So I went to a bank branch to pick up an ATM card for the solar farm company. The lady at reception was like 'your dad picked up his on Saturday morning'. I have only been to this branch once. Maybe there are people who find this personal touch welcoming, I find it scary.
Hong Kong's status as a financial powerhouse is under threat - and the world could suffer.
Virtual/financial world maybe. I wonder whether the real world, - ones like us who provide housing and utility (electricity) will too? Or real world will benefit when the virtual world suffers?
It's a complex problem, and complex problems interest me.
@Mikhail unbounded future-proofing. "If I can make this code consider all possibilities ever then no humand being will ever have to write code to solve this problem again"
^I don't understand that one in a professional setting, mostly because it means more work. I could never imagine myself assigning myself more work to do...
I'm somewhat personally offended by this code I got from a vendor that is not be named. Instead of code examples they packaged together a wxWidgets code that wraps ~10 C styles functions. The code has a few modern C++ features (std::threads, shared poitner) but is both over engineered and non very functional. the C API has properties that are set with setParam(handle,id,value). These guys decide to wrap every parameter so that the handle is special reference counted item...
So you can do Param B = A; and now both of them will change the same device
Among the problems here is that you don't know what owns what or which parameters are affecting which hardware device. Its also substantially more lines of code than just calling the C api. Feels like a violation of the rule of zero, and I'm personally offended by the abuse of mutable state (or really any use of mutable state).
Also 3 level deep inheritance hierarchies for classes that only have one final class. How the fuck does that happen?
So, when I was a kid I once saw that kind of monstrosity in a code that was supposed to convert between different NSG formats (CASAVA, Illumina). Except it supported very few formats. This code would crash NetBeans and MS's Intellisense. Deep down inside it converted letters ('A','T','G','C') to their binary representation. One of the senior engineers wrote a perl script that ran 20x faster.
Also, inexperience. I was taught the whole inheritance-heavy OOP stuff in university. When i was doing a half year project on integrating a physics-sim engine I royally fucked that up. 4 levels of inheritance, abstract classes and virtual functions everywhere and actually couple of instances of diamond-inheritance.
dynamic_cast in the hot path was really some face-palm worthy stuff. Anyway, my point is you have to learn somehow, I guess. Some people have the luxury of learning on projects with no consequence, others apparently don't
@NanashiNoGombe It's casting a function pointer, which I find suspicious.
std::to_string is a function, and (std::string (*)(int)) is a cast of that to std::string (*)(int), which is a pointer to a function that takes an int and returns a std::string.
@EtiennedeMartel nothing too much suspicious. He was in the help chat and it was essentially about auto fptr = &std::toString; obviously being ambiguous
@Mikhail pretty much, I suspect the reason it was used was that keyboards at the time were pretty limited. So my guess is that the system they were using didn't support a better character
@Mikhail Most of personal code is over-engineered somewhat from a "leave no stone unturned" POV. So I want something that will work for multiple threads - I'll design it work for a million threads when in reality it's never going to be more than a few hundred. Algorithm X is a fast algorithm, but there pathological inputs which never happen in real life but can make it take a long time. I'll spend the time to deal which those correctly and reasonably efficiently - and even add tests for them.
For corporate code, I lean a bit more practical. So if I need a unique identifier for every event, I'll use an incrementing 64-bit counter with the assumption that it will never overflow and alias the lower-numbered events. But this is something that I'd probably design out of my own personal code.
@Mysticial I doubt I'd design this out of my personal code, unless I honestly had a reason to believe the code might continue to be used for a long time. Even assuming you incremented at 4 GHz, it would take over 137 years of continuous operation to overflow a 64-bit number...
@Mikhail Depends on the failure case and the requirements. But I typically just use the pointer address since those are guaranteed to be unique for any one point in time.
Obviously only works for the lifetime of the process.
@Mikhail That's why I said it depends on the requirements. The usecase I usually have is that there won't be a lot alive at one given time, but infinite non-overlapping instances.
The kind of over engineering I'm getting pissed off about isn't ricing your code for teh performance, or compliance. Its when you support complicated syntax by fully implementing the rule of 5.
I have a long const* char var and need to declare another variable of the same length. What's the best way to do this? e.g. const char var2[strlen(var)] I'm not sure if I should use an array or pointer?