package lacaml

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Utility functions

General auxiliary functions

val empty_int32_vec : Common.int32_vec
val get_norm_char : [< `F | `I | `M | `O ] -> char
val get_uplo_char : bool -> char
val get_trans_char : [< `C | `N | `T ] -> char
val get_side_char : [< `L | `R ] -> char
val get_diag_char : [< `N | `U ] -> char
val get_s_d_job_char : [< `A | `N | `O | `S ] -> char
val get_job_char : bool -> char
val job_char_true : char
val job_char_false : char

Preallocated strings (names)

val a_str : string
val ab_str : string
val alphas_str : string
val ap_str : string
val b_str : string
val br_str : string
val bc_str : string
val c_str : string
val cr_str : string
val cc_str : string
val d_str : string
val dl_str : string
val du_str : string
val e_str : string
val ipiv_str : string
val iseed_str : string
val k_str : string
val ka_str : string
val kb_str : string
val work_str : string
val lwork_str : string
val liwork_str : string
val k1_str : string
val k2_str : string
val kd_str : string
val kl_str : string
val ku_str : string
val m_str : string
val n_str : string
val nrhs_str : string
val ofs_str : string
val r_str : string
val s_str : string
val tau_str : string
val u_str : string
val um_str : string
val un_str : string
val vm_str : string
val vn_str : string
val vs_str : string
val vsr_str : string
val vsc_str : string
val vt_str : string
val w_str : string
val wi_str : string
val wr_str : string
val x_str : string
val y_str : string
val z_str : string

Range checking

val raise_var_lt0 : loc:string -> name:string -> int -> 'a

raise_var_lt0 ~loc ~name var

  • raises Invalid_argument

    to indicate that integer variable var with name name at location loc is lower than 0.

val check_var_lt0 : loc:string -> name:string -> int -> unit

check_var_lt0 ~loc ~name var checks whether integer variable var with name name at location loc is lower than 0.

val check_var_within : string -> string -> 'a -> 'b -> 'c -> ('d -> string) -> unit

Valueless vector checking and allocation functions (do not require a vector value as argument

val calc_vec_min_dim : n:int -> ofs:int -> inc:int -> int

calc_vec_min_dim ~n ~ofs ~inc

  • returns

    minimum vector dimension given offset ofs, increment inc, and operation size n for a vector.

val raise_vec_min_dim : loc:string -> vec_name:string -> dim:int -> min_dim:int -> 'a

raise_vec_min_dim ~loc ~vec_name ~dim ~min_dim

  • raises Invalid_argument

    to indicate that dimension dim of a vector with name vec_name exceeds the minimum min_dim at location loc.

val check_vec_min_dim : loc:string -> vec_name:string -> dim:int -> min_dim:int -> unit

check_vec_min_dim ~loc ~vec_name ~dim ~min_dim checks whether vector with name vec_name and dimension dim satisfies minimum dimension min_dim.

val raise_vec_bad_ofs : loc:string -> vec_name:string -> ofs:int -> max_ofs:int -> 'a

raise_vec_bad_ofs ~loc ~vec_name ~ofs ~max_ofs

  • raises Invalid_argument

    to indicate that vector offset ofs is invalid (i.e. is outside of 1..max_ofs).

val bad_n : n:int -> max_n:int -> bool

bad_n ~n ~max_n

  • returns

    true iff n is smaller than zero or larger than max_n.

val bad_ofs : ofs:int -> max_ofs:int -> bool

bad_ofs ~ofs ~max_ofs

  • returns

    true iff ofs is smaller than one or exceeds max_ofs.

val bad_inc : int -> bool

bad_inc inc

  • returns

    true iff inc is illegal.

val check_vec_ofs : loc:string -> vec_name:string -> ofs:int -> max_ofs:int -> unit

check_vec_ofs ~loc ~vec_name ~ofs ~max_ofs checks whether vector offset ofs for vector of name vec_name is invalid (i.e. outside of 1..max_ofs).

val check_vec_inc : loc:string -> vec_name:string -> int -> unit

check_vec_inc ~loc ~vec_name inc checks whether vector increment inc for vector of name vec_name is invalid (i.e. 0).

