I have a function foo
var foo = function(){
this.doRandomStuff = function(callback){
//do Something
callback(false);
}
}
var bar = function(){
var fooInstance = new foo();
fooInstance.doRandomStuff(function(val){
//do Something with val
})
}
I want to write test for bar function and I am using mocha and sinon for this.
describe("Foo Test",function(){
it("testing foo",function(done){
var instance = new foo();
sinon.stub(instance,'doRandomStuff').callsArgWith(0,true); // This Doesn't work
sinon.stub(foo,'doRandomStuff').callsArgWith(0,true); // This also Doesn't work
bar();
done();
})
});
I get below Exception :
TypeError: Cannot stub non-existent own property doRandomStuff
Alternative approach to make it more testable is module approach as below:
foo.js
function doRandomStuff(callback) {
callback(false);
}
module.exports = {
doRandomStuff
}
bar.js
const foo = require('./foo');
module.exports = function() {
foo.doRandomStuff(function(val) {
console.log('test val', val); // for testing purpose
})
}
test.js
const sinon = require('sinon');
const foo = require('./foo');
const bar = require('./bar');
describe('Foo Test', function() {
it("testing foo",function(done){
sinon.stub(foo, 'doRandomStuff').callsArgWith(0,true);
bar(); // output: "test val true"
done();
});
});
Related
I was wondering what the best approach is for configuring a module export. "async.function" in the example below could be a FS or HTTP request, simplified for the sake of the example:
Here's example code (asynmodule.js):
var foo = "bar"
async.function(function(response) {
foo = "foobar";
// module.exports = foo; // having the export here breaks the app: foo is always undefined.
});
// having the export here results in working code, but without the variable being set.
module.exports = foo;
How can I export the module only once the async callback has been executed?
edit
a quick note on my actual use-case: I'm writing a module to configure nconf (https://github.com/flatiron/nconf) in an fs.exists() callback (i.e. it will parse a config file and set up nconf).
Your export can't work because it is outside the function while the foodeclaration is inside. But if you put the export inside, when you use your module you can't be sure the export was defined.
The best way to work with an ansync system is to use callback. You need to export a callback assignation method to get the callback, and call it on the async execution.
Example:
var foo, callback;
async.function(function(response) {
foo = "foobar";
if( typeof callback == 'function' ){
callback(foo);
}
});
module.exports = function(cb){
if(typeof foo != 'undefined'){
cb(foo); // If foo is already define, I don't wait.
} else {
callback = cb;
}
}
Here async.function is just a placeholder to symbolise an async call.
In main
var fooMod = require('./foo.js');
fooMod(function(foo){
//Here code using foo;
});
Multiple callback way
If your module need to be called more than once you need to manage an array of callback:
var foo, callbackList = [];
async.function(function(response) {
foo = "foobar";
// You can use all other form of array walk.
for(var i = 0; i < callbackList.length; i++){
callbackList[i](foo)
}
});
module.exports = function(cb){
if(typeof foo != 'undefined'){
cb(foo); // If foo is already define, I don't wait.
} else {
callback.push(cb);
}
}
Here async.function is just a placeholder to symbolise an async call.
In main
var fooMod = require('./foo.js');
fooMod(function(foo){
//Here code using foo;
});
Promise way
You can also use Promise to solve that. This method support multiple call by the design of the Promise:
var foo, callback;
module.exports = new Promise(function(resolve, reject){
async.function(function(response) {
foo = "foobar"
resolve(foo);
});
});
Here async.function is just a placeholder to symbolise an async call.
In main
var fooMod = require('./foo.js').then(function(foo){
//Here code using foo;
});
See Promise documentation
An ES7 approach would be an immediatly invoked async function in module.exports :
module.exports = (async function(){
//some async initiallizers
//e.g. await the db module that has the same structure like this
var db = await require("./db");
var foo = "bar";
//resolve the export promise
return {
foo
};
})()
This can be required with await later:
(async function(){
var foo = await require("./theuppercode");
console.log(foo);
})();
ES6 answer using promises:
const asyncFunc = () => {
return new Promise((resolve, reject) => {
// Where someAsyncFunction takes a callback, i.e. api call
someAsyncFunction(data => {
resolve(data)
})
})
}
export default asyncFunc
...
import asyncFunc from './asyncFunc'
asyncFunc().then(data => { console.log(data) })
Or you could return the Promise itself directly:
const p = new Promise(...)
export default p
...
import p from './asyncModule'
p.then(...)
