'use strict'; const common = require('../common'); const assert = require('assert'); const rangeBuffer = Buffer.from('abc'); // If start >= buffer's length, empty string will be returned assert.strictEqual(rangeBuffer.toString('ascii', 3), ''); assert.strictEqual(rangeBuffer.toString('ascii', +Infinity), ''); assert.strictEqual(rangeBuffer.toString('ascii', 3.14, 3), ''); assert.strictEqual(rangeBuffer.toString('ascii', 'Infinity', 3), ''); // If end <= 0, empty string will be returned assert.strictEqual(rangeBuffer.toString('ascii', 1, 0), ''); assert.strictEqual(rangeBuffer.toString('ascii', 1, -1.2), ''); assert.strictEqual(rangeBuffer.toString('ascii', 1, -100), ''); assert.strictEqual(rangeBuffer.toString('ascii', 1, -Infinity), ''); // If start < 0, start will be taken as zero assert.strictEqual(rangeBuffer.toString('ascii', -1, 3), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', -1.99, 3), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', -Infinity, 3), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', '-1', 3), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', '-1.99', 3), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', '-Infinity', 3), 'abc'); // If start is an invalid integer, start will be taken as zero assert.strictEqual(rangeBuffer.toString('ascii', 'node.js', 3), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', {}, 3), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', [], 3), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', NaN, 3), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', null, 3), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', undefined, 3), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', false, 3), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', '', 3), 'abc'); // But, if start is an integer when coerced, then it will be coerced and used. assert.strictEqual(rangeBuffer.toString('ascii', '-1', 3), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', '1', 3), 'bc'); assert.strictEqual(rangeBuffer.toString('ascii', '-Infinity', 3), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', '3', 3), ''); assert.strictEqual(rangeBuffer.toString('ascii', Number(3), 3), ''); assert.strictEqual(rangeBuffer.toString('ascii', '3.14', 3), ''); assert.strictEqual(rangeBuffer.toString('ascii', '1.99', 3), 'bc'); assert.strictEqual(rangeBuffer.toString('ascii', '-1.99', 3), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', 1.99, 3), 'bc'); assert.strictEqual(rangeBuffer.toString('ascii', true, 3), 'bc'); // If end > buffer's length, end will be taken as buffer's length assert.strictEqual(rangeBuffer.toString('ascii', 0, 5), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', 0, 6.99), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', 0, Infinity), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', 0, '5'), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', 0, '6.99'), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', 0, 'Infinity'), 'abc'); // If end is an invalid integer, end will be taken as buffer's length assert.strictEqual(rangeBuffer.toString('ascii', 0, 'node.js'), ''); assert.strictEqual(rangeBuffer.toString('ascii', 0, {}), ''); assert.strictEqual(rangeBuffer.toString('ascii', 0, NaN), ''); assert.strictEqual(rangeBuffer.toString('ascii', 0, undefined), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', 0), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', 0, null), ''); assert.strictEqual(rangeBuffer.toString('ascii', 0, []), ''); assert.strictEqual(rangeBuffer.toString('ascii', 0, false), ''); assert.strictEqual(rangeBuffer.toString('ascii', 0, ''), ''); // But, if end is an integer when coerced, then it will be coerced and used. assert.strictEqual(rangeBuffer.toString('ascii', 0, '-1'), ''); assert.strictEqual(rangeBuffer.toString('ascii', 0, '1'), 'a'); assert.strictEqual(rangeBuffer.toString('ascii', 0, '-Infinity'), ''); assert.strictEqual(rangeBuffer.toString('ascii', 0, '3'), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', 0, Number(3)), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', 0, '3.14'), 'abc'); assert.strictEqual(rangeBuffer.toString('ascii', 0, '1.99'), 'a'); assert.strictEqual(rangeBuffer.toString('ascii', 0, '-1.99'), ''); assert.strictEqual(rangeBuffer.toString('ascii', 0, 1.99), 'a'); assert.strictEqual(rangeBuffer.toString('ascii', 0, true), 'a'); // Try toString() with an object as an encoding assert.strictEqual(rangeBuffer.toString({ toString: function() { return 'ascii'; } }), 'abc'); // Try toString() with 0 and null as the encoding assert.throws(() => { rangeBuffer.toString(0, 1, 2); }, { code: 'ERR_UNKNOWN_ENCODING', name: 'TypeError', message: 'Unknown encoding: 0' }); assert.throws(() => { rangeBuffer.toString(null, 1, 2); }, { code: 'ERR_UNKNOWN_ENCODING', name: 'TypeError', message: 'Unknown encoding: null' }); // Must not throw when start and end are within kMaxLength // Cannot test on 32bit machine as we are testing the case // when start and end are above the threshold common.skipIf32Bits(); const threshold = 0xFFFFFFFF; const largeBuffer = Buffer.alloc(threshold + 20); largeBuffer.toString('utf8', threshold, threshold + 20);