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Say I had this snippet of code:

#include <cmath>

// ...

float f = rand();
std::cout << sin(f) << " " << sin(f);

As sin(f) is a well defined function there is an easy optimisation:

float f = rand();
float sin_f = sin(f);
std::cout << sin_f << " " << sin_f;

Is this an optimisation that it's reasonable to expect a modern C++ compiler to do by itself? Or is there no way for the compiler to determine that sin(f) should always return the same value for an equal value of f?

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Unless sin is defined in the same compilation unit, the compiler does not know how sin is implemented, so at best this would happen at link time. –  Thomas Jan 24 '13 at 19:58
@Thomas Not necessarily. Several compilers treat functions of certain names specially because they know they're defined in the standard library, and the standard guarantees something about them. There's also compiler-specific function attributes that user-defined headers can use to declare themselves pure, though I don't know if this knowledge is used for optimization. –  delnan Jan 24 '13 at 20:03
The optimization is indeed done with gcc. –  Marc Glisse Jan 24 '13 at 20:04
If I was a compiler writer I certainly would. –  Peter Wood Jan 24 '13 at 20:04
Part of the problem is knowing that std::ostream::operator<< didn't change the value of f. –  aschepler Jan 24 '13 at 20:06
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2 Answers

up vote 16 down vote accepted

Using g++ built with default optimization flags:

float f = rand();
40117e: e8 75 01 00 00          call   4012f8 <_rand>
401183: 89 44 24 1c             mov    %eax,0x1c(%esp)
401187: db 44 24 1c             fildl  0x1c(%esp)
40118b: d9 5c 24 2c             fstps  0x2c(%esp)
std::cout << sin(f) << " " << sin(f);
40118f: d9 44 24 2c             flds   0x2c(%esp)
401193: dd 1c 24                fstpl  (%esp)
401196: e8 65 01 00 00          call   401300 <_sin>  <----- 1st call
40119b: dd 5c 24 10             fstpl  0x10(%esp)
40119f: d9 44 24 2c             flds   0x2c(%esp)
4011a3: dd 1c 24                fstpl  (%esp)
4011a6: e8 55 01 00 00          call   401300 <_sin>  <----- 2nd call
4011ab: dd 5c 24 04             fstpl  0x4(%esp)
4011af: c7 04 24 e8 60 40 00    movl   $0x4060e8,(%esp)

Built with -O2:

float f = rand();
4011af: e8 24 01 00 00          call   4012d8 <_rand>
4011b4: 89 44 24 1c             mov    %eax,0x1c(%esp)
4011b8: db 44 24 1c             fildl  0x1c(%esp)
std::cout << sin(f) << " " << sin(f);
4011bc: dd 1c 24                fstpl  (%esp)
4011bf: e8 1c 01 00 00          call   4012e0 <_sin>  <----- 1 call

From this we can see that without optimizations the compiler uses 2 calls and just 1 with optimizations, empirically I guess, we can say the compiler does optimize the call.

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I'm fairly certain GCC marks sin with the non-standard pure attribute, ie __attribute__ ((pure));

This has the following effect:

Many functions have no effects except the return value and their return value depends only on the parameters and/or global variables. Such a function can be subject to common subexpression elimination and loop optimization just as an arithmetic operator would be.


And so there is a very good chance that such pure calls will be optimized with common subexpression elimination.

(update: actually cmath is using constexpr, which implies the same optimizations)

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Just to add to this, MSC knows about a few such functions and can generate the according code inline. –  Ulrich Eckhardt Jan 24 '13 at 20:12
constexpr does not imply pure. It's possible to implement a conforming constexpr that randomly throws exceptions for certain inputs. –  Mooing Duck Jan 24 '13 at 20:19
gcc also optimizes if you only include <math.h> which doesn't have an attribute, it knows about them internally, and marks sin as "const" unless you pass -frounding-math where it is only "pure". –  Marc Glisse Jan 24 '13 at 20:25
It's worth noting that __attribute__((pure)) is a gcc extension, not a part of the C or C++ standard. Other compilers probably have similar extensions, but don't count on it without checking. –  dspeyer Jan 24 '13 at 21:10
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