/usr/lib/ats-anairiats-0.2.11/libats/DATS/genarrays.dats is in ats-lang-anairiats 0.2.11-1.
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(* *)
(* Applied Type System *)
(* *)
(* Hongwei Xi *)
(* *)
(***********************************************************************)
(*
** ATS - Unleashing the Potential of Types!
**
** Copyright (C) 2002-2009 Hongwei Xi, Boston University
**
** All rights reserved
**
** ATS is free software; you can redistribute it and/or modify it under
** the terms of the GNU General Public License as published by the Free
** Software Foundation; either version 2.1, or (at your option) any later
** version.
**
** ATS is distributed in the hope that it will be useful, but WITHOUT ANY
** WARRANTY; without even the implied warranty of MERCHANTABILITY or
** FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
** for more details.
**
** You should have received a copy of the GNU General Public License
** along with ATS; see the file COPYING. If not, write to the Free
** Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA
** 02110-1301, USA.
*)
(* ****** ****** *)
(*
**
** Various kinds of (generic) arrays
**
** Contributed by Hongwei Xi (hwxi AT cs DOT bu DOT edu)
** Contributed by Shivkumar Chandrasekaran (shiv AT ece DOT ucsb DOT edu)
**
** Time: Summer, 2009
**
*)
(* ****** ****** *)
//
// License: LGPL 3.0 (available at http://www.gnu.org/licenses/lgpl.txt)
//
(* ****** ****** *)
#define ATS_DYNLOADFLAG 0 // no need for dynamic loading
(* ****** ****** *)
staload "libats/SATS/fmatrix.sats"
staload "libats/SATS/genarrays.sats"
(* ****** ****** *)
infixl (imul) szmul
#define szmul mul_size_size
#define sz2sz size1_of_size
(* ****** ****** *)
implement{a}
GEVEC_ptr_takeout
{n} {d} {l0} (pf_vec | p_vec, d, i) = let
viewdef V0 = GEVEC_v (a, n, d, l0)
val ofs = (i * d) szmul sizeof<a>
val [ofs:int] ofs = sz2sz (ofs) // no-op casting
stadef l = l0 + ofs
prval (pf_at, fpf_vec) = __cast (pf_vec) where {
extern prfun __cast (pf: V0): (a @ l, a @ l -<lin,prf> V0)
} // end of [prval]
in
#[l | (pf_at, fpf_vec | p_vec + ofs) ]
end // end of [GEVEC_ptr_takeout]
(* ****** ****** *)
implement{a1}
GEVEC_ptr_split
{n,i} {d} {l0} (pf_vec | p_vec, d, i) = let
viewdef V0 (a: viewt@ype) = GEVEC_v (a, n, d, l0)
val ofs = (i * d) szmul sizeof<a1>
val [ofs:int] ofs = sz2sz (ofs) // no-op casting
stadef l = l0 + ofs
viewdef V1 (a: viewt@ype) = GEVEC_v (a, i, d, l0)
viewdef V2 (a: viewt@ype) = GEVEC_v (a, n-i, d, l)
prval (pf1_vec, pf2_vec, fpf_vec) = __cast (pf_vec) where {
extern prfun __cast (pf: V0 a1):
(V1 a1, V2 a1, {a2:viewt@ype | a1 \tszeq a2} (V1 a2, V2 a2) -<prf> V0 a2)
} // end of [prval]
in
#[l | (pf1_vec, pf2_vec, fpf_vec | p_vec + ofs) ]
end // end of [GEVEC_ptr_split]
(* ****** ****** *)
implement{a}
GEVEC_ptr_get_elt_at (V, d, i) = x where {
val (pf, fpf | p) = GEVEC_ptr_takeout<a> (view@ V | &V, d, i)
val x = !p
prval () = view@ V := fpf (pf)
} // end of [GEVEC_ptr_get_elt_at]
implement{a}
GEVEC_ptr_set_elt_at (V, d, i, x) = () where {
val (pf, fpf | p) = GEVEC_ptr_takeout<a> (view@ V | &V, d, i)
val () = !p := x
prval () = view@ V := fpf (pf)
} // end of [GEVEC_ptr_set_elt_at]
(* ****** ****** *)
// X <- alpha
implement{a}
GEVEC_ptr_initialize_elt
{m} {incX} (X, m, incX, alpha) = let
val (pf_mul | ofs) = mul2_size1_size1 (incX, sizeof<a>)
fun loop {n:nat} {lX:addr} .<n>. (
pf_vec: !GEVEC_v (a?, n, incX, lX) >> GEVEC_v (a, n, incX, lX)
| pX: ptr lX, n: size_t n
) :<cloref> void =
if n > 0 then let
prval (pf_at, pf1_vec) = GEVEC_v_uncons {a?} (pf_mul, pf_vec)
val () = !pX := alpha
val () = loop (pf1_vec | pX + ofs, n-1)
prval () = pf_vec := GEVEC_v_cons {a} (pf_mul, pf_at, pf1_vec)
in
// nothing
end else let
prval () = GEVEC_v_unnil (pf_vec)
prval () = pf_vec := GEVEC_v_nil {a} {incX} {lX} ()
in
// nothing
end // end of [if]
// end of [loop]
in
loop (view@ X | &X, m)
end // end of [GEVEC_ptr_initialize_elt]
(* ****** ****** *)
implement{a}
GEVEC_ptr_copy
{m} {d1,d2} (X1, X2, m, d1, d2) = let
val (pf1_mul | ofs1) = mul2_size1_size1 (d1, sizeof<a>)
val (pf2_mul | ofs2) = mul2_size1_size1 (d2, sizeof<a>)
fun loop {mi:nat | mi <= m} {l1,l2:addr} .<mi>. (
pf1: !GEVEC_v (a, mi, d1, l1)
, pf2: !GEVEC_v (a?, mi, d2, l2) >> GEVEC_v (a, mi, d2, l2)
| p1: ptr l1, p2: ptr l2, mi: size_t mi
) :<cloref> void =
if mi > 0 then let
prval (pf11, pf12) = GEVEC_v_uncons {a} (pf1_mul, pf1)
prval (pf21, pf22) = GEVEC_v_uncons {a?} (pf2_mul, pf2)
val () = !p2 := !p1
val () = loop (pf12, pf22 | p1+ofs1, p2+ofs2, mi-1)
prval () = pf1 := GEVEC_v_cons {a} (pf1_mul, pf11, pf12)
prval () = pf2 := GEVEC_v_cons {a} (pf2_mul, pf21, pf22)
in
// empty
end else let
prval () = GEVEC_v_unnil (pf2) in pf2 := GEVEC_v_nil {a} ()
end // end of [if]
in
loop (view@ X1, view@ X2 | &X1, &X2, m)
end // end of [GEVEC_ptr_copy]
(* ****** ****** *)
implement
GEVEC_ptr_foreach_funenv_tsz
{a} {v} {vt} {n} {d}
(pf | base, f, vsz, inc, tsz, env) = let
val (pf_mul | ofs) = mul2_size1_size1 (inc, tsz)
