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How can the last two lines of one function be

printf("disk_free_blocks returning %llu\n",item_int3);
return (item_int3);

and out put

disk_free_blocks returning 233012428800

returning to calling function as

part_avail=disk_free_blocks(DiskParts[part_index].part_name,DISK_AVAIL);
if (DEBUG) printf("DiskParts[%d].part_name=%s has %llu free.\n",part_index,DiskParts[part_index].part_name,part_avail);

and output be

DiskParts[0].part_name=/dev/sda1 has 1084194816 free.

??

unsigned long long part_avail, item_int3;
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3  
Do we have to guess the contents of the rest of the code that you didn't show us? For example the type declarations of all participants in the puzzle. If you don't deem it worthy to include those then I'd say you need look no further. Your task is learn the importance of types in C. –  David Heffernan Jul 15 '11 at 19:35
1  
How is disk_free_blocks declared ? –  cnicutar Jul 15 '11 at 19:35
1  
Obvious question, but your return type for disk_free_blocks is defined as unsigned long long? –  dolphy Jul 15 '11 at 19:35

3 Answers 3

The two output numbers are:

0x00000036409F8000

and

        0x409F8000

It appears that the return type (which you haven't shown) isn't large enough to accomodate a 64-bit value, so the compiler simply truncates (which is the behavior required by the standard, for narrowing conversions on unsigned integers).


I tend to think these are both wrong: 233 billion blocks, with a 512 byte block, that is 100 TB. Not likely. 1 billion blocks is then around 512 GB, which might or might not match your actual /dev/sda1 free space.

unsigned long long part_avail, item_int3;

This doesn't make sense, since the usage of these two variables is in different scopes. Are there two variables with the same name? Or are you using global variables?

Possibly item_int3 inside the function is only 32 bits, printf reads past the end of the argument list during vararg processing, and the stack just happened to have 0x00000036 on it, so that got printed by the %llu specifier. When returned as an unsigned long long, the compiler properly zero-extends the value, and then the caller pushes the full 64-bit value onto the stack, which is retrieved and printed correctly during printf vararg processing of the %llu format code.

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1  
+1, Math strikes again –  dolphy Jul 15 '11 at 19:37
    
+1, it's really obvious with the hexadecimal numbers. Well played. –  Coeffect Jul 15 '11 at 19:42
    
unsigned long long disk_free_blocks(char *disk,int option) { –  c card Jul 15 '11 at 19:46
    
part_avail is declared in calling function, item_int3 in returning function, I pasted as that just to make sure there were no guesses on the two types of params in the code provided –  c card Jul 15 '11 at 19:59
    
disk_free_blocks() executes sprintf(command, "/bin/df -B 1 | grep %s ", disk); –  c card Jul 15 '11 at 20:00

The return value was truncated to 32 bits somewhere along the way. Perhaps disk_free_blocks is declared as returning an int?

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unsigned long long disk_free_blocks(char *disk,int option) { –  c card Jul 15 '11 at 19:51
up vote 0 down vote accepted

RESOLVED

disk_free_blocks() resided in a different file than process_copy_out(), the function making the call to disk_free_blocks.

The fix was adding a function prototype to inform the compiler.

Thank you everyone for your help.

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