#if RTC_ENABLE_MEDIA
#include "h265nalunit.hpp"
#include "impl/internals.hpp"
#include <cmath>
namespace rtc {
std::vector<binary> H265NalUnit::GenerateFragments(const std::vector<H265NalUnit> &nalus,
size_t maxFragmentSize) {
std::vector<binary> result;
for (auto nalu : nalus) {
if (nalu.size() > maxFragmentSize) {
auto fragments = nalu.generateFragments(maxFragmentSize);
result.insert(result.end(), fragments.begin(), fragments.end());
} else {
result.push_back(nalu);
}
}
return result;
}
std::vector<H265NalUnitFragment> H265NalUnit::generateFragments(size_t maxFragmentSize) const {
assert(size() > maxFragmentSize);
auto fragments_count = ceil(double(size()) / maxFragmentSize);
maxFragmentSize = uint16_t(int(ceil(size() / fragments_count)));
maxFragmentSize -= (H265_NAL_HEADER_SIZE + H265_FU_HEADER_SIZE);
bool forbiddenBit = this->forbiddenBit();
uint8_t nuhLayerId = this->nuhLayerId() & 0x3F; uint8_t nuhTempIdPlus1 = this->nuhTempIdPlus1() & 0x7; uint8_t naluType = this->unitType() & 0x3F; auto payload = this->payload();
vector<H265NalUnitFragment> result;
uint64_t offset = 0;
while (offset < payload.size()) {
vector<byte> fragmentData;
using FragmentType = H265NalUnitFragment::FragmentType;
FragmentType fragmentType;
if (offset == 0) {
fragmentType = FragmentType::Start;
} else if (offset + maxFragmentSize < payload.size()) {
fragmentType = FragmentType::Middle;
} else {
if (offset + maxFragmentSize > payload.size()) {
maxFragmentSize = uint16_t(payload.size() - offset);
}
fragmentType = FragmentType::End;
}
fragmentData = {payload.begin() + offset, payload.begin() + offset + maxFragmentSize};
result.emplace_back(fragmentType, forbiddenBit, nuhLayerId, nuhTempIdPlus1, naluType,
fragmentData);
offset += maxFragmentSize;
}
return result;
}
H265NalUnitFragment::H265NalUnitFragment(FragmentType type, bool forbiddenBit, uint8_t nuhLayerId,
uint8_t nuhTempIdPlus1, uint8_t unitType, binary data)
: H265NalUnit(data.size() + H265_NAL_HEADER_SIZE + H265_FU_HEADER_SIZE) {
setForbiddenBit(forbiddenBit);
setNuhLayerId(nuhLayerId);
setNuhTempIdPlus1(nuhTempIdPlus1);
fragmentIndicator()->setUnitType(H265NalUnitFragment::nal_type_fu);
setFragmentType(type);
setUnitType(unitType);
copy(data.begin(), data.end(), begin() + H265_NAL_HEADER_SIZE + H265_FU_HEADER_SIZE);
}
std::vector<shared_ptr<H265NalUnitFragment>>
H265NalUnitFragment::fragmentsFrom(shared_ptr<H265NalUnit> nalu, uint16_t maxFragmentSize) {
auto fragments = nalu->generateFragments(maxFragmentSize);
std::vector<shared_ptr<H265NalUnitFragment>> result;
result.reserve(fragments.size());
for (auto fragment : fragments)
result.push_back(std::make_shared<H265NalUnitFragment>(std::move(fragment)));
return result;
}
void H265NalUnitFragment::setFragmentType(FragmentType type) {
switch (type) {
case FragmentType::Start:
fragmentHeader()->setStart(true);
fragmentHeader()->setEnd(false);
break;
case FragmentType::End:
fragmentHeader()->setStart(false);
fragmentHeader()->setEnd(true);
break;
default:
fragmentHeader()->setStart(false);
fragmentHeader()->setEnd(false);
}
}
std::vector<shared_ptr<binary>> H265NalUnits::generateFragments(uint16_t maxFragmentSize) {
std::vector<H265NalUnit> nalus;
for (auto nalu : *this)
nalus.push_back(*nalu);
auto fragments = H265NalUnit::GenerateFragments(nalus, maxFragmentSize);
std::vector<shared_ptr<binary>> result;
result.reserve(fragments.size());
for (auto fragment : fragments)
result.push_back(std::make_shared<binary>(std::move(fragment)));
return result;
}
}
#endif