# Is there a more efficient way to sort two numbers?

I want `dLower` and `dHigher` to have the lower and higher of two double values, respectively - i.e. to sort them if they are the wrong way around. The most immediate answer, it seems is:

``````void ascending(double& dFirst, double& dSecond)
{
if(dFirst > dSecond)
swap(dFirst,dSecond);
}

ascending(dFoo, dBar);
``````

But it seems like such an obvious thing to do I wondered if I'm just not using the right terminology to find a standard routine.

Also, how would you make that generic?

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Generic ? Template. –  Matthieu M. Nov 9 '10 at 15:49
In the context of sorting networks, I think this is called a "comparison-swap". Note that "compare-and-swap" is a completely different thing, so you're right that terminology is a bit tricky. –  Steve Jessop Nov 9 '10 at 16:07
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## 5 Answers

This is a good way of approaching it. It is as efficient as you are going to get. I doubt that this specific function has a generally recognized name. This is apparently called comparison-swap.

Generalizing it on type is as easy as:

``````template <typename T>
void ascending(T& dFirst, T& dSecond)
{
if (dFirst > dSecond)
std::swap(dFirst, dSecond);
}
``````

Corroborating this function:

``````int main() {
int a=10, b=5;
ascending(a, b);
std::cout << a << ", " << b << std::endl;

double c=7.2, d=3.1;
ascending(c, d);
std::cout << c << ", " << d << std::endl;

return 0;
}
``````

This prints:

``````5, 10
3.1, 7.2
``````
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Why not use std::sort() with a lambda or a functor?

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Because it would be like killing a gnat by employing an intercontinental H-bomb missile? –  Cheers and hth. - Alf Nov 9 '10 at 16:00
Really? I thought that once compiled it was optimized inlined by the compiler and then it would mean that it's just a "free implementation" available immediately and that works fine and efficiently in almost all cases. That's not like if intercontinental H-bomb missile were accessible to anybody... –  Klaim Nov 9 '10 at 16:16
try writing it out, see how your implementation of `ascending` looks next to the OP's. –  Steve Jessop Nov 9 '10 at 16:34
Ah ok what I didn't understood was that there is only 2 values, while I was thinking about a generic usage of "ascending". –  Klaim Nov 9 '10 at 16:37
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Playing the "extremely generic" game:

``````template <typename T, typename StrictWeakOrdering>
void comparison_swap(T &lhs, T &rhs, StrictWeakOrdering cmp) {
using std::swap;
if (cmp(rhs, lhs)) {
swap(lhs, rhs);
}
}

template <typename T>
void comparison_swap(T &lhs, T &rhs) {
comparison_swap(lhs, rhs, std::less<T>());
}
``````

This ticks the following boxes:

• uses a less-than comparator, which is more likely to be readily available for a user-defined type, since it's used in standard algorithms.
• Comparator is optionally configurable, and defaults to something sensible (you could use `std::greater<T>` as the default if you prefer and modify accordingly). It's also guaranteed valid for arbitrary pointers of the same type, which `operator<` isn't.
• Uses either a specialization of `std::swap`, or a `swap` function found by ADL, just in case the type T provides one but not the other.

There may be some boxes I've forgotten about, though.

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+1, but I would use default arguments instead of overloading. –  Steve M Nov 9 '10 at 16:41
@Steve M: Go ahead and try, bearing in mind that a function template cannot have default template arguments ;-p –  Steve Jessop Nov 9 '10 at 16:44
Ugh, I always forget about that! –  Steve M Nov 9 '10 at 16:47
@Steve M: So did I. My mnemonic is, "the standard defines two templates for a reason", but I always forget the mnemonic too until I actually try it and get the compiler error. –  Steve Jessop Nov 9 '10 at 16:49
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As you also asked,

Is there a more efficient way to sort two numbers?

Considering efficiency, you may need to write your own swap function and test its performance against std::swap.

Here is Microsoft implementation.

``````template<class _Ty> inline
void swap(_Ty& _Left, _Ty& _Right)
{   // exchange values stored at _Left and _Right
if (&_Left != &_Right)
{   // different, worth swapping
_Ty _Tmp = _Left;

_Left = _Right;
_Right = _Tmp;
}
}
``````

If you feel the condition `if (&_Left != &_Right)` check is not required, you can ommit it to improve the performance of the code. You can write your own swap like below.

``````template <class T>
inline void swap(T &left, T& right)
{
T temp = left;
left = right;
right = temp;
}
``````

For me it looks like improved performance slightly for 10 crore calls. Anyways, you need to measure performance related changes properly. Don't assume.

Some library functions may not run so fast as they are written considering generic usage, error checking etc. If performance is not critical in your application, it is recommended to use Library functions as they are well tested.

If performance is critical like hard realtime systems, there is nothing wrong in writing your own and use.

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Let me throw a special case in here that only applies if performance is a absolutely critical issue there and if float accuracy is enough: You could consider the vector pipeline (if your target CPU has one).

Some CPUs can get you the min and max of each component of a vector with one instruction each, so you can process 4 values in one go - without any branches at all.

Again, this is a very special case and most likely not relevant for what you're doing, but I wanted to bring this up since "more efficient" was part of the question.

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