mirror of
https://github.com/tildearrow/furnace.git
synced 2024-11-18 18:45:10 +00:00
329 lines
8.7 KiB
OCaml
329 lines
8.7 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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(* utilities common to all generators *)
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open Util
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let choose_simd a b = if !Simdmagic.simd_mode then b else a
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let unique_array n = array n (fun _ -> Unique.make ())
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let unique_array_c n =
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array n (fun _ ->
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(Unique.make (), Unique.make ()))
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let unique_v_array_c veclen n =
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array veclen (fun _ ->
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unique_array_c n)
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let locative_array_c n rarr iarr loc vs =
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array n (fun i ->
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let klass = Unique.make () in
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let (rloc, iloc) = loc i in
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(Variable.make_locative rloc klass rarr i vs,
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Variable.make_locative iloc klass iarr i vs))
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let locative_v_array_c veclen n rarr iarr loc vs =
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array veclen (fun v ->
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array n (fun i ->
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let klass = Unique.make () in
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let (rloc, iloc) = loc v i in
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(Variable.make_locative rloc klass (rarr v) i vs,
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Variable.make_locative iloc klass (iarr v) i vs)))
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let temporary_array n =
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array n (fun i -> Variable.make_temporary ())
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let temporary_array_c n =
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let tmpr = temporary_array n
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and tmpi = temporary_array n
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in
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array n (fun i -> (tmpr i, tmpi i))
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let temporary_v_array_c veclen n =
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array veclen (fun v -> temporary_array_c n)
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let temporary_array_c n =
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let tmpr = temporary_array n
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and tmpi = temporary_array n
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in
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array n (fun i -> (tmpr i, tmpi i))
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let load_c (vr, vi) = Complex.make (Expr.Load vr, Expr.Load vi)
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let load_r (vr, vi) = Complex.make (Expr.Load vr, Expr.Num (Number.zero))
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let twiddle_array nt w =
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array (nt/2) (fun i ->
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let stride = choose_simd (C.SInteger 1) (C.SConst "TWVL")
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and klass = Unique.make () in
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let (refr, refi) = (C.array_subscript w stride (2 * i),
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C.array_subscript w stride (2 * i + 1))
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in
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let (kr, ki) = (Variable.make_constant klass refr,
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Variable.make_constant klass refi)
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in
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load_c (kr, ki))
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let load_array_c n var = array n (fun i -> load_c (var i))
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let load_array_r n var = array n (fun i -> load_r (var i))
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let load_array_hc n var =
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array n (fun i ->
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if (i < n - i) then
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load_c (var i)
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else if (i > n - i) then
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Complex.times Complex.i (load_c (var (n - i)))
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else
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load_r (var i))
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let load_v_array_c veclen n var =
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array veclen (fun v -> load_array_c n (var v))
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let store_c (vr, vi) x = [Complex.store_real vr x; Complex.store_imag vi x]
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let store_r (vr, vi) x = Complex.store_real vr x
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let store_i (vr, vi) x = Complex.store_imag vi x
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let assign_array_c n dst src =
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List.flatten
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(rmap (iota n)
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(fun i ->
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let (ar, ai) = Complex.assign (dst i) (src i)
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in [ar; ai]))
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let assign_v_array_c veclen n dst src =
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List.flatten
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(rmap (iota veclen)
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(fun v ->
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assign_array_c n (dst v) (src v)))
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let vassign_v_array_c veclen n dst src =
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List.flatten
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(rmap (iota n) (fun i ->
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List.flatten
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(rmap (iota veclen)
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(fun v ->
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let (ar, ai) = Complex.assign (dst v i) (src v i)
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in [ar; ai]))))
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let store_array_r n dst src =
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rmap (iota n)
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(fun i -> store_r (dst i) (src i))
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let store_array_c n dst src =
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List.flatten
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(rmap (iota n)
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(fun i -> store_c (dst i) (src i)))
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let store_array_hc n dst src =
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List.flatten
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(rmap (iota n)
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(fun i ->
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if (i < n - i) then
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store_c (dst i) (src i)
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else if (i > n - i) then
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[]
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else
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[store_r (dst i) (Complex.real (src i))]))
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let store_v_array_c veclen n dst src =
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List.flatten
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(rmap (iota veclen)
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(fun v ->
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store_array_c n (dst v) (src v)))
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let elementwise f n a = array n (fun i -> f (a i))
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let conj_array_c = elementwise Complex.conj
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let real_array_c = elementwise Complex.real
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let imag_array_c = elementwise Complex.imag
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let elementwise_v f veclen n a =
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array veclen (fun v ->
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array n (fun i -> f (a v i)))
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let conj_v_array_c = elementwise_v Complex.conj
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let real_v_array_c = elementwise_v Complex.real
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let imag_v_array_c = elementwise_v Complex.imag
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let transpose f i j = f j i
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let symmetrize f i j = if i <= j then f i j else f j i
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(* utilities for command-line parsing *)
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let standard_arg_parse_fail _ = failwith "too many arguments"
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let dump_dag alist =
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let fnam = !Magic.dag_dump_file in
