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Jerry Coffin
Jerry Coffin
00:08
@KimJongUn In this case, I'd just use a const value. If you use a const reference, it'll actually create a temporary string object, and initialize the reference to refer to that object. No real gain over just creating and using the object directly.
Somn
Somn
01:01
Does anybody know how to use boost/safe_numerics with floating-point numbers? I tried calling safe<double>, but it appears that template specialization does not exist :/
Chimera
Chimera
I've been away from C++ for a long time and even back when I was using it, I don't think I'd fully understand the selected solution to this question:
https://stackoverflow.com/questions/617943/best-replacement-for-a-character-array

Anybody willing to help explain it to me?
I can't decipher what happens when a bytebuf is constructed.
 
1 hour later…
Mgetz
Mgetz
02:10
2 messages moved from Lounge<C++>
Somn
Somn
02:51
First of all, the accepted answer is horribly overcomplicated. The best solution is the one with the most upvotes, for the reasoning that:
- It uses standard containers
- It does not reinvent the wheel
- It is quick, simple, and to the point

std::vector<char> is the best choice for a variable-length char array for the reasons that:
- It can be easily indexed
- The length (a requirement of the question) can be easily found using std::vector::size()
Furthermore, why would you even want to wrap a vector if you are not going to change its fundamental properties?
Somn
Somn
03:15
To answer your original question, I will annotate the solution you referred to. Triple parentheses indicate where I added my own comments.

// wraps a vector. provides convenience conversion constructors
// and assign functions.
struct bytebuf {                                         /// "Byte buffer", referring to the storage of characters.
    explicit bytebuf(size_t size):c(size) { } /// The 'explicit' keyword specifies that arguments passed cannot be implicitly converted to size_t.
                                                                    The colon followed by 'c(size)' is a
Chimera
Chimera
03:33
Thank you @Somn
Somn
Somn
Happy to help :)
 
4 hours later…
northerner
northerner
07:31
Can std::lower_bound work with value being type mpz_class? How can I tell from reading the documentation? en.cppreference.com/w/cpp/algorithm/lower_bound
What does "const T& value" mean?
The first error is ` note: candidate: 'template<class _Tp> constexpr const _Tp* std::begin(std::initializer_list<_Tp>)'
90 | begin(initializer_list<_Tp> __ils) noexcept`
PeterT
PeterT
@northerner it can work with anything that you provide a comparator function for. Seems like your issue might be more with the container you your mpz_class instances in
 
9 hours later…
Lapys
Lapys
17:05
StackOverflow Chat has a new mobile version? 🤔 📱
Somn
Somn
17:37
@northerner "const T& value" can be read as "constant reference to 'value', which is of type 'T'"
I have found K&R/Stroustrup's technique of reading initializations backward to be the most effective in deciphering their type
Another rule of thumb is that 'const <type> <pointer/reference>' makes the declared variable constant, while '<type> const <pointer/reference>' makes the referenced/pointed-to variable constant
 
4 hours later…
Jerry Coffin
Jerry Coffin
22:00
@Somn Umm...no. const int &a and int const &a mean precisely the same thing. Likewise, with pointers const int *a and int const *a mean precisely the same thing. But with pointers you can also have int *const a, which is different (this makes the pointer itself const, but yo can still modify what it points at). You can also make both const: int const *const a is a const pointer to a const int.
Somn
Somn
22:21
Ah, you are right. My bad. I was trying to say that the placement of the specifier in relation to the pointer/reference matters, not the placement of the specifier in relation to the type.

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