Owl_dense_ndarray_ctype elt = Complex.ttype arr =
(Complex.t, Bigarray.complex32_elt, Bigarray.c_layout) Bigarray.Genarray.ttype cast_arr =
(float, Bigarray.float32_elt, Bigarray.c_layout) Bigarray.Genarray.tinclude Owl_dense_ndarray_intf.Common with type elt := elt and type arr := arrinclude Owl_base_dense_ndarray_intf.Common
with type elt := elt
with type arr := arrval number : Owl_types_common.numberval empty : int array -> arrval zeros : int array -> arrval ones : int array -> arrval bernoulli : ?p:float -> int array -> arrval shape : arr -> int arrayval numel : arr -> intval strides : arr -> int arrayRefer to :doc:`owl_dense_ndarray_generic`
val slice_size : arr -> int arrayRefer to :doc:`owl_dense_ndarray_generic`
val reset : arr -> unitval is_zero : arr -> boolval is_positive : arr -> boolval is_negative : arr -> boolval is_nonpositive : arr -> boolval is_nonnegative : arr -> boolval is_normal : arr -> boolval not_nan : arr -> boolval not_inf : arr -> boolval row_num : arr -> intval col_num : arr -> intval unit_basis : int -> int -> arrunit_basis k n i returns a unit basis vector with ith element set to 1.
val num_dims : arr -> intval nth_dim : arr -> int -> intval nnz : arr -> intval density : arr -> floatval size_in_bytes : arr -> intval ind : arr -> int -> int arrayval i1d : arr -> int array -> intval get_fancy : Owl_types.index list -> arr -> arrval set_fancy : Owl_types.index list -> arr -> arr -> unitval top : arr -> int -> int array arrayval bottom : arr -> int -> int array arrayval argsort :
arr ->
(int64, Bigarray.int64_elt, Bigarray.c_layout) Bigarray.Genarray.tval mmap : Unix.file_descr -> ?pos:int64 -> bool -> int array -> arrval save : out:string -> arr -> unitval load : string -> arrval save_npy : out:string -> arr -> unitval load_npy : string -> arrval bernoulli_ : ?p:float -> out:arr -> unitval zeros_ : out:arr -> unitval ones_ : out:arr -> unitval sort_ : arr -> unitval get_fancy_ : out:arr -> Owl_types.index list -> arr -> unitval set_fancy_ : out:arr -> Owl_types.index list -> arr -> arr -> unitinclude Owl_dense_ndarray_intf.NN with type arr := arrinclude Owl_base_dense_ndarray_intf.NN with type arr := arrval conv1d :
?padding:Owl_types_common.padding ->
arr ->
arr ->
int array ->
arrval conv2d :
?padding:Owl_types_common.padding ->
arr ->
arr ->
int array ->
arrval conv3d :
?padding:Owl_types_common.padding ->
arr ->
arr ->
int array ->
arrval dilated_conv1d :
?padding:Owl_types_common.padding ->
arr ->
arr ->
int array ->
int array ->
arrval dilated_conv2d :
?padding:Owl_types_common.padding ->
arr ->
arr ->
int array ->
int array ->
arrval dilated_conv3d :
?padding:Owl_types_common.padding ->
arr ->
arr ->
int array ->
int array ->
arrval transpose_conv1d :
?padding:Owl_types_common.padding ->
arr ->
arr ->
int array ->
arrval transpose_conv2d :
?padding:Owl_types_common.padding ->
arr ->
arr ->
int array ->
arrval transpose_conv3d :
?padding:Owl_types_common.padding ->
arr ->
arr ->
int array ->
arrval max_pool1d :
?padding:Owl_types_common.padding ->
arr ->
int array ->
int array ->
arrval max_pool2d :
?padding:Owl_types_common.padding ->
arr ->
int array ->
int array ->
arrval max_pool3d :
?padding:Owl_types_common.padding ->
arr ->
int array ->
int array ->
arrval avg_pool1d :
?padding:Owl_types_common.padding ->
arr ->
int array ->
int array ->
arrval avg_pool2d :
?padding:Owl_types_common.padding ->
arr ->
int array ->
int array ->
arrval avg_pool3d :
?padding:Owl_types_common.padding ->
arr ->
