mirror of
https://github.com/tildearrow/furnace.git
synced 2024-11-16 17:45:10 +00:00
54e93db207
not reliable yet
257 lines
7.5 KiB
OCaml
257 lines
7.5 KiB
OCaml
(*
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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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(* generation of trigonometric transforms *)
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open Util
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open Genutil
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open C
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let usage = "Usage: " ^ Sys.argv.(0) ^ " -n <number>"
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let uistride = ref Stride_variable
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let uostride = ref Stride_variable
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let uivstride = ref Stride_variable
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let uovstride = ref Stride_variable
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let normalization = ref 1
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type mode =
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| MDCT
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| MDCT_MP3
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| MDCT_VORBIS
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| MDCT_WINDOW
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| MDCT_WINDOW_SYM
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| IMDCT
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| IMDCT_MP3
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| IMDCT_VORBIS
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| IMDCT_WINDOW
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| IMDCT_WINDOW_SYM
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| NONE
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let mode = ref NONE
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let speclist = [
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"-with-istride",
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Arg.String(fun x -> uistride := arg_to_stride x),
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" specialize for given input stride";
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"-with-ostride",
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Arg.String(fun x -> uostride := arg_to_stride x),
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" specialize for given output stride";
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"-with-ivstride",
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Arg.String(fun x -> uivstride := arg_to_stride x),
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" specialize for given input vector stride";
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"-with-ovstride",
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Arg.String(fun x -> uovstride := arg_to_stride x),
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" specialize for given output vector stride";
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"-normalization",
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Arg.String(fun x -> normalization := int_of_string x),
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" normalization integer to divide by";
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"-mdct",
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Arg.Unit(fun () -> mode := MDCT),
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" generate an MDCT codelet";
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"-mdct-mp3",
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Arg.Unit(fun () -> mode := MDCT_MP3),
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" generate an MDCT codelet with MP3 windowing";
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"-mdct-window",
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Arg.Unit(fun () -> mode := MDCT_WINDOW),
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" generate an MDCT codelet with window array";
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"-mdct-window-sym",
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Arg.Unit(fun () -> mode := MDCT_WINDOW_SYM),
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" generate an MDCT codelet with symmetric window array";
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"-imdct",
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Arg.Unit(fun () -> mode := IMDCT),
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" generate an IMDCT codelet";
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"-imdct-mp3",
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Arg.Unit(fun () -> mode := IMDCT_MP3),
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" generate an IMDCT codelet with MP3 windowing";
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"-imdct-window",
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Arg.Unit(fun () -> mode := IMDCT_WINDOW),
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" generate an IMDCT codelet with window array";
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"-imdct-window-sym",
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Arg.Unit(fun () -> mode := IMDCT_WINDOW_SYM),
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" generate an IMDCT codelet with symmetric window array";
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]
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let unity_window n i = Complex.one
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(* MP3 window(k) = sin(pi/(2n) * (k + 1/2)) *)
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let mp3_window n k =
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Complex.imag (Complex.exp (8 * n) (2*k + 1))
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(* Vorbis window(k) = sin(pi/2 * (mp3_window(k))^2)
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... this is transcendental, though, so we can't do it with our
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current Complex.exp function *)
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let window_array n w =
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array n (fun i ->
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let stride = C.SInteger 1
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and klass = Unique.make () in
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let refr = C.array_subscript w stride i in
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let kr = Variable.make_constant klass refr in
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load_r (kr, kr))
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let load_window w n i = w i
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let load_window_sym w n i = w (if (i < n) then i else (2*n - 1 - i))
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(* fixme: use same locations for input and output so that it works in-place? *)
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(* Note: only correct for even n! *)
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let load_array_mdct window n rarr iarr locations =
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let twon = 2 * n in
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let arr = load_array_c twon
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(locative_array_c twon rarr iarr locations "BUG") in
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let arrw = fun i -> Complex.times (window n i) (arr i) in
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array n
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((Complex.times Complex.half) @@
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(fun i ->
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if (i < n/2) then
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Complex.uminus (Complex.plus [arrw (i + n + n/2);
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arrw (n + n/2 - 1 - i)])
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else
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Complex.plus [arrw (i - n/2);
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Complex.uminus (arrw (n + n/2 - 1 - i))]))
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let store_array_mdct window n rarr iarr locations arr =
