swc/bundler/tests/.cache/deno/ff301d68fa5defb272134bf182135a8144819712.ts
강동윤 f8aa0509ce
fix(bundler): Fix stack overflow (#2080)
swc_bundler:
 - Prevent infinite recursions. (#1963)
2021-08-15 02:37:31 +00:00

328 lines
9.2 KiB
TypeScript

// Loaded from https://deno.land/std@0.101.0/io/util.ts
import { Buffer } from "./buffer.ts";
import { copy as copyBytes } from "../bytes/mod.ts";
import { assert } from "../testing/asserts.ts";
const DEFAULT_BUFFER_SIZE = 32 * 1024;
/** Read Reader `r` until EOF (`null`) and resolve to the content as
* Uint8Array`.
*
* ```ts
*
* // Example from stdin
* const stdinContent = await readAll(Deno.stdin);
*
* // Example from file
* const file = await Deno.open("my_file.txt", {read: true});
* const myFileContent = await readAll(file);
* Deno.close(file.rid);
*
* // Example from buffer
* const myData = new Uint8Array(100);
* // ... fill myData array with data
* const reader = new Buffer(myData.buffer);
* const bufferContent = await readAll(reader);
* ```
*/
export async function readAll(r: Deno.Reader): Promise<Uint8Array> {
const buf = new Buffer();
await buf.readFrom(r);
return buf.bytes();
}
/** Synchronously reads Reader `r` until EOF (`null`) and returns the content
* as `Uint8Array`.
*
* ```ts
* // Example from stdin
* const stdinContent = readAllSync(Deno.stdin);
*
* // Example from file
* const file = Deno.openSync("my_file.txt", {read: true});
* const myFileContent = readAllSync(file);
* Deno.close(file.rid);
*
* // Example from buffer
* const myData = new Uint8Array(100);
* // ... fill myData array with data
* const reader = new Buffer(myData.buffer);
* const bufferContent = readAllSync(reader);
* ```
*/
export function readAllSync(r: Deno.ReaderSync): Uint8Array {
const buf = new Buffer();
buf.readFromSync(r);
return buf.bytes();
}
export interface ByteRange {
/** The 0 based index of the start byte for a range. */
start: number;
/** The 0 based index of the end byte for a range, which is inclusive. */
end: number;
}
/**
* Read a range of bytes from a file or other resource that is readable and
* seekable. The range start and end are inclusive of the bytes within that
* range.
*
* ```ts
* // Read the first 10 bytes of a file
* const file = await Deno.open("example.txt", { read: true });
* const bytes = await readRange(file, { start: 0, end: 9 });
* assert(bytes.length, 10);
* ```
*/
export async function readRange(
r: Deno.Reader & Deno.Seeker,
range: ByteRange,
): Promise<Uint8Array> {
// byte ranges are inclusive, so we have to add one to the end
let length = range.end - range.start + 1;
assert(length > 0, "Invalid byte range was passed.");
await r.seek(range.start, Deno.SeekMode.Start);
const result = new Uint8Array(length);
let off = 0;
while (length) {
const p = new Uint8Array(Math.min(length, DEFAULT_BUFFER_SIZE));
const nread = await r.read(p);
assert(nread !== null, "Unexpected EOF reach while reading a range.");
assert(nread > 0, "Unexpected read of 0 bytes while reading a range.");
copyBytes(p, result, off);
off += nread;
length -= nread;
assert(length >= 0, "Unexpected length remaining after reading range.");
}
return result;
}
/**
* Read a range of bytes synchronously from a file or other resource that is
* readable and seekable. The range start and end are inclusive of the bytes
* within that range.
*
* ```ts
* // Read the first 10 bytes of a file
* const file = Deno.openSync("example.txt", { read: true });
* const bytes = readRangeSync(file, { start: 0, end: 9 });
* assert(bytes.length, 10);
* ```
*/
export function readRangeSync(
r: Deno.ReaderSync & Deno.SeekerSync,
range: ByteRange,
): Uint8Array {
// byte ranges are inclusive, so we have to add one to the end
let length = range.end - range.start + 1;
assert(length > 0, "Invalid byte range was passed.");
r.seekSync(range.start, Deno.SeekMode.Start);
const result = new Uint8Array(length);
let off = 0;
while (length) {
const p = new Uint8Array(Math.min(length, DEFAULT_BUFFER_SIZE));
const nread = r.readSync(p);
assert(nread !== null, "Unexpected EOF reach while reading a range.");
assert(nread > 0, "Unexpected read of 0 bytes while reading a range.");
copyBytes(p, result, off);
off += nread;
length -= nread;
assert(length >= 0, "Unexpected length remaining after reading range.");
}
return result;
}
/** Write all the content of the array buffer (`arr`) to the writer (`w`).
