modules/desktop_capture/desktop_and_cursor_composer.cc - src - Git at Google

 /*
  *  Copyright (c) 2013 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "modules/desktop_capture/desktop_and_cursor_composer.h"

 #include <stdint.h>
 #include <string.h>

 #include <memory>
 #include <utility>

 #include "modules/desktop_capture/desktop_capturer.h"
 #include "modules/desktop_capture/desktop_frame.h"
 #include "modules/desktop_capture/mouse_cursor.h"
 #include "modules/desktop_capture/mouse_cursor_monitor.h"
 #include "rtc_base/checks.h"
 #include "rtc_base/constructor_magic.h"

 namespace webrtc {

 namespace {

 // Helper function that blends one image into another. Source image must be
 // pre-multiplied with the alpha channel. Destination is assumed to be opaque.
 void AlphaBlend(uint8_t* dest,
                 int dest_stride,
                 const uint8_t* src,
                 int src_stride,
                 const DesktopSize& size) {
   for (int y = 0; y < size.height(); ++y) {
     for (int x = 0; x < size.width(); ++x) {
       uint32_t base_alpha = 255 - src[x * DesktopFrame::kBytesPerPixel + 3];
       if (base_alpha == 255) {
         continue;
       } else if (base_alpha == 0) {
         memcpy(dest + x * DesktopFrame::kBytesPerPixel,
                src + x * DesktopFrame::kBytesPerPixel,
                DesktopFrame::kBytesPerPixel);
       } else {
         dest[x * DesktopFrame::kBytesPerPixel] =
             dest[x * DesktopFrame::kBytesPerPixel] * base_alpha / 255 +
             src[x * DesktopFrame::kBytesPerPixel];
         dest[x * DesktopFrame::kBytesPerPixel + 1] =
             dest[x * DesktopFrame::kBytesPerPixel + 1] * base_alpha / 255 +
             src[x * DesktopFrame::kBytesPerPixel + 1];
         dest[x * DesktopFrame::kBytesPerPixel + 2] =
             dest[x * DesktopFrame::kBytesPerPixel + 2] * base_alpha / 255 +
             src[x * DesktopFrame::kBytesPerPixel + 2];
       }
     }
     src += src_stride;
     dest += dest_stride;
   }
 }

 // DesktopFrame wrapper that draws mouse on a frame and restores original
 // content before releasing the underlying frame.
 class DesktopFrameWithCursor : public DesktopFrame {
  public:
   // Takes ownership of |frame|.
   DesktopFrameWithCursor(std::unique_ptr<DesktopFrame> frame,
                          const MouseCursor& cursor,
                          const DesktopVector& position,
                          const DesktopRect& previous_cursor_rect,
                          bool cursor_changed);
   ~DesktopFrameWithCursor() override;

   DesktopRect cursor_rect() const { return cursor_rect_; }

  private:
   const std::unique_ptr<DesktopFrame> original_frame_;

   DesktopVector restore_position_;
   std::unique_ptr<DesktopFrame> restore_frame_;
   DesktopRect cursor_rect_;

   RTC_DISALLOW_COPY_AND_ASSIGN(DesktopFrameWithCursor);
 };

 DesktopFrameWithCursor::DesktopFrameWithCursor(
     std::unique_ptr<DesktopFrame> frame,
     const MouseCursor& cursor,
     const DesktopVector& position,
     const DesktopRect& previous_cursor_rect,
     bool cursor_changed)
     : DesktopFrame(frame->size(),
                    frame->stride(),
                    frame->data(),
                    frame->shared_memory()),
       original_frame_(std::move(frame)) {
   MoveFrameInfoFrom(original_frame_.get());

   DesktopVector image_pos = position.subtract(cursor.hotspot());
   cursor_rect_ = DesktopRect::MakeSize(cursor.image()->size());
   cursor_rect_.Translate(image_pos);
   DesktopVector cursor_origin = cursor_rect_.top_left();
   cursor_rect_.IntersectWith(DesktopRect::MakeSize(size()));

   if (!previous_cursor_rect.equals(cursor_rect_)) {
     mutable_updated_region()->AddRect(cursor_rect_);
     mutable_updated_region()->AddRect(previous_cursor_rect);
   } else if (cursor_changed) {
     mutable_updated_region()->AddRect(cursor_rect_);
   }

   if (cursor_rect_.is_empty())
     return;

