static void jhu_THLogSum1d_init(lua_State *L) { int ret = luaT_pushmetatable(L, "torch.DoubleTensor"); if(ret == 0) { THError("problem pushing metatable"); } luaT_registeratname(L, jhu_THLogSum1d__, "jhu"); lua_pop(L, 1); }
DLL_EXPORT int libsox_(Main_init)(lua_State *L) { luaT_pushmetatable(L, torch_Tensor); luaT_registeratname(L, libsox_(Main__), "libsox"); // Initialize sox library sox_format_init(); return 1; }
void nn_(LogSoftMax_init)(lua_State *L) { luaT_pushmetatable(L, torch_Tensor); luaT_registeratname(L, nn_(LogSoftMax__), "nn"); lua_pop(L,1); }
static void nnconv1d_(SpatialUpSamplingPeriodic_init)(lua_State *L) { luaT_pushmetatable(L, torch_Tensor); luaT_registeratname(L, nnconv1d_(SpatialUpSamplingPeriodic__), "nn"); lua_pop(L,1); }
static void gpunn_Abs_init(lua_State *L) { luaT_pushmetatable(L, "torch.GPUTensor"); luaT_registeratname(L, gpunn_Abs__, "nn"); lua_pop(L,1); }
static void cr_(AG_init)(lua_State *L) { luaT_pushmetatable(L, torch_Tensor); luaT_registeratname(L, cr_(AG__), "cr"); lua_pop(L,1); }
static void nxn_(Jitter_init)(lua_State *L) { luaT_pushmetatable(L, torch_Tensor); luaT_registeratname(L, nxn_(Jitter__), "nxn"); lua_pop(L,1); }
DLL_EXPORT int libjpeg_(Main_init)(lua_State *L) { luaT_pushmetatable(L, torch_Tensor); luaT_registeratname(L, libjpeg_(Main__), "libjpeg"); return 1; }
void Lstitch_(Init)(lua_State *L) { luaT_pushmetaclass(L, torch_(Tensor_id)); luaT_registeratname(L, Lstitch_(Methods), "stitch"); }
void etherflow_(Api_init)(lua_State *L) { luaT_pushmetaclass(L, torch_(Tensor_id)); luaT_registeratname(L, etherflow_(Api__), "etherflow"); }
void Lffmpeg_(Init)(lua_State *L) { luaT_pushmetaclass(L, torch_(Tensor_id)); luaT_registeratname(L, Lffmpeg_(Methods), "ffmpeg"); }
void torchzfp_(Main_init)(lua_State *L) { luaT_pushmetatable(L, torch_Tensor); luaT_registeratname(L, torchzfp_(Main__), "torchzfp"); }
void thffmpeg_(Main_init)(lua_State *L) { luaT_pushmetatable(L, torch_Tensor); luaT_registeratname(L, thffmpeg_(Main__), "libthffmpeg"); }
void nn_(SparseLinear_init)(lua_State *L) { luaT_pushmetaclass(L, torch_(Tensor_id)); luaT_registeratname(L, nn_(SparseLinear__), "nn"); lua_pop(L,1); }
static void nn_(TemporalMaxPooling_init)(lua_State *L) { luaT_pushmetaclass(L, torch_(Tensor_id)); luaT_registeratname(L, nn_(TemporalMaxPooling__), "nn"); lua_pop(L,1); }
static void nn_(ClassNLLCriterion_init)(lua_State *L) { luaT_pushmetatable(L, torch_Tensor); luaT_registeratname(L, nn_(ClassNLLCriterion__), "nn"); lua_pop(L,1); }
void initFeatureLPPoolingCuda(lua_State *L) { luaT_pushmetatable(L, "torch.CudaTensor"); luaT_registeratname(L, registry, "nn"); lua_pop(L, 1); }
static void nxn_(CrossMapNormalization_init)(lua_State *L) { luaT_pushmetatable(L, torch_Tensor); luaT_registeratname(L, nxn_(CrossMapNormalization__), "nxn"); lua_pop(L,1); }
void initSpatialConvolutionCuFFT(lua_State *L) { luaT_pushmetatable(L, "torch.CudaTensor"); luaT_registeratname(L, functions, "nn"); lua_pop(L,1); }
static void gpunn_SpatialConvolutionGPU_init(lua_State *L) { luaT_pushmetatable(L, "torch.GPUTensor"); luaT_registeratname(L, gpunn_SpatialConvolutionGPU__, "nn"); lua_pop(L,1); }
void initCrossMapNormalizationCuda(lua_State* L) { luaT_pushmetatable(L, "torch.CudaTensor"); luaT_registeratname(L, functions, "nn"); lua_pop(L, 1); }
static void nn_(VolumetricAveragePooling_init)(lua_State *L) { luaT_pushmetatable(L, torch_Tensor); luaT_registeratname(L, nn_(VolumetricAveragePooling__), "nn"); lua_pop(L,1); }
static void nn_(SpatialAdaptiveMaxPooling_init)(lua_State *L) { luaT_pushmetatable(L, torch_Tensor); luaT_registeratname(L, nn_(SpatialAdaptiveMaxPooling__), "nn"); lua_pop(L,1); }
void initOneBitQuantizationCuda(lua_State *L) { luaT_pushmetatable(L, "torch.CudaTensor"); luaT_registeratname(L, functions, "nn"); lua_pop(L,1); }
void initSparseNLLCriterionCuda(lua_State *L) { luaT_pushmetatable(L, "torch.CudaTensor"); luaT_registeratname(L, functions, "nn"); lua_pop(L, 1); }
static void nn_(SpatialUpSampling_init)(lua_State *L) { luaT_pushmetaclass(L, torch_(Tensor_id)); luaT_registeratname(L, nn_(SpatialUpSampling__), "nn"); lua_pop(L,1); }
static void nxn_(SpatialMaxPoolingBHWD_init)(lua_State *L) { luaT_pushmetatable(L, torch_Tensor); luaT_registeratname(L, nxn_(SpatialMaxPoolingBHWD__), "nn"); lua_pop(L,1); }
static void nn_(SpatialConvolution_init)(lua_State *L) { luaT_pushmetatable(L, torch_Tensor); luaT_registeratname(L, nn_(SpatialConvolution__), "nn"); lua_pop(L,1); }
void initCuBLASWrapper(lua_State* L) { luaT_pushmetatable(L, "torch.CudaTensor"); luaT_registeratname(L, functions, "nn"); lua_pop(L, 1); }