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d04d5677d9
This PR updates the node_compat setup script. Now the copied version in each test file is corrected. Also `TODO.md` links to the correct files in Node.js repo.
237 lines
6.7 KiB
JavaScript
237 lines
6.7 KiB
JavaScript
// deno-fmt-ignore-file
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// deno-lint-ignore-file
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// Copyright Joyent and Node contributors. All rights reserved. MIT license.
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// Taken from Node 20.11.1
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// This file is automatically generated by `tests/node_compat/runner/setup.ts`. Do not modify this file manually.
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'use strict';
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require('../common');
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const assert = require('assert');
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// We need to check the following things:
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// - We are correctly resolving big endian (doesn't mean anything for 8 bit)
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// - Correctly resolving little endian (doesn't mean anything for 8 bit)
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// - Correctly using the offsets
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// - Correctly interpreting values that are beyond the signed range as unsigned
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{ // OOB
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const data = Buffer.alloc(8);
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['UInt8', 'UInt16BE', 'UInt16LE', 'UInt32BE', 'UInt32LE'].forEach((fn) => {
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// Verify that default offset works fine.
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data[`write${fn}`](23, undefined);
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data[`write${fn}`](23);
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['', '0', null, {}, [], () => {}, true, false].forEach((o) => {
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assert.throws(
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() => data[`write${fn}`](23, o),
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{ code: 'ERR_INVALID_ARG_TYPE' });
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});
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[NaN, Infinity, -1, 1.01].forEach((o) => {
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assert.throws(
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() => data[`write${fn}`](23, o),
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{ code: 'ERR_OUT_OF_RANGE' });
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});
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});
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}
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{ // Test 8 bit
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const data = Buffer.alloc(4);
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data.writeUInt8(23, 0);
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data.writeUInt8(23, 1);
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data.writeUInt8(23, 2);
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data.writeUInt8(23, 3);
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assert.ok(data.equals(new Uint8Array([23, 23, 23, 23])));
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data.writeUInt8(23, 0);
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data.writeUInt8(23, 1);
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data.writeUInt8(23, 2);
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data.writeUInt8(23, 3);
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assert.ok(data.equals(new Uint8Array([23, 23, 23, 23])));
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data.writeUInt8(255, 0);
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assert.strictEqual(data[0], 255);
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data.writeUInt8(255, 0);
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assert.strictEqual(data[0], 255);
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}
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// Test 16 bit
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{
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let value = 0x2343;
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const data = Buffer.alloc(4);
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data.writeUInt16BE(value, 0);
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assert.ok(data.equals(new Uint8Array([0x23, 0x43, 0, 0])));
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data.writeUInt16BE(value, 1);
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assert.ok(data.equals(new Uint8Array([0x23, 0x23, 0x43, 0])));
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data.writeUInt16BE(value, 2);
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assert.ok(data.equals(new Uint8Array([0x23, 0x23, 0x23, 0x43])));
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data.writeUInt16LE(value, 0);
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assert.ok(data.equals(new Uint8Array([0x43, 0x23, 0x23, 0x43])));
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data.writeUInt16LE(value, 1);
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assert.ok(data.equals(new Uint8Array([0x43, 0x43, 0x23, 0x43])));
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data.writeUInt16LE(value, 2);
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assert.ok(data.equals(new Uint8Array([0x43, 0x43, 0x43, 0x23])));
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value = 0xff80;
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data.writeUInt16LE(value, 0);
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assert.ok(data.equals(new Uint8Array([0x80, 0xff, 0x43, 0x23])));
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data.writeUInt16BE(value, 0);
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assert.ok(data.equals(new Uint8Array([0xff, 0x80, 0x43, 0x23])));
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value = 0xfffff;
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['writeUInt16BE', 'writeUInt16LE'].forEach((fn) => {
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assert.throws(
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() => data[fn](value, 0),
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{
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code: 'ERR_OUT_OF_RANGE',
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message: 'The value of "value" is out of range. ' +
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`It must be >= 0 and <= 65535. Received ${value}`
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}
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);
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});
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}
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// Test 32 bit
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{
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const data = Buffer.alloc(6);
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const value = 0xe7f90a6d;
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data.writeUInt32BE(value, 0);
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assert.ok(data.equals(new Uint8Array([0xe7, 0xf9, 0x0a, 0x6d, 0, 0])));
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data.writeUInt32BE(value, 1);
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assert.ok(data.equals(new Uint8Array([0xe7, 0xe7, 0xf9, 0x0a, 0x6d, 0])));
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data.writeUInt32BE(value, 2);
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assert.ok(data.equals(new Uint8Array([0xe7, 0xe7, 0xe7, 0xf9, 0x0a, 0x6d])));
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data.writeUInt32LE(value, 0);
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assert.ok(data.equals(new Uint8Array([0x6d, 0x0a, 0xf9, 0xe7, 0x0a, 0x6d])));
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data.writeUInt32LE(value, 1);
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assert.ok(data.equals(new Uint8Array([0x6d, 0x6d, 0x0a, 0xf9, 0xe7, 0x6d])));
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data.writeUInt32LE(value, 2);
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assert.ok(data.equals(new Uint8Array([0x6d, 0x6d, 0x6d, 0x0a, 0xf9, 0xe7])));
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}
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// Test 48 bit
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{
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const value = 0x1234567890ab;
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const data = Buffer.allocUnsafe(6);
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data.writeUIntBE(value, 0, 6);
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assert.ok(data.equals(new Uint8Array([0x12, 0x34, 0x56, 0x78, 0x90, 0xab])));
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data.writeUIntLE(value, 0, 6);
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assert.ok(data.equals(new Uint8Array([0xab, 0x90, 0x78, 0x56, 0x34, 0x12])));
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}
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// Test UInt
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{
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const data = Buffer.alloc(8);
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let val = 0x100;
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// Check byteLength.