fun loop {l:addr} {n:nat} .<n>. (
pf: !v
, pf_vec: !GEVEC_v (a, n, d, l)
| p: ptr l, n: size_t n, env: !vt
) :<cloref> void =
if n > 0 then let
prval (pf_at, pf1_vec) = GEVEC_v_uncons {a} (pf_mul, pf_vec)
val () = f (pf | !p, env)
val () = loop (pf, pf1_vec | p+ofs, n-1, env)
prval () = pf_vec := GEVEC_v_cons {a} (pf_mul, pf_at, pf1_vec)
in
// nothing
end // end of [if]
(* end of [loop] *)
in
loop (pf, view@ base | &base, vsz, env)
end // end of [GEVEC_ptr_foreach_funenv_tsz]
//
implement{a}
GEVEC_ptr_foreach_fun
{v} (base, f, n, inc) = let
val f = coerce (f) where { extern castfn
coerce (f: (&a) -<> void) :<> (!unit_v | &a, !ptr) -<> void
} // end of [where]
//
prval pfu = unit_v ()
val () = GEVEC_ptr_foreach_funenv_tsz
{a} {unit_v} {ptr} (pfu | base, f, n, inc, sizeof<a>, null)
prval unit_v () = pfu
//
in
// nothing
end // end of [GEVEC_ptr_foreach_fun_tsz]
//
implement{a}
GEVEC_ptr_foreach_vclo
{v} (pf_v | base, f, vsz, inc) = let
stavar l_f: addr
val p_f: ptr l_f = &f
typedef clo_t = (!v | &a) -<clo> void
viewdef V = @(v, clo_t @ l_f)
fn app (pf: !V | x: &a, p_f: !ptr l_f):<> void = let
prval (pf1, pf2) = pf in !p_f (pf1 | x); pf := @(pf1, pf2)
end // end of [app]
prval pf = (pf_v, view@ f)
val () = GEVEC_ptr_foreach_funenv_tsz
{a} {V} {ptr l_f} (pf | base, app, vsz, inc, sizeof<a>, p_f)
prval (pf1, pf2) = pf
prval () = (pf_v := pf1; view@ f := pf2)
in
// empty
end // end of [GEVEC_ptr_foreach_vclo]
(* ****** ****** *)
implement
GEVEC_ptr_iforeach_funenv_tsz
{a} {v} {vt} {n} {d}
(pf | base, f, vsz, inc, tsz, env) = let
val (pf_mul | ofs) = mul2_size1_size1 (inc, tsz)
fun loop {l:addr}
{ni:nat | ni <= n} .<ni>. (
pf: !v
, pf_vec: !GEVEC_v (a, ni, d, l)
| p: ptr l, ni: size_t ni, env: !vt
) :<cloref> void =
if ni > 0 then let
prval (pf_at, pf1_vec) = GEVEC_v_uncons {a} (pf_mul, pf_vec)
val () = f (pf | vsz - ni, !p, env)
val () = loop (pf, pf1_vec | p+ofs, ni-1, env)
prval () = pf_vec := GEVEC_v_cons {a} (pf_mul, pf_at, pf1_vec)
in
// nothing
end // end of [if]
(* end of [loop] *)
in
loop (pf, view@ base | &base, vsz, env)
end // end of [GEVEC_ptr_iforeach_funenv_tsz]
implement{a}
GEVEC_ptr_iforeach_fun
{n} (base, f, n, inc) = let
//
val f = coerce (f) where {
extern castfn coerce
(f: (sizeLt n, &a) -<> void)
:<> (!unit_v | sizeLt n, &a, !ptr) -<> void
} // end of [where]
//
prval pfu = unit_v ()
val () = GEVEC_ptr_iforeach_funenv_tsz
{a} {unit_v} {ptr} (pfu | base, f, n, inc, sizeof<a>, null)
prval unit_v () = pfu
//
in
// nothing
end // end of [GEVEC_ptr_iforeach_fun_tsz]
(* ****** ****** *)
implement
GEVEC_ptr_iforeach_cloenv_tsz
{a} {v} {vt} {n} {d}
(pf | base, f, vsz, inc, tsz, env) = let
val (pf_mul | ofs) = mul2_size1_size1 (inc, tsz)
fun loop {l:addr}
{ni:nat | ni <= n} .<ni>. (
pf: !v
, pf_vec: !GEVEC_v (a, ni, d, l)
| p: ptr l
, f: &(!v | sizeLt n, &a, !vt) -<clo> void
, ni: size_t ni, env: !vt
) :<cloref> void =
if ni > 0 then let
prval (pf_at, pf1_vec) = GEVEC_v_uncons {a} (pf_mul, pf_vec)
val () = f (pf | vsz - ni, !p, env)
val () = loop (pf, pf1_vec | p+ofs, f, ni-1, env)
prval () = pf_vec := GEVEC_v_cons {a} (pf_mul, pf_at, pf1_vec)
in
// nothing
end // end of [if]
(* end of [loop] *)
in
loop (pf, view@ base | &base, f, vsz, env)
end // end of [GEVEC_ptr_iforeach_cloenv_tsz]
//
implement{a}
GEVEC_ptr_iforeach_vclo
{v} {n} (pf | base, f, n, inc) = let
stavar l_f: addr
val p_f = (&f: ptr l_f)
typedef clo_t = (!v | sizeLt n, &a) -<clo> void
typedef clo1_t = (!v | sizeLt n, &a, !ptr) -<clo> void
prval () = view@ f := coerce (view@ f) where {
extern prfun coerce (pf_clo: clo_t @ l_f): clo1_t @ l_f
} // end of [where]
val () = GEVEC_ptr_iforeach_cloenv_tsz
{a} {v} {ptr} (pf | base, f, n, inc, sizeof<a>, null)
prval () = view@ f := coerce (view@ f) where {
extern prfun coerce (pf_clo: clo1_t @ l_f): clo_t @ l_f
} // end of [prval]
in
// nothing
end // end of [GEVEC_ptr_iforeach_vclo]
(* ****** ****** *)
implement
MATVECINC_get (pf | x1, x2, ld) =
case+ (x1, x2) of
| (ORDERrow (), ORDERrow ()) => let
prval MATVECINCrowrow () = pf in 1 end
// end [row, row]
| (ORDERrow (), ORDERcol ()) => let
prval MATVECINCrowcol () = pf in ld end
// end [row, col]
| (ORDERcol (), ORDERrow ()) => let
prval MATVECINCcolrow () = pf in ld end
// end [col, row]
| (ORDERcol (), ORDERcol ()) => let
prval MATVECINCcolcol () = pf in 1 end
// end [col, col]
// end of [MATVECINC_get]
(* ****** ****** *)
implement{a}
GEMAT_ptr_takeout
{ord} {m, n} {ld} {l0}
(pf_mat | ord, p_mat, ld, i, j) = let
viewdef V0 = GEMAT_v (a, m, n, ord, ld, l0)
val ofs = (case+ ord of
| ORDERrow () => (i szmul ld + j) * sizeof<a>
| ORDERcol () => (i + j szmul ld) * sizeof<a>
) : size_t
val [ofs:int] ofs = sz2sz (ofs)
stadef l = l0 + ofs
prval (pf_at, fpf_mat) = __cast (pf_mat) where {
extern prfun __cast (pf: V0): (a @ l, a @ l -<lin,prf> V0)
} // end of [prval]
in
#[l | (pf_at, fpf_mat | p_mat + ofs) ]
end // end of [GEMAT_ptr_takeout]
(* ****** ****** *)
implement{a}
GEMAT_ptr_get_elt_at (ord, A, ld, i, j) = let
