Hello I need to call a REST function with an ID, that returns a promise in React.js. This function will at some point contain a certain value in its response when called . Until another service has processed an initial request this value will be null.
This is what I have done so far:
while(myVariable){
myfunction(myID).then( (response) => {
if(response['value'] != null
myVariable = false;
}
});
}
The problem with this code is that the while loop is called as fast as possible and thus completely utilises the computer. So I need a function that allows me to poll for a result by an ID until the response of one of the function calls contains a valid response.
I have tried the following method but without success, because I don't have a fixed number of runs:
Wait promise inside for loop
Thanks in regards.
As you state, the problem is that the while loop runs eagerly, not waiting for each promise to resolve.
One way to solve that is to use recursion. Recursion gives you more control over when exactly you want to 'loop' next:
let getValue = () => {
myFunction(myID).then(response => {
if (response['value'] === null) {
setTimeout(getValue);
} else {
// here you know the other service has processed the initial request
}
});
};
First I wrapped the whole thing in a function called getValue. Note that this function is only called again after the promise resolves. (The call to setTimeout is a trick to use recursion without consuming the stack.) If this still runs too quickly, pass an additional parameter of 100 or so to the setTimeout invocation.
Alternatively, you may be able to use async/await similarly to the link you shared. I'm no expert on async/await but it should work the same with while loops as with for loops, judging by this and this.
You can use the async function with await.
I also use a delay function to delay each call to the myfunction().
While you get a response, you can break the while loop.
const delay = ms => new Promise((resolve, reject) => setTimeout(resolve, ms));
async function main() {
const myID = 1;
let response;
while (true) {
response = await myfunction(myID);
if (response["value"] != null) {
break;
}
await delay(5000);
}
//do Something once you get the response here below:
}
main();
First, this is a very specific case of doing it the wrong way on-purpose to retrofit an asynchronous call into a very synchronous codebase that is many thousands of lines long and time doesn't currently afford the ability to make the changes to "do it right." It hurts every fiber of my being, but reality and ideals often do not mesh. I know this sucks.
OK, that out of the way, how do I make it so that I could:
function doSomething() {
var data;
function callBack(d) {
data = d;
}
myAsynchronousCall(param1, callBack);
// block here and return data when the callback is finished
return data;
}
The examples (or lack thereof) all use libraries and/or compilers, both of which are not viable for this solution. I need a concrete example of how to make it block (e.g. NOT leave the doSomething function until the callback is called) WITHOUT freezing the UI. If such a thing is possible in JS.
"don't tell me about how I should just do it "the right way" or whatever"
OK. but you should really do it the right way... or whatever
" I need a concrete example of how to make it block ... WITHOUT freezing the UI. If such a thing is possible in JS."
No, it is impossible to block the running JavaScript without blocking the UI.
Given the lack of information, it's tough to offer a solution, but one option may be to have the calling function do some polling to check a global variable, then have the callback set data to the global.
function doSomething() {
// callback sets the received data to a global var
function callBack(d) {
window.data = d;
}
// start the async
myAsynchronousCall(param1, callBack);
}
// start the function
doSomething();
// make sure the global is clear
window.data = null
// start polling at an interval until the data is found at the global
var intvl = setInterval(function() {
if (window.data) {
clearInterval(intvl);
console.log(data);
}
}, 100);
All of this assumes that you can modify doSomething(). I don't know if that's in the cards.
If it can be modified, then I don't know why you wouldn't just pass a callback to doSomething() to be called from the other callback, but I better stop before I get into trouble. ;)
Oh, what the heck. You gave an example that suggests it can be done correctly, so I'm going to show that solution...
function doSomething( func ) {
function callBack(d) {
func( d );
}
myAsynchronousCall(param1, callBack);
}
doSomething(function(data) {
console.log(data);
});
Because your example includes a callback that is passed to the async call, the right way would be to pass a function to doSomething() to be invoked from the callback.
Of course if that's the only thing the callback is doing, you'd just pass func directly...
myAsynchronousCall(param1, func);
Async functions, a feature in ES2017, make async code look sync by using promises (a particular form of async code) and the await keyword. Also notice in the code examples below the keyword async in front of the function keyword that signifies an async/await function. The await keyword won't work without being in a function pre-fixed with the async keyword. Since currently there is no exception to this that means no top level awaits will work (top level awaits meaning an await outside of any function). Though there is a proposal for top-level await.
