Code c++:
person* NewPerson(void)
{
person p();
/* ... */
return &p; //return pointer to person.
}
Code C#:
person NewPerson()
{
return new person(); //return reference to person.
}
If i understand this right, exemple in c++, its not ok because the 'p' vill
go out of scope, and ...
@TonyTheLion I don't know how complete, but yes. Note MinGW(.org) and MinGW-w64 are not guaranteed ABI compatible. You can find my 32-bit toolchain build here: sourceforge.net/projects/mingw-w64/files/…
I think the idea of including a valediction at the front of the SO name isn't all bad, but it would require going through all old postings and fixing them, to to avoid double double occurrences.
Anyway we could discuss the cultural signals inherent in the designations of gender-specific organs. I think in English "pussy" that means "cat" which is a hunter, but also cozy animal that can snuggle up to you. While in Norwegian "mus" that means "mouse" which is prey, and not very social with humans...
does anyone of you knows a C++ Library that has a similiar programming "style" like C#? Qt is very near to the .NET Api Style and far away of the Standard Template Library (STL) style. But I am searching something very easy to use like C# or Java.
i think we need some basic classes: immutable string, stringbuffer, more versatile vector, so on. then their usage would be much like in languages like C# and Java. as i recall i got into deep conceptual trouble with how to implement common code for mutable and non-mutable vectors, it looked like jungle there...
@RMartinhoFernandes yes, i found the intrusive shared pointer in boost really helpful. but one extra concept there, one eventually needs also that an object can keep reference to an object it is part of, to keep that outer object alive. like e.g. a substring in a string
@Xeo stringbuffer is the mutable class that complements immutable string. when you need to change things you do that in stringbuffer. then final result convert to immutable string.
well sort of but that was what i meant yes. only more practical. not weighted down by all that internal locale stuff. instead bring locale functionality and anything else to it, as needed. or not.
@Xeo they have about zero overhead. e.g. function returning immutable string from literal, can do that in constant time and no dynamic allocation. very efficient.
@AlfPSteinbach That's the only inherent problems with our current std::string imho - no special handling for string literals, just because it's not possible to handle them specifically, because the language doesn't differ between "hi" and a char[3]
The assignment operator is only defined when you try to use it. If it then turns out your class has members that don't support assignment, the compiler will barf.
Note: A container calls allocator_traits<A>::construct(m, p, args) to construct an element at p using args. The default construct in std::allocator will call ::new((void*)p) T(args), but specialized allocators may choose a different definition. —end note
@DeadMG Could you by any change write your grammar down? It would be a nice exercise for me to compute FIRST and FOLLOW sets and the final parsing table
I sometimes write assert(("blah", condition)). Andrei thought that was silly, one should write assert( "blah" && condition ). I don't know, I don't find that latter natural.
@Xeo actually that's the thing i'm waiting for. after Scott Fahlman identified virtual copies as the basic tool in semantic networks, nothing's happened. for about 40 years now. it's scary. there's development in almost every other area than AI.
It's like, when you read a detective novel, in your mind you're creating a virtual copy of ALL you know about reality. So that reasoning about things in the novel you can apply knowledge about e.g. usual behavior of cats, or whatever. You're just inheriting all that stuff from the real world model, with the book's drama as a slightly modified virtual copy.