zulip/frontend_tests/zjsunit/namespace.js

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"use strict";
const Module = require("module");
const path = require("path");
const callsites = require("callsites");
const $ = require("../zjsunit/zjquery");
const new_globals = new Set();
let old_globals = {};
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let actual_load;
const module_mocks = new Map();
const template_mocks = new Map();
const used_module_mocks = new Set();
const used_templates = new Set();
const jquery_path = require.resolve("jquery");
const real_jquery_path = require.resolve("../zjsunit/real_jquery.js");
let in_mid_render = false;
let jquery_function;
const template_path = "/static/templates/";
function need_to_mock_template_error(filename) {
const i = filename.indexOf(template_path);
if (i < 0) {
throw new Error("programming error");
}
const fn = filename.slice(i + template_path.length);
return `
Please use mock_template if your test needs to render ${fn}
We use mock_template in our unit tests to verify that the
JS code is calling the template with the proper data. And
then we use the results of mock_template to supply the JS
code with either the actual HTML from the template or some
kind of zjquery stub.
The basic pattern is this (grep for mock_template to see real
world examples):
run_test("test something calling template", ({mock_template}) => {
// We encourage you to set the second argument to false
// if you are not actually inspecting or using the results
// of actually rendering the template.
mock_template("${fn}", false, (data) => {
assert.deepEqual(data, {...};
// or assert more specific things about the data
return "stub-for-zjquery";
});
// If you need the actual HTML from the template, do
// something like below instead. (We set the second argument
// to true which tells mock_template that is should call
// the actual template rendering function and pass in the
// resulting html to us.
mock_template("${fn}", true, (data, html) => {
assert.deepEqual(data, {...};
assert.ok(html.startWith(...));
return html;
});
});
`;
}
function load(request, parent, isMain) {
const filename = Module._resolveFilename(request, parent, isMain);
if (module_mocks.has(filename)) {
used_module_mocks.add(filename);
const obj = module_mocks.get(filename);
return obj;
}
if (filename.endsWith(".hbs") && filename.includes(template_path)) {
const actual_render = actual_load(request, parent, isMain);
return template_stub({filename, actual_render});
}
if (filename === jquery_path && parent.filename !== real_jquery_path) {
return jquery_function || $;
}
return actual_load(request, parent, isMain);
}
function template_stub({filename, actual_render}) {
return function render(...args) {
// If our template is being rendered as a partial, always
// use the actual implementation.
if (in_mid_render) {
return actual_render(...args);
}
// Force devs to call mock_template on every top-level template
// render so they can introspect the data.
if (!template_mocks.has(filename)) {
throw new Error(need_to_mock_template_error(filename));
}
used_templates.add(filename);
const {exercise_template, f} = template_mocks.get(filename);
const data = args[0];
if (exercise_template) {
// If our dev wants to exercise the actual template, then do so.
// We set the in_mid_render bool so that included (i.e partial)
// templates get rendered.
in_mid_render = true;
const html = actual_render(...args);
in_mid_render = false;
return f(data, html);
}
return f(data);
};
}
exports.start = () => {
if (actual_load !== undefined) {
throw new Error("namespace.start was called twice in a row.");
}
actual_load = Module._load;
Module._load = load;
};
// We provide `mock_cjs` for mocking a CommonJS module, and `mock_esm` for
// mocking an ES6 module.
//
// A CommonJS module:
// - loads other modules using `require()`,
// - assigns its public contents to the `exports` object or `module.exports`,
// - consists of a single JavaScript value, typically an object or function,
// - when imported by an ES6 module:
// * is shallow-copied to a collection of immutable bindings, if it's an
// object,
// * is converted to a single default binding, if not.
//
// An ES6 module:
// - loads other modules using `import`,
// - declares its public contents using `export` statements,
// - consists of a collection of live bindings that may be mutated from inside
// but not outside the module,
// - may have a default binding (that's just syntactic sugar for a binding
// named `default`),
// - when required by a CommonJS module, always appears as an object.
