/* * 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. */ #ifndef MODULES_DESKTOP_CAPTURE_DESKTOP_FRAME_H_ #define MODULES_DESKTOP_CAPTURE_DESKTOP_FRAME_H_ #include #include #include #include "modules/desktop_capture/desktop_geometry.h" #include "modules/desktop_capture/desktop_region.h" #include "modules/desktop_capture/shared_memory.h" #include "rtc_base/constructor_magic.h" #include "rtc_base/system/rtc_export.h" namespace webrtc { const float kStandardDPI = 96.0f; // DesktopFrame represents a video frame captured from the screen. class RTC_EXPORT DesktopFrame { public: // DesktopFrame objects always hold RGBA data. static const int kBytesPerPixel = 4; virtual ~DesktopFrame(); // Returns the rectangle in full desktop coordinates to indicate it covers // the area of top_left() to top_letf() + size() / scale_factor(). DesktopRect rect() const; // Returns the scale factor from DIPs to physical pixels of the frame. // Assumes same scale in both X and Y directions at present. float scale_factor() const; // Size of the frame. In physical coordinates, mapping directly from the // underlying buffer. const DesktopSize& size() const { return size_; } // The top-left of the frame in full desktop coordinates. E.g. the top left // monitor should start from (0, 0). The desktop coordinates may be scaled by // OS, but this is always consistent with the MouseCursorMonitor. const DesktopVector& top_left() const { return top_left_; } void set_top_left(const DesktopVector& top_left) { top_left_ = top_left; } // Distance in the buffer between two neighboring rows in bytes. int stride() const { return stride_; } // Data buffer used for the frame. uint8_t* data() const { return data_; } // SharedMemory used for the buffer or NULL if memory is allocated on the // heap. The result is guaranteed to be deleted only after the frame is // deleted (classes that inherit from DesktopFrame must ensure it). SharedMemory* shared_memory() const { return shared_memory_; } // Indicates region of the screen that has changed since the previous frame. const DesktopRegion& updated_region() const { return updated_region_; } DesktopRegion* mutable_updated_region() { return &updated_region_; } // DPI of the screen being captured. May be set to zero, e.g. if DPI is // unknown. const DesktopVector& dpi() const { return dpi_; } void set_dpi(const DesktopVector& dpi) { dpi_ = dpi; } // Time taken to capture the frame in milliseconds. int64_t capture_time_ms() const { return capture_time_ms_; } void set_capture_time_ms(int64_t time_ms) { capture_time_ms_ = time_ms; } // Copies pixels from a buffer or another frame. |dest_rect| rect must lay // within bounds of this frame. void CopyPixelsFrom(const uint8_t* src_buffer, int src_stride, const DesktopRect& dest_rect); void CopyPixelsFrom(const DesktopFrame& src_frame, const DesktopVector& src_pos, const DesktopRect& dest_rect); // Copies pixels from another frame, with the copied & overwritten regions // representing the intersection between the two frames. Returns true if // pixels were copied, or false if there's no intersection. The scale factors // represent the ratios between pixel space & offset coordinate space (e.g. // 2.0 would indicate the frames are scaled down by 50% for display, so any // offset between their origins should be doubled). bool CopyIntersectingPixelsFrom(const DesktopFrame& src_frame, double horizontal_scale, double vertical_scale); // A helper to return the data pointer of a frame at the specified position. uint8_t* GetFrameDataAtPos(const DesktopVector& pos) const; // The DesktopCapturer implementation which generates current DesktopFrame. // Not all DesktopCapturer implementations set this field; it's set to // kUnknown by default. uint32_t capturer_id() const { return capturer_id_; } void set_capturer_id(uint32_t capturer_id) { capturer_id_ = capturer_id; } // Copies various information from |other|. Anything initialized in // constructor are not copied. // This function is usually used when sharing a source DesktopFrame with // several clients: the original DesktopFrame should be kept unchanged. For // example, BasicDesktopFrame::CopyOf() and SharedDesktopFrame::Share(). void CopyFrameInfoFrom(const DesktopFrame& other); // Copies various information from |other|. Anything initialized in // constructor are not copied. Not like CopyFrameInfoFrom() function, this // function uses swap or move constructor to avoid data copy. It won't break // the |other|, but some of its information may be missing after this // operation. E.g. other->updated_region_; // This function is usually used when wrapping a DesktopFrame: the wrapper // instance takes the ownership of |other|, so other components cannot access // |other| anymore. For example, CroppedDesktopFrame and // DesktopFrameWithCursor. void MoveFrameInfoFrom(DesktopFrame* other); // Set and get the ICC profile of the frame data pixels. Useful to build the // a ColorSpace object from clients of webrtc library like chromium. The // format of an ICC profile is defined in the following specification // http://www.color.org/specification/ICC1v43_2010-12.pdf. const std::vector& icc_profile() const { return icc_profile_; } void set_icc_profile(const std::vector& icc_profile) { icc_profile_ = icc_profile; } protected: DesktopFrame(DesktopSize size, int stride, uint8_t* data, SharedMemory* shared_memory); // Ownership of the buffers is defined by the classes that inherit from this // class. They must guarantee that the buffer is not deleted before the frame // is deleted. uint8_t* const data_; SharedMemory* const shared_memory_; private: const DesktopSize size_; const int stride_; DesktopRegion updated_region_; DesktopVector top_left_; DesktopVector dpi_; int64_t capture_time_ms_; uint32_t capturer_id_; std::vector icc_profile_; RTC_DISALLOW_COPY_AND_ASSIGN(DesktopFrame); }; // A DesktopFrame that stores data in the heap. class RTC_EXPORT BasicDesktopFrame : public DesktopFrame { public: // The entire data buffer used for the frame is initialized with zeros. explicit BasicDesktopFrame(DesktopSize size); ~BasicDesktopFrame() override; // Creates a BasicDesktopFrame that contains copy of |frame|. // TODO(zijiehe): Return std::unique_ptr static DesktopFrame* CopyOf(const DesktopFrame& frame); private: RTC_DISALLOW_COPY_AND_ASSIGN(BasicDesktopFrame); }; // A DesktopFrame that stores data in shared memory. class RTC_EXPORT SharedMemoryDesktopFrame : public DesktopFrame { public: // May return nullptr if |shared_memory_factory| failed to create a // SharedMemory instance. // |shared_memory_factory| should not be nullptr. static std::unique_ptr Create( DesktopSize size, SharedMemoryFactory* shared_memory_factory); // Takes ownership of |shared_memory|. // Deprecated, use the next constructor. SharedMemoryDesktopFrame(DesktopSize size, int stride, SharedMemory* shared_memory); // Preferred. SharedMemoryDesktopFrame(DesktopSize size, int stride, std::unique_ptr shared_memory); ~SharedMemoryDesktopFrame() override; private: // Avoid unexpected order of parameter evaluation. // Executing both std::unique_ptr::operator->() and // std::unique_ptr::release() in the member initializer list is not safe. // Depends on the order of parameter evaluation, // std::unique_ptr::operator->() may trigger assertion failure if it has // been evaluated after std::unique_ptr::release(). By using this // constructor, std::unique_ptr::operator->() won't be involved anymore. SharedMemoryDesktopFrame(DesktopRect rect, int stride, SharedMemory* shared_memory); RTC_DISALLOW_COPY_AND_ASSIGN(SharedMemoryDesktopFrame); }; } // namespace webrtc #endif // MODULES_DESKTOP_CAPTURE_DESKTOP_FRAME_H_