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webrtc_m130/common_types.cc
Niels Möller def1ef5603 New equality operators, for structs related to webrtc::VideoCodec. 
Added for the structs VideoCodecVP8, VideoCodecVP9, VideoCodecH264,
and SpatialLayer.

New operators are used to replace memcmp in VCMEncoderDataBase. Using
memcmp to compare structs is generally unreliable, since the struct
may contain random padding bytes due to alignment requirements
(affects at least VideoCodecH264). And in the case of VideoCodecVP8,
we need to exclude the tl_factory pointers from the comparison.

Bug: webrtc:8830
Change-Id: I40432ea7834e288f8c89ce0a28a630ae1800dff8
Reviewed-on: https://webrtc-review.googlesource.com/62761
Commit-Queue: Niels Moller <nisse@webrtc.org>
Reviewed-by: Karl Wiberg <kwiberg@webrtc.org>
Reviewed-by: Rasmus Brandt <brandtr@webrtc.org>
Cr-Commit-Position: refs/heads/master@{#22500}
2018-03-19 15:54:21 +00:00

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/*
* Copyright (c) 2012 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 "common_types.h" // NOLINT(build/include)
#include <string.h>
#include <algorithm>
#include <limits>
#include <type_traits>
#include "rtc_base/checks.h"
#include "rtc_base/stringutils.h"
namespace webrtc {
bool VideoCodecVP8::operator==(const VideoCodecVP8& other) const {
// Doesn't compare the tl_factory pointers, which are constructed
// based on other members.
return (complexity == other.complexity &&
resilience == other.resilience &&
numberOfTemporalLayers == other.numberOfTemporalLayers &&
denoisingOn == other.denoisingOn &&
automaticResizeOn == other.automaticResizeOn &&
frameDroppingOn == other.frameDroppingOn &&
keyFrameInterval == other.keyFrameInterval);
}
bool VideoCodecVP9::operator==(const VideoCodecVP9& other) const {
return (complexity == other.complexity &&
resilienceOn == other.resilienceOn &&
numberOfTemporalLayers == other.numberOfTemporalLayers &&
denoisingOn == other.denoisingOn &&
frameDroppingOn == other.frameDroppingOn &&
keyFrameInterval == other.keyFrameInterval &&
adaptiveQpMode == other.adaptiveQpMode &&
automaticResizeOn == other.automaticResizeOn &&
numberOfSpatialLayers == other.numberOfSpatialLayers &&
flexibleMode == other.flexibleMode);
}
bool VideoCodecH264::operator==(const VideoCodecH264& other) const {
return (frameDroppingOn == other.frameDroppingOn &&
keyFrameInterval == other.keyFrameInterval &&
spsLen == other.spsLen &&
ppsLen == other.ppsLen &&
profile == other.profile &&
(spsLen == 0 || memcmp(spsData, other.spsData, spsLen) == 0) &&
(ppsLen == 0 || memcmp(ppsData, other.ppsData, ppsLen) == 0));
}
bool SpatialLayer::operator==(const SpatialLayer& other) const {
return (width == other.width &&
height == other.height &&
numberOfTemporalLayers == other.numberOfTemporalLayers &&
maxBitrate == other.maxBitrate &&
targetBitrate == other.targetBitrate &&
minBitrate == other.minBitrate &&
qpMax == other.qpMax &&
active == other.active);
}
VideoCodec::VideoCodec()
: codecType(kVideoCodecUnknown),
plType(0),
width(0),
height(0),
startBitrate(0),
maxBitrate(0),
minBitrate(0),
targetBitrate(0),
maxFramerate(0),
active(true),
qpMax(0),
numberOfSimulcastStreams(0),
simulcastStream(),
spatialLayers(),
mode(kRealtimeVideo),
expect_encode_from_texture(false),
timing_frame_thresholds({0, 0}),
codec_specific_() {}
VideoCodecVP8* VideoCodec::VP8() {
RTC_DCHECK_EQ(codecType, kVideoCodecVP8);
return &codec_specific_.VP8;
}
const VideoCodecVP8& VideoCodec::VP8() const {
RTC_DCHECK_EQ(codecType, kVideoCodecVP8);
return codec_specific_.VP8;
}
VideoCodecVP9* VideoCodec::VP9() {
RTC_DCHECK_EQ(codecType, kVideoCodecVP9);
return &codec_specific_.VP9;
}
const VideoCodecVP9& VideoCodec::VP9() const {
RTC_DCHECK_EQ(codecType, kVideoCodecVP9);
return codec_specific_.VP9;
}
VideoCodecH264* VideoCodec::H264() {
RTC_DCHECK_EQ(codecType, kVideoCodecH264);
return &codec_specific_.H264;
}
const VideoCodecH264& VideoCodec::H264() const {
RTC_DCHECK_EQ(codecType, kVideoCodecH264);
return codec_specific_.H264;
}
static const char* kPayloadNameVp8 = "VP8";
static const char* kPayloadNameVp9 = "VP9";
static const char* kPayloadNameH264 = "H264";
static const char* kPayloadNameI420 = "I420";
static const char* kPayloadNameRED = "RED";
static const char* kPayloadNameULPFEC = "ULPFEC";
static const char* kPayloadNameFlexfec = "flexfec-03";
static const char* kPayloadNameGeneric = "Generic";
static const char* kPayloadNameMultiplex = "Multiplex";