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if (String.length fnam > 0) then
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let ochan = open_out fnam in
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begin
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To_alist.dump (output_string ochan) alist;
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close_out ochan;
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end
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let dump_alist alist =
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let fnam = !Magic.alist_dump_file in
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if (String.length fnam > 0) then
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let ochan = open_out fnam in
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begin
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Expr.dump (output_string ochan) alist;
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close_out ochan;
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end
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let dump_asched asched =
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let fnam = !Magic.asched_dump_file in
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if (String.length fnam > 0) then
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let ochan = open_out fnam in
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begin
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Annotate.dump (output_string ochan) asched;
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close_out ochan;
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end
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(* utilities for optimization *)
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let standard_scheduler dag =
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let optim = Algsimp.algsimp dag in
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let alist = To_alist.to_assignments optim in
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let _ = dump_alist alist in
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let _ = dump_dag alist in
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if !Magic.precompute_twiddles then
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Schedule.isolate_precomputations_and_schedule alist
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else
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Schedule.schedule alist
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let standard_optimizer dag =
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let sched = standard_scheduler dag in
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let annot = Annotate.annotate [] sched in
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let _ = dump_asched annot in
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annot
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let size = ref None
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let sign = ref (-1)
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let speclist = [
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"-n", Arg.Int(fun i -> size := Some i), " generate a codelet of size <n>";
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"-sign",
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Arg.Int(fun i ->
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if (i > 0) then
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sign := 1
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else
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sign := (-1)),
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" sign of transform";
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]
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let check_size () =
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match !size with
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| Some i -> i
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| None -> failwith "must specify -n"
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let expand_name name = if name = "" then "noname" else name
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let declare_register_fcn name =
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if name = "" then
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"void NAME(planner *p)\n"
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else
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"void " ^ (choose_simd "X" "XSIMD") ^
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"(codelet_" ^ name ^ ")(planner *p)\n"
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let stringify name =
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if name = "" then "STRINGIZE(NAME)" else
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choose_simd ("\"" ^ name ^ "\"")
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("XSIMD_STRING(\"" ^ name ^ "\")")
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let parse user_speclist usage =
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Arg.parse
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(user_speclist @ speclist @ Magic.speclist @ Simdmagic.speclist)
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standard_arg_parse_fail
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usage
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let rec list_to_c = function
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[] -> ""
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| [a] -> (string_of_int a)
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| a :: b -> (string_of_int a) ^ ", " ^ (list_to_c b)
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let rec list_to_comma = function
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| [a; b] -> C.Comma (a, b)
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| a :: b -> C.Comma (a, list_to_comma b)
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| _ -> failwith "list_to_comma"
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type stride = Stride_variable | Fixed_int of int | Fixed_string of string
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let either_stride a b =
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match a with
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Fixed_int x -> C.SInteger x
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| Fixed_string x -> C.SConst x
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| _ -> b
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let stride_fixed = function
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Stride_variable -> false
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| _ -> true
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let arg_to_stride s =
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try
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Fixed_int (int_of_string s)
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with Failure "int_of_string" ->
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Fixed_string s
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let stride_to_solverparm = function
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Stride_variable -> "0"
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| Fixed_int x -> string_of_int x
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| Fixed_string x -> x
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let stride_to_string s = function
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Stride_variable -> s
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| Fixed_int x -> string_of_int x
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| Fixed_string x -> x
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(* output the command line *)
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let cmdline () =
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List.fold_right (fun a b -> a ^ " " ^ b) (Array.to_list Sys.argv) ""
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let unparse tree =
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"/* Generated by: " ^ (cmdline ()) ^ "*/\n\n" ^
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(C.print_cost tree) ^
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(if String.length !Magic.inklude > 0
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then
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(Printf.sprintf "#include \"%s\"\n\n" !Magic.inklude)
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else "") ^
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(if !Simdmagic.simd_mode then
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Simd.unparse_function tree
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else
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C.unparse_function tree)
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let finalize_fcn ast =
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let mergedecls = function
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C.Block (d1, [C.Block (d2, s)]) -> C.Block (d1 @ d2, s)
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| x -> x
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and extract_constants =
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if !Simdmagic.simd_mode then
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Simd.extract_constants
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else
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C.extract_constants
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in mergedecls (C.Block (extract_constants ast, [ast; C.Simd_leavefun]))
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let twinstr_to_string vl x =
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if !Simdmagic.simd_mode then
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Twiddle.twinstr_to_simd_string vl x
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else
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Twiddle.twinstr_to_c_string x
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let make_volatile_stride n x =
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C.CCall ("MAKE_VOLATILE_STRIDE", C.Comma((C.Integer n), x))
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