//
// Most of our own modules are ES6 modules.
//
// For a third party module available in both formats that might present two
// incompatible APIs (especially if the CommonJS module is a function),
// Webpack will prefer the ES6 module if its availability is indicated by the
// "module" field of package.json, while Node.js will not; we need to mock the
// format preferred by Webpack.
exports.mock_cjs = (module_path, obj) => {
if (module_path === "jquery") {
throw new Error(
"We automatically mock jquery to zjquery. Grep for mock_jquery if you want more control.",
);
}
const filename = Module._resolveFilename(
module_path,
require.cache[callsites()[1].getFileName()],
false,
);
if (module_mocks.has(filename)) {
throw new Error(`You already set up a mock for ${filename}`);
}
if (filename in require.cache) {
throw new Error(`It is too late to mock ${filename}; call this earlier.`);
}
module_mocks.set(filename, obj);
return obj;
};
exports.mock_jquery = ($) => {
jquery_function = $;
return $;
};
exports._start_template_mocking = () => {
template_mocks.clear();
used_templates.clear();
};
exports._finish_template_mocking = () => {
for (const filename of template_mocks.keys()) {
if (!used_templates.has(filename)) {
throw new Error(
`You called mock_template with ${filename} but we never saw it get used.`,
);
}
}
template_mocks.clear();
used_templates.clear();
};
exports._mock_template = (fn, exercise_template, f) => {
const path = "../.." + template_path + fn;
const resolved_path = Module._resolveFilename(
path,
require.cache[callsites()[1].getFileName()],
false,
);
template_mocks.set(resolved_path, {exercise_template, f});
};
exports.mock_esm = (module_path, obj = {}) => {
if (typeof obj !== "object") {
throw new TypeError("An ES module must be mocked with an object");
}
return exports.mock_cjs(module_path, {...obj, __esModule: true});
};
exports.unmock_module = (module_path) => {
const filename = Module._resolveFilename(
module_path,
require.cache[callsites()[1].getFileName()],
false,
);
if (!module_mocks.has(filename)) {
throw new Error(`Cannot unmock ${filename}, which was not mocked`);
}
if (!used_module_mocks.has(filename)) {
throw new Error(`You asked to mock ${filename} but we never saw it during compilation.`);
}
module_mocks.delete(filename);
used_module_mocks.delete(filename);
};
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exports.set_global = function (name, val) {
if (val === null) {
throw new Error(`
We try to avoid using null in our codebase.
`);
}
if (!(name in old_globals)) {
if (!(name in global)) {
new_globals.add(name);
}
old_globals[name] = global[name];
}
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global[name] = val;
return val;
};
exports.zrequire = function (short_fn) {
if (short_fn === "templates") {
throw new Error(`
There is no need to zrequire templates.js.
The test runner automatically registers the
Handlebar extensions.
`);
}
return require(`../../static/js/${short_fn}`);
};
const staticPath = path.resolve(__dirname, "../../static") + path.sep;
exports.complain_about_unused_mocks = function () {
for (const filename of module_mocks.keys()) {
if (!used_module_mocks.has(filename)) {
console.error(`You asked to mock ${filename} but we never saw it during compilation.`);
}
}
};
exports.finish = function () {
/*
Handle cleanup tasks after we've run one module.
Note that we currently do lazy compilation of modules,
so we need to wait till the module tests finish
running to do things like detecting pointless mocks
and resetting our _load hook.
