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Clean up (array-for-each-cell)

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* libguile/array-map.c (array-for-each-cell,
  array-for-each-cell-in-order): Moved from libguile/arrays.c. Fix
  argument names. Complete docstring.

* libguile/array-map.h (array-for-each-cell,
  array-for-each-cell-in-order): Declarations moved from
  libguile/arrays.h.

* test-suite/tests/array-map.test: Renamed from
  test-suite/tests/ramap.test, fix module name.

  Add tests for (array-for-each-cell).

* test-suite/Makefile.am: Apply rename array-map.test -> ramap.test.

* doc/ref/api-compound.texi: Minor documentation fixes.
This commit is contained in:
Daniel Llorens 2016-04-01 12:46:37 +02:00
parent 2ce48a3f46
commit f6003e8881
7 changed files with 283 additions and 253 deletions
Download patch file Download diff file Expand all files Collapse all files

34
doc/ref/api-compound.texi
View file

@ -1795,14 +1795,12 @@ of @var{idxlist} is shorter than @math{n}, then return the shared
For example:
@example
@lisp
(array-from #2((a b) (c d)) 0) @result{} #(a b)
(array-from #2((a b) (c d)) 1) @result{} #(c d)
(array-from #2((a b) (c d)) 1 1) @result{} d
(array-from #2((a b) (c d))) @result{} #2((a b) (c d))
@end lisp
@end example
@code{(apply array-from array indices)} is equivalent to
@ -1827,7 +1825,6 @@ write into.
Compare:
@example
@lisp
(array-from #2((a b) (c d)) 1 1) @result{} d
(array-from* #2((a b) (c d)) 1) @result{} #0(d)
@ -1836,7 +1833,6 @@ Compare:
a @result{} #2((a a) (a b)).
(array-fill! (array-from a 1 1) 'b) @result{} error: not an array
@end lisp
@end example
@code{(apply array-from* array indices)} is equivalent to
@ -1863,12 +1859,19 @@ This function returns the modified @var{array}.
For example:
@example
@lisp
(array-amend! (make-array 'a 2 2) b 1 1) @result{} #2((a a) (a b))
(array-amend! (make-array 'a 2 2) #(x y) 1) @result{} #2((a a) (x y))
@end lisp
@end example
Note that @code{array-amend!} will expect elements, not arrays, when the
destination has rank 0. One can work around this using
@code{array-from*} instead.
@lisp
(array-amend! (make-array 'a 2 2) #0(b) 1 1) @result{} #2((a a) (a #0(b)))
(let ((a (make-array 'a 2 2))) (array-copy! #0(b) (array-from* a 1 1)) a) @result{} #2((a a) (a b))
@end lisp
@code{(apply array-amend! array x indices)} is equivalent to
@ -1886,10 +1889,10 @@ The name `amend' comes from the J language.
@deffn {Scheme Procedure} array-for-each-cell frame-rank op x @dots{}
@deffnx {C Function} scm_array_for_each_cell (array, frame_rank, op, xlist)
Each @var{x} must be an array of rank @math{n_x} ≥ @var{frame-rank}, and
Each @var{x} must be an array of rank ≥ @var{frame-rank}, and
the first @var{frame-rank} dimensions of each @var{x} must all be the
same. @var{array-for-each-cell} calls @var{op} with each set of
(@math{n_x} - @var{frame-rank})-cells from @var{x}, in unspecified order.
(rank(@var{x}) - @var{frame-rank})-cells from @var{x}, in unspecified order.
@var{array-for-each-cell} allows you to loop over cells of any rank
without having to carry an index list or construct slices manually. The
@ -1898,26 +1901,20 @@ to write to them.
This function returns an unspecified value.
For example:
For example, to sort the rows of rank-2 array @code{a}:
@example
Sort the rows of rank-2 array @code{a}:
@lisp
(array-for-each-cell 1 (lambda (x) (sort! x <)) a)
@end lisp
@end example
@example
Let @code{a} be a rank-2 array where each row is a 2-vector @math{x,
y}. Compute the norms of these vectors and store them in rank-1 array
@code{b}:
As another example, let @code{a} be a rank-2 array where each row is a 2-vector @math{(x,y)}.
Let's compute the arguments of these vectors and store them in rank-1 array @code{b}.
@lisp
(array-for-each-cell 1
(lambda (a b)
(array-set! b (hypot (array-ref a 0) (array-ref a 1))))
(array-set! b (atan (array-ref a 1) (array-ref a 0))))
a b)
@end lisp
@end example
@code{(apply array-for-each-cell frame-rank op x)} is functionally
equivalent to
@ -1933,7 +1930,6 @@ equivalent to
(lambda i (apply op (map (lambda (x) (apply array-from* x i)) x)))))
@end lisp
The name `amend' comes from the J language.
@end deffn