  • raises

    Invalid_argument in that case.

val calc_vec_max_n : dim:int -> ofs:int -> inc:int -> int

calc_vec_max_n ~dim ~ofs ~inc

  • returns

    maximum operation length n for a vector given the dimension dim of the vector, the offset ofs, and increment inc. Assumes that the offset has already been validated to not exceed dim, i.e. the returned max_n is at least 1.

val calc_vec_opt_max_n : ?ofs:int -> ?inc:int -> int -> int

calc_vec_opt_max_n ?ofs ?inc dim

  • returns

    maximum operation length n for a vector given the dimension dim of the vector, the optional offset ofs, and optional increment inc. Assumes that the offset has already been validated to not exceed dim, i.e. the returned max_n is at least 1.

val raise_max_len : loc:string -> len_name:string -> len:int -> max_len:int -> 'a

raise_max_len ~loc ~len_name ~len ~max_len

  • raises Invalid_argument

    that the maximum operation size (e.g. m or n for vectors and matrices) has been exceeded.

val check_vec_dim : loc:string -> vec_name:string -> dim:int -> ofs:int -> inc:int -> n_name:string -> n:int -> unit

check_vec_dim ~loc ~vec_name ~dim ~ofs ~inc ~n_name ~n checks the vector operation length in parameter n with name n_name at location loc for vector with name vec_name and dimension dim given the operation offset ofs and increment inc.

val get_vec_n : loc:string -> vec_name:string -> dim:int -> ofs:int -> inc:int -> n_name:string -> int option -> int

get_vec_n ~loc ~vec_name ~dim ~ofs ~inc ~n_name n checks or infers the vector operation length in the option parameter n with name n_name at location loc for vector with name vec_name and dimension dim given the operation offset ofs and increment inc.

val get_vec_min_dim : loc:string -> vec_name:string -> ofs:int -> inc:int -> n:int -> int

get_vec_min_dim ~loc ~vec_name ~ofs ~inc ~n

  • returns

    minimum vector dimension given offset ofs, increment inc, and operation size n for a vector named vec_name at location loc.

    @raise Invalid_argument

    if any of the parameters are illegal.

val get_vec_start_stop : ofsx:int -> incx:int -> n:int -> int * int

get_vec_start_stop ~ofsx ~incx ~n

  • returns

    (start, stop) where start and stop reflect the start and stop of an iteration respectively.

Valueless matrix checking and allocation functions (do not require a matrix value as argument

val raise_bad_mat_ofs : loc:string -> name:string -> ofs_name:string -> ofs:int -> max_ofs:int -> 'a

raise_bad_mat_ofs ~loc ~name ~ofs_name ~ofs ~max_ofs

  • raises

    Invalid_argument to indicate that a matrix offset ofs named ofs_name for a matrix having name is invalid (i.e. is outside of 1..max_ofs).

val raise_mat_bad_r : loc:string -> mat_name:string -> r:int -> max_r:int -> 'a

raise_mat_bad_r ~loc ~mat_name ~r ~max_r

  • raises Invalid_argument

    to indicate that matrix row offset r is invalid (i.e. is outside of 1..max_r).

val raise_mat_bad_c : loc:string -> mat_name:string -> c:int -> max_c:int -> 'a

raise_mat_bad_c ~loc ~mat_name ~c ~max_c

  • raises Invalid_argument

    to indicate that matrix column offset c is invalid (i.e. is outside of 1..max_c).

val check_mat_r : loc:string -> mat_name:string -> r:int -> max_r:int -> unit

check_mat_r ~loc ~vec_name ~r ~max_r checks whether matrix row offset r for vector of name vec_name is invalid (i.e. outside of 1..max_r).

