// Lowering provides a specialisation when the base operand is a constant which // is a power of two. loadRelativeToScript("../../../tests/non262/Math/shell.js"); function test(x, y, z) { function pow(x, y) { return `Math.pow(${x}, ${y})` }; function exp(x, y) { return `((${x}) ** ${y})` }; function make(fn, x, y, z) { return Function(` // Load from array to prevent constant-folding. // (Ion is currently not smart enough to realise that both array // values are the same.) var ys = [${y}, ${y}]; var zs = [${z}, ${z}]; for (var i = 0; i < 1000; ++i) { assertNear(${fn(x, "ys[i & 1]")}, zs[i & 1]); } `); } function double(v) { // NB: numberToDouble() always returns a double value. return `numberToDouble(${v})`; } function addTests(fn) { tests.push(make(fn, x, y, z)); tests.push(make(fn, x, double(y), z)); tests.push(make(fn, double(x), y, z)); tests.push(make(fn, double(x), double(y), z)); } var tests = []; addTests(pow); addTests(exp); for (var i = 0; i < tests.length; ++i) { for (var j = 0; j < 2; ++j) { tests[i](); } } } function* range(a, b, fn) { for (var i = a; i <= b; ++i) { yield fn(i); } } // Only 2^i with |i| ∈ {1..8} currently triggers the optimisation, but also test // the next power-of-two values, 1 and 0, and negative base-of-two values. var values = [ ...range(1, 10, i => 2 ** i), 1, 0, ...range(1, 4, i => -(2 ** i)), ]; for (var x of values) { test(x, 0, 1); test(x, 1, x); test(x, 2, x * x); // 0**(negative) is Infinity, 1**(negative) is 1. if (Math.abs(x) > 1) { test(x, -1076, 0); } // (negative)**(odd-negative) is -0. if (x > 1) { test(x, -1075, 0); } }