244
libguile/array-map.c
View file

@ -42,6 +42,8 @@
#include "libguile/validate.h"
#include "libguile/array-map.h"
#include <assert.h>
/* The WHAT argument for `scm_gc_malloc ()' et al. */
@ -624,7 +626,8 @@ SCM_DEFINE (scm_i_array_equal_p, "array-equal?", 0, 2, 1,
return SCM_BOOL_T;
while (!scm_is_null (rest))
{ if (scm_is_false (scm_array_equal_p (ra0, ra1)))
{
if (scm_is_false (scm_array_equal_p (ra0, ra1)))
return SCM_BOOL_F;
ra0 = ra1;
ra1 = scm_car (rest);
@ -635,6 +638,244 @@ SCM_DEFINE (scm_i_array_equal_p, "array-equal?", 0, 2, 1,
#undef FUNC_NAME
// Copy array descriptor with different base.
SCM
scm_i_array_rebase (SCM a, size_t base)
{
size_t ndim = SCM_I_ARRAY_NDIM (a);
SCM b = scm_words (((scm_t_bits) ndim << 17) + scm_tc7_array, 3 + ndim*3);
SCM_I_ARRAY_SET_V (b, SCM_I_ARRAY_V (a));
// FIXME do check base
SCM_I_ARRAY_SET_BASE (b, base);
memcpy (SCM_I_ARRAY_DIMS (b), SCM_I_ARRAY_DIMS (a), sizeof (scm_t_array_dim)*ndim);
return b;
}
SCM_DEFINE (scm_array_for_each_cell, "array-for-each-cell", 2, 0, 1,
(SCM frame_rank, SCM op, SCM args),
"Apply @var{op} to each of the cells of rank rank(@var{arg})-@var{frame_rank}\n"
"of the arrays @var{args}, in unspecified order. The first\n"
"@var{frame_rank} dimensions of each @var{arg} must match.\n"
"Rank-0 cells are passed as rank-0 arrays.\n\n"
"The value returned is unspecified.\n\n"
"For example:\n"
"@lisp\n"
";; Sort the rows of rank-2 array A.\n\n"
"(array-for-each-cell 1 (lambda (x) (sort! x <)) a)\n"
"\n"
";; Compute the arguments of the (x y) vectors in the rows of rank-2\n"
";; array XYS and store them in rank-1 array ANGLES. Inside OP,\n"
";; XY is a rank-1 (2-1) array, and ANGLE is a rank-0 (1-1) array.\n\n"
"(array-for-each-cell 1 \n"
" (lambda (xy angle)\n"
" (array-set! angle (atan (array-ref xy 1) (array-ref xy 0))))\n"
" xys angles)\n"
"@end lisp")
#define FUNC_NAME s_scm_array_for_each_cell
{
int const N = scm_ilength (args);
int const frank = scm_to_int (frame_rank);
// wish C had better stack support
size_t stack_size = 0;
stack_size += N*sizeof (scm_t_array_handle);
stack_size += N*sizeof (SCM);
stack_size += N*sizeof (scm_t_array_dim *);
stack_size += N*sizeof (int);
stack_size += frank*sizeof (ssize_t);
stack_size += N*sizeof (SCM);
stack_size += N*sizeof (SCM *);
stack_size += frank*sizeof (ssize_t);
stack_size += frank*sizeof (int);
stack_size += N*sizeof (size_t);
char * stack = scm_gc_malloc_pointerless (stack_size, "stack");
#define AFIC_ALLOC_ADVANCE(stack, count, type, name) \
type * name = (void *)stack; \
stack += count*sizeof (type);
char * stack0 = stack;
AFIC_ALLOC_ADVANCE (stack, N, scm_t_array_handle, ah);
AFIC_ALLOC_ADVANCE (stack, N, SCM, args_);
AFIC_ALLOC_ADVANCE (stack, N, scm_t_array_dim *, as);
AFIC_ALLOC_ADVANCE (stack, N, int, rank);
AFIC_ALLOC_ADVANCE (stack, frank, ssize_t, s);
AFIC_ALLOC_ADVANCE (stack, N, SCM, ai);
AFIC_ALLOC_ADVANCE (stack, N, SCM *, dargs);
AFIC_ALLOC_ADVANCE (stack, frank, ssize_t, i);
AFIC_ALLOC_ADVANCE (stack, frank, int, order);
AFIC_ALLOC_ADVANCE(stack, N, size_t, base);
assert((stack0+stack_size==stack) && "internal error");
#undef AFIC_ALLOC_ADVANCE
for (int n=0; scm_is_pair(args); args=scm_cdr(args), ++n)
{
args_[n] = scm_car(args);
scm_array_get_handle(args_[n], ah+n);