val (pf, fpf | p) = GEMAT_ptr_takeout<a> (view@ A | ord, &A, ld, i, j)
val x = !p
prval () = view@ A := fpf (pf)
in
x // the return value
end // end of [GEMAT_ptr_get_elt_at]
implement{a}
GEMAT_ptr_set_elt_at (ord, A, ld, i, j, x) = let
val (pf, fpf | p) = GEMAT_ptr_takeout<a> (view@ A | ord, &A, ld, i, j)
val () = !p := x
prval () = view@ A := fpf (pf)
in
// nothing
end // end of [GEMAT_ptr_set_elt_at]
(* ****** ****** *)
implement{a}
GEMAT_ptr_tail_row
{ord} {m,n} {ld} {l0}
(pf_mat | ord, p_mat, ld) = let
viewdef V0 = GEMAT_v (a, m, n, ord, ld, l0)
val ofs = (case+ ord of
| ORDERrow () => ld * sizeof<a> | ORDERcol () => sizeof<a>
) : size_t // end of [val]
val [ofs:int] ofs = sz2sz (ofs)
stadef l = l0 + ofs
viewdef V1 = GEMAT_v (a, m-1, n, ord, ld, l)
prval (pf1_mat, fpf_mat) = __cast (pf_mat) where {
extern prfun __cast (pf: V0): (V1, V1 -<lin,prf> V0)
} // end of [prval]
in
#[l | (pf1_mat, fpf_mat | p_mat + ofs) ]
end // end of [GEMAT_ptr_tail_row]
(* ****** ****** *)
implement{a}
GEMAT_ptr_tail_col
{ord} {m,n} {ld} {l0}
(pf_mat | ord, p_mat, ld) = let
viewdef V0 = GEMAT_v (a, m, n, ord, ld, l0)
val ofs = (case+ ord of
| ORDERrow () => sizeof<a> | ORDERcol () => ld * sizeof<a>
) : size_t // end of [val]
val [ofs:int] ofs = sz2sz (ofs)
stadef l = l0 + ofs
viewdef V1 = GEMAT_v (a, m, n-1, ord, ld, l)
prval (pf1_mat, fpf_mat) = __cast (pf_mat) where {
extern prfun __cast (pf: V0): (V1, V1 -<lin,prf> V0)
} // end of [prval]
in
#[l | (pf1_mat, fpf_mat | p_mat + ofs) ]
end // end of [GEMAT_ptr_tail_col]
(* ****** ****** *)
extern
fun GEMAT_ptr_split1x2_tsz {a1:viewt@ype}
{ord:order} {m,n,j:nat | j <= n} {ld:inc} {l0:addr} (
pf_mat: GEMAT_v (a1, m, n, ord, ld, l0)
| ord: ORDER ord, p_mat: ptr l0, ld: size_t ld, j: size_t j, tsz: sizeof_t a1
) :<> GEMAT_ptr_split1x2_res_t (a1, m, n, j, ord, ld, l0)
// end of [GEMAT_ptr_split1x2_tsz]
implement
GEMAT_ptr_split1x2_tsz
{a1} {ord} {m,n,j} {ld} {l0}
(pf_mat | ord, p_mat, ld, j, tsz) = let
val ofs = (case ord of
| ORDERrow () => j szmul tsz | ORDERcol () => (j * ld) szmul tsz
) : size_t // end of [val]
val ofs = sz2sz (ofs)
val res = (unit_v, unit_v, unit_p | p_mat, p_mat + ofs)
extern castfn __cast {vt:viewt@ype}
(pf: GEMAT_v (a1, m, n, ord, ld, l0) | res: vt)
:<> GEMAT_ptr_split1x2_res_t (a1, m, n, j, ord, ld, l0)
// end of [__cast]
in
__cast (pf_mat | res)
end // end of [GEMAT_ptr_split1x2_tsz]
implement{a1}
GEMAT_ptr_split1x2
(pf_mat | ord, p_mat, ld, j) =
GEMAT_ptr_split1x2_tsz {a1} (pf_mat | ord, p_mat, ld, j, sizeof<a1>)
// end of [GEMAT_ptr_split1x2]
(* ****** ****** *)
extern
fun GEMAT_ptr_split2x1_tsz {a1:viewt@ype}
{ord:order} {m,n,i:nat | i <= m} {ld:inc} {l0:addr} (
pf_mat: GEMAT_v (a1, m, n, ord, ld, l0)
| ord: ORDER ord, p_mat: ptr l0, ld: size_t ld, i: size_t i, tsz: sizeof_t a1
) :<> GEMAT_ptr_split2x1_res_t (a1, m, n, i, ord, ld, l0)
// end of [GEMAT_ptr_split2x1_tsz]
implement
GEMAT_ptr_split2x1_tsz
{a1} {ord} {m,n,i} {ld} {l0}
(pf_mat | ord,p_mat, ld, i, tsz) = let
val ofs = (case ord of
| ORDERrow () => (i * ld) szmul tsz | ORDERcol () => i szmul tsz
) : size_t // end of [val]
val ofs = sz2sz (ofs)
val res = (unit_v, unit_v, unit_p | p_mat, p_mat + ofs)
extern castfn __cast {vt:viewt@ype}
(pf: GEMAT_v (a1, m, n, ord, ld, l0) | res: vt)
:<> GEMAT_ptr_split2x1_res_t (a1, m, n, i, ord, ld, l0)
// end of [__cast]
in
__cast (pf_mat | res)
end // end of [GEMAT_ptr_split2x1_tsz]
implement{a1}
GEMAT_ptr_split2x1
(pf_mat | ord, p_mat, ld, i) =
GEMAT_ptr_split2x1_tsz {a1} (pf_mat | ord, p_mat, ld, i, sizeof<a1>)
// end of [GEMAT_ptr_split2x1]
(* ****** ****** *)
extern
fun GEMAT_ptr_split2x2_tsz {a1:viewt@ype}
{ord:order} {m,n,i,j:nat | i <= m; j <= n} {ld:inc} {l0:addr} (
pf_mat: GEMAT_v (a1, m, n, ord, ld, l0)
| ord: ORDER ord, p_mat: ptr l0, ld: size_t ld, i: size_t i, j: size_t j, tsz: sizeof_t a1
) :<> GEMAT_ptr_split2x2_res_t (a1, m, n, i, j, ord, ld, l0)
// end of [GEMAT_ptr_split2x2_tsz]
implement
GEMAT_ptr_split2x2_tsz
{a1} {ord} {m,n,i,j} {ld} {l0}
(pf_mat | ord, p_mat, ld, i, j, tsz) = let
val res = (case+ ord of
| ORDERrow () => let
val i_tmp = sz2sz (j * tsz) // no-op casting
val p_tmp = p_mat + sz2sz ((i * ld) szmul tsz)
in @(
unit_v, unit_v, unit_v, unit_v, unit_p
| p_mat, p_mat + i_tmp, p_tmp, p_tmp + i_tmp
) end // end of [ORDERrow]
| ORDERcol () => let
val i_tmp = sz2sz (i * tsz) // no-op casting
val p_tmp = p_mat + sz2sz ((j * ld) szmul tsz)
in @(
unit_v, unit_v, unit_v, unit_v, unit_p
| p_mat, p_tmp, p_mat + i_tmp, p_tmp + i_tmp
) end // end of [ORDERcol]
) : (
unit_v, unit_v, unit_v, unit_v, unit_p | ptr, ptr, ptr, ptr
) // end of [val]
extern castfn __cast {vt:viewt@ype}
(pf: GEMAT_v (a1, m, n, ord, ld, l0) | res: vt)
:<> GEMAT_ptr_split2x2_res_t (a1, m, n, i, j, ord, ld, l0)
// end of [__cast]
in
__cast (pf_mat | res)
end // end of [GEMAT_ptr_split2x2_tsz]
implement{a1}
GEMAT_ptr_split2x2
(pf_mat | ord, p_mat, ld, i, j) =
GEMAT_ptr_split2x2_tsz {a1} (pf_mat | ord, p_mat, ld, i, j, sizeof<a1>)
// end of [GEMAT_ptr_split2x2]