*/
jquery_function = undefined;
if (actual_load === undefined) {
throw new Error("namespace.finish was called without namespace.start.");
}
Module._load = actual_load;
actual_load = undefined;
module_mocks.clear();
used_module_mocks.clear();
for (const path of Object.keys(require.cache)) {
if (path.startsWith(staticPath)) {
delete require.cache[path];
}
}
Object.assign(global, old_globals);
old_globals = {};
for (const name of new_globals) {
delete global[name];
}
new_globals.clear();
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};
exports.with_field = function (obj, field, val, f) {
if ("__esModule" in obj && "__Rewire__" in obj) {
const old_val = field in obj ? obj[field] : obj.__GetDependency__(field);
try {
obj.__Rewire__(field, val);
return f();
} finally {
obj.__Rewire__(field, old_val);
}
} else {
const had_val = Object.prototype.hasOwnProperty.call(obj, field);
const old_val = obj[field];
try {
obj[field] = val;
return f();
} finally {
if (had_val) {
obj[field] = old_val;
} else {
delete obj[field];
}
}
}
};
exports.with_overrides = function (test_function) {
// This function calls test_function() and passes in
// a way to override the namespace temporarily.
const restore_callbacks = [];
const unused_funcs = new Map();
const override = function (obj, func_name, f) {
// Given an object `obj` (which is usually a module object),
// we re-map `obj[func_name]` to the `f` passed in by the caller.
// Then the outer function here (`with_overrides`) automatically
// restores the original value of `obj[func_name]` as its last
// step. Generally our code calls `run_test`, which wraps
// `with_overrides`.
if ("__esModule" in obj && "__Rewire__" in obj) {
throw new TypeError(
"Cannot mutate an ES module from outside. Consider exporting a test helper function from it instead.",
);
}
if (typeof f !== "function") {
throw new TypeError(
"You can only override with a function. Use with_field for non-functions.",
);
}
if (typeof obj !== "object" && typeof obj !== "function") {
throw new TypeError(`We cannot override a function for ${typeof obj} objects`);
}
if (obj[func_name] !== undefined && typeof obj[func_name] !== "function") {
throw new TypeError(`
You are overriding a non-function with a function.
This is almost certainly an error.
`);
}
if (!unused_funcs.has(obj)) {
unused_funcs.set(obj, new Map());
}
unused_funcs.get(obj).set(func_name, true);
const old_f = obj[func_name];
const new_f = function (...args) {
unused_funcs.get(obj).delete(func_name);
return f.apply(this, args);
};
// Let zjquery know this function was patched with override,
// so it doesn't complain about us modifying it. (Other
// code can also use this, as needed.)
new_f._patched_with_override = true;
obj[func_name] = new_f;
restore_callbacks.push(() => {
obj[func_name] = old_f;
});
};
const override_rewire = function (obj, func_name, f) {
// This is deprecated because it relies on the slow
// babel-plugin-rewire-ts plugin. Consider alternatives such
// as exporting a helper function for tests from the module
// containing the function you need to mock.
if (typeof f !== "function") {
throw new TypeError(
"You can only override with a function. Use with_field for non-functions.",
);
}
if (typeof obj !== "object" && typeof obj !== "function") {
throw new TypeError(`We cannot override a function for ${typeof obj} objects`);
}
if (obj[func_name] !== undefined && typeof obj[func_name] !== "function") {
throw new TypeError(`
You are overriding a non-function with a function.
This is almost certainly an error.