Another approach would be wrapping the variable inside an object.
var Wrapper = function(){
this.foo = "bar";
this.init();
};
Wrapper.prototype.init = function(){
var wrapper = this;
async.function(function(response) {
wrapper.foo = "foobar";
});
}
module.exports = new Wrapper();
If the initializer has error, at least you still get the uninitialized value instead of hanging callback.
You can also make use of Promises:
some-async-module.js
module.exports = new Promise((resolve, reject) => {
setTimeout(resolve.bind(null, 'someValueToBeReturned'), 2000);
});
main.js
var asyncModule = require('./some-async-module');
asyncModule.then(promisedResult => console.log(promisedResult));
// outputs 'someValueToBeReturned' after 2 seconds
The same can happen in a different module and will also resolve as expected:
in-some-other-module.js
var asyncModule = require('./some-async-module');
asyncModule.then(promisedResult => console.log(promisedResult));
// also outputs 'someValueToBeReturned' after 2 seconds
Note that the promise object is created once then it's cached by node. Each require('./some-async-module') will return the same object instance (promise instance in this case).
Other answers seemed to be partial answers and didn't work for me. This seems to be somewhat complete:
some-module.js
var Wrapper = function(){
this.callbacks = [];
this.foo = null;
this.init();
};
Wrapper.prototype.init = function(){
var wrapper = this;
async.function(function(response) {
wrapper.foo = "foobar";
this.callbacks.forEach(function(callback){
callback(null, wrapper.foo);
});
});
}
Wrapper.prototype.get = function(cb) {
if(typeof cb !== 'function') {
return this.connection; // this could be null so probably just throw
}
if(this.foo) {
return cb(null, this.foo);
}
this.callbacks.push(cb);
}
module.exports = new Wrapper();
main.js
var wrapper = require('./some-module');
wrapper.get(function(foo){
// foo will always be defined
});
main2.js
var wrapper = require('./some-module');
wrapper.get(function(foo){
// foo will always be defined in another script
});
I was wondering what the best approach is for configuring a module export. "async.function" in the example below could be a FS or HTTP request, simplified for the sake of the example:
Here's example code (asynmodule.js):
var foo = "bar"
async.function(function(response) {
foo = "foobar";
// module.exports = foo; // having the export here breaks the app: foo is always undefined.
});
// having the export here results in working code, but without the variable being set.
module.exports = foo;
How can I export the module only once the async callback has been executed?
edit
a quick note on my actual use-case: I'm writing a module to configure nconf (https://github.com/flatiron/nconf) in an fs.exists() callback (i.e. it will parse a config file and set up nconf).
Your export can't work because it is outside the function while the foodeclaration is inside. But if you put the export inside, when you use your module you can't be sure the export was defined.
The best way to work with an ansync system is to use callback. You need to export a callback assignation method to get the callback, and call it on the async execution.
Example:
var foo, callback;
async.function(function(response) {
foo = "foobar";
if( typeof callback == 'function' ){
callback(foo);
}
});
module.exports = function(cb){
if(typeof foo != 'undefined'){
cb(foo); // If foo is already define, I don't wait.
} else {
callback = cb;
}
}
Here async.function is just a placeholder to symbolise an async call.
In main
var fooMod = require('./foo.js');
fooMod(function(foo){
//Here code using foo;
});
Multiple callback way
If your module need to be called more than once you need to manage an array of callback:
var foo, callbackList = [];
async.function(function(response) {
foo = "foobar";
// You can use all other form of array walk.
for(var i = 0; i < callbackList.length; i++){
callbackList[i](foo)
}
});
module.exports = function(cb){
if(typeof foo != 'undefined'){
cb(foo); // If foo is already define, I don't wait.
} else {
callback.push(cb);
}
}
Here async.function is just a placeholder to symbolise an async call.
