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int valueToWrite = 0xFFFFFFFF;
static char buffer2[256];
int* writePosition = (int* ) &buffer2[5];
*writePosition = valueToWrite;

//OR
* ((int*) &buffer2[10] ) = valueToWrite;

Now, I ask you guys which one do you find more readable. The 2 step technique involving a temporary variable or the one step technique?

Do not worry about optimization, they both optimize to the same thing, as you can see here. Just tell me which one is more readable for you.

or  DWORD PTR ?buffer2@?1??main@@9@4PADA+5, -1
or  DWORD PTR ?buffer2@?1??main@@9@4PADA+10, -1
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I find them equally readable but that's probably because I've been reading them for 30+ years. Oh yeah, and this is subjective and argumentative :-) –  paxdiablo May 31 '09 at 4:59
    
Why is this C question given a C++ tag? –  Jim In Texas May 31 '09 at 5:51
    
This is C++ code, you don't even need to cast in C –  toto May 31 '09 at 6:08
1  
On many machines, you are asking for a core dump due to misaligned data; &buffer2[5] is probably not aligned on a 2-byte, let alone 4-byte boundary, and there are many CPUs that object to being asked to read improperly aligned data. The second example isn't the same as the first - because the 10 means the data is 2-byte aligned, which may be sufficient (or may not - for many CPU types, an N-byte object (for N in 2, 4, 8, 16) needs to be N-byte aligned. –  Jonathan Leffler May 31 '09 at 19:47
    
I find the second one easier to read if only because I don't have to keep track of three different variables or find myself wondering what that magic number '256' is for. –  aib May 31 '09 at 23:04

9 Answers 9

up vote 19 down vote accepted
int* writePosition = (int* ) &buffer2[5]

Or

*((int*) &buffer2[10] ) = valueToWrite;

Are both incorrect because on some platforms access to unaligned values (+5 +10) may cost hundreds of CPU cycles and on some (like older ARM) it would cause an illegal operation.

The correct way is:

memcpy( buffer+5, &valueToWrite, sizeof(valueToWrite));

And it is more readable.

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2  
However if you /know/ you're on a platform with cheap unaligned accesses, then the memcpy option is likely to be slower. –  bdonlan May 31 '09 at 5:00
5  
I've just tested memcpy and it optimizes to a single MOV, which is pretty good :) So yea, memcpy is a good solution too. –  toto May 31 '09 at 5:30

Once you encapsulate it inside a class, it does not really matter which technique you use. The method name will provide the description as to what the code is doing. Thus, in most cases you will not have to delve into the actual impl. to see what is going on.

class Buffer
{
    char buffer2[256];
public:
    void write(int pos, int value) { 
       int* writePosition = (int*) &buffer2[pos];
       *writePosition = value;
    }
}
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1  
Nice idea indeed! Good C++ intuition here. –  toto May 31 '09 at 5:24

If I was forced to choose, I'd say 1. However, I'll note the code as presented is very C like either way; I'd shy away from either and re-examine the the problem. Here's a simple one that is more C++-y

const char * begin = static_cast<char*>(static_cast<void*>(&valueToWrite));
std::copy(begin, begin+sizeof(int), &buffer2[5]);
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1  
And I'm more used to C style casts. Nice use of const though, it's more verbose, the compiler must love you :) –  toto May 31 '09 at 5:16
    
The dual-static-cast-of-pointers for typesafety is unfortunately very messy, certainly my least favorite thing about c++ casting. And if you think my compiler loves me, you haven't what I do with templates... –  Todd Gardner May 31 '09 at 5:37

The first example is more readable purely on the basis that your brain doesn't have to decipher the pointer operations globed together.

This will reduce the time a developer looking at the code for the first time needs to understand what's actually going. In my experience this loosely correlates to reducing the probability of introducing new bugs.

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Bugs is related to line of code, not complexity of code. –  CDR Jun 9 '09 at 8:53

I find the second, shorter one easier to read.

I suspect, however, that this rather depends on whether you are the type of person that can easily 'get' pointers.

The type casting from char* to int* is a little awkward, though. I presume there is a good reason this needs to be done.

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Watch out -- this code probably won't work due to alignment issues! Why not just use memset?

#include <string.h>
memset(buffer2+10, 0xFF, 4);
share|improve this answer
    
You should use sizeof(int), rather than assuming int == 4 bytes –  Todd Gardner May 31 '09 at 5:05
    
Sadly, I tested memset and VC++ did a very bad job at optimizing it. I won't show the asm code because there's a scary imul in it ;) VC++ did a simple mov with memcpy heh. –  toto May 31 '09 at 5:19
    
Were you in release mode? Also keep in mind a mov takes many more clock cycles than a store operation. –  rlbond May 31 '09 at 5:47
    
Memset appears to be a compiler intrinsic in my version of VC++.. –  Crashworks Jun 9 '09 at 8:43

If you can afford to tie yourself to a single compiler (or do preprocessor hacks around compatiblity issues), you can use a packed-structs option to get symbolic names for the values you're writing. For example, on GCC:

struct __attribute__ ((__packed__)) packed_struct
{
  char stuff_before[5]
  int some_value;
}

/* .... */

static char buffer2[256];
struct packed_struct *ps = buffer2;
ps->some_value = valueToWrite;

This has a number of advantages:

  • Your code more clearly reflects what you're doing, if you name your fields well.
  • Since the compiler knows if the platform you're on supports efficient unaligned access, it can automatically choose between native unaligned access, or appropriate workarounds on platforms that don't support unaligned access.

But again, has the major disadvantage of not having any standardized syntax.

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Interesting technique bdonlan. I am not a user of GCC but that's pretty impressive. It probably doesn't work with an offset determined at runtime though. –  toto May 31 '09 at 5:13
    
Nope. But I believe (not /entirely/ sure) you can create a simple wrapper packed struct around just the int to get unaligned accesses portable across platforms supported by GCC. –  bdonlan May 31 '09 at 5:17

Most readable would be either variant with a comment added on what you're doing there.

That being said, I despise variables introduced simply for the purpose of a one-time use a couple of lines later. Doing most of my work in the maintenance area, getting dozens of variable names pushed in my face that are poor efforts not having to write an explanatory comment sets me on edge.

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Definitely:

* ((int*) &buffer2[10] ) = valueToWrite;

I parse it not in one but few steps, and that is why it is more readable: I have all steps in one line.

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