(* ****** ****** *)
implement{a}
GEMAT_row_ptr_allocfree {m,n} (m, n) = let
val [nm:int] [l:addr] (pf_gc, pf_nm, pf_fmat | p) =
fmatrix_ptr_alloc<a> (n, m)
prval () = mul_nat_nat_nat (pf_nm)
prval (pf_gmat, fpf_fmat) = GEMAT_v_of_fmatrix_v (pf_fmat)
prval TRANORDcolrow () = GEMAT_v_trans (pf_gmat)
val free = lam (
pf_gmat: GEMAT (a?, m, n, row, n) @ l | p: ptr l
) : void =<fun,lin> let
prval TRANORDrowcol () = GEMAT_v_trans (pf_gmat) in
fmatrix_ptr_free {a?} (pf_gc, pf_nm, fpf_fmat {a?} (pf_gmat) | p)
end // end of [val]
in
(pf_gmat | p, free)
end // end of [GEMAT_ptr_allocfree]
(* ****** ****** *)
implement{a}
GEMAT_col_ptr_allocfree {m,n} (m, n) = let
val [mn:int] [l:addr] (pf_gc, pf_mn, pf_fmat | p) =
fmatrix_ptr_alloc<a> (m, n)
prval () = mul_nat_nat_nat (pf_mn)
prval (pf_gmat, fpf_fmat) = GEMAT_v_of_fmatrix_v (pf_fmat)
val free = lam (
pf_gmat: GEMAT (a?, m, n, col, m) @ l | p: ptr l
) : void =<fun,lin>
fmatrix_ptr_free {a?} (pf_gc, pf_mn, fpf_fmat {a?} (pf_gmat) | p)
// end of [val]
in
(pf_gmat | p, free)
end // end of [GEMAT_col_ptr_allocfree]
(* ****** ****** *)
// X <- alpha
implement{a}
GEMAT_ptr_initialize_elt
{ord} {m,n} {ld} (ord, X, m, n, ld, alpha) = let
fun loop_row {m,n:nat} {lx:addr} .<m>. (
pf_gmat: !GEMAT_v (a?, m, n, row, ld, lx)
>> GEMAT_v (a, m, n, row, ld, lx)
| pX: ptr lx, m: size_t m, n: size_t n
) :<cloref> void =
if m > 0 then let
val (pfX1_gmat, pfX2_gmat, fpf_gmat | pX1, pX2) =
GEMAT_ptr_split2x1<a?> (pf_gmat | ORDERrow, pX, ld, 1)
prval (pf2_inc, pfX1_gvec, fpfX1_gmat) =
GEVEC_v_of_GEMAT_v_row (pfX1_gmat)
prval MATVECINCrowrow () = pf2_inc
val () = GEVEC_ptr_initialize_elt<a> (!pX1, n, 1(*incX*), alpha)
prval () = pfX1_gmat := fpfX1_gmat (pfX1_gvec)
val () = loop_row (pfX2_gmat | pX2, m-1, n)
prval () = pf_gmat := fpf_gmat {a} (pfX1_gmat, pfX2_gmat)
in
// nothing
end else let
prval () = GEMAT_v_unnil_row (pf_gmat)
prval () = pf_gmat := GEMAT_v_nil_row {a} {row} {n} {ld} {lx} ()
in
// nothing
end // end of [if]
// end of [loop_row]
in
case+ ord of
| ORDERrow () => loop_row (view@ X | &X, m, n)
| ORDERcol () => let
prval TRANORDcolrow () =
GEMAT_v_trans {a?} {col} (view@ X)
// end of [prval]
val () = loop_row (view@ X | &X, n, m)
prval TRANORDrowcol () = GEMAT_v_trans {a} {row} (view@ X)
in
// nothing
end // end of [ORDERcol]
end // end of [GEMAT_ptr_initialize_elt]
(* ****** ****** *)
implement{a}
GEMAT_ptr_initialize_fun
{ord} {m,n} {ld} (ord, X, m, n, ld, f) = () where {
val _(*ptr*) = __cast (X) where {
extern castfn __cast
(X: &GEMAT (a?, m, n, ord, ld) >> GEMAT (a, m, n, ord, ld)):<> ptr
} // end of [val]
val () = GEMAT_ptr_iforeach_fun<a> (ord, X, f, ord, m, n, ld)
} // end of [GEMAT_ptr_initialize_fun]
implement{a}
GEMAT_ptr_initialize_vclo
{v} {ord} {m,n} {ld} (pf | ord, X, m, n, ld, f) = () where {
//
typedef clotype0 =
(!v | sizeLt m, sizeLt n, &(a?) >> a) -<clo> void
typedef clotype1 = (!v | sizeLt m, sizeLt n, &a) -<clo> void
//
// a shortcut worth taking? probably.
//
val _(*ptr*) = __cast (f) where {
extern castfn __cast (f: &clotype0 >> clotype1) :<> ptr
}
val _(*ptr*) = __cast (X) where {
extern castfn __cast
(X: &GEMAT (a?, m, n, ord, ld) >> GEMAT (a, m, n, ord, ld)):<> ptr
} // end of [val]
val () = GEMAT_ptr_iforeach_vclo<a> (pf | ord, X, f, ord, m, n, ld)
val _(*ptr*) = __cast (f) where {
extern castfn __cast (f: &clotype1 >> clotype0) :<> ptr
}
} // end of [GEMAT_ptr_initialize_vclo]
(* ****** ****** *)
implement{a}
GEMAT_ptr_copy
(ord, M1, M2, m, n, ld1, ld2) =
GEMAT_ptr_copy_tsz (ord, M1, M2, m, n, ld1, ld2, sizeof<a>)
// end of [GEMAT_ptr_copy]
implement
GEMAT_ptr_copy_tsz
{a} {ord} {m,n} {ld1,ld2}
(ord, M1, M2, m, n, ld1, ld2, tsz) = let
fun loop_row {mi,n:nat} {l1,l2:addr} .<mi>. (
pf1: !GEMAT_v (a, mi, n, row, ld1, l1)
, pf2: !GEMAT_v (a?, mi, n, row, ld2, l2) >> GEMAT_v (a, mi, n, row, ld2, l2)
| p1: ptr l1, p2: ptr l2, mi: size_t mi, n: size_t n
) :<cloref> void =
if mi > 0 then let
val (pf11, pf12, fpf1 | p11, p12) =
GEMAT_ptr_split2x1_tsz {a} (pf1 | ORDERrow, p1, ld1, 1, tsz)
prval (pf1_inc, pf11, fpf11) = GEVEC_v_of_GEMAT_v_row {a} (pf11)
prval MATVECINCrowrow () = pf1_inc
prval pf11 = array_v_of_GEVEC_v {a} (pf11)
val (pf21, pf22, fpf2 | p21, p22) =
GEMAT_ptr_split2x1_tsz {a?} (pf2 | ORDERrow, p2, ld2, 1, tsz)
prval (pf2_inc, pf21, fpf21) = GEVEC_v_of_GEMAT_v_row {a?} (pf21)
prval MATVECINCrowrow () = pf2_inc
prval pf21 = array_v_of_GEVEC_v {a?} (pf21)
val () = array_ptr_copy_tsz {a} (!p11, !p21, n, tsz)
prval pf11 = GEVEC_v_of_array_v {a} (pf11)
prval pf11 = fpf11 (pf11)
prval pf21 = GEVEC_v_of_array_v {a} (pf21)
prval pf21 = fpf21 (pf21)
val () = loop_row (pf12, pf22 | p12, p22, mi-1, n)
prval () = pf1 := fpf1 {a} (pf11, pf12)
prval () = pf2 := fpf2 {a} (pf21, pf22)
in
// nothing
end else let
prval () = GEMAT_v_unnil_row (pf2) in pf2 := GEMAT_v_nil_row {a} ()
end // end of [if]
// end of [loop_row]
in
case+ ord of
| ORDERrow () =>
loop_row (view@ M1, view@ M2 | &M1, &M2, m, n)
// end of [ORDERrow]
| ORDERcol () => let
