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| /* Copyright 2016-2017 Tobias Grosser
*
* Use of this software is governed by the MIT license
*
* Written by Tobias Grosser, Weststrasse 47, CH-8003, Zurich
*/
#ifndef IS_TRUE
#define IS_TRUE(b) (b)
#endif
/* Test the pointer interface for interaction between isl C and C++ types.
*
* This tests:
* - construction from an isl C object
* - check that constructed objects are non-null
* - get a non-owned C pointer from an isl C++ object usable in __isl_keep
* methods
* - use copy to get an owned C pointer from an isl C++ object which is usable
* in __isl_take methods. Verify that the original C++ object retains a valid
* pointer.
* - use release to get an owned C pointer from an isl C++ object which is
* usable in __isl_take methods. Verify that the original C++ object gave up
* its pointer and now is null.
*/
void test_pointer(isl::ctx ctx)
{
isl_set *c_empty = isl_set_read_from_str(ctx.get(), "{ : false }");
isl::set empty = isl::manage(c_empty);
assert(IS_TRUE(empty.is_empty()));
assert(isl_set_is_empty(empty.get()));
assert(!empty.is_null());
isl_set_free(empty.copy());
assert(!empty.is_null());
isl_set_free(empty.release());
assert(empty.is_null());
}
/* Test that isl objects can be constructed.
*
* This tests:
* - construction of a null object
* - construction from a string
* - construction from an integer
* - static constructor without a parameter
* - conversion construction (implicit)
* - conversion construction (explicit)
*
* The tests to construct from integers and strings cover functionality that
* is also tested in the parameter type tests, but here we verify that
* multiple overloaded constructors are available and that overload resolution
* works as expected.
*
* Construction from an isl C pointer is tested in test_pointer.
*/
void test_constructors(isl::ctx ctx)
{
isl::val null;
assert(null.is_null());
isl::val zero_from_str = isl::val(ctx, "0");
assert(IS_TRUE(zero_from_str.is_zero()));
isl::val zero_int_con = isl::val(ctx, 0);
assert(IS_TRUE(zero_int_con.is_zero()));
isl::val zero_static_con = isl::val::zero(ctx);
assert(IS_TRUE(zero_static_con.is_zero()));
isl::basic_set bs(ctx, "{ [1] }");
isl::set result(ctx, "{ [1] }");
isl::set s = bs;
assert(IS_TRUE(s.is_equal(result)));
isl::set s2(bs);
assert(IS_TRUE(s.unite(s2).is_equal(result)));
}
/* Test integer function parameters.
*
* Verify that extreme values and zero work.
*/
void test_parameters_int(isl::ctx ctx)
{
isl::val long_max_str(ctx, std::to_string(LONG_MAX));
isl::val long_max_int(ctx, LONG_MAX);
assert(IS_TRUE(long_max_str.eq(long_max_int)));
isl::val long_min_str(ctx, std::to_string(LONG_MIN));
isl::val long_min_int(ctx, LONG_MIN);
assert(IS_TRUE(long_min_str.eq(long_min_int)));
isl::val long_zero_str = isl::val(ctx, std::to_string(0));
isl::val long_zero_int = isl::val(ctx, 0);
assert(IS_TRUE(long_zero_str.eq(long_zero_int)));
}
/* Test isl objects parameters.
*
* Verify that isl objects can be passed as lvalue and rvalue parameters.
* Also verify that isl object parameters are automatically type converted if
* there is an inheritance relation. Finally, test function calls without
* any additional parameters, apart from the isl object on which
* the method is called.
*/
void test_parameters_obj(isl::ctx ctx)
{
isl::set a(ctx, "{ [0] }");
isl::set b(ctx, "{ [1] }");
isl::set c(ctx, "{ [2] }");
isl::set expected(ctx, "{ [i] : 0 <= i <= 2 }");
isl::set tmp = a.unite(b);
isl::set res_lvalue_param = tmp.unite(c);
assert(IS_TRUE(res_lvalue_param.is_equal(expected)));
isl::set res_rvalue_param = a.unite(b).unite(c);
assert(IS_TRUE(res_rvalue_param.is_equal(expected)));
isl::basic_set a2(ctx, "{ [0] }");
assert(IS_TRUE(a.is_equal(a2)));
isl::val two(ctx, 2);
isl::val half(ctx, "1/2");
isl::val res_only_this_param = two.inv();
assert(IS_TRUE(res_only_this_param.eq(half)));
}
/* Test different kinds of parameters to be passed to functions.
*
* This includes integer and isl C++ object parameters.
*/
void test_parameters(isl::ctx ctx)
{
test_parameters_int(ctx);
test_parameters_obj(ctx);
}
/* Test that isl objects are returned correctly.
*
* This only tests that after combining two objects, the result is successfully
* returned.
*/
void test_return_obj(isl::ctx ctx)
{
isl::val one(ctx, "1");
isl::val two(ctx, "2");
isl::val three(ctx, "3");
isl::val res = one.add(two);
assert(IS_TRUE(res.eq(three)));
}
/* Test that integer values are returned correctly.
*/
void test_return_int(isl::ctx ctx)
{
isl::val one(ctx, "1");
isl::val neg_one(ctx, "-1");
isl::val zero(ctx, "0");
assert(one.sgn() > 0);
assert(neg_one.sgn() < 0);
assert(zero.sgn() == 0);
}
/* Test that strings are returned correctly.
* Do so by calling overloaded isl::ast_build::from_expr methods.
*/
void test_return_string(isl::ctx ctx)
{
isl::set context(ctx, "[n] -> { : }");
isl::ast_build build = isl::ast_build::from_context(context);
isl::pw_aff pw_aff(ctx, "[n] -> { [n] }");
isl::set set(ctx, "[n] -> { : n >= 0 }");
isl::ast_expr expr = build.expr_from(pw_aff);
const char *expected_string = "n";
assert(expected_string == expr.to_C_str());
expr = build.expr_from(set);
expected_string = "n >= 0";
assert(expected_string == expr.to_C_str());
}
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