# C program - weird Seg fault in dynamic programming algorithm

I'm writing a program in C to do a simple dynamic programming algorithm where you return the minimum number of coins needed to add up to a certain amount. Here's my code:

``````#include <limits.h>
#include <stdlib.h>
#include <stdio.h>

/*
This function returns the minimum number of stamps required for a given value.
It assumes that the given array contains the available stamp sizes, and that it
always contains 1, so a solution is always possible
*/
int min_number_of_stamps(const int* array, size_t array_size, int request) {

/* Construct a table with dimensions (array_size+1)*(request+1) */
int numRows = array_size + 1;
int numCols = request + 1;
int **DPtable;
DPtable = malloc(numRows*sizeof(int));
int i;
for (i = 0; i < numRows; i++) {
DPtable[i] = malloc(numCols*sizeof(int));
}
printf("%d",DPtable[4][0]);
int r, c, useIt, loseIt;
for (r = 0; r < numRows; r++) {
for (c = 0; c < numCols; c++) {
printf("%d,%d\n", r, c);
if (c==0) {
printf("1\n");
//if the amount of change is 0, 0 coins are needed
DPtable[r][c] = 0;
}
else if ((r==0) || c < array[r-1]) {
printf("2\n");
//if there are no coins or if the change needed is less than
//the smallest coin available, then 'infinity' coins are needed
DPtable[r][c] = INT_MAX;
}
else {
printf("3\n");
useIt = DPtable[r][c-array[r-1]] + 1;
loseIt = DPtable[r-1][c];
if (useIt <= loseIt) {
//if 'use it' requires fewer coins than 'lose it,' then
//'use it' coins are needed.
DPtable[r][c] = useIt;
}
else {
//if 'lose it' requires fewer coins, 'lose it' coins are needed
DPtable[r][c] = loseIt;
}
}
}
}

return DPtable[numRows][numCols];

}

int main() {
const int array[] = {1,5,10,25};
const int* stamps = &array[0];
printf("%d", min_number_of_stamps(stamps, 4, 44));
}
``````

I'm getting a segfault when my inner for loop gets to the case where r=4 and c=0. I left my debugging print statements in because I'm lazy, but you can see where I got stuck. If I access the same place in the array outside of my for loops, there's no problem. But in the for loop, I get a `Segmentation fault: 11' message after it outputs "4,0" for the array element and "1" for the if case it's in. Can anyone see what I'm missing?

-

You're allocating `dpTable` incorrectly. It should be

``````DPtable = malloc(numRows*sizeof(int*));
``````

See if that fixes the problem.

-
Ugh, that was totally it. I've never been able to keep all the pointer stuff straight –  user550617 Dec 8 '11 at 12:56
This could be it, if its a 64bit system a sizeof(int*) is 8 while sizeof(int) might be 4. –  Martin Kristiansen Dec 8 '11 at 12:56

Learn to enable warnings & debugging for your compiler, i.e. `gcc -g -Wall` on Linux.

Learn to use a debugger, i.e. `gdb -tui` on Linux.

Consider using valgrind

EDIT Many tutorials (in several languages, e.g. English, French, ....) for GCC, GDB, and ValGrind are easily found on the Web.

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I don't have a C debugger set up on my home machine. If you're going to just tell me to learn something, at least link to a beginner's tutorial, or else don't bother answering. –  user550617 Dec 8 '11 at 12:48
Without a debugger you (and every C programmer) is in trouble. But `valgrind` could have helped you. –  Basile Starynkevitch Dec 8 '11 at 12:55
I'm not a C programmer. I just had to do this one problem in C. –  user550617 Dec 8 '11 at 13:00
@Bea: I wish I could downvote your first comment –  thumbmunkeys Dec 8 '11 at 13:03
Don't program in C if you don't want to. It is a difficult and painful language. Try e.g. to code in Ocaml; the compiler will help you much more, and your Ocaml program won't crash if it compiles. –  Basile Starynkevitch Dec 8 '11 at 13:16

``` return DPtable[numRows][numCols]; ``` thats out of bounds isn't it?

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Yeah, it is, but the code doesn't even get to that point, so fixing that didn't help. –  user550617 Dec 8 '11 at 12:49
Why? The allocated dimensions are (numRows+1, numCols+1). –  Dan Breslau Dec 8 '11 at 12:54
No, not in the code you are showing us. there the dimensions are numRows * numCols.. also known as (array_size + 1) * (request + 1) –  Martin Kristiansen Dec 8 '11 at 12:59
Martin, I just re-read the code, and you are of course correct about the bounds. I must have had a faulty parser the first time through ;-) –  Dan Breslau Feb 3 '12 at 23:51