/* * Copyright 2008-2009 Katholieke Universiteit Leuven * * 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 */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #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; 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" }, }; /* 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); } void test_convex_hull_algo(struct isl_ctx *ctx, int convex) { const char *str1, *str2; isl_set *set1, *set2; 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"); str1 = "{ [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) }"; str2 = "{ [i0, i1, i2] : i0 >= 0 and i2 >= i0 and i2 <= 1 and i1 >= 0 }"; set1 = isl_set_read_from_str(ctx, str1); set2 = isl_set_read_from_str(ctx, str2); 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); } static int test_gist(struct isl_ctx *ctx) { const char *str; isl_basic_set *bset1, *bset2; isl_map *map1, *map2; 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=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); } int test_sv(isl_ctx *ctx) { const char *str; isl_map *map; isl_union_map *umap; int sv; str = "[N] -> { [i] -> [f] : 0 <= i <= N and 0 <= i - 10 f <= 9 }"; map = isl_map_read_from_str(ctx, str); sv = isl_map_is_single_valued(map); isl_map_free(map); if (sv < 0) return -1; if (!sv) isl_die(ctx, isl_error_internal, "map not detected as single valued", return -1); str = "[N] -> { [i] -> [f] : 0 <= i <= N and 0 <= i - 10 f <= 10 }"; map = isl_map_read_from_str(ctx, str); sv = isl_map_is_single_valued(map); isl_map_free(map); if (sv < 0) return -1; if (sv) isl_die(ctx, isl_error_internal, "map detected as single valued", return -1); str = "{ S1[i] -> [i] : 0 <= i <= 9; S2[i] -> [i] : 0 <= i <= 9 }"; umap = isl_union_map_read_from_str(ctx, str); sv = isl_union_map_is_single_valued(umap); isl_union_map_free(umap); if (sv < 0) return -1; if (!sv) isl_die(ctx, isl_error_internal, "map not detected as single valued", return -1); str = "{ [i] -> S1[i] : 0 <= i <= 9; [i] -> S2[i] : 0 <= i <= 9 }"; umap = isl_union_map_read_from_str(ctx, str); sv = isl_union_map_is_single_valued(umap); isl_union_map_free(umap); if (sv < 0) return -1; if (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); } static int test_pwqp(struct isl_ctx *ctx) { 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); str = "{ [i] -> i }"; pwqp1 = isl_pw_qpolynomial_read_from_str(ctx, str); str = "{ [k] : exists a : k = 2a }"; set = isl_set_read_from_str(ctx, str); pwqp1 = isl_pw_qpolynomial_gist(pwqp1, set); str = "{ [i] -> i }"; 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 + [ (i + [i/3])/2 ] }"; pwqp1 = isl_pw_qpolynomial_read_from_str(ctx, str); str = "{ [10] }"; set = isl_set_read_from_str(ctx, str); pwqp1 = isl_pw_qpolynomial_gist(pwqp1, set); str = "{ [i] -> 16 }"; 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]) }"; pwqp1 = isl_pw_qpolynomial_read_from_str(ctx, str); str = "{ [k] : exists a : k = 2a+1 }"; set = isl_set_read_from_str(ctx, str); pwqp1 = isl_pw_qpolynomial_gist(pwqp1, set); str = "{ [i] -> -1/2 + 1/2 * i }"; 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/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; 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 *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); proximity = isl_union_map_copy(dep); sched = isl_union_set_compute_schedule(isl_union_set_copy(D), validity, proximity); 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 *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); schedule = isl_union_set_compute_schedule(dom, dep, prox); 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 *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); sched = isl_union_set_compute_schedule(D, validity, proximity); 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; } 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_zero_distance = 1; if (test_one_schedule(ctx, D, W, R, S, 0, 0) < 0) return -1; ctx->opt->schedule_outer_zero_distance = 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; 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; } 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; 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); 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; } int test_vertices(isl_ctx *ctx) { const char *str; isl_basic_set *bset; isl_vertices *vertices; str = "{ A[t, i] : t = 12 and i >= 4 and i <= 12 }"; bset = isl_basic_set_read_from_str(ctx, str); vertices = isl_basic_set_compute_vertices(bset); isl_basic_set_free(bset); isl_vertices_free(vertices); if (!vertices) return -1; str = "{ A[t, i] : t = 14 and i = 1 }"; bset = isl_basic_set_read_from_str(ctx, str); vertices = isl_basic_set_compute_vertices(bset); isl_basic_set_free(bset); isl_vertices_free(vertices); if (!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, "(2 - x + 4*floord(x, 4) >= 0) ? (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 }", }; /* 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; } /* 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; } /* 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 *name; int (*fn)(isl_ctx *ctx); } tests [] = { { "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 }, { "conversion", &test_conversion }, { "list", &test_list }, { "align parameters", &test_align_parameters }, { "preimage", &test_preimage }, { "pullback", &test_pullback }, { "AST", &test_ast }, { "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 i; struct isl_ctx *ctx; srcdir = getenv("srcdir"); assert(srcdir); ctx = isl_ctx_alloc(); 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; }