prval TRANORDcolrow () = GEMAT_v_trans {a} {col} (view@ M1)
prval TRANORDcolrow () = GEMAT_v_trans {a?} {col} (view@ M2)
val () = loop_row (view@ M1, view@ M2 | &M1, &M2, n, m)
prval TRANORDrowcol () = GEMAT_v_trans {a} {row} (view@ M1)
prval TRANORDrowcol () = GEMAT_v_trans {a} {row} (view@ M2)
in
// nothing
end // end of [ORDERcol]
end // end of [GEMAT_ptr_copy_tsz]
(* ****** ****** *)
implement
GEMAT_ptr_foreach_funenv_tsz
{a} {v} {vt} {ord1,ord2} {m,n} {ld}
(pf | ord1, M, f, ord2, m, n, ld, tsz, env) = let
fun loop_row {n > 0}
{mi:nat | mi <= m} {l:addr} .<mi>. (
pf: !v
, pf_mat: !GEMAT_v (a, mi, n, ord1, ld, l)
| p: ptr l
, mi: size_t mi
, env: !vt
) :<cloref> void =
if mi > 0 then let
val (pf1_mat, pf2_mat, fpf | p1, p2) =
GEMAT_ptr_split2x1_tsz {a} (pf_mat | ord1, p, ld, 1, tsz)
prval (pf1_inc, pf1_vec, fpf1_mat) =
GEVEC_v_of_GEMAT_v_row (pf1_mat)
val inc = MATVECINC_get (pf1_inc | ORDERrow, ord1, ld)
val () = GEVEC_ptr_foreach_funenv_tsz
{a} {v} (pf | !p1, f, n, inc, tsz, env) // end of [val]
prval () = pf1_mat := fpf1_mat (pf1_vec)
val () = loop_row (pf, pf2_mat | p2, mi-1, env)
prval () = pf_mat := fpf (pf1_mat, pf2_mat)
in
// nothing
end // end of [if]
fun loop_col {m > 0}
{ni:nat | ni <= n} {l:addr} .<ni>. (
pf: !v
, pf_mat: !GEMAT_v (a, m, ni, ord1, ld, l)
| p: ptr l
, ni: size_t ni
, env: !vt
) :<cloref> void =
if ni > 0 then let
val (pf1_mat, pf2_mat, fpf | p1, p2) =
GEMAT_ptr_split1x2_tsz (pf_mat | ord1, p, ld, 1, tsz)
prval (pf1_inc, pf1_vec, fpf1_mat) =
GEVEC_v_of_GEMAT_v_col (pf1_mat)
val inc = MATVECINC_get (pf1_inc | ORDERcol, ord1, ld)
val () = GEVEC_ptr_foreach_funenv_tsz
{a} {v} (pf | !p1, f, m, inc, tsz, env) // end of [val]
prval () = pf1_mat := fpf1_mat (pf1_vec)
val () = loop_col (pf, pf2_mat | p2, ni-1, env)
prval () = pf_mat := fpf (pf1_mat, pf2_mat)
in
// nothing
end // end of [if]
in
case+ ord2 of
| ORDERrow () => if n > 0 then let
val () = loop_row (pf, view@ M | &M, m, env)
in
// nothing
end else begin
// nothing
end // end of [ORDERcol]
| ORDERcol () => if m > 0 then let
val () = loop_col (pf, view@ M | &M, n, env)
in
// nothing
end else begin
// nothing
end // end of [ORDERcol]
end (* end of [GEMAT_ptr_foreach_funenv_tsz] *)
(* ****** ****** *)
implement{a}
GEMAT_ptr_foreach_fun
{ord1,ord2} {m,n}
(ord1, base, f, ord2, m, n, ld) = let
val f = coerce (f) where {
extern castfn coerce
(f: (&a) -<> void):<> (!unit_v | &a, !ptr) -<> void
} // end of [where]
prval pfu = unit_v ()
val () = GEMAT_ptr_foreach_funenv_tsz
{a} {unit_v} {ptr} (pfu | ord1, base, f, ord2, m, n, ld, sizeof<a>, null)
prval unit_v () = pfu
in
// nothing
end // end of [GEMAT_ptr_foreach_fun]
implement{a}
GEMAT_ptr_foreach_vclo
{v} {ord1,ord2} {m,n}
(pf_v | ord1, M, f, ord2, m, n, ld) = let
viewtypedef clo_t = (!v | &a) -<clo> void
stavar l_f: addr
val p_f: ptr l_f = &f
viewdef V = @(v, clo_t @ l_f)
fn app (pf: !V | x: &a, p_f: !ptr l_f):<> void = let
prval (pf1, pf2) = pf; val () = !p_f (pf1 | x) in pf := (pf1, pf2)
end // end of [app]
prval pf = (pf_v, view@ f)
val () = GEMAT_ptr_foreach_funenv_tsz
{a} {V} {ptr l_f} (pf | ord1, M, app, ord2, m, n, ld, sizeof<a>, p_f)
prval (pf1, pf2) = pf
prval () = (pf_v := pf1; view@ f := pf2)
in
// empty
end // end of [GEMAT_ptr_foreach_vclo]
(* ****** ****** *)
implement
GEMAT_ptr_iforeach_funenv_tsz
{a} {v} {vt} {ord1,ord2} {m,n} {ld}
(pf | ord1, M, f, ord2, m, n, ld, tsz, env) = let
fun loop_row {n > 0}
{mi:nat | mi <= m} {l:addr} .<mi>. (
pf: !v
, pf_mat: !GEMAT_v (a, mi, n, ord1, ld, l)
| p: ptr l
, mi: size_t mi
, env: !vt
) :<cloref> void =
if mi > 0 then let
val (pf1_mat, pf2_mat, fpf | p1, p2) =
GEMAT_ptr_split2x1_tsz {a} (pf_mat | ord1, p, ld, 1, tsz)
prval (pf1_inc, pf1_vec, fpf1_mat) =
GEVEC_v_of_GEMAT_v_row (pf1_mat)
val inc = MATVECINC_get (pf1_inc | ORDERrow, ord1, ld)
val () = GEVEC_ptr_iforeach_cloenv_tsz
{a} {v} (pf | !p1, !p_clo, n, inc, tsz, env) where {
val i = m - mi
var !p_clo = @lam
(pf: !v | j: sizeLt n, x: &a, env: !vt): void =<clo> f (pf | i, j, x, env)
// end of [var]
} // end of [val]
prval () = pf1_mat := fpf1_mat (pf1_vec)
val () = loop_row (pf, pf2_mat | p2, mi-1, env)
prval () = pf_mat := fpf (pf1_mat, pf2_mat)
in
// nothing
end // end of [if]
fun loop_col {m > 0}
{nj:nat | nj <= n} {l:addr} .<nj>. (
pf: !v
, pf_mat: !GEMAT_v (a, m, nj, ord1, ld, l)
| p: ptr l
, nj: size_t nj
, env: !vt
) :<cloref> void =
if nj > 0 then let
val (pf1_mat, pf2_mat, fpf | p1, p2) =
GEMAT_ptr_split1x2_tsz (pf_mat | ord1, p, ld, 1, tsz)
prval (pf1_inc, pf1_vec, fpf1_mat) =
GEVEC_v_of_GEMAT_v_col (pf1_mat)
val inc = MATVECINC_get (pf1_inc | ORDERcol, ord1, ld)
val () = GEVEC_ptr_iforeach_cloenv_tsz
{a} {v} (pf | !p1, !p_clo, m, inc, tsz, env) where {
val j = n-nj
var !p_clo = @lam
(pf: !v | i: sizeLt m, x: &a, env: !vt): void =<clo> f (pf | i, j, x, env)
// end of [var]
} // end of [val]
prval () = pf1_mat := fpf1_mat (pf1_vec)
val () = loop_col (pf, pf2_mat | p2, nj-1, env)
prval () = pf_mat := fpf (pf1_mat, pf2_mat)
in
// nothing
