So? You should handle this in the copy ctor anyway.
After a copy, other should be perfectly swappable with *this.
You will either copy a pointer (if it's not a dynamic resource, or something) directly, or do a deep copy.
And if you have a dynamic resource and not doing deep copy, then your class is already misbehaving on copying, so why are you writing operator= instead of fixing bugs. :P
Because it's easier (less code) to use strncpyin that case when you know the size of the destination buffer than trying to use copy with iterators offset in terms of the destination budffer size.
ok, I just implemented a simple string class of my own, but I'm not sure of how I'd make the operator= work, anybody care to have a look. Comments are welcome!
@TonyTheLion Let's say I have a tony::string that holds "Hello, world!". That's 14 characters (including the \0), so it would be allocated in your constructor with new char[14].
Now if I want to assign "This is a test of strings." to that tony::string, the inner C-string will not have enough space allocated to hold the entire message.
I'm not too familiar with the math behind the fourier transform but I'm trying to use spectral synthesis to make terrain. I've got my algorithm down in mathematica but I can't find a way to take the inverse fourier of a 2d array in C++
I'm thinking to use FFTW but I'm not sure how to use it to take the inverse fourier
Now, the splainin'. What @Maxpm said would be relevant if you had operator= that takes const char* directly.
But you don't, so all char*s are being wrapped up by the implicit conversion before the operator= even starts.
Now when you make a copy, you do a deep copy of the pointer (i.e. you create a new buffer, and copy the contents over).
That means both the original and the copy are valid objects, with invariants intact, after the copy. That's good.
Now you have assignment. It has T& operator=(T) signature — it takes a string instance by value.
Which means a copy will be made (let's forget about copy ellision), so you've got valid, but temporary automatic object with the string you want to assign to the current instance.
The buffer in the current instance you want to get rid of. So what do you do? You swap the pointers.
Now the current instance is the string you wanted, and the other object has the old buffer.
operator= returns, destroying the other object (and by extension, the old buffer), and you've got perfectly new string ready to be used.
(You've got a bug in your previous code — default ctor doesn't initialise the field properly, so it segfaults after the swap.)
(ideone.com/xqSEm — main with less noise, so it's more visible what actually happens.)
Am I making sense, or is nonsense coming out of this?
You assign Y to X. X has a buffer allocated, so you need take care of that. You could try to copy the characters from one buffer to another, but as has been pointed out before, the sizes likely won't match up. So, the easiest way is to just use the already allocated buffer in Y, and throw away the one in X.
i have a really noobish c++ pointer question but here it goes...how can i set an int to a int that a pointer is pointing to ex... int *x; .... int b = x;
Yeah, we've got bitset and dynamic_bitset for bitmaps, if you need them.
Specialisation is uncondtional, so if you want a vector of bytes, you need vector<char>, and that's not intuitive when you want to store logical values.
Hi guys, just a quickie, does anyone know why getline() seems to stop reading when it finds a space character, even tho i deliberately used the overload with a delimiter, which i set to '\n'?
I know one can use an index into an array to specify length of the array for a marshaled C-array. However, I would like to do it a little different.
I would like the size to be a prefixed Int16. If I make it an entry of the array, I can't control the marshaled size of the count specifier.
So, i...
@CatPlusPlus Why is Y going up silly? Think of oldschool math, where you have a paper with X and Y axis, and then Z goes inside the paper. I do think it makes sense.