val check_mat_c : loc:string -> mat_name:string -> c:int -> max_c:int -> unit

check_mat_c ~loc ~vec_name ~c ~max_c checks whether matrix column offset c for vector of name vec_name is invalid (i.e. outside of 1..max_c).

val calc_mat_max_rows : dim1:int -> r:int -> int

calc_mat_max_rows ~dim1 ~r

  • returns

    maximum row operation length m for a matrix given the dimension dim1 of the matrix and the start row r.

val calc_mat_opt_max_rows : ?r:int -> int -> int

calc_mat_opt_max_rows ?r dim1

  • returns

    maximum row operation length m for a matrix given the dimension dim1 of the matrix and the optional start row r. Assumes that the offset has already been validated to not exceed dim1, i.e. the returned max_m is at least 1.

val calc_mat_max_cols : dim2:int -> c:int -> int

calc_mat_max_cols ~dim2 ~c

  • returns

    maximum column operation length n for a matrix given the dimension dim1 of the matrix and the start column c.

val calc_mat_opt_max_cols : ?c:int -> int -> int

calc_mat_opt_max_cols ?c dim1

  • returns

    maximum column operation length m for a matrix given the dimension dim2 of the matrix and the optional start column c. Assumes that the offset has already been validated to not exceed dim2, i.e. the returned max_n is at least 1.

val check_mat_rows : loc:string -> mat_name:string -> dim1:int -> r:int -> p:int -> param_name:string -> unit

check_mat_rows ~loc ~mat_name ~dim1 ~r ~p ~param_name checks the matrix row operation length in parameter p with name param_name at location loc for matrix with name mat_name and dimension dim1 given the operation row r.

val check_mat_m : loc:string -> mat_name:string -> dim1:int -> r:int -> m:int -> unit

check_mat_m ~loc ~mat_name ~dim1 ~r ~m checks the matrix row operation length in parameter m at location loc for matrix with name mat_name and dimension dim1 given the operation row r.

val check_mat_cols : loc:string -> mat_name:string -> dim2:int -> c:int -> p:int -> param_name:string -> unit

check_mat_cols ~loc ~mat_name ~dim2 ~c ~p ~param_name checks the matrix column operation length in parameter p with name param_name at location loc for matrix with name mat_name and dimension dim2 given the operation column c.

val check_mat_n : loc:string -> mat_name:string -> dim2:int -> c:int -> n:int -> unit

check_mat_n ~loc ~mat_name ~dim2 ~c ~n checks the matrix column operation length in parameter n at location loc for matrix with name mat_name and dimension dim2 given the operation column c.

val check_mat_mn : loc:string -> mat_name:string -> dim1:int -> dim2:int -> r:int -> c:int -> m:int -> n:int -> unit

check_mat_mn ~loc ~mat_name ~dim1 ~dim2 ~r ~c ~m ~n checks the matrix operation lengths in parameters m and n at location loc for matrix with name mat_name and dimensions dim1 and dim2 given the operation row r and column c.

val get_mat_rows : loc:string -> mat_name:string -> dim1:int -> r:int -> p:int option -> param_name:string -> int

get_mat_rows ~loc ~mat_name ~dim1 ~r p ~param_name checks or infers the matrix row operation length in the option parameter p with name param_name at location loc for matrix with name mat_name and dimension dim1 given the row operation offset r.

