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llvm-project/polly/lib/External/isl/isl_test.c

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Import isl(+imath) as an external library into Polly With this patch Polly is always GPL-free (no dependency on GMP any more). As a result, building and distributing Polly will be easier. Furthermore, there is no need to tightly coordinate isl and Polly releases anymore. We import isl b3e0fa7a05d as well as imath 4d707e5ef2. These are the git versions Polly currently was tested with when using utils/checkout_isl.sh. The imported libraries are both MIT-style licensed. We build isl and imath with -fvisibility=hidden to avoid clashes in case other projects (such as gcc) use conflicting versions of isl. The use of imath can temporarily reduce compile-time performance of Polly. We will work on performance tuning in tree. Patches to isl should be contributed first to the main isl repository and can then later be reimported to Polly. This patch is also a prerequisite for the upcoming isl C++ interface. llvm-svn: 228193
2015-02-05 04:55:43 +08:00
/*
* Copyright 2008-2009 Katholieke Universiteit Leuven
* Copyright 2010 INRIA Saclay
* Copyright 2012-2013 Ecole Normale Superieure
* Copyright 2014 INRIA Rocquencourt
*
* Use of this software is governed by the MIT license
*
* Written by Sven Verdoolaege, K.U.Leuven, Departement
* Computerwetenschappen, Celestijnenlaan 200A, B-3001 Leuven, Belgium
* and INRIA Saclay - Ile-de-France, Parc Club Orsay Universite,
* ZAC des vignes, 4 rue Jacques Monod, 91893 Orsay, France
* and Ecole Normale Superieure, 45 rue dUlm, 75230 Paris, France
* and Inria Paris - Rocquencourt, Domaine de Voluceau - Rocquencourt,
* B.P. 105 - 78153 Le Chesnay, France
*/
#include <assert.h>
#include <stdio.h>
#include <limits.h>
#include <isl_ctx_private.h>
#include <isl_map_private.h>
#include <isl_aff_private.h>
#include <isl/set.h>
#include <isl/flow.h>
#include <isl_constraint_private.h>
#include <isl/polynomial.h>
#include <isl/union_map.h>
#include <isl_factorization.h>
#include <isl/schedule.h>
#include <isl_options_private.h>
#include <isl/vertices.h>
#include <isl/ast_build.h>
#include <isl/val.h>
#include <isl/ilp.h>
#include <isl_ast_build_expr.h>
#include <isl/options.h>
#define ARRAY_SIZE(array) (sizeof(array)/sizeof(*array))
static char *srcdir;
static char *get_filename(isl_ctx *ctx, const char *name, const char *suffix) {
char *filename;
int length;
char *pattern = "%s/test_inputs/%s.%s";
length = strlen(pattern) - 6 + strlen(srcdir) + strlen(name)
+ strlen(suffix) + 1;
filename = isl_alloc_array(ctx, char, length);
if (!filename)
return NULL;
sprintf(filename, pattern, srcdir, name, suffix);
return filename;
}
void test_parse_map(isl_ctx *ctx, const char *str)
{
isl_map *map;
map = isl_map_read_from_str(ctx, str);
assert(map);
isl_map_free(map);
}
int test_parse_map_equal(isl_ctx *ctx, const char *str, const char *str2)
{
isl_map *map, *map2;
int equal;
map = isl_map_read_from_str(ctx, str);
map2 = isl_map_read_from_str(ctx, str2);
equal = isl_map_is_equal(map, map2);
isl_map_free(map);
isl_map_free(map2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "maps not equal",
return -1);
return 0;
}
void test_parse_pwqp(isl_ctx *ctx, const char *str)
{
isl_pw_qpolynomial *pwqp;
pwqp = isl_pw_qpolynomial_read_from_str(ctx, str);
assert(pwqp);
isl_pw_qpolynomial_free(pwqp);
}
static void test_parse_pwaff(isl_ctx *ctx, const char *str)
{
isl_pw_aff *pwaff;
pwaff = isl_pw_aff_read_from_str(ctx, str);
assert(pwaff);
isl_pw_aff_free(pwaff);
}
int test_parse(struct isl_ctx *ctx)
{
isl_map *map, *map2;
const char *str, *str2;
str = "{ [i] -> [-i] }";
map = isl_map_read_from_str(ctx, str);
assert(map);
isl_map_free(map);
str = "{ A[i] -> L[([i/3])] }";
map = isl_map_read_from_str(ctx, str);
assert(map);
isl_map_free(map);
test_parse_map(ctx, "{[[s] -> A[i]] -> [[s+1] -> A[i]]}");
test_parse_map(ctx, "{ [p1, y1, y2] -> [2, y1, y2] : "
"p1 = 1 && (y1 <= y2 || y2 = 0) }");
str = "{ [x,y] : [([x/2]+y)/3] >= 1 }";
str2 = "{ [x, y] : 2y >= 6 - x }";
if (test_parse_map_equal(ctx, str, str2) < 0)
return -1;
if (test_parse_map_equal(ctx, "{ [x,y] : x <= min(y, 2*y+3) }",
"{ [x,y] : x <= y, 2*y + 3 }") < 0)
return -1;
str = "{ [x, y] : (y <= x and y >= -3) or (2y <= -3 + x and y <= -4) }";
if (test_parse_map_equal(ctx, "{ [x,y] : x >= min(y, 2*y+3) }",
str) < 0)
return -1;
str = "{[new,old] -> [new+1-2*[(new+1)/2],old+1-2*[(old+1)/2]]}";
map = isl_map_read_from_str(ctx, str);
str = "{ [new, old] -> [o0, o1] : "
"exists (e0 = [(-1 - new + o0)/2], e1 = [(-1 - old + o1)/2]: "
"2e0 = -1 - new + o0 and 2e1 = -1 - old + o1 and o0 >= 0 and "
"o0 <= 1 and o1 >= 0 and o1 <= 1) }";
map2 = isl_map_read_from_str(ctx, str);
assert(isl_map_is_equal(map, map2));
isl_map_free(map);
isl_map_free(map2);
str = "{[new,old] -> [new+1-2*[(new+1)/2],old+1-2*[(old+1)/2]]}";
map = isl_map_read_from_str(ctx, str);
str = "{[new,old] -> [(new+1)%2,(old+1)%2]}";
map2 = isl_map_read_from_str(ctx, str);
assert(isl_map_is_equal(map, map2));
isl_map_free(map);
isl_map_free(map2);
str = "[n] -> { [c1] : c1>=0 and c1<=floord(n-4,3) }";
str2 = "[n] -> { [c1] : c1 >= 0 and 3c1 <= -4 + n }";
if (test_parse_map_equal(ctx, str, str2) < 0)
return -1;
str = "{ [i,j] -> [i] : i < j; [i,j] -> [j] : j <= i }";
str2 = "{ [i,j] -> [min(i,j)] }";
if (test_parse_map_equal(ctx, str, str2) < 0)
return -1;
str = "{ [i,j] : i != j }";
str2 = "{ [i,j] : i < j or i > j }";
if (test_parse_map_equal(ctx, str, str2) < 0)
return -1;
str = "{ [i,j] : (i+1)*2 >= j }";
str2 = "{ [i, j] : j <= 2 + 2i }";
if (test_parse_map_equal(ctx, str, str2) < 0)
return -1;
str = "{ [i] -> [i > 0 ? 4 : 5] }";
str2 = "{ [i] -> [5] : i <= 0; [i] -> [4] : i >= 1 }";
if (test_parse_map_equal(ctx, str, str2) < 0)
return -1;
str = "[N=2,M] -> { [i=[(M+N)/4]] }";
str2 = "[N, M] -> { [i] : N = 2 and 4i <= 2 + M and 4i >= -1 + M }";
if (test_parse_map_equal(ctx, str, str2) < 0)
return -1;
str = "{ [x] : x >= 0 }";
str2 = "{ [x] : x-0 >= 0 }";
if (test_parse_map_equal(ctx, str, str2) < 0)
return -1;
str = "{ [i] : ((i > 10)) }";
str2 = "{ [i] : i >= 11 }";
if (test_parse_map_equal(ctx, str, str2) < 0)
return -1;
str = "{ [i] -> [0] }";
str2 = "{ [i] -> [0 * i] }";
if (test_parse_map_equal(ctx, str, str2) < 0)
return -1;
test_parse_pwqp(ctx, "{ [i] -> i + [ (i + [i/3])/2 ] }");
test_parse_map(ctx, "{ S1[i] -> [([i/10]),i%10] : 0 <= i <= 45 }");
test_parse_pwaff(ctx, "{ [i] -> [i + 1] : i > 0; [a] -> [a] : a < 0 }");
test_parse_pwqp(ctx, "{ [x] -> ([(x)/2] * [(x)/3]) }");
if (test_parse_map_equal(ctx, "{ [a] -> [b] : (not false) }",
"{ [a] -> [b] : true }") < 0)
return -1;
if (test_parse_map_equal(ctx, "{ [i] : i/2 <= 5 }",
"{ [i] : i <= 10 }") < 0)
return -1;
if (test_parse_map_equal(ctx, "{Sym=[n] [i] : i <= n }",
"[n] -> { [i] : i <= n }") < 0)
return -1;
if (test_parse_map_equal(ctx, "{ [*] }", "{ [a] }") < 0)
return -1;
if (test_parse_map_equal(ctx, "{ [i] : 2*floor(i/2) = i }",
"{ [i] : exists a : i = 2 a }") < 0)
return -1;
if (test_parse_map_equal(ctx, "{ [a] -> [b] : a = 5 implies b = 5 }",
"{ [a] -> [b] : a != 5 or b = 5 }") < 0)
return -1;
if (test_parse_map_equal(ctx, "{ [a] -> [a - 1 : a > 0] }",
"{ [a] -> [a - 1] : a > 0 }") < 0)
return -1;
if (test_parse_map_equal(ctx,
"{ [a] -> [a - 1 : a > 0; a : a <= 0] }",
"{ [a] -> [a - 1] : a > 0; [a] -> [a] : a <= 0 }") < 0)
return -1;
if (test_parse_map_equal(ctx,
"{ [a] -> [(a) * 2 : a >= 0; 0 : a < 0] }",
"{ [a] -> [2a] : a >= 0; [a] -> [0] : a < 0 }") < 0)
return -1;
if (test_parse_map_equal(ctx,
"{ [a] -> [(a * 2) : a >= 0; 0 : a < 0] }",
"{ [a] -> [2a] : a >= 0; [a] -> [0] : a < 0 }") < 0)
return -1;
if (test_parse_map_equal(ctx,
"{ [a] -> [(a * 2 : a >= 0); 0 : a < 0] }",
"{ [a] -> [2a] : a >= 0; [a] -> [0] : a < 0 }") < 0)
return -1;
if (test_parse_map_equal(ctx,
"{ [a] -> [(a * 2 : a >= 0; 0 : a < 0)] }",
"{ [a] -> [2a] : a >= 0; [a] -> [0] : a < 0 }") < 0)
return -1;
return 0;
}
void test_read(struct isl_ctx *ctx)
{
char *filename;
FILE *input;
struct isl_basic_set *bset1, *bset2;
const char *str = "{[y]: Exists ( alpha : 2alpha = y)}";
filename = get_filename(ctx, "set", "omega");
assert(filename);
input = fopen(filename, "r");
assert(input);
bset1 = isl_basic_set_read_from_file(ctx, input);
bset2 = isl_basic_set_read_from_str(ctx, str);
assert(isl_basic_set_is_equal(bset1, bset2) == 1);
isl_basic_set_free(bset1);
isl_basic_set_free(bset2);
free(filename);
fclose(input);
}
void test_bounded(struct isl_ctx *ctx)
{
isl_set *set;
int bounded;
set = isl_set_read_from_str(ctx, "[n] -> {[i] : 0 <= i <= n }");
bounded = isl_set_is_bounded(set);
assert(bounded);
isl_set_free(set);
set = isl_set_read_from_str(ctx, "{[n, i] : 0 <= i <= n }");
bounded = isl_set_is_bounded(set);
assert(!bounded);
isl_set_free(set);
set = isl_set_read_from_str(ctx, "[n] -> {[i] : i <= n }");
bounded = isl_set_is_bounded(set);
assert(!bounded);
isl_set_free(set);
}
/* Construct the basic set { [i] : 5 <= i <= N } */
void test_construction(struct isl_ctx *ctx)
{
isl_int v;
isl_space *dim;
isl_local_space *ls;
struct isl_basic_set *bset;
struct isl_constraint *c;
isl_int_init(v);
dim = isl_space_set_alloc(ctx, 1, 1);
bset = isl_basic_set_universe(isl_space_copy(dim));
ls = isl_local_space_from_space(dim);
c = isl_inequality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, -1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, 1);
isl_constraint_set_coefficient(c, isl_dim_param, 0, v);
bset = isl_basic_set_add_constraint(bset, c);
c = isl_inequality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, 1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, -5);
isl_constraint_set_constant(c, v);
bset = isl_basic_set_add_constraint(bset, c);
isl_local_space_free(ls);
isl_basic_set_free(bset);
isl_int_clear(v);
}
void test_dim(struct isl_ctx *ctx)
{
const char *str;
isl_map *map1, *map2;
map1 = isl_map_read_from_str(ctx,
"[n] -> { [i] -> [j] : exists (a = [i/10] : i - 10a <= n ) }");
map1 = isl_map_add_dims(map1, isl_dim_in, 1);
map2 = isl_map_read_from_str(ctx,
"[n] -> { [i,k] -> [j] : exists (a = [i/10] : i - 10a <= n ) }");
assert(isl_map_is_equal(map1, map2));
isl_map_free(map2);
map1 = isl_map_project_out(map1, isl_dim_in, 0, 1);
map2 = isl_map_read_from_str(ctx, "[n] -> { [i] -> [j] : n >= 0 }");
assert(isl_map_is_equal(map1, map2));
isl_map_free(map1);
isl_map_free(map2);
str = "[n] -> { [i] -> [] : exists a : 0 <= i <= n and i = 2 a }";
map1 = isl_map_read_from_str(ctx, str);
str = "{ [i] -> [j] : exists a : 0 <= i <= j and i = 2 a }";
map2 = isl_map_read_from_str(ctx, str);
map1 = isl_map_move_dims(map1, isl_dim_out, 0, isl_dim_param, 0, 1);
assert(isl_map_is_equal(map1, map2));
isl_map_free(map1);
isl_map_free(map2);
}
struct {
__isl_give isl_val *(*op)(__isl_take isl_val *v);
const char *arg;
const char *res;
} val_un_tests[] = {
{ &isl_val_neg, "0", "0" },
{ &isl_val_abs, "0", "0" },
{ &isl_val_2exp, "0", "1" },
{ &isl_val_floor, "0", "0" },
{ &isl_val_ceil, "0", "0" },
{ &isl_val_neg, "1", "-1" },
{ &isl_val_neg, "-1", "1" },
{ &isl_val_neg, "1/2", "-1/2" },
{ &isl_val_neg, "-1/2", "1/2" },
{ &isl_val_neg, "infty", "-infty" },
{ &isl_val_neg, "-infty", "infty" },
{ &isl_val_neg, "NaN", "NaN" },
{ &isl_val_abs, "1", "1" },
{ &isl_val_abs, "-1", "1" },
{ &isl_val_abs, "1/2", "1/2" },
{ &isl_val_abs, "-1/2", "1/2" },
{ &isl_val_abs, "infty", "infty" },
{ &isl_val_abs, "-infty", "infty" },
{ &isl_val_abs, "NaN", "NaN" },
{ &isl_val_floor, "1", "1" },
{ &isl_val_floor, "-1", "-1" },
{ &isl_val_floor, "1/2", "0" },
{ &isl_val_floor, "-1/2", "-1" },
{ &isl_val_floor, "infty", "infty" },
{ &isl_val_floor, "-infty", "-infty" },
{ &isl_val_floor, "NaN", "NaN" },
{ &isl_val_ceil, "1", "1" },
{ &isl_val_ceil, "-1", "-1" },
{ &isl_val_ceil, "1/2", "1" },
{ &isl_val_ceil, "-1/2", "0" },
{ &isl_val_ceil, "infty", "infty" },
{ &isl_val_ceil, "-infty", "-infty" },
{ &isl_val_ceil, "NaN", "NaN" },
{ &isl_val_2exp, "-3", "1/8" },
{ &isl_val_2exp, "-1", "1/2" },
{ &isl_val_2exp, "1", "2" },
{ &isl_val_2exp, "2", "4" },
{ &isl_val_2exp, "3", "8" },
{ &isl_val_inv, "1", "1" },
{ &isl_val_inv, "2", "1/2" },
{ &isl_val_inv, "1/2", "2" },
{ &isl_val_inv, "-2", "-1/2" },
{ &isl_val_inv, "-1/2", "-2" },
{ &isl_val_inv, "0", "NaN" },
{ &isl_val_inv, "NaN", "NaN" },
{ &isl_val_inv, "infty", "0" },
{ &isl_val_inv, "-infty", "0" },
};
/* Perform some basic tests of unary operations on isl_val objects.
*/
static int test_un_val(isl_ctx *ctx)
{
int i;
isl_val *v, *res;
__isl_give isl_val *(*fn)(__isl_take isl_val *v);
int ok;
for (i = 0; i < ARRAY_SIZE(val_un_tests); ++i) {
v = isl_val_read_from_str(ctx, val_un_tests[i].arg);
res = isl_val_read_from_str(ctx, val_un_tests[i].res);
fn = val_un_tests[i].op;
v = fn(v);
if (isl_val_is_nan(res))
ok = isl_val_is_nan(v);
else
ok = isl_val_eq(v, res);
isl_val_free(v);
isl_val_free(res);
if (ok < 0)
return -1;
if (!ok)
isl_die(ctx, isl_error_unknown,
"unexpected result", return -1);
}
return 0;
}
struct {
__isl_give isl_val *(*fn)(__isl_take isl_val *v1,
__isl_take isl_val *v2);
} val_bin_op[] = {
['+'] = { &isl_val_add },
['-'] = { &isl_val_sub },
['*'] = { &isl_val_mul },
['/'] = { &isl_val_div },
['g'] = { &isl_val_gcd },
['m'] = { &isl_val_min },
['M'] = { &isl_val_max },
};
struct {
const char *arg1;
unsigned char op;
const char *arg2;
const char *res;
} val_bin_tests[] = {
{ "0", '+', "0", "0" },
{ "1", '+', "0", "1" },
{ "1", '+', "1", "2" },
{ "1", '-', "1", "0" },
{ "1", '*', "1", "1" },
{ "1", '/', "1", "1" },
{ "2", '*', "3", "6" },
{ "2", '*', "1/2", "1" },
{ "2", '*', "1/3", "2/3" },
{ "2/3", '*', "3/5", "2/5" },
{ "2/3", '*', "7/5", "14/15" },
{ "2", '/', "1/2", "4" },
{ "-2", '/', "-1/2", "4" },
{ "-2", '/', "1/2", "-4" },
{ "2", '/', "-1/2", "-4" },
{ "2", '/', "2", "1" },
{ "2", '/', "3", "2/3" },
{ "2/3", '/', "5/3", "2/5" },
{ "2/3", '/', "5/7", "14/15" },
{ "0", '/', "0", "NaN" },
{ "42", '/', "0", "NaN" },
{ "-42", '/', "0", "NaN" },
{ "infty", '/', "0", "NaN" },
{ "-infty", '/', "0", "NaN" },
{ "NaN", '/', "0", "NaN" },
{ "0", '/', "NaN", "NaN" },
{ "42", '/', "NaN", "NaN" },
{ "-42", '/', "NaN", "NaN" },
{ "infty", '/', "NaN", "NaN" },
{ "-infty", '/', "NaN", "NaN" },
{ "NaN", '/', "NaN", "NaN" },
{ "0", '/', "infty", "0" },
{ "42", '/', "infty", "0" },
{ "-42", '/', "infty", "0" },
{ "infty", '/', "infty", "NaN" },
{ "-infty", '/', "infty", "NaN" },
{ "NaN", '/', "infty", "NaN" },
{ "0", '/', "-infty", "0" },
{ "42", '/', "-infty", "0" },
{ "-42", '/', "-infty", "0" },
{ "infty", '/', "-infty", "NaN" },
{ "-infty", '/', "-infty", "NaN" },
{ "NaN", '/', "-infty", "NaN" },
{ "1", '-', "1/3", "2/3" },
{ "1/3", '+', "1/2", "5/6" },
{ "1/2", '+', "1/2", "1" },
{ "3/4", '-', "1/4", "1/2" },
{ "1/2", '-', "1/3", "1/6" },
{ "infty", '+', "42", "infty" },
{ "infty", '+', "infty", "infty" },
{ "42", '+', "infty", "infty" },
{ "infty", '-', "infty", "NaN" },
{ "infty", '*', "infty", "infty" },
{ "infty", '*', "-infty", "-infty" },
{ "-infty", '*', "infty", "-infty" },
{ "-infty", '*', "-infty", "infty" },
{ "0", '*', "infty", "NaN" },
{ "1", '*', "infty", "infty" },
{ "infty", '*', "0", "NaN" },
{ "infty", '*', "42", "infty" },
{ "42", '-', "infty", "-infty" },
{ "infty", '+', "-infty", "NaN" },
{ "4", 'g', "6", "2" },
{ "5", 'g', "6", "1" },
{ "42", 'm', "3", "3" },
{ "42", 'M', "3", "42" },
{ "3", 'm', "42", "3" },
{ "3", 'M', "42", "42" },
{ "42", 'm', "infty", "42" },
{ "42", 'M', "infty", "infty" },
{ "42", 'm', "-infty", "-infty" },
{ "42", 'M', "-infty", "42" },
{ "42", 'm', "NaN", "NaN" },
{ "42", 'M', "NaN", "NaN" },
{ "infty", 'm', "-infty", "-infty" },
{ "infty", 'M', "-infty", "infty" },
};
/* Perform some basic tests of binary operations on isl_val objects.
*/
static int test_bin_val(isl_ctx *ctx)
{
int i;
isl_val *v1, *v2, *res;
__isl_give isl_val *(*fn)(__isl_take isl_val *v1,
__isl_take isl_val *v2);
int ok;
for (i = 0; i < ARRAY_SIZE(val_bin_tests); ++i) {
v1 = isl_val_read_from_str(ctx, val_bin_tests[i].arg1);
v2 = isl_val_read_from_str(ctx, val_bin_tests[i].arg2);
res = isl_val_read_from_str(ctx, val_bin_tests[i].res);
fn = val_bin_op[val_bin_tests[i].op].fn;
v1 = fn(v1, v2);
if (isl_val_is_nan(res))
ok = isl_val_is_nan(v1);
else
ok = isl_val_eq(v1, res);
isl_val_free(v1);
isl_val_free(res);
if (ok < 0)
return -1;
if (!ok)
isl_die(ctx, isl_error_unknown,
"unexpected result", return -1);
}
return 0;
}
/* Perform some basic tests on isl_val objects.
*/
static int test_val(isl_ctx *ctx)
{
if (test_un_val(ctx) < 0)
return -1;
if (test_bin_val(ctx) < 0)
return -1;
return 0;
}
static int test_div(isl_ctx *ctx)
{
unsigned n;
const char *str;
int empty;
isl_int v;
isl_space *dim;
isl_set *set;
isl_local_space *ls;
struct isl_basic_set *bset;
struct isl_constraint *c;
isl_int_init(v);
/* test 1 */
dim = isl_space_set_alloc(ctx, 0, 3);
bset = isl_basic_set_universe(isl_space_copy(dim));
ls = isl_local_space_from_space(dim);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, -1);
isl_constraint_set_constant(c, v);
isl_int_set_si(v, 1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, 3);
isl_constraint_set_coefficient(c, isl_dim_set, 1, v);
bset = isl_basic_set_add_constraint(bset, c);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, 1);
isl_constraint_set_constant(c, v);
isl_int_set_si(v, -1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, 3);
isl_constraint_set_coefficient(c, isl_dim_set, 2, v);
bset = isl_basic_set_add_constraint(bset, c);
bset = isl_basic_set_project_out(bset, isl_dim_set, 1, 2);
assert(bset && bset->n_div == 1);
isl_local_space_free(ls);
isl_basic_set_free(bset);
/* test 2 */
dim = isl_space_set_alloc(ctx, 0, 3);
bset = isl_basic_set_universe(isl_space_copy(dim));
ls = isl_local_space_from_space(dim);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, 1);
isl_constraint_set_constant(c, v);
isl_int_set_si(v, -1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, 3);
isl_constraint_set_coefficient(c, isl_dim_set, 1, v);
bset = isl_basic_set_add_constraint(bset, c);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, -1);
isl_constraint_set_constant(c, v);
isl_int_set_si(v, 1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, 3);
isl_constraint_set_coefficient(c, isl_dim_set, 2, v);
bset = isl_basic_set_add_constraint(bset, c);
bset = isl_basic_set_project_out(bset, isl_dim_set, 1, 2);
assert(bset && bset->n_div == 1);
isl_local_space_free(ls);
isl_basic_set_free(bset);
/* test 3 */
dim = isl_space_set_alloc(ctx, 0, 3);
bset = isl_basic_set_universe(isl_space_copy(dim));
ls = isl_local_space_from_space(dim);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, 1);
isl_constraint_set_constant(c, v);
isl_int_set_si(v, -1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, 3);
isl_constraint_set_coefficient(c, isl_dim_set, 1, v);
bset = isl_basic_set_add_constraint(bset, c);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, -3);
isl_constraint_set_constant(c, v);
isl_int_set_si(v, 1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, 4);
isl_constraint_set_coefficient(c, isl_dim_set, 2, v);
bset = isl_basic_set_add_constraint(bset, c);
bset = isl_basic_set_project_out(bset, isl_dim_set, 1, 2);
assert(bset && bset->n_div == 1);
isl_local_space_free(ls);
isl_basic_set_free(bset);
/* test 4 */
dim = isl_space_set_alloc(ctx, 0, 3);
bset = isl_basic_set_universe(isl_space_copy(dim));
ls = isl_local_space_from_space(dim);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, 2);
isl_constraint_set_constant(c, v);
isl_int_set_si(v, -1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, 3);
isl_constraint_set_coefficient(c, isl_dim_set, 1, v);
bset = isl_basic_set_add_constraint(bset, c);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, -1);
isl_constraint_set_constant(c, v);
isl_int_set_si(v, 1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, 6);
isl_constraint_set_coefficient(c, isl_dim_set, 2, v);
bset = isl_basic_set_add_constraint(bset, c);
bset = isl_basic_set_project_out(bset, isl_dim_set, 1, 2);
assert(isl_basic_set_is_empty(bset));
isl_local_space_free(ls);
isl_basic_set_free(bset);
/* test 5 */
dim = isl_space_set_alloc(ctx, 0, 3);
bset = isl_basic_set_universe(isl_space_copy(dim));
ls = isl_local_space_from_space(dim);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, -1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, 3);
isl_constraint_set_coefficient(c, isl_dim_set, 2, v);
bset = isl_basic_set_add_constraint(bset, c);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, 1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, -3);
isl_constraint_set_coefficient(c, isl_dim_set, 1, v);
bset = isl_basic_set_add_constraint(bset, c);
bset = isl_basic_set_project_out(bset, isl_dim_set, 2, 1);
assert(bset && bset->n_div == 0);
isl_basic_set_free(bset);
isl_local_space_free(ls);
/* test 6 */
dim = isl_space_set_alloc(ctx, 0, 3);
bset = isl_basic_set_universe(isl_space_copy(dim));
ls = isl_local_space_from_space(dim);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, -1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, 6);
isl_constraint_set_coefficient(c, isl_dim_set, 2, v);
bset = isl_basic_set_add_constraint(bset, c);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, 1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, -3);
isl_constraint_set_coefficient(c, isl_dim_set, 1, v);
bset = isl_basic_set_add_constraint(bset, c);
bset = isl_basic_set_project_out(bset, isl_dim_set, 2, 1);
assert(bset && bset->n_div == 1);
isl_basic_set_free(bset);
isl_local_space_free(ls);
/* test 7 */
/* This test is a bit tricky. We set up an equality
* a + 3b + 3c = 6 e0
* Normalization of divs creates _two_ divs
* a = 3 e0
* c - b - e0 = 2 e1
* Afterwards e0 is removed again because it has coefficient -1
* and we end up with the original equality and div again.