*
* ```ts
* // Example writing to stdout
* const contentBytes = new TextEncoder().encode("Hello World");
* await writeAll(Deno.stdout, contentBytes);
*
* // Example writing to file
* const contentBytes = new TextEncoder().encode("Hello World");
* const file = await Deno.open('test.file', {write: true});
* await writeAll(file, contentBytes);
* Deno.close(file.rid);
*
* // Example writing to buffer
* const contentBytes = new TextEncoder().encode("Hello World");
* const writer = new Buffer();
* await writeAll(writer, contentBytes);
* console.log(writer.bytes().length); // 11
* ```
*/
export async function writeAll(w: Deno.Writer, arr: Uint8Array) {
let nwritten = 0;
while (nwritten < arr.length) {
nwritten += await w.write(arr.subarray(nwritten));
}
}
/** Synchronously write all the content of the array buffer (`arr`) to the
* writer (`w`).
*
* ```ts
* // Example writing to stdout
* const contentBytes = new TextEncoder().encode("Hello World");
* writeAllSync(Deno.stdout, contentBytes);
*
* // Example writing to file
* const contentBytes = new TextEncoder().encode("Hello World");
* const file = Deno.openSync('test.file', {write: true});
* writeAllSync(file, contentBytes);
* Deno.close(file.rid);
*
* // Example writing to buffer
* const contentBytes = new TextEncoder().encode("Hello World");
* const writer = new Buffer();
* writeAllSync(writer, contentBytes);
* console.log(writer.bytes().length); // 11
* ```
*/
export function writeAllSync(w: Deno.WriterSync, arr: Uint8Array): void {
let nwritten = 0;
while (nwritten < arr.length) {
nwritten += w.writeSync(arr.subarray(nwritten));
}
}
/** Turns a Reader, `r`, into an async iterator.
*
* ```ts
* let f = await Deno.open("/etc/passwd");
* for await (const chunk of iter(f)) {
* console.log(chunk);
* }
* f.close();
* ```
*
* Second argument can be used to tune size of a buffer.
* Default size of the buffer is 32kB.
*
* ```ts
* let f = await Deno.open("/etc/passwd");
* const iter = iter(f, {
* bufSize: 1024 * 1024
* });
* for await (const chunk of iter) {
* console.log(chunk);
* }
* f.close();
* ```
*
* Iterator uses an internal buffer of fixed size for efficiency; it returns
* a view on that buffer on each iteration. It is therefore caller's
* responsibility to copy contents of the buffer if needed; otherwise the
* next iteration will overwrite contents of previously returned chunk.
*/
export async function* iter(
r: Deno.Reader,
options?: {
bufSize?: number;
},
): AsyncIterableIterator<Uint8Array> {
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 b.subarray(0, result);
}
}
/** Turns a ReaderSync, `r`, into an iterator.
*
* ```ts
* let f = Deno.openSync("/etc/passwd");
* for (const chunk of iterSync(f)) {
* console.log(chunk);
* }
* f.close();
* ```
*
* Second argument can be used to tune size of a buffer.
* Default size of the buffer is 32kB.
*
* ```ts
* let f = await Deno.open("/etc/passwd");
* const iter = iterSync(f, {
* bufSize: 1024 * 1024
* });
* for (const chunk of iter) {
* console.log(chunk);
* }
* f.close();
* ```
*
* Iterator uses an internal buffer of fixed size for efficiency; it returns
* a view on that buffer on each iteration. It is therefore caller's
* responsibility to copy contents of the buffer if needed; otherwise the
* next iteration will overwrite contents of previously returned chunk.
*/
export function* iterSync(
r: Deno.ReaderSync,
options?: {
bufSize?: number;
},
): IterableIterator<Uint8Array> {
const bufSize = options?.bufSize ?? DEFAULT_BUFFER_SIZE;
const b = new Uint8Array(bufSize);
while (true) {
const result = r.readSync(b);
if (result === null) {
break;
}
yield b.subarray(0, result);
}
}
/** Copies from `src` to `dst` until either EOF (`null`) is read from `src` or
* an error occurs. It resolves to the number of bytes copied or rejects with
* the first error encountered while copying.
*
* ```ts
* const source = await Deno.open("my_file.txt");
* const bytesCopied1 = await copy(source, Deno.stdout);
* const destination = await Deno.create("my_file_2.txt");
* const bytesCopied2 = await copy(source, destination);
* ```
*
* @param src The source to copy from
* @param dst The destination to copy to
* @param options Can be used to tune size of the buffer. Default size is 32kB
*/
export async function copy(
src: Deno.Reader,
dst: Deno.Writer,
options?: {
bufSize?: number;
},
): Promise<number> {
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(b.subarray(nwritten, result));
}
n += nwritten;
}
}
return n;
}