`);
}
if (!unused_funcs.has(obj)) {
unused_funcs.set(obj, new Map());
}
unused_funcs.get(obj).set(func_name, true);
const old_f = func_name in obj ? obj[func_name] : obj.__GetDependency__(func_name);
const new_f = function (...args) {
unused_funcs.get(obj).delete(func_name);
return f.apply(this, args);
};
obj.__Rewire__(func_name, new_f);
restore_callbacks.push(() => {
obj.__Rewire__(func_name, old_f);
});
};
try {
test_function({override, override_rewire});
} finally {
restore_callbacks.reverse();
for (const restore_callback of restore_callbacks) {
restore_callback();
}
js: Automatically convert _.each to for…of. This commit was automatically generated by the following script, followed by lint --fix and a few small manual lint-related cleanups. import * as babelParser from "recast/parsers/babel"; import * as recast from "recast"; import * as tsParser from "recast/parsers/typescript"; import { builders as b, namedTypes as n } from "ast-types"; import { Context } from "ast-types/lib/path-visitor"; import K from "ast-types/gen/kinds"; import { NodePath } from "ast-types/lib/node-path"; import assert from "assert"; import fs from "fs"; import path from "path"; import process from "process"; const checkExpression = (node: n.Node): node is K.ExpressionKind => n.Expression.check(node); const checkStatement = (node: n.Node): node is K.StatementKind => n.Statement.check(node); for (const file of process.argv.slice(2)) { console.log("Parsing", file); const ast = recast.parse(fs.readFileSync(file, { encoding: "utf8" }), { parser: path.extname(file) === ".ts" ? tsParser : babelParser, }); let changed = false; let inLoop = false; let replaceReturn = false; const visitLoop = (...args: string[]) => function(this: Context, path: NodePath) { for (const arg of args) { this.visit(path.get(arg)); } const old = { inLoop }; inLoop = true; this.visit(path.get("body")); inLoop = old.inLoop; return false; }; recast.visit(ast, { visitDoWhileStatement: visitLoop("test"), visitExpressionStatement(path) { const { expression, comments } = path.node; let valueOnly; if ( n.CallExpression.check(expression) && n.MemberExpression.check(expression.callee) && !expression.callee.computed && n.Identifier.check(expression.callee.object) && expression.callee.object.name === "_" && n.Identifier.check(expression.callee.property) && ["each", "forEach"].includes(expression.callee.property.name) && [2, 3].includes(expression.arguments.length) && checkExpression(expression.arguments[0]) && (n.FunctionExpression.check(expression.arguments[1]) || n.ArrowFunctionExpression.check(expression.arguments[1])) && [1, 2].includes(expression.arguments[1].params.length) && n.Identifier.check(expression.arguments[1].params[0]) && ((valueOnly = expression.arguments[1].params[1] === undefined) || n.Identifier.check(expression.arguments[1].params[1])) && (expression.arguments[2] === undefined || n.ThisExpression.check(expression.arguments[2])) ) { const old = { inLoop, replaceReturn }; inLoop = false; replaceReturn = true; this.visit( path .get("expression") .get("arguments") .get(1) .get("body") ); inLoop = old.inLoop; replaceReturn = old.replaceReturn; const [right, { body, params }] = expression.arguments; const loop = b.forOfStatement( b.variableDeclaration("let", [ b.variableDeclarator( valueOnly ? params[0] : b.arrayPattern([params[1], params[0]]) ), ]), valueOnly ? right : b.callExpression( b.memberExpression(right, b.identifier("entries")), [] ), checkStatement(body) ? body : b.expressionStatement(body) ); loop.comments = comments; path.replace(loop); changed = true; } this.traverse(path); }, visitForStatement: visitLoop("init", "test", "update"), visitForInStatement: visitLoop("left", "right"), visitForOfStatement: visitLoop("left", "right"), visitFunction(path) { this.visit(path.get("params")); const old = { replaceReturn }; replaceReturn = false; this.visit(path.get("body")); replaceReturn = old.replaceReturn; return false; }, visitReturnStatement(path) { if (replaceReturn) { assert(!inLoop); // could use labeled continue if this ever fires const { argument, comments } = path.node; if (argument === null) { const s = b.continueStatement(); s.comments = comments; path.replace(s); } else { const s = b.expressionStatement(argument); s.comments = comments; path.replace(s, b.continueStatement()); } return false; } this.traverse(path); }, visitWhileStatement: visitLoop("test"), }); if (changed) { console.log("Writing", file); fs.writeFileSync(file, recast.print(ast).code, { encoding: "utf8" }); } } Signed-off-by: Anders Kaseorg <anders@zulipchat.com>
2020-02-06 06:19:47 +01:00
}
for (const module_unused_funcs of unused_funcs.values()) {
for (const unused_name of module_unused_funcs.keys()) {
throw new Error(unused_name + " never got invoked!");
}
}
};