* Perhaps we can avoid the introduction of this temporary div.
*/
dim = isl_space_set_alloc(ctx, 0, 4);
bset = isl_basic_set_universe(isl_space_copy(dim));
ls = isl_local_space_from_space(dim);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, -1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, -3);
isl_constraint_set_coefficient(c, isl_dim_set, 1, v);
isl_int_set_si(v, -3);
isl_constraint_set_coefficient(c, isl_dim_set, 2, v);
isl_int_set_si(v, 6);
isl_constraint_set_coefficient(c, isl_dim_set, 3, v);
bset = isl_basic_set_add_constraint(bset, c);
bset = isl_basic_set_project_out(bset, isl_dim_set, 3, 1);
/* Test disabled for now */
/*
assert(bset && bset->n_div == 1);
*/
isl_local_space_free(ls);
isl_basic_set_free(bset);
/* test 8 */
dim = isl_space_set_alloc(ctx, 0, 5);
bset = isl_basic_set_universe(isl_space_copy(dim));
ls = isl_local_space_from_space(dim);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, -1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, -3);
isl_constraint_set_coefficient(c, isl_dim_set, 1, v);
isl_int_set_si(v, -3);
isl_constraint_set_coefficient(c, isl_dim_set, 3, v);
isl_int_set_si(v, 6);
isl_constraint_set_coefficient(c, isl_dim_set, 4, v);
bset = isl_basic_set_add_constraint(bset, c);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, -1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, 1);
isl_constraint_set_coefficient(c, isl_dim_set, 2, v);
isl_int_set_si(v, 1);
isl_constraint_set_constant(c, v);
bset = isl_basic_set_add_constraint(bset, c);
bset = isl_basic_set_project_out(bset, isl_dim_set, 4, 1);
/* Test disabled for now */
/*
assert(bset && bset->n_div == 1);
*/
isl_local_space_free(ls);
isl_basic_set_free(bset);
/* test 9 */
dim = isl_space_set_alloc(ctx, 0, 4);
bset = isl_basic_set_universe(isl_space_copy(dim));
ls = isl_local_space_from_space(dim);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, 1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, -1);
isl_constraint_set_coefficient(c, isl_dim_set, 1, v);
isl_int_set_si(v, -2);
isl_constraint_set_coefficient(c, isl_dim_set, 2, v);
bset = isl_basic_set_add_constraint(bset, c);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, -1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, 3);
isl_constraint_set_coefficient(c, isl_dim_set, 3, v);
isl_int_set_si(v, 2);
isl_constraint_set_constant(c, v);
bset = isl_basic_set_add_constraint(bset, c);
bset = isl_basic_set_project_out(bset, isl_dim_set, 2, 2);
bset = isl_basic_set_fix_si(bset, isl_dim_set, 0, 2);
assert(!isl_basic_set_is_empty(bset));
isl_local_space_free(ls);
isl_basic_set_free(bset);
/* test 10 */
dim = isl_space_set_alloc(ctx, 0, 3);
bset = isl_basic_set_universe(isl_space_copy(dim));
ls = isl_local_space_from_space(dim);
c = isl_equality_alloc(isl_local_space_copy(ls));
isl_int_set_si(v, 1);
isl_constraint_set_coefficient(c, isl_dim_set, 0, v);
isl_int_set_si(v, -2);
isl_constraint_set_coefficient(c, isl_dim_set, 2, v);
bset = isl_basic_set_add_constraint(bset, c);
bset = isl_basic_set_project_out(bset, isl_dim_set, 2, 1);
bset = isl_basic_set_fix_si(bset, isl_dim_set, 0, 2);
isl_local_space_free(ls);
isl_basic_set_free(bset);
isl_int_clear(v);
str = "{ [i] : exists (e0, e1: 3e1 >= 1 + 2e0 and "
"8e1 <= -1 + 5i - 5e0 and 2e1 >= 1 + 2i - 5e0) }";
set = isl_set_read_from_str(ctx, str);
set = isl_set_compute_divs(set);
isl_set_free(set);
if (!set)
return -1;
str = "{ [i,j] : 2*[i/2] + 3 * [j/4] <= 10 and 2 i = j }";
bset = isl_basic_set_read_from_str(ctx, str);
n = isl_basic_set_dim(bset, isl_dim_div);
isl_basic_set_free(bset);
if (!bset)
return -1;
if (n != 0)
isl_die(ctx, isl_error_unknown,
"expecting no existentials", return -1);
str = "{ [i,j,k] : 3 + i + 2j >= 0 and 2 * [(i+2j)/4] <= k }";
set = isl_set_read_from_str(ctx, str);
set = isl_set_remove_divs_involving_dims(set, isl_dim_set, 0, 2);
set = isl_set_fix_si(set, isl_dim_set, 2, -3);
empty = isl_set_is_empty(set);
isl_set_free(set);
if (empty < 0)
return -1;
if (!empty)
isl_die(ctx, isl_error_unknown,
"result not as accurate as expected", return -1);
return 0;
}
void test_application_case(struct isl_ctx *ctx, const char *name)
{
char *filename;
FILE *input;
struct isl_basic_set *bset1, *bset2;
struct isl_basic_map *bmap;
filename = get_filename(ctx, name, "omega");
assert(filename);
input = fopen(filename, "r");
assert(input);
bset1 = isl_basic_set_read_from_file(ctx, input);
bmap = isl_basic_map_read_from_file(ctx, input);
bset1 = isl_basic_set_apply(bset1, bmap);
bset2 = isl_basic_set_read_from_file(ctx, input);
assert(isl_basic_set_is_equal(bset1, bset2) == 1);
isl_basic_set_free(bset1);
isl_basic_set_free(bset2);
free(filename);
fclose(input);
}
void test_application(struct isl_ctx *ctx)
{
test_application_case(ctx, "application");
test_application_case(ctx, "application2");
}
void test_affine_hull_case(struct isl_ctx *ctx, const char *name)
{
char *filename;
FILE *input;
struct isl_basic_set *bset1, *bset2;
filename = get_filename(ctx, name, "polylib");
assert(filename);
input = fopen(filename, "r");
assert(input);
bset1 = isl_basic_set_read_from_file(ctx, input);
bset2 = isl_basic_set_read_from_file(ctx, input);
bset1 = isl_basic_set_affine_hull(bset1);
assert(isl_basic_set_is_equal(bset1, bset2) == 1);
isl_basic_set_free(bset1);
isl_basic_set_free(bset2);
free(filename);
fclose(input);
}
int test_affine_hull(struct isl_ctx *ctx)
{
const char *str;
isl_set *set;
isl_basic_set *bset, *bset2;
int n;
int subset;
test_affine_hull_case(ctx, "affine2");
test_affine_hull_case(ctx, "affine");
test_affine_hull_case(ctx, "affine3");
str = "[m] -> { [i0] : exists (e0, e1: e1 <= 1 + i0 and "
"m >= 3 and 4i0 <= 2 + m and e1 >= i0 and "
"e1 >= 0 and e1 <= 2 and e1 >= 1 + 2e0 and "
"2e1 <= 1 + m + 4e0 and 2e1 >= 2 - m + 4i0 - 4e0) }";
set = isl_set_read_from_str(ctx, str);
bset = isl_set_affine_hull(set);
n = isl_basic_set_dim(bset, isl_dim_div);
isl_basic_set_free(bset);
if (n != 0)
isl_die(ctx, isl_error_unknown, "not expecting any divs",
return -1);
/* Check that isl_map_affine_hull is not confused by
* the reordering of divs in isl_map_align_divs.
*/
str = "{ [a, b, c, 0] : exists (e0 = [(b)/32], e1 = [(c)/32]: "
"32e0 = b and 32e1 = c); "
"[a, 0, c, 0] : exists (e0 = [(c)/32]: 32e0 = c) }";
set = isl_set_read_from_str(ctx, str);
bset = isl_set_affine_hull(set);
isl_basic_set_free(bset);
if (!bset)
return -1;
str = "{ [a] : exists e0, e1, e2: 32e1 = 31 + 31a + 31e0 and "
"32e2 = 31 + 31e0 }";
set = isl_set_read_from_str(ctx, str);
bset = isl_set_affine_hull(set);
str = "{ [a] : exists e : a = 32 e }";
bset2 = isl_basic_set_read_from_str(ctx, str);
subset = isl_basic_set_is_subset(bset, bset2);
isl_basic_set_free(bset);
isl_basic_set_free(bset2);
if (subset < 0)
return -1;
if (!subset)
isl_die(ctx, isl_error_unknown, "not as accurate as expected",
return -1);
return 0;
}
void test_convex_hull_case(struct isl_ctx *ctx, const char *name)
{
char *filename;
FILE *input;
struct isl_basic_set *bset1, *bset2;
struct isl_set *set;
filename = get_filename(ctx, name, "polylib");
assert(filename);
input = fopen(filename, "r");
assert(input);
bset1 = isl_basic_set_read_from_file(ctx, input);
bset2 = isl_basic_set_read_from_file(ctx, input);
set = isl_basic_set_union(bset1, bset2);
bset1 = isl_set_convex_hull(set);
bset2 = isl_basic_set_read_from_file(ctx, input);
assert(isl_basic_set_is_equal(bset1, bset2) == 1);
isl_basic_set_free(bset1);
isl_basic_set_free(bset2);
free(filename);
fclose(input);
}
struct {
const char *set;
const char *hull;
} convex_hull_tests[] = {
{ "{ [i0, i1, i2] : (i2 = 1 and i0 = 0 and i1 >= 0) or "
"(i0 = 1 and i1 = 0 and i2 = 1) or "
"(i0 = 0 and i1 = 0 and i2 = 0) }",
"{ [i0, i1, i2] : i0 >= 0 and i2 >= i0 and i2 <= 1 and i1 >= 0 }" },
{ "[n] -> { [i0, i1, i0] : i0 <= -4 + n; "
"[i0, i0, i2] : n = 6 and i0 >= 0 and i2 <= 7 - i0 and "
"i2 <= 5 and i2 >= 4; "
"[3, i1, 3] : n = 5 and i1 <= 2 and i1 >= 0 }",
"[n] -> { [i0, i1, i2] : i2 <= -1 + n and 2i2 <= -6 + 3n - i0 and "
"i2 <= 5 + i0 and i2 >= i0 }" },
{ "{ [x, y] : 3y <= 2x and y >= -2 + 2x and 2y >= 2 - x }",
"{ [x, y] : 1 = 0 }" },
};
void test_convex_hull_algo(struct isl_ctx *ctx, int convex)
{
int i;
int orig_convex = ctx->opt->convex;
ctx->opt->convex = convex;
test_convex_hull_case(ctx, "convex0");
test_convex_hull_case(ctx, "convex1");
test_convex_hull_case(ctx, "convex2");
test_convex_hull_case(ctx, "convex3");
test_convex_hull_case(ctx, "convex4");
test_convex_hull_case(ctx, "convex5");
test_convex_hull_case(ctx, "convex6");
test_convex_hull_case(ctx, "convex7");
test_convex_hull_case(ctx, "convex8");
test_convex_hull_case(ctx, "convex9");
test_convex_hull_case(ctx, "convex10");
test_convex_hull_case(ctx, "convex11");
test_convex_hull_case(ctx, "convex12");
test_convex_hull_case(ctx, "convex13");
test_convex_hull_case(ctx, "convex14");
test_convex_hull_case(ctx, "convex15");
for (i = 0; i < ARRAY_SIZE(convex_hull_tests); ++i) {
isl_set *set1, *set2;
set1 = isl_set_read_from_str(ctx, convex_hull_tests[i].set);
set2 = isl_set_read_from_str(ctx, convex_hull_tests[i].hull);
set1 = isl_set_from_basic_set(isl_set_convex_hull(set1));
assert(isl_set_is_equal(set1, set2));
isl_set_free(set1);
isl_set_free(set2);
}
ctx->opt->convex = orig_convex;
}
void test_convex_hull(struct isl_ctx *ctx)
{
test_convex_hull_algo(ctx, ISL_CONVEX_HULL_FM);
test_convex_hull_algo(ctx, ISL_CONVEX_HULL_WRAP);
}
void test_gist_case(struct isl_ctx *ctx, const char *name)
{
char *filename;
FILE *input;
struct isl_basic_set *bset1, *bset2;
filename = get_filename(ctx, name, "polylib");
assert(filename);
input = fopen(filename, "r");
assert(input);
bset1 = isl_basic_set_read_from_file(ctx, input);
bset2 = isl_basic_set_read_from_file(ctx, input);
bset1 = isl_basic_set_gist(bset1, bset2);
bset2 = isl_basic_set_read_from_file(ctx, input);
assert(isl_basic_set_is_equal(bset1, bset2) == 1);
isl_basic_set_free(bset1);
isl_basic_set_free(bset2);
free(filename);
fclose(input);
}
struct {
const char *set;
const char *context;
const char *gist;
} gist_tests[] = {
{ "{ [a, b, c] : a <= 15 and a >= 1 }",
"{ [a, b, c] : exists (e0 = floor((-1 + a)/16): a >= 1 and "
"c <= 30 and 32e0 >= -62 + 2a + 2b - c and b >= 0) }",
"{ [a, b, c] : a <= 15 }" },
{ "{ : }", "{ : 1 = 0 }", "{ : }" },
{ "{ : 1 = 0 }", "{ : 1 = 0 }", "{ : }" },
{ "[M] -> { [x] : exists (e0 = floor((-2 + x)/3): 3e0 = -2 + x) }",
"[M] -> { [3M] }" , "[M] -> { [x] : 1 = 0 }" },
};
static int test_gist(struct isl_ctx *ctx)
{
int i;
const char *str;
isl_basic_set *bset1, *bset2;
isl_map *map1, *map2;
int equal;
for (i = 0; i < ARRAY_SIZE(gist_tests); ++i) {
int equal_input;
isl_basic_set *copy;
bset1 = isl_basic_set_read_from_str(ctx, gist_tests[i].set);
bset2 = isl_basic_set_read_from_str(ctx, gist_tests[i].context);
copy = isl_basic_set_copy(bset1);
bset1 = isl_basic_set_gist(bset1, bset2);
bset2 = isl_basic_set_read_from_str(ctx, gist_tests[i].gist);
equal = isl_basic_set_is_equal(bset1, bset2);
isl_basic_set_free(bset1);
isl_basic_set_free(bset2);
bset1 = isl_basic_set_read_from_str(ctx, gist_tests[i].set);
equal_input = isl_basic_set_is_equal(bset1, copy);
isl_basic_set_free(bset1);
isl_basic_set_free(copy);
if (equal < 0 || equal_input < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown,
"incorrect gist result", return -1);
if (!equal_input)
isl_die(ctx, isl_error_unknown,
"gist modified input", return -1);
}
test_gist_case(ctx, "gist1");
str = "[p0, p2, p3, p5, p6, p10] -> { [] : "
"exists (e0 = [(15 + p0 + 15p6 + 15p10)/16], e1 = [(p5)/8], "
"e2 = [(p6)/128], e3 = [(8p2 - p5)/128], "
"e4 = [(128p3 - p6)/4096]: 8e1 = p5 and 128e2 = p6 and "
"128e3 = 8p2 - p5 and 4096e4 = 128p3 - p6 and p2 >= 0 and "
"16e0 >= 16 + 16p6 + 15p10 and p2 <= 15 and p3 >= 0 and "
"p3 <= 31 and p6 >= 128p3 and p5 >= 8p2 and p10 >= 0 and "
"16e0 <= 15 + p0 + 15p6 + 15p10 and 16e0 >= p0 + 15p6 + 15p10 and "
"p10 <= 15 and p10 <= -1 + p0 - p6) }";
bset1 = isl_basic_set_read_from_str(ctx, str);
str = "[p0, p2, p3, p5, p6, p10] -> { [] : exists (e0 = [(p5)/8], "
"e1 = [(p6)/128], e2 = [(8p2 - p5)/128], "
"e3 = [(128p3 - p6)/4096]: 8e0 = p5 and 128e1 = p6 and "
"128e2 = 8p2 - p5 and 4096e3 = 128p3 - p6 and p5 >= -7 and "
"p2 >= 0 and 8p2 <= -1 + p0 and p2 <= 15 and p3 >= 0 and "
"p3 <= 31 and 128p3 <= -1 + p0 and p6 >= -127 and "
"p5 <= -1 + p0 and p6 <= -1 + p0 and p6 >= 128p3 and "
"p0 >= 1 and p5 >= 8p2 and p10 >= 0 and p10 <= 15 ) }";
bset2 = isl_basic_set_read_from_str(ctx, str);
bset1 = isl_basic_set_gist(bset1, bset2);
assert(bset1 && bset1->n_div == 0);
isl_basic_set_free(bset1);
/* Check that the integer divisions of the second disjunct
* do not spread to the first disjunct.
*/
str = "[t1] -> { S_0[] -> A[o0] : (exists (e0 = [(-t1 + o0)/16]: "
"16e0 = -t1 + o0 and o0 >= 0 and o0 <= 15 and t1 >= 0)) or "
"(exists (e0 = [(-1 + t1)/16], "
"e1 = [(-16 + t1 - 16e0)/4294967296]: "
"4294967296e1 = -16 + t1 - o0 - 16e0 and "
"16e0 <= -1 + t1 and 16e0 >= -16 + t1 and o0 >= 0 and "
"o0 <= 4294967295 and t1 <= -1)) }";
map1 = isl_map_read_from_str(ctx, str);
str = "[t1] -> { S_0[] -> A[o0] : t1 >= 0 and t1 <= 4294967295 }";
map2 = isl_map_read_from_str(ctx, str);
map1 = isl_map_gist(map1, map2);
if (!map1)
return -1;
if (map1->n != 1)
isl_die(ctx, isl_error_unknown, "expecting single disjunct",
isl_map_free(map1); return -1);
if (isl_basic_map_dim(map1->p[0], isl_dim_div) != 1)
isl_die(ctx, isl_error_unknown, "expecting single div",
isl_map_free(map1); return -1);
isl_map_free(map1);
return 0;
}
int test_coalesce_set(isl_ctx *ctx, const char *str, int check_one)
{
isl_set *set, *set2;
int equal;
int one;
set = isl_set_read_from_str(ctx, str);
set = isl_set_coalesce(set);
set2 = isl_set_read_from_str(ctx, str);
equal = isl_set_is_equal(set, set2);
one = set && set->n == 1;
isl_set_free(set);
isl_set_free(set2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown,
"coalesced set not equal to input", return -1);
if (check_one && !one)
isl_die(ctx, isl_error_unknown,
"coalesced set should not be a union", return -1);
return 0;
}
int test_coalesce_unbounded_wrapping(isl_ctx *ctx)
{
int r = 0;
int bounded;
bounded = isl_options_get_coalesce_bounded_wrapping(ctx);
isl_options_set_coalesce_bounded_wrapping(ctx, 0);
if (test_coalesce_set(ctx,
"{[x,y,z] : y + 2 >= 0 and x - y + 1 >= 0 and "
"-x - y + 1 >= 0 and -3 <= z <= 3;"
"[x,y,z] : -x+z + 20 >= 0 and -x-z + 20 >= 0 and "
"x-z + 20 >= 0 and x+z + 20 >= 0 and "
"-10 <= y <= 0}", 1) < 0)
goto error;
if (test_coalesce_set(ctx,
"{[x,y] : 0 <= x,y <= 10; [5,y]: 4 <=y <= 11}", 1) < 0)
goto error;
if (test_coalesce_set(ctx,
"{[x,0,0] : -5 <= x <= 5; [0,y,1] : -5 <= y <= 5 }", 1) < 0)
goto error;
if (0) {
error:
r = -1;
}
isl_options_set_coalesce_bounded_wrapping(ctx, bounded);
return r;
}
/* Inputs for coalescing tests.
* "str" is a string representation of the input set.
* "single_disjunct" is set if we expect the result to consist of
* a single disjunct.
