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/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
#include <gtest/gtest.h>
#include <stdint.h>
#include "AOMDecoder.h"
#include "VideoUtils.h"
namespace mozilla {
void PrintTo(const AOMDecoder::AV1SequenceInfo& aInfo, std::ostream* aStream) {
nsAutoCString formatted = nsAutoCString();
formatted.AppendPrintf(
"av01.%01u.%02u%c.%02u.%01u.%01u%01u%01u.%02u.%02u.%02u.%01u (res: "
"%ux%u) operating points: [",
aInfo.mProfile, aInfo.mOperatingPoints[0].mLevel,
aInfo.mOperatingPoints[0].mTier == 1 ? 'H' : 'M', aInfo.mBitDepth,
aInfo.mMonochrome, aInfo.mSubsamplingX, aInfo.mSubsamplingY,
static_cast<uint8_t>(aInfo.mChromaSamplePosition),
static_cast<uint8_t>(aInfo.mColorSpace.mPrimaries),
static_cast<uint8_t>(aInfo.mColorSpace.mTransfer),
static_cast<uint8_t>(aInfo.mColorSpace.mMatrix),
static_cast<uint8_t>(aInfo.mColorSpace.mRange), aInfo.mImage.Width(),
aInfo.mImage.Height());
size_t opCount = aInfo.mOperatingPoints.Length();
for (size_t i = 0; i < opCount; i++) {
const auto& op = aInfo.mOperatingPoints[i];
formatted.AppendPrintf("{ layers: %x, level: %u, tier: %u }", op.mLayers,
op.mLevel, op.mTier);
if (i != opCount - 1) {
formatted.Append(", ");
}
}
formatted.Append("]");
*aStream << formatted;
}
} // namespace mozilla
using namespace mozilla;
struct AV1TestData {
const char* mCodecParameterString;
const bool mExpectedValue;
const char* mComment;
};
TEST(ExtractAV1CodecDetails, TestInputData)
{
AV1TestData tests[] = {
// Format is:
// av01.N.NN[MH].NN.B.BBN.NN.NN.NN.B
// where
// N = decimal digit
// [] = single character
// B = binary digit
// Field order:
// <sample entry 4CC>.<profile>.<level><tier>.<bitDepth>
// [.<monochrome>.<chromaSubsampling>
// .<colorPrimaries>.<transferCharacteristics>.<matrixCoefficients>
// .<videoFullRangeFlag>]
// Format checks
{"av01.0.10M.08", true, "Minimum length"},
{"av1.0.10M.08", false, "Invalid 4CC"},
{"av01..10M.08", false, "Blank field"},
{"av01.-1.10M.08", false, "Negative field"},
{"av01.0.10M.8", false, "Missing leading zeros"},
// Field counts
{"av01", false, "0 of 4 required fields"},
{"av01.0", false, "1 of 4 required fields"},
{"av01.0.10", false, "2 of 4 required fields"},
{"av01.0.10M", false, "3 of 4 required fields"},
{"av01.0.10M.08.0", false, "5 fields, AV1 requires 4 or 10"},
{"av01.0.10M.08.0.110.01.01.01", false, "9 fields, AV1 requires 4 or 10"},
{"av01.0.10M.08.0.110.01.01.01.0", true, "Maximum fields"},
{"av01.0.10M.08.0.110.01.01.01.0.0", false, "Too many fields"},
// "Comments" are allowed (unknown characters at the end of fields)
{"av01.0.10M.08this is ignored", true, "Minimum length with comment"},
{"av01.0.10Mbad comment", false, "Comment before required field"},
{"av01.0.10M.08.0.110.01.01.01.0also ignored", true,
"Maximum length with comment"},
// Begin field checks
// -- Profile --
// Main Profile (0) tested above
// High Profile requires 4:4:4 chroma subsampling without monochrome
{"av01.1.10M.08", false, "High Profile (1) without parameters"},
{"av01.1.10M.08.0.000.01.01.01.0", true, "High Profile (1)"},
// Professional requires either of:
// - 8bit or 10bit at 4:2:2
// - 12bit at any subsampling
{"av01.2.10M.10.0.100.01.01.01.0", true,
"Professional Profile (2) 10-bit 4:2:2"},
{"av01.2.10M.12.0.110.01.01.01.0", true,
"Professional Profile (2) 12-bit 4:2:0"},
{"av01.3.10M.12.0.000.01.01.01.0", false, "Invalid Profile 3"},
// -- Level --
{"av01.0.00M.08", true, "Level 0 (2.1)"},
// Level 4.2 (10) tested above
{"av01.0.14M.08", true, "Level 14 (5.2)"},
{"av01.0.23M.08", true, "Level 23 (7.3)"},
{"av01.0.24M.08", false, "Level 24 (Reserved)"},
// -- Tier --
// Main tier tested above
{"av01.0.10H.08", true, "High tier"},
// -- Bit depth --
// 8-bit tested above with Main and High Profiles
{"av01.0.10M.10", true, "Main 10-bit"},