as[n] = scm_array_handle_dims(ah+n);
rank[n] = scm_array_handle_rank(ah+n);
}
// checks.
char const * msg = NULL;
if (frank<0)
{
msg = "bad frame rank";
} else
{
for (int n=0; n!=N; ++n) {
if (rank[n]<frank) {
msg = "frame too large for arguments";
goto check_msg;
}
for (int k=0; k!=frank; ++k) {
if (as[n][k].lbnd!=0) {
msg = "non-zero base index is not supported";
goto check_msg;
}
if (as[0][k].ubnd!=as[n][k].ubnd) {
msg = "mismatched frames";
goto check_msg;
}
s[k] = as[n][k].ubnd + 1;
}
}
}
check_msg: ;
if (msg!=NULL)
{
for (int n=0; n!=N; ++n) {
scm_array_handle_release(ah+n);
}
scm_misc_error("array-for-each-cell", msg, scm_cons_star(frame_rank, args));
}
// prepare moving cells.
scm_t_array_dim * ais[N];
for (int n=0; n!=N; ++n)
{
ai[n] = scm_i_make_array(rank[n]-frank);
SCM_I_ARRAY_SET_V (ai[n], scm_shared_array_root(args_[n]));
// FIXME scm_array_handle_base (ah+n) should be in Guile
SCM_I_ARRAY_SET_BASE (ai[n], ah[n].base);
ais[n] = SCM_I_ARRAY_DIMS(ai[n]);
for (int k=frank; k!=rank[n]; ++k) {
ais[n][k-frank] = as[n][k];
}
}
// prepare rest list for callee.
SCM dargs_ = SCM_EOL;
{
SCM *p = &dargs_;
for (int n=0; n<N; ++n) {
*p = scm_cons (SCM_UNSPECIFIED, SCM_EOL);
dargs[n] = SCM_CARLOC (*p);
p = SCM_CDRLOC (*p);
}
}
// special case for rank 0.
if (frank==0)
{
for (int n=0; n<N; ++n)
{
*dargs[n] = ai[n];
}
scm_apply_0(op, dargs_);
for (int n=0; n<N; ++n)
{
scm_array_handle_release(ah+n);
}
return SCM_UNSPECIFIED;
}
// FIXME determine best looping order.
for (int k=0; k!=frank; ++k)
{
i[k] = 0;
order[k] = frank-1-k;
}
// find outermost compact dim.
ssize_t step = s[order[0]];
int ocd = 1;
for (; ocd<frank; step *= s[order[ocd]], ++ocd)
{
for (int n=0; n!=N; ++n) {
if (step*as[n][order[0]].inc!=as[n][order[ocd]].inc) {
goto ocd_reached;
}
}
}
ocd_reached: ;
// rank loop.
for (int n=0; n!=N; ++n)
{
base[n] = SCM_I_ARRAY_BASE(ai[n]);
}
for (;;)
{
for (ssize_t z=0; z!=step; ++z)
{
// we are forced to create fresh array descriptors for each
// call since we don't know whether the callee will keep them,
// and Guile offers no way to copy the descriptor (since
// descriptors are immutable). Yet another reason why this
// should be in Scheme.
for (int n=0; n<N; ++n)
{
*dargs[n] = scm_i_array_rebase(ai[n], base[n]);
base[n] += as[n][order[0]].inc;
}
scm_apply_0(op, dargs_);
}
for (int n=0; n<N; ++n)
{
base[n] -= step*as[n][order[0]].inc;
}
for (int k=ocd; ; ++k)
{
if (k==frank)
{
goto end;
} else if (i[order[k]]<s[order[k]]-1)
{
++i[order[k]];
for (int n=0; n<N; ++n)
{
base[n] += as[n][order[k]].inc;
}
break;
} else {
i[order[k]] = 0;
for (int n=0; n<N; ++n)
{
base[n] += as[n][order[k]].inc*(1-s[order[k]]);
}
}
}
}
end:;
for (int n=0; n<N; ++n)
{
scm_array_handle_release(ah+n);
}
return SCM_UNSPECIFIED;
}
#undef FUNC_NAME
SCM_DEFINE (scm_array_for_each_cell_in_order, "array-for-each-cell-in-order", 2, 0, 1,
(SCM frank, SCM op, SCM a),
"Same as array-for-each-cell, but visit the cells sequentially\n"
"and in row-major order.\n")
#define FUNC_NAME s_scm_array_for_each_cell_in_order
{
return scm_array_for_each_cell (frank, op, a);
}
#undef FUNC_NAME
void
scm_init_array_map (void)
{
@ -642,6 +883,7 @@ scm_init_array_map (void)
scm_add_feature (s_scm_array_for_each);
}
/*
Local Variables:
c-file-style: "gnu"

