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webrtc / src / d62ac3f0b8308a77c0944d444b5de7686c389a07 / . / common_video / video_frame_unittest.cc
blob: 57298d1175bb3c67ef80140ecbda53483d1affb3 [file] [log] [blame]
/*
* Copyright (c) 2018 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 "api/video/video_frame.h"
#include <math.h>
#include <string.h>
#include "api/video/i010_buffer.h"
#include "api/video/i420_buffer.h"
#include "rtc_base/bind.h"
#include "rtc_base/time_utils.h"
#include "test/fake_texture_frame.h"
#include "test/frame_utils.h"
#include "test/gtest.h"
namespace webrtc {
namespace {
// Helper class to delegate calls to appropriate container.
class PlanarYuvBufferFactory {
public:
static rtc::scoped_refptr<PlanarYuvBuffer> Create(VideoFrameBuffer::Type type,
int width,
int height) {
switch (type) {
case VideoFrameBuffer::Type::kI420:
return I420Buffer::Create(width, height);
case VideoFrameBuffer::Type::kI010:
return I010Buffer::Create(width, height);
default:
RTC_NOTREACHED();
}
return nullptr;
}
static rtc::scoped_refptr<PlanarYuvBuffer> Copy(const VideoFrameBuffer& src) {
switch (src.type()) {
case VideoFrameBuffer::Type::kI420:
return I420Buffer::Copy(src);
case VideoFrameBuffer::Type::kI010:
return I010Buffer::Copy(*src.GetI010());
default:
RTC_NOTREACHED();
}
return nullptr;
}
static rtc::scoped_refptr<PlanarYuvBuffer> Rotate(const VideoFrameBuffer& src,
VideoRotation rotation) {
switch (src.type()) {
case VideoFrameBuffer::Type::kI420:
return I420Buffer::Rotate(src, rotation);
case VideoFrameBuffer::Type::kI010:
return I010Buffer::Rotate(*src.GetI010(), rotation);
default:
RTC_NOTREACHED();
}
return nullptr;
}
static rtc::scoped_refptr<PlanarYuvBuffer> CropAndScaleFrom(
const VideoFrameBuffer& src,
int offset_x,
int offset_y,
int crop_width,
int crop_height) {
switch (src.type()) {
case VideoFrameBuffer::Type::kI420: {
rtc::scoped_refptr<I420Buffer> buffer =
I420Buffer::Create(crop_width, crop_height);
buffer->CropAndScaleFrom(*src.GetI420(), offset_x, offset_y, crop_width,
crop_height);
return buffer;
}
case VideoFrameBuffer::Type::kI010: {
rtc::scoped_refptr<I010Buffer> buffer =
I010Buffer::Create(crop_width, crop_height);
buffer->CropAndScaleFrom(*src.GetI010(), offset_x, offset_y, crop_width,
crop_height);
return buffer;
}
default:
RTC_NOTREACHED();
}
return nullptr;
}
static rtc::scoped_refptr<PlanarYuvBuffer> CropAndScaleFrom(
const VideoFrameBuffer& src,
int crop_width,
int crop_height) {
const int out_width =
std::min(src.width(), crop_width * src.height() / crop_height);
const int out_height =
std::min(src.height(), crop_height * src.width() / crop_width);
return CropAndScaleFrom(src, (src.width() - out_width) / 2,
(src.height() - out_height) / 2, out_width,
out_height);
}
static rtc::scoped_refptr<PlanarYuvBuffer>
ScaleFrom(const VideoFrameBuffer& src, int crop_width, int crop_height) {
switch (src.type()) {
case VideoFrameBuffer::Type::kI420: {
rtc::scoped_refptr<I420Buffer> buffer =
I420Buffer::Create(crop_width, crop_height);
buffer->ScaleFrom(*src.GetI420());
return buffer;
}
case VideoFrameBuffer::Type::kI010: {
rtc::scoped_refptr<I010Buffer> buffer =
I010Buffer::Create(crop_width, crop_height);
buffer->ScaleFrom(*src.GetI010());
return buffer;
}
default:
RTC_NOTREACHED();
}
return nullptr;
}
};
rtc::scoped_refptr<PlanarYuvBuffer> CreateGradient(VideoFrameBuffer::Type type,
int width,
int height) {
rtc::scoped_refptr<I420Buffer> buffer(I420Buffer::Create(width, height));
// Initialize with gradient, Y = 128(x/w + y/h), U = 256 x/w, V = 256 y/h
for (int x = 0; x < width; x++) {
for (int y = 0; y < height; y++) {
buffer->MutableDataY()[x + y * width] =
128 * (x * height + y * width) / (width * height);
}
}
int chroma_width = buffer->ChromaWidth();
int chroma_height = buffer->ChromaHeight();
for (int x = 0; x < chroma_width; x++) {
for (int y = 0; y < chroma_height; y++) {
buffer->MutableDataU()[x + y * chroma_width] =
255 * x / (chroma_width - 1);
buffer->MutableDataV()[x + y * chroma_width] =
255 * y / (chroma_height - 1);
}
}
if (type == VideoFrameBuffer::Type::kI420)
return buffer;
RTC_DCHECK(type == VideoFrameBuffer::Type::kI010);
return I010Buffer::Copy(*buffer);
}
// The offsets and sizes describe the rectangle extracted from the
// original (gradient) frame, in relative coordinates where the
// original frame correspond to the unit square, 0.0 <= x, y < 1.0.
