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denoland-deno/js/buffer_test.ts

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// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
// This code has been ported almost directly from Go's src/bytes/buffer_test.go
// Copyright 2009 The Go Authors. All rights reserved. BSD license.
// https://github.com/golang/go/blob/master/LICENSE
import { assertEquals, test } from "./test_util.ts";
const { Buffer, readAll } = Deno;
type Buffer = Deno.Buffer;
// N controls how many iterations of certain checks are performed.
const N = 100;
let testBytes: Uint8Array | null;
let testString: string | null;
function init(): void {
if (testBytes == null) {
testBytes = new Uint8Array(N);
for (let i = 0; i < N; i++) {
testBytes[i] = "a".charCodeAt(0) + (i % 26);
}
const decoder = new TextDecoder();
testString = decoder.decode(testBytes);
}
}
function check(buf: Deno.Buffer, s: string): void {
const bytes = buf.bytes();
assertEquals(buf.length, bytes.byteLength);
const decoder = new TextDecoder();
const bytesStr = decoder.decode(bytes);
assertEquals(bytesStr, s);
assertEquals(buf.length, buf.toString().length);
assertEquals(buf.length, s.length);
}
// Fill buf through n writes of byte slice fub.
// The initial contents of buf corresponds to the string s;
// the result is the final contents of buf returned as a string.
async function fillBytes(
buf: Buffer,
s: string,
n: number,
fub: Uint8Array
): Promise<string> {
check(buf, s);
for (; n > 0; n--) {
let m = await buf.write(fub);
assertEquals(m, fub.byteLength);
const decoder = new TextDecoder();
s += decoder.decode(fub);
check(buf, s);
}
return s;
}
// Empty buf through repeated reads into fub.
// The initial contents of buf corresponds to the string s.
async function empty(buf: Buffer, s: string, fub: Uint8Array): Promise<void> {
check(buf, s);
while (true) {
const r = await buf.read(fub);
if (r.nread == 0) {
break;
}
s = s.slice(r.nread);
check(buf, s);
}
check(buf, "");
}
function repeat(c: string, bytes: number): Uint8Array {
assertEquals(c.length, 1);
const ui8 = new Uint8Array(bytes);
ui8.fill(c.charCodeAt(0));
return ui8;
}
test(function bufferNewBuffer() {
init();
const buf = new Buffer(testBytes.buffer as ArrayBuffer);
check(buf, testString);
});
test(async function bufferBasicOperations() {
init();
let buf = new Buffer();
for (let i = 0; i < 5; i++) {
check(buf, "");
buf.reset();
check(buf, "");
buf.truncate(0);
check(buf, "");
let n = await buf.write(testBytes.subarray(0, 1));
assertEquals(n, 1);
check(buf, "a");
n = await buf.write(testBytes.subarray(1, 2));
assertEquals(n, 1);
check(buf, "ab");
n = await buf.write(testBytes.subarray(2, 26));
assertEquals(n, 24);
check(buf, testString.slice(0, 26));
buf.truncate(26);
check(buf, testString.slice(0, 26));
buf.truncate(20);
check(buf, testString.slice(0, 20));
await empty(buf, testString.slice(0, 20), new Uint8Array(5));
await empty(buf, "", new Uint8Array(100));
// TODO buf.writeByte()
// TODO buf.readByte()
}
});
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test(async function bufferReadEmptyAtEOF() {
// check that EOF of 'buf' is not reached (even though it's empty) if
// results are written to buffer that has 0 length (ie. it can't store any data)
let buf = new Buffer();
const zeroLengthTmp = new Uint8Array(0);
let result = await buf.read(zeroLengthTmp);
assertEquals(result.nread, 0);
assertEquals(result.eof, false);
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});
test(async function bufferLargeByteWrites() {
init();
const buf = new Buffer();
const limit = 9;
for (let i = 3; i < limit; i += 3) {
const s = await fillBytes(buf, "", 5, testBytes);
await empty(buf, s, new Uint8Array(Math.floor(testString.length / i)));
}
check(buf, "");
});
test(async function bufferTooLargeByteWrites() {
init();
const tmp = new Uint8Array(72);
const growLen = Number.MAX_VALUE;
const xBytes = repeat("x", 0);
const buf = new Buffer(xBytes.buffer as ArrayBuffer);
await buf.read(tmp);
let err;
try {
buf.grow(growLen);
} catch (e) {
err = e;
}
assertEquals(err.kind, Deno.ErrorKind.TooLarge);
assertEquals(err.name, "TooLarge");
});
test(async function bufferLargeByteReads() {
init();
const buf = new Buffer();
for (let i = 3; i < 30; i += 3) {
const n = Math.floor(testBytes.byteLength / i);
const s = await fillBytes(buf, "", 5, testBytes.subarray(0, n));
await empty(buf, s, new Uint8Array(testString.length));
}
check(buf, "");
});
test(function bufferCapWithPreallocatedSlice() {
const buf = new Buffer(new ArrayBuffer(10));
assertEquals(buf.capacity, 10);
});
test(async function bufferReadFrom() {
init();
const buf = new Buffer();
for (let i = 3; i < 30; i += 3) {
const s = await fillBytes(
buf,
"",
5,
testBytes.subarray(0, Math.floor(testBytes.byteLength / i))
);
const b = new Buffer();
await b.readFrom(buf);
const fub = new Uint8Array(testString.length);
await empty(b, s, fub);
}
});
test(async function bufferTestGrow() {
const tmp = new Uint8Array(72);
for (let startLen of [0, 100, 1000, 10000, 100000]) {
const xBytes = repeat("x", startLen);
for (let growLen of [0, 100, 1000, 10000, 100000]) {
const buf = new Buffer(xBytes.buffer as ArrayBuffer);
// If we read, this affects buf.off, which is good to test.
const { nread } = await buf.read(tmp);
buf.grow(growLen);
const yBytes = repeat("y", growLen);
await buf.write(yBytes);
// Check that buffer has correct data.
assertEquals(
buf.bytes().subarray(0, startLen - nread),
xBytes.subarray(nread)
);
assertEquals(
buf.bytes().subarray(startLen - nread, startLen - nread + growLen),
yBytes
);
}
}
});
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test(async function testReadAll() {
init();
const reader = new Buffer(testBytes.buffer as ArrayBuffer);
const actualBytes = await readAll(reader);
assertEquals(testBytes.byteLength, actualBytes.byteLength);
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for (let i = 0; i < testBytes.length; ++i) {
assertEquals(testBytes[i], actualBytes[i]);
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}
});