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store_array_r n (locative_array_c n rarr iarr locations "BUG") arr
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let load_array_imdct window n rarr iarr locations =
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load_array_c n (locative_array_c n rarr iarr locations "BUG")
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let store_array_imdct window n rarr iarr locations arr =
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let n2 = n/2 in
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let threen2 = 3*n2 in
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let arr2 = fun i ->
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if (i < n2) then
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arr (i + n2)
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else if (i < threen2) then
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Complex.uminus (arr (threen2 - 1 - i))
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else
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Complex.uminus (arr (i - threen2))
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in
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let arr2w = fun i -> Complex.times (window n i) (arr2 i) in
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let twon = 2 * n in
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store_array_r twon (locative_array_c twon rarr iarr locations "BUG") arr2w
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let window_param = function
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MDCT_WINDOW -> true
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| MDCT_WINDOW_SYM -> true
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| IMDCT_WINDOW -> true
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| IMDCT_WINDOW_SYM -> true
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| _ -> false
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let generate n mode =
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let iarray = "I"
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and oarray = "O"
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and istride = "istride"
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and ostride = "ostride"
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and window = "W"
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and name = !Magic.codelet_name in
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let vistride = either_stride (!uistride) (C.SVar istride)
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and vostride = either_stride (!uostride) (C.SVar ostride)
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in
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let sivs = stride_to_string "ovs" !uovstride in
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let sovs = stride_to_string "ivs" !uivstride in
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let (transform, load_input, store_output) = match mode with
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| MDCT -> Trig.dctIV, load_array_mdct unity_window,
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store_array_mdct unity_window
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| MDCT_MP3 -> Trig.dctIV, load_array_mdct mp3_window,
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store_array_mdct unity_window
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| MDCT_WINDOW -> Trig.dctIV, load_array_mdct
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(load_window (window_array (2 * n) window)),
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store_array_mdct unity_window
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| MDCT_WINDOW_SYM -> Trig.dctIV, load_array_mdct
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(load_window_sym (window_array n window)),
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store_array_mdct unity_window
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| IMDCT -> Trig.dctIV, load_array_imdct unity_window,
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store_array_imdct unity_window
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| IMDCT_MP3 -> Trig.dctIV, load_array_imdct unity_window,
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store_array_imdct mp3_window
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| IMDCT_WINDOW -> Trig.dctIV, load_array_imdct unity_window,
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store_array_imdct (load_window (window_array (2 * n) window))
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| IMDCT_WINDOW_SYM -> Trig.dctIV, load_array_imdct unity_window,
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store_array_imdct (load_window_sym (window_array n window))
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| _ -> failwith "must specify transform kind"
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in
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let locations = unique_array_c (2*n) in
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let input =
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load_input n
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(C.array_subscript iarray vistride)
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(C.array_subscript "BUG" vistride)
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locations
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in
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let output = (Complex.times (Complex.inverse_int !normalization))
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@@ (transform n input) in
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let odag =
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store_output n
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(C.array_subscript oarray vostride)
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(C.array_subscript "BUG" vostride)
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locations
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output
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in
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let annot = standard_optimizer odag in
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let tree =
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Fcn ("void", name,
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([Decl (C.constrealtypep, iarray);
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Decl (C.realtypep, oarray)]
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@ (if stride_fixed !uistride then []
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else [Decl (C.stridetype, istride)])
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@ (if stride_fixed !uostride then []
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else [Decl (C.stridetype, ostride)])
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@ (choose_simd []
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(if stride_fixed !uivstride then [] else
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[Decl ("int", sivs)]))
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@ (choose_simd []
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(if stride_fixed !uovstride then [] else
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[Decl ("int", sovs)]))
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@ (if (not (window_param mode)) then []
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else [Decl (C.constrealtypep, window)])
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),
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finalize_fcn (Asch annot))
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in
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(unparse tree) ^ "\n"
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let main () =
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begin
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parse speclist usage;
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print_string (generate (check_size ()) !mode);
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end
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let _ = main()
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