  • raises

    Invalid_argument if any arguments are invalid.

val get_mat_dim1 : loc:string -> mat_name:string -> dim1:int -> r:int -> m:int option -> m_name:string -> int

get_mat_dim1 ~loc ~mat_name ~dim1 ~r ~m ~m_name checks or infers the matrix row operation length in the option parameter m with name m_name at location loc for matrix with name mat_name and dimension dim1 given the row operation offset r.

val get_mat_m : loc:string -> mat_name:string -> dim1:int -> r:int -> m:int option -> int

get_mat_m ~loc ~mat_name ~dim1 ~r ~m checks or infers the matrix row operation length in the option parameter m at location loc for matrix with name mat_name and dimension dim1 given the row operation offset r.

val get_mat_cols : loc:string -> mat_name:string -> dim2:int -> c:int -> p:int option -> param_name:string -> int

get_mat_cols ~loc ~mat_name ~dim2 ~c ~param_name p checks or infers the matrix column operation length in the option parameter p with name param_name at location loc for matrix with name mat_name and dimension dim2 given the column operation offset c.

  • raises

    Invalid_argument if any arguments are invalid.

val get_mat_dim2 : loc:string -> mat_name:string -> dim2:int -> c:int -> n:int option -> n_name:string -> int

get_mat_dim2 ~loc ~mat_name ~dim2 ~c ~n ~n_name checks or infers the matrix column operation length in the option parameter n with name n_name at location loc for matrix with name mat_name and dimension dim2 given the column operation offset c.

val get_mat_n : loc:string -> mat_name:string -> dim2:int -> c:int -> n:int option -> int

get_mat_n ~loc ~mat_name ~dim2 ~c ~n checks or infers the matrix column operation length in the option parameter n at location loc for matrix with name mat_name and dimension dim2 given the column operation offset c.

val get_mat_min_dim1 : loc:string -> mat_name:string -> r:int -> m:int -> int

get_mat_min_dim1 ~loc ~mat_name ~r ~m

  • returns

    the minimum row dimension of a matrix with name mat_name at location loc given row r and row operation length m.

    @raise Invalid_argument

    if any arguments are invalid.

val get_mat_min_dim2 : loc:string -> mat_name:string -> c:int -> n:int -> int

get_mat_min_dim2 ~loc ~mat_name ~c ~n

  • returns

    the minimum column dimension of a matrix with name mat_name at location loc given column c and row operation length n.

    @raise Invalid_argument

    if any arguments are invalid.

val check_mat_min_dim1 : loc:string -> mat_name:string -> dim1:int -> min_dim1:int -> unit

check_mat_min_dim1 ~loc ~mat_name ~dim1 ~min_dim1 checks the minimum row dimension min_dim1 of a matrix with name mat_name at location loc given its row dimension dim1.

val check_mat_min_dim2 : loc:string -> mat_name:string -> dim2:int -> min_dim2:int -> unit

check_mat_min_dim2 ~loc ~mat_name ~dim2 ~min_dim2 checks the minimum column dimension min_dim2 of a matrix with name mat_name at location loc given its column dimension dim2.

val check_mat_min_dims : loc:string -> mat_name:string -> dim1:int -> dim2:int -> min_dim1:int -> min_dim2:int -> unit

check_mat_min_dim2 ~loc ~mat_name ~dim2 ~min_dim2 checks the minimum column dimension min_dim2 of a matrix with name mat_name at location loc given its column dimension dim2.

(Old) Vector checking and allocation functions

val check_vec : string -> string -> ('a, 'b, 'c) Bigarray.Array1.t -> int -> unit
val check_vec_is_perm : string -> string -> (int32, 'a, 'b) Bigarray.Array1.t -> int -> unit

check_vec_is_perm loc vec_name vec n checks whether vec is a valid permutation vector.

val get_vec : string -> string -> ('a, 'b, 'c) Bigarray.Array1.t option -> int -> int -> int -> (int -> ('a, 'b, 'c) Bigarray.Array1.t) -> ('a, 'b, 'c) Bigarray.Array1.t
val get_dim_vec : string -> string -> int -> int -> ('a, 'b, 'c) Bigarray.Array1.t -> string -> int option -> int

get_dim_vec loc vec_name ofs inc vec n_name n if the dimension n is given, check that the vector vec is big enough, otherwise return the maximal n for the given vector vec.