*/
struct {
int single_disjunct;
const char *str;
} coalesce_tests[] = {
{ 1, "{[x,y]: x >= 0 & x <= 10 & y >= 0 & y <= 10 or "
"y >= x & x >= 2 & 5 >= y }" },
{ 1, "{[x,y]: y >= 0 & 2x + y <= 30 & y <= 10 & x >= 0 or "
"x + y >= 10 & y <= x & x + y <= 20 & y >= 0}" },
{ 0, "{[x,y]: y >= 0 & 2x + y <= 30 & y <= 10 & x >= 0 or "
"x + y >= 10 & y <= x & x + y <= 19 & y >= 0}" },
{ 1, "{[x,y]: y >= 0 & x <= 5 & y <= x or "
"y >= 0 & x >= 6 & x <= 10 & y <= x}" },
{ 0, "{[x,y]: y >= 0 & x <= 5 & y <= x or "
"y >= 0 & x >= 7 & x <= 10 & y <= x}" },
{ 0, "{[x,y]: y >= 0 & x <= 5 & y <= x or "
"y >= 0 & x >= 6 & x <= 10 & y + 1 <= x}" },
{ 1, "{[x,y]: y >= 0 & x <= 5 & y <= x or y >= 0 & x = 6 & y <= 6}" },
{ 0, "{[x,y]: y >= 0 & x <= 5 & y <= x or y >= 0 & x = 7 & y <= 6}" },
{ 1, "{[x,y]: y >= 0 & x <= 5 & y <= x or y >= 0 & x = 6 & y <= 5}" },
{ 0, "{[x,y]: y >= 0 & x <= 5 & y <= x or y >= 0 & x = 6 & y <= 7}" },
{ 1, "[n] -> { [i] : i = 1 and n >= 2 or 2 <= i and i <= n }" },
{ 0, "{[x,y] : x >= 0 and y >= 0 or 0 <= y and y <= 5 and x = -1}" },
{ 1, "[n] -> { [i] : 1 <= i and i <= n - 1 or 2 <= i and i <= n }" },
{ 0, "[n] -> { [[i0] -> [o0]] : exists (e0 = [(i0)/4], e1 = [(o0)/4], "
"e2 = [(n)/2], e3 = [(-2 + i0)/4], e4 = [(-2 + o0)/4], "
"e5 = [(-2n + i0)/4]: 2e2 = n and 4e3 = -2 + i0 and "
"4e4 = -2 + o0 and i0 >= 8 + 2n and o0 >= 2 + i0 and "
"o0 <= 56 + 2n and o0 <= -12 + 4n and i0 <= 57 + 2n and "
"i0 <= -11 + 4n and o0 >= 6 + 2n and 4e0 <= i0 and "
"4e0 >= -3 + i0 and 4e1 <= o0 and 4e1 >= -3 + o0 and "
"4e5 <= -2n + i0 and 4e5 >= -3 - 2n + i0);"
"[[i0] -> [o0]] : exists (e0 = [(i0)/4], e1 = [(o0)/4], "
"e2 = [(n)/2], e3 = [(-2 + i0)/4], e4 = [(-2 + o0)/4], "
"e5 = [(-2n + i0)/4]: 2e2 = n and 4e3 = -2 + i0 and "
"4e4 = -2 + o0 and 2e0 >= 3 + n and e0 <= -4 + n and "
"2e0 <= 27 + n and e1 <= -4 + n and 2e1 <= 27 + n and "
"2e1 >= 2 + n and e1 >= 1 + e0 and i0 >= 7 + 2n and "
"i0 <= -11 + 4n and i0 <= 57 + 2n and 4e0 <= -2 + i0 and "
"4e0 >= -3 + i0 and o0 >= 6 + 2n and o0 <= -11 + 4n and "
"o0 <= 57 + 2n and 4e1 <= -2 + o0 and 4e1 >= -3 + o0 and "
"4e5 <= -2n + i0 and 4e5 >= -3 - 2n + i0 ) }" },
{ 0, "[n, m] -> { [o0, o2, o3] : (o3 = 1 and o0 >= 1 + m and "
"o0 <= n + m and o2 <= m and o0 >= 2 + n and o2 >= 3) or "
"(o0 >= 2 + n and o0 >= 1 + m and o0 <= n + m and n >= 1 and "
"o3 <= -1 + o2 and o3 >= 1 - m + o2 and o3 >= 2 and o3 <= n) }" },
{ 0, "[M, N] -> { [[i0, i1, i2, i3, i4, i5, i6] -> "
"[o0, o1, o2, o3, o4, o5, o6]] : "
"(o6 <= -4 + 2M - 2N + i0 + i1 - i2 + i6 - o0 - o1 + o2 and "
"o3 <= -2 + i3 and o6 >= 2 + i0 + i3 + i6 - o0 - o3 and "
"o6 >= 2 - M + N + i3 + i4 + i6 - o3 - o4 and o0 <= -1 + i0 and "
"o4 >= 4 - 3M + 3N - i0 - i1 + i2 + 2i3 + i4 + o0 + o1 - o2 - 2o3 "
"and o6 <= -3 + 2M - 2N + i3 + i4 - i5 + i6 - o3 - o4 + o5 and "
"2o6 <= -5 + 5M - 5N + 2i0 + i1 - i2 - i5 + 2i6 - 2o0 - o1 + o2 + o5 "
"and o6 >= 2i0 + i1 + i6 - 2o0 - o1 and "
"3o6 <= -5 + 4M - 4N + 2i0 + i1 - i2 + 2i3 + i4 - i5 + 3i6 "
"- 2o0 - o1 + o2 - 2o3 - o4 + o5) or "
"(N >= 2 and o3 <= -1 + i3 and o0 <= -1 + i0 and "
"o6 >= i3 + i6 - o3 and M >= 0 and "
"2o6 >= 1 + i0 + i3 + 2i6 - o0 - o3 and "
"o6 >= 1 - M + i0 + i6 - o0 and N >= 2M and o6 >= i0 + i6 - o0) }" },
{ 0, "[M, N] -> { [o0] : (o0 = 0 and M >= 1 and N >= 2) or "
"(o0 = 0 and M >= 1 and N >= 2M and N >= 2 + M) or "
"(o0 = 0 and M >= 2 and N >= 3) or "
"(M = 0 and o0 = 0 and N >= 3) }" },
{ 0, "{ [i0, i1, i2, i3] : (i1 = 10i0 and i0 >= 1 and 10i0 <= 100 and "
"i3 <= 9 + 10 i2 and i3 >= 1 + 10i2 and i3 >= 0) or "
"(i1 <= 9 + 10i0 and i1 >= 1 + 10i0 and i2 >= 0 and "
"i0 >= 0 and i1 <= 100 and i3 <= 9 + 10i2 and i3 >= 1 + 10i2) }" },
{ 0, "[M] -> { [i1] : (i1 >= 2 and i1 <= M) or (i1 = M and M >= 1) }" },
{ 0, "{[x,y] : x,y >= 0; [x,y] : 10 <= x <= 20 and y >= -1 }" },
{ 1, "{ [x, y] : (x >= 1 and y >= 1 and x <= 2 and y <= 2) or "
"(y = 3 and x = 1) }" },
{ 1, "[M] -> { [i0, i1, i2, i3, i4] : (i1 >= 3 and i4 >= 2 + i2 and "
"i2 >= 2 and i0 >= 2 and i3 >= 1 + i2 and i0 <= M and "
"i1 <= M and i3 <= M and i4 <= M) or "
"(i1 >= 2 and i4 >= 1 + i2 and i2 >= 2 and i0 >= 2 and "
"i3 >= 1 + i2 and i0 <= M and i1 <= -1 + M and i3 <= M and "
"i4 <= -1 + M) }" },
{ 1, "{ [x, y] : (x >= 0 and y >= 0 and x <= 10 and y <= 10) or "
"(x >= 1 and y >= 1 and x <= 11 and y <= 11) }" },
{ 0, "{[x,0] : x >= 0; [x,1] : x <= 20}" },
{ 1, "{ [x, 1 - x] : 0 <= x <= 1; [0,0] }" },
{ 1, "{ [0,0]; [i,i] : 1 <= i <= 10 }" },
{ 0, "{ [0,0]; [i,j] : 1 <= i,j <= 10 }" },
{ 1, "{ [0,0]; [i,2i] : 1 <= i <= 10 }" },
{ 0, "{ [0,0]; [i,2i] : 2 <= i <= 10 }" },
{ 0, "{ [1,0]; [i,2i] : 1 <= i <= 10 }" },
{ 0, "{ [0,1]; [i,2i] : 1 <= i <= 10 }" },
{ 0, "{ [a, b] : exists e : 2e = a and "
"a >= 0 and (a <= 3 or (b <= 0 and b >= -4 + a)) }" },
{ 0, "{ [i, j, i', j'] : i <= 2 and j <= 2 and "
"j' >= -1 + 2i + j - 2i' and i' <= -1 + i and "
"j >= 1 and j' <= i + j - i' and i >= 1; "
"[1, 1, 1, 1] }" },
{ 1, "{ [i,j] : exists a,b : i = 2a and j = 3b; "
"[i,j] : exists a : j = 3a }" },
{ 1, "{ [a, b, c] : (c <= 7 - b and b <= 1 and b >= 0 and "
"c >= 3 + b and b <= 3 + 8a and b >= -26 + 8a and "
"a >= 3) or "
"(b <= 1 and c <= 7 and b >= 0 and c >= 4 + b and "
"b <= 3 + 8a and b >= -26 + 8a and a >= 3) }" },
{ 1, "{ [a, 0, c] : c >= 1 and c <= 29 and c >= -1 + 8a and "
"c <= 6 + 8a and a >= 3; "
"[a, -1, c] : c >= 1 and c <= 30 and c >= 8a and "
"c <= 7 + 8a and a >= 3 and a <= 4 }" },
{ 1, "{ [x,y] : 0 <= x <= 2 and y >= 0 and x + 2y <= 4; "
"[x,0] : 3 <= x <= 4 }" },
{ 1, "{ [x,y] : 0 <= x <= 3 and y >= 0 and x + 3y <= 6; "
"[x,0] : 4 <= x <= 5 }" },
{ 0, "{ [x,y] : 0 <= x <= 2 and y >= 0 and x + 2y <= 4; "
"[x,0] : 3 <= x <= 5 }" },
{ 0, "{ [x,y] : 0 <= x <= 2 and y >= 0 and x + y <= 4; "
"[x,0] : 3 <= x <= 4 }" },
{ 1 , "{ [i0, i1] : i0 <= 122 and i0 >= 1 and 128i1 >= -249 + i0 and "
"i1 <= 0; "
"[i0, 0] : i0 >= 123 and i0 <= 124 }" },
};
/* Test the functionality of isl_set_coalesce.
* That is, check that the output is always equal to the input
* and in some cases that the result consists of a single disjunct.
*/
static int test_coalesce(struct isl_ctx *ctx)
{
int i;
for (i = 0; i < ARRAY_SIZE(coalesce_tests); ++i) {
const char *str = coalesce_tests[i].str;
int check_one = coalesce_tests[i].single_disjunct;
if (test_coalesce_set(ctx, str, check_one) < 0)
return -1;
}
if (test_coalesce_unbounded_wrapping(ctx) < 0)
return -1;
return 0;
}
void test_closure(struct isl_ctx *ctx)
{
const char *str;
isl_set *dom;
isl_map *up, *right;
isl_map *map, *map2;
int exact;
/* COCOA example 1 */
map = isl_map_read_from_str(ctx,
"[n] -> { [i,j] -> [i2,j2] : i2 = i + 1 and j2 = j + 1 and "
"1 <= i and i < n and 1 <= j and j < n or "
"i2 = i + 1 and j2 = j - 1 and "
"1 <= i and i < n and 2 <= j and j <= n }");
map = isl_map_power(map, &exact);
assert(exact);
isl_map_free(map);
/* COCOA example 1 */
map = isl_map_read_from_str(ctx,
"[n] -> { [i,j] -> [i2,j2] : i2 = i + 1 and j2 = j + 1 and "
"1 <= i and i < n and 1 <= j and j < n or "
"i2 = i + 1 and j2 = j - 1 and "
"1 <= i and i < n and 2 <= j and j <= n }");
map = isl_map_transitive_closure(map, &exact);
assert(exact);
map2 = isl_map_read_from_str(ctx,
"[n] -> { [i,j] -> [i2,j2] : exists (k1,k2,k : "
"1 <= i and i < n and 1 <= j and j <= n and "
"2 <= i2 and i2 <= n and 1 <= j2 and j2 <= n and "
"i2 = i + k1 + k2 and j2 = j + k1 - k2 and "
"k1 >= 0 and k2 >= 0 and k1 + k2 = k and k >= 1 )}");
assert(isl_map_is_equal(map, map2));
isl_map_free(map2);
isl_map_free(map);
map = isl_map_read_from_str(ctx,
"[n] -> { [x] -> [y] : y = x + 1 and 0 <= x and x <= n and "
" 0 <= y and y <= n }");
map = isl_map_transitive_closure(map, &exact);
map2 = isl_map_read_from_str(ctx,
"[n] -> { [x] -> [y] : y > x and 0 <= x and x <= n and "
" 0 <= y and y <= n }");
assert(isl_map_is_equal(map, map2));
isl_map_free(map2);
isl_map_free(map);
/* COCOA example 2 */
map = isl_map_read_from_str(ctx,
"[n] -> { [i,j] -> [i2,j2] : i2 = i + 2 and j2 = j + 2 and "
"1 <= i and i < n - 1 and 1 <= j and j < n - 1 or "
"i2 = i + 2 and j2 = j - 2 and "
"1 <= i and i < n - 1 and 3 <= j and j <= n }");
map = isl_map_transitive_closure(map, &exact);
assert(exact);
map2 = isl_map_read_from_str(ctx,
"[n] -> { [i,j] -> [i2,j2] : exists (k1,k2,k : "
"1 <= i and i < n - 1 and 1 <= j and j <= n and "
"3 <= i2 and i2 <= n and 1 <= j2 and j2 <= n and "
"i2 = i + 2 k1 + 2 k2 and j2 = j + 2 k1 - 2 k2 and "
"k1 >= 0 and k2 >= 0 and k1 + k2 = k and k >= 1) }");
assert(isl_map_is_equal(map, map2));
isl_map_free(map);
isl_map_free(map2);
/* COCOA Fig.2 left */
map = isl_map_read_from_str(ctx,
"[n] -> { [i,j] -> [i2,j2] : i2 = i + 2 and j2 = j and "
"i <= 2 j - 3 and i <= n - 2 and j <= 2 i - 1 and "
"j <= n or "
"i2 = i and j2 = j + 2 and i <= 2 j - 1 and i <= n and "
"j <= 2 i - 3 and j <= n - 2 or "
"i2 = i + 1 and j2 = j + 1 and i <= 2 j - 1 and "
"i <= n - 1 and j <= 2 i - 1 and j <= n - 1 }");
map = isl_map_transitive_closure(map, &exact);
assert(exact);
isl_map_free(map);
/* COCOA Fig.2 right */
map = isl_map_read_from_str(ctx,
"[n] -> { [i,j] -> [i2,j2] : i2 = i + 3 and j2 = j and "
"i <= 2 j - 4 and i <= n - 3 and j <= 2 i - 1 and "
"j <= n or "
"i2 = i and j2 = j + 3 and i <= 2 j - 1 and i <= n and "
"j <= 2 i - 4 and j <= n - 3 or "
"i2 = i + 1 and j2 = j + 1 and i <= 2 j - 1 and "
"i <= n - 1 and j <= 2 i - 1 and j <= n - 1 }");
map = isl_map_power(map, &exact);
assert(exact);
isl_map_free(map);
/* COCOA Fig.2 right */
map = isl_map_read_from_str(ctx,
"[n] -> { [i,j] -> [i2,j2] : i2 = i + 3 and j2 = j and "
"i <= 2 j - 4 and i <= n - 3 and j <= 2 i - 1 and "
"j <= n or "
"i2 = i and j2 = j + 3 and i <= 2 j - 1 and i <= n and "
"j <= 2 i - 4 and j <= n - 3 or "
"i2 = i + 1 and j2 = j + 1 and i <= 2 j - 1 and "
"i <= n - 1 and j <= 2 i - 1 and j <= n - 1 }");
map = isl_map_transitive_closure(map, &exact);
assert(exact);
map2 = isl_map_read_from_str(ctx,
"[n] -> { [i,j] -> [i2,j2] : exists (k1,k2,k3,k : "
"i <= 2 j - 1 and i <= n and j <= 2 i - 1 and "
"j <= n and 3 + i + 2 j <= 3 n and "
"3 + 2 i + j <= 3n and i2 <= 2 j2 -1 and i2 <= n and "
"i2 <= 3 j2 - 4 and j2 <= 2 i2 -1 and j2 <= n and "
"13 + 4 j2 <= 11 i2 and i2 = i + 3 k1 + k3 and "
"j2 = j + 3 k2 + k3 and k1 >= 0 and k2 >= 0 and "
"k3 >= 0 and k1 + k2 + k3 = k and k > 0) }");
assert(isl_map_is_equal(map, map2));
isl_map_free(map2);
isl_map_free(map);
/* COCOA Fig.1 right */
dom = isl_set_read_from_str(ctx,
"{ [x,y] : x >= 0 and -2 x + 3 y >= 0 and x <= 3 and "
"2 x - 3 y + 3 >= 0 }");
right = isl_map_read_from_str(ctx,
"{ [x,y] -> [x2,y2] : x2 = x + 1 and y2 = y }");
up = isl_map_read_from_str(ctx,
"{ [x,y] -> [x2,y2] : x2 = x and y2 = y + 1 }");
right = isl_map_intersect_domain(right, isl_set_copy(dom));
right = isl_map_intersect_range(right, isl_set_copy(dom));
up = isl_map_intersect_domain(up, isl_set_copy(dom));
up = isl_map_intersect_range(up, dom);
map = isl_map_union(up, right);
map = isl_map_transitive_closure(map, &exact);
assert(exact);
map2 = isl_map_read_from_str(ctx,
"{ [0,0] -> [0,1]; [0,0] -> [1,1]; [0,1] -> [1,1]; "
" [2,2] -> [3,2]; [2,2] -> [3,3]; [3,2] -> [3,3] }");
assert(isl_map_is_equal(map, map2));
isl_map_free(map2);
isl_map_free(map);
/* COCOA Theorem 1 counter example */
map = isl_map_read_from_str(ctx,
"{ [i,j] -> [i2,j2] : i = 0 and 0 <= j and j <= 1 and "
"i2 = 1 and j2 = j or "
"i = 0 and j = 0 and i2 = 0 and j2 = 1 }");
map = isl_map_transitive_closure(map, &exact);
assert(exact);
isl_map_free(map);
map = isl_map_read_from_str(ctx,
"[m,n] -> { [i,j] -> [i2,j2] : i2 = i and j2 = j + 2 and "
"1 <= i,i2 <= n and 1 <= j,j2 <= m or "
"i2 = i + 1 and 3 <= j2 - j <= 4 and "
"1 <= i,i2 <= n and 1 <= j,j2 <= m }");
map = isl_map_transitive_closure(map, &exact);
assert(exact);
isl_map_free(map);
/* Kelly et al 1996, fig 12 */
map = isl_map_read_from_str(ctx,
"[n] -> { [i,j] -> [i2,j2] : i2 = i and j2 = j + 1 and "
"1 <= i,j,j+1 <= n or "
"j = n and j2 = 1 and i2 = i + 1 and "
"1 <= i,i+1 <= n }");
map = isl_map_transitive_closure(map, &exact);
assert(exact);
map2 = isl_map_read_from_str(ctx,
"[n] -> { [i,j] -> [i2,j2] : 1 <= j < j2 <= n and "
"1 <= i <= n and i = i2 or "
"1 <= i < i2 <= n and 1 <= j <= n and "
"1 <= j2 <= n }");
assert(isl_map_is_equal(map, map2));
isl_map_free(map2);
isl_map_free(map);
/* Omega's closure4 */
map = isl_map_read_from_str(ctx,
"[m,n] -> { [x,y] -> [x2,y2] : x2 = x and y2 = y + 1 and "
"1 <= x,y <= 10 or "
"x2 = x + 1 and y2 = y and "
"1 <= x <= 20 && 5 <= y <= 15 }");
map = isl_map_transitive_closure(map, &exact);
assert(exact);
isl_map_free(map);
map = isl_map_read_from_str(ctx,
"[n] -> { [x] -> [y]: 1 <= n <= y - x <= 10 }");
map = isl_map_transitive_closure(map, &exact);
assert(!exact);
map2 = isl_map_read_from_str(ctx,
"[n] -> { [x] -> [y] : 1 <= n <= 10 and y >= n + x }");
assert(isl_map_is_equal(map, map2));
isl_map_free(map);
isl_map_free(map2);
str = "[n, m] -> { [i0, i1, i2, i3] -> [o0, o1, o2, o3] : "
"i3 = 1 and o0 = i0 and o1 = -1 + i1 and o2 = -1 + i2 and "
"o3 = -2 + i2 and i1 <= -1 + i0 and i1 >= 1 - m + i0 and "
"i1 >= 2 and i1 <= n and i2 >= 3 and i2 <= 1 + n and i2 <= m }";
map = isl_map_read_from_str(ctx, str);
map = isl_map_transitive_closure(map, &exact);
assert(exact);
map2 = isl_map_read_from_str(ctx, str);
assert(isl_map_is_equal(map, map2));
isl_map_free(map);
isl_map_free(map2);
str = "{[0] -> [1]; [2] -> [3]}";
map = isl_map_read_from_str(ctx, str);
map = isl_map_transitive_closure(map, &exact);
assert(exact);
map2 = isl_map_read_from_str(ctx, str);
assert(isl_map_is_equal(map, map2));
isl_map_free(map);
isl_map_free(map2);
str = "[n] -> { [[i0, i1, 1, 0, i0] -> [i5, 1]] -> "
"[[i0, -1 + i1, 2, 0, i0] -> [-1 + i5, 2]] : "
"exists (e0 = [(3 - n)/3]: i5 >= 2 and i1 >= 2 and "
"3i0 <= -1 + n and i1 <= -1 + n and i5 <= -1 + n and "
"3e0 >= 1 - n and 3e0 <= 2 - n and 3i0 >= -2 + n); "
"[[i0, i1, 2, 0, i0] -> [i5, 1]] -> "
"[[i0, i1, 1, 0, i0] -> [-1 + i5, 2]] : "
"exists (e0 = [(3 - n)/3]: i5 >= 2 and i1 >= 1 and "
"3i0 <= -1 + n and i1 <= -1 + n and i5 <= -1 + n and "
"3e0 >= 1 - n and 3e0 <= 2 - n and 3i0 >= -2 + n); "
"[[i0, i1, 1, 0, i0] -> [i5, 2]] -> "
"[[i0, -1 + i1, 2, 0, i0] -> [i5, 1]] : "
"exists (e0 = [(3 - n)/3]: i1 >= 2 and i5 >= 1 and "
"3i0 <= -1 + n and i1 <= -1 + n and i5 <= -1 + n and "
"3e0 >= 1 - n and 3e0 <= 2 - n and 3i0 >= -2 + n); "
"[[i0, i1, 2, 0, i0] -> [i5, 2]] -> "
"[[i0, i1, 1, 0, i0] -> [i5, 1]] : "
"exists (e0 = [(3 - n)/3]: i5 >= 1 and i1 >= 1 and "
"3i0 <= -1 + n and i1 <= -1 + n and i5 <= -1 + n and "
"3e0 >= 1 - n and 3e0 <= 2 - n and 3i0 >= -2 + n) }";
map = isl_map_read_from_str(ctx, str);
map = isl_map_transitive_closure(map, NULL);
assert(map);
isl_map_free(map);
}
void test_lex(struct isl_ctx *ctx)
{
isl_space *dim;
isl_map *map;
dim = isl_space_set_alloc(ctx, 0, 0);
map = isl_map_lex_le(dim);
assert(!isl_map_is_empty(map));
isl_map_free(map);
}
static int test_lexmin(struct isl_ctx *ctx)
{
int equal;
const char *str;
isl_basic_map *bmap;
isl_map *map, *map2;
isl_set *set;
isl_set *set2;
isl_pw_multi_aff *pma;
str = "[p0, p1] -> { [] -> [] : "
"exists (e0 = [(2p1)/3], e1, e2, e3 = [(3 - p1 + 3e0)/3], "
"e4 = [(p1)/3], e5 = [(p1 + 3e4)/3]: "
"3e0 >= -2 + 2p1 and 3e0 >= p1 and 3e3 >= 1 - p1 + 3e0 and "
"3e0 <= 2p1 and 3e3 >= -2 + p1 and 3e3 <= -1 + p1 and p1 >= 3 and "
"3e5 >= -2 + 2p1 and 3e5 >= p1 and 3e5 <= -1 + p1 + 3e4 and "
"3e4 <= p1 and 3e4 >= -2 + p1 and e3 <= -1 + e0 and "
"3e4 >= 6 - p1 + 3e1 and 3e1 >= p1 and 3e5 >= -2 + p1 + 3e4 and "
"2e4 >= 3 - p1 + 2e1 and e4 <= e1 and 3e3 <= 2 - p1 + 3e0 and "
"e5 >= 1 + e1 and 3e4 >= 6 - 2p1 + 3e1 and "
"p0 >= 2 and p1 >= p0 and 3e2 >= p1 and 3e4 >= 6 - p1 + 3e2 and "
"e2 <= e1 and e3 >= 1 and e4 <= e2) }";
map = isl_map_read_from_str(ctx, str);
map = isl_map_lexmin(map);
isl_map_free(map);
str = "[C] -> { [obj,a,b,c] : obj <= 38 a + 7 b + 10 c and "
"a + b <= 1 and c <= 10 b and c <= C and a,b,c,C >= 0 }";
set = isl_set_read_from_str(ctx, str);
set = isl_set_lexmax(set);
str = "[C] -> { [obj,a,b,c] : C = 8 }";
set2 = isl_set_read_from_str(ctx, str);
set = isl_set_intersect(set, set2);
assert(!isl_set_is_empty(set));
isl_set_free(set);
str = "{ [x] -> [y] : x <= y <= 10; [x] -> [5] : -8 <= x <= 8 }";
map = isl_map_read_from_str(ctx, str);
map = isl_map_lexmin(map);
str = "{ [x] -> [5] : 6 <= x <= 8; "
"[x] -> [x] : x <= 5 or (9 <= x <= 10) }";
map2 = isl_map_read_from_str(ctx, str);
assert(isl_map_is_equal(map, map2));
isl_map_free(map);
isl_map_free(map2);
str = "{ [x] -> [y] : 4y = x or 4y = -1 + x or 4y = -2 + x }";
map = isl_map_read_from_str(ctx, str);
map2 = isl_map_copy(map);
map = isl_map_lexmin(map);
assert(isl_map_is_equal(map, map2));
isl_map_free(map);
isl_map_free(map2);
str = "{ [x] -> [y] : x = 4y; [x] -> [y] : x = 2y }";
map = isl_map_read_from_str(ctx, str);
map = isl_map_lexmin(map);
str = "{ [x] -> [y] : (4y = x and x >= 0) or "
"(exists (e0 = [(x)/4], e1 = [(-2 + x)/4]: 2y = x and "
"4e1 = -2 + x and 4e0 <= -1 + x and 4e0 >= -3 + x)) or "
"(exists (e0 = [(x)/4]: 2y = x and 4e0 = x and x <= -4)) }";
map2 = isl_map_read_from_str(ctx, str);
assert(isl_map_is_equal(map, map2));
isl_map_free(map);
isl_map_free(map2);
str = "{ [i] -> [i', j] : j = i - 8i' and i' >= 0 and i' <= 7 and "
" 8i' <= i and 8i' >= -7 + i }";
bmap = isl_basic_map_read_from_str(ctx, str);
pma = isl_basic_map_lexmin_pw_multi_aff(isl_basic_map_copy(bmap));
map2 = isl_map_from_pw_multi_aff(pma);
map = isl_map_from_basic_map(bmap);
assert(isl_map_is_equal(map, map2));
isl_map_free(map);
isl_map_free(map2);
str = "{ T[a] -> S[b, c] : a = 4b-2c and c >= b }";
map = isl_map_read_from_str(ctx, str);
map = isl_map_lexmin(map);
str = "{ T[a] -> S[b, c] : 2b = a and 2c = a }";
map2 = isl_map_read_from_str(ctx, str);
assert(isl_map_is_equal(map, map2));
isl_map_free(map);
isl_map_free(map2);
/* Check that empty pieces are properly combined. */
str = "[K, N] -> { [x, y] -> [a, b] : K+2<=N<=K+4 and x>=4 and "
"2N-6<=x<K+N and N-1<=a<=K+N-1 and N+b-6<=a<=2N-4 and "
"b<=2N-3K+a and 3b<=4N-K+1 and b>=N and a>=x+1 }";
map = isl_map_read_from_str(ctx, str);
map = isl_map_lexmin(map);
str = "[K, N] -> { [x, y] -> [1 + x, N] : x >= -6 + 2N and "
"x <= -5 + 2N and x >= -1 + 3K - N and x <= -2 + K + N and "
"x >= 4 }";
map2 = isl_map_read_from_str(ctx, str);
assert(isl_map_is_equal(map, map2));
isl_map_free(map);
isl_map_free(map2);
str = "[i] -> { [i', j] : j = i - 8i' and i' >= 0 and i' <= 7 and "
" 8i' <= i and 8i' >= -7 + i }";
set = isl_set_read_from_str(ctx, str);
pma = isl_set_lexmin_pw_multi_aff(isl_set_copy(set));
set2 = isl_set_from_pw_multi_aff(pma);
equal = isl_set_is_equal(set, set2);
isl_set_free(set);
isl_set_free(set2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown,
"unexpected difference between set and "
"piecewise affine expression", return -1);
return 0;
}
/* Check that isl_set_min_val and isl_set_max_val compute the correct
* result on non-convex inputs.
