#pragma once // @generated by torchgen/gen.py from Operator.h #include #include #include // Forward declarations of any types needed in the operator signatures. // We can't directly include these classes because it will cause circular include dependencies. // This file is included by TensorBody.h, which defines the Tensor class. #include namespace at { namespace _ops { struct TORCH_API min_dim { using schema = ::std::tuple (const at::Tensor &, int64_t, bool); using ptr_schema = schema*; // See Note [static constexpr char* members for windows NVCC] static constexpr const char* name = "aten::min"; static constexpr const char* overload_name = "dim"; static constexpr const char* schema_str = "min.dim(Tensor self, int dim, bool keepdim=False) -> (Tensor values, Tensor indices)"; static ::std::tuple call(const at::Tensor & self, int64_t dim, bool keepdim); static ::std::tuple redispatch(c10::DispatchKeySet dispatchKeySet, const at::Tensor & self, int64_t dim, bool keepdim); }; struct TORCH_API min_dim_min { using schema = ::std::tuple (const at::Tensor &, int64_t, bool, at::Tensor &, at::Tensor &); using ptr_schema = schema*; // See Note [static constexpr char* members for windows NVCC] static constexpr const char* name = "aten::min"; static constexpr const char* overload_name = "dim_min"; static constexpr const char* schema_str = "min.dim_min(Tensor self, int dim, bool keepdim=False, *, Tensor(a!) min, Tensor(b!) min_indices) -> (Tensor(a!) values, Tensor(b!) indices)"; static ::std::tuple call(const at::Tensor & self, int64_t dim, bool keepdim, at::Tensor & min, at::Tensor & min_indices); static ::std::tuple redispatch(c10::DispatchKeySet dispatchKeySet, const at::Tensor & self, int64_t dim, bool keepdim, at::Tensor & min, at::Tensor & min_indices); }; struct TORCH_API min_names_dim { using schema = ::std::tuple (const at::Tensor &, at::Dimname, bool); using ptr_schema = schema*; // See Note [static constexpr char* members for windows NVCC] static constexpr const char* name = "aten::min"; static constexpr const char* overload_name = "names_dim"; static constexpr const char* schema_str = "min.names_dim(Tensor self, Dimname dim, bool keepdim=False) -> (Tensor values, Tensor indices)"; static ::std::tuple call(const at::Tensor & self, at::Dimname dim, bool keepdim); static ::std::tuple redispatch(c10::DispatchKeySet dispatchKeySet, const at::Tensor & self, at::Dimname dim, bool keepdim); }; struct TORCH_API min_names_dim_min { using schema = ::std::tuple (const at::Tensor &, at::Dimname, bool, at::Tensor &, at::Tensor &); using ptr_schema = schema*; // See Note [static constexpr char* members for windows NVCC] static constexpr const char* name = "aten::min"; static constexpr const char* overload_name = "names_dim_min"; static constexpr const char* schema_str = "min.names_dim_min(Tensor self, Dimname dim, bool keepdim=False, *, Tensor(a!) min, Tensor(b!) min_indices) -> (Tensor(a!) values, Tensor(b!) indices)"; static ::std::tuple call(const at::Tensor & self, at::Dimname dim, bool keepdim, at::Tensor & min, at::Tensor & min_indices); static ::std::tuple redispatch(c10::DispatchKeySet dispatchKeySet, const at::Tensor & self, at::Dimname dim, bool keepdim, at::Tensor & min, at::Tensor & min_indices); }; struct TORCH_API min { using schema = at::Tensor (const at::Tensor &); using ptr_schema = schema*; // See Note [static constexpr char* members for windows NVCC] static constexpr const char* name = "aten::min"; static constexpr const char* overload_name = ""; static constexpr const char* schema_str = "min(Tensor self) -> Tensor"; static at::Tensor call(const at::Tensor & self); static at::Tensor redispatch(c10::DispatchKeySet dispatchKeySet, const at::Tensor & self); }; struct TORCH_API min_unary_out { using schema = at::Tensor & (const at::Tensor &, at::Tensor &); using ptr_schema = schema*; // See Note [static constexpr char* members for windows NVCC] static constexpr const char* name = "aten::min"; static constexpr const char* overload_name = "unary_out"; static constexpr const char* schema_str = "min.unary_out(Tensor self, *, Tensor(a!) out) -> Tensor(a!)"; static at::Tensor & call(const at::Tensor & self, at::Tensor & out); static at::Tensor & redispatch(c10::DispatchKeySet dispatchKeySet, const at::Tensor & self, at::Tensor & out); }; struct TORCH_API min_out { using schema = at::Tensor & (const at::Tensor &, const at::Tensor &, at::Tensor &); using ptr_schema = schema*; // See Note [static constexpr char* members for windows NVCC] static constexpr const char* name = "aten::min"; static constexpr const char* overload_name = "out"; static constexpr const char* schema_str = "min.out(Tensor self, Tensor other, *, Tensor(a!) out) -> Tensor(a!)"; static at::Tensor & call(const at::Tensor & self, const at::Tensor & other, at::Tensor & out); static at::Tensor & redispatch(c10::DispatchKeySet dispatchKeySet, const at::Tensor & self, const at::Tensor & other, at::Tensor & out); }; struct TORCH_API min_other { using schema = at::Tensor (const at::Tensor &, const at::Tensor &); using ptr_schema = schema*; // See Note [static constexpr char* members for windows NVCC] static constexpr const char* name = "aten::min"; static constexpr const char* overload_name = "other"; static constexpr const char* schema_str = "min.other(Tensor self, Tensor other) -> Tensor"; static at::Tensor call(const at::Tensor & self, const at::Tensor & other); static at::Tensor redispatch(c10::DispatchKeySet dispatchKeySet, const at::Tensor & self, const at::Tensor & other); }; }} // namespace at::_ops