void CheckCrop(const webrtc::I420BufferInterface& frame,
double offset_x,
double offset_y,
double rel_width,
double rel_height) {
int width = frame.width();
int height = frame.height();
// Check that pixel values in the corners match the gradient used
// for initialization.
for (int i = 0; i < 2; i++) {
for (int j = 0; j < 2; j++) {
// Pixel coordinates of the corner.
int x = i * (width - 1);
int y = j * (height - 1);
// Relative coordinates, range 0.0 - 1.0 correspond to the
// size of the uncropped input frame.
double orig_x = offset_x + i * rel_width;
double orig_y = offset_y + j * rel_height;
EXPECT_NEAR(frame.DataY()[x + y * frame.StrideY()] / 256.0,
(orig_x + orig_y) / 2, 0.02);
EXPECT_NEAR(frame.DataU()[x / 2 + (y / 2) * frame.StrideU()] / 256.0,
orig_x, 0.02);
EXPECT_NEAR(frame.DataV()[x / 2 + (y / 2) * frame.StrideV()] / 256.0,
orig_y, 0.02);
}
}
}
void CheckRotate(int width,
int height,
webrtc::VideoRotation rotation,
const webrtc::I420BufferInterface& rotated) {
int rotated_width = width;
int rotated_height = height;
if (rotation == kVideoRotation_90 || rotation == kVideoRotation_270) {
std::swap(rotated_width, rotated_height);
}
EXPECT_EQ(rotated_width, rotated.width());
EXPECT_EQ(rotated_height, rotated.height());
// Clock-wise order (with 0,0 at top-left)
const struct {
int x;
int y;
} corners[] = {{0, 0}, {1, 0}, {1, 1}, {0, 1}};
// Corresponding corner colors of the frame produced by CreateGradient.
const struct {
int y;
int u;
int v;
} colors[] = {{0, 0, 0}, {127, 255, 0}, {255, 255, 255}, {127, 0, 255}};
int corner_offset = static_cast<int>(rotation) / 90;
for (int i = 0; i < 4; i++) {
int j = (i + corner_offset) % 4;
int x = corners[j].x * (rotated_width - 1);
int y = corners[j].y * (rotated_height - 1);
EXPECT_EQ(colors[i].y, rotated.DataY()[x + y * rotated.StrideY()]);
EXPECT_EQ(colors[i].u,
rotated.DataU()[(x / 2) + (y / 2) * rotated.StrideU()]);
EXPECT_EQ(colors[i].v,
rotated.DataV()[(x / 2) + (y / 2) * rotated.StrideV()]);
}
}
int GetU(rtc::scoped_refptr<PlanarYuvBuffer> buf, int col, int row) {
if (buf->type() == VideoFrameBuffer::Type::kI420) {
return buf->GetI420()
->DataU()[row / 2 * buf->GetI420()->StrideU() + col / 2];
} else {
return buf->GetI010()
->DataU()[row / 2 * buf->GetI010()->StrideU() + col / 2];
}
}
int GetV(rtc::scoped_refptr<PlanarYuvBuffer> buf, int col, int row) {
if (buf->type() == VideoFrameBuffer::Type::kI420) {
return buf->GetI420()
->DataV()[row / 2 * buf->GetI420()->StrideV() + col / 2];
} else {
return buf->GetI010()
->DataV()[row / 2 * buf->GetI010()->StrideV() + col / 2];
}
}
int GetY(rtc::scoped_refptr<PlanarYuvBuffer> buf, int col, int row) {
