Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm beginner in C Programming and Now learning concepts of Pointers. Here's my code -->>

`#include<stdio.h>
 int main()
 {  
    char t='s';
    int a=10;
    float s=89;
    void *ptr;

    ptr =&s;
    printf("%c\t",*((char*)ptr));
    printf("%d\t",*((int*)ptr));
    printf("%f\t",*((float*)ptr));
    return 0;
  }`

My question is When I deferenced a void pointer which points to the Floating Point number into Char then why the output is Blank Space and for Integer it is 1118961664. I wish to know that what's going on in the Byte Level and Is it depends on Alignment of Bytes and Architecture!!

share|improve this question
4  
"I wish to know that what's going on in the Byte Level". The thing that's going on is called Undefined Behavior and you don't start your learning with this thing. –  n.m. Jun 28 '14 at 15:39
5  
@n.m. upvoted, although I do think that wanting to know how things are implemented (possibly) is natural and positive. –  Benjamin Gruenbaum Jun 28 '14 at 15:41
1  
@BenjaminGruenbaum yes it is natural. Doesn't mean it's the right thing to do. –  n.m. Jun 28 '14 at 15:46
    
Sorry but What do you mean by "You don't start your learning with this thing " . Actually I'm not start learning direct from Undefined Behavior. I know What is void pointer and What's the correct way to deferenced it but I'm curious to know What exactly is this Undefined Behavior !! and Why my code leads to Undefined Behavior. and I'm glad that fedemp answered exactly what I asked .. @n.m. –  monsterspy Jun 28 '14 at 16:15
1  
"What exactly is this Undefined Behavior". I recommend using a Web search for this one. "Why my code leads to Undefined Behavior". You can cast an object pointer to void* and then back to the original type only. Cast it to a different type, and your program has UB. –  n.m. Jun 28 '14 at 16:45

2 Answers 2

up vote 4 down vote accepted

Often, the float s variable is 4 bytes long and its value (89) is represented in IEEE 754 format. For simplicity, let's assume this.

The first printf (char) will use the first byte of the original float variable s (because one C char = 1 byte). Here the first byte means the byte located in the lowest memory position of the 4 bytes of float s. Yes, this is dependent on the machine's byte alignment. The output is blank most likely because the first byte corresponds to an ascii control charater (for example 0).

The second printf, assuming that an int is 4-bytes long in your machine/compiler, will take the same 4 bytes as the third printf but will print them as an integer (note the difference between integers and IEEE 754 floating point numbers). It turns out that the IEEE 754 representation of 89 corresponds to a "1118961664" integer. This will also be dependent on byte alignment.

The third printf is doing the right thing, it will use the bytes where s's value (89) is stored, and interpret them as a floating point number. It should print 89.0. This does not depend on byte alignment.

If the size or representation of floats were different the details would change (how many bytes come from where, and what number is printed by the second printf) but the behavior would be similar. Note also that in principle the first two printf calls have undefined behavior.

share|improve this answer
2  
Aha, regarding the size and representation of float s, it should say "on most systems" or "most likely". It turns out that IEEE 764 is specified in an "optional annex" of the C standard. See Wikipedia, C basic types for details. Curious to know if there's any compiler out there that uses a different representation for single-precision floating point variables. –  fedemp Jun 28 '14 at 15:56
    
Thank You sir . . I got my answer. –  monsterspy Jun 28 '14 at 16:01

float numbers (that is of type float) occupy 4 bytes. In this expression *((char*)ptr)) the first byte of s is interpretated as a character. In expression *((int*)ptr)) all four bytes of s are interpretated as an integer provided that sizeof( int ) equal to 4.

As internal representation of float and int are different you get different vresults.

share|improve this answer
2  
@Chrono Kitsune When i said about floats I meant objects of type float. You are using constant of type double. doubles and floats have different sizes. –  Vlad from Moscow Jun 28 '14 at 15:45
4  
@VladfromMoscow Can you show me where in the specification it says that floats are 4 bytes? –  Benjamin Gruenbaum Jun 28 '14 at 15:47
1  
@ChronoKitsune 2.0 is double not float –  ouah Jun 28 '14 at 15:51
    
@Benjamin Gruenbaum AFAIK the float type matches the IEC 60559 single format and if I am not mistaken it fit in 4 bytes.. –  Vlad from Moscow Jun 28 '14 at 15:53
1  
The point behind the question asked by @Benjamin is the fact that ISO C does not require a specific format for floating-point. It encourages the usage of IEC 60559 in Annex F, stating that an implementation conforming to that standard may define __STDC_IEC_559__. Implementations need not define that macro, whether they conform to the specifications in Annex F or not, but it will only be defined by implementations that conform. In other words, there is no guarantee IEC 60559 is even being used. It could be sheer coincidence that the values match for that number on that platform. –  Chrono Kitsune Jun 28 '14 at 16:46

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.