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Why does the following not interpret the two chars as a group of 16 bits?

char c[2];
c[0] = 2;
c[1]= 2;
short a = short(c[0]);

I'd like two read the array as all 16 bits together? What is the fastest (latency) way to do this?

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C or C++? Pick one. –  Lightness Races in Orbit Jul 10 at 23:07
@LightnessRacesinOrbit changed it to C++ only. –  user3811839 Jul 10 at 23:43

5 Answers 5

You have to write into the actual short. You can do it like this:

short a;
unsigned char * p = reinterpret_cast<unsigned char *>(&a);

p[0] = 2;
p[1] = 2;
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Why do we not have "short" inside the reinterpret_cast brackets? unsigned char * p = reinterpret_cast<unsigned short *>(&a);? –  user3811839 Jul 10 at 23:45
@user3811839: Why? &a is already a short *. What we wanted was to get access at the individual bytes making up the short. –  Kerrek SB Jul 10 at 23:49
I understand that :) I thought the type inside the angled brackets was supposed to be your "destination type" (ie short in this case)? –  user3811839 Jul 11 at 8:27

The most portable way to get whatever the native byte ordering of the machine is:

char c[] = { whatever, from whatever source };
short s;
memcpy(&s, c + offset, sizeof (short));

Most optimizing compilers will turn this into the equivalent of

short s = *(short*)(c + offset); // C-style cast, equivalent to C++ reinterpret_cast

(which is just a single typically 16-bit memory access, extremely fast)

with the important distinction that the compiler is aware of the aliasing, no language rules are violated. The compiler also will do whatever is needful to handle alignment on architectures where that is important.

Portable code for specific byte ordering is even simpler:

short s = (c[offset + 1] << 8) | (uint8_t)c[offset]; // little-endian
short s = (c[offset] << 8) | (uint8_t)c[offset + 1]; // big-endian

and when the specified byte order matches the machine, the optimizer will again (with very high likelihood) generate the single 16-bit access instruction.

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Recommend char c[] --> char c[sizeof (short)]. –  chux Jul 10 at 23:20
@chux: I'm assuming the two elements grabbed could be a subset of the total data. –  Ben Voigt Jul 10 at 23:22
What is the purpose of the "|" bitwise OR, rather than addition? –  user3811839 Jul 16 at 20:30
@user3811839: This is fundamentally a bitwise operation. Place this byte in that set of bits, place the other byte in this set of bits, and use all the set bits from both. It's not a mathematical operation. You don't want carry, overflow, sign extension, or any of the other features of arithmetic operations. –  Ben Voigt Jul 16 at 23:43

You're taking the first char, which is 2, and then you're transforming that single value into a short. It's too late: by the time the cast occurs your code has totally forgotten about that other char. You only fed one of them into the cast.

You have to play with pointers to pretend to the compiler that you have a single object that's 16 bits wide, and you can do that with reinterpret_cast.

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Use a union! That way after you read the data into your chars, you can immediately treat that data as if it were already a short.

Depending on what you need, you may not even need to copy the short after, and just use the "short s" as is :)

    char c[2];
    short s;
c[0] = 2;
c[1] = 2;

short a = s;

In your other question, you asked why this was a problem in the first place.

When you access c[0], you're accessing a char. You'd hoped that the computer would "know" you wanted the surrounding data as well. The access of c[0] is explicitly saying that you only want to access the data in that single char.

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In C++, reading from an inactive union member is undefined behavior. –  Ben Voigt Jul 16 at 23:44
@BenVoigt Ty, that was interesting to read up on. Much appreciated. –  Michael Gazonda Jul 17 at 0:11

Because you are only assigning the value of c[0] to a. Your last line is identical to:

short a = c[0];

One way to do what you want is to copy c[0] and c[1] using bitwise operations:

short a = (short)(c[0] + (c[1] << 8));

Note that I cast the result to (short) since gcc converts bitwise results to int.

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You also need to mask or otherwise convert c[0] in case it is negative. –  Matt McNabb Jul 10 at 23:18
Matt's right, the "usual integral promotions" will cause sign extension. –  Ben Voigt Jul 10 at 23:19

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