ES2017 was ratified (i.e. finalized) as the standard for JavaScript on June 27th, 2017. Async await may already work in your browser, but if not you can still use the functionality using a javascript transpiler like babel or traceur. Chrome 55 has full support of async functions. So if you have a newer browser you may be able to try out the code below.
See kangax's es2017 compatibility table for browser compatibility.
Here's an example async await function called doAsync which takes three one second pauses and prints the time difference after each pause from the start time:
function timeoutPromise (time) {
return new Promise(function (resolve) {
setTimeout(function () {
resolve(Date.now());
}, time)
})
}
function doSomethingAsync () {
return timeoutPromise(1000);
}
async function doAsync () {
var start = Date.now(), time;
console.log(0);
time = await doSomethingAsync();
console.log(time - start);
time = await doSomethingAsync();
console.log(time - start);
time = await doSomethingAsync();
console.log(time - start);
}
doAsync();
When the await keyword is placed before a promise value (in this case the promise value is the value returned by the function doSomethingAsync) the await keyword will pause execution of the function call, but it won't pause any other functions and it will continue executing other code until the promise resolves. After the promise resolves it will unwrap the value of the promise and you can think of the await and promise expression as now being replaced by that unwrapped value.
So, since await just pauses waits for then unwraps a value before executing the rest of the line you can use it in for loops and inside function calls like in the below example which collects time differences awaited in an array and prints out the array.
function timeoutPromise (time) {
return new Promise(function (resolve) {
setTimeout(function () {
resolve(Date.now());
}, time)
})
}
function doSomethingAsync () {
return timeoutPromise(1000);
}
// this calls each promise returning function one after the other
async function doAsync () {
var response = [];
var start = Date.now();
// each index is a promise returning function
var promiseFuncs= [doSomethingAsync, doSomethingAsync, doSomethingAsync];
for(var i = 0; i < promiseFuncs.length; ++i) {
var promiseFunc = promiseFuncs[i];
response.push(await promiseFunc() - start);
console.log(response);
}
// do something with response which is an array of values that were from resolved promises.
return response
}
doAsync().then(function (response) {
console.log(response)
})
The async function itself returns a promise so you can use that as a promise with chaining like I do above or within another async await function.
The function above would wait for each response before sending another request if you would like to send the requests concurrently you can use Promise.all.
// no change
function timeoutPromise (time) {
return new Promise(function (resolve) {
setTimeout(function () {
resolve(Date.now());
}, time)
})
}
// no change
function doSomethingAsync () {
return timeoutPromise(1000);
}
// this function calls the async promise returning functions all at around the same time
async function doAsync () {
var start = Date.now();
// we are now using promise all to await all promises to settle
var responses = await Promise.all([doSomethingAsync(), doSomethingAsync(), doSomethingAsync()]);
return responses.map(x=>x-start);
}
// no change
doAsync().then(function (response) {
console.log(response)
})
If the promise possibly rejects you can wrap it in a try catch or skip the try catch and let the error propagate to the async/await functions catch call. You should be careful not to leave promise errors unhandled especially in Node.js. Below are some examples that show off how errors work.
function timeoutReject (time) {
return new Promise(function (resolve, reject) {
setTimeout(function () {
reject(new Error("OOPS well you got an error at TIMESTAMP: " + Date.now()));
}, time)
})
}
function doErrorAsync () {
return timeoutReject(1000);
}
var log = (...args)=>console.log(...args);
var logErr = (...args)=>console.error(...args);
async function unpropogatedError () {
// promise is not awaited or returned so it does not propogate the error
doErrorAsync();
return "finished unpropogatedError successfully";
}
unpropogatedError().then(log).catch(logErr)
async function handledError () {
var start = Date.now();
try {
console.log((await doErrorAsync()) - start);
console.log("past error");
} catch (e) {
console.log("in catch we handled the error");
}
return "finished handledError successfully";
}
handledError().then(log).catch(logErr)
// example of how error propogates to chained catch method
async function propogatedError () {
var start = Date.now();
var time = await doErrorAsync() - start;
console.log(time - start);
return "finished propogatedError successfully";
}
// this is what prints propogatedError's error.
propogatedError().then(log).catch(logErr)
If you go here you can see the finished proposals for upcoming ECMAScript versions.
