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A lot of the constants associated with Audio Session programming are really four-character strings (Audio Session Services Reference). The same applies to the OSStatus code returned from functions like AudioSessionGetProperty.

The problem is that when I try to print these things out of the box, they look like 1919902568. I can plug that into Calculator and turn on ASCII output and it'll tell me "roch", but there must be a programmatic way to do this.

I've had limited success in one of my C functions with the following block:

char str[20];
// see if it appears to be a four-character code
*(UInt32 *) (str + 1) = CFSwapInt32HostToBig(error);
if (isprint(str[1]) && isprint(str[2]) && isprint(str[3]) && isprint(str[4])) {
    str[0] = str[5] = '\'';
    str[6] = '\0';
} else {
    // no, format as integer
    sprintf(str, "%d", (int)error);
}

What I want to do is to abstract this feature out of its current function, in order to use it elsewhere. I tried doing

char * fourCharCode(UInt32 code) {
    // block
}
void someOtherFunction(UInt32 foo){
    printf("%s\n",fourCharCode(foo));
}

but that gives me "à*€/3íT:ê*€/+€/", not "roch". My C fu isn't very strong, but my hunch is that the above code tries to interpret the memory address as a string. Or perhaps there's an encoding issue? Any ideas?

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6 Answers 6

up vote 7 down vote accepted

The type you're talking about is a FourCharCode, defined in CFBase.h. It's equivalent to an OSType. The easiest way to convert between OSType and NSString is using NSFileTypeForHFSTypeCode() and NSHFSTypeCodeFromFileType(). These functions, unfortunately, aren't available on iOS.

For iOS and Cocoa-portable code, I like Joachim Bengtsson's FourCC2Str() from his NCCommon.h (plus a little casting cleanup for easier use):

#include <TargetConditionals.h>
#if TARGET_RT_BIG_ENDIAN
#   define FourCC2Str(fourcc) (const char[]){*((char*)&fourcc), *(((char*)&fourcc)+1), *(((char*)&fourcc)+2), *(((char*)&fourcc)+3),0}
#else
#   define FourCC2Str(fourcc) (const char[]){*(((char*)&fourcc)+3), *(((char*)&fourcc)+2), *(((char*)&fourcc)+1), *(((char*)&fourcc)+0),0}
#endif

FourCharCode code = 'APPL';
NSLog(@"%s", FourCC2Str(code));
NSLog(@"%@", @(FourCC2Str(code));

You could of course throw the @() into the macro for even easier use.

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Ooh, that sounds really useful. It gives me an error "Expected expression" out of the box though, so I'll have to come back to this. –  Spencer Williams Jan 8 '13 at 20:05
    
Cleaned up to make it a little easier to use. It returns a char[] rather than a char*, and that seems to confuse things now. –  Rob Napier Jan 8 '13 at 20:41
    
excellent, thanks! –  Spencer Williams Jan 8 '13 at 21:58

Integer = 4 bytes = 4 chars. So to convert from integer to char * you can simply write:

char st[5];
st[0] = yourInt & 0xff;
st[1] = (yourInt >> 8) & 0xff;
st[2] = (yourInt >> 16) & 0xff;
st[3] = (yourInt >> 24) & 0xff;

To convert it back:

yourInt = st[0] | (st[1] << 8) | (st[2] << 16) | (st[3] << 24);
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I wrote this C function for my audio code ... it might be a tad naive, but it does the job for well enough for me:

NSString* fourCharNSStringForFourCharCode(FourCharCode aCode){

char fourChar[5] = {(aCode >> 24) & 0xFF, (aCode >> 16) & 0xFF, (aCode >> 8) & 0xFF, aCode & 0xFF, 0};

NSString *fourCharString = [NSString stringWithCString:fourChar encoding:NSUTF8StringEncoding];

return fourCharString; }
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In Swift you would use this function:

func str4 (n: Int) -> String
{
    var s: String = ""
    var i: Int = n

    for var j: Int = 0; j < 4; ++j
    {
        s = String(UnicodeScalar(i & 255)) + s
        i = i / 256
    }

    return (s)
}

This func will do the same like above in a third of the time:

func str4 (n: Int) -> String
{
    var s: String = String (UnicodeScalar((n >> 24) & 255))
    s.append(UnicodeScalar((n >> 16) & 255))
    s.append(UnicodeScalar((n >> 8) & 255))
    s.append(UnicodeScalar(n & 255))
    return (s)
}

The reverse way will be:

func val4 (s: String) -> Int
{
    var n: Int = 0
    var r: String = ""
    if (countElements(s) > 4)
    {
        r = s.substringToIndex(advance(s.startIndex, 4))
    }
    else
    {
        r = s + "    "
        r = r.substringToIndex(advance(r.startIndex, 4))
    }
    for UniCodeChar in r.unicodeScalars
    {
        n = (n << 8) + (Int(UniCodeChar.value) & 255)
    }

    return (n)
}
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char str[5];
str[4] = '\0';
long *code = (long *)str;
*code = 1919902568;
printf("%s\n", str);
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After figuring out a reverseStr function, this works. I'd really like to get a DRYer solution (like to wrap this in a method), but it serves for now. –  Spencer Williams Jan 8 '13 at 19:43

I suggest using a function like this:

static NSString * NSStringFromCode(UInt32 code)
{
    UInt8 chars[4];
    *(UInt32 *)chars = code;
    for(UInt32 i = 0; i < 4; ++i)
    {
        if(!isprint(chars[i]))
        {
            return [NSString stringWithFormat:@"%u", code];
        }
    }
    return [NSString stringWithFormat:@"%c%c%c%c", chars[3], chars[2], chars[1], chars[0]];
}

This will ensure that you don't end up with some random results for some FourCharCodes that are actual numbers like kCMPixelFormat_32ARGB = 32.

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