*/
static int test_min(struct isl_ctx *ctx)
{
isl_set *set;
isl_aff *aff;
isl_val *val;
int min_ok, max_ok;
set = isl_set_read_from_str(ctx, "{ [-1]; [1] }");
aff = isl_aff_read_from_str(ctx, "{ [x] -> [x] }");
val = isl_set_min_val(set, aff);
min_ok = isl_val_is_negone(val);
isl_val_free(val);
val = isl_set_max_val(set, aff);
max_ok = isl_val_is_one(val);
isl_val_free(val);
isl_aff_free(aff);
isl_set_free(set);
if (min_ok < 0 || max_ok < 0)
return -1;
if (!min_ok)
isl_die(ctx, isl_error_unknown,
"unexpected minimum", return -1);
if (!max_ok)
isl_die(ctx, isl_error_unknown,
"unexpected maximum", return -1);
return 0;
}
struct must_may {
isl_map *must;
isl_map *may;
};
static int collect_must_may(__isl_take isl_map *dep, int must,
void *dep_user, void *user)
{
struct must_may *mm = (struct must_may *)user;
if (must)
mm->must = isl_map_union(mm->must, dep);
else
mm->may = isl_map_union(mm->may, dep);
return 0;
}
static int common_space(void *first, void *second)
{
int depth = *(int *)first;
return 2 * depth;
}
static int map_is_equal(__isl_keep isl_map *map, const char *str)
{
isl_map *map2;
int equal;
if (!map)
return -1;
map2 = isl_map_read_from_str(map->ctx, str);
equal = isl_map_is_equal(map, map2);
isl_map_free(map2);
return equal;
}
static int map_check_equal(__isl_keep isl_map *map, const char *str)
{
int equal;
equal = map_is_equal(map, str);
if (equal < 0)
return -1;
if (!equal)
isl_die(isl_map_get_ctx(map), isl_error_unknown,
"result not as expected", return -1);
return 0;
}
void test_dep(struct isl_ctx *ctx)
{
const char *str;
isl_space *dim;
isl_map *map;
isl_access_info *ai;
isl_flow *flow;
int depth;
struct must_may mm;
depth = 3;
str = "{ [2,i,0] -> [i] : 0 <= i <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_alloc(map, &depth, &common_space, 2);
str = "{ [0,i,0] -> [i] : 0 <= i <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_add_source(ai, map, 1, &depth);
str = "{ [1,i,0] -> [5] : 0 <= i <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_add_source(ai, map, 1, &depth);
flow = isl_access_info_compute_flow(ai);
dim = isl_space_alloc(ctx, 0, 3, 3);
mm.must = isl_map_empty(isl_space_copy(dim));
mm.may = isl_map_empty(dim);
isl_flow_foreach(flow, collect_must_may, &mm);
str = "{ [0,i,0] -> [2,i,0] : (0 <= i <= 4) or (6 <= i <= 10); "
" [1,10,0] -> [2,5,0] }";
assert(map_is_equal(mm.must, str));
str = "{ [i,j,k] -> [l,m,n] : 1 = 0 }";
assert(map_is_equal(mm.may, str));
isl_map_free(mm.must);
isl_map_free(mm.may);
isl_flow_free(flow);
str = "{ [2,i,0] -> [i] : 0 <= i <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_alloc(map, &depth, &common_space, 2);
str = "{ [0,i,0] -> [i] : 0 <= i <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_add_source(ai, map, 1, &depth);
str = "{ [1,i,0] -> [5] : 0 <= i <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_add_source(ai, map, 0, &depth);
flow = isl_access_info_compute_flow(ai);
dim = isl_space_alloc(ctx, 0, 3, 3);
mm.must = isl_map_empty(isl_space_copy(dim));
mm.may = isl_map_empty(dim);
isl_flow_foreach(flow, collect_must_may, &mm);
str = "{ [0,i,0] -> [2,i,0] : (0 <= i <= 4) or (6 <= i <= 10) }";
assert(map_is_equal(mm.must, str));
str = "{ [0,5,0] -> [2,5,0]; [1,i,0] -> [2,5,0] : 0 <= i <= 10 }";
assert(map_is_equal(mm.may, str));
isl_map_free(mm.must);
isl_map_free(mm.may);
isl_flow_free(flow);
str = "{ [2,i,0] -> [i] : 0 <= i <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_alloc(map, &depth, &common_space, 2);
str = "{ [0,i,0] -> [i] : 0 <= i <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_add_source(ai, map, 0, &depth);
str = "{ [1,i,0] -> [5] : 0 <= i <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_add_source(ai, map, 0, &depth);
flow = isl_access_info_compute_flow(ai);
dim = isl_space_alloc(ctx, 0, 3, 3);
mm.must = isl_map_empty(isl_space_copy(dim));
mm.may = isl_map_empty(dim);
isl_flow_foreach(flow, collect_must_may, &mm);
str = "{ [0,i,0] -> [2,i,0] : 0 <= i <= 10; "
" [1,i,0] -> [2,5,0] : 0 <= i <= 10 }";
assert(map_is_equal(mm.may, str));
str = "{ [i,j,k] -> [l,m,n] : 1 = 0 }";
assert(map_is_equal(mm.must, str));
isl_map_free(mm.must);
isl_map_free(mm.may);
isl_flow_free(flow);
str = "{ [0,i,2] -> [i] : 0 <= i <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_alloc(map, &depth, &common_space, 2);
str = "{ [0,i,0] -> [i] : 0 <= i <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_add_source(ai, map, 0, &depth);
str = "{ [0,i,1] -> [5] : 0 <= i <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_add_source(ai, map, 0, &depth);
flow = isl_access_info_compute_flow(ai);
dim = isl_space_alloc(ctx, 0, 3, 3);
mm.must = isl_map_empty(isl_space_copy(dim));
mm.may = isl_map_empty(dim);
isl_flow_foreach(flow, collect_must_may, &mm);
str = "{ [0,i,0] -> [0,i,2] : 0 <= i <= 10; "
" [0,i,1] -> [0,5,2] : 0 <= i <= 5 }";
assert(map_is_equal(mm.may, str));
str = "{ [i,j,k] -> [l,m,n] : 1 = 0 }";
assert(map_is_equal(mm.must, str));
isl_map_free(mm.must);
isl_map_free(mm.may);
isl_flow_free(flow);
str = "{ [0,i,1] -> [i] : 0 <= i <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_alloc(map, &depth, &common_space, 2);
str = "{ [0,i,0] -> [i] : 0 <= i <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_add_source(ai, map, 0, &depth);
str = "{ [0,i,2] -> [5] : 0 <= i <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_add_source(ai, map, 0, &depth);
flow = isl_access_info_compute_flow(ai);
dim = isl_space_alloc(ctx, 0, 3, 3);
mm.must = isl_map_empty(isl_space_copy(dim));
mm.may = isl_map_empty(dim);
isl_flow_foreach(flow, collect_must_may, &mm);
str = "{ [0,i,0] -> [0,i,1] : 0 <= i <= 10; "
" [0,i,2] -> [0,5,1] : 0 <= i <= 4 }";
assert(map_is_equal(mm.may, str));
str = "{ [i,j,k] -> [l,m,n] : 1 = 0 }";
assert(map_is_equal(mm.must, str));
isl_map_free(mm.must);
isl_map_free(mm.may);
isl_flow_free(flow);
depth = 5;
str = "{ [1,i,0,0,0] -> [i,j] : 0 <= i <= 10 and 0 <= j <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_alloc(map, &depth, &common_space, 1);
str = "{ [0,i,0,j,0] -> [i,j] : 0 <= i <= 10 and 0 <= j <= 10 }";
map = isl_map_read_from_str(ctx, str);
ai = isl_access_info_add_source(ai, map, 1, &depth);
flow = isl_access_info_compute_flow(ai);
dim = isl_space_alloc(ctx, 0, 5, 5);
mm.must = isl_map_empty(isl_space_copy(dim));
mm.may = isl_map_empty(dim);
isl_flow_foreach(flow, collect_must_may, &mm);
str = "{ [0,i,0,j,0] -> [1,i,0,0,0] : 0 <= i,j <= 10 }";
assert(map_is_equal(mm.must, str));
str = "{ [0,0,0,0,0] -> [0,0,0,0,0] : 1 = 0 }";
assert(map_is_equal(mm.may, str));
isl_map_free(mm.must);
isl_map_free(mm.may);
isl_flow_free(flow);
}
/* Check that the dependence analysis proceeds without errors.
* Earlier versions of isl would break down during the analysis
* due to the use of the wrong spaces.
*/
static int test_flow(isl_ctx *ctx)
{
const char *str;
isl_union_map *access, *schedule;
isl_union_map *must_dep, *may_dep;
int r;
str = "{ S0[j] -> i[]; S1[j,i] -> i[]; S2[] -> i[]; S3[] -> i[] }";
access = isl_union_map_read_from_str(ctx, str);
str = "{ S0[j] -> [0,j,0,0] : 0 <= j < 10; "
"S1[j,i] -> [0,j,1,i] : 0 <= j < i < 10; "
"S2[] -> [1,0,0,0]; "
"S3[] -> [-1,0,0,0] }";
schedule = isl_union_map_read_from_str(ctx, str);
r = isl_union_map_compute_flow(access, isl_union_map_copy(access),
isl_union_map_copy(access), schedule,
&must_dep, &may_dep, NULL, NULL);
isl_union_map_free(may_dep);
isl_union_map_free(must_dep);
return r;
}
struct {
const char *map;
int sv;
} sv_tests[] = {
{ "[N] -> { [i] -> [f] : 0 <= i <= N and 0 <= i - 10 f <= 9 }", 1 },
{ "[N] -> { [i] -> [f] : 0 <= i <= N and 0 <= i - 10 f <= 10 }", 0 },
{ "{ [i] -> [3*floor(i/2) + 5*floor(i/3)] }", 1 },
{ "{ S1[i] -> [i] : 0 <= i <= 9; S2[i] -> [i] : 0 <= i <= 9 }", 1 },
{ "{ [i] -> S1[i] : 0 <= i <= 9; [i] -> S2[i] : 0 <= i <= 9 }", 0 },
{ "{ A[i] -> [i]; B[i] -> [i]; B[i] -> [i + 1] }", 0 },
{ "{ A[i] -> [i]; B[i] -> [i] : i < 0; B[i] -> [i + 1] : i > 0 }", 1 },
{ "{ A[i] -> [i]; B[i] -> A[i] : i < 0; B[i] -> [i + 1] : i > 0 }", 1 },
{ "{ A[i] -> [i]; B[i] -> [j] : i - 1 <= j <= i }", 0 },
};
int test_sv(isl_ctx *ctx)
{
isl_union_map *umap;
int i;
int sv;
for (i = 0; i < ARRAY_SIZE(sv_tests); ++i) {
umap = isl_union_map_read_from_str(ctx, sv_tests[i].map);
sv = isl_union_map_is_single_valued(umap);
isl_union_map_free(umap);
if (sv < 0)
return -1;
if (sv_tests[i].sv && !sv)
isl_die(ctx, isl_error_internal,
"map not detected as single valued", return -1);
if (!sv_tests[i].sv && sv)
isl_die(ctx, isl_error_internal,
"map detected as single valued", return -1);
}
return 0;
}
void test_bijective_case(struct isl_ctx *ctx, const char *str, int bijective)
{
isl_map *map;
map = isl_map_read_from_str(ctx, str);
if (bijective)
assert(isl_map_is_bijective(map));
else
assert(!isl_map_is_bijective(map));
isl_map_free(map);
}
void test_bijective(struct isl_ctx *ctx)
{
test_bijective_case(ctx, "[N,M]->{[i,j] -> [i]}", 0);
test_bijective_case(ctx, "[N,M]->{[i,j] -> [i] : j=i}", 1);
test_bijective_case(ctx, "[N,M]->{[i,j] -> [i] : j=0}", 1);
test_bijective_case(ctx, "[N,M]->{[i,j] -> [i] : j=N}", 1);
test_bijective_case(ctx, "[N,M]->{[i,j] -> [j,i]}", 1);
test_bijective_case(ctx, "[N,M]->{[i,j] -> [i+j]}", 0);
test_bijective_case(ctx, "[N,M]->{[i,j] -> []}", 0);
test_bijective_case(ctx, "[N,M]->{[i,j] -> [i,j,N]}", 1);
test_bijective_case(ctx, "[N,M]->{[i,j] -> [2i]}", 0);
test_bijective_case(ctx, "[N,M]->{[i,j] -> [i,i]}", 0);
test_bijective_case(ctx, "[N,M]->{[i,j] -> [2i,i]}", 0);
test_bijective_case(ctx, "[N,M]->{[i,j] -> [2i,j]}", 1);
test_bijective_case(ctx, "[N,M]->{[i,j] -> [x,y] : 2x=i & y =j}", 1);
}
/* Inputs for isl_pw_qpolynomial_gist tests.
* "pwqp" is the input, "set" is the context and "gist" is the expected result.
*/
struct {
const char *pwqp;
const char *set;
const char *gist;
} pwqp_gist_tests[] = {
{ "{ [i] -> i }", "{ [k] : exists a : k = 2a }", "{ [i] -> i }" },
{ "{ [i] -> i + [ (i + [i/3])/2 ] }", "{ [10] }", "{ [i] -> 16 }" },
{ "{ [i] -> ([(i)/2]) }", "{ [k] : exists a : k = 2a+1 }",
"{ [i] -> -1/2 + 1/2 * i }" },
{ "{ [i] -> i^2 : i != 0 }", "{ [i] : i != 0 }", "{ [i] -> i^2 }" },
};
static int test_pwqp(struct isl_ctx *ctx)
{
int i;
const char *str;
isl_set *set;
isl_pw_qpolynomial *pwqp1, *pwqp2;
int equal;
str = "{ [i,j,k] -> 1 + 9 * [i/5] + 7 * [j/11] + 4 * [k/13] }";
pwqp1 = isl_pw_qpolynomial_read_from_str(ctx, str);
pwqp1 = isl_pw_qpolynomial_move_dims(pwqp1, isl_dim_param, 0,
isl_dim_in, 1, 1);
str = "[j] -> { [i,k] -> 1 + 9 * [i/5] + 7 * [j/11] + 4 * [k/13] }";
pwqp2 = isl_pw_qpolynomial_read_from_str(ctx, str);
pwqp1 = isl_pw_qpolynomial_sub(pwqp1, pwqp2);
assert(isl_pw_qpolynomial_is_zero(pwqp1));
isl_pw_qpolynomial_free(pwqp1);
for (i = 0; i < ARRAY_SIZE(pwqp_gist_tests); ++i) {
str = pwqp_gist_tests[i].pwqp;
pwqp1 = isl_pw_qpolynomial_read_from_str(ctx, str);
str = pwqp_gist_tests[i].set;
set = isl_set_read_from_str(ctx, str);
pwqp1 = isl_pw_qpolynomial_gist(pwqp1, set);
str = pwqp_gist_tests[i].gist;
pwqp2 = isl_pw_qpolynomial_read_from_str(ctx, str);
pwqp1 = isl_pw_qpolynomial_sub(pwqp1, pwqp2);
equal = isl_pw_qpolynomial_is_zero(pwqp1);
isl_pw_qpolynomial_free(pwqp1);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown,
"unexpected result", return -1);
}
str = "{ [i] -> ([([i/2] + [i/2])/5]) }";
pwqp1 = isl_pw_qpolynomial_read_from_str(ctx, str);
str = "{ [i] -> ([(2 * [i/2])/5]) }";
pwqp2 = isl_pw_qpolynomial_read_from_str(ctx, str);
pwqp1 = isl_pw_qpolynomial_sub(pwqp1, pwqp2);
assert(isl_pw_qpolynomial_is_zero(pwqp1));
isl_pw_qpolynomial_free(pwqp1);
str = "{ [x] -> ([x/2] + [(x+1)/2]) }";
pwqp1 = isl_pw_qpolynomial_read_from_str(ctx, str);
str = "{ [x] -> x }";
pwqp2 = isl_pw_qpolynomial_read_from_str(ctx, str);
pwqp1 = isl_pw_qpolynomial_sub(pwqp1, pwqp2);
assert(isl_pw_qpolynomial_is_zero(pwqp1));
isl_pw_qpolynomial_free(pwqp1);
str = "{ [i] -> ([i/2]) : i >= 0; [i] -> ([i/3]) : i < 0 }";
pwqp1 = isl_pw_qpolynomial_read_from_str(ctx, str);
pwqp2 = isl_pw_qpolynomial_read_from_str(ctx, str);
pwqp1 = isl_pw_qpolynomial_coalesce(pwqp1);
pwqp1 = isl_pw_qpolynomial_sub(pwqp1, pwqp2);
assert(isl_pw_qpolynomial_is_zero(pwqp1));
isl_pw_qpolynomial_free(pwqp1);
str = "{ [a,b,a] -> (([(2*[a/3]+b)/5]) * ([(2*[a/3]+b)/5])) }";
pwqp2 = isl_pw_qpolynomial_read_from_str(ctx, str);
str = "{ [a,b,c] -> (([(2*[a/3]+b)/5]) * ([(2*[c/3]+b)/5])) }";
pwqp1 = isl_pw_qpolynomial_read_from_str(ctx, str);
set = isl_set_read_from_str(ctx, "{ [a,b,a] }");
pwqp1 = isl_pw_qpolynomial_intersect_domain(pwqp1, set);
equal = isl_pw_qpolynomial_plain_is_equal(pwqp1, pwqp2);
isl_pw_qpolynomial_free(pwqp1);
isl_pw_qpolynomial_free(pwqp2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "unexpected result", return -1);
str = "{ [a,b,c] -> (([(2*[a/3]+1)/5]) * ([(2*[c/3]+1)/5])) : b = 1 }";
pwqp2 = isl_pw_qpolynomial_read_from_str(ctx, str);
str = "{ [a,b,c] -> (([(2*[a/3]+b)/5]) * ([(2*[c/3]+b)/5])) }";
pwqp1 = isl_pw_qpolynomial_read_from_str(ctx, str);
pwqp1 = isl_pw_qpolynomial_fix_val(pwqp1, isl_dim_set, 1,
isl_val_one(ctx));
equal = isl_pw_qpolynomial_plain_is_equal(pwqp1, pwqp2);
isl_pw_qpolynomial_free(pwqp1);
isl_pw_qpolynomial_free(pwqp2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "unexpected result", return -1);
return 0;
}
void test_split_periods(isl_ctx *ctx)
{
const char *str;
isl_pw_qpolynomial *pwqp;
str = "{ [U,V] -> 1/3 * U + 2/3 * V - [(U + 2V)/3] + [U/2] : "
"U + 2V + 3 >= 0 and - U -2V >= 0 and - U + 10 >= 0 and "
"U >= 0; [U,V] -> U^2 : U >= 100 }";
pwqp = isl_pw_qpolynomial_read_from_str(ctx, str);
pwqp = isl_pw_qpolynomial_split_periods(pwqp, 2);
assert(pwqp);
isl_pw_qpolynomial_free(pwqp);
}
void test_union(isl_ctx *ctx)
{
const char *str;
isl_union_set *uset1, *uset2;
isl_union_map *umap1, *umap2;
str = "{ [i] : 0 <= i <= 1 }";
uset1 = isl_union_set_read_from_str(ctx, str);
str = "{ [1] -> [0] }";
umap1 = isl_union_map_read_from_str(ctx, str);
umap2 = isl_union_set_lex_gt_union_set(isl_union_set_copy(uset1), uset1);
assert(isl_union_map_is_equal(umap1, umap2));
isl_union_map_free(umap1);
isl_union_map_free(umap2);
str = "{ A[i] -> B[i]; B[i] -> C[i]; A[0] -> C[1] }";
umap1 = isl_union_map_read_from_str(ctx, str);
str = "{ A[i]; B[i] }";
uset1 = isl_union_set_read_from_str(ctx, str);
uset2 = isl_union_map_domain(umap1);
assert(isl_union_set_is_equal(uset1, uset2));
isl_union_set_free(uset1);
isl_union_set_free(uset2);
}
void test_bound(isl_ctx *ctx)
{
const char *str;
isl_pw_qpolynomial *pwqp;
isl_pw_qpolynomial_fold *pwf;
str = "{ [[a, b, c, d] -> [e]] -> 0 }";
pwqp = isl_pw_qpolynomial_read_from_str(ctx, str);
pwf = isl_pw_qpolynomial_bound(pwqp, isl_fold_max, NULL);
assert(isl_pw_qpolynomial_fold_dim(pwf, isl_dim_in) == 4);
isl_pw_qpolynomial_fold_free(pwf);
str = "{ [[x]->[x]] -> 1 : exists a : x = 2 a }";
pwqp = isl_pw_qpolynomial_read_from_str(ctx, str);
pwf = isl_pw_qpolynomial_bound(pwqp, isl_fold_max, NULL);
assert(isl_pw_qpolynomial_fold_dim(pwf, isl_dim_in) == 1);
isl_pw_qpolynomial_fold_free(pwf);
}
void test_lift(isl_ctx *ctx)
{
const char *str;
isl_basic_map *bmap;
isl_basic_set *bset;
str = "{ [i0] : exists e0 : i0 = 4e0 }";
bset = isl_basic_set_read_from_str(ctx, str);
bset = isl_basic_set_lift(bset);
bmap = isl_basic_map_from_range(bset);
bset = isl_basic_map_domain(bmap);
isl_basic_set_free(bset);
}
struct {
const char *set1;
const char *set2;
int subset;
} subset_tests[] = {
{ "{ [112, 0] }",
"{ [i0, i1] : exists (e0 = [(i0 - i1)/16], e1: "
"16e0 <= i0 - i1 and 16e0 >= -15 + i0 - i1 and "
"16e1 <= i1 and 16e0 >= -i1 and 16e1 >= -i0 + i1) }", 1 },
{ "{ [65] }",
"{ [i] : exists (e0 = [(255i)/256], e1 = [(127i + 65e0)/191], "
"e2 = [(3i + 61e1)/65], e3 = [(52i + 12e2)/61], "
"e4 = [(2i + e3)/3], e5 = [(4i + e3)/4], e6 = [(8i + e3)/12]: "
"3e4 = 2i + e3 and 4e5 = 4i + e3 and 12e6 = 8i + e3 and "
"i <= 255 and 64e3 >= -45 + 67i and i >= 0 and "
"256e0 <= 255i and 256e0 >= -255 + 255i and "
"191e1 <= 127i + 65e0 and 191e1 >= -190 + 127i + 65e0 and "
"65e2 <= 3i + 61e1 and 65e2 >= -64 + 3i + 61e1 and "
"61e3 <= 52i + 12e2 and 61e3 >= -60 + 52i + 12e2) }", 1 },
{ "{ [i] : 0 <= i <= 10 }", "{ rat: [i] : 0 <= i <= 10 }", 1 },
{ "{ rat: [i] : 0 <= i <= 10 }", "{ [i] : 0 <= i <= 10 }", 0 },
{ "{ rat: [0] }", "{ [i] : 0 <= i <= 10 }", 1 },
{ "{ rat: [(1)/2] }", "{ [i] : 0 <= i <= 10 }", 0 },
{ "{ [t, i] : (exists (e0 = [(2 + t)/4]: 4e0 <= 2 + t and "
"4e0 >= -1 + t and i >= 57 and i <= 62 and "
"4e0 <= 62 + t - i and 4e0 >= -61 + t + i and "
"t >= 0 and t <= 511 and 4e0 <= -57 + t + i and "
"4e0 >= 58 + t - i and i >= 58 + t and i >= 62 - t)) }",
"{ [i0, i1] : (exists (e0 = [(4 + i0)/4]: 4e0 <= 62 + i0 - i1 and "
"4e0 >= 1 + i0 and i0 >= 0 and i0 <= 511 and "
"4e0 <= -57 + i0 + i1)) or "
"(exists (e0 = [(2 + i0)/4]: 4e0 <= i0 and "
"4e0 >= 58 + i0 - i1 and i0 >= 2 and i0 <= 511 and "
"4e0 >= -61 + i0 + i1)) or "
"(i1 <= 66 - i0 and i0 >= 2 and i1 >= 59 + i0) }", 1 },
};
static int test_subset(isl_ctx *ctx)
{
int i;
isl_set *set1, *set2;
int subset;
for (i = 0; i < ARRAY_SIZE(subset_tests); ++i) {
set1 = isl_set_read_from_str(ctx, subset_tests[i].set1);
set2 = isl_set_read_from_str(ctx, subset_tests[i].set2);
subset = isl_set_is_subset(set1, set2);
isl_set_free(set1);
isl_set_free(set2);
if (subset < 0)
return -1;
if (subset != subset_tests[i].subset)
isl_die(ctx, isl_error_unknown,
"incorrect subset result", return -1);
}
return 0;
}
struct {
const char *minuend;
const char *subtrahend;
const char *difference;
} subtract_domain_tests[] = {
{ "{ A[i] -> B[i] }", "{ A[i] }", "{ }" },
{ "{ A[i] -> B[i] }", "{ B[i] }", "{ A[i] -> B[i] }" },
