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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include <limits>
#include <math.h>
#include "js/Equality.h" // JS::LooselyEqual
#include "jsapi-tests/tests.h"
using namespace std;
struct LooseEqualityFixture : public JSAPITest {
virtual ~LooseEqualityFixture() {}
bool leq(JS::HandleValue x, JS::HandleValue y) {
bool equal;
CHECK(JS::LooselyEqual(cx, x, y, &equal) && equal);
CHECK(JS::LooselyEqual(cx, y, x, &equal) && equal);
return true;
}
bool nleq(JS::HandleValue x, JS::HandleValue y) {
bool equal;
CHECK(JS::LooselyEqual(cx, x, y, &equal) && !equal);
CHECK(JS::LooselyEqual(cx, y, x, &equal) && !equal);
return true;
}
};
struct LooseEqualityData {
JS::RootedValue qNaN;
JS::RootedValue sNaN;
JS::RootedValue d42;
JS::RootedValue i42;
JS::RootedValue undef;
JS::RootedValue null;
JS::RootedValue obj;
JS::RootedValue poszero;
JS::RootedValue negzero;
explicit LooseEqualityData(JSContext* cx)
: qNaN(cx),
sNaN(cx),
d42(cx),
i42(cx),
undef(cx),
null(cx),
obj(cx),
poszero(cx),
negzero(cx) {
qNaN = JS::CanonicalizedDoubleValue(numeric_limits<double>::quiet_NaN());
sNaN =
JS::CanonicalizedDoubleValue(numeric_limits<double>::signaling_NaN());
d42 = JS::DoubleValue(42.0);
i42 = JS::Int32Value(42);
undef = JS::UndefinedValue();
null = JS::NullValue();
obj = JS::ObjectOrNullValue(JS::CurrentGlobalOrNull(cx));
poszero = JS::DoubleValue(0.0);
negzero = JS::DoubleValue(-0.0);
#ifdef XP_WIN
# define copysign _copysign
#endif
MOZ_RELEASE_ASSERT(copysign(1.0, poszero.toDouble()) == 1.0);
MOZ_RELEASE_ASSERT(copysign(1.0, negzero.toDouble()) == -1.0);
#ifdef XP_WIN
# undef copysign
#endif
}
};
// 11.9.3 1a
BEGIN_FIXTURE_TEST(LooseEqualityFixture, test_undef_leq_undef) {
LooseEqualityData d(cx);
CHECK(leq(d.undef, d.undef));
return true;
}
END_FIXTURE_TEST(LooseEqualityFixture, test_undef_leq_undef)
// 11.9.3 1b
BEGIN_FIXTURE_TEST(LooseEqualityFixture, test_null_leq_null) {
LooseEqualityData d(cx);
CHECK(leq(d.null, d.null));
return true;
}
END_FIXTURE_TEST(LooseEqualityFixture, test_null_leq_null)
// 11.9.3 1ci
BEGIN_FIXTURE_TEST(LooseEqualityFixture, test_nan_nleq_all) {
LooseEqualityData d(cx);
CHECK(nleq(d.qNaN, d.qNaN));
CHECK(nleq(d.qNaN, d.sNaN));
CHECK(nleq(d.sNaN, d.sNaN));
CHECK(nleq(d.sNaN, d.qNaN));
CHECK(nleq(d.qNaN, d.d42));
CHECK(nleq(d.qNaN, d.i42));
CHECK(nleq(d.qNaN, d.undef));
CHECK(nleq(d.qNaN, d.null));
CHECK(nleq(d.qNaN, d.obj));
CHECK(nleq(d.sNaN, d.d42));
CHECK(nleq(d.sNaN, d.i42));
CHECK(nleq(d.sNaN, d.undef));
CHECK(nleq(d.sNaN, d.null));
CHECK(nleq(d.sNaN, d.obj));
return true;
}
END_FIXTURE_TEST(LooseEqualityFixture, test_nan_nleq_all)
// 11.9.3 1cii
BEGIN_FIXTURE_TEST(LooseEqualityFixture, test_all_nleq_nan) {
LooseEqualityData d(cx);
CHECK(nleq(d.qNaN, d.qNaN));
CHECK(nleq(d.qNaN, d.sNaN));
CHECK(nleq(d.sNaN, d.sNaN));
CHECK(nleq(d.sNaN, d.qNaN));
CHECK(nleq(d.d42, d.qNaN));
CHECK(nleq(d.i42, d.qNaN));
CHECK(nleq(d.undef, d.qNaN));
CHECK(nleq(d.null, d.qNaN));
CHECK(nleq(d.obj, d.qNaN));
CHECK(nleq(d.d42, d.sNaN));
CHECK(nleq(d.i42, d.sNaN));
CHECK(nleq(d.undef, d.sNaN));
CHECK(nleq(d.null, d.sNaN));
CHECK(nleq(d.obj, d.sNaN));
return true;
}
END_FIXTURE_TEST(LooseEqualityFixture, test_all_nleq_nan)
// 11.9.3 1ciii
BEGIN_FIXTURE_TEST(LooseEqualityFixture, test_leq_same_nums) {
LooseEqualityData d(cx);
CHECK(leq(d.d42, d.d42));
CHECK(leq(d.i42, d.i42));
CHECK(leq(d.d42, d.i42));
CHECK(leq(d.i42, d.d42));
return true;
}
END_FIXTURE_TEST(LooseEqualityFixture, test_leq_same_nums)
// 11.9.3 1civ
BEGIN_FIXTURE_TEST(LooseEqualityFixture, test_pz_leq_nz) {
LooseEqualityData d(cx);
CHECK(leq(d.poszero, d.negzero));
return true;
}
END_FIXTURE_TEST(LooseEqualityFixture, test_pz_leq_nz)
// 11.9.3 1cv
BEGIN_FIXTURE_TEST(LooseEqualityFixture, test_nz_leq_pz) {
LooseEqualityData d(cx);
CHECK(leq(d.negzero, d.poszero));
return true;
}
END_FIXTURE_TEST(LooseEqualityFixture, test_nz_leq_pz)
// 1cvi onwards NOT TESTED
// 11.9.3 2
BEGIN_FIXTURE_TEST(LooseEqualityFixture, test_null_leq_undef) {
LooseEqualityData d(cx);
CHECK(leq(d.null, d.undef));
return true;
}
END_FIXTURE_TEST(LooseEqualityFixture, test_null_leq_undef)
// 11.9.3 3
BEGIN_FIXTURE_TEST(LooseEqualityFixture, test_undef_leq_null) {
LooseEqualityData d(cx);
CHECK(leq(d.undef, d.null));
return true;
}
END_FIXTURE_TEST(LooseEqualityFixture, test_undef_leq_null)
// 4 onwards NOT TESTED
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