I cannot create vector of reference but I need to get similar functionality how can I get away with that
Basically I have the following setup.. I have lets say N vectors (N is small) and each vector itself may be large. I need to do some operations on all N factorial ways on these vectors, lets say 3 vectors are present A, B, C then I need to perform certain action on all orders.. A B C, A C B, B A C, B C A, C A B , C B A
one way would have been directly being able to store just the references and permute the vector of reference
other than that I can think we can store the size of vector in first element and then create a vector of iterators which have first element of each vectors but that is too messy
Same here. Asio is one field where they come in handy. E.g. sessions that have very flexible lifetimes/cancellation semantics. Async requests in the scope of other async requests etc. weak_ptr<> is very neat in that respect.
I mean I say that... but the code I linked you the other day does use shared_ptr albeit via std::enable_shared_from_this as it has tasks it spawns that in odd cases may complete after shutdown is called.
@sehe it isn't was just trying to replicate your results - I think the other difference is we're running different hardware and different operating systems
@JoshMenzel What was this in reply to (back in the day we had very helpful gifs: i.imgur.com/5zrvaV1.gif)
@JoshMenzel Sure. I was thinking of a flatbuffer to be "partitioned" into a sequence of spans. And never mutate (extracting should not alter the buffers).
@JoshMenzel I really don't believe that. Since the ratio of /creating message/ vs /sending to socket/ is so high (thousands) I would be surprised if that actually bottlenecked. Have you measured (if so, how?).
Oh, after burner: One thing I hate is that I seem to have underestimated the impact of that last refactoring. I was right that in terms of throughput it was nothing, but in terms of latency it surprsied me.
I think the async posts should add more latency which is simply not being measured now. I should move the probes for latency and maybe make them actually measure OTW roundtrips (easy, since it's local anyways). Then add proper statistical analysis. I
I feel I have to point out once more that I think the timing numbers are way too flattering. You actually only time the dispatch of tasks, no longer reflecting any true latency - but it will sure be there (if only in the post to another thread).
@JoshMenzel So, you're not measuring any IO latency. In fact, your're measuring how long it takes to queue async operations. That USED to be measurable, because it was copying large messages all the time. But now it's "yeah doing nothing takes little time"
@JoshMenzel I'm all for it
@JoshMenzel Never mind, just so I can perhaps save some mismatch in the work
During COVID lockdown(s) I tinkered on Jamulus which is software that enables live music making remotely. It uses UDP and you'd get an additional 20-30ms latency for just being on WiFi, but more importantly, the jitter would be through the roof.
@JoshMenzel In my code it already is. Not becaseu the async initiation takes time. Rather, because querying the shared_ptr<Message const> may take time (depending on platform and library vendor)
I agree that's what he /says/. But he's adding the pointees
I'd caution against decltype(auto) as it might deduce a reference, even though you take const& arguments (which will also bind to temporaries). So you risk the caller ending up with a dangling reference
So in c++17 you'd say `auto add = [](auto const*... args) { return (*args + ...); };`. Otherwise maybe `template <typename A, typename B> auto add(A const* a, B const* b) { return *a + *b; }` or even `return std::plus<>{}(*a, *b);`
But there's a semantic issue as well as pointers can be nullptr.
You can of course do something like that if you have a text-protocol. HTTP/SMTP are examples
But here you have a framed binary protocol, message length is known in advance, is likely more efficient to read all in on e go - except for extremely large cases, in which case you should probably just add some protocol to handle that
@Electrical_engineer_student In its own way, it works fine. It just doesn't actually do anything. You've told it to execute 0 times, and it dutifully does exactly that.
Certainly. If you have 200 clients, we don't need 200 threads. Neither do we need to Send on yet another temporary thread for each 200 connections every ~n seconds
In computer programming and software design, code refactoring is the process of restructuring existing computer code—changing the factoring—without changing its external behavior. Refactoring is intended to improve the design, structure, and/or implementation of the software (its non-functional attributes), while preserving its functionality. Potential advantages of refactoring may include improved code readability and reduced complexity; these can improve the source code's maintainability and create a simpler, cleaner, or more expressive internal architecture or object model to improve extensibility...
