antkeeper
/
superbuild


								#ifndef ALC_BACKENDS_BASE_H

								#define ALC_BACKENDS_BASE_H


								#include <chrono>

								#include <cstdarg>

								#include <memory>

								#include <ratio>

								#include <string>


								#include "albyte.h"

								#include "core/device.h"

								#include "core/except.h"


								using uint = unsigned int;


								struct ClockLatency {

								    std::chrono::nanoseconds ClockTime;

								    std::chrono::nanoseconds Latency;

								};


								struct BackendBase {

								    virtual void open(const char *name) = 0;


								    virtual bool reset();

								    virtual void start() = 0;

								    virtual void stop() = 0;


								    virtual void captureSamples(al::byte *buffer, uint samples);

								    virtual uint availableSamples();


								    virtual ClockLatency getClockLatency();


								    DeviceBase *const mDevice;


								    BackendBase(DeviceBase *device) noexcept : mDevice{device} { }

								    virtual ~BackendBase() = default;


								protected:

								    /** Sets the default channel order used by most non-WaveFormatEx-based APIs. */

								    void setDefaultChannelOrder();

								    /** Sets the default channel order used by WaveFormatEx. */

								    void setDefaultWFXChannelOrder();


								#ifdef _WIN32

								    /** Sets the channel order given the WaveFormatEx mask. */

								    void setChannelOrderFromWFXMask(uint chanmask);

								#endif

								};

								using BackendPtr = std::unique_ptr<BackendBase>;


								enum class BackendType {

								    Playback,

								    Capture

								};


								/* Helper to get the current clock time from the device's ClockBase, and

								 * SamplesDone converted from the sample rate.

								 */

								inline std::chrono::nanoseconds GetDeviceClockTime(DeviceBase *device)

								{

								    using std::chrono::seconds;

								    using std::chrono::nanoseconds;


								    auto ns = nanoseconds{seconds{device->SamplesDone}} / device->Frequency;

								    return device->ClockBase + ns;

								}


								/* Helper to get the device latency from the backend, including any fixed

								 * latency from post-processing.

								 */

								inline ClockLatency GetClockLatency(DeviceBase *device, BackendBase *backend)

								{

								    ClockLatency ret{backend->getClockLatency()};

								    ret.Latency += device->FixedLatency;

								    return ret;

								}


								struct BackendFactory {

								    virtual bool init() = 0;


								    virtual bool querySupport(BackendType type) = 0;


								    virtual std::string probe(BackendType type) = 0;


								    virtual BackendPtr createBackend(DeviceBase *device, BackendType type) = 0;


								protected:

								    virtual ~BackendFactory() = default;

								};


								namespace al {


								enum class backend_error {

								    NoDevice,

								    DeviceError,

								    OutOfMemory

								};


								class backend_exception final : public base_exception {

								    backend_error mErrorCode;


								public:

								#ifdef __USE_MINGW_ANSI_STDIO

								    [[gnu::format(gnu_printf, 3, 4)]]

								#else

								    [[gnu::format(printf, 3, 4)]]

								#endif

								    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_error errorCode() const noexcept { return mErrorCode; }

								};


								} // namespace al


								#endif /* ALC_BACKENDS_BASE_H */