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I often use references to simplify the appearance of code:

vec3f& vertex = _vertices[index];

// Calculate the vertex position
vertex[0] = startx + col * colWidth;
vertex[1] = starty + row * rowWidth;
vertex[2] = 0.0f;

Will compilers recognize and optimize this so it is essentially the following?

_vertices[index][0] = startx + col * colWidth;
_vertices[index][1] = starty + row * rowWidth;
_vertices[index][2] = 0.0f;
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Why do you think that the second version is 'more optimized' than the first one? You might find out that the first block of code can actually be faster than the second in different circumstances (overloaded '[]', reference being implemented as a pointer in a register...) –  David Rodríguez - dribeas Mar 29 '10 at 8:27
It would indeed seem to make more sense to ask if the second snippet can be optimized to the first (common subexpression elimination, I think). –  visitor Mar 29 '10 at 9:02

3 Answers 3

up vote 8 down vote accepted

Yes. This is a basic optimization that any modern (and even ancient) compilers will make.

In fact, I don't think it's really accurate to call that you've written an optimisation, since the move straightforward way to translate that to assembly involves a store to the _vertex address, plus index, plus {0,1,2} (multiplied by the appropriate sizes for things, of course).

In general though, modern compilers are amazing. Almost any optimization you can think of will be implemented. You should always write your code in a way that emphasizes readability unless you know that one way has significant performance benefits for your code.

As a simple example, code like this:

int func() {
    int x;
    int y;
    int z;
    int a;

    x = 5*5;
    y = x;
    z = y;
    a = 100 * 100 * 100* 100;

    return z;

Will be optimized to this:

int func() {
    return 25

Additionally, the compiler will also inline the function so that no call is actually made. Instead, everywhere 'func()' appears will just be replaced with '25'.

This is just a simple example. There are many more complex optimizations a modern compiler implements.

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+1 for "You should always write your code in a way that emphasizes readability". Don't try micro-optimization like this unless you have profiled your code and measured that you got a problem at this point. That being said, the OP's use of a reference to get rid of one index in the following expressions could be considered a "readability optimization" in itself, so I'm content. ;-) –  DevSolar Mar 29 '10 at 7:43
The "amazingness" is actually depends on compiler and hardware. –  n0rd Mar 29 '10 at 10:23

Compilers will even do more clever stuff than this. Maybe they'll do

vec3f * vertex = _vertices[index];

*vertex++ = startx + col * colWidth;
*vertex++ = starty + row * rowWidth;
*vertex++ = 0.0f;

Or even other variations …

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Naive execution of that one would almost certainly be slower. You just created dependencies between the three assignments where none existed before. –  jalf Mar 29 '10 at 10:05
That also looks fast to me. The dependencies may take time but there are additional calculations and memory writes that can be interleaved. –  MSalters Mar 29 '10 at 15:09

Depending on the types of your variables, what you've described is a pessimization.

If vertices is a class type then your original form makes a single call to operator[] and reuses the returned reference. Your second form makes three separate calls. It can't necessarily be inferred that the returned reference will refer to the same object each time.

The cost of a reference is probably not material in comparison to repeated lookups in the original vertices object.

Except in limited cases, the compiler cannot optimize out (or pessimize in) extra function calls, unless the change introduced is not detectable by a conforming program. Often this requires visibility of an inline definition.

This is known as the "as if" rule. So long as the code behaves as if the language rules have been followed exactly, the implementation may make any optimizations it sees fit.

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What if operator[] is fairly trivial, like return data[index];, and is declared inline? –  Thomas Mar 29 '10 at 7:39
@Thomas: Then paragraphs four and five might apply. –  Charles Bailey Mar 29 '10 at 7:42
It's the "might" that I'm wondering about ;) –  Thomas Mar 29 '10 at 7:48
@Thomas: I'm not quite sure what you're asking; I don't think it's possible to answer in any more detail what might happen without looking at particular implementations. –  Charles Bailey Mar 29 '10 at 7:50

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