static bool CodecNamesEq(const char* name1, const char* name2) {
return _stricmp(name1, name2) == 0;
}
const char* CodecTypeToPayloadString(VideoCodecType type) {
switch (type) {
case kVideoCodecVP8:
return kPayloadNameVp8;
case kVideoCodecVP9:
return kPayloadNameVp9;
case kVideoCodecH264:
return kPayloadNameH264;
case kVideoCodecI420:
return kPayloadNameI420;
case kVideoCodecRED:
return kPayloadNameRED;
case kVideoCodecULPFEC:
return kPayloadNameULPFEC;
case kVideoCodecFlexfec:
return kPayloadNameFlexfec;
// Other codecs default to generic.
case kVideoCodecMultiplex:
case kVideoCodecGeneric:
case kVideoCodecUnknown:
return kPayloadNameGeneric;
}
return kPayloadNameGeneric;
}
VideoCodecType PayloadStringToCodecType(const std::string& name) {
if (CodecNamesEq(name.c_str(), kPayloadNameVp8))
return kVideoCodecVP8;
if (CodecNamesEq(name.c_str(), kPayloadNameVp9))
return kVideoCodecVP9;
if (CodecNamesEq(name.c_str(), kPayloadNameH264))
return kVideoCodecH264;
if (CodecNamesEq(name.c_str(), kPayloadNameI420))
return kVideoCodecI420;
if (CodecNamesEq(name.c_str(), kPayloadNameRED))
return kVideoCodecRED;
if (CodecNamesEq(name.c_str(), kPayloadNameULPFEC))
return kVideoCodecULPFEC;
if (CodecNamesEq(name.c_str(), kPayloadNameFlexfec))
return kVideoCodecFlexfec;
if (CodecNamesEq(name.c_str(), kPayloadNameMultiplex))
return kVideoCodecMultiplex;
return kVideoCodecGeneric;
}
const uint32_t BitrateAllocation::kMaxBitrateBps =
std::numeric_limits<uint32_t>::max();
BitrateAllocation::BitrateAllocation() : sum_(0), bitrates_{}, has_bitrate_{} {}
bool BitrateAllocation::SetBitrate(size_t spatial_index,
size_t temporal_index,
uint32_t bitrate_bps) {
RTC_CHECK_LT(spatial_index, kMaxSpatialLayers);
RTC_CHECK_LT(temporal_index, kMaxTemporalStreams);
RTC_CHECK_LE(bitrates_[spatial_index][temporal_index], sum_);
uint64_t new_bitrate_sum_bps = sum_;
new_bitrate_sum_bps -= bitrates_[spatial_index][temporal_index];
new_bitrate_sum_bps += bitrate_bps;
if (new_bitrate_sum_bps > kMaxBitrateBps)
return false;
bitrates_[spatial_index][temporal_index] = bitrate_bps;
has_bitrate_[spatial_index][temporal_index] = true;
sum_ = static_cast<uint32_t>(new_bitrate_sum_bps);
return true;
}
bool BitrateAllocation::HasBitrate(size_t spatial_index,
size_t temporal_index) const {
RTC_CHECK_LT(spatial_index, kMaxSpatialLayers);
RTC_CHECK_LT(temporal_index, kMaxTemporalStreams);
return has_bitrate_[spatial_index][temporal_index];
}
uint32_t BitrateAllocation::GetBitrate(size_t spatial_index,
size_t temporal_index) const {
RTC_CHECK_LT(spatial_index, kMaxSpatialLayers);
RTC_CHECK_LT(temporal_index, kMaxTemporalStreams);
return bitrates_[spatial_index][temporal_index];
}
// Whether the specific spatial layers has the bitrate set in any of its
// temporal layers.
bool BitrateAllocation::IsSpatialLayerUsed(size_t spatial_index) const {
RTC_CHECK_LT(spatial_index, kMaxSpatialLayers);
for (int i = 0; i < kMaxTemporalStreams; ++i) {
if (has_bitrate_[spatial_index][i])
return true;
}
return false;
}
// Get the sum of all the temporal layer for a specific spatial layer.
uint32_t BitrateAllocation::GetSpatialLayerSum(size_t spatial_index) const {
RTC_CHECK_LT(spatial_index, kMaxSpatialLayers);
uint32_t sum = 0;
for (int i = 0; i < kMaxTemporalStreams; ++i)
sum += bitrates_[spatial_index][i];
return sum;
}
std::string BitrateAllocation::ToString() const {
if (sum_ == 0)
return "BitrateAllocation [ [] ]";
// TODO(sprang): Replace this stringstream with something cheaper.
std::ostringstream oss;
oss << "BitrateAllocation [";
uint32_t spatial_cumulator = 0;
for (int si = 0; si < kMaxSpatialLayers; ++si) {
RTC_DCHECK_LE(spatial_cumulator, sum_);
if (spatial_cumulator == sum_)
break;
const uint32_t layer_sum = GetSpatialLayerSum(si);
if (layer_sum == sum_) {
oss << " [";
} else {
if (si > 0)
oss << ",";
oss << std::endl << " [";
}
spatial_cumulator += layer_sum;
uint32_t temporal_cumulator = 0;
for (int ti = 0; ti < kMaxTemporalStreams; ++ti) {
RTC_DCHECK_LE(temporal_cumulator, layer_sum);
if (temporal_cumulator == layer_sum)
break;
if (ti > 0)
oss << ", ";
uint32_t bitrate = bitrates_[si][ti];
oss << bitrate;
temporal_cumulator += bitrate;
}
oss << "]";
}
RTC_DCHECK_EQ(spatial_cumulator, sum_);
oss << " ]";
return oss.str();
}
std::ostream& BitrateAllocation::operator<<(std::ostream& os) const {
os << ToString();
return os;
}
} // namespace webrtc
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