int array ->
int array ->
arrval max_pool1d_backward :
Owl_types_common.padding ->
arr ->
int array ->
int array ->
arr ->
arrval max_pool2d_backward :
Owl_types_common.padding ->
arr ->
int array ->
int array ->
arr ->
arrval max_pool3d_backward :
Owl_types_common.padding ->
arr ->
int array ->
int array ->
arr ->
arrval avg_pool1d_backward :
Owl_types_common.padding ->
arr ->
int array ->
int array ->
arr ->
arrval avg_pool2d_backward :
Owl_types_common.padding ->
arr ->
int array ->
int array ->
arr ->
arrval avg_pool3d_backward :
Owl_types_common.padding ->
arr ->
int array ->
int array ->
arr ->
arrval max_pool2d_argmax :
?padding:Owl_types.padding ->
arr ->
int array ->
int array ->
arr * (int64, Bigarray.int64_elt, Bigarray.c_layout) Bigarray.Genarray.tval conv1d_ :
out:arr ->
?padding:Owl_types.padding ->
arr ->
arr ->
int array ->
unitval conv2d_ :
out:arr ->
?padding:Owl_types.padding ->
arr ->
arr ->
int array ->
unitval conv3d_ :
out:arr ->
?padding:Owl_types.padding ->
arr ->
arr ->
int array ->
unitval dilated_conv1d_ :
out:arr ->
?padding:Owl_types.padding ->
arr ->
arr ->
int array ->
int array ->
unitval dilated_conv2d_ :
out:arr ->
?padding:Owl_types.padding ->
arr ->
arr ->
int array ->
int array ->
unitval dilated_conv3d_ :
out:arr ->
?padding:Owl_types.padding ->
arr ->
arr ->
int array ->
int array ->
unitval transpose_conv1d_ :
out:arr ->
?padding:Owl_types.padding ->
arr ->
arr ->
int array ->
unitval transpose_conv2d_ :
out:arr ->
?padding:Owl_types.padding ->
arr ->
arr ->
int array ->
unitval transpose_conv3d_ :
out:arr ->
?padding:Owl_types.padding ->
arr ->
arr ->
int array ->
unitval max_pool1d_ :
out:arr ->
?padding:Owl_types.padding ->
arr ->
int array ->
int array ->
unitval max_pool2d_ :
out:arr ->
?padding:Owl_types.padding ->
arr ->
int array ->
int array ->
unitval max_pool3d_ :
out:arr ->
?padding:Owl_types.padding ->
arr ->
int array ->
int array ->
unitval avg_pool1d_ :
out:arr ->
?padding:Owl_types.padding ->
arr ->
int array ->
int array ->
unitval avg_pool2d_ :
out:arr ->
?padding:Owl_types.padding ->
arr ->
int array ->
int array ->
unitval avg_pool3d_ :
out:arr ->
?padding:Owl_types.padding ->
arr ->
int array ->
int array ->
unitval max_pool1d_backward_ :
out:arr ->
Owl_types.padding ->
arr ->
int array ->
int array ->
arr ->
unitval max_pool2d_backward_ :
out:arr ->
Owl_types.padding ->
arr ->
int array ->
int array ->
arr ->
unitval max_pool3d_backward_ :
out:arr ->
Owl_types.padding ->
arr ->
int array ->
int array ->
arr ->
unitval avg_pool1d_backward_ :
out:arr ->
Owl_types.padding ->
arr ->
int array ->
int array ->
arr ->
unitval avg_pool2d_backward_ :
out:arr ->
Owl_types.padding ->
arr ->
int array ->
int array ->
arr ->
unitval avg_pool3d_backward_ :
out:arr ->
Owl_types.padding ->
arr ->
int array ->
int array ->
arr ->
unitinclude Owl_dense_ndarray_intf.Complex
with type elt := elt
and type arr := arr
and type cast_arr := cast_arrcomplex re im constructs a complex ndarray/matrix from re and im. re and im contain the real and imaginary part of x respectively.
Note that both re and im can be complex but must have same type. The real part of re will be the real part of x and the imaginary part of im will be the imaginary part of x.
polar rho theta constructs a complex ndarray/matrix from polar coordinates rho and theta. rho contains the magnitudes and theta contains phase angles. Note that the behaviour is undefined if rho has negative elelments or theta has infinity elelments.