end // end of [if]
in
case+ ord2 of
| ORDERrow () => if n > 0 then let
val () = loop_row (pf, view@ M | &M, m, env)
in
// nothing
end else begin
// nothing
end // end of [ORDERcol]
| ORDERcol () => if m > 0 then let
val () = loop_col (pf, view@ M | &M, n, env)
in
// nothing
end else begin
// nothing
end // end of [ORDERcol]
end (* end of [GEMAT_ptr_iforeach_funenv_tsz] *)
(* ****** ****** *)
implement{a}
GEMAT_ptr_iforeach_fun
{ord1,ord2} {m,n}
(ord1, base, f, ord2, m, n, ld) = let
val f = coerce (f) where {
extern castfn coerce
(f: (sizeLt m, sizeLt n, &a) -<> void)
:<> (!unit_v | sizeLt m, sizeLt n, &a, !ptr) -<> void
} // end of [where]
prval pfu = unit_v ()
val () = GEMAT_ptr_iforeach_funenv_tsz
{a} {unit_v} {ptr} (pfu | ord1, base, f, ord2, m, n, ld, sizeof<a>, null)
prval unit_v () = pfu
in
// nothing
end // end of [GEMAT_ptr_iforeach_fun]
(* ****** ****** *)
implement{a}
GEMAT_ptr_iforeach_vclo
{v} {ord1,ord2} {m,n}
(pf_v | ord1, M, f, ord2, m, n, ld) = let
viewtypedef clo_t = (!v | sizeLt m, sizeLt n, &a) -<clo> void
stavar l_f: addr
val p_f: ptr l_f = &f
viewdef V = @(v, clo_t @ l_f)
fn app (
pf: !V
| i: sizeLt m, j: sizeLt n, x: &a, p_f: !ptr l_f
) :<> void = let
prval (pf1, pf2) = pf; val () = !p_f (pf1 | i, j, x) in pf := (pf1, pf2)
end // end of [app]
prval pf = (pf_v, view@ f)
val () = GEMAT_ptr_iforeach_funenv_tsz
{a} {V} {ptr l_f} (pf | ord1, M, app, ord2, m, n, ld, sizeof<a>, p_f)
prval (pf1, pf2) = pf
prval () = (pf_v := pf1; view@ f := pf2)
in
// empty
end // end of [GEMAT_ptr_iforeach_vclo]
(* ****** ****** *)
//
// TRiangular MATrix representation (part of GEMAT)
//
(* ****** ****** *)
local
fn{a:t@ype}
TRMAT_ptr_get_elt_at_dummy {ord:order} {l:addr} (
ord: ORDER ord, p_mat: ptr l, ld: size_t, i: size_t, j: size_t
) :<> a = let
val ofs = (case+ ord of
| ORDERrow () => (i szmul ld + j) * sizeof<a>
| ORDERcol () => (i + j szmul ld) * sizeof<a>
) : size_t
val [ofs:int] ofs = sz2sz (ofs)
prval (pf, fpf) = __assert () where {
extern prfun __assert (): (a @ l+ofs, a @ l+ofs -<lin,prf> void)
} // end of [prval]
val x = !(p_mat + ofs)
prval () = fpf (pf)
in
x
end // end of [TRMAT_ptr_get_elt_at_dummy]
fn{a:t@ype}
TRMAT_ptr_set_elt_at_dummy {ord:order} {l:addr} (
ord: ORDER ord, p_mat: ptr l, ld: size_t, i: size_t, j: size_t, x: a
) :<> void = let
val ofs = (case+ ord of
| ORDERrow () => (i szmul ld + j) * sizeof<a>
| ORDERcol () => (i + j szmul ld) * sizeof<a>
) : size_t
val [ofs:int] ofs = sz2sz (ofs)
prval (pf, fpf) = __assert () where {
extern prfun __assert (): (a @ l+ofs, a @ l+ofs -<lin,prf> void)
} // end of [prval]
val x = !(p_mat + ofs) := x
prval () = fpf (pf)
in
// nothing
end // end of [TRMAT_ptr_get_elt_at_dummy]
in // in of [local]
implement{a}
TRMAT_UN_ptr_get_elt_at
(ord, A, ld, i, j) =
TRMAT_ptr_get_elt_at_dummy<a> (ord, &A, ld, i, j)
// end of [TRMAT_UN_ptr_get_elt_at]
implement{a}
TRMAT_UN_ptr_set_elt_at
(ord, A, ld, i, j, x) =
TRMAT_ptr_set_elt_at_dummy<a> (ord, &A, ld, i, j, x)
// end of [TRMAT_UN_ptr_set_elt_at]
implement{a}
TRMAT_UU_ptr_get_elt_at
(ord, A, ld, i, j) =
TRMAT_ptr_get_elt_at_dummy<a> (ord, &A, ld, i, j)
// end of [TRMAT_UU_ptr_get_elt_at]
implement{a}
TRMAT_UU_ptr_set_elt_at
(ord, A, ld, i, j, x) =
TRMAT_ptr_set_elt_at_dummy<a> (ord, &A, ld, i, j, x)
// end of [TRMAT_UU_ptr_set_elt_at]
implement{a}
TRMAT_LN_ptr_get_elt_at
(ord, A, ld, i, j) =
TRMAT_ptr_get_elt_at_dummy<a> (ord, &A, ld, i, j)
// end of [TRMAT_LN_ptr_get_elt_at]
implement{a}
TRMAT_LN_ptr_set_elt_at
(ord, A, ld, i, j, x) =
TRMAT_ptr_set_elt_at_dummy<a> (ord, &A, ld, i, j, x)
// end of [TRMAT_LN_ptr_set_elt_at]
implement{a}
TRMAT_LU_ptr_get_elt_at
(ord, A, ld, i, j) =
TRMAT_ptr_get_elt_at_dummy<a> (ord, &A, ld, i, j)
// end of [TRMAT_LU_ptr_get_elt_at]
implement{a}
TRMAT_LU_ptr_set_elt_at
(ord, A, ld, i, j, x) =
TRMAT_ptr_set_elt_at_dummy<a> (ord, &A, ld, i, j, x)
// end of [TRMAT_LU_ptr_set_elt_at]
end // end of [local]
(* ****** ****** *)
extern
fun TRMAT_U_ptr_split2x2_tsz
{a1:viewt@ype}
{ord:order} {dg:diag} {m,i:nat | i <= m}
{ld:inc} {l0:addr} (
pf_mat: TRMAT_v (a1, m, ord, upper, dg, ld, l0)
| ord: ORDER ord, A: ptr l0, ld: size_t ld, i: size_t i, tsz: sizeof_t a1
) :<> TRMAT_U_ptr_split2x2_res_t (a1, m, i, ord, dg, ld, l0)
// end of [TRMAT_U_ptr_split2x2_tsz]
implement
TRMAT_U_ptr_split2x2_tsz
{a1} {ord} {dg} {m,i} {ld} {l0}
(pf_mat | ord, p_mat, ld, i, tsz) = let
val res = (case+ ord of
| ORDERrow () => let
val i_tmp = sz2sz (i * tsz) // no-op casting
val p_tmp = p_mat + sz2sz ((i * ld) szmul tsz)
in @(
unit_v, unit_v, unit_v, unit_p | p_mat, p_mat + i_tmp, p_tmp + i_tmp
) end // end of [ORDERrow]
| ORDERcol () => let
val i_tmp = sz2sz (i * tsz) // no-op casting
val p_tmp = p_mat + sz2sz ((i * ld) szmul tsz)
in @(
unit_v, unit_v, unit_v, unit_p | p_mat, p_tmp, p_tmp + i_tmp
) end // end of [ORDERcol]
) : (unit_v, unit_v, unit_v, unit_p | ptr, ptr, ptr)
extern castfn __cast {vt:viewt@ype}
(pf: TRMAT_v (a1, m, ord, upper, dg, ld, l0) | res: vt)
