Here is my code :

#include <stdlib.h>

#define LEN 2

int main(void)

    char num1[LEN],num2[LEN];   //works fine with
                                //char *num1= malloc(LEN), *num2= malloc(LEN);
    int number1,number2;
    int sum;

    printf("first integer to add = ");

    printf("second integer to add = ");

    //adds integers
    number1= atoi(num1);
    number2= atoi(num2);
    sum = number1 + number2;

    //prints sum
    printf("Sum of %d and %d = %d \n",number1, number2, sum);

    return 0;

Here is the output :

first integer to add = 15
second integer to add = 12
Sum of 0 and 12 = 12

Why it is taking 0 instead of first variable 15 ?

Could not understand why this is happening.

It is working fine if I am using

char *num1= malloc(LEN), *num2= malloc(LEN);

instead of

char num1[LEN],num2[LEN];

But it should work fine with this.

Edited :

Yes, it worked for LEN 3 but why it showed this undefined behaviour. I mean not working with the normal arrays and working with malloc. Now I got that it should not work with malloc also. But why it worked for me, please be specific so that I can debug more accurately ?

Is there any issue with my system or compiler or IDE ?

Please explain a bit more as it will be helpful or provide any links to resources. Because I don't want to be unlucky anymore.

  • Did you know you can scanf integer values and thus not need to use atoi? – crashmstr Sep 10 '14 at 18:36
  • Maybe a bug in atoi, because of the possible memory misalignment (ie not at a good 32 bit start address) of num1? Just a guess – ControlAltDel Sep 10 '14 at 18:41
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    Nice well presented first question. Note: num1 is too small to hold "15" which needs 3 char. – chux - Reinstate Monica Sep 10 '14 at 18:42
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    "why it showed this undefined behaviour. I mean not working with the normal arrays and working with malloc." This is, sadly, the very definition of undefined behaviour: it may appear to work, it may appear to not work, it may break silently hours later when your program is off doing something totally unrelated. You cannot, and should not, ever rely on "undefined behaviour" to be consistent, predictable, nor sane. Explanations exist, but the best explanation is simply to avoid UB. – nneonneo Sep 10 '14 at 19:59

LEN is defined as 2. You left no room for a null terminator. In the array case you would overrun the array end and damage your stack. In the malloc case you would overrun your heap and potentially damage the malloc structures.

Both are undefined behaviour. You are unlucky that your code works at all: if you were "lucky", your program would decide to crash in every case just to show you that you were triggering undefined behaviour. Unfortunately that's not how undefined behaviour works, so as a C programmer, you just have to be defensive and avoid entering into undefined behaviour situations.

Why are you using strings, anyway? Just use scanf("%d", &number1) and you can avoid all of this.

  • @SachinPanwar: It doesn't. You are exceptionally unlucky that it appeared to work, because it meant that you didn't find out that it does not work in general. – nneonneo Sep 10 '14 at 19:55
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    (There is a technical explanation, which is that most malloc implementations round the allocation up to at least a multiple of 4 bytes, and frequently up to 16 bytes; consequently, malloc(2) usually returns up to 16 bytes of usable space. But if you're running on an embedded system, it may very well decide that you get exactly two bytes of usable space, and then your program explodes (possibly literally).) – nneonneo Sep 10 '14 at 19:57
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    It "worked" because malloc() typically allocates in block of memory (say 16 bytes chunks or more), so if you ask for 2 you got more. It is TERRIBLE practice to depend on this 'slop space', because one day it won't be there. Don't do that. – John Hascall Sep 10 '14 at 19:57
  • @nneonneo: Thankyou so much for this explanation. And I got it before that it should not work fine I just want to know why it worked. – Sachin Sep 10 '14 at 20:05
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    I have no idea. Something about stack layout, which is very compiler-specific. Again, if you're expecting C to fail when you trigger undefined behaviour, then you're in for a nasty surprise. C can do anything the hell it wants once you've triggered undefined behaviour. This includes being inconsistent. – nneonneo Sep 10 '14 at 20:15

LEN is 2, which is enough to store both digits but not the required null terminating character. You are therefore overrunning the arrays (and the heap allocations, in that version of the code!) and this causes undefined behavior. The fact that one works and the other does not is simply a byproduct of how the undefined behavior plays out on your particular system; the malloc version could indeed crash on a different system or a different compiler.

