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 was having some difficulty in finding and solving a problem with the dreaded segmentation error. I have created a "struct" with an array and filled with with random characters. From there I am counting the horizontal and vertical pairs.
Everything seems fine until I run function3(). From there comes the segmentation fault. I ran GDB to find the error, but I do not know why it doesn't work since I have done a similar function for function2() and it is okay with that function. I'm not sure if I am missing a pointer or not. I've played around with adding and subtracting pointers with no luck.

#include <stdio.h>
#include <stdlib.h>
#include <time.h>

#define ROW 12
#define COL 15

typedef struct letter_array {
    char** letters;
    struct letter_array *ltr_ptr;
} larray;

void function1 (larray * letter1);
int function2 (larray  * letter2);
int function3 (larray * letter3);
void function4 (int hor_ans, int ver_ans);

int  main ( void )
{  

larray letter_list;
int vert, hori, count;

letter_list.letters = malloc(ROW*sizeof(int*));
for(count = 0; count<ROW; count++)
    {
    letter_list.letters [count] = malloc(COL*sizeof(int));
    }

printf("\n \t\t\t *** Hello! ***");

printf("\n This program will create a random selection of 180 upper-case"
    " characters. \n\n");

function1(&letter_list);

hori = function2(&letter_list);

vert = function3(&letter_list);  //The Problem?

free(letter_list.letters);

return ( 0 ) ;
}    


void function1 (larray *letter1)  // Assign random letters to array.
{
int i, z;

    srandom((unsigned)time(NULL));

for(i=0; i<ROW; i++)
 { 
    for(z=0; z<COL; z++)
    {
    letter1->letters[i][z] = random( )%26+'A';
    printf("%c ", letter1->letters[i][z]);
    }
 printf("\n");
 }

return ;
}

int function2 (larray * letter2)  //Count horizontal pairs.
{
int a,b;
int m=0;
    for(a=0; a<ROW; a++)
    {
       for(b=0; b<COL; b++)
       {
        if (letter2->letters[a][b] == (letter2->letters[a][b+1]))
        m++;
       }
    }

 return (m);
 }


 int function3 (larray * letter3)  //Count vertical pairs.
 {
 int a,b;
 int n=0;
    for (a=0; a<ROW; a++)
    {
       for(b=0; b<COL; b++)
       {
        if (letter3->letters[a][b] == (letter3->letters[a+1][b])) //THE Problem..?
        n++;
       }
    }
return (n);

In GDB...

Program received signal SIGSEGV, Segmentation fault.
0x0000000000400ad8 in function3 (letter3=0x7fffffffd8a0)
xxx                 if (letter3->letters[a][b] == (letter3->letters[a+1][b]))
(gdb) backtrace
#0  0x0000000000400ad8 in function3 (letter3=0x7fffffffd8a0) 
#1  0x000000000040088f in main () 
(gdb) up
#1  0x000000000040088f in main () 
xxx      vert = function3(&letter_list);

Thank you for your help!

share|improve this question
    
You might find it helpful to use the "print" operator in gdb. As in print a and print b to learn what iteration of the loop is causing the trouble... –  dmckee May 9 at 2:22
1  
Why do you use sizeof(int*) and sizeof(int) when allocating to letters, which is a char **? And why do your functions have such bizarrely generic names? function1 should be called something like assignLetters; function2 should be called something like countHorzPairs; etc. –  ooga May 9 at 2:22
1  
Why isn't it blatantly obvious that a+1 will be out of bounds when a has its max value (ROW-1)? You have a similar problem in function2 but get away with it because the invalid value isn't a pointer. –  Jim Balter May 9 at 3:37

1 Answer 1

It's pretty obvious. GDB tells you exactly where to look. In your function3 you do

for (a=0; a<ROW; a++)

and then you try to access

letter3->letters[a+1][b]

here, a+1 causes the segmentation fault (you run off the edge of your array).

share|improve this answer
1  
letter3->letters[a+1] probably doesn't directly cause the segfault - it just returns garbage. The second [b] indexes a garbage pointer and causes a segfault. –  immibis May 9 at 3:30
    
function2 has similar undefined behavior (but doesn't crash for the reason @immibis identified). –  Jim Balter May 9 at 3:43
    
@immibis - I think we are saying the same thing. When you point at garbage, the value returned is garbage; chances that you end up accessing memory you don't own are pretty high at that point. –  Floris May 9 at 3:47
    
@immibis If it does point at garbage, then why would a similar program work when not using structures? Am I not using the pointers correctly with structures? –  user3497276 May 9 at 4:40
1  
Sometimes you get away with these errors because the memory you point to happens to contain "sensible" values. I recommend you learn how to use valgrind or some such utility - it will tell you about every memory access error, even ones that don't cause a crash. Indispensible if you want to understand how your code really works. –  Floris May 9 at 5:25

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.