:<> TRMAT_U_ptr_split2x2_res_t (a1, m, i, ord, dg, ld, l0)
// end of [__cast]
in
__cast (pf_mat | res)
end // end of [TRMAT_U_ptr_split2x2_tsz]
implement{a1}
TRMAT_U_ptr_split2x2 (pf_mat | ord, A, ld, i) =
TRMAT_U_ptr_split2x2_tsz (pf_mat | ord, A, ld, i, sizeof<a1>)
// end of [TRMAT_U_ptr_split2x2]
(* ****** ****** *)
extern
fun TRMAT_L_ptr_split2x2_tsz
{a1:viewt@ype}
{ord:order} {dg:diag} {m,i:nat | i <= m}
{ld:inc} {l0:addr} (
pf_mat: TRMAT_v (a1, m, ord, lower, dg, ld, l0)
| ord: ORDER ord, A: ptr l0, ld: size_t ld, i: size_t i, tsz: sizeof_t a1
) :<> TRMAT_L_ptr_split2x2_res_t (a1, m, i, ord, dg, ld, l0)
// end of [TRMAT_L_ptr_split2x2_tsz]
implement
TRMAT_L_ptr_split2x2_tsz
{a1} {ord} {dg} {m,i} {ld} {l0}
(pf_mat | ord, p_mat, ld, i, tsz) = let
val res = (case ord of
| ORDERrow () => let
val i_tmp = sz2sz (i * tsz) // no-op casting
val p_tmp = p_mat + sz2sz ((i * ld) szmul tsz)
in @(
unit_v, unit_v, unit_v, unit_p | p_mat, p_tmp, p_tmp + i_tmp
) end // end of [ORDERrow]
| ORDERcol () => let
val i_tmp = sz2sz (i * tsz) // no-op casting
val p_tmp = p_mat + sz2sz ((i * ld) szmul tsz)
in @(
unit_v, unit_v, unit_v, unit_p | p_mat, p_mat + i_tmp, p_tmp + i_tmp
) end // end of [ORDERcol]
) : (unit_v, unit_v, unit_v, unit_p | ptr, ptr, ptr)
extern castfn __cast {vt:viewt@ype}
(pf: TRMAT_v (a1, m, ord, lower, dg, ld, l0) | res: vt)
:<> TRMAT_L_ptr_split2x2_res_t (a1, m, i, ord, dg, ld, l0)
// end of [__cast]
in
__cast (pf_mat | res)
end // end of [TRMAT_L_ptr_split2x2_tsz]
implement{a1}
TRMAT_L_ptr_split2x2 (pf_mat | ord, A, ld, i) =
TRMAT_L_ptr_split2x2_tsz (pf_mat | ord, A, ld, i, sizeof<a1>)
// end of [TRMAT_L_ptr_split2x2]
(* ****** ****** *)
implement{a}
TRMAT_ptr_copy
{ord} {ul} {dg} {m} {ld1,ld2}
(ord, ul, dg, M1, M2, m, ld1, ld2) = let
fn loop_UN_row (
M1: &TRMAT (a, m, row, upper, nonunit(), ld1), M2: &TRMAT (a, m, row, upper, nonunit(), ld2)
) :<cloref> void = let
val _0 = size1_of_int1 (0)
var i: size_t? // uninitialized
var j: size_t? // uninitialized
in
for* {i:nat | i <= m} .<m-i>. (i: size_t i) => (i := _0; i < m; i := i + 1) (
for* {j:nat | i <= j} .<m nsub j>. (i: size_t i, j: size_t j) => (j := i; j < m; j := j + 1)
TRMAT_UN_ptr_set_elt_at (ORDERrow, M2, ld2, i, j, TRMAT_UN_ptr_get_elt_at (ORDERrow, M1, ld1, i, j))
// end of [for]
) // end of [for]
end
fn loop_UU_row (
M1: &TRMAT (a, m, row, upper, unit(), ld1), M2: &TRMAT (a, m, row, upper, unit(), ld2)
) :<cloref> void = let
val _0 = size1_of_int1 (0)
var i: size_t? // uninitialized
var j: size_t? // uninitialized
in
for* {i:nat | i <= m} .<m-i>. (i: size_t i) => (i := _0; i < m; i := i + 1) (
for* {j:nat | i < j} .<m nsub j>. (i: size_t i, j: size_t j) => (j := i+1; j < m; j := j + 1)
TRMAT_UU_ptr_set_elt_at (ORDERrow, M2, ld2, i, j, TRMAT_UU_ptr_get_elt_at (ORDERrow, M1, ld1, i, j))
// end of [for]
) // end of [for]
end
fn loop_LN_row (
M1: &TRMAT (a, m, row, lower, nonunit, ld1), M2: &TRMAT (a, m, row, lower, nonunit, ld2)
) :<cloref> void = let
val _0 = size1_of_int1 (0)
var i: size_t? // uninitialized
var j: size_t? // uninitialized
in
for* {i:nat | i <= m} .<m-i>. (i: size_t i) => (i := _0; i < m; i := i+1) (
for* {j:nat | j <= i+1} .<i+1-j>. (i: size_t i, j: size_t j) => (j := _0; j <= i; j := j+1)
TRMAT_LN_ptr_set_elt_at (ORDERrow, M2, ld2, i, j, TRMAT_LN_ptr_get_elt_at (ORDERrow, M1, ld1, i, j))
// end of [for]
) // end of [for]
end
fn loop_LU_row (
M1: &TRMAT (a, m, row, lower, unit(), ld1), M2: &TRMAT (a, m, row, lower, unit(), ld2)
) :<cloref> void = let
val _0 = size1_of_int1 (0)
var i: size_t? // uninitialized
var j: size_t? // uninitialized
in
for* {i:nat | i <= m} .<m-i>. (i: size_t i) => (i := _0; i < m; i := i+1) (
for* {j:nat | j <= i} .<i-j>. (i: size_t i, j: size_t j) => (j := _0; j < i; j := j+1)
TRMAT_LU_ptr_set_elt_at (ORDERrow, M2, ld2, i, j, TRMAT_LU_ptr_get_elt_at (ORDERrow, M1, ld1, i, j))
// end of [for]
) // end of [for]
end
in
case+ ord of
| ORDERrow () => let
prval () = __cast (view@ M2) where {
extern prfun __cast {l:addr}
(pf: !TRMAT_v (a?, m, ord, ul, dg, ld2, l) >> TRMAT_v (a, m, ord, ul, dg, ld2, l)): void
} // end of [prval]
in
case+ ul of
| UPLOupper () => begin case+ dg of
| DIAGnonunit () => loop_UN_row (M1, M2) | DIAGunit () => loop_UU_row (M1, M2)
end // end of [UPLOupper]
| UPLOlower () => begin case+ dg of
| DIAGnonunit () => loop_LN_row (M1, M2) | DIAGunit () => loop_LU_row (M1, M2)
end // end of [UPLOlower]
end // end of [ORDERrow]
| ORDERcol () => let
prval pf1_order = TRMAT_v_trans (view@ M1)
prval TRANORDcolrow () = pf1_order
prval pf2_order = TRMAT_v_trans (view@ M2)
prval TRANORDcolrow () = pf2_order
val ul1 = (case+ ul of
| UPLOupper () => UPLOlower () | UPLOlower () => UPLOupper ()
) : UPLO (1-ul)
val () = TRMAT_ptr_copy (ORDERrow, ul1, dg, M1, M2, m, ld1, ld2)
prval pf1_order = TRMAT_v_trans (view@ M1)
prval TRANORDrowcol () = pf1_order
prval pf2_order = TRMAT_v_trans (view@ M2)
prval TRANORDrowcol () = pf2_order
in
// nothing
end // end of [ORDERcol]
end // end of [TRMAT_ptr_copy]
