mirror of
https://github.com/tildearrow/furnace.git
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189 lines
5.7 KiB
OCaml
189 lines
5.7 KiB
OCaml
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(*
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* Copyright (c) 1997-1999 Massachusetts Institute of Technology
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* Copyright (c) 2003, 2007-14 Matteo Frigo
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* Copyright (c) 2003, 2007-14 Massachusetts Institute of Technology
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*
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*)
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(* policies for loading/computing twiddle factors *)
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open Complex
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open Util
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type twop = TW_FULL | TW_CEXP | TW_NEXT
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let optostring = function
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| TW_CEXP -> "TW_CEXP"
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| TW_NEXT -> "TW_NEXT"
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| TW_FULL -> "TW_FULL"
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type twinstr = (twop * int * int)
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let rec unroll_twfull l = match l with
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| [] -> []
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| (TW_FULL, v, n) :: b ->
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(forall [] cons 1 n (fun i -> (TW_CEXP, v, i)))
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@ unroll_twfull b
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| a :: b -> a :: unroll_twfull b
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let twinstr_to_c_string l =
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let one (op, a, b) = Printf.sprintf "{ %s, %d, %d }" (optostring op) a b
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in let rec loop first = function
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| [] -> ""
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| a :: b -> (if first then "\n" else ",\n") ^ (one a) ^ (loop false b)
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in "{" ^ (loop true l) ^ "}"
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let twinstr_to_simd_string vl l =
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let one sep = function
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| (TW_NEXT, 1, 0) -> sep ^ "{TW_NEXT, " ^ vl ^ ", 0}"
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| (TW_NEXT, _, _) -> failwith "twinstr_to_simd_string"
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| (TW_CEXP, v, b) -> sep ^ (Printf.sprintf "VTW(%d,%d)" v b)
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| _ -> failwith "twinstr_to_simd_string"
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in let rec loop first = function
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| [] -> ""
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| a :: b -> (one (if first then "\n" else ",\n") a) ^ (loop false b)
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in "{" ^ (loop true (unroll_twfull l)) ^ "}"
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let rec pow m n =
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if (n = 0) then 1
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else m * pow m (n - 1)
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let rec is_pow m n =
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n = 1 || ((n mod m) = 0 && is_pow m (n / m))
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let rec log m n = if n = 1 then 0 else 1 + log m (n / m)
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let rec largest_power_smaller_than m i =
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if (is_pow m i) then i
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else largest_power_smaller_than m (i - 1)
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let rec smallest_power_larger_than m i =
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if (is_pow m i) then i
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else smallest_power_larger_than m (i + 1)
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let rec_array n f =
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let g = ref (fun i -> Complex.zero) in
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let a = Array.init n (fun i -> lazy (!g i)) in
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let h i = f (fun i -> Lazy.force a.(i)) i in
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begin
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g := h;
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h
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end
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let ctimes use_complex_arith a b =
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if use_complex_arith then
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Complex.ctimes a b
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else
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Complex.times a b
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let ctimesj use_complex_arith a b =
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if use_complex_arith then
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Complex.ctimesj a b
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else
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Complex.times (Complex.conj a) b
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let make_bytwiddle sign use_complex_arith g f i =
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if i = 0 then
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f i
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else if sign = 1 then
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ctimes use_complex_arith (g i) (f i)
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else
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ctimesj use_complex_arith (g i) (f i)
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(* various policies for computing/loading twiddle factors *)
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let twiddle_policy_load_all v use_complex_arith =
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let bytwiddle n sign w f =
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make_bytwiddle sign use_complex_arith (fun i -> w (i - 1)) f
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and twidlen n = 2 * (n - 1)
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and twdesc r = [(TW_FULL, v, r);(TW_NEXT, 1, 0)]
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in bytwiddle, twidlen, twdesc
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(*
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* if i is a power of two, then load w (log i)
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* else let x = largest power of 2 less than i in
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* let y = i - x in
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* compute w^{x+y} = w^x * w^y
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*)
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let twiddle_policy_log2 v use_complex_arith =
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let bytwiddle n sign w f =
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let g = rec_array n (fun self i ->
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if i = 0 then Complex.one
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else if is_pow 2 i then w (log 2 i)
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else let x = largest_power_smaller_than 2 i in
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let y = i - x in
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ctimes use_complex_arith (self x) (self y))
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in make_bytwiddle sign use_complex_arith g f
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and twidlen n = 2 * (log 2 (largest_power_smaller_than 2 (2 * n - 1)))
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and twdesc n =
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(List.flatten
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(List.map
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(fun i ->
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if i > 0 && is_pow 2 i then
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[TW_CEXP, v, i]
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else
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[])
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(iota n)))
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@ [(TW_NEXT, 1, 0)]
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in bytwiddle, twidlen, twdesc
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let twiddle_policy_log3 v use_complex_arith =
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let rec terms_needed i pi s n =
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if (s >= n - 1) then i
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else terms_needed (i + 1) (3 * pi) (s + pi) n
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in
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let rec bytwiddle n sign w f =
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let nterms = terms_needed 0 1 0 n in
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let maxterm = pow 3 (nterms - 1) in
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let g = rec_array (3 * n) (fun self i ->
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if i = 0 then Complex.one
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else if is_pow 3 i then w (log 3 i)
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else if i = (n - 1) && maxterm >= n then
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w (nterms - 1)
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else let x = smallest_power_larger_than 3 i in
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if (i + i >= x) then
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let x = min x (n - 1) in
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ctimesj use_complex_arith (self (x - i)) (self x)
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else let x = largest_power_smaller_than 3 i in
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ctimes use_complex_arith (self (i - x)) (self x))
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in make_bytwiddle sign use_complex_arith g f
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and twidlen n = 2 * (terms_needed 0 1 0 n)
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and twdesc n =
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(List.map
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(fun i ->
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let x = min (pow 3 i) (n - 1) in
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TW_CEXP, v, x)
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(iota ((twidlen n) / 2)))
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@ [(TW_NEXT, 1, 0)]
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in bytwiddle, twidlen, twdesc
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let current_twiddle_policy = ref twiddle_policy_load_all
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let twiddle_policy use_complex_arith =
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!current_twiddle_policy use_complex_arith
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let set_policy x = Arg.Unit (fun () -> current_twiddle_policy := x)
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let set_policy_int x = Arg.Int (fun i -> current_twiddle_policy := x i)
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let undocumented = " Undocumented twiddle policy"
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let speclist = [
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"-twiddle-load-all", set_policy twiddle_policy_load_all, undocumented;
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"-twiddle-log2", set_policy twiddle_policy_log2, undocumented;
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"-twiddle-log3", set_policy twiddle_policy_log3, undocumented;
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]
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