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['writeUIntBE', 'writeUIntLE'].forEach((fn) => {
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['', '0', null, {}, [], () => {}, true, false, undefined].forEach((bl) => {
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assert.throws(
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() => data[fn](23, 0, bl),
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{ code: 'ERR_INVALID_ARG_TYPE' });
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});
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[Infinity, -1].forEach((byteLength) => {
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assert.throws(
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() => data[fn](23, 0, byteLength),
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{
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code: 'ERR_OUT_OF_RANGE',
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message: 'The value of "byteLength" is out of range. ' +
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`It must be >= 1 and <= 6. Received ${byteLength}`
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}
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);
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});
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[NaN, 1.01].forEach((byteLength) => {
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assert.throws(
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() => data[fn](42, 0, byteLength),
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{
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code: 'ERR_OUT_OF_RANGE',
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name: 'RangeError',
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message: 'The value of "byteLength" is out of range. ' +
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`It must be an integer. Received ${byteLength}`
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});
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});
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});
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// Test 1 to 6 bytes.
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for (let i = 1; i <= 6; i++) {
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const range = i < 5 ? `= ${val - 1}` : ` 2 ** ${i * 8}`;
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const received = i > 4 ?
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String(val).replace(/(\d)(?=(\d\d\d)+(?!\d))/g, '$1_') :
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val;
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['writeUIntBE', 'writeUIntLE'].forEach((fn) => {
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assert.throws(() => {
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data[fn](val, 0, i);
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}, {
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code: 'ERR_OUT_OF_RANGE',
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name: 'RangeError',
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message: 'The value of "value" is out of range. ' +
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`It must be >= 0 and <${range}. Received ${received}`
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});
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['', '0', null, {}, [], () => {}, true, false].forEach((o) => {
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assert.throws(
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() => data[fn](23, o, i),
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{
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code: 'ERR_INVALID_ARG_TYPE',
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name: 'TypeError'
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});
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});
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[Infinity, -1, -4294967295].forEach((offset) => {
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assert.throws(
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() => data[fn](val - 1, offset, i),
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{
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code: 'ERR_OUT_OF_RANGE',
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name: 'RangeError',
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message: 'The value of "offset" is out of range. ' +
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`It must be >= 0 and <= ${8 - i}. Received ${offset}`
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});
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});
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[NaN, 1.01].forEach((offset) => {
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assert.throws(
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() => data[fn](val - 1, offset, i),
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{
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code: 'ERR_OUT_OF_RANGE',
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name: 'RangeError',
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message: 'The value of "offset" is out of range. ' +
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`It must be an integer. Received ${offset}`
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});
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});
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});
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val *= 0x100;
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}
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}
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for (const fn of [
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'UInt8', 'UInt16LE', 'UInt16BE', 'UInt32LE', 'UInt32BE', 'UIntLE', 'UIntBE',
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'BigUInt64LE', 'BigUInt64BE',
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]) {
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const p = Buffer.prototype;
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const lowerFn = fn.replace(/UInt/, 'Uint');
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assert.strictEqual(p[`write${fn}`], p[`write${lowerFn}`]);
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assert.strictEqual(p[`read${fn}`], p[`read${lowerFn}`]);
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}
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