val check_vec_empty : loc:string -> vec_name:string -> dim:int -> unit

(Old) Matrix checking and allocation functions

val get_mat : string -> string -> (int -> int -> ('a, 'b, 'c) Bigarray.Array2.t) -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t option -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t
val check_dim1_mat : string -> string -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> string -> int -> unit
val check_dim2_mat : string -> string -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> string -> int -> unit
val check_dim_mat : string -> string -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> unit
val get_dim1_mat : string -> string -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> string -> int option -> int
val get_dim2_mat : string -> string -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> string -> int option -> int
val check_mat_empty : loc:string -> mat_name:string -> dim1:int -> dim2:int -> unit
val get_vec_inc : string -> string -> int option -> int
val get_vec_ofs : string -> string -> int option -> int
module Mat_patt : sig ... end
val ilaenv : int -> string -> string -> int -> int -> int -> int -> int
val get_work : string -> (int -> ('a, 'b, 'c) Bigarray.Array1.t) -> ('a, 'b, 'c) Bigarray.Array1.t option -> int -> int -> string -> ('a, 'b, 'c) Bigarray.Array1.t * int
val calc_unpacked_dim : string -> int -> int
val get_unpacked_dim : string -> ?n:int -> int -> int
val get_vec_geom : string -> string -> int option -> int option -> int * int
val get_k_mat_sb : string -> string -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> string -> int option -> int
val get_dim_mat_packed : string -> string -> int -> ('a, 'b, 'c) Bigarray.Array1.t -> string -> int option -> int
val get_n_of_square : string -> string -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int option -> int
val get_n_of_a : string -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int option -> int
val get_nrhs_of_b : string -> int -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int option -> int
val orgqr_err : loc:string -> m:int -> n:int -> k:int -> work:('a, 'b, 'c) Bigarray.Array1.t -> a:('d, 'e, 'f) Bigarray.Array2.t -> err:int -> 'g
val orgqr_get_params : string -> ?m:int -> ?n:int -> ?k:int -> tau:('a, 'b, 'c) Bigarray.Array1.t -> ar:int -> ac:int -> ('d, 'e, 'f) Bigarray.Array2.t -> int * int * int
val ormqr_err : loc:string -> side:[< `L | `R ] -> m:int -> n:int -> k:int -> lwork:int -> a:('a, 'b, 'c) Bigarray.Array2.t -> c:('d, 'e, 'f) Bigarray.Array2.t -> err:int -> 'g
val ormqr_get_params : string -> side:[< `L | `R ] -> ?m:int -> ?n:int -> ?k:int -> tau:('a, 'b, 'c) Bigarray.Array1.t -> ar:int -> ac:int -> ('d, 'e, 'f) Bigarray.Array2.t -> cr:int -> cc:int -> ('g, 'h, 'i) Bigarray.Array2.t -> int * int * int
val gelsX_err : string -> (m:int -> n:int -> nrhs:int -> int) -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> int -> int -> int -> ('d, 'e, 'f) Bigarray.Array2.t -> int -> 'g
val gelsX_get_s : (int -> ('a, 'b, 'c) Bigarray.Array1.t) -> string -> int -> int -> ('a, 'b, 'c) Bigarray.Array1.t option -> ('a, 'b, 'c) Bigarray.Array1.t
val gelsX_get_params : string -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int option -> int option -> int option -> int -> int -> ('d, 'e, 'f) Bigarray.Array2.t -> int * int * int
val xxev_get_params : string -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int option -> bool -> bool -> int * char * char