In main
var fooMod = require('./foo.js');
fooMod(function(foo){
//Here code using foo;
});
Promise way
You can also use Promise to solve that. This method support multiple call by the design of the Promise:
var foo, callback;
module.exports = new Promise(function(resolve, reject){
async.function(function(response) {
foo = "foobar"
resolve(foo);
});
});
Here async.function is just a placeholder to symbolise an async call.
In main
var fooMod = require('./foo.js').then(function(foo){
//Here code using foo;
});
See Promise documentation
An ES7 approach would be an immediatly invoked async function in module.exports :
module.exports = (async function(){
//some async initiallizers
//e.g. await the db module that has the same structure like this
var db = await require("./db");
var foo = "bar";
//resolve the export promise
return {
foo
};
})()
This can be required with await later:
(async function(){
var foo = await require("./theuppercode");
console.log(foo);
})();
ES6 answer using promises:
const asyncFunc = () => {
return new Promise((resolve, reject) => {
// Where someAsyncFunction takes a callback, i.e. api call
someAsyncFunction(data => {
resolve(data)
})
})
}
export default asyncFunc
...
import asyncFunc from './asyncFunc'
asyncFunc().then(data => { console.log(data) })
Or you could return the Promise itself directly:
const p = new Promise(...)
export default p
...
import p from './asyncModule'
p.then(...)
Another approach would be wrapping the variable inside an object.
var Wrapper = function(){
this.foo = "bar";
this.init();
};
Wrapper.prototype.init = function(){
var wrapper = this;
async.function(function(response) {
wrapper.foo = "foobar";
});
}
module.exports = new Wrapper();
If the initializer has error, at least you still get the uninitialized value instead of hanging callback.
You can also make use of Promises:
some-async-module.js
module.exports = new Promise((resolve, reject) => {
setTimeout(resolve.bind(null, 'someValueToBeReturned'), 2000);
});
main.js
var asyncModule = require('./some-async-module');
asyncModule.then(promisedResult => console.log(promisedResult));
// outputs 'someValueToBeReturned' after 2 seconds
The same can happen in a different module and will also resolve as expected:
in-some-other-module.js
var asyncModule = require('./some-async-module');
asyncModule.then(promisedResult => console.log(promisedResult));
// also outputs 'someValueToBeReturned' after 2 seconds
Note that the promise object is created once then it's cached by node. Each require('./some-async-module') will return the same object instance (promise instance in this case).
Other answers seemed to be partial answers and didn't work for me. This seems to be somewhat complete:
some-module.js
var Wrapper = function(){
this.callbacks = [];
this.foo = null;
this.init();
};
Wrapper.prototype.init = function(){
var wrapper = this;
async.function(function(response) {
wrapper.foo = "foobar";
this.callbacks.forEach(function(callback){
callback(null, wrapper.foo);
});
});
}
Wrapper.prototype.get = function(cb) {
if(typeof cb !== 'function') {
return this.connection; // this could be null so probably just throw
}
if(this.foo) {
return cb(null, this.foo);
}
this.callbacks.push(cb);
}
module.exports = new Wrapper();
main.js
var wrapper = require('./some-module');
wrapper.get(function(foo){
// foo will always be defined
});
main2.js
var wrapper = require('./some-module');
wrapper.get(function(foo){
// foo will always be defined in another script
});
Suppose we have a Mongoose object Foo.js.
var mongoose = require('mongoose');
var Bar = require('/path/to/bar');
var Foo = mongoose.Schema({});
Foo.statics.hello = function() {
console.log('hello from foo');
};
Foo.statics.useBar = function() {
Bar.hello();
};
module.exports = mongoose.model('Foo', Foo);
As well as a regular javascript object Bar.js.
var Foo = require('/path/to/foo');
var Bar = function() {};
Bar.hello = function() {
console.log('hello from bar');
};
Bar.useFoo = function() {
Foo.hello();
};
module.exports = Bar;
If we wanted to call methods in Bar from Foo, everything would be fine. Yet, if we wanted to call methods in Foo from Bar, we would receive an error.
app.use('/test', function(req, res, next) {
var Foo = require('/path/to/foo');
var Bar = require('/path/to/bar');
Foo.hello();
Bar.hello();
Foo.useBar();
Bar.useFoo();
});
The above yields:
hello from foo
hello from bar
hello from bar
TypeError: Foo.hello is not a function
Why does this happen?