{ "{ A[i] -> B[i] }", "{ A[i] : i > 0 }", "{ A[i] -> B[i] : i <= 0 }" },
};
static int test_subtract(isl_ctx *ctx)
{
int i;
isl_union_map *umap1, *umap2;
isl_union_set *uset;
int equal;
for (i = 0; i < ARRAY_SIZE(subtract_domain_tests); ++i) {
umap1 = isl_union_map_read_from_str(ctx,
subtract_domain_tests[i].minuend);
uset = isl_union_set_read_from_str(ctx,
subtract_domain_tests[i].subtrahend);
umap2 = isl_union_map_read_from_str(ctx,
subtract_domain_tests[i].difference);
umap1 = isl_union_map_subtract_domain(umap1, uset);
equal = isl_union_map_is_equal(umap1, umap2);
isl_union_map_free(umap1);
isl_union_map_free(umap2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown,
"incorrect subtract domain result", return -1);
}
return 0;
}
int test_factorize(isl_ctx *ctx)
{
const char *str;
isl_basic_set *bset;
isl_factorizer *f;
str = "{ [i0, i1, i2, i3, i4, i5, i6, i7] : 3i5 <= 2 - 2i0 and "
"i0 >= -2 and i6 >= 1 + i3 and i7 >= 0 and 3i5 >= -2i0 and "
"2i4 <= i2 and i6 >= 1 + 2i0 + 3i1 and i4 <= -1 and "
"i6 >= 1 + 2i0 + 3i5 and i6 <= 2 + 2i0 + 3i5 and "
"3i5 <= 2 - 2i0 - i2 + 3i4 and i6 <= 2 + 2i0 + 3i1 and "
"i0 <= -1 and i7 <= i2 + i3 - 3i4 - i6 and "
"3i5 >= -2i0 - i2 + 3i4 }";
bset = isl_basic_set_read_from_str(ctx, str);
f = isl_basic_set_factorizer(bset);
isl_basic_set_free(bset);
isl_factorizer_free(f);
if (!f)
isl_die(ctx, isl_error_unknown,
"failed to construct factorizer", return -1);
str = "{ [i0, i1, i2, i3, i4, i5, i6, i7, i8, i9, i10, i11, i12] : "
"i12 <= 2 + i0 - i11 and 2i8 >= -i4 and i11 >= i1 and "
"3i5 <= -i2 and 2i11 >= -i4 - 2i7 and i11 <= 3 + i0 + 3i9 and "
"i11 <= -i4 - 2i7 and i12 >= -i10 and i2 >= -2 and "
"i11 >= i1 + 3i10 and i11 >= 1 + i0 + 3i9 and "
"i11 <= 1 - i4 - 2i8 and 6i6 <= 6 - i2 and 3i6 >= 1 - i2 and "
"i11 <= 2 + i1 and i12 <= i4 + i11 and i12 >= i0 - i11 and "
"3i5 >= -2 - i2 and i12 >= -1 + i4 + i11 and 3i3 <= 3 - i2 and "
"9i6 <= 11 - i2 + 6i5 and 3i3 >= 1 - i2 and "
"9i6 <= 5 - i2 + 6i3 and i12 <= -1 and i2 <= 0 }";
bset = isl_basic_set_read_from_str(ctx, str);
f = isl_basic_set_factorizer(bset);
isl_basic_set_free(bset);
isl_factorizer_free(f);
if (!f)
isl_die(ctx, isl_error_unknown,
"failed to construct factorizer", return -1);
return 0;
}
static int check_injective(__isl_take isl_map *map, void *user)
{
int *injective = user;
*injective = isl_map_is_injective(map);
isl_map_free(map);
if (*injective < 0 || !*injective)
return -1;
return 0;
}
int test_one_schedule(isl_ctx *ctx, const char *d, const char *w,
const char *r, const char *s, int tilable, int parallel)
{
int i;
isl_union_set *D;
isl_union_map *W, *R, *S;
isl_union_map *empty;
isl_union_map *dep_raw, *dep_war, *dep_waw, *dep;
isl_union_map *validity, *proximity, *coincidence;
isl_union_map *schedule;
isl_union_map *test;
isl_union_set *delta;
isl_union_set *domain;
isl_set *delta_set;
isl_set *slice;
isl_set *origin;
isl_schedule_constraints *sc;
isl_schedule *sched;
int is_nonneg, is_parallel, is_tilable, is_injection, is_complete;
D = isl_union_set_read_from_str(ctx, d);
W = isl_union_map_read_from_str(ctx, w);
R = isl_union_map_read_from_str(ctx, r);
S = isl_union_map_read_from_str(ctx, s);
W = isl_union_map_intersect_domain(W, isl_union_set_copy(D));
R = isl_union_map_intersect_domain(R, isl_union_set_copy(D));
empty = isl_union_map_empty(isl_union_map_get_space(S));
isl_union_map_compute_flow(isl_union_map_copy(R),
isl_union_map_copy(W), empty,
isl_union_map_copy(S),
&dep_raw, NULL, NULL, NULL);
isl_union_map_compute_flow(isl_union_map_copy(W),
isl_union_map_copy(W),
isl_union_map_copy(R),
isl_union_map_copy(S),
&dep_waw, &dep_war, NULL, NULL);
dep = isl_union_map_union(dep_waw, dep_war);
dep = isl_union_map_union(dep, dep_raw);
validity = isl_union_map_copy(dep);
coincidence = isl_union_map_copy(dep);
proximity = isl_union_map_copy(dep);
sc = isl_schedule_constraints_on_domain(isl_union_set_copy(D));
sc = isl_schedule_constraints_set_validity(sc, validity);
sc = isl_schedule_constraints_set_coincidence(sc, coincidence);
sc = isl_schedule_constraints_set_proximity(sc, proximity);
sched = isl_schedule_constraints_compute_schedule(sc);
schedule = isl_schedule_get_map(sched);
isl_schedule_free(sched);
isl_union_map_free(W);
isl_union_map_free(R);
isl_union_map_free(S);
is_injection = 1;
isl_union_map_foreach_map(schedule, &check_injective, &is_injection);
domain = isl_union_map_domain(isl_union_map_copy(schedule));
is_complete = isl_union_set_is_subset(D, domain);
isl_union_set_free(D);
isl_union_set_free(domain);
test = isl_union_map_reverse(isl_union_map_copy(schedule));
test = isl_union_map_apply_range(test, dep);
test = isl_union_map_apply_range(test, schedule);
delta = isl_union_map_deltas(test);
if (isl_union_set_n_set(delta) == 0) {
is_tilable = 1;
is_parallel = 1;
is_nonneg = 1;
isl_union_set_free(delta);
} else {
delta_set = isl_set_from_union_set(delta);
slice = isl_set_universe(isl_set_get_space(delta_set));
for (i = 0; i < tilable; ++i)
slice = isl_set_lower_bound_si(slice, isl_dim_set, i, 0);
is_tilable = isl_set_is_subset(delta_set, slice);
isl_set_free(slice);
slice = isl_set_universe(isl_set_get_space(delta_set));
for (i = 0; i < parallel; ++i)
slice = isl_set_fix_si(slice, isl_dim_set, i, 0);
is_parallel = isl_set_is_subset(delta_set, slice);
isl_set_free(slice);
origin = isl_set_universe(isl_set_get_space(delta_set));
for (i = 0; i < isl_set_dim(origin, isl_dim_set); ++i)
origin = isl_set_fix_si(origin, isl_dim_set, i, 0);
delta_set = isl_set_union(delta_set, isl_set_copy(origin));
delta_set = isl_set_lexmin(delta_set);
is_nonneg = isl_set_is_equal(delta_set, origin);
isl_set_free(origin);
isl_set_free(delta_set);
}
if (is_nonneg < 0 || is_parallel < 0 || is_tilable < 0 ||
is_injection < 0 || is_complete < 0)
return -1;
if (!is_complete)
isl_die(ctx, isl_error_unknown,
"generated schedule incomplete", return -1);
if (!is_injection)
isl_die(ctx, isl_error_unknown,
"generated schedule not injective on each statement",
return -1);
if (!is_nonneg)
isl_die(ctx, isl_error_unknown,
"negative dependences in generated schedule",
return -1);
if (!is_tilable)
isl_die(ctx, isl_error_unknown,
"generated schedule not as tilable as expected",
return -1);
if (!is_parallel)
isl_die(ctx, isl_error_unknown,
"generated schedule not as parallel as expected",
return -1);
return 0;
}
static __isl_give isl_union_map *compute_schedule(isl_ctx *ctx,
const char *domain, const char *validity, const char *proximity)
{
isl_union_set *dom;
isl_union_map *dep;
isl_union_map *prox;
isl_schedule_constraints *sc;
isl_schedule *schedule;
isl_union_map *sched;
dom = isl_union_set_read_from_str(ctx, domain);
dep = isl_union_map_read_from_str(ctx, validity);
prox = isl_union_map_read_from_str(ctx, proximity);
sc = isl_schedule_constraints_on_domain(dom);
sc = isl_schedule_constraints_set_validity(sc, dep);
sc = isl_schedule_constraints_set_proximity(sc, prox);
schedule = isl_schedule_constraints_compute_schedule(sc);
sched = isl_schedule_get_map(schedule);
isl_schedule_free(schedule);
return sched;
}
/* Check that a schedule can be constructed on the given domain
* with the given validity and proximity constraints.
*/
static int test_has_schedule(isl_ctx *ctx, const char *domain,
const char *validity, const char *proximity)
{
isl_union_map *sched;
sched = compute_schedule(ctx, domain, validity, proximity);
if (!sched)
return -1;
isl_union_map_free(sched);
return 0;
}
int test_special_schedule(isl_ctx *ctx, const char *domain,
const char *validity, const char *proximity, const char *expected_sched)
{
isl_union_map *sched1, *sched2;
int equal;
sched1 = compute_schedule(ctx, domain, validity, proximity);
sched2 = isl_union_map_read_from_str(ctx, expected_sched);
equal = isl_union_map_is_equal(sched1, sched2);
isl_union_map_free(sched1);
isl_union_map_free(sched2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "unexpected schedule",
return -1);
return 0;
}
/* Check that the schedule map is properly padded, even after being
* reconstructed from the band forest.
*/
static int test_padded_schedule(isl_ctx *ctx)
{
const char *str;
isl_union_set *D;
isl_union_map *validity, *proximity;
isl_schedule_constraints *sc;
isl_schedule *sched;
isl_union_map *map1, *map2;
isl_band_list *list;
int equal;
str = "[N] -> { S0[i] : 0 <= i <= N; S1[i, j] : 0 <= i, j <= N }";
D = isl_union_set_read_from_str(ctx, str);
validity = isl_union_map_empty(isl_union_set_get_space(D));
proximity = isl_union_map_copy(validity);
sc = isl_schedule_constraints_on_domain(D);
sc = isl_schedule_constraints_set_validity(sc, validity);
sc = isl_schedule_constraints_set_proximity(sc, proximity);
sched = isl_schedule_constraints_compute_schedule(sc);
map1 = isl_schedule_get_map(sched);
list = isl_schedule_get_band_forest(sched);
isl_band_list_free(list);
map2 = isl_schedule_get_map(sched);
isl_schedule_free(sched);
equal = isl_union_map_is_equal(map1, map2);
isl_union_map_free(map1);
isl_union_map_free(map2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown,
"reconstructed schedule map not the same as original",
return -1);
return 0;
}
/* Input for testing of schedule construction based on
* conditional constraints.
*
* domain is the iteration domain
* flow are the flow dependences, which determine the validity and
* proximity constraints
* condition are the conditions on the conditional validity constraints
* conditional_validity are the conditional validity constraints
* outer_band_n is the expected number of members in the outer band
*/
struct {
const char *domain;
const char *flow;
const char *condition;
const char *conditional_validity;
int outer_band_n;
} live_range_tests[] = {
/* Contrived example that illustrates that we need to keep
* track of tagged condition dependences and
* tagged conditional validity dependences
* in isl_sched_edge separately.
* In particular, the conditional validity constraints on A
* cannot be satisfied,
* but they can be ignored because there are no corresponding
* condition constraints. However, we do have an additional
* conditional validity constraint that maps to the same
* dependence relation
* as the condition constraint on B. If we did not make a distinction
* between tagged condition and tagged conditional validity
* dependences, then we
* could end up treating this shared dependence as an condition
* constraint on A, forcing a localization of the conditions,
* which is impossible.
*/
{ "{ S[i] : 0 <= 1 < 100; T[i] : 0 <= 1 < 100 }",
"{ S[i] -> S[i+1] : 0 <= i < 99 }",
"{ [S[i] -> B[]] -> [S[i+1] -> B[]] : 0 <= i < 99 }",
"{ [S[i] -> A[]] -> [T[i'] -> A[]] : 0 <= i', i < 100 and i != i';"
"[T[i] -> A[]] -> [S[i'] -> A[]] : 0 <= i', i < 100 and i != i';"
"[S[i] -> A[]] -> [S[i+1] -> A[]] : 0 <= i < 99 }",
1
},
/* TACO 2013 Fig. 7 */
{ "[n] -> { S1[i,j] : 0 <= i,j < n; S2[i,j] : 0 <= i,j < n }",
"[n] -> { S1[i,j] -> S2[i,j] : 0 <= i,j < n;"
"S2[i,j] -> S2[i,j+1] : 0 <= i < n and 0 <= j < n - 1 }",
"[n] -> { [S1[i,j] -> t[]] -> [S2[i,j] -> t[]] : 0 <= i,j < n;"
"[S2[i,j] -> x1[]] -> [S2[i,j+1] -> x1[]] : "
"0 <= i < n and 0 <= j < n - 1 }",
"[n] -> { [S2[i,j] -> t[]] -> [S1[i,j'] -> t[]] : "
"0 <= i < n and 0 <= j < j' < n;"
"[S2[i,j] -> t[]] -> [S1[i',j'] -> t[]] : "
"0 <= i < i' < n and 0 <= j,j' < n;"
"[S2[i,j] -> x1[]] -> [S2[i,j'] -> x1[]] : "
"0 <= i,j,j' < n and j < j' }",
2
},
/* TACO 2013 Fig. 7, without tags */
{ "[n] -> { S1[i,j] : 0 <= i,j < n; S2[i,j] : 0 <= i,j < n }",
"[n] -> { S1[i,j] -> S2[i,j] : 0 <= i,j < n;"
"S2[i,j] -> S2[i,j+1] : 0 <= i < n and 0 <= j < n - 1 }",
"[n] -> { S1[i,j] -> S2[i,j] : 0 <= i,j < n;"
"S2[i,j] -> S2[i,j+1] : 0 <= i < n and 0 <= j < n - 1 }",
"[n] -> { S2[i,j] -> S1[i,j'] : 0 <= i < n and 0 <= j < j' < n;"
"S2[i,j] -> S1[i',j'] : 0 <= i < i' < n and 0 <= j,j' < n;"
"S2[i,j] -> S2[i,j'] : 0 <= i,j,j' < n and j < j' }",
1
},
/* TACO 2013 Fig. 12 */
{ "{ S1[i,0] : 0 <= i <= 1; S2[i,j] : 0 <= i <= 1 and 1 <= j <= 2;"
"S3[i,3] : 0 <= i <= 1 }",
"{ S1[i,0] -> S2[i,1] : 0 <= i <= 1;"
"S2[i,1] -> S2[i,2] : 0 <= i <= 1;"
"S2[i,2] -> S3[i,3] : 0 <= i <= 1 }",
"{ [S1[i,0]->t[]] -> [S2[i,1]->t[]] : 0 <= i <= 1;"
"[S2[i,1]->t[]] -> [S2[i,2]->t[]] : 0 <= i <= 1;"
"[S2[i,2]->t[]] -> [S3[i,3]->t[]] : 0 <= i <= 1 }",
"{ [S2[i,1]->t[]] -> [S2[i,2]->t[]] : 0 <= i <= 1;"
"[S2[0,j]->t[]] -> [S2[1,j']->t[]] : 1 <= j,j' <= 2;"
"[S2[0,j]->t[]] -> [S1[1,0]->t[]] : 1 <= j <= 2;"
"[S3[0,3]->t[]] -> [S2[1,j]->t[]] : 1 <= j <= 2;"
"[S3[0,3]->t[]] -> [S1[1,0]->t[]] }",
1
}
};
/* Test schedule construction based on conditional constraints.
* In particular, check the number of members in the outer band
* as an indication of whether tiling is possible or not.
*/
static int test_conditional_schedule_constraints(isl_ctx *ctx)
{
int i;
isl_union_set *domain;
isl_union_map *condition;
isl_union_map *flow;
isl_union_map *validity;
isl_schedule_constraints *sc;
isl_schedule *schedule;
isl_band_list *list;
isl_band *band;
int n_member;
for (i = 0; i < ARRAY_SIZE(live_range_tests); ++i) {
domain = isl_union_set_read_from_str(ctx,
live_range_tests[i].domain);
flow = isl_union_map_read_from_str(ctx,
live_range_tests[i].flow);
condition = isl_union_map_read_from_str(ctx,
live_range_tests[i].condition);
validity = isl_union_map_read_from_str(ctx,
live_range_tests[i].conditional_validity);
sc = isl_schedule_constraints_on_domain(domain);
sc = isl_schedule_constraints_set_validity(sc,
isl_union_map_copy(flow));
sc = isl_schedule_constraints_set_proximity(sc, flow);
sc = isl_schedule_constraints_set_conditional_validity(sc,
condition, validity);
schedule = isl_schedule_constraints_compute_schedule(sc);
list = isl_schedule_get_band_forest(schedule);
band = isl_band_list_get_band(list, 0);
n_member = isl_band_n_member(band);
isl_band_free(band);
isl_band_list_free(list);
isl_schedule_free(schedule);
if (!schedule)
return -1;
if (n_member != live_range_tests[i].outer_band_n)
isl_die(ctx, isl_error_unknown,
"unexpected number of members in outer band",
return -1);
}
return 0;
}
int test_schedule(isl_ctx *ctx)
{
const char *D, *W, *R, *V, *P, *S;
/* Handle resulting schedule with zero bands. */
if (test_one_schedule(ctx, "{[]}", "{}", "{}", "{[] -> []}", 0, 0) < 0)
return -1;
/* Jacobi */
D = "[T,N] -> { S1[t,i] : 1 <= t <= T and 2 <= i <= N - 1 }";
W = "{ S1[t,i] -> a[t,i] }";
R = "{ S1[t,i] -> a[t-1,i]; S1[t,i] -> a[t-1,i-1]; "
"S1[t,i] -> a[t-1,i+1] }";
S = "{ S1[t,i] -> [t,i] }";
if (test_one_schedule(ctx, D, W, R, S, 2, 0) < 0)
return -1;
/* Fig. 5 of CC2008 */
D = "[N] -> { S_0[i, j] : i >= 0 and i <= -1 + N and j >= 2 and "
"j <= -1 + N }";
W = "[N] -> { S_0[i, j] -> a[i, j] : i >= 0 and i <= -1 + N and "
"j >= 2 and j <= -1 + N }";
R = "[N] -> { S_0[i, j] -> a[j, i] : i >= 0 and i <= -1 + N and "
"j >= 2 and j <= -1 + N; "
"S_0[i, j] -> a[i, -1 + j] : i >= 0 and i <= -1 + N and "
"j >= 2 and j <= -1 + N }";
S = "[N] -> { S_0[i, j] -> [0, i, 0, j, 0] }";
if (test_one_schedule(ctx, D, W, R, S, 2, 0) < 0)
return -1;
D = "{ S1[i] : 0 <= i <= 10; S2[i] : 0 <= i <= 9 }";
W = "{ S1[i] -> a[i] }";
R = "{ S2[i] -> a[i+1] }";
S = "{ S1[i] -> [0,i]; S2[i] -> [1,i] }";
if (test_one_schedule(ctx, D, W, R, S, 1, 1) < 0)
return -1;
D = "{ S1[i] : 0 <= i < 10; S2[i] : 0 <= i < 10 }";
W = "{ S1[i] -> a[i] }";
R = "{ S2[i] -> a[9-i] }";
S = "{ S1[i] -> [0,i]; S2[i] -> [1,i] }";
if (test_one_schedule(ctx, D, W, R, S, 1, 1) < 0)
return -1;
D = "[N] -> { S1[i] : 0 <= i < N; S2[i] : 0 <= i < N }";
W = "{ S1[i] -> a[i] }";
R = "[N] -> { S2[i] -> a[N-1-i] }";
S = "{ S1[i] -> [0,i]; S2[i] -> [1,i] }";
if (test_one_schedule(ctx, D, W, R, S, 1, 1) < 0)
return -1;
D = "{ S1[i] : 0 < i < 10; S2[i] : 0 <= i < 10 }";
W = "{ S1[i] -> a[i]; S2[i] -> b[i] }";
R = "{ S2[i] -> a[i]; S1[i] -> b[i-1] }";
S = "{ S1[i] -> [i,0]; S2[i] -> [i,1] }";
if (test_one_schedule(ctx, D, W, R, S, 0, 0) < 0)
return -1;
D = "[N] -> { S1[i] : 1 <= i <= N; S2[i,j] : 1 <= i,j <= N }";
W = "{ S1[i] -> a[0,i]; S2[i,j] -> a[i,j] }";
R = "{ S2[i,j] -> a[i-1,j] }";
S = "{ S1[i] -> [0,i,0]; S2[i,j] -> [1,i,j] }";
if (test_one_schedule(ctx, D, W, R, S, 2, 1) < 0)
return -1;
D = "[N] -> { S1[i] : 1 <= i <= N; S2[i,j] : 1 <= i,j <= N }";
W = "{ S1[i] -> a[i,0]; S2[i,j] -> a[i,j] }";
R = "{ S2[i,j] -> a[i,j-1] }";
S = "{ S1[i] -> [0,i,0]; S2[i,j] -> [1,i,j] }";
if (test_one_schedule(ctx, D, W, R, S, 2, 1) < 0)
return -1;
D = "[N] -> { S_0[]; S_1[i] : i >= 0 and i <= -1 + N; S_2[] }";
W = "[N] -> { S_0[] -> a[0]; S_2[] -> b[0]; "
"S_1[i] -> a[1 + i] : i >= 0 and i <= -1 + N }";
R = "[N] -> { S_2[] -> a[N]; S_1[i] -> a[i] : i >= 0 and i <= -1 + N }";
S = "[N] -> { S_1[i] -> [1, i, 0]; S_2[] -> [2, 0, 1]; "
"S_0[] -> [0, 0, 0] }";
if (test_one_schedule(ctx, D, W, R, S, 1, 0) < 0)
return -1;
ctx->opt->schedule_parametric = 0;
if (test_one_schedule(ctx, D, W, R, S, 0, 0) < 0)
return -1;
ctx->opt->schedule_parametric = 1;
D = "[N] -> { S1[i] : 1 <= i <= N; S2[i] : 1 <= i <= N; "
"S3[i,j] : 1 <= i,j <= N; S4[i] : 1 <= i <= N }";
W = "{ S1[i] -> a[i,0]; S2[i] -> a[0,i]; S3[i,j] -> a[i,j] }";
R = "[N] -> { S3[i,j] -> a[i-1,j]; S3[i,j] -> a[i,j-1]; "
"S4[i] -> a[i,N] }";
S = "{ S1[i] -> [0,i,0]; S2[i] -> [1,i,0]; S3[i,j] -> [2,i,j]; "
"S4[i] -> [4,i,0] }";
if (test_one_schedule(ctx, D, W, R, S, 2, 0) < 0)
return -1;
D = "[N] -> { S_0[i, j] : i >= 1 and i <= N and j >= 1 and j <= N }";
W = "[N] -> { S_0[i, j] -> s[0] : i >= 1 and i <= N and j >= 1 and "
"j <= N }";
R = "[N] -> { S_0[i, j] -> s[0] : i >= 1 and i <= N and j >= 1 and "
"j <= N; "
"S_0[i, j] -> a[i, j] : i >= 1 and i <= N and j >= 1 and "
"j <= N }";
