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denoland-deno/fs/walk_test.ts

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const { cwd, chdir, makeTempDir, mkdir, open, remove } = Deno;
type FileInfo = Deno.FileInfo;
import { walk, walkSync, WalkOptions, WalkInfo } from "./walk.ts";
import { test, TestFunction, runIfMain } from "../testing/mod.ts";
import { assertEquals } from "../testing/asserts.ts";
export async function testWalk(
setup: (string) => void | Promise<void>,
t: TestFunction
): Promise<void> {
const name = t.name;
async function fn(): Promise<void> {
const origCwd = cwd();
const d = await makeTempDir();
chdir(d);
try {
await setup(d);
await t();
} finally {
chdir(origCwd);
remove(d, { recursive: true });
}
}
test({ name, fn });
}
function normalize({ filename }: WalkInfo): string {
return filename.replace(/\\/g, "/");
}
export async function walkArray(
root: string = ".",
options: WalkOptions = {}
): Promise<string[]> {
const arr: string[] = [];
for await (const w of walk(root, { ...options })) {
arr.push(normalize(w));
}
arr.sort(); // TODO(ry) Remove sort. The order should be deterministic.
const arrSync = Array.from(walkSync(root, options), normalize);
arrSync.sort(); // TODO(ry) Remove sort. The order should be deterministic.
assertEquals(arr, arrSync);
return arr;
}
export async function touch(path: string): Promise<void> {
await open(path, "w");
}
function assertReady(expectedLength: number): void {
const arr = Array.from(walkSync(), normalize);
assertEquals(arr.length, expectedLength);
}
testWalk(
async (d: string): Promise<void> => {
await mkdir(d + "/empty");
},
async function emptyDir(): Promise<void> {
const arr = await walkArray();
assertEquals(arr.length, 0);
}
);
testWalk(
async (d: string): Promise<void> => {
await touch(d + "/x");
},
async function singleFile(): Promise<void> {
const arr = await walkArray();
assertEquals(arr.length, 1);
assertEquals(arr[0], "x");
}
);
testWalk(
async (d: string): Promise<void> => {
await touch(d + "/x");
},
async function iteratable(): Promise<void> {
let count = 0;
for (const _ of walkSync(".")) {
count += 1;
}
assertEquals(count, 1);
for await (const _ of walk(".")) {
count += 1;
}
assertEquals(count, 2);
}
);
testWalk(
async (d: string): Promise<void> => {
await mkdir(d + "/a");
await touch(d + "/a/x");
},
async function nestedSingleFile(): Promise<void> {
const arr = await walkArray();
assertEquals(arr.length, 1);
assertEquals(arr[0], "a/x");
}
);
testWalk(
async (d: string): Promise<void> => {
await mkdir(d + "/a/b/c/d", true);
await touch(d + "/a/b/c/d/x");
},
async function depth(): Promise<void> {
assertReady(1);
const arr3 = await walkArray(".", { maxDepth: 3 });
assertEquals(arr3.length, 0);
const arr5 = await walkArray(".", { maxDepth: 5 });
assertEquals(arr5.length, 1);
assertEquals(arr5[0], "a/b/c/d/x");
}
);
testWalk(
async (d: string): Promise<void> => {
await touch(d + "/x.ts");
await touch(d + "/y.rs");
},
async function ext(): Promise<void> {
assertReady(2);
const arr = await walkArray(".", { exts: [".ts"] });
assertEquals(arr.length, 1);
assertEquals(arr[0], "x.ts");
}
);
testWalk(
async (d: string): Promise<void> => {
await touch(d + "/x.ts");
await touch(d + "/y.rs");
await touch(d + "/z.py");
},
async function extAny(): Promise<void> {
assertReady(3);
const arr = await walkArray(".", { exts: [".rs", ".ts"] });
assertEquals(arr.length, 2);
assertEquals(arr[0], "x.ts");
assertEquals(arr[1], "y.rs");
}
);
testWalk(
async (d: string): Promise<void> => {
await touch(d + "/x");
await touch(d + "/y");
},
async function match(): Promise<void> {
assertReady(2);
const arr = await walkArray(".", { match: [/x/] });
assertEquals(arr.length, 1);
assertEquals(arr[0], "x");
}
);
testWalk(
async (d: string): Promise<void> => {
await touch(d + "/x");
await touch(d + "/y");
await touch(d + "/z");
},
async function matchAny(): Promise<void> {
assertReady(3);
const arr = await walkArray(".", { match: [/x/, /y/] });
assertEquals(arr.length, 2);
assertEquals(arr[0], "x");
assertEquals(arr[1], "y");
}
);
testWalk(
async (d: string): Promise<void> => {
await touch(d + "/x");
await touch(d + "/y");
},
async function skip(): Promise<void> {
assertReady(2);
const arr = await walkArray(".", { skip: [/x/] });
assertEquals(arr.length, 1);
assertEquals(arr[0], "y");
}
);
testWalk(
async (d: string): Promise<void> => {
await touch(d + "/x");
await touch(d + "/y");
await touch(d + "/z");
},
async function skipAny(): Promise<void> {
assertReady(3);
const arr = await walkArray(".", { skip: [/x/, /y/] });
assertEquals(arr.length, 1);
assertEquals(arr[0], "z");
}
);
testWalk(
async (d: string): Promise<void> => {
await mkdir(d + "/a");
await mkdir(d + "/b");
await touch(d + "/a/x");
await touch(d + "/a/y");
await touch(d + "/b/z");
},
async function subDir(): Promise<void> {
assertReady(3);
const arr = await walkArray("b");
assertEquals(arr.length, 1);
assertEquals(arr[0], "b/z");
}
);
testWalk(
async (_d: string): Promise<void> => {},
async function onError(): Promise<void> {
assertReady(0);
const ignored = await walkArray("missing");
assertEquals(ignored.length, 0);
let errors = 0;
await walkArray("missing", { onError: (_e): number => (errors += 1) });
// It's 2 since walkArray iterates over both sync and async.
assertEquals(errors, 2);
}
);
/* TODO(ry) Re-enable followSymlinks
testWalk(
async (d: string): Promise<void> => {
await mkdir(d + "/a");
await mkdir(d + "/b");
await touch(d + "/a/x");
await touch(d + "/a/y");
await touch(d + "/b/z");
try {
await symlink(d + "/b", d + "/a/bb");
} catch (err) {
assert(isWindows);
assert(err.message, "Not implemented");
}
},
async function symlink(): Promise<void> {
// symlink is not yet implemented on Windows.
if (isWindows) {
return;
}
assertReady(3);
const files = await walkArray("a");
assertEquals(files.length, 2);
assert(!files.includes("a/bb/z"));
const arr = await walkArray("a", { followSymlinks: true });
assertEquals(arr.length, 3);
assert(arr.some((f): boolean => f.endsWith("/b/z")));
}
);
*/
runIfMain(import.meta);