3
libguile/array-map.h
View file

@ -37,6 +37,9 @@ SCM_API SCM scm_array_map_x (SCM ra0, SCM proc, SCM lra);
SCM_API SCM scm_array_for_each (SCM proc, SCM ra0, SCM lra);
SCM_API SCM scm_array_index_map_x (SCM ra, SCM proc);
SCM_API SCM scm_array_equal_p (SCM ra0, SCM ra1);
SCM_API SCM scm_array_for_each_cell (SCM frank, SCM op, SCM args);
SCM_API SCM scm_array_for_each_cell_in_order (SCM frank, SCM op, SCM args);
SCM_INTERNAL void scm_init_array_map (void);
#endif /* SCM_ARRAY_MAP_H */

228
libguile/arrays.c
View file

@ -28,7 +28,6 @@
#include <stdio.h>
#include <errno.h>
#include <string.h>
#include <assert.h>
#include "verify.h"
@ -568,233 +567,6 @@ SCM_DEFINE (scm_array_amend_x, "array-amend!", 2, 0, 1,
#undef ARRAY_FROM_GET_O
// Copy array descriptor with different base.
SCM
scm_i_array_rebase (SCM a, size_t base)
{
size_t ndim = SCM_I_ARRAY_NDIM(a);
SCM b = scm_words (((scm_t_bits) ndim << 17) + scm_tc7_array, 3 + ndim*3);
SCM_I_ARRAY_SET_V (b, SCM_I_ARRAY_V (a));
// FIXME do check base
SCM_I_ARRAY_SET_BASE (b, base);
memcpy(SCM_I_ARRAY_DIMS(b), SCM_I_ARRAY_DIMS(a), sizeof(scm_t_array_dim)*ndim);
return b;
}
SCM_DEFINE (scm_array_for_each_cell, "array-for-each-cell", 2, 0, 1,
(SCM frank_, SCM op, SCM a_),
"Apply op to each of the rank (-frank) cells of the arguments,\n"
"in unspecified order. The first frank dimensions of the\n"
"arguments must match. Rank-0 cells are passed as such.\n\n"
"The value returned is unspecified.\n\n"
"For example:\n"
"@lisp\n"
"@end lisp")
#define FUNC_NAME s_scm_array_for_each_cell
{
int const N = scm_ilength (a_);
int const frank = scm_to_int (frank_);
// wish C had better stack support
size_t stack_size = 0;
stack_size += N*sizeof (scm_t_array_handle);
stack_size += N*sizeof (SCM);
stack_size += N*sizeof (scm_t_array_dim *);
stack_size += N*sizeof (int);
stack_size += frank*sizeof (ssize_t);
stack_size += N*sizeof (SCM);
stack_size += N*sizeof (SCM *);
stack_size += frank*sizeof (ssize_t);
stack_size += frank*sizeof (int);
stack_size += N*sizeof(size_t);
char * stack = scm_gc_malloc_pointerless (stack_size, "stack");
#define AFIC_ALLOC_ADVANCE(stack, count, type, name) \
type * name = (void *)stack; \
stack += count*sizeof(type);
char * stack0 = stack;
AFIC_ALLOC_ADVANCE (stack, N, scm_t_array_handle, ah);
AFIC_ALLOC_ADVANCE (stack, N, SCM, a);
AFIC_ALLOC_ADVANCE (stack, N, scm_t_array_dim *, as);
AFIC_ALLOC_ADVANCE (stack, N, int, rank);
AFIC_ALLOC_ADVANCE (stack, frank, ssize_t, s);
AFIC_ALLOC_ADVANCE (stack, N, SCM, ai);
AFIC_ALLOC_ADVANCE (stack, N, SCM *, dargs);
AFIC_ALLOC_ADVANCE (stack, frank, ssize_t, i);
AFIC_ALLOC_ADVANCE (stack, frank, int, order);
AFIC_ALLOC_ADVANCE(stack, N, size_t, base);
assert((stack0+stack_size==stack) && "internal error");
#undef AFIC_ALLOC_ADVANCE
for (int n=0; scm_is_pair(a_); a_=scm_cdr(a_), ++n)
{
a[n] = scm_car(a_);
scm_array_get_handle(a[n], ah+n);
as[n] = scm_array_handle_dims(ah+n);
rank[n] = scm_array_handle_rank(ah+n);
}
// checks.
char const * msg = NULL;
if (frank<0)
{
msg = "bad frame rank";
} else
{