S = "[N] -> { S_0[i, j] -> [0, i, 0, j, 0] }";
if (test_one_schedule(ctx, D, W, R, S, 0, 0) < 0)
return -1;
D = "[N] -> { S_0[t] : t >= 0 and t <= -1 + N; "
" S_2[t] : t >= 0 and t <= -1 + N; "
" S_1[t, i] : t >= 0 and t <= -1 + N and i >= 0 and "
"i <= -1 + N }";
W = "[N] -> { S_0[t] -> a[t, 0] : t >= 0 and t <= -1 + N; "
" S_2[t] -> b[t] : t >= 0 and t <= -1 + N; "
" S_1[t, i] -> a[t, 1 + i] : t >= 0 and t <= -1 + N and "
"i >= 0 and i <= -1 + N }";
R = "[N] -> { S_1[t, i] -> a[t, i] : t >= 0 and t <= -1 + N and "
"i >= 0 and i <= -1 + N; "
" S_2[t] -> a[t, N] : t >= 0 and t <= -1 + N }";
S = "[N] -> { S_2[t] -> [0, t, 2]; S_1[t, i] -> [0, t, 1, i, 0]; "
" S_0[t] -> [0, t, 0] }";
if (test_one_schedule(ctx, D, W, R, S, 2, 1) < 0)
return -1;
ctx->opt->schedule_parametric = 0;
if (test_one_schedule(ctx, D, W, R, S, 0, 0) < 0)
return -1;
ctx->opt->schedule_parametric = 1;
D = "[N] -> { S1[i,j] : 0 <= i,j < N; S2[i,j] : 0 <= i,j < N }";
S = "{ S1[i,j] -> [0,i,j]; S2[i,j] -> [1,i,j] }";
if (test_one_schedule(ctx, D, "{}", "{}", S, 2, 2) < 0)
return -1;
D = "[M, N] -> { S_1[i] : i >= 0 and i <= -1 + M; "
"S_0[i, j] : i >= 0 and i <= -1 + M and j >= 0 and j <= -1 + N }";
W = "[M, N] -> { S_0[i, j] -> a[j] : i >= 0 and i <= -1 + M and "
"j >= 0 and j <= -1 + N; "
"S_1[i] -> b[0] : i >= 0 and i <= -1 + M }";
R = "[M, N] -> { S_0[i, j] -> a[0] : i >= 0 and i <= -1 + M and "
"j >= 0 and j <= -1 + N; "
"S_1[i] -> b[0] : i >= 0 and i <= -1 + M }";
S = "[M, N] -> { S_1[i] -> [1, i, 0]; S_0[i, j] -> [0, i, 0, j, 0] }";
if (test_one_schedule(ctx, D, W, R, S, 0, 0) < 0)
return -1;
D = "{ S_0[i] : i >= 0 }";
W = "{ S_0[i] -> a[i] : i >= 0 }";
R = "{ S_0[i] -> a[0] : i >= 0 }";
S = "{ S_0[i] -> [0, i, 0] }";
if (test_one_schedule(ctx, D, W, R, S, 0, 0) < 0)
return -1;
D = "{ S_0[i] : i >= 0; S_1[i] : i >= 0 }";
W = "{ S_0[i] -> a[i] : i >= 0; S_1[i] -> b[i] : i >= 0 }";
R = "{ S_0[i] -> b[0] : i >= 0; S_1[i] -> a[i] : i >= 0 }";
S = "{ S_1[i] -> [0, i, 1]; S_0[i] -> [0, i, 0] }";
if (test_one_schedule(ctx, D, W, R, S, 0, 0) < 0)
return -1;
D = "[n] -> { S_0[j, k] : j <= -1 + n and j >= 0 and "
"k <= -1 + n and k >= 0 }";
W = "[n] -> { S_0[j, k] -> B[j] : j <= -1 + n and j >= 0 and " "k <= -1 + n and k >= 0 }";
R = "[n] -> { S_0[j, k] -> B[j] : j <= -1 + n and j >= 0 and "
"k <= -1 + n and k >= 0; "
"S_0[j, k] -> B[k] : j <= -1 + n and j >= 0 and "
"k <= -1 + n and k >= 0; "
"S_0[j, k] -> A[k] : j <= -1 + n and j >= 0 and "
"k <= -1 + n and k >= 0 }";
S = "[n] -> { S_0[j, k] -> [2, j, k] }";
ctx->opt->schedule_outer_coincidence = 1;
if (test_one_schedule(ctx, D, W, R, S, 0, 0) < 0)
return -1;
ctx->opt->schedule_outer_coincidence = 0;
D = "{Stmt_for_body24[i0, i1, i2, i3]:"
"i0 >= 0 and i0 <= 1 and i1 >= 0 and i1 <= 6 and i2 >= 2 and "
"i2 <= 6 - i1 and i3 >= 0 and i3 <= -1 + i2;"
"Stmt_for_body24[i0, i1, 1, 0]:"
"i0 >= 0 and i0 <= 1 and i1 >= 0 and i1 <= 5;"
"Stmt_for_body7[i0, i1, i2]:"
"i0 >= 0 and i0 <= 1 and i1 >= 0 and i1 <= 7 and i2 >= 0 and "
"i2 <= 7 }";
V = "{Stmt_for_body24[0, i1, i2, i3] -> "
"Stmt_for_body24[1, i1, i2, i3]:"
"i3 >= 0 and i3 <= -1 + i2 and i1 >= 0 and i2 <= 6 - i1 and "
"i2 >= 1;"
"Stmt_for_body24[0, i1, i2, i3] -> "
"Stmt_for_body7[1, 1 + i1 + i3, 1 + i1 + i2]:"
"i3 <= -1 + i2 and i2 <= 6 - i1 and i2 >= 1 and i1 >= 0 and "
"i3 >= 0;"
"Stmt_for_body24[0, i1, i2, i3] ->"
"Stmt_for_body7[1, i1, 1 + i1 + i3]:"
"i3 >= 0 and i2 <= 6 - i1 and i1 >= 0 and i3 <= -1 + i2;"
"Stmt_for_body7[0, i1, i2] -> Stmt_for_body7[1, i1, i2]:"
"(i2 >= 1 + i1 and i2 <= 6 and i1 >= 0 and i1 <= 4) or "
"(i2 >= 3 and i2 <= 7 and i1 >= 1 and i2 >= 1 + i1) or "
"(i2 >= 0 and i2 <= i1 and i2 >= -7 + i1 and i1 <= 7);"
"Stmt_for_body7[0, i1, 1 + i1] -> Stmt_for_body7[1, i1, 1 + i1]:"
"i1 <= 6 and i1 >= 0;"
"Stmt_for_body7[0, 0, 7] -> Stmt_for_body7[1, 0, 7];"
"Stmt_for_body7[i0, i1, i2] -> "
"Stmt_for_body24[i0, o1, -1 + i2 - o1, -1 + i1 - o1]:"
"i0 >= 0 and i0 <= 1 and o1 >= 0 and i2 >= 1 + i1 and "
"o1 <= -2 + i2 and i2 <= 7 and o1 <= -1 + i1;"
"Stmt_for_body7[i0, i1, i2] -> "
"Stmt_for_body24[i0, i1, o2, -1 - i1 + i2]:"
"i0 >= 0 and i0 <= 1 and i1 >= 0 and o2 >= -i1 + i2 and "
"o2 >= 1 and o2 <= 6 - i1 and i2 >= 1 + i1 }";
P = V;
S = "{ Stmt_for_body24[i0, i1, i2, i3] -> "
"[i0, 5i0 + i1, 6i0 + i1 + i2, 1 + 6i0 + i1 + i2 + i3, 1];"
"Stmt_for_body7[i0, i1, i2] -> [0, 5i0, 6i0 + i1, 6i0 + i2, 0] }";
if (test_special_schedule(ctx, D, V, P, S) < 0)
return -1;
D = "{ S_0[i, j] : i >= 1 and i <= 10 and j >= 1 and j <= 8 }";
V = "{ S_0[i, j] -> S_0[i, 1 + j] : i >= 1 and i <= 10 and "
"j >= 1 and j <= 7;"
"S_0[i, j] -> S_0[1 + i, j] : i >= 1 and i <= 9 and "
"j >= 1 and j <= 8 }";
P = "{ }";
S = "{ S_0[i, j] -> [i + j, j] }";
ctx->opt->schedule_algorithm = ISL_SCHEDULE_ALGORITHM_FEAUTRIER;
if (test_special_schedule(ctx, D, V, P, S) < 0)
return -1;
ctx->opt->schedule_algorithm = ISL_SCHEDULE_ALGORITHM_ISL;
/* Fig. 1 from Feautrier's "Some Efficient Solutions..." pt. 2, 1992 */
D = "[N] -> { S_0[i, j] : i >= 0 and i <= -1 + N and "
"j >= 0 and j <= -1 + i }";
V = "[N] -> { S_0[i, j] -> S_0[i, 1 + j] : j <= -2 + i and "
"i <= -1 + N and j >= 0;"
"S_0[i, -1 + i] -> S_0[1 + i, 0] : i >= 1 and "
"i <= -2 + N }";
P = "{ }";
S = "{ S_0[i, j] -> [i, j] }";
ctx->opt->schedule_algorithm = ISL_SCHEDULE_ALGORITHM_FEAUTRIER;
if (test_special_schedule(ctx, D, V, P, S) < 0)
return -1;
ctx->opt->schedule_algorithm = ISL_SCHEDULE_ALGORITHM_ISL;
/* Test both algorithms on a case with only proximity dependences. */
D = "{ S[i,j] : 0 <= i <= 10 }";
V = "{ }";
P = "{ S[i,j] -> S[i+1,j] : 0 <= i,j <= 10 }";
S = "{ S[i, j] -> [j, i] }";
ctx->opt->schedule_algorithm = ISL_SCHEDULE_ALGORITHM_FEAUTRIER;
if (test_special_schedule(ctx, D, V, P, S) < 0)
return -1;
ctx->opt->schedule_algorithm = ISL_SCHEDULE_ALGORITHM_ISL;
if (test_special_schedule(ctx, D, V, P, S) < 0)
return -1;
D = "{ A[a]; B[] }";
V = "{}";
P = "{ A[a] -> B[] }";
if (test_has_schedule(ctx, D, V, P) < 0)
return -1;
if (test_padded_schedule(ctx) < 0)
return -1;
/* Check that check for progress is not confused by rational
* solution.
*/
D = "[N] -> { S0[i, j] : i >= 0 and i <= N and j >= 0 and j <= N }";
V = "[N] -> { S0[i0, -1 + N] -> S0[2 + i0, 0] : i0 >= 0 and "
"i0 <= -2 + N; "
"S0[i0, i1] -> S0[i0, 1 + i1] : i0 >= 0 and "
"i0 <= N and i1 >= 0 and i1 <= -1 + N }";
P = "{}";
ctx->opt->schedule_algorithm = ISL_SCHEDULE_ALGORITHM_FEAUTRIER;
if (test_has_schedule(ctx, D, V, P) < 0)
return -1;
ctx->opt->schedule_algorithm = ISL_SCHEDULE_ALGORITHM_ISL;
/* Check that we allow schedule rows that are only non-trivial
* on some full-dimensional domains.
*/
D = "{ S1[j] : 0 <= j <= 1; S0[]; S2[k] : 0 <= k <= 1 }";
V = "{ S0[] -> S1[j] : 0 <= j <= 1; S2[0] -> S0[];"
"S1[j] -> S2[1] : 0 <= j <= 1 }";
P = "{}";
ctx->opt->schedule_algorithm = ISL_SCHEDULE_ALGORITHM_FEAUTRIER;
if (test_has_schedule(ctx, D, V, P) < 0)
return -1;
ctx->opt->schedule_algorithm = ISL_SCHEDULE_ALGORITHM_ISL;
if (test_conditional_schedule_constraints(ctx) < 0)
return -1;
return 0;
}
int test_plain_injective(isl_ctx *ctx, const char *str, int injective)
{
isl_union_map *umap;
int test;
umap = isl_union_map_read_from_str(ctx, str);
test = isl_union_map_plain_is_injective(umap);
isl_union_map_free(umap);
if (test < 0)
return -1;
if (test == injective)
return 0;
if (injective)
isl_die(ctx, isl_error_unknown,
"map not detected as injective", return -1);
else
isl_die(ctx, isl_error_unknown,
"map detected as injective", return -1);
}
int test_injective(isl_ctx *ctx)
{
const char *str;
if (test_plain_injective(ctx, "{S[i,j] -> A[0]; T[i,j] -> B[1]}", 0))
return -1;
if (test_plain_injective(ctx, "{S[] -> A[0]; T[] -> B[0]}", 1))
return -1;
if (test_plain_injective(ctx, "{S[] -> A[0]; T[] -> A[1]}", 1))
return -1;
if (test_plain_injective(ctx, "{S[] -> A[0]; T[] -> A[0]}", 0))
return -1;
if (test_plain_injective(ctx, "{S[i] -> A[i,0]; T[i] -> A[i,1]}", 1))
return -1;
if (test_plain_injective(ctx, "{S[i] -> A[i]; T[i] -> A[i]}", 0))
return -1;
if (test_plain_injective(ctx, "{S[] -> A[0,0]; T[] -> A[0,1]}", 1))
return -1;
if (test_plain_injective(ctx, "{S[] -> A[0,0]; T[] -> A[1,0]}", 1))
return -1;
str = "{S[] -> A[0,0]; T[] -> A[0,1]; U[] -> A[1,0]}";
if (test_plain_injective(ctx, str, 1))
return -1;
str = "{S[] -> A[0,0]; T[] -> A[0,1]; U[] -> A[0,0]}";
if (test_plain_injective(ctx, str, 0))
return -1;
return 0;
}
static int aff_plain_is_equal(__isl_keep isl_aff *aff, const char *str)
{
isl_aff *aff2;
int equal;
if (!aff)
return -1;
aff2 = isl_aff_read_from_str(isl_aff_get_ctx(aff), str);
equal = isl_aff_plain_is_equal(aff, aff2);
isl_aff_free(aff2);
return equal;
}
static int aff_check_plain_equal(__isl_keep isl_aff *aff, const char *str)
{
int equal;
equal = aff_plain_is_equal(aff, str);
if (equal < 0)
return -1;
if (!equal)
isl_die(isl_aff_get_ctx(aff), isl_error_unknown,
"result not as expected", return -1);
return 0;
}
struct {
__isl_give isl_aff *(*fn)(__isl_take isl_aff *aff1,
__isl_take isl_aff *aff2);
} aff_bin_op[] = {
['+'] = { &isl_aff_add },
['-'] = { &isl_aff_sub },
['*'] = { &isl_aff_mul },
['/'] = { &isl_aff_div },
};
struct {
const char *arg1;
unsigned char op;
const char *arg2;
const char *res;
} aff_bin_tests[] = {
{ "{ [i] -> [i] }", '+', "{ [i] -> [i] }",
"{ [i] -> [2i] }" },
{ "{ [i] -> [i] }", '-', "{ [i] -> [i] }",
"{ [i] -> [0] }" },
{ "{ [i] -> [i] }", '*', "{ [i] -> [2] }",
"{ [i] -> [2i] }" },
{ "{ [i] -> [2] }", '*', "{ [i] -> [i] }",
"{ [i] -> [2i] }" },
{ "{ [i] -> [i] }", '/', "{ [i] -> [2] }",
"{ [i] -> [i/2] }" },
{ "{ [i] -> [2i] }", '/', "{ [i] -> [2] }",
"{ [i] -> [i] }" },
{ "{ [i] -> [i] }", '+', "{ [i] -> [NaN] }",
"{ [i] -> [NaN] }" },
{ "{ [i] -> [i] }", '-', "{ [i] -> [NaN] }",
"{ [i] -> [NaN] }" },
{ "{ [i] -> [i] }", '*', "{ [i] -> [NaN] }",
"{ [i] -> [NaN] }" },
{ "{ [i] -> [2] }", '*', "{ [i] -> [NaN] }",
"{ [i] -> [NaN] }" },
{ "{ [i] -> [i] }", '/', "{ [i] -> [NaN] }",
"{ [i] -> [NaN] }" },
{ "{ [i] -> [2] }", '/', "{ [i] -> [NaN] }",
"{ [i] -> [NaN] }" },
{ "{ [i] -> [NaN] }", '+', "{ [i] -> [i] }",
"{ [i] -> [NaN] }" },
{ "{ [i] -> [NaN] }", '-', "{ [i] -> [i] }",
"{ [i] -> [NaN] }" },
{ "{ [i] -> [NaN] }", '*', "{ [i] -> [2] }",
"{ [i] -> [NaN] }" },
{ "{ [i] -> [NaN] }", '*', "{ [i] -> [i] }",
"{ [i] -> [NaN] }" },
{ "{ [i] -> [NaN] }", '/', "{ [i] -> [2] }",
"{ [i] -> [NaN] }" },
{ "{ [i] -> [NaN] }", '/', "{ [i] -> [i] }",
"{ [i] -> [NaN] }" },
};
/* Perform some basic tests of binary operations on isl_aff objects.
*/
static int test_bin_aff(isl_ctx *ctx)
{
int i;
isl_aff *aff1, *aff2, *res;
__isl_give isl_aff *(*fn)(__isl_take isl_aff *aff1,
__isl_take isl_aff *aff2);
int ok;
for (i = 0; i < ARRAY_SIZE(aff_bin_tests); ++i) {
aff1 = isl_aff_read_from_str(ctx, aff_bin_tests[i].arg1);
aff2 = isl_aff_read_from_str(ctx, aff_bin_tests[i].arg2);
res = isl_aff_read_from_str(ctx, aff_bin_tests[i].res);
fn = aff_bin_op[aff_bin_tests[i].op].fn;
aff1 = fn(aff1, aff2);
if (isl_aff_is_nan(res))
ok = isl_aff_is_nan(aff1);
else
ok = isl_aff_plain_is_equal(aff1, res);
isl_aff_free(aff1);
isl_aff_free(res);
if (ok < 0)
return -1;
if (!ok)
isl_die(ctx, isl_error_unknown,
"unexpected result", return -1);
}
return 0;
}
struct {
__isl_give isl_union_pw_multi_aff *(*fn)(
__isl_take isl_union_pw_multi_aff *upma1,
__isl_take isl_union_pw_multi_aff *upma2);
const char *arg1;
const char *arg2;
const char *res;
} upma_bin_tests[] = {
{ &isl_union_pw_multi_aff_add, "{ A[] -> [0]; B[0] -> [1] }",
"{ B[x] -> [2] : x >= 0 }", "{ B[0] -> [3] }" },
{ &isl_union_pw_multi_aff_union_add, "{ A[] -> [0]; B[0] -> [1] }",
"{ B[x] -> [2] : x >= 0 }",
"{ A[] -> [0]; B[0] -> [3]; B[x] -> [2] : x >= 1 }" },
};
/* Perform some basic tests of binary operations on
* isl_union_pw_multi_aff objects.
*/
static int test_bin_upma(isl_ctx *ctx)
{
int i;
isl_union_pw_multi_aff *upma1, *upma2, *res;
int ok;
for (i = 0; i < ARRAY_SIZE(upma_bin_tests); ++i) {
upma1 = isl_union_pw_multi_aff_read_from_str(ctx,
upma_bin_tests[i].arg1);
upma2 = isl_union_pw_multi_aff_read_from_str(ctx,
upma_bin_tests[i].arg2);
res = isl_union_pw_multi_aff_read_from_str(ctx,
upma_bin_tests[i].res);
upma1 = upma_bin_tests[i].fn(upma1, upma2);
ok = isl_union_pw_multi_aff_plain_is_equal(upma1, res);
isl_union_pw_multi_aff_free(upma1);
isl_union_pw_multi_aff_free(res);
if (ok < 0)
return -1;
if (!ok)
isl_die(ctx, isl_error_unknown,
"unexpected result", return -1);
}
return 0;
}
int test_aff(isl_ctx *ctx)
{
const char *str;
isl_set *set;
isl_space *space;
isl_local_space *ls;
isl_aff *aff;
int zero, equal;
if (test_bin_aff(ctx) < 0)
return -1;
if (test_bin_upma(ctx) < 0)
return -1;
space = isl_space_set_alloc(ctx, 0, 1);
ls = isl_local_space_from_space(space);
aff = isl_aff_zero_on_domain(ls);
aff = isl_aff_add_coefficient_si(aff, isl_dim_in, 0, 1);
aff = isl_aff_scale_down_ui(aff, 3);
aff = isl_aff_floor(aff);
aff = isl_aff_add_coefficient_si(aff, isl_dim_in, 0, 1);
aff = isl_aff_scale_down_ui(aff, 2);
aff = isl_aff_floor(aff);
aff = isl_aff_add_coefficient_si(aff, isl_dim_in, 0, 1);
str = "{ [10] }";
set = isl_set_read_from_str(ctx, str);
aff = isl_aff_gist(aff, set);
aff = isl_aff_add_constant_si(aff, -16);
zero = isl_aff_plain_is_zero(aff);
isl_aff_free(aff);
if (zero < 0)
return -1;
if (!zero)
isl_die(ctx, isl_error_unknown, "unexpected result", return -1);
aff = isl_aff_read_from_str(ctx, "{ [-1] }");
aff = isl_aff_scale_down_ui(aff, 64);
aff = isl_aff_floor(aff);
equal = aff_check_plain_equal(aff, "{ [-1] }");
isl_aff_free(aff);
if (equal < 0)
return -1;
return 0;
}
int test_dim_max(isl_ctx *ctx)
{
int equal;
const char *str;
isl_set *set1, *set2;
isl_set *set;
isl_map *map;
isl_pw_aff *pwaff;
str = "[N] -> { [i] : 0 <= i <= min(N,10) }";
set = isl_set_read_from_str(ctx, str);
pwaff = isl_set_dim_max(set, 0);
set1 = isl_set_from_pw_aff(pwaff);
str = "[N] -> { [10] : N >= 10; [N] : N <= 9 and N >= 0 }";
set2 = isl_set_read_from_str(ctx, str);
equal = isl_set_is_equal(set1, set2);
isl_set_free(set1);
isl_set_free(set2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "unexpected result", return -1);
str = "[N] -> { [i] : 0 <= i <= max(2N,N+6) }";
set = isl_set_read_from_str(ctx, str);
pwaff = isl_set_dim_max(set, 0);
set1 = isl_set_from_pw_aff(pwaff);
str = "[N] -> { [6 + N] : -6 <= N <= 5; [2N] : N >= 6 }";
set2 = isl_set_read_from_str(ctx, str);
equal = isl_set_is_equal(set1, set2);
isl_set_free(set1);
isl_set_free(set2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "unexpected result", return -1);
str = "[N] -> { [i] : 0 <= i <= 2N or 0 <= i <= N+6 }";
set = isl_set_read_from_str(ctx, str);
pwaff = isl_set_dim_max(set, 0);
set1 = isl_set_from_pw_aff(pwaff);
str = "[N] -> { [6 + N] : -6 <= N <= 5; [2N] : N >= 6 }";
set2 = isl_set_read_from_str(ctx, str);
equal = isl_set_is_equal(set1, set2);
isl_set_free(set1);
isl_set_free(set2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "unexpected result", return -1);
str = "[N,M] -> { [i,j] -> [([i/16]), i%16, ([j/16]), j%16] : "
"0 <= i < N and 0 <= j < M }";
map = isl_map_read_from_str(ctx, str);
set = isl_map_range(map);
pwaff = isl_set_dim_max(isl_set_copy(set), 0);
set1 = isl_set_from_pw_aff(pwaff);
str = "[N,M] -> { [([(N-1)/16])] : M,N > 0 }";
set2 = isl_set_read_from_str(ctx, str);
equal = isl_set_is_equal(set1, set2);
isl_set_free(set1);
isl_set_free(set2);
pwaff = isl_set_dim_max(isl_set_copy(set), 3);
set1 = isl_set_from_pw_aff(pwaff);
str = "[N,M] -> { [t] : t = min(M-1,15) and M,N > 0 }";
set2 = isl_set_read_from_str(ctx, str);
if (equal >= 0 && equal)
equal = isl_set_is_equal(set1, set2);
isl_set_free(set1);
isl_set_free(set2);
isl_set_free(set);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "unexpected result", return -1);
/* Check that solutions are properly merged. */
str = "[n] -> { [a, b, c] : c >= -4a - 2b and "
"c <= -1 + n - 4a - 2b and c >= -2b and "
"4a >= -4 + n and c >= 0 }";
set = isl_set_read_from_str(ctx, str);
pwaff = isl_set_dim_min(set, 2);
set1 = isl_set_from_pw_aff(pwaff);
str = "[n] -> { [(0)] : n >= 1 }";
set2 = isl_set_read_from_str(ctx, str);
equal = isl_set_is_equal(set1, set2);
isl_set_free(set1);
isl_set_free(set2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "unexpected result", return -1);
/* Check that empty solution lie in the right space. */
str = "[n] -> { [t,a] : 1 = 0 }";
set = isl_set_read_from_str(ctx, str);
pwaff = isl_set_dim_max(set, 0);
set1 = isl_set_from_pw_aff(pwaff);
str = "[n] -> { [t] : 1 = 0 }";
set2 = isl_set_read_from_str(ctx, str);
equal = isl_set_is_equal(set1, set2);
isl_set_free(set1);
isl_set_free(set2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "unexpected result", return -1);
return 0;
}
/* Is "pma" obviously equal to the isl_pw_multi_aff represented by "str"?
*/
static int pw_multi_aff_plain_is_equal(__isl_keep isl_pw_multi_aff *pma,
const char *str)
{
isl_ctx *ctx;
isl_pw_multi_aff *pma2;
int equal;
if (!pma)
return -1;
ctx = isl_pw_multi_aff_get_ctx(pma);
pma2 = isl_pw_multi_aff_read_from_str(ctx, str);
equal = isl_pw_multi_aff_plain_is_equal(pma, pma2);
isl_pw_multi_aff_free(pma2);
return equal;
}
/* Check that "pma" is obviously equal to the isl_pw_multi_aff
* represented by "str".
*/
static int pw_multi_aff_check_plain_equal(__isl_keep isl_pw_multi_aff *pma,
const char *str)
{
int equal;
equal = pw_multi_aff_plain_is_equal(pma, str);
if (equal < 0)
return -1;
if (!equal)
isl_die(isl_pw_multi_aff_get_ctx(pma), isl_error_unknown,
"result not as expected", return -1);
return 0;
}
/* Basic test for isl_pw_multi_aff_product.
*
* Check that multiple pieces are properly handled.
