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// Same test as bigint-compare-double, except that the inputs are allowed to be any number, i.e.
// either Int32 or Double.
// Test various combinations of (BigInt R Number) and ensures the result is consistent with
// (Number R⁻¹ BigInt). This test doesn't aim to cover the overall correctness of (BigInt R Number),
// but merely ensures the possible combinations are properly handled in CacheIR.
var xs = [
// Definitely heap digits.
-(2n ** 2000n),
-(2n ** 1000n),
// -(2n**64n)
-18446744073709551617n,
-18446744073709551616n,
-18446744073709551615n,
// -(2n**63n)
-9223372036854775809n,
-9223372036854775808n,
-9223372036854775807n,
// -(2**32)
-4294967297n,
-4294967296n,
-4294967295n,
// -(2**31)
-2147483649n,
-2147483648n,
-2147483647n,
-1n,
0n,
1n,
// 2**31
2147483647n,
2147483648n,
2147483649n,
// 2**32
4294967295n,
4294967296n,
4294967297n,
// 2n**63n
9223372036854775807n,
9223372036854775808n,
9223372036854775809n,
// 2n**64n
18446744073709551615n,
18446744073709551616n,
18446744073709551617n,
// Definitely heap digits.
2n ** 1000n,
2n ** 2000n,
];
// Compute the Number approximation of the BigInt values.
var ys = xs.map(x => Number(x));
// Compute if the Number approximation of the BigInt values is exact.
// (The larger test values are all powers of two, so we can keep this function simple.)
var zs = xs.map(x => {
var isNegative = x < 0n;
if (isNegative) {
x = -x;
}
var s = x.toString(2);
if (s.length <= 53 || (s.length <= 1024 && /^1+0+$/.test(s))) {
return 0;
}
if (s.length <= 1024 && /^1+$/.test(s)) {
return isNegative ? -1 : 1;
}
if (s.length <= 1024 && /^1+0+1$/.test(s)) {
return isNegative ? 1 : -1;
}
return NaN;
});
function testLooseEqual() {
for (var i = 0; i < 100; ++i) {
var j = i % xs.length;
var x = xs[j];
var y = ys[j];
var z = zs[j];
assertEq(x == y, z === 0);
assertEq(y == x, z === 0);
}
}
testLooseEqual();
function testLooseNotEqual() {
for (var i = 0; i < 100; ++i) {
var j = i % xs.length;
var x = xs[j];
var y = ys[j];
var z = zs[j];
assertEq(x != y, z !== 0);
assertEq(y != x, z !== 0);
}
}
testLooseNotEqual();
function testLessThan() {
for (var i = 0; i < 100; ++i) {
var j = i % xs.length;
var x = xs[j];
var y = ys[j];
var z = zs[j];
if (z === 0) {
assertEq(x < y, false);
assertEq(y < x, false);
} else if (z > 0) {
assertEq(x < y, true);
assertEq(y < x, false);
} else if (z < 0) {
assertEq(x < y, false);
assertEq(y < x, true);
} else {
assertEq(x < y, y > 0);
assertEq(y < x, y < 0);
}
}
}
testLessThan();
function testLessThanEquals() {
for (var i = 0; i < 100; ++i) {
var j = i % xs.length;
var x = xs[j];
var y = ys[j];
var z = zs[j];
if (z === 0) {
assertEq(x <= y, true);
assertEq(y <= x, true);
} else if (z > 0) {
assertEq(x <= y, true);
assertEq(y <= x, false);
} else if (z < 0) {
assertEq(x <= y, false);
assertEq(y <= x, true);
} else {
assertEq(x <= y, y > 0);
assertEq(y <= x, y < 0);
}
}
}
testLessThanEquals();
function testGreaterThan() {
for (var i = 0; i < 100; ++i) {
var j = i % xs.length;
var x = xs[j];
var y = ys[j];
var z = zs[j];
if (z === 0) {
assertEq(x > y, false);
assertEq(y > x, false);
} else if (z > 0) {
assertEq(x > y, false);
assertEq(y > x, true);
} else if (z < 0) {
assertEq(x > y, true);
assertEq(y > x, false);
} else {
assertEq(x > y, y < 0);
assertEq(y > x, y > 0);
}
}
}
testGreaterThan();
function testGreaterThanEquals() {
for (var i = 0; i < 100; ++i) {
var j = i % xs.length;
var x = xs[j];
var y = ys[j];
var z = zs[j];
if (z === 0) {
assertEq(x >= y, true);
assertEq(y >= x, true);
} else if (z > 0) {
assertEq(x >= y, false);
assertEq(y >= x, true);
} else if (z < 0) {
assertEq(x >= y, true);
assertEq(y >= x, false);
} else {
assertEq(x >= y, y < 0);
assertEq(y >= x, y > 0);
}
}
}
testGreaterThanEquals();