Additionally, how do I create an object Bar that can call methods from Foo, but at the same time is not meant to be - and cannot be - persisted into mongodb?
The problem you are experiencing is circular/cyclic dependencies in node.js. It gives you an empty object.
If you change Bar.js like this:
var Bar = function() {};
module.exports = Bar;
var Foo = require('/path/to/foo');
Bar.hello = function() {
console.log('hello from bar');
};
Bar.useFoo = function() {
Foo.hello();
};
and then swap the order in app.use to
var Bar = require('/path/to/bar');
var Foo = require('/path/to/foo');
it works for me.
Look at this answer for more information: How to deal with cyclic dependencies in Node.js
I was wondering what the best approach is for configuring a module export. "async.function" in the example below could be a FS or HTTP request, simplified for the sake of the example:
Here's example code (asynmodule.js):
var foo = "bar"
async.function(function(response) {
foo = "foobar";
// module.exports = foo; // having the export here breaks the app: foo is always undefined.
});
// having the export here results in working code, but without the variable being set.
module.exports = foo;
How can I export the module only once the async callback has been executed?
edit
a quick note on my actual use-case: I'm writing a module to configure nconf (https://github.com/flatiron/nconf) in an fs.exists() callback (i.e. it will parse a config file and set up nconf).
Your export can't work because it is outside the function while the foodeclaration is inside. But if you put the export inside, when you use your module you can't be sure the export was defined.
The best way to work with an ansync system is to use callback. You need to export a callback assignation method to get the callback, and call it on the async execution.
Example:
var foo, callback;
async.function(function(response) {
foo = "foobar";
if( typeof callback == 'function' ){
callback(foo);
}
});
module.exports = function(cb){
if(typeof foo != 'undefined'){
cb(foo); // If foo is already define, I don't wait.
} else {
callback = cb;
}
}
Here async.function is just a placeholder to symbolise an async call.
In main
var fooMod = require('./foo.js');
fooMod(function(foo){
//Here code using foo;
});
Multiple callback way
If your module need to be called more than once you need to manage an array of callback:
var foo, callbackList = [];
async.function(function(response) {
foo = "foobar";
// You can use all other form of array walk.
for(var i = 0; i < callbackList.length; i++){
callbackList[i](foo)
}
});
module.exports = function(cb){
if(typeof foo != 'undefined'){
cb(foo); // If foo is already define, I don't wait.
} else {
callback.push(cb);
}
}
Here async.function is just a placeholder to symbolise an async call.
In main
var fooMod = require('./foo.js');
fooMod(function(foo){
//Here code using foo;
});
Promise way
You can also use Promise to solve that. This method support multiple call by the design of the Promise:
var foo, callback;
module.exports = new Promise(function(resolve, reject){
async.function(function(response) {
foo = "foobar"
resolve(foo);
});
});
Here async.function is just a placeholder to symbolise an async call.
In main
var fooMod = require('./foo.js').then(function(foo){
//Here code using foo;
});
See Promise documentation
An ES7 approach would be an immediatly invoked async function in module.exports :
module.exports = (async function(){
//some async initiallizers
//e.g. await the db module that has the same structure like this
var db = await require("./db");
var foo = "bar";
//resolve the export promise
return {
foo
};
})()
This can be required with await later:
(async function(){
var foo = await require("./theuppercode");
console.log(foo);
})();
ES6 answer using promises:
const asyncFunc = () => {
return new Promise((resolve, reject) => {
// Where someAsyncFunction takes a callback, i.e. api call
someAsyncFunction(data => {
resolve(data)
})
})
}
export default asyncFunc
...
import asyncFunc from './asyncFunc'
asyncFunc().then(data => { console.log(data) })
Or you could return the Promise itself directly:
const p = new Promise(...)
export default p
...
import p from './asyncModule'
p.then(...)