Ah, wiki: was a "macro". I think there was one for wiktionary as well
kk I just pushed: https://gist.github.com/sehe/a32a59096279d5fef99c9824a6da0168
Note the commit message though, @JoshMenzel
Integrated Client
- Message interface refactored to be less allocation intensive and
immutable for read operations
- Dropped ThreadSafeQueue alltogether
- WIP: needs checking of strands after making Send/SendMessages run on
the pool
- Move MessageTypes enum to prerequisites for now
When I wrote that comment, not everything was yet strandified, so I drop those comments as "to-review" reminders
The same thing is going on at the client, I added some notes (as well as in the git commit) so as not to forget to check that indeed everything is covered.
Those are the things that you cannot afford to "just trust" in c++. Because it might seem to run "fine" for years and then cause data loss when you didn't need it.
So, that's a mental attitude in C++: always do the work up-front. Don't be content when it "seems to work". If you can didn't reason out your concurrency model and checked all assumptions, you are willfully risking the bug. Even if you do, always run ASAN+UBSAN or Valgrind to check for things you missed :)
@JoshMenzel Mine neither. Well, currently not employed, but otherwise :) I admit I did have to - not because of coworker pressure, but rather because I wanted things to work.
@JoshMenzel Oh, rest assured, I've been called in on a weekend to debug performance issues with IIS hosted ASP.Net MVC application, because no one else on the team knew how to appraoch that.
Ended up attaching WinDbg and some extended logging features to figure out that domains were being recycled way faster than normal because of abnormal exception rates.
Well "abnormal". The programmers used them for flow control :)
Then, with a very popular seasonal banking service, the traffic is unforgiving.
@JoshMenzel The only thing I always remember is Agner Fog: agner.org/optimize Though some of it may be dated, nothing really loses its relevance: the hardware is still organized similarly
Things like cache lines, false sharing, prefetch, location of reference, small code (fits in CPU cache), branch prediction etc.
But I admit it has been >10years since I looked at that. I'm not on the cutting edge. I never reallyhave to hand-write assembly or the likes. But I do know when to use libraries that contain such tech.
Note that I sacrificed the "chained" insertion and extraction. That seemed okay because insertion is only ever possible for trivial and POD typoes (Not that you lacked a static_assert for triviality!), and if so, then you can always just put all the PODs in an aggregate struct instead of chaining.
Of course the only "missing feature" now is when you would have had "String" body content, followed by POD insertions.
@JoshMenzel In that case, I'd suggest a better format that allows you to mix text and binary fragments. Currently your whole premise is that client/server agree on a "maigcal" format, so the code doesn't need to know, but part of the extraction logic made it so the message cannot be immutable at that time (because extraction removes the taile nd of the body).
@JoshMenzel Have you considered using something off the shelf? BSON, JSON, Boost Serialization, Cap'n Proto, Protobuf etc? Oh msgpack
Not an issue. Your bespoke approach has serious limitations though. Don't ever think this will work portably because your wire formats are tightly coupled to your architecture. In fact, changing a compiler flag can change the wireformat, but specifically if you run a client on a different architecture, data is not interoperable.
Quick question: I'd like to hear your thoughts on when to use "State" versus "Status" when naming both fields such as "Foo.currentState" vs "Foo.status" and types, like "enum FooState" vs "enum FooStatus". Is there a convention discussed out there? Should we only use one? If so which one, and if ...
@JoshMenzel BSON and MsgPack reduce size considerably compared to JSON (but retain similar structure, so decoding them is pretty straightforward--in fact many JSON libraries also do BSON and/or MsgPack.
@JoshMenzel There are two fundamentally different uses for JSON. 1) things like config file. 2) things like REST interfaces. You can do config files for years without ever caring about speed at all. For a heavily loaded REST server (or similar) you start to care about speed in a hurry.
I'm not big on the details of msgpack, so I can't tell. I'd probably consider keeping the initiative on the top level protocol. And then leaving the blob to decode with msgpack
@JoshMenzel Liek that, e.g.
@JoshMenzel Consider using something more modern like nlohmann's library
For JSON I'd have a lot of trust in Boost's JSON library. I say that because I understand how it achieves low-allocation and streaming behaviours. Two of the things where most serialization libraries trip up
@JoshMenzel Protobuf is solid, but no elegant libraries exist. So that's a painful route IMO
short of going full gRPC, of course, which you certainly CAN do.
@JoshMenzel sure, it'll become text based. You could do it without the framing. But like I said before, I'd consider keeping the initiative. Always plan ahead (build in protocol version discriminators in your protocol so you can negotiate a compatible protocol and stay back-/forwards compatible e.g.)