Correct results, incorrect results, crashing, or something completely different are all possibilities when you invoke undefined behavior.

Change LEN to 3 and your example input would work fine.

I would suggest indicating the size of your buffers in your scanf() line to avoid the undefined behavior. You may get incorrect results, but your program at least would not crash or have a security vulnerability:

scanf("%2s", num1);

Note that the number you use there must be one less than the size of the array -- in this example it assumes an array of size 3 (so you read a maximum of 2 characters, because you need the last character for the null terminating character).

  • but whenever we define normal array like this arr[10] and give 10 values then here why we don't think about last character for the null terminating character. And it works fine here. – Sachin Sep 10 '14 at 19:34
  • Doing scanf("%2s", num1); is good, but it still leaves a pitfall ... if the person enters 123 <return>, then it puts 1 and 2 and \0 in num1, BUT it leaves the 3 (and the newline from return) sitting out there for whatever your next read is to grab -- probably causing a mysterious misfunction. – John Hascall Sep 10 '14 at 20:04
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    @JohnHascall Indeed -- still, at least that behavior is defined, which is a step forward. – cdhowie Sep 10 '14 at 20:52

Your program does not "work fine" (and should not "work fine") with either explicitly declared arrays or malloc-ed arrays. Strings like 15 and 12 require char buffers of size 3 at least. You provided buffers of size 2. Your program overruns the buffer boundary in both cases, thus causing undefined behavior. It is just that the consequences of that undefined behavior manifest themselves differently in different versions of the code.

The malloc version has a greater chance to produce illusion of "working" since sizes of dynamically allocated memory blocks are typically rounded to the nearest implementation-depended "round" boundary (like 8 or 16 bytes). That means that your malloc calls actually allocate more memory than you ask them to. This might temporarily hide the buffer overrun problems present in your code. This produces the illusion of your program "working fine".

Meanwhile, the version with explicit arrays uses local arrays. Local arrays often have precise size (as declared) and also have a greater chance to end up located next to each other in memory. This means that buffer overrun in one array can easily destroy the contents of the other array. This is exactly what happened in your case.

However, even in the malloc-based version I'd still expect a good debugging version of standard library implementation to catch the overrun problems. It is quite possible that if you attempt to actually free these malloc-ed memory blocks (something you apparently didn't bother to do), free will notice the problem and tell you that heap integrity has been violated at some point after malloc.

P.S. Don't use atoi to convert strings to integers. Function that converts strings to integers is called strtol.

  • but why it is accepting second variable 12. It should not accept both the values. – Sachin Sep 10 '14 at 19:28
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    @SachinPanwar: while it would be great fun to analyze, in depth, why your program appears to work, this is one of those cases where you should seriously accept that your program is simply not functional. You can trace the program instruction-by-instruction if you really want to know why something works or doesn't on your particular computer and particular operating environment. (Seriously, undefined behaviours really are environment-dependent). – nneonneo Sep 10 '14 at 20:05
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    @SachinPanwar: There's no such thing as "should accept" and "shouldn't accept" in this case. The behavior is undefined. Anything can happen. Any deterministic expectations, like your "shouldn't accept both values", make no sense whatsoever. – AnT Sep 10 '14 at 20:14
  • @AndreyT: I got your point. But what is the specific reason behind this undefined behaviour. – Sachin Sep 10 '14 at 20:28
  • @Sachin Panwar: The specific reason is that content of one string went out of bounds and overwrote the content of another string. The string that was read later "won" (it appears to be intact), while the string that was read first "lost" (got overwritten). – AnT Sep 10 '14 at 20:55

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