// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license. // Interfaces 100% copied from Go. // Documentation liberally lifted from them too. // Thank you! We love Go! <3 const core = globalThis.Deno.core; const ops = core.ops; const primordials = globalThis.__bootstrap.primordials; import { readableStreamForRid, writableStreamForRid, } from "internal:deno_web/06_streams.js"; const { Uint8Array, ArrayPrototypePush, MathMin, TypedArrayPrototypeSubarray, TypedArrayPrototypeSet, } = primordials; const DEFAULT_BUFFER_SIZE = 32 * 1024; // Seek whence values. // https://golang.org/pkg/io/#pkg-constants const SeekMode = { 0: "Start", 1: "Current", 2: "End", Start: 0, Current: 1, End: 2, }; async function copy( src, dst, options, ) { let n = 0; const bufSize = options?.bufSize ?? DEFAULT_BUFFER_SIZE; const b = new Uint8Array(bufSize); let gotEOF = false; while (gotEOF === false) { const result = await src.read(b); if (result === null) { gotEOF = true; } else { let nwritten = 0; while (nwritten < result) { nwritten += await dst.write( TypedArrayPrototypeSubarray(b, nwritten, result), ); } n += nwritten; } } return n; } async function* iter( r, options, ) { const bufSize = options?.bufSize ?? DEFAULT_BUFFER_SIZE; const b = new Uint8Array(bufSize); while (true) { const result = await r.read(b); if (result === null) { break; } yield TypedArrayPrototypeSubarray(b, 0, result); } } function* iterSync( r, options, ) { const bufSize = options?.bufSize ?? DEFAULT_BUFFER_SIZE; const b = new Uint8Array(bufSize); while (true) { const result = r.readSync(b); if (result === null) { break; } yield TypedArrayPrototypeSubarray(b, 0, result); } } function readSync(rid, buffer) { if (buffer.length === 0) { return 0; } const nread = ops.op_read_sync(rid, buffer); return nread === 0 ? null : nread; } async function read(rid, buffer) { if (buffer.length === 0) { return 0; } const nread = await core.read(rid, buffer); return nread === 0 ? null : nread; } function writeSync(rid, data) { return ops.op_write_sync(rid, data); } function write(rid, data) { return core.write(rid, data); } const READ_PER_ITER = 64 * 1024; // 64kb function readAll(r) { return readAllInner(r); } async function readAllInner(r, options) { const buffers = []; const signal = options?.signal ?? null; while (true) { signal?.throwIfAborted(); const buf = new Uint8Array(READ_PER_ITER); const read = await r.read(buf); if (typeof read == "number") { ArrayPrototypePush(buffers, new Uint8Array(buf.buffer, 0, read)); } else { break; } } signal?.throwIfAborted(); return concatBuffers(buffers); } function readAllSync(r) { const buffers = []; while (true) { const buf = new Uint8Array(READ_PER_ITER); const read = r.readSync(buf); if (typeof read == "number") { ArrayPrototypePush(buffers, TypedArrayPrototypeSubarray(buf, 0, read)); } else { break; } } return concatBuffers(buffers); } function concatBuffers(buffers) { let totalLen = 0; for (let i = 0; i < buffers.length; ++i) { totalLen += buffers[i].byteLength; } const contents = new Uint8Array(totalLen); let n = 0; for (let i = 0; i < buffers.length; ++i) { const buf = buffers[i]; TypedArrayPrototypeSet(contents, buf, n); n += buf.byteLength; } return contents; } function readAllSyncSized(r, size) { const buf = new Uint8Array(size + 1); // 1B to detect extended files let cursor = 0; while (cursor < size) { const sliceEnd = MathMin(size + 1, cursor + READ_PER_ITER); const slice = TypedArrayPrototypeSubarray(buf, cursor, sliceEnd); const read = r.readSync(slice); if (typeof read == "number") { cursor += read; } else { break; } } // Handle truncated or extended files during read if (cursor > size) { // Read remaining and concat return concatBuffers([buf, readAllSync(r)]); } else { // cursor == size return TypedArrayPrototypeSubarray(buf, 0, cursor); } } async function readAllInnerSized(r, size, options) { const buf = new Uint8Array(size + 1); // 1B to detect extended files let cursor = 0; const signal = options?.signal ?? null; while (cursor < size) { signal?.throwIfAborted(); const sliceEnd = MathMin(size + 1, cursor + READ_PER_ITER); const slice = TypedArrayPrototypeSubarray(buf, cursor, sliceEnd); const read = await r.read(slice); if (typeof read == "number") { cursor += read; } else { break; } } signal?.throwIfAborted(); // Handle truncated or extended files during read if (cursor > size) { // Read remaining and concat return concatBuffers([buf, await readAllInner(r, options)]); } else { return TypedArrayPrototypeSubarray(buf, 0, cursor); } } class Stdin { #readable; constructor() { } get rid() { return 0; } read(p) { return read(this.rid, p); } readSync(p) { return readSync(this.rid, p); } close() { core.close(this.rid); } get readable() { if (this.#readable === undefined) { this.#readable = readableStreamForRid(this.rid); } return this.#readable; } setRaw(mode, options = {}) { const cbreak = !!(options.cbreak ?? false); ops.op_stdin_set_raw(mode, cbreak); } } class Stdout { #writable; constructor() { } get rid() { return 1; } write(p) { return write(this.rid, p); } writeSync(p) { return writeSync(this.rid, p); } close() { core.close(this.rid); } get writable() { if (this.#writable === undefined) { this.#writable = writableStreamForRid(this.rid); } return this.#writable; } } class Stderr { #writable; constructor() { } get rid() { return 2; } write(p) { return write(this.rid, p); } writeSync(p) { return writeSync(this.rid, p); } close() { core.close(this.rid); } get writable() { if (this.#writable === undefined) { this.#writable = writableStreamForRid(this.rid); } return this.#writable; } } const stdin = new Stdin(); const stdout = new Stdout(); const stderr = new Stderr(); export { copy, iter, iterSync, read, readAll, readAllInner, readAllInnerSized, readAllSync, readAllSyncSized, readSync, SeekMode, stderr, stdin, stdout, write, writeSync, };