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I did not write this code, but I would like to use it and understand exactly what it is doing.

unsigned int j;
if (fread(&j,sizeof(unsigned int),1,stdin) != 1) {
  if (feof(stdin)) {
    fprintf(stderr,"# stdin_input_raw(): Error: EOF\n");
  } else {
    fprintf(stderr,"# stdin_input_raw(): Error: %s\n", strerror(errno));
printf("raw: %10u\n",j); 
return j;

I do know that the code is reading unisgned integers from the stdin, but in my tests the output j isnt the integer I wrote into the stdin by hand.

So I would like to know what the code is doing and how I may change it to return the correct input.

Ps: I am using Visual Studio C, not C++ on a Windows machine.

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Of course it's not what you've typed: you are reading the data in binary mode. – dasblinkenlight May 21 '14 at 10:03
so can you give me a hint how i can validate the correctness of the input ? is it just the number i typed in in binary form ? – Reallyor May 21 '14 at 10:05
No, it's the bytes of the ASCII characters representing the number that you have typed. For example, if you typed 1234, your program will see 0x31323334 - the codes of characters '1', '2', '3', and '4'. – dasblinkenlight May 21 '14 at 10:08
Thank you very much. But the Output is neither 0x31323334 nor the decimal of this 825373492. the outcome is 875770417. can you explain me why ? – Reallyor May 21 '14 at 10:11

2 Answers 2

up vote 2 down vote accepted

I don't have enough reputation points to reply to your comment on your question but the reason you get "875770417" instead of "825373492" when you type 1234 is the following:

875770417(dec) = 0x34333231

825373492(dec) = 0x31323334

If you look closely you will see that the bytes in the hex values are backwards (each two characters in the hex is a byte). This is because you are on a little endian machine. The bytes were written to stdin as '1' '2' '3' '4'. This is how a little endian machine would write 875770417 to memory, and when it reads the same sequence into a register it will get that integer, not the one you assumed was correct.

As a note little endian means you write the least-significant bytes to the lowest address memory locations so 0x1A2A3A4A would be layed out as |4A|3A|2A|1A|, where left is lowest address and right is the highest address. In your example you had |31|32|33|34 in memory so you read in 0x34333231

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Thank you alot :) – Reallyor May 21 '14 at 10:29
Yep no problem. – user2482551 May 21 '14 at 10:33

In what way doesn't it work?

I would suggest that using an unsigned int is perhaps not the best thing to do if you want the data to be portable, as the size of an int is not fixed; something like a uint32_t may be better suited.

Similarly, the code as written assumes the byte-order of the data is the same as the host.

Also, replacing sizeof(unsigned int) with sizeof j would lead to fewer bugs.

If it is failing, then a hexdump of the input data, and the output of the program would be useful.

To form a test input, you could use something like Perl's pack function.

It would be instructive to experiment with this on something like a 32-bit, 64-bit machine, and on a x86 (little endian), and ppc (big endian).

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