   // Copy original screen content under cursor to |restore_frame_|.
   restore_position_ = cursor_rect_.top_left();
   restore_frame_.reset(new BasicDesktopFrame(cursor_rect_.size()));
   restore_frame_->CopyPixelsFrom(*this, cursor_rect_.top_left(),
                                  DesktopRect::MakeSize(restore_frame_->size()));

   // Blit the cursor.
   uint8_t* cursor_rect_data =
       reinterpret_cast<uint8_t*>(data()) + cursor_rect_.top() * stride() +
       cursor_rect_.left() * DesktopFrame::kBytesPerPixel;
   DesktopVector origin_shift = cursor_rect_.top_left().subtract(cursor_origin);
   AlphaBlend(cursor_rect_data, stride(),
              cursor.image()->data() +
                  origin_shift.y() * cursor.image()->stride() +
                  origin_shift.x() * DesktopFrame::kBytesPerPixel,
              cursor.image()->stride(), cursor_rect_.size());
 }

 DesktopFrameWithCursor::~DesktopFrameWithCursor() {
   // Restore original content of the frame.
   if (restore_frame_) {
     DesktopRect target_rect = DesktopRect::MakeSize(restore_frame_->size());
     target_rect.Translate(restore_position_);
     CopyPixelsFrom(restore_frame_->data(), restore_frame_->stride(),
                    target_rect);
   }
 }

 }  // namespace

 DesktopAndCursorComposer::DesktopAndCursorComposer(
     std::unique_ptr<DesktopCapturer> desktop_capturer,
     const DesktopCaptureOptions& options)
     : DesktopAndCursorComposer(desktop_capturer.release(),
                                MouseCursorMonitor::Create(options).release()) {}

 DesktopAndCursorComposer::DesktopAndCursorComposer(
     DesktopCapturer* desktop_capturer,
     MouseCursorMonitor* mouse_monitor)
     : desktop_capturer_(desktop_capturer), mouse_monitor_(mouse_monitor) {
   RTC_DCHECK(desktop_capturer_);
 }

 DesktopAndCursorComposer::~DesktopAndCursorComposer() = default;

 std::unique_ptr<DesktopAndCursorComposer>
 DesktopAndCursorComposer::CreateWithoutMouseCursorMonitor(
     std::unique_ptr<DesktopCapturer> desktop_capturer) {
   return std::unique_ptr<DesktopAndCursorComposer>(
       new DesktopAndCursorComposer(desktop_capturer.release(), nullptr));
 }

 void DesktopAndCursorComposer::Start(DesktopCapturer::Callback* callback) {
   callback_ = callback;
   if (mouse_monitor_)
     mouse_monitor_->Init(this, MouseCursorMonitor::SHAPE_AND_POSITION);
   desktop_capturer_->Start(this);
 }

 void DesktopAndCursorComposer::SetSharedMemoryFactory(
     std::unique_ptr<SharedMemoryFactory> shared_memory_factory) {
   desktop_capturer_->SetSharedMemoryFactory(std::move(shared_memory_factory));
 }

 void DesktopAndCursorComposer::CaptureFrame() {
   if (mouse_monitor_)
     mouse_monitor_->Capture();
   desktop_capturer_->CaptureFrame();
 }

 void DesktopAndCursorComposer::SetExcludedWindow(WindowId window) {
   desktop_capturer_->SetExcludedWindow(window);
 }

 bool DesktopAndCursorComposer::GetSourceList(SourceList* sources) {
   return desktop_capturer_->GetSourceList(sources);
 }

 bool DesktopAndCursorComposer::SelectSource(SourceId id) {
   return desktop_capturer_->SelectSource(id);
 }