if (buf->type() == VideoFrameBuffer::Type::kI420) {
return buf->GetI420()->DataY()[row * buf->GetI420()->StrideY() + col];
} else {
return buf->GetI010()->DataY()[row * buf->GetI010()->StrideY() + col];
}
}
void PasteFromBuffer(PlanarYuvBuffer* canvas,
const PlanarYuvBuffer& picture,
int offset_col,
int offset_row) {
if (canvas->type() == VideoFrameBuffer::Type::kI420) {
I420Buffer* buf = static_cast<I420Buffer*>(canvas);
buf->PasteFrom(*picture.GetI420(), offset_col, offset_row);
} else {
I010Buffer* buf = static_cast<I010Buffer*>(canvas);
buf->PasteFrom(*picture.GetI010(), offset_col, offset_row);
}
}
} // namespace
TEST(TestVideoFrame, WidthHeightValues) {
VideoFrame frame =
VideoFrame::Builder()
.set_video_frame_buffer(I420Buffer::Create(10, 10, 10, 14, 90))
.set_rotation(webrtc::kVideoRotation_0)
.set_timestamp_ms(789)
.build();
const int valid_value = 10;
EXPECT_EQ(valid_value, frame.width());
EXPECT_EQ(valid_value, frame.height());
frame.set_timestamp(123u);
EXPECT_EQ(123u, frame.timestamp());
frame.set_ntp_time_ms(456);
EXPECT_EQ(456, frame.ntp_time_ms());
EXPECT_EQ(789, frame.render_time_ms());
}
TEST(TestVideoFrame, ShallowCopy) {
uint32_t timestamp = 1;
int64_t ntp_time_ms = 2;
int64_t timestamp_us = 3;
int stride_y = 15;
int stride_u = 10;
int stride_v = 10;
int width = 15;
int height = 15;
const int kSizeY = 400;
const int kSizeU = 100;
const int kSizeV = 100;
const VideoRotation kRotation = kVideoRotation_270;
uint8_t buffer_y[kSizeY];
uint8_t buffer_u[kSizeU];
uint8_t buffer_v[kSizeV];
memset(buffer_y, 16, kSizeY);
memset(buffer_u, 8, kSizeU);
memset(buffer_v, 4, kSizeV);
VideoFrame frame1 = VideoFrame::Builder()
.set_video_frame_buffer(I420Buffer::Copy(
width, height, buffer_y, stride_y, buffer_u,
stride_u, buffer_v, stride_v))
.set_rotation(kRotation)
.set_timestamp_us(0)
.build();
frame1.set_timestamp(timestamp);
frame1.set_ntp_time_ms(ntp_time_ms);
frame1.set_timestamp_us(timestamp_us);
VideoFrame frame2(frame1);
EXPECT_EQ(frame1.video_frame_buffer(), frame2.video_frame_buffer());
const webrtc::I420BufferInterface* yuv1 =
frame1.video_frame_buffer()->GetI420();
const webrtc::I420BufferInterface* yuv2 =
frame2.video_frame_buffer()->GetI420();
EXPECT_EQ(yuv1->DataY(), yuv2->DataY());
EXPECT_EQ(yuv1->DataU(), yuv2->DataU());
EXPECT_EQ(yuv1->DataV(), yuv2->DataV());
EXPECT_EQ(frame2.timestamp(), frame1.timestamp());
EXPECT_EQ(frame2.ntp_time_ms(), frame1.ntp_time_ms());
EXPECT_EQ(frame2.timestamp_us(), frame1.timestamp_us());
EXPECT_EQ(frame2.rotation(), frame1.rotation());
frame2.set_timestamp(timestamp + 1);
frame2.set_ntp_time_ms(ntp_time_ms + 1);
frame2.set_timestamp_us(timestamp_us + 1);
frame2.set_rotation(kVideoRotation_90);
