBufferRef> cv_pixel_buffer,
const gfx::RectF& contents_rect,
const gfx::Rect& rect,
unsigned background_color,
unsigned edge_aa_mask,
float opacity,
unsigned filter) {
content_layers.push_back(ContentLayer(io_surface, cv_pixel_buffer,
contents_rect, rect, background_color,
edge_aa_mask, opacity, filter));
}
void CARendererLayerTree::RootLayer::CommitToCA(CALayer* superlayer,
RootLayer* old_layer,
float scale_factor) {
if (old_layer) {
DCHECK(old_layer->ca_layer);
std::swap(ca_layer, old_layer->ca_layer);
} else {
ca_layer.reset([[CALayer alloc] init]);
[ca_layer setAnchorPoint:CGPointZero];
[superlayer setSublayers:nil];
[superlayer addSublayer:ca_layer];
[superlayer setBorderWidth:0];
}
// Excessive logging to debug white screens (crbug.com/583805).
// TODO(ccameron): change this back to a DCHECK.
if ([ca_layer superlayer] != superlayer) {
LOG(ERROR) << "CARendererLayerTree root layer not attached to tree.";
}
for (size_t i = 0; i < clip_and_sorting_layers.size(); ++i) {
ClipAndSortingLayer* old_clip_and_sorting_layer = nullptr;
if (old_layer && i < old_layer->clip_and_sorting_layers.size()) {
old_clip_and_sorting_layer = &old_layer->clip_and_sorting_layers[i];
}
clip_and_sorting_layers[i].CommitToCA(
ca_layer.get(), old_clip_and_sorting_layer, scale_factor);
}
}
void CARendererLayerTree::ClipAndSortingLayer::CommitToCA(
CALayer* superlayer,
ClipAndSortingLayer* old_layer,
float scale_factor) {
bool update_is_clipped = true;
bool update_clip_rect = true;
if (old_layer) {
DCHECK(old_layer->ca_layer);
std::swap(ca_layer, old_layer->ca_layer);
update_is_clipped = old_layer->is_clipped != is_clipped;
update_clip_rect = update_is_clipped || old_layer->clip_rect != clip_rect;
} else {
ca_layer.reset([[CALayer alloc] init]);
[ca_layer setAnchorPoint:CGPointZero];
[superlayer addSublayer:ca_layer];
}
// Excessive logging to debug white screens (crbug.com/583805).
// TODO(ccameron): change this back to a DCHECK.
if ([ca_layer superlayer] != superlayer) {
LOG(ERROR) << "CARendererLayerTree root layer not attached to tree.";
}
if (update_is_clipped)
[ca_layer setMasksToBounds:is_clipped];
if (update_clip_rect) {
if (is_clipped) {
gfx::RectF dip_clip_rect = gfx::RectF(clip_rect);
dip_clip_rect.Scale(1 / scale_factor);
[ca_layer setPosition:CGPointMake(dip_clip_rect.x(), dip_clip_rect.y())];
[ca_layer setBounds:CGRectMake(0, 0, dip_clip_rect.width(),
dip_clip_rect.height())];
[ca_layer
setSublayerTransform:CATransform3DMakeTranslation(
-dip_clip_rect.x(), -dip_clip_rect.y(), 0)];
} else {
[ca_layer setPosition:CGPointZero];
[ca_layer setBounds:CGRectZero];
[ca_layer setSublayerTransform:CATransform3DIdentity];
}
}
for (size_t i = 0; i < transform_layers.size(); ++i) {
TransformLayer* old_transform_layer = nullptr;
if (old_layer && i < old_layer->transform_layers.size())
old_transform_layer = &old_layer->transform_layers[i];
transform_layers[i].CommitToCA(ca_layer.get(), old_transform_layer,
scale_factor);
}
}
void CARendererLayerTree::TransformLayer::CommitToCA(CALayer* superlayer,
TransformLayer* old_layer,
float scale_factor) {
bool update_transform = true;
if (old_layer) {
DCHECK(old_layer->ca_layer);
std::swap(ca_layer, old_layer->ca_layer);
update_transform = old_layer->transform != transform;
} else {
ca_layer.reset([[CATransformLayer alloc] init]);
[superlayer addSublayer:ca_layer];
}
DCHECK_EQ([ca_layer superlayer], superlayer);
if (update_transform) {
gfx::Transform pre_scale;
gfx::Transform post_scale;
pre_scale.Scale(1 / scale_factor, 1 / scale_factor);
post_scale.Scale(scale_factor, scale_factor);
gfx::Transform conjugated_transform = pre_scale * transform * post_scale;
CATransform3D ca_transform;
conjugated_transform.matrix().asColMajord(&ca_transform.m11);
[ca_layer setTransform:ca_transform];
}
for (size_t i = 0; i < content_layers.size(); ++i) {
ContentLayer* old_content_layer = nullptr;