 bool DesktopAndCursorComposer::FocusOnSelectedSource() {
   return desktop_capturer_->FocusOnSelectedSource();
 }

 bool DesktopAndCursorComposer::IsOccluded(const DesktopVector& pos) {
   return desktop_capturer_->IsOccluded(pos);
 }

 void DesktopAndCursorComposer::OnCaptureResult(
     DesktopCapturer::Result result,
     std::unique_ptr<DesktopFrame> frame) {
   if (frame && cursor_) {
     if (!frame->may_contain_cursor() &&
         frame->rect().Contains(cursor_position_) &&
         !desktop_capturer_->IsOccluded(cursor_position_)) {
       DesktopVector relative_position =
           cursor_position_.subtract(frame->top_left());
 #if defined(WEBRTC_MAC)
       // On OSX, the logical(DIP) and physical coordinates are used mixingly.
       // For example, the captured cursor has its size in physical pixels(2x)
       // and location in logical(DIP) pixels on Retina monitor. This will cause
       // problem when the desktop is mixed with Retina and non-Retina monitors.
       // So we use DIP pixel for all location info and compensate with the scale
       // factor of current frame to the |relative_position|.
       const float scale = frame->scale_factor();
       relative_position.set(relative_position.x() * scale,
                             relative_position.y() * scale);
 #endif
       auto frame_with_cursor = std::make_unique<DesktopFrameWithCursor>(
           std::move(frame), *cursor_, relative_position, previous_cursor_rect_,
           cursor_changed_);
       previous_cursor_rect_ = frame_with_cursor->cursor_rect();
       cursor_changed_ = false;
       frame = std::move(frame_with_cursor);
       frame->set_may_contain_cursor(true);
     }
   }

   callback_->OnCaptureResult(result, std::move(frame));
 }

 void DesktopAndCursorComposer::OnMouseCursor(MouseCursor* cursor) {
   cursor_changed_ = true;
   cursor_.reset(cursor);
 }

 void DesktopAndCursorComposer::OnMouseCursorPosition(
     const DesktopVector& position) {
   cursor_position_ = position;
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2013 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "modules/desktop_capture/desktop_and_cursor_composer.h"

	#include <stdint.h>
	#include <string.h>

	#include <memory>
	#include <utility>

	#include "modules/desktop_capture/desktop_capturer.h"
	#include "modules/desktop_capture/desktop_frame.h"
	#include "modules/desktop_capture/mouse_cursor.h"
	#include "modules/desktop_capture/mouse_cursor_monitor.h"
	#include "rtc_base/checks.h"
	#include "rtc_base/constructor_magic.h"

	namespace webrtc {

	namespace {

	// Helper function that blends one image into another. Source image must be
	// pre-multiplied with the alpha channel. Destination is assumed to be opaque.
	void AlphaBlend(uint8_t* dest,
	int dest_stride,
	const uint8_t* src,
	int src_stride,
	const DesktopSize& size) {
	for (int y = 0; y < size.height(); ++y) {
	for (int x = 0; x < size.width(); ++x) {
	uint32_t base_alpha = 255 - src[x * DesktopFrame::kBytesPerPixel + 3];
	if (base_alpha == 255) {
	continue;
	} else if (base_alpha == 0) {
	memcpy(dest + x * DesktopFrame::kBytesPerPixel,
	src + x * DesktopFrame::kBytesPerPixel,
	DesktopFrame::kBytesPerPixel);
	} else {
	dest[x * DesktopFrame::kBytesPerPixel] =
	dest[x * DesktopFrame::kBytesPerPixel] * base_alpha / 255 +
	src[x * DesktopFrame::kBytesPerPixel];
	dest[x * DesktopFrame::kBytesPerPixel + 1] =
	dest[x * DesktopFrame::kBytesPerPixel + 1] * base_alpha / 255 +
	src[x * DesktopFrame::kBytesPerPixel + 1];
	dest[x * DesktopFrame::kBytesPerPixel + 2] =
	dest[x * DesktopFrame::kBytesPerPixel + 2] * base_alpha / 255 +
	src[x * DesktopFrame::kBytesPerPixel + 2];
	}
	}
	src += src_stride;
	dest += dest_stride;
	}
	}