EXPECT_NE(frame2.timestamp(), frame1.timestamp());
EXPECT_NE(frame2.ntp_time_ms(), frame1.ntp_time_ms());
EXPECT_NE(frame2.timestamp_us(), frame1.timestamp_us());
EXPECT_NE(frame2.rotation(), frame1.rotation());
}
TEST(TestVideoFrame, TextureInitialValues) {
VideoFrame frame = test::FakeNativeBuffer::CreateFrame(
640, 480, 100, 10, webrtc::kVideoRotation_0);
EXPECT_EQ(640, frame.width());
EXPECT_EQ(480, frame.height());
EXPECT_EQ(100u, frame.timestamp());
EXPECT_EQ(10, frame.render_time_ms());
ASSERT_TRUE(frame.video_frame_buffer() != nullptr);
EXPECT_TRUE(frame.video_frame_buffer()->type() ==
VideoFrameBuffer::Type::kNative);
frame.set_timestamp(200);
EXPECT_EQ(200u, frame.timestamp());
frame.set_timestamp_us(20);
EXPECT_EQ(20, frame.timestamp_us());
}
class TestPlanarYuvBuffer
: public ::testing::TestWithParam<VideoFrameBuffer::Type> {};
rtc::scoped_refptr<I420Buffer> CreateAndFillBuffer() {
auto buf = I420Buffer::Create(20, 10);
memset(buf->MutableDataY(), 1, 200);
memset(buf->MutableDataU(), 2, 50);
memset(buf->MutableDataV(), 3, 50);
return buf;
}
TEST_P(TestPlanarYuvBuffer, Copy) {
rtc::scoped_refptr<PlanarYuvBuffer> buf1;
switch (GetParam()) {
case VideoFrameBuffer::Type::kI420: {
buf1 = CreateAndFillBuffer();
break;
}
case VideoFrameBuffer::Type::kI010: {
buf1 = I010Buffer::Copy(*CreateAndFillBuffer());
break;
}
default:
RTC_NOTREACHED();
}
rtc::scoped_refptr<PlanarYuvBuffer> buf2 =
PlanarYuvBufferFactory::Copy(*buf1);
EXPECT_TRUE(test::FrameBufsEqual(buf1->ToI420(), buf2->ToI420()));
}
TEST_P(TestPlanarYuvBuffer, Scale) {
rtc::scoped_refptr<PlanarYuvBuffer> buf =
CreateGradient(GetParam(), 200, 100);
// Pure scaling, no cropping.
rtc::scoped_refptr<PlanarYuvBuffer> scaled_buffer =
PlanarYuvBufferFactory::ScaleFrom(*buf, 150, 75);
CheckCrop(*scaled_buffer->ToI420(), 0.0, 0.0, 1.0, 1.0);
}
TEST_P(TestPlanarYuvBuffer, CropXCenter) {
rtc::scoped_refptr<PlanarYuvBuffer> buf =
CreateGradient(GetParam(), 200, 100);
// Pure center cropping, no scaling.
rtc::scoped_refptr<PlanarYuvBuffer> scaled_buffer =
PlanarYuvBufferFactory::CropAndScaleFrom(*buf, 50, 0, 100, 100);
CheckCrop(*scaled_buffer->ToI420(), 0.25, 0.0, 0.5, 1.0);
}
TEST_P(TestPlanarYuvBuffer, CropXNotCenter) {
rtc::scoped_refptr<PlanarYuvBuffer> buf =
CreateGradient(GetParam(), 200, 100);
// Non-center cropping, no scaling.
rtc::scoped_refptr<PlanarYuvBuffer> scaled_buffer =
PlanarYuvBufferFactory::CropAndScaleFrom(*buf, 25, 0, 100, 100);
CheckCrop(*scaled_buffer->ToI420(), 0.125, 0.0, 0.5, 1.0);
}
TEST_P(TestPlanarYuvBuffer, CropYCenter) {
rtc::scoped_refptr<PlanarYuvBuffer> buf =
CreateGradient(GetParam(), 100, 200);
// Pure center cropping, no scaling.