{"av01.1.10M.10.0.000.01.01.01.0", true, "High 10-bit"},
{"av01.1.10M.12.0.000.01.01.01.0", false, "High 12-bit (Invalid)"},
// Valid 12-bit tested for Professional Profile
// -- Monochrome --
// Monochrome off tested above
{"av01.0.10M.08.1.110.01.01.01.0", true, "Main 8-bit monochrome"},
{"av01.1.10M.10.1.000.01.01.01.0", false,
"4:4:4 is incompatible with monochrome"},
{"av01.2.10M.10.1.100.01.01.01.0", false,
"4:2:0 is incompatible with monochrome"},
{"av01.2.10M.12.1.110.01.01.01.0", true,
"Professional 12-bit monochrome"},
// -- Chroma subsampling --
// Field is parsed by digits <x><y><position>
// where positions are [unknown, vertical, colocated]
{"av01.0.10M.08.0.112.01.01.01.0", true, "Chroma colocated"},
// Main Profile, 4:2:0 tested above
{"av01.0.10M.08.0.100.01.01.01.0", false,
"4:2:2 not allowed on Main Profile"},
// High Profile, 4:4:4 tested above
{"av01.1.10M.08.0.110.01.01.01.0", false,
"4:4:4 required on High Profile"},
{"av01.2.10M.08.0.110.01.01.01.0", false,
"4:2:0 not allowed on 8-bit Professional"},
// Professional Profile, 8-bit 4:2:2 tested above
// Professional Profile, 12-bit 4:2:0 tested above
{"av01.2.10M.12.0.100.01.01.01.0", true, "12-bit 4:2:2"},
{"av01.2.10M.12.0.000.01.01.01.0", true, "12-bit 4:4:4"},
{"av01.2.10M.08.0.101.01.01.01.0", false, "Chroma position with 4:2:2"},
{"av01.1.10M.08.0.001.01.01.01.0", false, "Chroma position with 4:4:4"},
{"av01.0.10M.08.0.113.01.01.01.0", false, "Chroma position 3 (Reserved)"},
// -- Color primaries --
// 0, 3, [13-21], >23 are reserved
// 1 (BT709) is tested above
{"av01.0.10M.10.0.110.09.16.09.0", true,
"Color space: BT2020/SMPTE2084/BT2020NCL"},
{"av01.0.10M.10.0.110.00.16.09.0", false, "Primaries 0: Reserved"},
{"av01.0.10M.10.0.110.03.16.09.0", false, "Primaries 3: Reserved"},
{"av01.0.10M.10.0.110.13.16.09.0", false, "Primaries 13: Reserved"},
{"av01.0.10M.10.0.110.21.16.09.0", false, "Primaries 21: Reserved"},
{"av01.0.10M.10.0.110.22.16.09.0", true, "Primaries 22: EBU3213"},
{"av01.0.10M.10.0.110.23.16.09.0", false, "Primaries 23: Reserved"},
// -- Transfer characteristics --
// 0, 3, >19 are all reserved
// 1 (BT709) is tested above
// 16 (SMPTE2084) is tested above
{"av01.0.10M.10.0.110.09.14.09.0", true,
"Color space: BT2020/BT2020 10-bit/BT2020NCL"},
{"av01.0.10M.10.0.110.09.00.09.0", false, "Transfer 0: Reserved"},
{"av01.0.10M.10.0.110.09.03.09.0", false, "Transfer 3: Reserved"},
{"av01.0.10M.10.0.110.09.20.09.0", false, "Transfer 20: Reserved"},
// -- Matrix coefficients --
// 3, >15 are all reserved
// 1 (BT709) is tested above
// 9 (BT2020NCL) is tested above
{"av01.1.10M.10.0.000.01.13.00.1", true, "4:4:4 10-bit sRGB"},
{"av01.1.10M.10.0.000.01.13.00.0", false, "sRGB requires full range"},
{"av01.2.10M.10.0.100.01.13.00.1", false,
"Subsampling incompatible with sRGB"},
{"av01.2.10M.12.0.000.01.13.00.1", true, "4:4:4 12-bit sRGB"},
{"av01.2.10M.12.0.000.01.01.15.1", false, "Matrix 15: Reserved"},
// -- Color range --
// Full range and limited range tested above
{"av01.0.10M.12.0.002.01.13.00.2", false, "Color range 2 invalid"},
};
for (const auto& data : tests) {
auto info = AOMDecoder::CreateSequenceInfoFromCodecs(
NS_ConvertUTF8toUTF16(data.mCodecParameterString));
nsAutoCString desc = nsAutoCString(data.mCodecParameterString,
strlen(data.mCodecParameterString));
desc.AppendLiteral(" (");
desc.Append(data.mComment, strlen(data.mComment));
desc.AppendLiteral(")");
EXPECT_EQ(info.isSome(), data.mExpectedValue) << desc;
if (info.isSome()) {
AOMDecoder::AV1SequenceInfo inputInfo = info.value();
inputInfo.mImage = gfx::IntSize(1920, 1080);
RefPtr<MediaByteBuffer> buffer = new MediaByteBuffer();
bool wroteSequenceHeader;
AOMDecoder::WriteAV1CBox(inputInfo, buffer, wroteSequenceHeader);
EXPECT_EQ(wroteSequenceHeader, data.mExpectedValue) << desc;
// Read equality test will fail also, don't clutter.