An alternative to this that can be used with just ES2015 (ES6) is to use a special function which wraps a generator function. Generator functions have a yield keyword which may be used to replicate the await keyword with a surrounding function. The yield keyword and generator function are a lot more general purpose and can do many more things then just what the async await function does. If you want a generator function wrapper that can be used to replicate async await I would check out co.js. By the way co's function much like async await functions return a promise. Honestly though at this point browser compatibility is about the same for both generator functions and async functions so if you just want the async await functionality you should use Async functions without co.js.
(I recommend just using async/await it's pretty widely supported in most environments that the above strikethrough is supported in.)
Browser support is actually pretty good now for Async functions (as of 2017) in all major current browsers (Chrome, Safari, and Edge) except IE.
Take a look at JQuery Promises:
http://api.jquery.com/promise/
http://api.jquery.com/jQuery.when/
http://api.jquery.com/deferred.promise/
Refactor the code:
var dfd = new jQuery.Deferred();
function callBack(data) {
dfd.notify(data);
}
// do the async call.
myAsynchronousCall(param1, callBack);
function doSomething(data) {
// do stuff with data...
}
$.when(dfd).then(doSomething);
You can force asynchronous JavaScript in NodeJS to be synchronous with sync-rpc.
It will definitely freeze your UI though, so I'm still a naysayer when it comes to whether what it's possible to take the shortcut you need to take. It's not possible to suspend the One And Only Thread in JavaScript, even if NodeJS lets you block it sometimes. No callbacks, events, anything asynchronous at all will be able to process until your promise resolves. So unless you the reader have an unavoidable situation like the OP (or, in my case, are writing a glorified shell script with no callbacks, events, etc.), DO NOT DO THIS!
But here's how you can do this:
./calling-file.js
var createClient = require('sync-rpc');
var mySynchronousCall = createClient(require.resolve('./my-asynchronous-call'), 'init data');
var param1 = 'test data'
var data = mySynchronousCall(param1);
console.log(data); // prints: received "test data" after "init data"
./my-asynchronous-call.js
function init(initData) {
return function(param1) {
// Return a promise here and the resulting rpc client will be synchronous
return Promise.resolve('received "' + param1 + '" after "' + initData + '"');
};
}
module.exports = init;
LIMITATIONS:
These are both a consequence of how sync-rpc is implemented, which is by abusing require('child_process').spawnSync:
This will not work in the browser.
The arguments to your function must be serializable. Your arguments will pass in and out of JSON.stringify, so functions and non-enumerable properties like prototype chains will be lost.
There is one nice workaround at http://taskjs.org/
It uses generators which are new to javascript. So it's currently not implemented by most browsers. I tested it in firefox, and for me it is nice way to wrap asynchronous function.
Here is example code from project GitHub
var { Deferred } = task;
spawn(function() {
out.innerHTML = "reading...\n";
try {
var d = yield read("read.html");
alert(d.responseText.length);
} catch (e) {
e.stack.split(/\n/).forEach(function(line) { console.log(line) });
console.log("");
out.innerHTML = "error: " + e;
}
});
function read(url, method) {
method = method || "GET";
var xhr = new XMLHttpRequest();
var deferred = new Deferred();
xhr.onreadystatechange = function() {
if (xhr.readyState === 4) {
if (xhr.status >= 400) {
var e = new Error(xhr.statusText);
e.status = xhr.status;
deferred.reject(e);
} else {
deferred.resolve({
responseText: xhr.responseText
});
}
}
};
xhr.open(method, url, true);
xhr.send();
return deferred.promise;
}
What you want is actually possible now. If you can run the asynchronous code in a service worker, and the synchronous code in a web worker, then you can have the web worker send a synchronous XHR to the service worker, and while the service worker does the async things, the web worker's thread will wait. This is not a great approach, but it could work.
let result;
async_function().then(r => result = r);
while (result === undefined) // Wait result from async_function
require('deasync').sleep(100);
In Node.js it's possible to write synchronous code which actually invokes asynchronous operations.
node-fibers allows this. It's a 3rd party native extension provided as an npm module.