rtc::scoped_refptr<PlanarYuvBuffer> scaled_buffer =
PlanarYuvBufferFactory::CropAndScaleFrom(*buf, 0, 50, 100, 100);
CheckCrop(*scaled_buffer->ToI420(), 0.0, 0.25, 1.0, 0.5);
}
TEST_P(TestPlanarYuvBuffer, CropYNotCenter) {
rtc::scoped_refptr<PlanarYuvBuffer> buf =
CreateGradient(GetParam(), 100, 200);
// Pure center cropping, no scaling.
rtc::scoped_refptr<PlanarYuvBuffer> scaled_buffer =
PlanarYuvBufferFactory::CropAndScaleFrom(*buf, 0, 25, 100, 100);
CheckCrop(*scaled_buffer->ToI420(), 0.0, 0.125, 1.0, 0.5);
}
TEST_P(TestPlanarYuvBuffer, CropAndScale16x9) {
rtc::scoped_refptr<PlanarYuvBuffer> buf =
CreateGradient(GetParam(), 640, 480);
// Pure center cropping, no scaling.
rtc::scoped_refptr<PlanarYuvBuffer> scaled_buffer =
PlanarYuvBufferFactory::CropAndScaleFrom(*buf, 320, 180);
CheckCrop(*scaled_buffer->ToI420(), 0.0, 0.125, 1.0, 0.75);
}
TEST_P(TestPlanarYuvBuffer, PastesIntoBuffer) {
const int kOffsetx = 20;
const int kOffsety = 30;
const int kPicSize = 20;
const int kWidth = 160;
const int kHeight = 80;
rtc::scoped_refptr<PlanarYuvBuffer> buf =
CreateGradient(GetParam(), kWidth, kHeight);
rtc::scoped_refptr<PlanarYuvBuffer> original =
CreateGradient(GetParam(), kWidth, kHeight);
rtc::scoped_refptr<PlanarYuvBuffer> picture =
CreateGradient(GetParam(), kPicSize, kPicSize);
rtc::scoped_refptr<PlanarYuvBuffer> odd_picture =
CreateGradient(GetParam(), kPicSize + 1, kPicSize - 1);
PasteFromBuffer(buf.get(), *picture, kOffsetx, kOffsety);
for (int i = 0; i < kWidth; ++i) {
for (int j = 0; j < kHeight; ++j) {
bool is_inside = i >= kOffsetx && i < kOffsetx + kPicSize &&
j >= kOffsety && j < kOffsety + kPicSize;
if (!is_inside) {
EXPECT_EQ(GetU(original, i, j), GetU(buf, i, j));
EXPECT_EQ(GetV(original, i, j), GetV(buf, i, j));
EXPECT_EQ(GetY(original, i, j), GetY(buf, i, j));
} else {
EXPECT_EQ(GetU(picture, i - kOffsetx, j - kOffsety), GetU(buf, i, j));
EXPECT_EQ(GetV(picture, i - kOffsetx, j - kOffsety), GetV(buf, i, j));
EXPECT_EQ(GetY(picture, i - kOffsetx, j - kOffsety), GetY(buf, i, j));
}
}
}
}
INSTANTIATE_TEST_SUITE_P(All,
TestPlanarYuvBuffer,
::testing::Values(VideoFrameBuffer::Type::kI420,
VideoFrameBuffer::Type::kI010));
class TestPlanarYuvBufferRotate
: public ::testing::TestWithParam<
std::tuple<webrtc::VideoRotation, VideoFrameBuffer::Type>> {};
TEST_P(TestPlanarYuvBufferRotate, Rotates) {
const webrtc::VideoRotation rotation = std::get<0>(GetParam());
const VideoFrameBuffer::Type type = std::get<1>(GetParam());
rtc::scoped_refptr<PlanarYuvBuffer> buffer = CreateGradient(type, 640, 480);
rtc::scoped_refptr<PlanarYuvBuffer> rotated_buffer =
PlanarYuvBufferFactory::Rotate(*buffer, rotation);
CheckRotate(640, 480, rotation, *rotated_buffer->ToI420());
}
INSTANTIATE_TEST_SUITE_P(
Rotate,
TestPlanarYuvBufferRotate,
::testing::Combine(::testing::Values(kVideoRotation_0,
kVideoRotation_90,
kVideoRotation_180,
kVideoRotation_270),
::testing::Values(VideoFrameBuffer::Type::kI420,
VideoFrameBuffer::Type::kI010)));
} // namespace webrtc