for (int n=0; n!=N; ++n) {
if (rank[n]<frank) {
msg = "frame too large for arguments";
goto check_msg;
}
for (int k=0; k!=frank; ++k) {
if (as[n][k].lbnd!=0) {
msg = "non-zero base index is not supported";
goto check_msg;
}
if (as[0][k].ubnd!=as[n][k].ubnd) {
msg = "mismatched frames";
goto check_msg;
}
s[k] = as[n][k].ubnd + 1;
}
}
}
check_msg: ;
if (msg!=NULL)
{
for (int n=0; n!=N; ++n) {
scm_array_handle_release(ah+n);
}
scm_misc_error("array-for-each-cell", msg, scm_cons_star(frank_, a_));
}
// prepare moving cells.
scm_t_array_dim * ais[N];
for (int n=0; n!=N; ++n)
{
ai[n] = scm_i_make_array(rank[n]-frank);
SCM_I_ARRAY_SET_V (ai[n], scm_shared_array_root(a[n]));
// FIXME scm_array_handle_base (ah+n) should be in Guile
SCM_I_ARRAY_SET_BASE (ai[n], ah[n].base);
ais[n] = SCM_I_ARRAY_DIMS(ai[n]);
for (int k=frank; k!=rank[n]; ++k) {
ais[n][k-frank] = as[n][k];
}
}
// prepare rest list for callee.
SCM dargs_ = SCM_EOL;
{
SCM *p = &dargs_;
for (int n=0; n<N; ++n) {
*p = scm_cons (SCM_UNSPECIFIED, SCM_EOL);
dargs[n] = SCM_CARLOC (*p);
p = SCM_CDRLOC (*p);
}
}
// special case for rank 0.
if (frank==0)
{
for (int n=0; n<N; ++n)
{
*dargs[n] = ai[n];
}
scm_apply_0(op, dargs_);
for (int n=0; n<N; ++n)
{
scm_array_handle_release(ah+n);
}
return SCM_UNSPECIFIED;
}
// FIXME determine best looping order.
for (int k=0; k!=frank; ++k)
{
i[k] = 0;
order[k] = frank-1-k;
}
// find outermost compact dim.
ssize_t step = s[order[0]];
int ocd = 1;
for (; ocd<frank; step *= s[order[ocd]], ++ocd)
{
for (int n=0; n!=N; ++n) {
if (step*as[n][order[0]].inc!=as[n][order[ocd]].inc) {
goto ocd_reached;
}
}
}
ocd_reached: ;
// rank loop.
for (int n=0; n!=N; ++n)
{
base[n] = SCM_I_ARRAY_BASE(ai[n]);
}
for (;;)
{
for (ssize_t z=0; z!=step; ++z)
{
// we are forced to create fresh array descriptors for each
// call since we don't know whether the callee will keep them,
// and Guile offers no way to copy the descriptor (since
// descriptors are immutable). Yet another reason why this
// should be in Scheme.
for (int n=0; n<N; ++n)
{
*dargs[n] = scm_i_array_rebase(ai[n], base[n]);
base[n] += as[n][order[0]].inc;
}
scm_apply_0(op, dargs_);
}
for (int n=0; n<N; ++n)
{
base[n] -= step*as[n][order[0]].inc;
}
for (int k=ocd; ; ++k)
{
if (k==frank)
{
goto end;
} else if (i[order[k]]<s[order[k]]-1)
{
++i[order[k]];
for (int n=0; n<N; ++n)
{
base[n] += as[n][order[k]].inc;
}
break;
} else {
i[order[k]] = 0;
for (int n=0; n<N; ++n)
{
base[n] += as[n][order[k]].inc*(1-s[order[k]]);
}
}
}
}
end:;
for (int n=0; n<N; ++n)
{
scm_array_handle_release(ah+n);
}
return SCM_UNSPECIFIED;
}
#undef FUNC_NAME
SCM_DEFINE (scm_array_for_each_cell_in_order, "array-for-each-cell-in-order", 2, 0, 1,
(SCM frank_, SCM op, SCM a_),
"Same as array-for-each-cell, but visit the cells sequentially\n"
"and in row-major order.\n")
#define FUNC_NAME s_scm_array_for_each_cell_in_order
{
return scm_array_for_each_cell (frank_, op, a_);
}
#undef FUNC_NAME
/* args are RA . DIMS */
SCM_DEFINE (scm_transpose_array, "transpose-array", 1, 0, 1,
(SCM ra, SCM args),