It implements fibers/coroutines, so when a specific fiber is blocked waiting for asynchronous operation, the whole program events loop doesn't block - another fiber (if exists) continues its job.
With fibers your code would look like this:
var Fiber = require('fibers');
function doSomething() {
var fiber = Fiber.current;
function callBack(data) {
fiber.run(data);
}
myAsynchronousCall(param1, callBack);
// execution blocks here
var data = Fiber.yield();
return data;
}
// The whole program must be wrapped with Fiber
Fiber(function main() {
var data = doSomething();
console.log(data);
}).run();
Note, that you should avoid it and use async/await instead. See below a note from the project readme https://github.com/laverdet/node-fibers:
NOTE OF OBSOLESCENCE -- The author of this project recommends you avoid its use if possible. The original version of this module targeted nodejs v0.1.x in early 2011 when JavaScript on the server looked a lot different. Since then async/await, Promises, and Generators were standardized and the ecosystem as a whole has moved in that direction.
I'll continue to support newer versions of nodejs as long as possible but v8 and nodejs are extraordinarily complex and dynamic platforms. It is inevitable that one day this library will abruptly stop working and no one will be able to do anything about it.
I'd like to say thank you to all the users of fibers, your support over the years has meant a lot to me.
Using Node 16's worker threads actually makes this possible, The following example the main thread is running the asynchronous code while the worker thread is waiting for it synchronously.
Not that is is very useful, but it at least does vaguely what the original question asked by waiting for asynchronous code synchronously.
const {
Worker, isMainThread, parentPort, receiveMessageOnPort
} = require('worker_threads');
if (isMainThread) {
const worker = new Worker(__filename);
worker.on('message', async () => {
worker.postMessage(await doAsyncStuff());
});
} else {
console.log(doStuffSync());
}
function doStuffSync(){
parentPort.postMessage({fn: 'doStuff'});
let message;
while (!message) {
message = receiveMessageOnPort(parentPort)
}
return message;
}
function doAsyncStuff(){
return new Promise((resolve) => setTimeout(() => resolve("A test"), 1000));
}
One thing people might not consider: If you control the async function (which other pieces of code depend on), AND the codepath it would take is not necessarily asynchronous, you can make it synchronous (without breaking those other pieces of code) by creating an optional parameter.
Currently:
async function myFunc(args_etcetc) {
// you wrote this
return 'stuff';
}
(async function main() {
var result = await myFunc('argsetcetc');
console.log('async result:' result);
})()
Consider:
function myFunc(args_etcetc, opts={}) {
/*
param opts :: {sync:Boolean} -- whether to return a Promise or not
*/
var {sync=false} = opts;
if (sync===true)
return 'stuff';
else
return new Promise((RETURN,REJECT)=> {
RETURN('stuff');
});
}
// async code still works just like before:
(async function main() {
var result = await myFunc('argsetcetc');
console.log('async result:', result);
})();
// prints: 'stuff'
// new sync code works, if you specify sync mode:
(function main() {
var result = myFunc('argsetcetc', {sync:true});
console.log('sync result:', result);
})();
// prints: 'stuff'
Of course this doesn't work if the async function relies on inherently async operations (network requests, etc.), in which case the endeavor is futile (without effectively waiting idle-spinning for no reason).
Also this is fairly ugly to return either a value or a Promise depending on the options passed in.
("Why would I have written an async function if it didn't use async constructs?" one might ask? Perhaps some modalities/parameters of the function require asynchronicity and others don't, and due to code duplication you wanted a monolithic block rather than separate modular chunks of code in different functions... For example perhaps the argument is either localDatabase (which doesn't require await) or remoteDatabase (which does). Then you could runtime error if you try to do {sync:true} on the remote database. Perhaps this scenario is indicative of another problem, but there you go.)
This ability of promises includes two key features of synchronous operations as follows (or then() accepts two callbacks).
When you get the result, call resolve() and pass the final result.
In case of error, call reject().