if (!wroteSequenceHeader) {
continue;
}
AOMDecoder::AV1SequenceInfo parsedInfo;
bool readSequenceHeader;
AOMDecoder::ReadAV1CBox(buffer, parsedInfo, readSequenceHeader);
EXPECT_EQ(wroteSequenceHeader, readSequenceHeader) << desc;
EXPECT_EQ(inputInfo, parsedInfo) << desc;
}
}
}
TEST(ExtractAV1CodecDetails, TestParsingOutput)
{
auto info = AOMDecoder::CreateSequenceInfoFromCodecs(
nsString(u"av01.0.14M.08.0.112.01.01.01.0"));
EXPECT_TRUE(info.isSome());
if (info.isSome()) {
EXPECT_EQ(info->mProfile, 0u);
EXPECT_EQ(info->mOperatingPoints.Length(), 1u);
EXPECT_EQ(info->mOperatingPoints[0].mLayers, 0u);
EXPECT_EQ(info->mOperatingPoints[0].mLevel, 14u);
EXPECT_EQ(info->mOperatingPoints[0].mTier, 0u);
EXPECT_EQ(info->mBitDepth, 8u);
EXPECT_EQ(info->mMonochrome, false);
EXPECT_EQ(info->mSubsamplingX, true);
EXPECT_EQ(info->mSubsamplingY, true);
EXPECT_EQ(info->mChromaSamplePosition,
AOMDecoder::ChromaSamplePosition::Colocated);
EXPECT_EQ(info->mColorSpace.mPrimaries, gfx::CICP::CP_BT709);
EXPECT_EQ(info->mColorSpace.mTransfer, gfx::CICP::TC_BT709);
EXPECT_EQ(info->mColorSpace.mMatrix, gfx::CICP::MC_BT709);
EXPECT_EQ(info->mColorSpace.mRange, gfx::ColorRange::LIMITED);
}
info = AOMDecoder::CreateSequenceInfoFromCodecs(
nsString(u"av01.1.11H.10.0.000.07.07.07.1"));
EXPECT_TRUE(info.isSome());
if (info.isSome()) {
EXPECT_EQ(info->mProfile, 1u);
EXPECT_EQ(info->mOperatingPoints.Length(), 1u);
EXPECT_EQ(info->mOperatingPoints[0].mLayers, 0u);
EXPECT_EQ(info->mOperatingPoints[0].mLevel, 11u);
EXPECT_EQ(info->mOperatingPoints[0].mTier, 1u);
EXPECT_EQ(info->mBitDepth, 10u);
EXPECT_EQ(info->mMonochrome, false);
EXPECT_EQ(info->mSubsamplingX, false);
EXPECT_EQ(info->mSubsamplingY, false);
EXPECT_EQ(info->mChromaSamplePosition,
AOMDecoder::ChromaSamplePosition::Unknown);
EXPECT_EQ(info->mColorSpace.mPrimaries, gfx::CICP::CP_SMPTE240);
EXPECT_EQ(info->mColorSpace.mTransfer, gfx::CICP::TC_SMPTE240);
EXPECT_EQ(info->mColorSpace.mMatrix, gfx::CICP::MC_SMPTE240);
EXPECT_EQ(info->mColorSpace.mRange, gfx::ColorRange::FULL);
}
info = AOMDecoder::CreateSequenceInfoFromCodecs(
nsString(u"av01.2.22H.12.1.110.10.08.04.1"));
EXPECT_TRUE(info.isSome());
if (info.isSome()) {
EXPECT_EQ(info->mProfile, 2u);
EXPECT_EQ(info->mOperatingPoints.Length(), 1u);
EXPECT_EQ(info->mOperatingPoints[0].mLayers, 0u);
EXPECT_EQ(info->mOperatingPoints[0].mLevel, 22u);
EXPECT_EQ(info->mOperatingPoints[0].mTier, 1u);
EXPECT_EQ(info->mBitDepth, 12u);
EXPECT_EQ(info->mMonochrome, true);
EXPECT_EQ(info->mSubsamplingX, true);
EXPECT_EQ(info->mSubsamplingY, true);
EXPECT_EQ(info->mChromaSamplePosition,
AOMDecoder::ChromaSamplePosition::Unknown);
EXPECT_EQ(info->mColorSpace.mPrimaries, gfx::CICP::CP_XYZ);
EXPECT_EQ(info->mColorSpace.mTransfer, gfx::CICP::TC_LINEAR);
EXPECT_EQ(info->mColorSpace.mMatrix, gfx::CICP::MC_FCC);
EXPECT_EQ(info->mColorSpace.mRange, gfx::ColorRange::FULL);
}
}