'use strict'; require('../common'); const assert = require('assert'); // Test (64 bit) double const buffer = Buffer.allocUnsafe(8); buffer[0] = 0x55; buffer[1] = 0x55; buffer[2] = 0x55; buffer[3] = 0x55; buffer[4] = 0x55; buffer[5] = 0x55; buffer[6] = 0xd5; buffer[7] = 0x3f; assert.strictEqual(buffer.readDoubleBE(0), 1.1945305291680097e+103); assert.strictEqual(buffer.readDoubleLE(0), 0.3333333333333333); buffer[0] = 1; buffer[1] = 0; buffer[2] = 0; buffer[3] = 0; buffer[4] = 0; buffer[5] = 0; buffer[6] = 0xf0; buffer[7] = 0x3f; assert.strictEqual(buffer.readDoubleBE(0), 7.291122019655968e-304); assert.strictEqual(buffer.readDoubleLE(0), 1.0000000000000002); buffer[0] = 2; assert.strictEqual(buffer.readDoubleBE(0), 4.778309726801735e-299); assert.strictEqual(buffer.readDoubleLE(0), 1.0000000000000004); buffer[0] = 1; buffer[6] = 0; buffer[7] = 0; assert.strictEqual(buffer.readDoubleBE(0), 7.291122019556398e-304); assert.strictEqual(buffer.readDoubleLE(0), 5e-324); buffer[0] = 0xff; buffer[1] = 0xff; buffer[2] = 0xff; buffer[3] = 0xff; buffer[4] = 0xff; buffer[5] = 0xff; buffer[6] = 0x0f; buffer[7] = 0x00; assert.ok(Number.isNaN(buffer.readDoubleBE(0))); assert.strictEqual(buffer.readDoubleLE(0), 2.225073858507201e-308); buffer[6] = 0xef; buffer[7] = 0x7f; assert.ok(Number.isNaN(buffer.readDoubleBE(0))); assert.strictEqual(buffer.readDoubleLE(0), 1.7976931348623157e+308); buffer[0] = 0; buffer[1] = 0; buffer[2] = 0; buffer[3] = 0; buffer[4] = 0; buffer[5] = 0; buffer[6] = 0xf0; buffer[7] = 0x3f; assert.strictEqual(buffer.readDoubleBE(0), 3.03865e-319); assert.strictEqual(buffer.readDoubleLE(0), 1); buffer[6] = 0; buffer[7] = 0x40; assert.strictEqual(buffer.readDoubleBE(0), 3.16e-322); assert.strictEqual(buffer.readDoubleLE(0), 2); buffer[7] = 0xc0; assert.strictEqual(buffer.readDoubleBE(0), 9.5e-322); assert.strictEqual(buffer.readDoubleLE(0), -2); buffer[6] = 0x10; buffer[7] = 0; assert.strictEqual(buffer.readDoubleBE(0), 2.0237e-320); assert.strictEqual(buffer.readDoubleLE(0), 2.2250738585072014e-308); buffer[6] = 0; assert.strictEqual(buffer.readDoubleBE(0), 0); assert.strictEqual(buffer.readDoubleLE(0), 0); assert.ok(1 / buffer.readDoubleLE(0) >= 0); buffer[7] = 0x80; assert.strictEqual(buffer.readDoubleBE(0), 6.3e-322); assert.strictEqual(buffer.readDoubleLE(0), -0); assert.ok(1 / buffer.readDoubleLE(0) < 0); buffer[6] = 0xf0; buffer[7] = 0x7f; assert.strictEqual(buffer.readDoubleBE(0), 3.0418e-319); assert.strictEqual(buffer.readDoubleLE(0), Infinity); buffer[7] = 0xff; assert.strictEqual(buffer.readDoubleBE(0), 3.04814e-319); assert.strictEqual(buffer.readDoubleLE(0), -Infinity); ['readDoubleLE', 'readDoubleBE'].forEach((fn) => { ['', '0', null, undefined, {}, [], () => {}, true, false].forEach((off) => { assert.throws( () => buffer[fn](off), { code: 'ERR_INVALID_ARG_TYPE' } ); }); [Infinity, -1, 1].forEach((offset) => { assert.throws( () => buffer[fn](offset), { code: 'ERR_OUT_OF_RANGE', name: 'RangeError [ERR_OUT_OF_RANGE]', message: 'The value of "offset" is out of range. ' + `It must be >= 0 and <= 0. Received ${offset}` }); }); assert.throws( () => Buffer.alloc(1)[fn](1), { code: 'ERR_BUFFER_OUT_OF_BOUNDS', name: 'RangeError [ERR_BUFFER_OUT_OF_BOUNDS]', message: 'Attempt to write outside buffer bounds' }); [NaN, 1.01].forEach((offset) => { assert.throws( () => buffer[fn](offset), { code: 'ERR_OUT_OF_RANGE', name: 'RangeError [ERR_OUT_OF_RANGE]', message: 'The value of "offset" is out of range. ' + `It must be an integer. Received ${offset}` }); }); });