The cost of throwing -- and catching -- an exception is GIGANTIC compared to boolean propogation or optional returns. In a case where safety is needed and you expect to recover, simply throwing an exception and catching it for basic error states is not preferable in the slightest.
Does anyone familiar with Qt framework know what is proper way to get file extension? I ask because QFileInfo::extension was deprecated without any comment about replacement
Want more gems from the minutes? I'm not going to quote random fragments because the longer discussions weren't as hilarious as last time, but here's one:
> Voutilainen asks what the replacement for std::iterator is, to which Van Eerd responded "typing".
The fact that to, return a nullopt, that one framework (kaguya) catches an exception and then translates it to a nullopt at THAT HIGH of a cost is a little absurd and for me a strike against using exceptions in code where recovery is a thing you'll probably end up doing.
(e.g., where a system can fail but it doesn't not necessarily mean your application goes down.)
That's useful, but for users expecting a T and also using auto, std::expected does not help too much either and still requires explicit annotation across its callsites.
@ThePhD if only you could have a function that would like take a variant and then a function taking the proper value typed as the result of the first one and return a variant of the result of that second function
@milleniumbug TBH, I actually like the (proper) C style approach to things, where you can check a thread-local error code for the function you just called. It's not the best but it was nice when I used it.
@BartekBanachewicz Because exceptions allow you to clearly separate the OK line of code from the OH FUCK! line of code. In case of variant, you later check if it's valid, but the separation is not implicit.
@ThePhD if only you could have a function that would like take a variant and then a function taking the proper value typed as the result of the first one and return a variant of the result of that second function
Like. If I have T result = compute_something<T>( 2 );, and it returns std::expected<T, std::fuck_you_error>, it should implicitly move / copy the result from the std::expected into my result (and throw if it's not available).
@Ell Exceptions are purported to be the default way to communicate errors across libraries. The other way is error codes. Error codes are insanely fast compared to throwing exceptions. If you are writing code that wants to recover from an exception (bad_access or otherwise), catching an exception is so expensive that it's prohibitive.
@Griwes I'd say Python, C and C++ are all decent (didn't use anything else for an extended period of time). Even though they have issues they are far from shit.
@BartekBanachewicz it is good at getting the job done, especially for people who don't care about programming and just need stuff to work (I don't count myself as belonging to those people)
@Ell My library used to throw exceptions for bad access because I could not return proper values. Catching these exceptions were the only way to continue flow control without crashing people's applications. Catching those exceptions were significantly more expensive than error codes; therefore, people who try to convince me to use exceptions as the default error propogation mechanic are clearly not interested in speed.
> Apples and oranges are in fact both delicious, sweet fruits. I don't see why people believe these to be the most incomparable things in the world. I prefer apples. How about you?
@R.MartinhoFernandes Perhaps, but (e.g., in my use case for a library that wraps a dynamic language's API) failure to retrieve / convert is a common case. And while to me just throwing is easy for me to do and makes my API boundaries nice, to them variant/optional/expected/error_code options are preferable.
Here's my check list: Is it user input? Then errors are expected. Is it external (say from a web request) input? Then errors are expected. None of the above? It's a bug.
It's not like my API isn't throwing exceptions: the default error handling mechanism is a throw, or a straight up abort() if exceptions are disabled. My only point is that in the case where failure can be an option it should be implemented with error codes or an error handling system first, which can then be optionally wrapped up into something that tosses exceptions (e.g., if speed is a concern or something else).
In the Lua case, I really don't see it happening in a finished product: any such failures will be bugs in the Lua code or bugs in the code that calls it.
Probably. But for me, one of the biggest scenarios was for checking if things existed using my API in C++. For example, int x = lua_vm["key1"]["key2"]["key3"];. In my API, if any of those keys don't exist, it will throw, which for the most part is fine. But, there was a need for people who wanted to use my API but not exactly crash if they accessed something that didn't exist, so rather than make them check if "key1" existed, and then "key2", and then slowly step their way down,
Right, exceptions are the wrong tool. That I reaffiirmed my belief that they are the wrong tool by observing one of the consequences (the gross speed deficit) is neither here nor there.
FWIW, I implemented things synonymous to map::find and map::count in my API before I investigated the speed; the good design came first, the benefits of it were further investigated later.
In ogonek I designed a (rather complex) custom error handling mechanism because dealing with broken input is a use case, not because exceptions made it slow.
(And exceptions are the default if you want to avoid the additional complexity)
Actually, I just realised it's actually layered in complexity.
Still, relating this all back to what @Ell was asking about, the reason I think that SG14 pushing a "Fast Exception Handling" or at least investigating how to improve it's performance is good, is that C++ enthusiasts and experts (myself included) generally bill exceptions as the go-to for keeping the library system and the errors easy to deal with.
There's the zero-complexity option: do nothing special and you get exceptions; then the simple option: pick one of four different pre-packaged (and extremely common) strategies; and then the full-blow option of writing the entire error handling code yourself.
If exceptions get faster, then people stuck in rock-hardplace situations with having to use a library that don't provide a customization point don't have to eat a really hard execution deficiency as well.
I was thinking, is there a case in the IEEE 754 floating point standard encoding where an operation between two of said floating point numbers would yield an error of 0.005 or more?
@R.MartinhoFernandes I dunno, I was just thinking in general. I had heard about the "don't use floating point for money" thingy and I wasn't sure why that was. I mean I suspected because it was due to errors in representations, but I couldn't make an example as to where it would matter
Now thinking about it, especially for very big numbers you have great errors
@Shoe In floating point you can multiply 0.01 with 0.01 and not lose any significant digit. In fixed point you run into trouble like this when the results have more digits than the operands.
0.01 * 0.01 = 0.00, with 100% error (or is it infinite? whatever, it's bad).
> If you’re coming from an imperative background, you may find yourself using vars everywhere when you start programming in Scala. This is ac- tually a scientifically recognized disease known as varmonia.