	// DesktopFrame wrapper that draws mouse on a frame and restores original
	// content before releasing the underlying frame.
	class DesktopFrameWithCursor : public DesktopFrame {
	public:
	// Takes ownership of \|frame\|.
	DesktopFrameWithCursor(std::unique_ptr<DesktopFrame> frame,
	const MouseCursor& cursor,
	const DesktopVector& position,
	const DesktopRect& previous_cursor_rect,
	bool cursor_changed);
	~DesktopFrameWithCursor() override;

	DesktopRect cursor_rect() const { return cursor_rect_; }

	private:
	const std::unique_ptr<DesktopFrame> original_frame_;

	DesktopVector restore_position_;
	std::unique_ptr<DesktopFrame> restore_frame_;
	DesktopRect cursor_rect_;

	RTC_DISALLOW_COPY_AND_ASSIGN(DesktopFrameWithCursor);
	};

	DesktopFrameWithCursor::DesktopFrameWithCursor(
	std::unique_ptr<DesktopFrame> frame,
	const MouseCursor& cursor,
	const DesktopVector& position,
	const DesktopRect& previous_cursor_rect,
	bool cursor_changed)
	: DesktopFrame(frame->size(),
	frame->stride(),
	frame->data(),
	frame->shared_memory()),
	original_frame_(std::move(frame)) {
	MoveFrameInfoFrom(original_frame_.get());

	DesktopVector image_pos = position.subtract(cursor.hotspot());
	cursor_rect_ = DesktopRect::MakeSize(cursor.image()->size());
	cursor_rect_.Translate(image_pos);
	DesktopVector cursor_origin = cursor_rect_.top_left();
	cursor_rect_.IntersectWith(DesktopRect::MakeSize(size()));

	if (!previous_cursor_rect.equals(cursor_rect_)) {
	mutable_updated_region()->AddRect(cursor_rect_);
	mutable_updated_region()->AddRect(previous_cursor_rect);
	} else if (cursor_changed) {
	mutable_updated_region()->AddRect(cursor_rect_);
	}

	if (cursor_rect_.is_empty())
	return;

	// Copy original screen content under cursor to \|restore_frame_\|.
	restore_position_ = cursor_rect_.top_left();
	restore_frame_.reset(new BasicDesktopFrame(cursor_rect_.size()));
	restore_frame_->CopyPixelsFrom(*this, cursor_rect_.top_left(),
	DesktopRect::MakeSize(restore_frame_->size()));

	// Blit the cursor.
	uint8_t* cursor_rect_data =
	reinterpret_cast<uint8_t>(data()) + cursor_rect_.top() stride() +
	cursor_rect_.left() * DesktopFrame::kBytesPerPixel;
	DesktopVector origin_shift = cursor_rect_.top_left().subtract(cursor_origin);
	AlphaBlend(cursor_rect_data, stride(),
	cursor.image()->data() +
	origin_shift.y() * cursor.image()->stride() +
	origin_shift.x() * DesktopFrame::kBytesPerPixel,
	cursor.image()->stride(), cursor_rect_.size());
	}

	DesktopFrameWithCursor::~DesktopFrameWithCursor() {
	// Restore original content of the frame.
	if (restore_frame_) {
	DesktopRect target_rect = DesktopRect::MakeSize(restore_frame_->size());
	target_rect.Translate(restore_position_);
	CopyPixelsFrom(restore_frame_->data(), restore_frame_->stride(),
	target_rect);
	}
	}

	} // namespace

	DesktopAndCursorComposer::DesktopAndCursorComposer(
	std::unique_ptr<DesktopCapturer> desktop_capturer,
	const DesktopCaptureOptions& options)
	: DesktopAndCursorComposer(desktop_capturer.release(),
	MouseCursorMonitor::Create(options).release()) {}

