Merged VideoSurface, VideoFrame and VideoFrameImpl in VideoFrame.

media/base/video_frame_impl.cc

-// Copyright (c) 2009 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 "media/base/video_frame_impl.h"
-
-namespace media {
-
-// static
-void VideoFrameImpl::CreateFrame(VideoSurface::Format format,
-                                 size_t width,
-                                 size_t height,
-                                 base::TimeDelta timestamp,
-                                 base::TimeDelta duration,
-                                 scoped_refptr<VideoFrame>* frame_out) {
-  DCHECK(width > 0 && height > 0);
-  DCHECK(width * height < 100000000);
-  DCHECK(frame_out);
-  bool alloc_worked = false;
-  scoped_refptr<VideoFrameImpl> frame =
-      new VideoFrameImpl(format, width, height);
-  if (frame) {
-    frame->SetTimestamp(timestamp);
-    frame->SetDuration(duration);
-    switch (format) {
-      case VideoSurface::RGB555:
-      case VideoSurface::RGB565:
-        alloc_worked = frame->AllocateRGB(2u);
-        break;
-      case VideoSurface::RGB24:
-        alloc_worked = frame->AllocateRGB(3u);
-        break;
-      case VideoSurface::RGB32:
-      case VideoSurface::RGBA:
-        alloc_worked = frame->AllocateRGB(4u);
-        break;
-      case VideoSurface::YV12:
-      case VideoSurface::YV16:
-        alloc_worked = frame->AllocateYUV();
-        break;
-      default:
-        NOTREACHED();
-        alloc_worked = false;
-        break;
-    }
-  }
-  *frame_out = alloc_worked ? frame : NULL;
-}
-
-// static
-void VideoFrameImpl::CreateEmptyFrame(scoped_refptr<VideoFrame>* frame_out) {
-  *frame_out = new VideoFrameImpl(VideoSurface::EMPTY, 0, 0);
-}
-
-// static
-void VideoFrameImpl::CreateBlackFrame(int width, int height,
-                                      scoped_refptr<VideoFrame>* frame_out) {
-  DCHECK_GT(width, 0);
-  DCHECK_GT(height, 0);
-
-  // Create our frame.
-  scoped_refptr<VideoFrame> frame;
-  const base::TimeDelta kZero;
-  VideoFrameImpl::CreateFrame(VideoSurface::YV12, width, height, kZero, kZero,
-                              &frame);
-  DCHECK(frame);
-
-  // Now set the data to YUV(0,128,128).
-  const uint8 kBlackY = 0x00;
-  const uint8 kBlackUV = 0x80;
-  VideoSurface surface;
-  frame->Lock(&surface);
-  DCHECK_EQ(VideoSurface::YV12, surface.format) << "Expected YV12 surface";
-
-  // Fill the Y plane.
-  for (size_t i = 0; i < surface.height; ++i) {
-    memset(surface.data[VideoSurface::kYPlane], kBlackY, surface.width);
-    surface.data[VideoSurface::kYPlane]
-        += surface.strides[VideoSurface::kYPlane];
-  }
-
-  // Fill the U and V planes.
-  for (size_t i = 0; i < (surface.height / 2); ++i) {
-    memset(surface.data[VideoSurface::kUPlane], kBlackUV, surface.width / 2);
-    memset(surface.data[VideoSurface::kVPlane], kBlackUV, surface.width / 2);
-    surface.data[VideoSurface::kUPlane] +=
-        surface.strides[VideoSurface::kUPlane];
-    surface.data[VideoSurface::kVPlane] +=
-        surface.strides[VideoSurface::kVPlane];
-  }
-  frame->Unlock();
-
-  // Success!
-  *frame_out = frame;
-}
-
-static inline size_t RoundUp(size_t value, size_t alignment) {
-  // Check that |alignment| is a power of 2.
-  DCHECK((alignment + (alignment - 1)) == (alignment | (alignment - 1)));
-  return ((value + (alignment - 1)) & ~(alignment-1));
-}
-
-bool VideoFrameImpl::AllocateRGB(size_t bytes_per_pixel) {
-  // Round up to align at a 64-bit (8 byte) boundary for each row.  This
-  // is sufficient for MMX reads (movq).
