#include "config.h" #include "base.h" #include #include #include #ifdef _WIN32 #define WIN32_LEAN_AND_MEAN #include #include #include "albit.h" #include "core/logging.h" #endif #include "atomic.h" #include "core/devformat.h" namespace al { backend_exception::backend_exception(backend_error code, const char *msg, ...) : mErrorCode{code} { std::va_list args; va_start(args, msg); setMessage(msg, args); va_end(args); } backend_exception::~backend_exception() = default; } // namespace al bool BackendBase::reset() { throw al::backend_exception{al::backend_error::DeviceError, "Invalid BackendBase call"}; } void BackendBase::captureSamples(std::byte*, uint) { } uint BackendBase::availableSamples() { return 0; } ClockLatency BackendBase::getClockLatency() { ClockLatency ret; uint refcount; do { refcount = mDevice->waitForMix(); ret.ClockTime = GetDeviceClockTime(mDevice); std::atomic_thread_fence(std::memory_order_acquire); } while(refcount != ReadRef(mDevice->MixCount)); /* NOTE: The device will generally have about all but one periods filled at * any given time during playback. Without a more accurate measurement from * the output, this is an okay approximation. */ ret.Latency = std::max(std::chrono::seconds{mDevice->BufferSize-mDevice->UpdateSize}, std::chrono::seconds::zero()); ret.Latency /= mDevice->Frequency; return ret; } void BackendBase::setDefaultWFXChannelOrder() { mDevice->RealOut.ChannelIndex.fill(InvalidChannelIndex); switch(mDevice->FmtChans) { case DevFmtMono: mDevice->RealOut.ChannelIndex[FrontCenter] = 0; break; case DevFmtStereo: mDevice->RealOut.ChannelIndex[FrontLeft] = 0; mDevice->RealOut.ChannelIndex[FrontRight] = 1; break; case DevFmtQuad: mDevice->RealOut.ChannelIndex[FrontLeft] = 0; mDevice->RealOut.ChannelIndex[FrontRight] = 1; mDevice->RealOut.ChannelIndex[BackLeft] = 2; mDevice->RealOut.ChannelIndex[BackRight] = 3; break; case DevFmtX51: mDevice->RealOut.ChannelIndex[FrontLeft] = 0; mDevice->RealOut.ChannelIndex[FrontRight] = 1; mDevice->RealOut.ChannelIndex[FrontCenter] = 2; mDevice->RealOut.ChannelIndex[LFE] = 3; mDevice->RealOut.ChannelIndex[SideLeft] = 4; mDevice->RealOut.ChannelIndex[SideRight] = 5; break; case DevFmtX61: mDevice->RealOut.ChannelIndex[FrontLeft] = 0; mDevice->RealOut.ChannelIndex[FrontRight] = 1; mDevice->RealOut.ChannelIndex[FrontCenter] = 2; mDevice->RealOut.ChannelIndex[LFE] = 3; mDevice->RealOut.ChannelIndex[BackCenter] = 4; mDevice->RealOut.ChannelIndex[SideLeft] = 5; mDevice->RealOut.ChannelIndex[SideRight] = 6; break; case DevFmtX71: mDevice->RealOut.ChannelIndex[FrontLeft] = 0; mDevice->RealOut.ChannelIndex[FrontRight] = 1; mDevice->RealOut.ChannelIndex[FrontCenter] = 2; mDevice->RealOut.ChannelIndex[LFE] = 3; mDevice->RealOut.ChannelIndex[BackLeft] = 4; mDevice->RealOut.ChannelIndex[BackRight] = 5; mDevice->RealOut.ChannelIndex[SideLeft] = 6; mDevice->RealOut.ChannelIndex[SideRight] = 7; break; case DevFmtX714: mDevice->RealOut.ChannelIndex[FrontLeft] = 0; mDevice->RealOut.ChannelIndex[FrontRight] = 1; mDevice->RealOut.ChannelIndex[FrontCenter] = 2; mDevice->RealOut.ChannelIndex[LFE] = 3; mDevice->RealOut.ChannelIndex[BackLeft] = 4; mDevice->RealOut.ChannelIndex[BackRight] = 5; mDevice->RealOut.ChannelIndex[SideLeft] = 6; mDevice->RealOut.ChannelIndex[SideRight] = 7; mDevice->RealOut.ChannelIndex[TopFrontLeft] = 8; mDevice->RealOut.ChannelIndex[TopFrontRight] = 9; mDevice->RealOut.ChannelIndex[TopBackLeft] = 10; mDevice->RealOut.ChannelIndex[TopBackRight] = 11; break; case DevFmtX3D71: mDevice->RealOut.ChannelIndex[FrontLeft] = 0; mDevice->RealOut.ChannelIndex[FrontRight] = 1; mDevice->RealOut.ChannelIndex[FrontCenter] = 2; mDevice->RealOut.ChannelIndex[LFE] = 3; mDevice->RealOut.ChannelIndex[Aux0] = 4; mDevice->RealOut.ChannelIndex[Aux1] = 5; mDevice->RealOut.ChannelIndex[SideLeft] = 6; mDevice->RealOut.ChannelIndex[SideRight] = 7; break; case DevFmtAmbi3D: break; } } void BackendBase::setDefaultChannelOrder() { mDevice->RealOut.ChannelIndex.fill(InvalidChannelIndex); switch(mDevice->FmtChans) { case DevFmtX51: mDevice->RealOut.ChannelIndex[FrontLeft] = 0; mDevice->RealOut.ChannelIndex[FrontRight] = 1; mDevice->RealOut.ChannelIndex[SideLeft] = 2; mDevice->RealOut.ChannelIndex[SideRight] = 3; mDevice->RealOut.ChannelIndex[FrontCenter] = 4; mDevice->RealOut.ChannelIndex[LFE] = 5; return; case DevFmtX71: mDevice->RealOut.ChannelIndex[FrontLeft] = 0; mDevice->RealOut.ChannelIndex[FrontRight] = 1; mDevice->RealOut.ChannelIndex[BackLeft] = 2; mDevice->RealOut.ChannelIndex[BackRight] = 3; mDevice->RealOut.ChannelIndex[FrontCenter] = 4; mDevice->RealOut.ChannelIndex[LFE] = 5; mDevice->RealOut.ChannelIndex[SideLeft] = 6; mDevice->RealOut.ChannelIndex[SideRight] = 7; return; case DevFmtX714: mDevice->RealOut.ChannelIndex[FrontLeft] = 0; mDevice->RealOut.ChannelIndex[FrontRight] = 1; mDevice->RealOut.ChannelIndex[BackLeft] = 2; mDevice->RealOut.ChannelIndex[BackRight] = 3; mDevice->RealOut.ChannelIndex[FrontCenter] = 4; mDevice->RealOut.ChannelIndex[LFE] = 5; mDevice->RealOut.ChannelIndex[SideLeft] = 6; mDevice->RealOut.ChannelIndex[SideRight] = 7; mDevice->RealOut.ChannelIndex[TopFrontLeft] = 8; mDevice->RealOut.ChannelIndex[TopFrontRight] = 9; mDevice->RealOut.ChannelIndex[TopBackLeft] = 10; mDevice->RealOut.ChannelIndex[TopBackRight] = 11; break; case DevFmtX3D71: mDevice->RealOut.ChannelIndex[FrontLeft] = 0; mDevice->RealOut.ChannelIndex[FrontRight] = 1; mDevice->RealOut.ChannelIndex[Aux0] = 2; mDevice->RealOut.ChannelIndex[Aux1] = 3; mDevice->RealOut.ChannelIndex[FrontCenter] = 4; mDevice->RealOut.ChannelIndex[LFE] = 5; mDevice->RealOut.ChannelIndex[SideLeft] = 6; mDevice->RealOut.ChannelIndex[SideRight] = 7; return; /* Same as WFX order */ case DevFmtMono: case DevFmtStereo: case DevFmtQuad: case DevFmtX61: case DevFmtAmbi3D: setDefaultWFXChannelOrder(); break; } }