The idea is that the result is passed through the chain of .then() handlers.
const synchronize = (() => {
let chain = Promise.resolve()
return async (promise) => {
return chain = chain.then(promise)
}
})()
I wondered the same thing and noticed that the currently best answer contains the right idea in my mind for most use cases, but forgets to mention a couple of things. When using a global variable to lock execution, we're talking about Semaphores, and there are some packages which implement those (my recommendation: async-sema). I think this makes it a little simpler and cleaner.
import { Sema } from 'async-sema'
const sema = new Sema(1) // allow only one concurrent process
async function doSomething() {
var data;
await sema.acquire();
// only one process gets inside here
data = await myAsynchronousCall(param1);
sema.release();
return data;
}
The advantage is obviously that the rest of your program can still do other things asynchronously, only the single block is kind of forced to be synchronously. Disadvantage is that you have to be careful what and where to lock, try/catch/finally possible errors, etc.
You can also convert it into callbacks.
function thirdPartyFoo(callback) {
callback("Hello World");
}
function foo() {
var fooVariable;
thirdPartyFoo(function(data) {
fooVariable = data;
});
return fooVariable;
}
var temp = foo();
console.log(temp);
The idea that you hope to achieve can be made possible if you tweak the requirement a little bit
The below code is possible if your runtime supports the ES6 specification.
More about async functions
async function myAsynchronousCall(param1) {
// logic for myAsynchronous call
return d;
}
function doSomething() {
var data = await myAsynchronousCall(param1); //'blocks' here until the async call is finished
return data;
}
The module-scope variable "output" refuses to be overwritten by the async function "retrieveTextWrapper", and I cannot figure out why. My objective is to output the text on StackOverFlow's homepage. retrieveTextWrapper successfully scrapes this information, but I can't seem to assign this content to the output variable. What am I doing wrong? How can I print the scraped information from the main() function?
Note: I am using electron version 3.0.4 because bypassing CORS is less of a pain on that version.
const {BrowserWindow, app} = require('electron')
output = "this should be overwritten by the retrieveTextWrapper method"
async function main(){
navigate();
win.openDevTools();
await win.webContents.once('dom-ready',retrieveTextWrapper);
console.log(output);
//prints "this should be overwritten by the retrieveTextWrapper method"
}
function navigate() {
win = new BrowserWindow({width:900,height:900});
win.loadURL(`https://stackoverflow.com/`);
}
function retrieveText(){
return `document.querySelector("*").innerText`;
}
async function retrieveTextWrapper(){
output = await win.webContents.executeJavaScript(retrieveText().replace("*", "#content"));
}
app.on('ready',main)
win.webContents.once() does not return a promise (since interfaces generally don't accept both callbacks and return a promise at the same time).
Therefore await doesn't wait for the asynchronous operation to complete. Therefore, you're looking at output before its value has been reassigned. await only does something useful when you await a promise that is connected to the asynchronous operation you're trying to wait for.
To confirm this timing issue, add a unique console.log() statement before and after the await win.webContents.once('dom-ready',retrieveTextWrapper); and inside of retrieveTextWrapper and then you can see the sequencing of these log messages.
Yep, everything changes as it should within retrieveTextWrapper function. And your explanation makes a lot of sense. However, is it possible to wait for the callback to finish (using some other syntax aside from await)? That way, I can use the updated value for other operations in the main function?
You have a couple options.
You could "promisify" win.webContents.once() so you could then use await with it.
You could put the callback inline and put the rest of your code in main inside that callback (a classic way of dealing with asynchronous operations).
Here's an example of promisifying win.webContents.once():
function waitForDomReady() {
return new Promise((resolve, reject) => {
// may want to check if document already has dom-ready and resolve immediately
win.webContents.once('dom-ready', resolve);
});
}
And, you could then use it like this:
async function main(){
navigate();
win.openDevTools();
await waitForDomReady();
await retrieveTextWrapper();
console.log(output);
}
This assumes that the code in retrieveTextWrapper that calls win.webContents.executeJavaScript() does actually return a promise when it's done. If not, you have to promisify that too.