(*
//
// this is probably the proper way to implement [TRMAT_ptr_copy]
// but it seems too involved; the code is tested and it is kept mostly
// as an example for future reference
//
implement{a} TRMAT_ptr_copy
{ord} {ul} {dg} {m} {ld1,ld2}
(ord, ul, dg, M1, M2, m, ld1, ld2) = let
fun loop_row_upper
{mi:nat} {l1,l2:addr} .<mi>. (
pf1: !TRMAT_v (a, mi, row, upper, dg, ld1, l1)
, pf2: !TRMAT_v (a?, mi, row, upper, dg, ld2, l2)
>> TRMAT_v (a, mi, row, upper, dg, ld2, l2)
| p1: ptr l1, p2: ptr l2, mi: size_t mi
) :<cloref> void =
if mi > 0 then let
val (pf11, pf12, pf13, fpf1 | p11, p12, p13) =
TRMAT_U_ptr_split2x2<a> (pf1 | ORDERrow, p1, ld1, 1)
val (pf21, pf22, pf23, fpf2 | p21, p22, p23) =
TRMAT_U_ptr_split2x2<a?> (pf2 | ORDERrow, p2, ld2, 1)
//
stavar l21 : addr
val () = (case+
: (pf21 : TRMAT_v (a, 1, row, upper, dg, ld2, l21)) => dg of
| DIAGunit () => let
prval fpf21 = TRMAT1x1_v_takeout_unit {a?} (pf21)
prval () = pf21 := fpf21 {a} ()
in
// unit
end // end of [DIAGunit]
| DIAGnonunit () => let
prval (pf110, fpf11) = TRMAT1x1_v_takeout_nonunit {a} (pf11)
prval (pf210, fpf21) = TRMAT1x1_v_takeout_nonunit {a?} (pf21)
val () = !p21 := !p11
prval () = pf11 := fpf11 (pf110)
prval () = pf21 := fpf21 (pf210)
in
// nothing
end // end of [DIAGnonunit]
) : void
//
prval (pf12_inc, pf12, fpf12) = GEVEC_v_of_GEMAT_v_row {a} (pf12)
prval MATVECINCrowrow () = pf12_inc
prval pf12 = array_v_of_GEVEC_v {a} (pf12)
prval (pf22_inc, pf22, fpf22) = GEVEC_v_of_GEMAT_v_row {a?} (pf22)
prval MATVECINCrowrow () = pf22_inc
prval pf22 = array_v_of_GEVEC_v {a?} (pf22)
val () = array_ptr_copy_tsz {a} (!p12, !p22, mi-1, sizeof<a>)
prval pf12 = GEVEC_v_of_array_v {a} (pf12)
prval pf12 = fpf12 {a} (pf12)
prval pf22 = GEVEC_v_of_array_v {a} (pf22)
prval pf22 = fpf22 {a} (pf22)
//
val () = loop_row_upper (pf13, pf23 | p13, p23, mi-1)
//
prval () = pf1 := fpf1 {a} (pf11, pf12, pf13)
prval () = pf2 := fpf2 {a} (pf21, pf22, pf23)
in
// nothing
end else let
prval () = TRMAT_v_unnil (pf2) in pf2 := TRMAT_v_nil {a} ()
end // end of [if]
// end of [loop_row_upper_nonunit]
fun loop_row_lower
{mi:nat} {l1,l2:addr} .<mi>. (
pf1: !TRMAT_v (a, mi, row, lower, dg, ld1, l1)
, pf2: !TRMAT_v (a?, mi, row, lower, dg, ld2, l2)
>> TRMAT_v (a, mi, row, lower, dg, ld2, l2)
| p1: ptr l1, p2: ptr l2, mi: size_t mi
) :<cloref> void =
if mi > 0 then let
val (pf11, pf12, pf13, fpf1 | p11, p12, p13) =
TRMAT_L_ptr_split2x2<a> (pf1 | ORDERrow, p1, ld1, mi-1)
val (pf21, pf22, pf23, fpf2 | p21, p22, p23) =
TRMAT_L_ptr_split2x2<a?> (pf2 | ORDERrow, p2, ld2, mi-1)
//
stavar l23 : addr
val () = (case+
: (pf23 : TRMAT_v (a, 1, row, lower, dg, ld2, l23)) => dg of
| DIAGunit () => let
prval fpf23 = TRMAT1x1_v_takeout_unit {a?} (pf23)
prval () = pf23 := fpf23 {a} ()
in
// nothing
end // end of [DIAGunit]
| DIAGnonunit () => let
prval (pf130, fpf13) = TRMAT1x1_v_takeout_nonunit {a} (pf13)
prval (pf230, fpf23) = TRMAT1x1_v_takeout_nonunit {a?} (pf23)
val () = !p23 := !p13
prval () = pf13 := fpf13 (pf130)
prval () = pf23 := fpf23 (pf230)
in
// nothing
end // end of [DIAGnonunit]
) : void
//
prval (pf12_inc, pf12, fpf12) = GEVEC_v_of_GEMAT_v_row {a} (pf12)
prval MATVECINCrowrow () = pf12_inc
prval pf12 = array_v_of_GEVEC_v {a} (pf12)
prval (pf22_inc, pf22, fpf22) = GEVEC_v_of_GEMAT_v_row {a?} (pf22)
prval MATVECINCrowrow () = pf22_inc
prval pf22 = array_v_of_GEVEC_v {a?} (pf22)
val () = array_ptr_copy_tsz {a} (!p12, !p22, mi-1, sizeof<a>)
prval pf12 = GEVEC_v_of_array_v {a} (pf12)
prval pf12 = fpf12 {a} (pf12)
prval pf22 = GEVEC_v_of_array_v {a} (pf22)
prval pf22 = fpf22 {a} (pf22)
//
val () = loop_row_lower (pf11, pf21 | p11, p21, mi-1)
//
prval () = pf1 := fpf1 {a} (pf11, pf12, pf13)
prval () = pf2 := fpf2 {a} (pf21, pf22, pf23)
in
// nothing
end else let
prval () = TRMAT_v_unnil (pf2) in pf2 := TRMAT_v_nil {a} ()
end // end of [if]
// end of [loop_row_upper_nonunit]
in
case+ ord of
| ORDERrow () => begin case+ ul of
| UPLOupper () =>
loop_row_upper (view@ M1, view@ M2 | &M1, &M2, m)
// end of [UPLOupper]
| UPLOlower () =>
loop_row_lower (view@ M1, view@ M2 | &M1, &M2, m)
// end of [UPLOlower]
end // end of [ORDERrow]
| ORDERcol () => let
prval pf1_order = TRMAT_v_trans (view@ M1)
prval TRANORDcolrow () = pf1_order
prval pf2_order = TRMAT_v_trans (view@ M2)
prval TRANORDcolrow () = pf2_order
in
case+ ul of
| UPLOupper () => let
val () = loop_row_lower (view@ M1, view@ M2 | &M1, &M2, m)
prval pf1_order = TRMAT_v_trans (view@ M1)
prval TRANORDrowcol () = pf1_order
prval pf2_order = TRMAT_v_trans (view@ M2)
prval TRANORDrowcol () = pf2_order
in
// nothing
end // end of [UPLOupper]
| UPLOlower () => let
val () = loop_row_upper (view@ M1, view@ M2 | &M1, &M2, m)
prval pf1_order = TRMAT_v_trans (view@ M1)
prval TRANORDrowcol () = pf1_order
prval pf2_order = TRMAT_v_trans (view@ M2)
prval TRANORDrowcol () = pf2_order
in
// nothing
end
end // end of [ORDERcol]
end // end of [TRMAT_ptr_copy]
*)
(* ****** ****** *)
(* end of [genarrays.dats] *)
|