well, dinner done and looked at that to-string-conversion code again. don't know how many C++ rules I've broken here? except for the pragma once, i know, but that's intentional.
@MrAnubis: Work is being in a place other than where you stay for atleast 8 hrs a day, sit in front of a computer, and pretend you are doing something important.
@MrAnubis: Work is being in a place other than where you stay for atleast 8 hrs a day, sit in front of a computer, and pretend you are doing something important.
@AlfPSteinbach : this statement - > typename a<T>:: template b<T> *Z , i am just saying typename in starting of statement in not required cause b<T> is templates class TYPE has already shown by previous template keyword before b<T>
but essentially, even though compiler knows it's a template (because you have told it), it doesn't know that it's guaranteed to be a type, unless you tell it.
a puzzle for you -> You are in a room with 3 switches which correspond to 3 bulbs in another room and you don't know which switch corresponds to which bulb. You can only teleport to the room with the bulbs and back once. You can NOT use any external equipment (power supplies, resistors, etc.). How do you find out which bulb corresponds to which switch?
There are a group of 1000 soldiers wearing t-shirts numbered from 1-1000. They were given a task of either opening/closing the doors of 1000 apartments of a army complex. Now the condition to open or close the door is if the number on the T-Shirt he/she is wearing is divisible by the door no, then he can do opening/closing operation on it. Meaning if it is opened then he/she does close the door and vice versa. At the operation, how many doors would be opened and closed :)
@awoodland Sees the number on T-shirt and the door num, and if it is divisible he can do an action on it or else he just leaves to the next door and so on
@awoodland Yes, there is a pattern in it
calculate the first 3-4 numbers manually, then we see a pattern to say which door is opened and which one is closed :)
I have small program using htmlcxx but when I try building the code it gives linker error.
I just downloaded the htmlcxx.084.zip, unzipped it and placed it in Dev-Cpp\include\c++\3.4.2\htmlcxx. The code does not give any build error but the linking fails.
[Linker error] undefined reference to `h...
imagine you needed to make linked list of 1mill elements, would you use a memory pool for allocation, so you have more contigious memory blocks, rather then alloc when you need?
@RMartinhoFernandes yea, I was just reading an article about hardware prefetcher and how it prefers contiguous memory block accesses or at least patterned accesses and things like trees and linked list, don't necessarily store things in a continguous fashion
One of the advantages of a linked list is the fact that there's no need to allocate memory for more elements than the list has. Using a memory pool would reduce that advantage somewhat.
Like many things in this business, it's a tradeoff you have to consider.
Another advantage is quick insertion or deletion in the middle, something where arrays don't quite cut it. Depending on the insertion and deletion patterns of the program, you could end up having linked nodes very far away from each other even using a contiguous pool of memory, and thus reducing the locality advantage of the pool.
@RMartinhoFernandes insertion and deletion in middle of array is O(1), if you use cursor gap technique. so it's not so much the array or list, as how you use it.
gah, editing. and those who have speakers or headphones on probably get a "ping!" each time I correct one character. but it takes too much time to learn to type correctly...
In computer science, a gap buffer is a dynamic array that allows efficient insertion and deletion operations clustered near the same location. Gap buffers are especially common in text editors, where most changes to the text occur at or near the current location of the cursor. The text is stored in a large buffer in two contiguous segments, with a gap between them for inserting new text. Moving the cursor involves copying text from one side of the gap to the other (sometimes copying is delayed until the next operation that changes the text). Insertion adds new text at the end of the fir...
@balpha That answer has more downvotes than the answer saying the opposites has upvotes. This is still an open discussion, despite a loud minority trying to force their opinion on the majority. What's been stamped as bad language in such discussions here is invariably what North-Americans consider bad, and what's considered not bad is what they consider not bad. That is wrong. I have, I do, and I will object to that.
Also, I have actually worked in the US, and I know this is all false pretense. They all swear on a daily base, and they all know that they do, they just pretend they don't.
2
And you see the results: A respectable regular of the community banned for a while for an out-of-context vote on something he has said half a year ago, to which nobody who was here objected. That is so stupid, it makes my toenails curl up in disgust.
4
You might just as well ask the mullahs for what's allowed here.
I have never even heard of function pointer linkage
as far as I know, a function pointer is a pointer, like an int pointer is a pointer and if it points to an int on the heap or one on the stack of a member function or an argument or anything it's all the same
This seems to work on the platforms I have tried:
#include <iostream>
// extern "C" linkage
extern "C" void foo(void (*fn_ptr)(int));
namespace {
struct bar {
static void f(int);
};
}
int main() {
// Usually works on most platforms, not guaranteed though:
foo(bar::f);
// ...
"Note: .... pointers-to-static-member-functions are usually type-compatible with regular pointers-to-functions. However, although it probably works on most compilers, it actually would have to be an extern "C" non-member function to be correct, since "C linkage" doesn't only cover things like name mangling, but also calling conventions, which might be different between C and C++. "
> Linkage from C++ to objects defined in other languages and to objects defined in C++ from other languages is implementation-defined and language-dependent. Only where the object layout strategies of two language implementations are similar enough can such linkage be achieved.
GCC will happily do function_type* p = [] {};, assuming extern "C" typedef function_type();.