*/
static int test_product_pma(isl_ctx *ctx)
{
int equal;
const char *str;
isl_pw_multi_aff *pma1, *pma2;
str = "{ A[i] -> B[1] : i < 0; A[i] -> B[2] : i >= 0 }";
pma1 = isl_pw_multi_aff_read_from_str(ctx, str);
str = "{ C[] -> D[] }";
pma2 = isl_pw_multi_aff_read_from_str(ctx, str);
pma1 = isl_pw_multi_aff_product(pma1, pma2);
str = "{ [A[i] -> C[]] -> [B[(1)] -> D[]] : i < 0;"
"[A[i] -> C[]] -> [B[(2)] -> D[]] : i >= 0 }";
equal = pw_multi_aff_check_plain_equal(pma1, str);
isl_pw_multi_aff_free(pma1);
if (equal < 0)
return -1;
return 0;
}
int test_product(isl_ctx *ctx)
{
const char *str;
isl_set *set;
isl_union_set *uset1, *uset2;
int ok;
str = "{ A[i] }";
set = isl_set_read_from_str(ctx, str);
set = isl_set_product(set, isl_set_copy(set));
ok = isl_set_is_wrapping(set);
isl_set_free(set);
if (ok < 0)
return -1;
if (!ok)
isl_die(ctx, isl_error_unknown, "unexpected result", return -1);
str = "{ [] }";
uset1 = isl_union_set_read_from_str(ctx, str);
uset1 = isl_union_set_product(uset1, isl_union_set_copy(uset1));
str = "{ [[] -> []] }";
uset2 = isl_union_set_read_from_str(ctx, str);
ok = isl_union_set_is_equal(uset1, uset2);
isl_union_set_free(uset1);
isl_union_set_free(uset2);
if (ok < 0)
return -1;
if (!ok)
isl_die(ctx, isl_error_unknown, "unexpected result", return -1);
if (test_product_pma(ctx) < 0)
return -1;
return 0;
}
/* Check that two sets are not considered disjoint just because
* they have a different set of (named) parameters.
*/
static int test_disjoint(isl_ctx *ctx)
{
const char *str;
isl_set *set, *set2;
int disjoint;
str = "[n] -> { [[]->[]] }";
set = isl_set_read_from_str(ctx, str);
str = "{ [[]->[]] }";
set2 = isl_set_read_from_str(ctx, str);
disjoint = isl_set_is_disjoint(set, set2);
isl_set_free(set);
isl_set_free(set2);
if (disjoint < 0)
return -1;
if (disjoint)
isl_die(ctx, isl_error_unknown, "unexpected result", return -1);
return 0;
}
int test_equal(isl_ctx *ctx)
{
const char *str;
isl_set *set, *set2;
int equal;
str = "{ S_6[i] }";
set = isl_set_read_from_str(ctx, str);
str = "{ S_7[i] }";
set2 = isl_set_read_from_str(ctx, str);
equal = isl_set_is_equal(set, set2);
isl_set_free(set);
isl_set_free(set2);
if (equal < 0)
return -1;
if (equal)
isl_die(ctx, isl_error_unknown, "unexpected result", return -1);
return 0;
}
static int test_plain_fixed(isl_ctx *ctx, __isl_take isl_map *map,
enum isl_dim_type type, unsigned pos, int fixed)
{
int test;
test = isl_map_plain_is_fixed(map, type, pos, NULL);
isl_map_free(map);
if (test < 0)
return -1;
if (test == fixed)
return 0;
if (fixed)
isl_die(ctx, isl_error_unknown,
"map not detected as fixed", return -1);
else
isl_die(ctx, isl_error_unknown,
"map detected as fixed", return -1);
}
int test_fixed(isl_ctx *ctx)
{
const char *str;
isl_map *map;
str = "{ [i] -> [i] }";
map = isl_map_read_from_str(ctx, str);
if (test_plain_fixed(ctx, map, isl_dim_out, 0, 0))
return -1;
str = "{ [i] -> [1] }";
map = isl_map_read_from_str(ctx, str);
if (test_plain_fixed(ctx, map, isl_dim_out, 0, 1))
return -1;
str = "{ S_1[p1] -> [o0] : o0 = -2 and p1 >= 1 and p1 <= 7 }";
map = isl_map_read_from_str(ctx, str);
if (test_plain_fixed(ctx, map, isl_dim_out, 0, 1))
return -1;
map = isl_map_read_from_str(ctx, str);
map = isl_map_neg(map);
if (test_plain_fixed(ctx, map, isl_dim_out, 0, 1))
return -1;
return 0;
}
struct isl_vertices_test_data {
const char *set;
int n;
const char *vertex[2];
} vertices_tests[] = {
{ "{ A[t, i] : t = 12 and i >= 4 and i <= 12 }",
2, { "{ A[12, 4] }", "{ A[12, 12] }" } },
{ "{ A[t, i] : t = 14 and i = 1 }",
1, { "{ A[14, 1] }" } },
};
/* Check that "vertex" corresponds to one of the vertices in data->vertex.
*/
static int find_vertex(__isl_take isl_vertex *vertex, void *user)
{
struct isl_vertices_test_data *data = user;
isl_ctx *ctx;
isl_multi_aff *ma;
isl_basic_set *bset;
isl_pw_multi_aff *pma;
int i;
int equal;
ctx = isl_vertex_get_ctx(vertex);
bset = isl_vertex_get_domain(vertex);
ma = isl_vertex_get_expr(vertex);
pma = isl_pw_multi_aff_alloc(isl_set_from_basic_set(bset), ma);
for (i = 0; i < data->n; ++i) {
isl_pw_multi_aff *pma_i;
pma_i = isl_pw_multi_aff_read_from_str(ctx, data->vertex[i]);
equal = isl_pw_multi_aff_plain_is_equal(pma, pma_i);
isl_pw_multi_aff_free(pma_i);
if (equal < 0 || equal)
break;
}
isl_pw_multi_aff_free(pma);
isl_vertex_free(vertex);
if (equal < 0)
return -1;
return equal ? 0 : - 1;
}
int test_vertices(isl_ctx *ctx)
{
int i;
for (i = 0; i < ARRAY_SIZE(vertices_tests); ++i) {
isl_basic_set *bset;
isl_vertices *vertices;
int ok = 1;
int n;
bset = isl_basic_set_read_from_str(ctx, vertices_tests[i].set);
vertices = isl_basic_set_compute_vertices(bset);
n = isl_vertices_get_n_vertices(vertices);
if (vertices_tests[i].n != n)
ok = 0;
if (isl_vertices_foreach_vertex(vertices, &find_vertex,
&vertices_tests[i]) < 0)
ok = 0;
isl_vertices_free(vertices);
isl_basic_set_free(bset);
if (!vertices)
return -1;
if (!ok)
isl_die(ctx, isl_error_unknown, "unexpected vertices",
return -1);
}
return 0;
}
int test_union_pw(isl_ctx *ctx)
{
int equal;
const char *str;
isl_union_set *uset;
isl_union_pw_qpolynomial *upwqp1, *upwqp2;
str = "{ [x] -> x^2 }";
upwqp1 = isl_union_pw_qpolynomial_read_from_str(ctx, str);
upwqp2 = isl_union_pw_qpolynomial_copy(upwqp1);
uset = isl_union_pw_qpolynomial_domain(upwqp1);
upwqp1 = isl_union_pw_qpolynomial_copy(upwqp2);
upwqp1 = isl_union_pw_qpolynomial_intersect_domain(upwqp1, uset);
equal = isl_union_pw_qpolynomial_plain_is_equal(upwqp1, upwqp2);
isl_union_pw_qpolynomial_free(upwqp1);
isl_union_pw_qpolynomial_free(upwqp2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "unexpected result", return -1);
return 0;
}
int test_output(isl_ctx *ctx)
{
char *s;
const char *str;
isl_pw_aff *pa;
isl_printer *p;
int equal;
str = "[x] -> { [1] : x % 4 <= 2; [2] : x = 3 }";
pa = isl_pw_aff_read_from_str(ctx, str);
p = isl_printer_to_str(ctx);
p = isl_printer_set_output_format(p, ISL_FORMAT_C);
p = isl_printer_print_pw_aff(p, pa);
s = isl_printer_get_str(p);
isl_printer_free(p);
isl_pw_aff_free(pa);
if (!s)
equal = -1;
else
equal = !strcmp(s, "4 * floord(x, 4) + 2 >= x ? 1 : 2");
free(s);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "unexpected result", return -1);
return 0;
}
int test_sample(isl_ctx *ctx)
{
const char *str;
isl_basic_set *bset1, *bset2;
int empty, subset;
str = "{ [a, b, c, d, e, f, g, h, i, j, k] : "
"3i >= 1073741823b - c - 1073741823e + f and c >= 0 and "
"3i >= -1 + 3221225466b + c + d - 3221225466e - f and "
"2e >= a - b and 3e <= 2a and 3k <= -a and f <= -1 + a and "
"3i <= 4 - a + 4b + 2c - e - 2f and 3k <= -a + c - f and "
"3h >= -2 + a and 3g >= -3 - a and 3k >= -2 - a and "
"3i >= -2 - a - 2c + 3e + 2f and 3h <= a + c - f and "
"3h >= a + 2147483646b + 2c - 2147483646e - 2f and "
"3g <= -1 - a and 3i <= 1 + c + d - f and a <= 1073741823 and "
"f >= 1 - a + 1073741822b + c + d - 1073741822e and "
"3i >= 1 + 2b - 2c + e + 2f + 3g and "
"1073741822f <= 1073741822 - a + 1073741821b + 1073741822c +"
"d - 1073741821e and "
"3j <= 3 - a + 3b and 3g <= -2 - 2b + c + d - e - f and "
"3j >= 1 - a + b + 2e and "
"3f >= -3 + a + 3221225462b + 3c + d - 3221225465e and "
"3i <= 4 - a + 4b - e and "
"f <= 1073741822 + 1073741822b - 1073741822e and 3h <= a and "
"f >= 0 and 2e <= 4 - a + 5b - d and 2e <= a - b + d and "
"c <= -1 + a and 3i >= -2 - a + 3e and "
"1073741822e <= 1073741823 - a + 1073741822b + c and "
"3g >= -4 + 3221225464b + 3c + d - 3221225467e - 3f and "
"3i >= -1 + 3221225466b + 3c + d - 3221225466e - 3f and "
"1073741823e >= 1 + 1073741823b - d and "
"3i >= 1073741823b + c - 1073741823e - f and "
"3i >= 1 + 2b + e + 3g }";
bset1 = isl_basic_set_read_from_str(ctx, str);
bset2 = isl_basic_set_sample(isl_basic_set_copy(bset1));
empty = isl_basic_set_is_empty(bset2);
subset = isl_basic_set_is_subset(bset2, bset1);
isl_basic_set_free(bset1);
isl_basic_set_free(bset2);
if (empty < 0 || subset < 0)
return -1;
if (empty)
isl_die(ctx, isl_error_unknown, "point not found", return -1);
if (!subset)
isl_die(ctx, isl_error_unknown, "bad point found", return -1);
return 0;
}
int test_fixed_power(isl_ctx *ctx)
{
const char *str;
isl_map *map;
isl_int exp;
int equal;
isl_int_init(exp);
str = "{ [i] -> [i + 1] }";
map = isl_map_read_from_str(ctx, str);
isl_int_set_si(exp, 23);
map = isl_map_fixed_power(map, exp);
equal = map_check_equal(map, "{ [i] -> [i + 23] }");
isl_int_clear(exp);
isl_map_free(map);
if (equal < 0)
return -1;
return 0;
}
int test_slice(isl_ctx *ctx)
{
const char *str;
isl_map *map;
int equal;
str = "{ [i] -> [j] }";
map = isl_map_read_from_str(ctx, str);
map = isl_map_equate(map, isl_dim_in, 0, isl_dim_out, 0);
equal = map_check_equal(map, "{ [i] -> [i] }");
isl_map_free(map);
if (equal < 0)
return -1;
str = "{ [i] -> [j] }";
map = isl_map_read_from_str(ctx, str);
map = isl_map_equate(map, isl_dim_in, 0, isl_dim_in, 0);
equal = map_check_equal(map, "{ [i] -> [j] }");
isl_map_free(map);
if (equal < 0)
return -1;
str = "{ [i] -> [j] }";
map = isl_map_read_from_str(ctx, str);
map = isl_map_oppose(map, isl_dim_in, 0, isl_dim_out, 0);
equal = map_check_equal(map, "{ [i] -> [-i] }");
isl_map_free(map);
if (equal < 0)
return -1;
str = "{ [i] -> [j] }";
map = isl_map_read_from_str(ctx, str);
map = isl_map_oppose(map, isl_dim_in, 0, isl_dim_in, 0);
equal = map_check_equal(map, "{ [0] -> [j] }");
isl_map_free(map);
if (equal < 0)
return -1;
str = "{ [i] -> [j] }";
map = isl_map_read_from_str(ctx, str);
map = isl_map_order_gt(map, isl_dim_in, 0, isl_dim_out, 0);
equal = map_check_equal(map, "{ [i] -> [j] : i > j }");
isl_map_free(map);
if (equal < 0)
return -1;
str = "{ [i] -> [j] }";
map = isl_map_read_from_str(ctx, str);
map = isl_map_order_gt(map, isl_dim_in, 0, isl_dim_in, 0);
equal = map_check_equal(map, "{ [i] -> [j] : false }");
isl_map_free(map);
if (equal < 0)
return -1;
return 0;
}
int test_eliminate(isl_ctx *ctx)
{
const char *str;
isl_map *map;
int equal;
str = "{ [i] -> [j] : i = 2j }";
map = isl_map_read_from_str(ctx, str);
map = isl_map_eliminate(map, isl_dim_out, 0, 1);
equal = map_check_equal(map, "{ [i] -> [j] : exists a : i = 2a }");
isl_map_free(map);
if (equal < 0)
return -1;
return 0;
}
/* Check that isl_set_dim_residue_class detects that the values of j
* in the set below are all odd and that it does not detect any spurious
* strides.
*/
static int test_residue_class(isl_ctx *ctx)
{
const char *str;
isl_set *set;
isl_int m, r;
int res;
str = "{ [i,j] : j = 4 i + 1 and 0 <= i <= 100; "
"[i,j] : j = 4 i + 3 and 500 <= i <= 600 }";
set = isl_set_read_from_str(ctx, str);
isl_int_init(m);
isl_int_init(r);
res = isl_set_dim_residue_class(set, 1, &m, &r);
if (res >= 0 &&
(isl_int_cmp_si(m, 2) != 0 || isl_int_cmp_si(r, 1) != 0))
isl_die(ctx, isl_error_unknown, "incorrect residue class",
res = -1);
isl_int_clear(r);
isl_int_clear(m);
isl_set_free(set);
return res;
}
int test_align_parameters(isl_ctx *ctx)
{
const char *str;
isl_space *space;
isl_multi_aff *ma1, *ma2;
int equal;
str = "{ A[B[] -> C[]] -> D[E[] -> F[]] }";
ma1 = isl_multi_aff_read_from_str(ctx, str);
space = isl_space_params_alloc(ctx, 1);
space = isl_space_set_dim_name(space, isl_dim_param, 0, "N");
ma1 = isl_multi_aff_align_params(ma1, space);
str = "[N] -> { A[B[] -> C[]] -> D[E[] -> F[]] }";
ma2 = isl_multi_aff_read_from_str(ctx, str);
equal = isl_multi_aff_plain_is_equal(ma1, ma2);
isl_multi_aff_free(ma1);
isl_multi_aff_free(ma2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown,
"result not as expected", return -1);
return 0;
}
static int test_list(isl_ctx *ctx)
{
isl_id *a, *b, *c, *d, *id;
isl_id_list *list;
int ok;
a = isl_id_alloc(ctx, "a", NULL);
b = isl_id_alloc(ctx, "b", NULL);
c = isl_id_alloc(ctx, "c", NULL);
d = isl_id_alloc(ctx, "d", NULL);
list = isl_id_list_alloc(ctx, 4);
list = isl_id_list_add(list, a);
list = isl_id_list_add(list, b);
list = isl_id_list_add(list, c);
list = isl_id_list_add(list, d);
list = isl_id_list_drop(list, 1, 1);
if (isl_id_list_n_id(list) != 3) {
isl_id_list_free(list);
isl_die(ctx, isl_error_unknown,
"unexpected number of elements in list", return -1);
}
id = isl_id_list_get_id(list, 0);
ok = id == a;
isl_id_free(id);
id = isl_id_list_get_id(list, 1);
ok = ok && id == c;
isl_id_free(id);
id = isl_id_list_get_id(list, 2);
ok = ok && id == d;
isl_id_free(id);
isl_id_list_free(list);
if (!ok)
isl_die(ctx, isl_error_unknown,
"unexpected elements in list", return -1);
return 0;
}
const char *set_conversion_tests[] = {
"[N] -> { [i] : N - 1 <= 2 i <= N }",
"[N] -> { [i] : exists a : i = 4 a and N - 1 <= i <= N }",
"[N] -> { [i,j] : exists a : i = 4 a and N - 1 <= i, 2j <= N }",
"[N] -> { [[i]->[j]] : exists a : i = 4 a and N - 1 <= i, 2j <= N }",
"[N] -> { [3*floor(N/2) + 5*floor(N/3)] }",
};
/* Check that converting from isl_set to isl_pw_multi_aff and back
* to isl_set produces the original isl_set.
*/
static int test_set_conversion(isl_ctx *ctx)
{
int i;
const char *str;
isl_set *set1, *set2;
isl_pw_multi_aff *pma;
int equal;
for (i = 0; i < ARRAY_SIZE(set_conversion_tests); ++i) {
str = set_conversion_tests[i];
set1 = isl_set_read_from_str(ctx, str);
pma = isl_pw_multi_aff_from_set(isl_set_copy(set1));
set2 = isl_set_from_pw_multi_aff(pma);
equal = isl_set_is_equal(set1, set2);
isl_set_free(set1);
isl_set_free(set2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "bad conversion",
return -1);
}
return 0;
}
/* Check that converting from isl_map to isl_pw_multi_aff and back
* to isl_map produces the original isl_map.
*/
static int test_map_conversion(isl_ctx *ctx)
{
const char *str;
isl_map *map1, *map2;
isl_pw_multi_aff *pma;
int equal;
str = "{ [a, b, c, d] -> s0[a, b, e, f] : "
"exists (e0 = [(a - 2c)/3], e1 = [(-4 + b - 5d)/9], "
"e2 = [(-d + f)/9]: 3e0 = a - 2c and 9e1 = -4 + b - 5d and "
"9e2 = -d + f and f >= 0 and f <= 8 and 9e >= -5 - 2a and "
"9e <= -2 - 2a) }";
map1 = isl_map_read_from_str(ctx, str);
pma = isl_pw_multi_aff_from_map(isl_map_copy(map1));
map2 = isl_map_from_pw_multi_aff(pma);
equal = isl_map_is_equal(map1, map2);
isl_map_free(map1);
isl_map_free(map2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "bad conversion", return -1);
return 0;
}
static int test_conversion(isl_ctx *ctx)
{
if (test_set_conversion(ctx) < 0)
return -1;
if (test_map_conversion(ctx) < 0)
return -1;
return 0;
}
/* Check that isl_basic_map_curry does not modify input.
*/
static int test_curry(isl_ctx *ctx)
{
const char *str;
isl_basic_map *bmap1, *bmap2;
int equal;
str = "{ [A[] -> B[]] -> C[] }";
bmap1 = isl_basic_map_read_from_str(ctx, str);
bmap2 = isl_basic_map_curry(isl_basic_map_copy(bmap1));
equal = isl_basic_map_is_equal(bmap1, bmap2);
isl_basic_map_free(bmap1);
isl_basic_map_free(bmap2);
if (equal < 0)
return -1;
if (equal)
isl_die(ctx, isl_error_unknown,
"curried map should not be equal to original",
return -1);
return 0;
}
struct {
const char *set;
const char *ma;
const char *res;
} preimage_tests[] = {
{ "{ B[i,j] : 0 <= i < 10 and 0 <= j < 100 }",
"{ A[j,i] -> B[i,j] }",
"{ A[j,i] : 0 <= i < 10 and 0 <= j < 100 }" },
{ "{ rat: B[i,j] : 0 <= i, j and 3 i + 5 j <= 100 }",
"{ A[a,b] -> B[a/2,b/6] }",
"{ rat: A[a,b] : 0 <= a, b and 9 a + 5 b <= 600 }" },
{ "{ B[i,j] : 0 <= i, j and 3 i + 5 j <= 100 }",
"{ A[a,b] -> B[a/2,b/6] }",
"{ A[a,b] : 0 <= a, b and 9 a + 5 b <= 600 and "
"exists i,j : a = 2 i and b = 6 j }" },
{ "[n] -> { S[i] : 0 <= i <= 100 }", "[n] -> { S[n] }",
"[n] -> { : 0 <= n <= 100 }" },
{ "{ B[i] : 0 <= i < 100 and exists a : i = 4 a }",
"{ A[a] -> B[2a] }",
"{ A[a] : 0 <= a < 50 and exists b : a = 2 b }" },
{ "{ B[i] : 0 <= i < 100 and exists a : i = 4 a }",
"{ A[a] -> B[([a/2])] }",
"{ A[a] : 0 <= a < 200 and exists b : [a/2] = 4 b }" },
{ "{ B[i,j,k] : 0 <= i,j,k <= 100 }",
"{ A[a] -> B[a,a,a/3] }",
"{ A[a] : 0 <= a <= 100 and exists b : a = 3 b }" },
{ "{ B[i,j] : j = [(i)/2] } ", "{ A[i,j] -> B[i/3,j] }",
"{ A[i,j] : j = [(i)/6] and exists a : i = 3 a }" },
};
static int test_preimage_basic_set(isl_ctx *ctx)
{
int i;
isl_basic_set *bset1, *bset2;
isl_multi_aff *ma;
int equal;
for (i = 0; i < ARRAY_SIZE(preimage_tests); ++i) {
bset1 = isl_basic_set_read_from_str(ctx, preimage_tests[i].set);
ma = isl_multi_aff_read_from_str(ctx, preimage_tests[i].ma);
bset2 = isl_basic_set_read_from_str(ctx, preimage_tests[i].res);
bset1 = isl_basic_set_preimage_multi_aff(bset1, ma);
equal = isl_basic_set_is_equal(bset1, bset2);
isl_basic_set_free(bset1);
isl_basic_set_free(bset2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "bad preimage",
return -1);
}
return 0;
}
struct {
const char *map;
const char *ma;
const char *res;
} preimage_domain_tests[] = {
{ "{ B[i,j] -> C[2i + 3j] : 0 <= i < 10 and 0 <= j < 100 }",
"{ A[j,i] -> B[i,j] }",
"{ A[j,i] -> C[2i + 3j] : 0 <= i < 10 and 0 <= j < 100 }" },
{ "{ B[i] -> C[i]; D[i] -> E[i] }",
"{ A[i] -> B[i + 1] }",
"{ A[i] -> C[i + 1] }" },
{ "{ B[i] -> C[i]; B[i] -> E[i] }",
"{ A[i] -> B[i + 1] }",
"{ A[i] -> C[i + 1]; A[i] -> E[i + 1] }" },
{ "{ B[i] -> C[([i/2])] }",
"{ A[i] -> B[2i] }",
"{ A[i] -> C[i] }" },
{ "{ B[i,j] -> C[([i/2]), ([(i+j)/3])] }",
"{ A[i] -> B[([i/5]), ([i/7])] }",
"{ A[i] -> C[([([i/5])/2]), ([(([i/5])+([i/7]))/3])] }" },
{ "[N] -> { B[i] -> C[([N/2]), i, ([N/3])] }",
"[N] -> { A[] -> B[([N/5])] }",
"[N] -> { A[] -> C[([N/2]), ([N/5]), ([N/3])] }" },
{ "{ B[i] -> C[i] : exists a : i = 5 a }",
"{ A[i] -> B[2i] }",
"{ A[i] -> C[2i] : exists a : 2i = 5 a }" },
{ "{ B[i] -> C[i] : exists a : i = 2 a; "
"B[i] -> D[i] : exists a : i = 2 a + 1 }",
"{ A[i] -> B[2i] }",
"{ A[i] -> C[2i] }" },
};
static int test_preimage_union_map(isl_ctx *ctx)
{
int i;
isl_union_map *umap1, *umap2;
isl_multi_aff *ma;
int equal;
for (i = 0; i < ARRAY_SIZE(preimage_domain_tests); ++i) {
umap1 = isl_union_map_read_from_str(ctx,
preimage_domain_tests[i].map);
ma = isl_multi_aff_read_from_str(ctx,
preimage_domain_tests[i].ma);
umap2 = isl_union_map_read_from_str(ctx,
preimage_domain_tests[i].res);
umap1 = isl_union_map_preimage_domain_multi_aff(umap1, ma);
equal = isl_union_map_is_equal(umap1, umap2);
isl_union_map_free(umap1);
isl_union_map_free(umap2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "bad preimage",
return -1);
}
return 0;
}
static int test_preimage(isl_ctx *ctx)
{
if (test_preimage_basic_set(ctx) < 0)
return -1;
if (test_preimage_union_map(ctx) < 0)
return -1;
return 0;
}
struct {
const char *ma1;
const char *ma;
const char *res;
} pullback_tests[] = {
{ "{ B[i,j] -> C[i + 2j] }" , "{ A[a,b] -> B[b,a] }",
"{ A[a,b] -> C[b + 2a] }" },
{ "{ B[i] -> C[2i] }", "{ A[a] -> B[(a)/2] }", "{ A[a] -> C[a] }" },
{ "{ B[i] -> C[(i)/2] }", "{ A[a] -> B[2a] }", "{ A[a] -> C[a] }" },
{ "{ B[i] -> C[(i)/2] }", "{ A[a] -> B[(a)/3] }",
"{ A[a] -> C[(a)/6] }" },
{ "{ B[i] -> C[2i] }", "{ A[a] -> B[5a] }", "{ A[a] -> C[10a] }" },
{ "{ B[i] -> C[2i] }", "{ A[a] -> B[(a)/3] }",
"{ A[a] -> C[(2a)/3] }" },
{ "{ B[i,j] -> C[i + j] }", "{ A[a] -> B[a,a] }", "{ A[a] -> C[2a] }"},
{ "{ B[a] -> C[a,a] }", "{ A[i,j] -> B[i + j] }",
"{ A[i,j] -> C[i + j, i + j] }"},
{ "{ B[i] -> C[([i/2])] }", "{ B[5] }", "{ C[2] }" },
{ "[n] -> { B[i,j] -> C[([i/2]) + 2j] }",
"[n] -> { B[n,[n/3]] }", "[n] -> { C[([n/2]) + 2*[n/3]] }", },
};
static int test_pullback(isl_ctx *ctx)
{
int i;
isl_multi_aff *ma1, *ma2;
isl_multi_aff *ma;
int equal;
for (i = 0; i < ARRAY_SIZE(pullback_tests); ++i) {
ma1 = isl_multi_aff_read_from_str(ctx, pullback_tests[i].ma1);
ma = isl_multi_aff_read_from_str(ctx, pullback_tests[i].ma);
ma2 = isl_multi_aff_read_from_str(ctx, pullback_tests[i].res);
ma1 = isl_multi_aff_pullback_multi_aff(ma1, ma);
equal = isl_multi_aff_plain_is_equal(ma1, ma2);
isl_multi_aff_free(ma1);
isl_multi_aff_free(ma2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown, "bad pullback",
return -1);
}
return 0;
}
/* Check that negation is printed correctly.