-  size_t bytes_per_row = RoundUp(surface_.width * bytes_per_pixel, 8);
-  surface_.planes = VideoSurface::kNumRGBPlanes;
-  surface_.strides[VideoSurface::kRGBPlane] = bytes_per_row;
-  surface_.data[VideoSurface::kRGBPlane] = new uint8[bytes_per_row *
-                                                     surface_.height];
-  DCHECK(surface_.data[VideoSurface::kRGBPlane]);
-  DCHECK(!(reinterpret_cast<intptr_t>(
-              surface_.data[VideoSurface::kRGBPlane]) & 7));
-  COMPILE_ASSERT(0 == VideoSurface::kRGBPlane, RGB_data_must_be_index_0);
-  return (NULL != surface_.data[VideoSurface::kRGBPlane]);
-}
-
-bool VideoFrameImpl::AllocateYUV() {
-  DCHECK(surface_.format == VideoSurface::YV12 ||
-         surface_.format == VideoSurface::YV16);
-  // Align Y rows at 32-bit (4 byte) boundaries.  The stride for both YV12 and
-  // YV16 is 1/2 of the stride of Y.  For YV12, every row of bytes for U and V
-  // applies to two rows of Y (one byte of UV for 4 bytes of Y), so in the
-  // case of YV12 the strides are identical for the same width surface, but the
-  // number of bytes allocated for YV12 is 1/2 the amount for U & V as YV16.
-  // We also round the height of the surface allocated to be an even number
-  // to avoid any potential of faulting by code that attempts to access the Y
-  // values of the final row, but assumes that the last row of U & V applies to
-  // a full two rows of Y.
-  size_t alloc_height = RoundUp(surface_.height, 2);
-  size_t y_bytes_per_row = RoundUp(surface_.width, 4);
-  size_t uv_stride = RoundUp(y_bytes_per_row / 2, 4);
-  size_t y_bytes = alloc_height * y_bytes_per_row;
-  size_t uv_bytes = alloc_height * uv_stride;
-  if (surface_.format == VideoSurface::YV12) {
-    uv_bytes /= 2;
-  }
-  uint8* data = new uint8[y_bytes + (uv_bytes * 2)];
-  if (data) {
-    surface_.planes = VideoSurface::kNumYUVPlanes;
-    COMPILE_ASSERT(0 == VideoSurface::kYPlane, y_plane_data_must_be_index_0);
-    surface_.data[VideoSurface::kYPlane] = data;
-    surface_.data[VideoSurface::kUPlane] = data + y_bytes;
-    surface_.data[VideoSurface::kVPlane] = data + y_bytes + uv_bytes;
-    surface_.strides[VideoSurface::kYPlane] = y_bytes_per_row;
-    surface_.strides[VideoSurface::kUPlane] = uv_stride;
-    surface_.strides[VideoSurface::kVPlane] = uv_stride;
-    return true;
-  }
-  NOTREACHED();
-  return false;
-}
-
-VideoFrameImpl::VideoFrameImpl(VideoSurface::Format format,
-                               size_t width,
-                               size_t height) {
-  locked_ = false;
-  memset(&surface_, 0, sizeof(surface_));
-  surface_.format = format;
-  surface_.width = width;
-  surface_.height = height;
-}
-
-VideoFrameImpl::~VideoFrameImpl() {
-  // In multi-plane allocations, only a single block of memory is allocated
-  // on the heap, and other |data| pointers point inside the same, single block
-  // so just delete index 0.
-  delete[] surface_.data[0];
-}
-
-bool VideoFrameImpl::Lock(VideoSurface* surface) {
-  DCHECK(!locked_);
-  DCHECK_NE(surface_.format, VideoSurface::EMPTY);
-  if (locked_) {
-    memset(surface, 0, sizeof(*surface));
-    return false;
-  }
-  locked_ = true;
-  COMPILE_ASSERT(sizeof(*surface) == sizeof(surface_), surface_size_mismatch);
-  memcpy(surface, &surface_, sizeof(*surface));
-  return true;
-}
-
-void VideoFrameImpl::Unlock() {
-  DCHECK(locked_);
-  DCHECK_NE(surface_.format, VideoSurface::EMPTY);
-  locked_ = false;
-}
-
-bool VideoFrameImpl::IsEndOfStream() const {
-  return surface_.format == VideoSurface::EMPTY;
-}
-
-}  // namespace media