obs-StreamFX/source/nvidia/ar/nvidia-ar-feature.hpp

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// AUTOGENERATED COPYRIGHT HEADER START
// Copyright (C) 2020-2023 Michael Fabian 'Xaymar' Dirks <info@xaymar.com>
// AUTOGENERATED COPYRIGHT HEADER END
#pragma once
#include "nvidia/ar/nvidia-ar.hpp"
#include "nvidia/cuda/nvidia-cuda-obs.hpp"
#include "nvidia/cv/nvidia-cv-image.hpp"
#include "nvidia/cv/nvidia-cv-texture.hpp"
#include "nvidia/cv/nvidia-cv.hpp"
#include "warning-disable.hpp"
#include <string_view>
#include "warning-enable.hpp"
namespace streamfx::nvidia::ar {
class feature {
protected:
std::shared_ptr<::streamfx::nvidia::cuda::obs> _nvcuda;
std::shared_ptr<::streamfx::nvidia::cv::cv> _nvcv;
std::shared_ptr<::streamfx::nvidia::ar::ar> _nvar;
std::shared_ptr<void> _fx;
std::string _model_path;
public:
~feature();
feature(feature_t feature);
::streamfx::nvidia::ar::handle_t get()
{
return _fx.get();
}
public /* Int32 */:
inline cv::result set(parameter_t param, uint32_t const value)
{
return _nvar->NvAR_SetU32(_fx.get(), param, value);
}
inline cv::result get(parameter_t param, uint32_t* value)
{
return _nvar->NvAR_GetU32(_fx.get(), param, value);
}
inline cv::result set(parameter_t param, int32_t const value)
{
return _nvar->NvAR_SetS32(_fx.get(), param, value);
}
inline cv::result get(parameter_t param, int32_t* value)
{
return _nvar->NvAR_GetS32(_fx.get(), param, value);
}
public /* Int64 */:
inline cv::result set(parameter_t param, uint64_t const value)
{
return _nvar->NvAR_SetU64(_fx.get(), param, value);
}
inline cv::result get(parameter_t param, uint64_t* value)
{
return _nvar->NvAR_GetU64(_fx.get(), param, value);
}
public /* Float32 */:
inline cv::result set(parameter_t param, float const value)
{
return _nvar->NvAR_SetF32(_fx.get(), param, value);
}
inline cv::result get(parameter_t param, float* value)
{
return _nvar->NvAR_GetF32(_fx.get(), param, value);
}
inline cv::result set(parameter_t param, float* const value, int32_t size)
{
return _nvar->NvAR_SetF32Array(_fx.get(), param, value, static_cast<int32_t>(size));
}
inline cv::result get(parameter_t param, const float* value, int32_t size)
{
return _nvar->NvAR_GetF32Array(_fx.get(), param, &value, &size);
}
inline cv::result set(parameter_t param, std::vector<float> const& value)
{
return _nvar->NvAR_SetF32Array(_fx.get(), param, value.data(), static_cast<int32_t>(value.size()));
}
inline cv::result get(parameter_t param, std::vector<float>& value)
{
const float* data;
int32_t size;
cv::result result;
result = _nvar->NvAR_GetF32Array(_fx.get(), param, &data, &size);
value.resize(static_cast<size_t>(size));
memcpy(value.data(), data, size * sizeof(float));
return result;
}
public /* Float64 */:
inline cv::result set(parameter_t param, double const value)
{
return _nvar->NvAR_SetF64(_fx.get(), param, value);
}
inline cv::result get(parameter_t param, double* value)
{
return _nvar->NvAR_GetF64(_fx.get(), param, value);
}
public /* String */:
inline cv::result set(parameter_t param, const char* const value)
{
return _nvar->NvAR_SetString(_fx.get(), param, value);
};
inline cv::result get(parameter_t param, const char*& value)
{
return _nvar->NvAR_GetString(_fx.get(), param, &value);
};
inline cv::result set(parameter_t param, std::string_view const value)
{
return _nvar->NvAR_SetString(_fx.get(), param, value.data());
};
cv::result get(parameter_t param, std::string_view& value);
inline cv::result set(parameter_t param, std::string const& value)
{
return _nvar->NvAR_SetString(_fx.get(), param, value.c_str());
};
cv::result get(parameter_t param, std::string& value);
public /* CUDA Stream */:
inline cv::result set(parameter_t param, cuda::stream_t const value)
{
return _nvar->NvAR_SetCudaStream(_fx.get(), param, value);
};
inline cv::result get(parameter_t param, cuda::stream_t& value)
{
return _nvar->NvAR_GetCudaStream(_fx.get(), param, &value);
};
inline cv::result set(parameter_t param, std::shared_ptr<::streamfx::nvidia::cuda::stream> const value)
{
return _nvar->NvAR_SetCudaStream(_fx.get(), param, value->get());
}
//inline cv::result get(parameter_t param, std::shared_ptr<::streamfx::nvidia::cuda::stream> value);
public /* CV Image */:
inline cv::result set(parameter_t param, cv::image_t& value)
{
return _nvar->NvAR_SetObject(_fx.get(), param, &value, sizeof(cv::image_t));
};
inline cv::result get(parameter_t param, cv::image_t*& value)
{
return _nvar->NvAR_GetObject(_fx.get(), param, reinterpret_cast<object_t*>(&value), sizeof(cv::image_t));
};
inline cv::result set(parameter_t param, std::shared_ptr<cv::image> const value)
{
return _nvar->NvAR_SetObject(_fx.get(), param, value->get_image(), sizeof(cv::image_t));
};
//inline cv::result get(parameter_t param, std::shared_ptr<cv::image>& value);
public /* CV Texture */:
inline cv::result set(parameter_t param, std::shared_ptr<cv::texture> const value)
{
return _nvar->NvAR_SetObject(_fx.get(), param, value->get_image(), sizeof(cv::image_t));
};
//inline cv::result get(parameter_t param, std::shared_ptr<cv::image>& value);
public /* Objects */:
inline cv::result set_object(parameter_t param, void* const data, size_t size)
{
return _nvar->NvAR_SetObject(_fx.get(), param, data, static_cast<uint32_t>(size));
}
inline cv::result get_object(parameter_t param, void*& data, size_t size)
{
return _nvar->NvAR_GetObject(_fx.get(), param, &data, static_cast<uint32_t>(size));
}
public /* Control */:
inline cv::result load()
{
return _nvar->NvAR_Load(_fx.get());
}
inline cv::result run()
{
return _nvar->NvAR_Run(_fx.get());
}
};
} // namespace streamfx::nvidia::ar