Another approach would be wrapping the variable inside an object.
var Wrapper = function(){
this.foo = "bar";
this.init();
};
Wrapper.prototype.init = function(){
var wrapper = this;
async.function(function(response) {
wrapper.foo = "foobar";
});
}
module.exports = new Wrapper();
If the initializer has error, at least you still get the uninitialized value instead of hanging callback.
You can also make use of Promises:
some-async-module.js
module.exports = new Promise((resolve, reject) => {
setTimeout(resolve.bind(null, 'someValueToBeReturned'), 2000);
});
main.js
var asyncModule = require('./some-async-module');
asyncModule.then(promisedResult => console.log(promisedResult));
// outputs 'someValueToBeReturned' after 2 seconds
The same can happen in a different module and will also resolve as expected:
in-some-other-module.js
var asyncModule = require('./some-async-module');
asyncModule.then(promisedResult => console.log(promisedResult));
// also outputs 'someValueToBeReturned' after 2 seconds
Note that the promise object is created once then it's cached by node. Each require('./some-async-module') will return the same object instance (promise instance in this case).
Other answers seemed to be partial answers and didn't work for me. This seems to be somewhat complete:
some-module.js
var Wrapper = function(){
this.callbacks = [];
this.foo = null;
this.init();
};
Wrapper.prototype.init = function(){
var wrapper = this;
async.function(function(response) {
wrapper.foo = "foobar";
this.callbacks.forEach(function(callback){
callback(null, wrapper.foo);
});
});
}
Wrapper.prototype.get = function(cb) {
if(typeof cb !== 'function') {
return this.connection; // this could be null so probably just throw
}
if(this.foo) {
return cb(null, this.foo);
}
this.callbacks.push(cb);
}
module.exports = new Wrapper();
main.js
var wrapper = require('./some-module');
wrapper.get(function(foo){
// foo will always be defined
});
main2.js
var wrapper = require('./some-module');
wrapper.get(function(foo){
// foo will always be defined in another script
});
What approach can I take to mock bare functions when working with Jasmine and RequireJS?
As far as I can tell, I cannot conveniently use spyOn, because that needs the object the function is a method on. Although I can get this object (the RequireJS context.defined object), the assignment to bareFunction in foo.js has already occurred by the time the test is run, making changes to that function impossible at test-time (IIUC).
bare-function.js
define(function() {
return function bareFunction() {
return 'a';
};
});
foo.js
define(function(require){
var bareFunction = require('bare-function');
return {
doSomething: function() {
var v = bareFunction();
return v.toUpperCase();
}
};
}
foo-unit-test.js
define(function(require) {
var bareFunction = require('bare-function');
var target = require('foo');
describe('foo', function(){
describe('doSomething', function(){
it('should uppercase the result of the bare-function', function() {
//arrange
var bareFunctionResult = 'test value';
bareFunction.mockWith(function() { return bareFunctionResult; }); // Pseudocode.
//act
var result = target.doSomething();
//assert
expect(result).toBe(bareFunctionResult.toUpperCase());
});
});
});
});
The best I can come up with is attach a __stub method to the bare function and have the function short-circuit if this is set. e.g.
bare-function.js
define(function() {
var stub;
function bareFunction() {
if(stub) {
return stub();
}
return 'a';
};
bareFunction.__stub = function(v) {
stub = v;
};
bareFunction.__unstub = function() {
stub = null;
};
return bareFunction;
});
In the end I modified my foo.js so that doSomething accepted an optional shadow function for bareFunction, enabling trivial stubbing/mocking.
foo.js
define(function(require){
var bareFunction = require('bare-function');
return {
doSomething: function(bareFunctionShadow) {
var fn, v;
fn = bareFunctionShadow || bareFunction;
v = fn();
return v.toUpperCase();
}
};
}
foo-unit-test.js
define(function(require) {
var bareFunction = require('bare-function');
var target = require('foo');
describe('foo', function(){
describe('doSomething', function(){
it('should uppercase the result of the bare-function', function() {
//arrange
var bareFunctionResult = 'test value';
var bareFunctionMock = function() { return bareFunctionResult; };
//act
var result = target.doSomething(bareFunctionMock);
//assert
expect(result).toBe(bareFunctionResult.toUpperCase());
});
});
});
});