	DesktopAndCursorComposer::DesktopAndCursorComposer(
	DesktopCapturer* desktop_capturer,
	MouseCursorMonitor* mouse_monitor)
	: desktop_capturer_(desktop_capturer), mouse_monitor_(mouse_monitor) {
	RTC_DCHECK(desktop_capturer_);
	}

	DesktopAndCursorComposer::~DesktopAndCursorComposer() = default;

	std::unique_ptr<DesktopAndCursorComposer>
	DesktopAndCursorComposer::CreateWithoutMouseCursorMonitor(
	std::unique_ptr<DesktopCapturer> desktop_capturer) {
	return std::unique_ptr<DesktopAndCursorComposer>(
	new DesktopAndCursorComposer(desktop_capturer.release(), nullptr));
	}

	void DesktopAndCursorComposer::Start(DesktopCapturer::Callback* callback) {
	callback_ = callback;
	if (mouse_monitor_)
	mouse_monitor_->Init(this, MouseCursorMonitor::SHAPE_AND_POSITION);
	desktop_capturer_->Start(this);
	}

	void DesktopAndCursorComposer::SetSharedMemoryFactory(
	std::unique_ptr<SharedMemoryFactory> shared_memory_factory) {
	desktop_capturer_->SetSharedMemoryFactory(std::move(shared_memory_factory));
	}

	void DesktopAndCursorComposer::CaptureFrame() {
	if (mouse_monitor_)
	mouse_monitor_->Capture();
	desktop_capturer_->CaptureFrame();
	}

	void DesktopAndCursorComposer::SetExcludedWindow(WindowId window) {
	desktop_capturer_->SetExcludedWindow(window);
	}

	bool DesktopAndCursorComposer::GetSourceList(SourceList* sources) {
	return desktop_capturer_->GetSourceList(sources);
	}

	bool DesktopAndCursorComposer::SelectSource(SourceId id) {
	return desktop_capturer_->SelectSource(id);
	}

	bool DesktopAndCursorComposer::FocusOnSelectedSource() {
	return desktop_capturer_->FocusOnSelectedSource();
	}

	bool DesktopAndCursorComposer::IsOccluded(const DesktopVector& pos) {
	return desktop_capturer_->IsOccluded(pos);
	}

	void DesktopAndCursorComposer::OnCaptureResult(
	DesktopCapturer::Result result,
	std::unique_ptr<DesktopFrame> frame) {
	if (frame && cursor_) {
	if (!frame->may_contain_cursor() &&
	frame->rect().Contains(cursor_position_) &&
	!desktop_capturer_->IsOccluded(cursor_position_)) {
	DesktopVector relative_position =
	cursor_position_.subtract(frame->top_left());
	#if defined(WEBRTC_MAC)
	// On OSX, the logical(DIP) and physical coordinates are used mixingly.
	// For example, the captured cursor has its size in physical pixels(2x)
	// and location in logical(DIP) pixels on Retina monitor. This will cause
	// problem when the desktop is mixed with Retina and non-Retina monitors.
	// So we use DIP pixel for all location info and compensate with the scale
	// factor of current frame to the \|relative_position\|.
	const float scale = frame->scale_factor();
	relative_position.set(relative_position.x() * scale,
	relative_position.y() * scale);
	#endif
	auto frame_with_cursor = std::make_unique<DesktopFrameWithCursor>(
	std::move(frame), *cursor_, relative_position, previous_cursor_rect_,
	cursor_changed_);
	previous_cursor_rect_ = frame_with_cursor->cursor_rect();
	cursor_changed_ = false;
	frame = std::move(frame_with_cursor);
	frame->set_may_contain_cursor(true);
	}
	}

	callback_->OnCaptureResult(result, std::move(frame));
	}

	void DesktopAndCursorComposer::OnMouseCursor(MouseCursor* cursor) {
	cursor_changed_ = true;
	cursor_.reset(cursor);
	}

	void DesktopAndCursorComposer::OnMouseCursorPosition(
	const DesktopVector& position) {
	cursor_position_ = position;
	}

	} // namespace webrtc