*/
static int test_ast(isl_ctx *ctx)
{
isl_ast_expr *expr, *expr1, *expr2, *expr3;
char *str;
int ok;
expr1 = isl_ast_expr_from_id(isl_id_alloc(ctx, "A", NULL));
expr2 = isl_ast_expr_from_id(isl_id_alloc(ctx, "B", NULL));
expr = isl_ast_expr_add(expr1, expr2);
expr = isl_ast_expr_neg(expr);
str = isl_ast_expr_to_str(expr);
ok = str ? !strcmp(str, "-(A + B)") : -1;
free(str);
isl_ast_expr_free(expr);
if (ok < 0)
return -1;
if (!ok)
isl_die(ctx, isl_error_unknown,
"isl_ast_expr printed incorrectly", return -1);
expr1 = isl_ast_expr_from_id(isl_id_alloc(ctx, "A", NULL));
expr2 = isl_ast_expr_from_id(isl_id_alloc(ctx, "B", NULL));
expr = isl_ast_expr_add(expr1, expr2);
expr3 = isl_ast_expr_from_id(isl_id_alloc(ctx, "C", NULL));
expr = isl_ast_expr_sub(expr3, expr);
str = isl_ast_expr_to_str(expr);
ok = str ? !strcmp(str, "C - (A + B)") : -1;
free(str);
isl_ast_expr_free(expr);
if (ok < 0)
return -1;
if (!ok)
isl_die(ctx, isl_error_unknown,
"isl_ast_expr printed incorrectly", return -1);
return 0;
}
/* Check that isl_ast_build_expr_from_set returns a valid expression
* for an empty set. Note that isl_ast_build_expr_from_set getting
* called on an empty set probably indicates a bug in the caller.
*/
static int test_ast_build(isl_ctx *ctx)
{
isl_set *set;
isl_ast_build *build;
isl_ast_expr *expr;
set = isl_set_universe(isl_space_params_alloc(ctx, 0));
build = isl_ast_build_from_context(set);
set = isl_set_empty(isl_space_params_alloc(ctx, 0));
expr = isl_ast_build_expr_from_set(build, set);
isl_ast_expr_free(expr);
isl_ast_build_free(build);
if (!expr)
return -1;
return 0;
}
/* Internal data structure for before_for and after_for callbacks.
*
* depth is the current depth
* before is the number of times before_for has been called
* after is the number of times after_for has been called
*/
struct isl_test_codegen_data {
int depth;
int before;
int after;
};
/* This function is called before each for loop in the AST generated
* from test_ast_gen1.
*
* Increment the number of calls and the depth.
* Check that the space returned by isl_ast_build_get_schedule_space
* matches the target space of the schedule returned by
* isl_ast_build_get_schedule.
* Return an isl_id that is checked by the corresponding call
* to after_for.
*/
static __isl_give isl_id *before_for(__isl_keep isl_ast_build *build,
void *user)
{
struct isl_test_codegen_data *data = user;
isl_ctx *ctx;
isl_space *space;
isl_union_map *schedule;
isl_union_set *uset;
isl_set *set;
int empty;
char name[] = "d0";
ctx = isl_ast_build_get_ctx(build);
if (data->before >= 3)
isl_die(ctx, isl_error_unknown,
"unexpected number of for nodes", return NULL);
if (data->depth >= 2)
isl_die(ctx, isl_error_unknown,
"unexpected depth", return NULL);
snprintf(name, sizeof(name), "d%d", data->depth);
data->before++;
data->depth++;
schedule = isl_ast_build_get_schedule(build);
uset = isl_union_map_range(schedule);
if (!uset)
return NULL;
if (isl_union_set_n_set(uset) != 1) {
isl_union_set_free(uset);
isl_die(ctx, isl_error_unknown,
"expecting single range space", return NULL);
}
space = isl_ast_build_get_schedule_space(build);
set = isl_union_set_extract_set(uset, space);
isl_union_set_free(uset);
empty = isl_set_is_empty(set);
isl_set_free(set);
if (empty < 0)
return NULL;
if (empty)
isl_die(ctx, isl_error_unknown,
"spaces don't match", return NULL);
return isl_id_alloc(ctx, name, NULL);
}
/* This function is called after each for loop in the AST generated
* from test_ast_gen1.
*
* Increment the number of calls and decrement the depth.
* Check that the annotation attached to the node matches
* the isl_id returned by the corresponding call to before_for.
*/
static __isl_give isl_ast_node *after_for(__isl_take isl_ast_node *node,
__isl_keep isl_ast_build *build, void *user)
{
struct isl_test_codegen_data *data = user;
isl_id *id;
const char *name;
int valid;
data->after++;
data->depth--;
if (data->after > data->before)
isl_die(isl_ast_node_get_ctx(node), isl_error_unknown,
"mismatch in number of for nodes",
return isl_ast_node_free(node));
id = isl_ast_node_get_annotation(node);
if (!id)
isl_die(isl_ast_node_get_ctx(node), isl_error_unknown,
"missing annotation", return isl_ast_node_free(node));
name = isl_id_get_name(id);
valid = name && atoi(name + 1) == data->depth;
isl_id_free(id);
if (!valid)
isl_die(isl_ast_node_get_ctx(node), isl_error_unknown,
"wrong annotation", return isl_ast_node_free(node));
return node;
}
/* Check that the before_each_for and after_each_for callbacks
* are called for each for loop in the generated code,
* that they are called in the right order and that the isl_id
* returned from the before_each_for callback is attached to
* the isl_ast_node passed to the corresponding after_each_for call.
*/
static int test_ast_gen1(isl_ctx *ctx)
{
const char *str;
isl_set *set;
isl_union_map *schedule;
isl_ast_build *build;
isl_ast_node *tree;
struct isl_test_codegen_data data;
str = "[N] -> { : N >= 10 }";
set = isl_set_read_from_str(ctx, str);
str = "[N] -> { A[i,j] -> S[8,i,3,j] : 0 <= i,j <= N; "
"B[i,j] -> S[8,j,9,i] : 0 <= i,j <= N }";
schedule = isl_union_map_read_from_str(ctx, str);
data.before = 0;
data.after = 0;
data.depth = 0;
build = isl_ast_build_from_context(set);
build = isl_ast_build_set_before_each_for(build,
&before_for, &data);
build = isl_ast_build_set_after_each_for(build,
&after_for, &data);
tree = isl_ast_build_ast_from_schedule(build, schedule);
isl_ast_build_free(build);
if (!tree)
return -1;
isl_ast_node_free(tree);
if (data.before != 3 || data.after != 3)
isl_die(ctx, isl_error_unknown,
"unexpected number of for nodes", return -1);
return 0;
}
/* Check that the AST generator handles domains that are integrally disjoint
* but not ratinoally disjoint.
*/
static int test_ast_gen2(isl_ctx *ctx)
{
const char *str;
isl_set *set;
isl_union_map *schedule;
isl_union_map *options;
isl_ast_build *build;
isl_ast_node *tree;
str = "{ A[i,j] -> [i,j] : 0 <= i,j <= 1 }";
schedule = isl_union_map_read_from_str(ctx, str);
set = isl_set_universe(isl_space_params_alloc(ctx, 0));
build = isl_ast_build_from_context(set);
str = "{ [i,j] -> atomic[1] : i + j = 1; [i,j] -> unroll[1] : i = j }";
options = isl_union_map_read_from_str(ctx, str);
build = isl_ast_build_set_options(build, options);
tree = isl_ast_build_ast_from_schedule(build, schedule);
isl_ast_build_free(build);
if (!tree)
return -1;
isl_ast_node_free(tree);
return 0;
}
/* Increment *user on each call.
*/
static __isl_give isl_ast_node *count_domains(__isl_take isl_ast_node *node,
__isl_keep isl_ast_build *build, void *user)
{
int *n = user;
(*n)++;
return node;
}
/* Test that unrolling tries to minimize the number of instances.
* In particular, for the schedule given below, make sure it generates
* 3 nodes (rather than 101).
*/
static int test_ast_gen3(isl_ctx *ctx)
{
const char *str;
isl_set *set;
isl_union_map *schedule;
isl_union_map *options;
isl_ast_build *build;
isl_ast_node *tree;
int n_domain = 0;
str = "[n] -> { A[i] -> [i] : 0 <= i <= 100 and n <= i <= n + 2 }";
schedule = isl_union_map_read_from_str(ctx, str);
set = isl_set_universe(isl_space_params_alloc(ctx, 0));
str = "{ [i] -> unroll[0] }";
options = isl_union_map_read_from_str(ctx, str);
build = isl_ast_build_from_context(set);
build = isl_ast_build_set_options(build, options);
build = isl_ast_build_set_at_each_domain(build,
&count_domains, &n_domain);
tree = isl_ast_build_ast_from_schedule(build, schedule);
isl_ast_build_free(build);
if (!tree)
return -1;
isl_ast_node_free(tree);
if (n_domain != 3)
isl_die(ctx, isl_error_unknown,
"unexpected number of for nodes", return -1);
return 0;
}
/* Check that if the ast_build_exploit_nested_bounds options is set,
* we do not get an outer if node in the generated AST,
* while we do get such an outer if node if the options is not set.
*/
static int test_ast_gen4(isl_ctx *ctx)
{
const char *str;
isl_set *set;
isl_union_map *schedule;
isl_ast_build *build;
isl_ast_node *tree;
enum isl_ast_node_type type;
int enb;
enb = isl_options_get_ast_build_exploit_nested_bounds(ctx);
str = "[N,M] -> { A[i,j] -> [i,j] : 0 <= i <= N and 0 <= j <= M }";
isl_options_set_ast_build_exploit_nested_bounds(ctx, 1);
schedule = isl_union_map_read_from_str(ctx, str);
set = isl_set_universe(isl_space_params_alloc(ctx, 0));
build = isl_ast_build_from_context(set);
tree = isl_ast_build_ast_from_schedule(build, schedule);
isl_ast_build_free(build);
if (!tree)
return -1;
type = isl_ast_node_get_type(tree);
isl_ast_node_free(tree);
if (type == isl_ast_node_if)
isl_die(ctx, isl_error_unknown,
"not expecting if node", return -1);
isl_options_set_ast_build_exploit_nested_bounds(ctx, 0);
schedule = isl_union_map_read_from_str(ctx, str);
set = isl_set_universe(isl_space_params_alloc(ctx, 0));
build = isl_ast_build_from_context(set);
tree = isl_ast_build_ast_from_schedule(build, schedule);
isl_ast_build_free(build);
if (!tree)
return -1;
type = isl_ast_node_get_type(tree);
isl_ast_node_free(tree);
if (type != isl_ast_node_if)
isl_die(ctx, isl_error_unknown,
"expecting if node", return -1);
isl_options_set_ast_build_exploit_nested_bounds(ctx, enb);
return 0;
}
/* This function is called for each leaf in the AST generated
* from test_ast_gen5.
*
* We finalize the AST generation by extending the outer schedule
* with a zero-dimensional schedule. If this results in any for loops,
* then this means that we did not pass along enough information
* about the outer schedule to the inner AST generation.
*/
static __isl_give isl_ast_node *create_leaf(__isl_take isl_ast_build *build,
void *user)
{
isl_union_map *schedule, *extra;
isl_ast_node *tree;
schedule = isl_ast_build_get_schedule(build);
extra = isl_union_map_copy(schedule);
extra = isl_union_map_from_domain(isl_union_map_domain(extra));
schedule = isl_union_map_range_product(schedule, extra);
tree = isl_ast_build_ast_from_schedule(build, schedule);
isl_ast_build_free(build);
if (!tree)
return NULL;
if (isl_ast_node_get_type(tree) == isl_ast_node_for)
isl_die(isl_ast_node_get_ctx(tree), isl_error_unknown,
"code should not contain any for loop",
return isl_ast_node_free(tree));
return tree;
}
/* Check that we do not lose any information when going back and
* forth between internal and external schedule.
*
* In particular, we create an AST where we unroll the only
* non-constant dimension in the schedule. We therefore do
* not expect any for loops in the AST. However, older versions
* of isl would not pass along enough information about the outer
* schedule when performing an inner code generation from a create_leaf
* callback, resulting in the inner code generation producing a for loop.
*/
static int test_ast_gen5(isl_ctx *ctx)
{
const char *str;
isl_set *set;
isl_union_map *schedule, *options;
isl_ast_build *build;
isl_ast_node *tree;
str = "{ A[] -> [1, 1, 2]; B[i] -> [1, i, 0] : i >= 1 and i <= 2 }";
schedule = isl_union_map_read_from_str(ctx, str);
str = "{ [a, b, c] -> unroll[1] : exists (e0 = [(a)/4]: "
"4e0 >= -1 + a - b and 4e0 <= -2 + a + b) }";
options = isl_union_map_read_from_str(ctx, str);
set = isl_set_universe(isl_space_params_alloc(ctx, 0));
build = isl_ast_build_from_context(set);
build = isl_ast_build_set_options(build, options);
build = isl_ast_build_set_create_leaf(build, &create_leaf, NULL);
tree = isl_ast_build_ast_from_schedule(build, schedule);
isl_ast_build_free(build);
isl_ast_node_free(tree);
if (!tree)
return -1;
return 0;
}
static int test_ast_gen(isl_ctx *ctx)
{
if (test_ast_gen1(ctx) < 0)
return -1;
if (test_ast_gen2(ctx) < 0)
return -1;
if (test_ast_gen3(ctx) < 0)
return -1;
if (test_ast_gen4(ctx) < 0)
return -1;
if (test_ast_gen5(ctx) < 0)
return -1;
return 0;
}
/* Check if dropping output dimensions from an isl_pw_multi_aff
* works properly.
*/
static int test_pw_multi_aff(isl_ctx *ctx)
{
const char *str;
isl_pw_multi_aff *pma1, *pma2;
int equal;
str = "{ [i,j] -> [i+j, 4i-j] }";
pma1 = isl_pw_multi_aff_read_from_str(ctx, str);
str = "{ [i,j] -> [4i-j] }";
pma2 = isl_pw_multi_aff_read_from_str(ctx, str);
pma1 = isl_pw_multi_aff_drop_dims(pma1, isl_dim_out, 0, 1);
equal = isl_pw_multi_aff_plain_is_equal(pma1, pma2);
isl_pw_multi_aff_free(pma1);
isl_pw_multi_aff_free(pma2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown,
"expressions not equal", return -1);
return 0;
}
/* Check that we can properly parse multi piecewise affine expressions
* where the piecewise affine expressions have different domains.
*/
static int test_multi_pw_aff(isl_ctx *ctx)
{
const char *str;
isl_set *dom, *dom2;
isl_multi_pw_aff *mpa1, *mpa2;
isl_pw_aff *pa;
int equal;
int equal_domain;
mpa1 = isl_multi_pw_aff_read_from_str(ctx, "{ [i] -> [i] }");
dom = isl_set_read_from_str(ctx, "{ [i] : i > 0 }");
mpa1 = isl_multi_pw_aff_intersect_domain(mpa1, dom);
mpa2 = isl_multi_pw_aff_read_from_str(ctx, "{ [i] -> [2i] }");
mpa2 = isl_multi_pw_aff_flat_range_product(mpa1, mpa2);
str = "{ [i] -> [(i : i > 0), 2i] }";
mpa1 = isl_multi_pw_aff_read_from_str(ctx, str);
equal = isl_multi_pw_aff_plain_is_equal(mpa1, mpa2);
pa = isl_multi_pw_aff_get_pw_aff(mpa1, 0);
dom = isl_pw_aff_domain(pa);
pa = isl_multi_pw_aff_get_pw_aff(mpa1, 1);
dom2 = isl_pw_aff_domain(pa);
equal_domain = isl_set_is_equal(dom, dom2);
isl_set_free(dom);
isl_set_free(dom2);
isl_multi_pw_aff_free(mpa1);
isl_multi_pw_aff_free(mpa2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown,
"expressions not equal", return -1);
if (equal_domain < 0)
return -1;
if (equal_domain)
isl_die(ctx, isl_error_unknown,
"domains unexpectedly equal", return -1);
return 0;
}
/* This is a regression test for a bug where isl_basic_map_simplify
* would end up in an infinite loop. In particular, we construct
* an empty basic set that is not obviously empty.
* isl_basic_set_is_empty marks the basic set as empty.
* After projecting out i3, the variable can be dropped completely,
* but isl_basic_map_simplify refrains from doing so if the basic set
* is empty and would end up in an infinite loop if it didn't test
* explicitly for empty basic maps in the outer loop.
*/
static int test_simplify(isl_ctx *ctx)
{
const char *str;
isl_basic_set *bset;
int empty;
str = "{ [i0, i1, i2, i3] : i0 >= -2 and 6i2 <= 4 + i0 + 5i1 and "
"i2 <= 22 and 75i2 <= 111 + 13i0 + 60i1 and "
"25i2 >= 38 + 6i0 + 20i1 and i0 <= -1 and i2 >= 20 and "
"i3 >= i2 }";
bset = isl_basic_set_read_from_str(ctx, str);
empty = isl_basic_set_is_empty(bset);
bset = isl_basic_set_project_out(bset, isl_dim_set, 3, 1);
isl_basic_set_free(bset);
if (!bset)
return -1;
if (!empty)
isl_die(ctx, isl_error_unknown,
"basic set should be empty", return -1);
return 0;
}
/* This is a regression test for a bug where isl_tab_basic_map_partial_lexopt
* with gbr context would fail to disable the use of the shifted tableau
* when transferring equalities for the input to the context, resulting
* in invalid sample values.
*/
static int test_partial_lexmin(isl_ctx *ctx)
{
const char *str;
isl_basic_set *bset;
isl_basic_map *bmap;
isl_map *map;
str = "{ [1, b, c, 1 - c] -> [e] : 2e <= -c and 2e >= -3 + c }";
bmap = isl_basic_map_read_from_str(ctx, str);
str = "{ [a, b, c, d] : c <= 1 and 2d >= 6 - 4b - c }";
bset = isl_basic_set_read_from_str(ctx, str);
map = isl_basic_map_partial_lexmin(bmap, bset, NULL);
isl_map_free(map);
if (!map)
return -1;
return 0;
}
/* Check that the variable compression performed on the existentially
* quantified variables inside isl_basic_set_compute_divs is not confused
* by the implicit equalities among the parameters.
*/
static int test_compute_divs(isl_ctx *ctx)
{
const char *str;
isl_basic_set *bset;
isl_set *set;
str = "[a, b, c, d, e] -> { [] : exists (e0: 2d = b and a <= 124 and "
"b <= 2046 and b >= 0 and b <= 60 + 64a and 2e >= b + 2c and "
"2e >= b and 2e <= 1 + b and 2e <= 1 + b + 2c and "
"32768e0 >= -124 + a and 2097152e0 <= 60 + 64a - b) }";
bset = isl_basic_set_read_from_str(ctx, str);
set = isl_basic_set_compute_divs(bset);
isl_set_free(set);
if (!set)
return -1;
return 0;
}
struct {
const char *set;
const char *dual;
} coef_tests[] = {
{ "{ rat: [i] : 0 <= i <= 10 }",
"{ rat: coefficients[[cst] -> [a]] : cst >= 0 and 10a + cst >= 0 }" },
{ "{ rat: [i] : FALSE }",
"{ rat: coefficients[[cst] -> [a]] }" },
{ "{ rat: [i] : }",
"{ rat: coefficients[[cst] -> [0]] : cst >= 0 }" },
};
struct {
const char *set;
const char *dual;
} sol_tests[] = {
{ "{ rat: coefficients[[cst] -> [a]] : cst >= 0 and 10a + cst >= 0 }",
"{ rat: [i] : 0 <= i <= 10 }" },
{ "{ rat: coefficients[[cst] -> [a]] : FALSE }",
"{ rat: [i] }" },
{ "{ rat: coefficients[[cst] -> [a]] }",
"{ rat: [i] : FALSE }" },
};
/* Test the basic functionality of isl_basic_set_coefficients and
* isl_basic_set_solutions.
*/
static int test_dual(isl_ctx *ctx)
{
int i;
for (i = 0; i < ARRAY_SIZE(coef_tests); ++i) {
int equal;
isl_basic_set *bset1, *bset2;
bset1 = isl_basic_set_read_from_str(ctx, coef_tests[i].set);
bset2 = isl_basic_set_read_from_str(ctx, coef_tests[i].dual);
bset1 = isl_basic_set_coefficients(bset1);
equal = isl_basic_set_is_equal(bset1, bset2);
isl_basic_set_free(bset1);
isl_basic_set_free(bset2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown,
"incorrect dual", return -1);
}
for (i = 0; i < ARRAY_SIZE(sol_tests); ++i) {
int equal;
isl_basic_set *bset1, *bset2;
bset1 = isl_basic_set_read_from_str(ctx, sol_tests[i].set);
bset2 = isl_basic_set_read_from_str(ctx, sol_tests[i].dual);
bset1 = isl_basic_set_solutions(bset1);
equal = isl_basic_set_is_equal(bset1, bset2);
isl_basic_set_free(bset1);
isl_basic_set_free(bset2);
if (equal < 0)
return -1;
if (!equal)
isl_die(ctx, isl_error_unknown,
"incorrect dual", return -1);
}
return 0;
}
struct {
const char *name;
int (*fn)(isl_ctx *ctx);
} tests [] = {
{ "dual", &test_dual },
{ "dependence analysis", &test_flow },
{ "val", &test_val },
{ "compute divs", &test_compute_divs },
{ "partial lexmin", &test_partial_lexmin },
{ "simplify", &test_simplify },
{ "curry", &test_curry },
{ "piecewise multi affine expressions", &test_pw_multi_aff },
{ "multi piecewise affine expressions", &test_multi_pw_aff },
{ "conversion", &test_conversion },
{ "list", &test_list },
{ "align parameters", &test_align_parameters },
{ "preimage", &test_preimage },
{ "pullback", &test_pullback },
{ "AST", &test_ast },
{ "AST build", &test_ast_build },
{ "AST generation", &test_ast_gen },
{ "eliminate", &test_eliminate },
{ "residue class", &test_residue_class },
{ "div", &test_div },
{ "slice", &test_slice },
{ "fixed power", &test_fixed_power },
{ "sample", &test_sample },
{ "output", &test_output },
{ "vertices", &test_vertices },
{ "fixed", &test_fixed },
{ "equal", &test_equal },
{ "disjoint", &test_disjoint },
{ "product", &test_product },
{ "dim_max", &test_dim_max },
{ "affine", &test_aff },
{ "injective", &test_injective },
{ "schedule", &test_schedule },
{ "union_pw", &test_union_pw },
{ "parse", &test_parse },
{ "single-valued", &test_sv },
{ "affine hull", &test_affine_hull },
{ "coalesce", &test_coalesce },
{ "factorize", &test_factorize },
{ "subset", &test_subset },
{ "subtract", &test_subtract },
{ "lexmin", &test_lexmin },
{ "min", &test_min },
{ "gist", &test_gist },
{ "piecewise quasi-polynomials", &test_pwqp },
};
int main(int argc, char **argv)
{
int i;
struct isl_ctx *ctx;
struct isl_options *options;
srcdir = getenv("srcdir");
assert(srcdir);
options = isl_options_new_with_defaults();
assert(options);
argc = isl_options_parse(options, argc, argv, ISL_ARG_ALL);
ctx = isl_ctx_alloc_with_options(&isl_options_args, options);
for (i = 0; i < ARRAY_SIZE(tests); ++i) {
printf("%s\n", tests[i].name);
if (tests[i].fn(ctx) < 0)
goto error;
}
test_lift(ctx);
test_bound(ctx);
test_union(ctx);
test_split_periods(ctx);
test_lex(ctx);
test_bijective(ctx);
test_dep(ctx);
test_read(ctx);
test_bounded(ctx);
test_construction(ctx);
test_dim(ctx);
test_application(ctx);
test_convex_hull(ctx);
test_closure(ctx);
isl_ctx_free(ctx);
return 0;
error:
isl_ctx_free(ctx);
return -1;
}