mirror of
https://github.com/denoland/deno.git
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471 lines
12 KiB
TypeScript
471 lines
12 KiB
TypeScript
import * as hex from "../encoding/hex.ts";
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import * as base64 from "../encoding/base64.ts";
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import { notImplemented } from "./_utils.ts";
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const validEncodings = ["utf8", "hex", "base64"];
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const notImplementedEncodings = [
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"utf16le",
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"latin1",
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"ascii",
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"binary",
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"ucs2",
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];
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function checkEncoding(encoding = "utf8", strict = true): string {
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if (typeof encoding !== "string" || (strict && encoding === "")) {
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if (!strict) return "utf8";
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throw new TypeError(`Unkown encoding: ${encoding}`);
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}
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encoding = encoding.toLowerCase();
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if (encoding === "utf-8" || encoding === "") {
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return "utf8";
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}
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if (notImplementedEncodings.includes(encoding)) {
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notImplemented(`"${encoding}" encoding`);
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}
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if (!validEncodings.includes(encoding)) {
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throw new TypeError(`Unkown encoding: ${encoding}`);
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}
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return encoding;
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}
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/**
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* See also https://nodejs.org/api/buffer.html
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*/
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export default class Buffer extends Uint8Array {
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/**
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* Allocates a new Buffer of size bytes.
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*/
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static alloc(size: number): Buffer {
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return new Buffer(size);
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}
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/**
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* Returns the byte length of a string when encoded. This is not the same as
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* String.prototype.length, which does not account for the encoding that is
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* used to convert the string into bytes.
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*/
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static byteLength(
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string: string | Buffer | ArrayBufferView | ArrayBuffer | SharedArrayBuffer
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): number {
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if (typeof string != "string") return string.byteLength;
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return new TextEncoder().encode(string).length;
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}
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/**
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* Returns a new Buffer which is the result of concatenating all the Buffer
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* instances in the list together.
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*/
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static concat(list: Buffer[] | Uint8Array[], totalLength?: number): Buffer {
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if (totalLength == undefined) {
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totalLength = 0;
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for (const buf of list) {
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totalLength += buf.length;
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}
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}
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const buffer = new Buffer(totalLength);
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let pos = 0;
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for (const buf of list) {
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buffer.set(buf, pos);
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pos += buf.length;
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}
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return buffer;
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}
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/**
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* Allocates a new Buffer using an array of bytes in the range 0 – 255. Array
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* entries outside that range will be truncated to fit into it.
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*/
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static from(array: number[]): Buffer;
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/**
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* This creates a view of the ArrayBuffer without copying the underlying
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* memory. For example, when passed a reference to the .buffer property of a
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* TypedArray instance, the newly created Buffer will share the same allocated
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* memory as the TypedArray.
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*/
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static from(
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arrayBuffer: ArrayBuffer | SharedArrayBuffer,
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byteOffset?: number,
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length?: number
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): Buffer;
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/**
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* Copies the passed buffer data onto a new Buffer instance.
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*/
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static from(buffer: Buffer | Uint8Array): Buffer;
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/**
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* Creates a new Buffer containing string.
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*/
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static from(string: string, encoding?: string): Buffer;
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static from(
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// eslint-disable-next-line @typescript-eslint/no-explicit-any
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value: any,
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offsetOrEncoding?: number | string,
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length?: number
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): Buffer {
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const offset =
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typeof offsetOrEncoding === "string" ? undefined : offsetOrEncoding;
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let encoding =
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typeof offsetOrEncoding === "string" ? offsetOrEncoding : undefined;
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if (typeof value == "string") {
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encoding = checkEncoding(encoding, false);
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if (encoding === "hex") return new Buffer(hex.decodeString(value).buffer);
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if (encoding === "base64") return new Buffer(base64.decode(value));
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return new Buffer(new TextEncoder().encode(value).buffer);
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}
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// workaround for https://github.com/microsoft/TypeScript/issues/38446
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return new Buffer(value, offset!, length);
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}
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/**
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* Returns true if obj is a Buffer, false otherwise.
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*/
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static isBuffer(obj: object): obj is Buffer {
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return obj instanceof Buffer;
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}
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/**
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* Copies data from a region of buf to a region in target, even if the target
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* memory region overlaps with buf.