I am new to React Native and coding in general. I paid for some code on upwork and am having a hard time integrating it in my program.
async pullBatch(since){
let param = {
userScreenName: '?screen_name=google',
count: "&count=5",
retweets: "&include_rts=false",
replies: "&exclude_replies=false",
trim: "&trim_user=true",
since: "&max_id=" + since
};
let twitterRest = new TwitterRest(); //create a new instance of TwitterRest Class
let batch = await twitterRest.pullTweets(param); //pull the Google TimeLine
return batch;
}
pullTimeline(){
let timeLine = []
for(i = 0; i <= 2; i++){
let currentBatch = this.pullBatch("1098740934588751900")
console.log(currentBatch);
timeLine = timeLine.concat(currentBatch);
}
console.log(timeLine);
// timeLine = currentBatch
return(timeLine)
}
I believe that when running pullTimeLine() the program is returning an array of three promises. (I have also run the code with "await" before pullBatch(), but it is erroring out telling me await is a reserved word) This means I am making two mistakes:
I am not correctly understanding promises in JS or how they are resolved.
I am incorrectly concatenating the arrays.
I am constantly trying to learn, so while I greatly appreciate suggestions for code fixes, I also really would appreciate if you'd teach me about where my lapses in understanding lies.
Thank you
Let's break it down. You seem to understand that pullBatch is an async function, and so calling it will return a promise create by the twitterRest interaction.
The problem is that your call to pullBatch inside your for loop will not resolve these promise (which seems to be what you want to do). The easiest way is to use await for currentBatch, but as you tried, you got the reserved error. Basically you just need to also make pullTimeline async like this:
async pullTimeline(){
...
Just realise that once you do this, pullTimeline is now an async function that will also return a promise. So to use this function you need to either use .then(), for example:
pullTimeline().then(timeLine => {
// do something with your timeline here
})
Or if you are using it within another async function, you can use await.
const timeLine = await pullTimeline() // must be inside async function
Basically at some point in your calling chain, you will have to resolve a promise using .then(), or disregard the top level promise by making a top level async function. For example:
async useTimeline() {
const timeLine = await pullTimeline()
// do something with your timeline
}
// call the function above, and just disregard its promise
useTimeLine()
Just don't forget to handle errors somewhere. Either use a .catch() on your top level promise, or use try / catch around any of your await calls.
I don't have any problem in this question, I am just interested in how knex.js menaged to something.
In code, you can write something like this
let search = knex.table('users').select('something')
if(params.minprice) search.where('minprice', params.minprice)
if(something) search.something()
let result = await search
It works, but I don't get how did they menage to hold query execution until await occured? If we did await, it means function was async aka returned a promise. But in javascript, promise executes as soon as function that returned it is called, it does not care is there .then() or .catch(). Should not query execution start al line 1? What is more, when I log search, it is not a promise, but some kind of object, so how can it be awaited?
Can someone provide a simple example how to achieve such a behaviour?
I'm guessing that search contains a property named then, which is a function that initiates the search and also behaves similarly to the functionality of Promise.prototype.then.
E.g.:
// define Searchable
let Searchable = function() {
this.searchParam = 'param';
};
Searchable.prototype = {
setSearchParam: function(p) { this.searchParam = p; },
initiateSearch: async function() {
// lots of fancy searching
console.log(`Searching with param "${this.searchParam}"`);
return `search based on "${this.searchParam}"`;
},
then: async function(callback) {
// initiate the search:
let searchResults = await this.initiateSearch();
// behave kind of like `Promise.prototype.then`!
return callback(searchResults);
}
};
// now work with it:
(async () => {
let searchable = new Searchable();
searchable.setSearchParam('mySearchParam');
console.log('No search performed yet!');
// Here's the fancy usage you're concerned with (it invokes `searchable.then`):
let searchResult = await searchable;
console.log('RESULT:', searchResult);
})();
Calling await on some value will attempt to call value.then as if it were a function accepting a callback argument.
Knex query builder is mutable and thenable object.
So every time you call for example search.where(...) for that query builder, its internal state changes and stores that new where clause.
Query builder being thenable means that the object has .then() method and when you call await search it is actually pretty much equivalent with await Promise.resolve(search) which first executes thenable and converts it to promise which is then resolved or an exception might occur.
Thenable objects are actually pretty important part of promise spec providing interoperability API between promises and non-promise objects.