val xxev_get_wx : (int -> ('a, 'b, 'c) Bigarray.Array1.t) -> string -> string -> int -> ('a, 'b, 'c) Bigarray.Array1.t option -> int -> ('a, 'b, 'c) Bigarray.Array1.t
val geev_get_job_side : string -> ('a, 'b, 'c) Bigarray.Array2.t -> (int -> int -> ('a, 'b, 'c) Bigarray.Array2.t) -> string -> int -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t option option -> int * int * ('a, 'b, 'c) Bigarray.Array2.t * char * bool
val geev_gen_get_params : string -> ('a, 'b, 'c) Bigarray.Array2.t -> (int -> int -> ('d, 'e, 'f) Bigarray.Array2.t) -> int -> int -> ('g, 'h, 'i) Bigarray.Array2.t -> int option -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t option option -> int -> int -> ('d, 'e, 'f) Bigarray.Array2.t option option -> int * int * int * ('a, 'b, 'c) Bigarray.Array2.t * char * int * int * ('d, 'e, 'f) Bigarray.Array2.t * char * bool
val gXmv_get_params : string -> (int -> ('a, 'b, 'c) Bigarray.Array1.t) -> int -> int -> int option -> int option -> ('d, 'e, 'f) Bigarray.Array1.t -> int option -> int option -> ('a, 'b, 'c) Bigarray.Array1.t option -> [< `C | `N | `T N ] -> int * int * int * int * ('a, 'b, 'c) Bigarray.Array1.t * char
val symv_get_params : string -> (int -> ('a, 'b, 'c) Bigarray.Array1.t) -> int -> int -> ('d, 'e, 'f) Bigarray.Array2.t -> int option -> int option -> int option -> ('g, 'h, 'i) Bigarray.Array1.t -> int option -> int option -> ('a, 'b, 'c) Bigarray.Array1.t option -> bool -> int * int * int * int * int * ('a, 'b, 'c) Bigarray.Array1.t * char
val trXv_get_params : string -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int option -> int option -> int option -> ('d, 'e, 'f) Bigarray.Array1.t -> bool -> [< `C | `N | `T ] -> [< `N | `U ] -> int * int * int * char * char * char
val tpXv_get_params : string -> int option -> ('a, 'b, 'c) Bigarray.Array1.t -> ?n:int -> int option -> int option -> ('d, 'e, 'f) Bigarray.Array1.t -> bool -> [< `C | `N | `T ] -> [< `N | `U ] -> int * int * int * int * char * char * char
val get_c : string -> (int -> int -> ('a, 'b, 'c) Bigarray.Array2.t) -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t option -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t
val get_rows_mat_tr : string -> string -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> [> `N ] -> string -> int option -> int
val get_cols_mat_tr : string -> string -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> [> `N ] -> string -> int option -> int
val get_inner_dim : string -> string -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> [> `N ] -> string -> ('d, 'e, 'f) Bigarray.Array2.t -> int -> int -> [> `N ] -> string -> int option -> int
val gemm_get_params : string -> (int -> int -> ('a, 'b, 'c) Bigarray.Array2.t) -> int -> int -> ('d, 'e, 'f) Bigarray.Array2.t -> [< `C | `N | `T N ] -> int -> int -> ('g, 'h, 'i) Bigarray.Array2.t -> int -> [< `C | `N | `T N ] -> int -> ('a, 'b, 'c) Bigarray.Array2.t option -> int option -> int option -> int option -> int * int * int * char * char * ('a, 'b, 'c) Bigarray.Array2.t
val check_mat_square : string -> string -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> int -> unit
val symm_get_params : string -> (int -> int -> ('a, 'b, 'c) Bigarray.Array2.t) -> int -> int -> ('d, 'e, 'f) Bigarray.Array2.t -> int -> int -> ('g, 'h, 'i) Bigarray.Array2.t -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t option -> int option -> int option -> [< `L | `R L ] -> bool -> int * int * char * char * ('a, 'b, 'c) Bigarray.Array2.t