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*/
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copy(
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targetBuffer: Buffer | Uint8Array,
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targetStart = 0,
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sourceStart = 0,
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sourceEnd = this.length
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): number {
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const sourceBuffer = this.subarray(sourceStart, sourceEnd);
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targetBuffer.set(sourceBuffer, targetStart);
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return sourceBuffer.length;
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}
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readBigInt64BE(offset = 0): bigint {
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return new DataView(
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this.buffer,
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this.byteOffset,
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this.byteLength
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).getBigInt64(offset);
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}
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readBigInt64LE(offset = 0): bigint {
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return new DataView(
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this.buffer,
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this.byteOffset,
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this.byteLength
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).getBigInt64(offset, true);
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}
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readBigUInt64BE(offset = 0): bigint {
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return new DataView(
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this.buffer,
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this.byteOffset,
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this.byteLength
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).getBigUint64(offset);
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}
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readBigUInt64LE(offset = 0): bigint {
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return new DataView(
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this.buffer,
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this.byteOffset,
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this.byteLength
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).getBigUint64(offset, true);
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}
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readDoubleBE(offset = 0): number {
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return new DataView(
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this.buffer,
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this.byteOffset,
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this.byteLength
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).getFloat64(offset);
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}
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readDoubleLE(offset = 0): number {
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return new DataView(
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this.buffer,
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this.byteOffset,
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this.byteLength
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).getFloat64(offset, true);
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}
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readFloatBE(offset = 0): number {
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return new DataView(
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this.buffer,
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this.byteOffset,
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this.byteLength
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).getFloat32(offset);
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}
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readFloatLE(offset = 0): number {
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return new DataView(
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this.buffer,
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this.byteOffset,
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this.byteLength
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).getFloat32(offset, true);
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}
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readInt8(offset = 0): number {
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return new DataView(this.buffer, this.byteOffset, this.byteLength).getInt8(
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offset
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);
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}
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readInt16BE(offset = 0): number {
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return new DataView(this.buffer, this.byteOffset, this.byteLength).getInt16(
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offset
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);
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}
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readInt16LE(offset = 0): number {
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return new DataView(this.buffer, this.byteOffset, this.byteLength).getInt16(
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offset,
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true
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);
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}
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readInt32BE(offset = 0): number {
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return new DataView(this.buffer, this.byteOffset, this.byteLength).getInt32(
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offset
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);
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}
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readInt32LE(offset = 0): number {
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return new DataView(this.buffer, this.byteOffset, this.byteLength).getInt32(
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offset,
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true
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);
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}
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readUInt8(offset = 0): number {
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return new DataView(this.buffer, this.byteOffset, this.byteLength).getUint8(
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offset
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);
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}
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readUInt16BE(offset = 0): number {
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return new DataView(
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this.buffer,
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this.byteOffset,
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this.byteLength
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).getUint16(offset);
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}
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readUInt16LE(offset = 0): number {
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return new DataView(
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this.buffer,
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this.byteOffset,
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this.byteLength
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).getUint16(offset, true);
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}
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readUInt32BE(offset = 0): number {
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return new DataView(
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this.buffer,
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this.byteOffset,
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this.byteLength
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).getUint32(offset);
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}
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readUInt32LE(offset = 0): number {
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return new DataView(
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this.buffer,
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this.byteOffset,
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this.byteLength
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).getUint32(offset, true);
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}
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/**
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* Returns a new Buffer that references the same memory as the original, but
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* offset and cropped by the start and end indices.
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*/
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slice(begin = 0, end = this.length): Buffer {
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// workaround for https://github.com/microsoft/TypeScript/issues/38665
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return this.subarray(begin, end) as Buffer;
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}
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/**
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* Returns a JSON representation of buf. JSON.stringify() implicitly calls
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* this function when stringifying a Buffer instance.
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*/
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toJSON(): object {
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return { type: "Buffer", data: Array.from(this) };
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}
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/**
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* Decodes buf to a string according to the specified character encoding in
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* encoding. start and end may be passed to decode only a subset of buf.
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*/
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toString(encoding = "utf8", start = 0, end = this.length): string {
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encoding = checkEncoding(encoding);
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const b = this.subarray(start, end);
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if (encoding === "hex") return hex.encodeToString(b);
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if (encoding === "base64") return base64.encode(b.buffer);
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return new TextDecoder(encoding).decode(b);
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}
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/**
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* Writes string to buf at offset according to the character encoding in
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* encoding. The length parameter is the number of bytes to write. If buf did
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* not contain enough space to fit the entire string, only part of string will
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* be written. However, partially encoded characters will not be written.
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*/
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write(string: string, offset = 0, length = this.length): number {
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return new TextEncoder().encodeInto(
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string,
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this.subarray(offset, offset + length)
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).written;
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}
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writeBigInt64BE(value: bigint, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setBigInt64(
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offset,
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value
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);
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return offset + 4;
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}
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writeBigInt64LE(value: bigint, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setBigInt64(
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offset,
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value,
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true
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);
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return offset + 4;
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}
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writeBigUInt64BE(value: bigint, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setBigUint64(
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offset,
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value
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);
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return offset + 4;
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}
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writeBigUInt64LE(value: bigint, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setBigUint64(
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offset,
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value,
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true
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);
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return offset + 4;
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}
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writeDoubleBE(value: number, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setFloat64(
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offset,
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value
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);
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return offset + 8;
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}
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writeDoubleLE(value: number, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setFloat64(
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offset,
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value,
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true
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);
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return offset + 8;
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}
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writeFloatBE(value: number, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setFloat32(
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offset,
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value
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);
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return offset + 4;
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}
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writeFloatLE(value: number, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setFloat32(
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offset,
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value,
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true
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);
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return offset + 4;
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}
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writeInt8(value: number, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setInt8(
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offset,
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value
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);
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return offset + 1;
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}
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writeInt16BE(value: number, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setInt16(
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offset,
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value
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);
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return offset + 2;
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}
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writeInt16LE(value: number, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setInt16(
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offset,
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value,
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true
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);
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return offset + 2;
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}
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writeInt32BE(value: number, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setUint32(
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offset,
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value
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);
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return offset + 4;
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}
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writeInt32LE(value: number, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setInt32(
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offset,
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value,
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true
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);
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return offset + 4;
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}
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writeUInt8(value: number, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setUint8(
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offset,
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value
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);
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return offset + 1;
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}
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writeUInt16BE(value: number, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setUint16(
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offset,
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value
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);
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return offset + 2;
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}
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writeUInt16LE(value: number, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setUint16(
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offset,
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value,
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true
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);
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return offset + 2;
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}
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writeUInt32BE(value: number, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setUint32(
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offset,
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value
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);
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return offset + 4;
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}
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writeUInt32LE(value: number, offset = 0): number {
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new DataView(this.buffer, this.byteOffset, this.byteLength).setUint32(
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offset,
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value,
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true
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);
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return offset + 4;
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}
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}
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export { Buffer };
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Object.defineProperty(globalThis, "Buffer", {
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value: Buffer,
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enumerable: false,
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writable: true,
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configurable: true,
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});
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