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What's an efficient way to convert "unsigned char" array to its "unsigned short" counterpart? I usually use the following code snippet to do so.

#define CH_LINE_PIXELS       2291
#define SCANLINE_SIZE        57301
#define CH1_INDEX            2297
#define CH2_INDEX            4592
#define CH3_INDEX            6887
#define CH4_INDEX            9182

unsigned char* pUChar = new unsigned char[SCANLINE_SIZE];

unsigned short *pUS1, *pUS2, *pUS3, *pUS4;
pUS1 = reinterpret_cast<unsigned short *>(&pUChar[CH1_INDEX]);
pUS2 = reinterpret_cast<unsigned short *>(&pUChar[CH2_INDEX]);
pUS3 = reinterpret_cast<unsigned short *>(&pUChar[CH3_INDEX]);
pUS4 = reinterpret_cast<unsigned short *>(&pUChar[CH4_INDEX]);

unsigned short us1, us2;

for (unsigned int i = 0; i < CH_LINE_PIXELS; i++) 
    us1 = pUChar[CH1_INDEX + 2 * i];
    us2 = pUChar[CH1_INDEX + 2 * x + 1];
    pUS1[x] = us1 * 0x100 + us2;

    us1 = pUChar[CH2_INDEX + 2 * i];
    us2 = pUChar[CH2_INDEX + 2 * i + 1];
    pUS2[x] = us1 * 0x100 + us2;

    us1 = pUChar[CH3_INDEX + 2 * i];
    us2 = pUChar[CH3_INDEX + 2 * i + 1];
    pUS3[x] = us1 * 0x100 + us2;

    us1 = pUChar[CH4_INDEX + 2 * i];
    us2 = pUChar[CH4_INDEX + 2 * i + 1];
    pUS4[x] = us1 * 0x100 + us2;
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I see that you forgot to read the giant sidebar entitled "How to format". Notice that it doesn't say anything about using HTML tags... –  Cody Gray Jun 13 '11 at 8:34
Specifically, it says to *just select all your code and press the {} button. Please do that in the future. –  jalf Jun 13 '11 at 8:36
Note that using reinterpret_cast in this manner is implementation dependent: that is you cannot expect your code to behave the same way when compiled on a different compiler/platform. –  ereOn Jun 13 '11 at 8:37
Dear jalf Thank you for your kind remind on code format, I'll do in the future. –  GoldenLee Jun 13 '11 at 8:42
Dear ereOn, What's your suggestion on the removal of the compiler/platfor dependent "cast" operation? –  GoldenLee Jun 13 '11 at 8:46

2 Answers 2

up vote -1 down vote accepted

Addressing short on byte boundary may (or may not) cause alignment issues, depending on platform.

Also, multiplying is very ineffective, why not use shifting instead? (some compilers may optimize x * 0x100, but if they don't - it's a huge performance hit when all you want is just x << 8...)

Also, as noted, reinterpret_cast may not work as you expect it to.

I would suggest, since you do assignments anyway, to copy values from array of char to a separate array of short. It costs some memory, but will save you oh so much trouble with unexpected crashes and what else.

share|improve this answer
Dear littleadv, Thank you for your answer. To avoid boundary alignment problem, is it better and safer to use vector<unsigned char> and vector<unsigned short> to replace unsigned char*, and unsigned short* array? –  GoldenLee Jun 13 '11 at 9:00
"if they don't" - then they probably won't produce efficient code generally, so if you care about performance you need to turn on optimization, or get a better compiler. –  Steve Jessop Jun 13 '11 at 9:08
why the downvote? Did I write something wrong? @Steve - re your comment: I'm just stating a fact. Sometimes the programmer may not be in a position to be able to change a compiler. –  littleadv Jun 13 '11 at 17:07
I don't think that "multiplying is very ineffective" or "some compilers may optimize" are very accurate descriptions of the situation, so I don't think those are facts. It's possible that some day you'll find yourself manually optimizing a multiplication to a shift in C++ code, and seeing a significant improvement, but it isn't the norm. I also don't think it's worth a downvote -- to me, a shift expresses this bit-twiddling operation as well as, or better than, multiplication. So I'd use it, just not for the reason you give. –  Steve Jessop Jun 13 '11 at 20:32
@Steve - when you do shift - use shift. Multiplication overhead aside (which I disagree with you, respectively, on the dismissal of), it's a mere thing of code readability and reducing possibility of bugs (imaging writing x * 100 instead of x * 0x100, go find it later on). –  littleadv Jun 13 '11 at 20:58

Well first of all you should do:

us1 << 8 + us2 instead of multiplying by 0x100, because you want to move the first 8 bits in the upper positions, and shifting is faster then multiplication.

E.g. you have us1 = aaaaaaaa (8bits) and us2 = bbbbbbbb (another 8bits). Extending these chars to shorts would be simply padding them with 8 zeroes on the left.

Then the formula above would give you:

<< 8
+ 00000000bbbbbbbb

On the other hand you should allocate a new array of shorts for your results.

share|improve this answer
"shifting is faster then multiplication" - if your compiler is rubbish. –  Steve Jessop Jun 13 '11 at 9:09
Dear Steve, in this case, I'll take your advice. Thank you. –  GoldenLee Jun 13 '11 at 9:19
Dear Matyas, Thank you for your answer. Using shifting instead of multiplication, and don't let short pointer directly point to char array by decalring a separate short array instead. Your suggestion was almost the same as that of littleadv. Great minds think alike! I'll take your advice. Thank you all. –  GoldenLee Jun 13 '11 at 9:26

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