val trXm_get_params : string -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> ('d, 'e, 'f) Bigarray.Array2.t -> int option -> int option -> [< `L | `R L ] -> bool -> [< `C | `N | `T ] -> [< `N | `U ] -> int * int * char * char * char * char
val syrk_get_params : string -> (int -> int -> ('a, 'b, 'c) Bigarray.Array2.t) -> int -> int -> ('d, 'e, 'f) Bigarray.Array2.t -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t option -> int option -> int option -> bool -> [< `C | `N | `T N ] -> int * int * char * char * ('a, 'b, 'c) Bigarray.Array2.t
val syr2k_get_params : string -> (int -> int -> ('a, 'b, 'c) Bigarray.Array2.t) -> int -> int -> ('d, 'e, 'f) Bigarray.Array2.t -> int -> int -> ('g, 'h, 'i) Bigarray.Array2.t -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t option -> int option -> int option -> bool -> [< `C | `N | `T N ] -> int * int * char * char * ('a, 'b, 'c) Bigarray.Array2.t
val xlange_get_params : string -> int option -> int option -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int * int
val xxtrs_get_params : string -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int option -> int -> int -> ('d, 'e, 'f) Bigarray.Array2.t -> int option -> int * int
val xxtrs_err : string -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> ('d, 'e, 'f) Bigarray.Array2.t -> int -> 'g
val xxtri_singular_err : string -> int -> 'a
val xxtri_err : string -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> 'd
val xxcon_err : string -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> 'd
val geXrf_get_params : string -> int option -> int option -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int * int
val getrf_err : string -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> 'd
val getrf_lu_err : string -> int -> 'a
val getrf_get_ipiv : string -> (int32, Bigarray.int32_elt, Bigarray.fortran_layout) Bigarray.Array1.t option -> int -> int -> Common.int32_vec
val sytrf_get_ipiv : string -> (int32, Bigarray.int32_elt, Bigarray.fortran_layout) Bigarray.Array1.t option -> int -> Common.int32_vec
val sytrf_err : string -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> 'd
val sytrf_fact_err : string -> int -> 'a
val potrf_chol_err : string -> int -> 'a
val potrf_err : string -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> 'd
val potrs_err : string -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> ('d, 'e, 'f) Bigarray.Array2.t -> int -> 'g
val trtrs_err : string -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> ('d, 'e, 'f) Bigarray.Array2.t -> int -> 'g
val tbtrs_err : string -> int -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> ('d, 'e, 'f) Bigarray.Array2.t -> int -> 'g
val getri_err : string -> (int -> int) -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> int -> 'd
val trtri_err : string -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> 'd
val geqrf_err : string -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> 'd
val gecon_err : string -> char -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> 'd
val gees_err : string -> int -> int -> char -> char -> 'a
val dummy_select_fun : 'a -> bool
val gees_get_params_generic : string -> (int -> int -> ('a, 'b, 'c) Bigarray.Array2.t) -> ('a, 'b, 'c) Bigarray.Array2.t -> [< `Compute_Schur_vectors | `No_Schur_vectors ] -> [< `No_sort | `Select_custom of 'd -> bool | `Select_exterior_disk | `Select_interior_disk | `Select_left_plane | `Select_right_plane ] -> int option -> int -> int -> ('e, 'f, 'g) Bigarray.Array2.t -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t option -> char * char * int * ('d -> bool) * int * ('a, 'b, 'c) Bigarray.Array2.t
