/* * Copyright (c) 2014 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 API_VIDEO_VIDEO_FRAME_H_ #define API_VIDEO_VIDEO_FRAME_H_ #include #include #include "absl/types/optional.h" #include "api/rtp_packet_infos.h" #include "api/scoped_refptr.h" #include "api/video/color_space.h" #include "api/video/hdr_metadata.h" #include "api/video/video_frame_buffer.h" #include "api/video/video_rotation.h" #include "rtc_base/checks.h" #include "rtc_base/system/rtc_export.h" namespace webrtc { class RTC_EXPORT VideoFrame { public: // Value used to signal that `VideoFrame::id()` is not set. static constexpr uint16_t kNotSetId = 0; struct RTC_EXPORT UpdateRect { int offset_x; int offset_y; int width; int height; // Makes this UpdateRect a bounding box of this and other rect. void Union(const UpdateRect& other); // Makes this UpdateRect an intersection of this and other rect. void Intersect(const UpdateRect& other); // Sets everything to 0, making this UpdateRect a zero-size (empty) update. void MakeEmptyUpdate(); bool IsEmpty() const; // Per-member equality check. Empty rectangles with different offsets would // be considered different. bool operator==(const UpdateRect& other) const { return other.offset_x == offset_x && other.offset_y == offset_y && other.width == width && other.height == height; } bool operator!=(const UpdateRect& other) const { return !(*this == other); } // Scales update_rect given original frame dimensions. // Cropping is applied first, then rect is scaled down. // Update rect is snapped to 2x2 grid due to possible UV subsampling and // then expanded by additional 2 pixels in each direction to accommodate any // possible scaling artifacts. // Note, close but not equal update_rects on original frame may result in // the same scaled update rects. UpdateRect ScaleWithFrame(int frame_width, int frame_height, int crop_x, int crop_y, int crop_width, int crop_height, int scaled_width, int scaled_height) const; }; struct RTC_EXPORT ProcessingTime { TimeDelta Elapsed() const { return finish - start; } Timestamp start; Timestamp finish; }; struct RTC_EXPORT RenderParameters { bool use_low_latency_rendering = false; absl::optional max_composition_delay_in_frames; bool operator==(const RenderParameters& other) const { return other.use_low_latency_rendering == use_low_latency_rendering && other.max_composition_delay_in_frames == max_composition_delay_in_frames; } bool operator!=(const RenderParameters& other) const { return !(*this == other); } }; // Preferred way of building VideoFrame objects. class RTC_EXPORT Builder { public: Builder(); ~Builder(); VideoFrame build(); Builder& set_video_frame_buffer( const rtc::scoped_refptr& buffer); Builder& set_timestamp_ms(int64_t timestamp_ms); Builder& set_timestamp_us(int64_t timestamp_us); Builder& set_capture_time_identifier( const absl::optional& capture_time_identifier); Builder& set_reference_time( const absl::optional& reference_time); Builder& set_timestamp_rtp(uint32_t timestamp_rtp); Builder& set_ntp_time_ms(int64_t ntp_time_ms); Builder& set_rotation(VideoRotation rotation); Builder& set_color_space(const absl::optional& color_space); Builder& set_color_space(const ColorSpace* color_space); Builder& set_id(uint16_t id); Builder& set_update_rect(const absl::optional& update_rect); Builder& set_packet_infos(RtpPacketInfos packet_infos); private: uint16_t id_ = kNotSetId; rtc::scoped_refptr video_frame_buffer_; int64_t timestamp_us_ = 0; absl::optional capture_time_identifier_; absl::optional reference_time_; uint32_t timestamp_rtp_ = 0; int64_t ntp_time_ms_ = 0; VideoRotation rotation_ = kVideoRotation_0; absl::optional color_space_; RenderParameters render_parameters_; absl::optional update_rect_; RtpPacketInfos packet_infos_; }; // To be deprecated. Migrate all use to Builder. VideoFrame(const rtc::scoped_refptr& buffer, webrtc::VideoRotation rotation, int64_t timestamp_us); VideoFrame(const rtc::scoped_refptr& buffer, uint32_t timestamp_rtp, int64_t render_time_ms, VideoRotation rotation); ~VideoFrame(); // Support move and copy. VideoFrame(const VideoFrame&); VideoFrame(VideoFrame&&); VideoFrame& operator=(const VideoFrame&); VideoFrame& operator=(VideoFrame&&); // Get frame width. int width() const; // Get frame height. int height() const; // Get frame size in pixels. uint32_t size() const; // Get frame ID. Returns `kNotSetId` if ID is not set. Not guaranteed to be // transferred from the sender to the receiver, but preserved on the sender // side. The id should be propagated between all frame modifications during // its lifetime from capturing to sending as encoded image. It is intended to // be unique over a time window of a few minutes for the peer connection to // which the corresponding video stream belongs to. uint16_t id() const { return id_; } void set_id(uint16_t id) { id_ = id; } // System monotonic clock, same timebase as rtc::TimeMicros(). int64_t timestamp_us() const { return timestamp_us_; } void set_timestamp_us(int64_t timestamp_us) { timestamp_us_ = timestamp_us; } const absl::optional& capture_time_identifier() const { return capture_time_identifier_; } void set_capture_time_identifier( const absl::optional& capture_time_identifier) { capture_time_identifier_ = capture_time_identifier; } const absl::optional& reference_time() const { return reference_time_; } void set_reference_time(const absl::optional& reference_time) { reference_time_ = reference_time; } // Set frame timestamp (90kHz). void set_timestamp(uint32_t timestamp) { timestamp_rtp_ = timestamp; } // Get frame timestamp (90kHz). uint32_t timestamp() const { return timestamp_rtp_; } // Set capture ntp time in milliseconds. void set_ntp_time_ms(int64_t ntp_time_ms) { ntp_time_ms_ = ntp_time_ms; } // Get capture ntp time in milliseconds. int64_t ntp_time_ms() const { return ntp_time_ms_; } // Naming convention for Coordination of Video Orientation. Please see // http://www.etsi.org/deliver/etsi_ts/126100_126199/126114/12.07.00_60/ts_126114v120700p.pdf // // "pending rotation" or "pending" = a frame that has a VideoRotation > 0. // // "not pending" = a frame that has a VideoRotation == 0. // // "apply rotation" = modify a frame from being "pending" to being "not // pending" rotation (a no-op for "unrotated"). // VideoRotation rotation() const { return rotation_; } void set_rotation(VideoRotation rotation) { rotation_ = rotation; } // Get color space when available. const absl::optional& color_space() const { return color_space_; } void set_color_space(const absl::optional& color_space) { color_space_ = color_space; } RenderParameters render_parameters() const { return render_parameters_; } void set_render_parameters(const RenderParameters& render_parameters) { render_parameters_ = render_parameters; } // Deprecated in favor of render_parameters, will be removed once Chromium is // updated. max_composition_delay_in_frames() is used in an experiment of a // low-latency renderer algorithm see crbug.com/1138888. [[deprecated("Use render_parameters() instead.")]] absl::optional max_composition_delay_in_frames() const { return render_parameters_.max_composition_delay_in_frames; } // Get render time in milliseconds. int64_t render_time_ms() const; // Return the underlying buffer. Never nullptr for a properly // initialized VideoFrame. rtc::scoped_refptr video_frame_buffer() const; void set_video_frame_buffer( const rtc::scoped_refptr& buffer); // Return true if the frame is stored in a texture. bool is_texture() const { return video_frame_buffer()->type() == VideoFrameBuffer::Type::kNative; } bool has_update_rect() const { return update_rect_.has_value(); } // Returns update_rect set by the builder or set_update_rect() or whole frame // rect if no update rect is available. UpdateRect update_rect() const { return update_rect_.value_or(UpdateRect{0, 0, width(), height()}); } // Rectangle must be within the frame dimensions. void set_update_rect(const VideoFrame::UpdateRect& update_rect) { RTC_DCHECK_GE(update_rect.offset_x, 0); RTC_DCHECK_GE(update_rect.offset_y, 0); RTC_DCHECK_LE(update_rect.offset_x + update_rect.width, width()); RTC_DCHECK_LE(update_rect.offset_y + update_rect.height, height()); update_rect_ = update_rect; } void clear_update_rect() { update_rect_ = absl::nullopt; } // Get information about packets used to assemble this video frame. Might be // empty if the information isn't available. const RtpPacketInfos& packet_infos() const { return packet_infos_; } void set_packet_infos(RtpPacketInfos value) { packet_infos_ = std::move(value); } const absl::optional processing_time() const { return processing_time_; } void set_processing_time(const ProcessingTime& processing_time) { processing_time_ = processing_time; } private: VideoFrame(uint16_t id, const rtc::scoped_refptr& buffer, int64_t timestamp_us, const absl::optional& capture_time_identifier, const absl::optional& reference_time, uint32_t timestamp_rtp, int64_t ntp_time_ms, VideoRotation rotation, const absl::optional& color_space, const RenderParameters& render_parameters, const absl::optional& update_rect, RtpPacketInfos packet_infos); uint16_t id_; // An opaque reference counted handle that stores the pixel data. rtc::scoped_refptr video_frame_buffer_; uint32_t timestamp_rtp_; int64_t ntp_time_ms_; int64_t timestamp_us_; absl::optional capture_time_identifier_; // Contains a monotonically increasing clock time and represents the time // when the frame was captured. Not all platforms provide the "true" sample // capture time in |reference_time| but might instead use a somewhat delayed // (by the time it took to capture the frame) version of it. absl::optional reference_time_; VideoRotation rotation_; absl::optional color_space_; // Contains parameters that affect have the frame should be rendered. RenderParameters render_parameters_; // Updated since the last frame area. If present it means that the bounding // box of all the changes is within the rectangular area and is close to it. // If absent, it means that there's no information about the change at all and // update_rect() will return a rectangle corresponding to the entire frame. absl::optional update_rect_; // Information about packets used to assemble this video frame. This is needed // by `SourceTracker` when the frame is delivered to the RTCRtpReceiver's // MediaStreamTrack, in order to implement getContributingSources(). See: // https://w3c.github.io/webrtc-pc/#dom-rtcrtpreceiver-getcontributingsources RtpPacketInfos packet_infos_; // Processing timestamps of the frame. For received video frames these are the // timestamps when the frame is sent to the decoder and the decoded image // returned from the decoder. // Currently, not set for locally captured video frames. absl::optional processing_time_; }; } // namespace webrtc #endif // API_VIDEO_VIDEO_FRAME_H_