@JohannesSchaublitb By they way, why don’t you think const-by-default is sane for locals? – Looking at my current code base, almost no variable ever gets modified after its declaration (not counting loop variables)
@TomalakGeretkal Not exclusively, but mainly, yes. I do use accumulators and containers which are not const. But in the latter case, this is mainly because C++ doesn’t have (yet) a good way to initialize them with all their values
The entire purpose of a program is to take input and create output; without mutability, a program could do nothing. The usefulness is in the mutability of data. const seems to me to be just fine as something you bolt-on for added safety where you need it.
In the following C++ functions:
void MyFunction(int age, House &purchased_house)
{
...
}
void MyFunction(const int age, House &purchased_house)
{
...
}
Which is better?
In both, 'age' is passed by value. I am wondering if the 'const' keyword is necessary: It seems redundant ...
An object is -- in the program realm --, basically, a block of memory. A variable is -- in the realm of your C++ code -- your way to access and manipulate that object.
@Konrad: I see. The const seems utterly pointless there and only serves to make your code hard to read, but I do see your argument for a function like that.
@TomalakGeretkal It makes the code much easier to read and to maintain for me: const guarantees that the variable will never be mutated (I don’t use const_cast) which is a very nice guarantee to have. Granted, in a 3-line function this is not too useful but the longer the functions get, the better it is to ensure that your variables aren’t mis-appropriated later on
@KonradRudolph Why? It's just six more chars to write, you do have to think about modifying locals anyway, and your decision can always be changed later.
@sbi: that’s the point; my decision won’t change unless I have a serious design flaw in the code. The six characters more to write suck, which is why it would be nice if const were the default
hmm seems like i was wrong. union { int a; }; <- the unnamed union object is a variable, right? since we declared it!? what about void f(int) { } <- the unnamed int object. is it a variable!?
i think it just implicitly assumes that the unnamed object in void f(int); does not introduce a variable, even though it contains a declaration of an object
@TomalakGeretkal My experience has shown that this works very well for me. Of course, it’s a very special style of programming (and C++ doesn’t support it well). It’s trained like any other programming skill. Having worked a bit in functional languages has helped.
The standard says
A variable is introduced by the declaration of an object. The variable's name denotes the object.
But what does this definition actually mean?
Does a variable give a name to an object, i.e. are variables just a naming mechanism for otherwise anonymous objects? Or is a v...
@Konrad: I don't see how anything that's led you to program against the grain of the language and have to write six extra characters on almost every line and lengthen every line.... is in any way helpful.
@KonradRudolph What's typing six chars to you? Compared to the time I need to think about my code, typing is a non-issue. (If it was, I would be a better typist.)
@TomalakGeretkal But this method does have advantages. It makes the code much more robust because it ensures that no variable is reused. The foremost use is that it makes the code more self-documenting. It informs the reader that each variable has a sole purpose and won’t be changed, which in turn makes flow analysis (for the reader but potentially also for the compiler) easier.
@KonradRudolph I'm not saying it doesn't have advantages. I see the advantages. They're pretty obvious. I just don't like the disadvantages and the fact that -- as is at the very root of your issue -- it doesn't fit the language. It goes against the grain.
@TomalakGeretkal You’re right there. To be honest, I don’t practice this as religiously as I’ve made it seem here because ultimately it just doesn’t work in C++. C++ fundamentally relies on mutating values (+= and ++ versus +, assignment operator …) … but I try to.
@KonradRudolph I agree that const should be the default. So should be explicit. And a few others. C++, however, is a compromise between a 40 year old past of C, 25+ years of C++ history, and trillions of lines of legacy code.
@FredOverflow If you work there? I must have done something wrong then. When I was studying, I tutored informally for free, and when I went back later as a lecturer, I got payed by the hour, excluding cooking up and reviewing homework and written tests.
@FredOverflow (a) There is no such hard-and-fast rule, even in Latin. (b) "Bonus" here is borrowed from Latin, but you're using it as an English word. The plural in English is "bonuses". :)
@FredOverflow I have checked, and "bonus" in Latin is the masculine form of a word in the first/second declension, which means that, yes, the plural would be "bonī" (when masculine). But we're still not speaking Latin. :)
@FredOverflow She frowns upon dangling pointers and shared pointers, but doesn't mind employing the odd "smart pointer" implementation once in a while.
it's silly that the OP decides which answer is right. by the virtue of the fact that they did not know the answer (hence the question), they could not possibly be authoritative in the matter.
@TomalakGeretkal The rationale was that the OP knows the use-case best. And the “best” answer would be voted by the community. But I agree that this concept should be revisited. I’ve got the idea that a few of the original ideas just aren’t up for debate, no matter how they’ve turned out in practice.
@DanielTrebbien Do you have an example of that? I can’t imagine a case except when the original question is so bad that “no answer” is actually the best answer.
Hi all, What is the equivalent of strncpy in C++? strncpy works in C, but fails in C++.
This is the code I am attempting:
string str1 = "hello";
string str2;
strncpy (str2,str1,5);
In this case, the first answer (also the most upvoted & accepted answer, perchance mine) is wrong, and doesnt answer the question properly. All other answers are also wrong.
I didn't know that the std::string(const char*, size_t) constructor was like strncpy in that it stops at the first NUL character '\0'.
Errr... Wait. The C++ standard for that constructor says that the effect is "[to construct] an object of class basic_string and determines its initial value from the array of charT of length n whose first element is designated by s".
It says nothing about stopping at the first NUL char.
suppose the code does the following:
T *pointer = new T();
delete static_cast<void*>(pointer);
what is result? Undefined, memory leak, memory is deleted?
Thanks
You can static_cast pointers fine; reinterpret_cast -ing them is almost always wrong. You use reinterpret_cast on [the] objects [that you're pointing to] themselves, if you really really really must, but never on the pointer. Pointers of different types may have different sizes.
I often prefer statically linking the runtime too, tbh.
I get the benefits of modularity, but I like to just send someone my app and have it work without them frakking around on their machine with dependencies and whatnot.
It sounds as if you want to use a different allocator (not the C++ allocator), but have C++ construct into the memory regions that are allocated by that allocator.
I have been thinking that my auto_malloc_ptr template could be generalized to allow any malloc-like allocator interface to be used. It could be adapted to HeapAlloc/HeapFree, for example.
@DeadMG It's much easier that way, and Visual C++ 2010 has much better support for distributing the runtime DLLs alongside your executable so that you don't have to use the SxS. (I think the recommended approach is still to use SxS, but I don't really know; I've never released a program built in VC10)