val gees_get_params_real : string -> (int -> ('a, 'b, 'c) Bigarray.Array1.t) -> (int -> int -> ('d, 'e, 'f) Bigarray.Array2.t) -> ('d, 'e, 'f) Bigarray.Array2.t -> [< `Compute_Schur_vectors | `No_Schur_vectors ] -> [< `No_sort | `Select_custom of 'g -> bool | `Select_exterior_disk | `Select_interior_disk | `Select_left_plane | `Select_right_plane ] -> int option -> int -> int -> ('h, 'i, 'j) Bigarray.Array2.t -> ('a, 'b, 'c) Bigarray.Array1.t option -> ('k, 'l, 'm) Bigarray.Array1.t option -> int -> int -> ('d, 'e, 'f) Bigarray.Array2.t option -> char * char * int * ('g -> bool) * int * ('d, 'e, 'f) Bigarray.Array2.t * ('a, 'b, 'c) Bigarray.Array1.t * ('a, 'b, 'c) Bigarray.Array1.t
val gees_get_params_complex : string -> (int -> ('a, 'b, 'c) Bigarray.Array1.t) -> (int -> int -> ('d, 'e, 'f) Bigarray.Array2.t) -> ('d, 'e, 'f) Bigarray.Array2.t -> [< `Compute_Schur_vectors | `No_Schur_vectors ] -> [< `No_sort | `Select_custom of 'g -> bool | `Select_exterior_disk | `Select_interior_disk | `Select_left_plane | `Select_right_plane ] -> int option -> int -> int -> ('h, 'i, 'j) Bigarray.Array2.t -> ('a, 'b, 'c) Bigarray.Array1.t option -> int -> int -> ('d, 'e, 'f) Bigarray.Array2.t option -> char * char * int * ('g -> bool) * int * ('d, 'e, 'f) Bigarray.Array2.t * ('a, 'b, 'c) Bigarray.Array1.t
val gesvd_err : string -> char -> char -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> ('d, 'e, 'f) Bigarray.Array2.t -> ('g, 'h, 'i) Bigarray.Array2.t -> int -> int -> 'j
val gesvd_get_params : string -> (int -> ('a, 'b, 'c) Bigarray.Array1.t) -> (int -> int -> ('d, 'e, 'f) Bigarray.Array2.t) -> [< `A | `N | `O | `S ] -> [< `A | `N | `O | `S ] -> int option -> int option -> int -> int -> ('g, 'h, 'i) Bigarray.Array2.t -> ('a, 'b, 'c) Bigarray.Array1.t option -> int -> int -> ('d, 'e, 'f) Bigarray.Array2.t option -> int -> int -> ('j, 'k, 'l) Bigarray.Array2.t option -> char * char * int * int * ('a, 'b, 'c) Bigarray.Array1.t * ('d, 'e, 'f) Bigarray.Array2.t * ('j, 'k, 'l) Bigarray.Array2.t
val gesdd_err : string -> char -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> ('d, 'e, 'f) Bigarray.Array2.t -> ('g, 'h, 'i) Bigarray.Array2.t -> int -> int -> 'j
val gesdd_get_params : string -> (int -> ('a, 'b, 'c) Bigarray.Array1.t) -> (int -> int -> ('d, 'e, 'f) Bigarray.Array2.t) -> [< `A | `N | `O | `S ] -> int option -> int option -> int -> int -> ('g, 'h, 'i) Bigarray.Array2.t -> ('a, 'b, 'c) Bigarray.Array1.t option -> int -> int -> ('d, 'e, 'f) Bigarray.Array2.t option -> int -> int -> ('j, 'k, 'l) Bigarray.Array2.t option -> char * int * int * ('a, 'b, 'c) Bigarray.Array1.t * ('d, 'e, 'f) Bigarray.Array2.t * ('j, 'k, 'l) Bigarray.Array2.t
val xxsv_err : string -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> 'd
val xxsv_lu_err : string -> int -> 'a
val xxsv_pos_err : string -> int -> 'a
val xxsv_ind_err : string -> int -> 'a
val xxsv_a_err : string -> ('a, 'b, 'c) Bigarray.Array2.t -> int -> 'd
val xxsv_work_err : string -> int -> 'a
val xxsv_get_ipiv : string -> (int32, Bigarray.int32_elt, Bigarray.fortran_layout) Bigarray.Array1.t option -> int -> Common.int32_vec
val xxsv_get_params : string -> int -> int -> ('a, 'b, 'c) Bigarray.Array2.t -> int option -> int -> int -> ('d, 'e, 'f) Bigarray.Array2.t -> int option -> int * int
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