2
libguile/arrays.h
View file

@ -52,8 +52,6 @@ SCM_API SCM scm_array_contents (SCM ra, SCM strict);
SCM_API SCM scm_array_from_s (SCM ra, SCM indices);
SCM_API SCM scm_array_from (SCM ra, SCM indices);
SCM_API SCM scm_array_amend_x (SCM ra, SCM b, SCM indices);
SCM_API SCM scm_array_for_each_cell (SCM frank, SCM op, SCM args);
SCM_API SCM scm_array_for_each_cell_in_order (SCM frank, SCM op, SCM args);
SCM_API SCM scm_list_to_array (SCM ndim, SCM lst);
SCM_API SCM scm_list_to_typed_array (SCM type, SCM ndim, SCM lst);

2
test-suite/Makefile.am
View file

@ -115,7 +115,7 @@ SCM_TESTS = tests/00-initial-env.test \
tests/r6rs-records-syntactic.test \
tests/r6rs-unicode.test \
tests/rnrs-libraries.test \
tests/ramap.test \
tests/array-map.test \
tests/random.test \
tests/rdelim.test \
tests/reader.test \

23
test-suite/tests/ramap.test → test-suite/tests/array-map.test
View file

@ -1,4 +1,4 @@
;;;; ramap.test --- test array mapping functions -*- scheme -*-
;;;; array-map.test --- test array mapping functions -*- scheme -*-
;;;;
;;;; Copyright (C) 2004, 2005, 2006, 2009, 2013 Free Software Foundation, Inc.
;;;;
@ -16,7 +16,7 @@
;;;; License along with this library; if not, write to the Free Software
;;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
(define-module (test-suite test-ramap)
(define-module (test-suite test-array-map)
#:use-module (test-suite lib))
(define exception:shape-mismatch
@ -507,3 +507,22 @@
(b (make-typed-array 'f64 0 0 2))
(c (make-typed-array 'f64 0 2 0)))
(array-for-each (lambda (b c) (set! a (cons* b c a))) b c)))))
;;;
;;; array-for-each-cell
;;;
(with-test-prefix "array-for-each-cell"
(pass-if-equal "1 argument frame rank 1"
#2((1 3 9) (2 7 8))
(let* ((a (list->array 2 '((9 1 3) (7 8 2)))))
(array-for-each-cell 1 (lambda (a) (sort! a <)) a)
a))
(pass-if-equal "2 arguments frame rank 1"
#f64(8 -1)
(let* ((x (list->typed-array 'f64 2 '((9 1) (7 8))))
(y (f64vector 99 99)))
(array-for-each-cell 1 (lambda (y x) (array-set! y (- (array-ref x 0) (array-ref x 1)))) y x)
y)))