Pranav K

Yes working as originally expected when I tried Firefox (negligible lag between server and client timestamps, meaning the fetch request was sent immediately) , However the same not holding true when running both as seperate node processes on the same machine, almost as if the server.js is waiting for client.js main thread to get free before it starts running (noticeable timestamp defference)

@Kaiido, the setup I have tried on are running 2 different node process , and also tried running one as a node process (server) and one running in browser(client, chrome)

@Kaiido , can you share the exact code and your systen setup/config and how you are running them? Because even after using (t1 = Date.now(); while(Date.now() - t1 < duration) , I still see a 10 second difference between client's time log and server's time log, like before only. I too had set a duration of 10000 , 10s.

@Kaiido , the question was clear in nature, that I based the expectation of fetch API's behaviour on other Web APIs and how they work. The result however was different than expected, (which has been confirmed to be reproducible by making minor edit in the code, based on your particular machine), I see no reason for a closing the question, could it be reopened, so that someone who understands how it works could provide an explanation of the behaviour or the reason of design choice if it is expected behaviour

@Kaiido , It has already been reproduced by the user david (in this comment section) , and it is easily reproducible if you set the loop to be long duration enough , I didn't want to use any built-in delay function to cause any confusion. As stated already in the comments I have tried it on all configurations of browser and even different machines, seperating the codes entirely, all you have to do to reproduce is increase the loop count variable, if the loop runs for 30 seconds for you, then their will be a 30 seconds time difference in client and server

The Web API delegates the task to the run-time environment, so the fetch api shouldn't be bothered if the single main thread of javascript is busy , stuck in some loop, it should ideally , hit the server and get the response in the queue , whenever the call stack gets empty , the even loop should put it in

Completely agree with all the points by @Bergi , here is an example for others setTimeout(function() { console.log("Hello"); }, 3000); let sum = 0; for (let i = 0; i < 1000000000; i++) { sum += i; } console.log('loop over'), in this code hello world gets printed immediately after 'loop over' it doesn't wait for 3 seconds, it started its operation as soon as the line was executed , but outside the call stack , and thus was non blocking to others, however the fetch gets effected by the loop, when it could have started its request to the server, and server response could be put in queue

@Mike'Pomax'Kamermans , sure I will make edits in the post , however could you confirm if this is expected behaviour?

The comment isn't big enough to allow quoting documentation, however, it is in the spec that Web API calls like "set timeout" (just as an example) are seperate from the call stack of the js engine , so the timer of set timeout will run out then come in the queue , and if the js call stack is empty , the event loop pushed its callback in the stack , same goes for other APIs like fetch , took the example of set timeout, as it is better understood, the point being it expires outside of the js single thread , so likewise , expected the fetch to execute outside

@Mike'Pomax'Kamermans , yes I know javascript is single threaded, but the API is called before the loop, if the browser itself or the environment is not necessarily single blocking threaded, the fetch should have send the request while the loop runs in the single threaded js context, blocking it should have no effect on the API functioning

@Community , They behaviour from the experiment is different from the official documentation , the question aims at understanding if the behaviour of the javascript engine is faulty or are the documents not very clear

@David , but I have tried in multiple scenarios, where there shouldn't be any sharing of resources, like running on different machines, still the same result , most documents available online share the same information that the fetch will hit server immediately in the background without blocking (asynchronus, not waiting for response) but the experiment paints a different picture of the javascript engine, the asynchronous seems pretty useless this way adding no benifits

@David Did you account for the loop? It could be possible that you have a better machine so loop doesn't have longer duration for you? Increase the count of loop variable 1000.... To a higher value , So the loop is significantly longer duration, if the loops itself runs for a few milli seconds for you, it will be inconclusive , so increase loop variable

@David , what is generally the expected behaviour? Is it to immediately send the fetch request in background to the server?

@David , also tried running the code in different machines, server on one and client on another, still the same result

@David , running as different process , and yes, it seems i made an error in the code I shared here, will fix it, now the code should show time, instead of the literal string now

@Pointy , have tried running the client directly on chrome as well, still the same result

@Pointy, no both client and server running on node

@Pointy no same local machine, no virtual environments either, so could account for any latency , the loop runs much longer