if (old_layer && i < old_layer->content_layers.size())
old_content_layer = &old_layer->content_layers[i];
content_layers[i].CommitToCA(ca_layer.get(), old_content_layer,
scale_factor);
}
}
void CARendererLayerTree::ContentLayer::CommitToCA(CALayer* superlayer,
ContentLayer* old_layer,
float scale_factor) {
bool update_contents = true;
bool update_contents_rect = true;
bool update_rect = true;
bool update_background_color = true;
bool update_ca_edge_aa_mask = true;
bool update_opacity = true;
bool update_ca_filter = true;
if (old_layer && old_layer->use_av_layer == use_av_layer) {
DCHECK(old_layer->ca_layer);
std::swap(ca_layer, old_layer->ca_layer);
std::swap(av_layer, old_layer->av_layer);
update_contents = old_layer->io_surface != io_surface ||
old_layer->cv_pixel_buffer != cv_pixel_buffer;
update_contents_rect = old_layer->contents_rect != contents_rect;
update_rect = old_layer->rect != rect;
update_background_color = old_layer->background_color != background_color;
update_ca_edge_aa_mask = old_layer->ca_edge_aa_mask != ca_edge_aa_mask;
update_opacity = old_layer->opacity != opacity;
update_ca_filter = old_layer->ca_filter != ca_filter;
} else {
if (use_av_layer) {
av_layer.reset([[AVSampleBufferDisplayLayer alloc] init]);
ca_layer.reset([av_layer retain]);
[av_layer setVideoGravity:AVLayerVideoGravityResize];
} else {
ca_layer.reset([[CALayer alloc] init]);
}
[ca_layer setAnchorPoint:CGPointZero];
if (old_layer && old_layer->ca_layer)
[superlayer replaceSublayer:old_layer->ca_layer with:ca_layer];
else
[superlayer addSublayer:ca_layer];
}
DCHECK_EQ([ca_layer superlayer], superlayer);
bool update_anything = update_contents || update_contents_rect ||
update_rect || update_background_color ||
update_ca_edge_aa_mask || update_opacity ||
update_ca_filter;
if (use_av_layer) {
if (update_contents) {
if (cv_pixel_buffer) {
AVSampleBufferDisplayLayerEnqueueCVPixelBuffer(av_layer,
cv_pixel_buffer);
} else {
AVSampleBufferDisplayLayerEnqueueIOSurface(av_layer, io_surface);
}
}
} else {
if (update_contents) {
[ca_layer setContents:static_cast<id>(io_surface.get())];
if ([ca_layer respondsToSelector:(@selector(setContentsScale:))])
[ca_layer setContentsScale:scale_factor];
}
if (update_contents_rect)
[ca_layer setContentsRect:contents_rect.ToCGRect()];
}
if (update_rect) {
gfx::RectF dip_rect = gfx::RectF(rect);
dip_rect.Scale(1 / scale_factor);
[ca_layer setPosition:CGPointMake(dip_rect.x(), dip_rect.y())];
[ca_layer setBounds:CGRectMake(0, 0, dip_rect.width(), dip_rect.height())];
}
if (update_background_color) {
CGFloat rgba_color_components[4] = {
SkColorGetR(background_color) / 255.,
SkColorGetG(background_color) / 255.,
SkColorGetB(background_color) / 255.,
SkColorGetA(background_color) / 255.,
};
base::ScopedCFTypeRef<CGColorRef> srgb_background_color(CGColorCreate(
CGColorSpaceCreateWithName(kCGColorSpaceSRGB), rgba_color_components));
[ca_layer setBackgroundColor:srgb_background_color];
}
if (update_ca_edge_aa_mask)
[ca_layer setEdgeAntialiasingMask:ca_edge_aa_mask];
if (update_opacity)
[ca_layer setOpacity:opacity];
if (update_ca_filter) {
[ca_layer setMagnificationFilter:ca_filter];
[ca_layer setMinificationFilter:ca_filter];
}
static bool show_borders = base::CommandLine::ForCurrentProcess()->HasSwitch(
switches::kShowMacOverlayBorders);
if (show_borders) {
base::ScopedCFTypeRef<CGColorRef> color;
if (update_anything) {
if (use_av_layer) {
// Yellow represents an AV layer that changed this frame.
color.reset(CGColorCreateGenericRGB(1, 1, 0, 1));
} else {
// Pink represents a CALayer that changed this frame.
color.reset(CGColorCreateGenericRGB(1, 0, 1, 1));
}
} else {
// Grey represents a CALayer that has not changed.
color.reset(CGColorCreateGenericRGB(0.5, 0.5, 0.5, 1));
}
[ca_layer setBorderWidth:1];
[ca_layer setBorderColor:color];
}
}
} // namespace ui