@anand_v.singh I don't know tensorflow well enough to make suggestions on resource management patterns using it. But in general on windows favor the threadpool and then threads.
But that's from tensorflow, google hasn't been able to fix that
It's on their end because of how tensorflow is designed
Subprocess is a suggested workaround by the community and it can work quite well in linux, my application is to be cross platform (Windows and Linux not mac)
Anyways thank you for your time, if I can find a way to do this I will, or else looks like I will have to take the route of gPRC
In the end in tensorflow you have to use sessions, you can postpone it but not avoid it
What is a TensorFlow Session? A graph defines the computation. It doesn't compute anything, it doesn't hold any values, it just defines the operations that you specified in your code. A session allows to execute graphs or part of graphs.
Sorry that was just google of session
So I can't really get what I want without session
Whoever suggested to avoid sessions, I am not really sure they understand
How about str1 += "\"" + str2 + "\"";? Besides the typo of str instead of str1 those should do the same thing. But if you do it one at a time may as well use str1 += '"';.
if c++ is used for systems programming (and java, python are used for applications). surely most of the software work in this language has already been done? ie we have good operating ystems already
Our operating systems are terrible, operating systems are written in C and C++ is mostly used for applications. That last part is questionable since nobody really knows what people use C++ for.
@Permian systems programming can have a wider meaning then you seem to imagine. Server backend stuff, databases, games, software tightly interacting with hardware, custom protocols, drivers, etc.
Also most Operating System Kernels seem to use mostly C. C++ seems to find more applications in userland in general
Like I said server backend stuff, drivers, hardware interacting stuff, games, HFT and yes even some regular ass desktop apps (I wouldn't recommend it for front-end stuff though)
If I look at the job ads then it's mostly automotive and security, but that's biased because I look at job ads in Germany
well when you have custom server backend services or software that needs to communicate tightly with hardware (mostly periphery devices) via low level protocols you might use C++ (industrial automation or automotive mostly). And device drivers are, well device drivers for everything you plug into your PC.
I'm not saying C++ is always the best choice for all those things, but that's what it seems to be used for
You use C++ for the same programs as you would use Java. Most applications don't need performance and C++ is still a decent choice, assuming you are good at C++.
I find Java's inability to express custom value types very annoying, but maybe that's just me. If you are happy with Java stay with Java. Unless you absolutely need performance and are willing to put a huge amount of effort into it it's not worth switching.
The Java toolkits for Desktop seem to suck almost as much as the C++ ones. Modern interfaces with a lot of animations don't seem to work too well with them. Haven't really tried JavaFX, but neither seems anyone else. Also, having to ship the JVM is almost always a crummy UX
well we have a mix of boost asio and Qt for different parts
but sure, if you have layers upon layers of xml and json that you're processing and that's the main thing you do, then using C++ could just be making life hard for you for not much benefit
is he really going to get much of a perfomance improvement if he's just serving some content? With normal web stuff most of his latency is going to be the network
and he's probably not going to write his own storage backend but use some database or objectstore
@PeterT Depends heavily on what his back-end is doing (which he doesn't seem to have specified much). I've written some code that benefited from it, but certainly not all code would.
Then again, at least for me there didn't seem to be much penalty either--writing code with it isn't drastically slower than writing similar code in Python using Flask. In my case, I needed Websockets, which Flask doesn't support on its own, and adding it on is (or at least at the time was) fairly clumsy. Crow supports Websockets directly, so for me it was probably a bit easier than using Python would have been.
As far as performance goes, a lot of it is less about latency for an individual request, and more about the number of simultaneous requests you can service and still provide reasonable latency for each. Or looking at it from the other direction, how wimpy of a (virtual?) server can you get away with to carry a given level of loading. With little difference in development cost, saving a few bucks a month on hosting can be worthwhile.