# segmentation fault during the use of an array of pointer to structures

I have to save in an array the address of some data. Every data is a structure of type "dagNode". To do my work I visit a list, and I count the number of data that I want to record its address so I allocate the right space in the memory, and finally I re-visit the list and save the address of some data.

``````    struct dagNode *buildBST(struct dagNode *rootList){
int numXtest=0;

rootList = nextNode(TYPE_XTEST, rootList);

while ( !IS_TERMINATED( rootList ) ){   // first visit
numXtest++;
rootList = nextNode(TYPE_XTEST, rootList); }

xTest = (struct dagNode **) malloc( sizeof(struct dagNode ) * numXtest);
int i=0; rootList = nextNode(TYPE_XTEST, head);

for(i=0; i<numXtest; i++){      // second visit, saving the address of some datas
rootList = nextNode(TYPE_XTEST, rootList);
xTest[i] = rootList; i++;
>>> printf("t=%d,val=%d\t", xTest[i]->nodeType, xTest[i]->val); } // segmentation fault

}
``````

EDIT:

``````    struct dagNode *nextNode(int typeOfNextNode, struct dagNode *node){
if (IS_TERMINATED(node)){   return node;    }
node = node->next;
if (typeOfNextNode == TYPE_EDGE_OR_GAP){
while (!IS_TERMINATED(node) && !IS_AN_EDGE(node) && !IS_A_GAP(node)){
node = node->next;  }
}else
{
while (!IS_TERMINATED(node) && (node->nodeType != typeOfNextNode)){
node = node->next;}
}
return node;    }
``````
-
Show us the `nextNode` function. –  cnicutar Feb 14 '12 at 14:35
You can isolate the problem by running your code in the debugger. –  Oliver Charlesworth Feb 14 '12 at 14:35
That is the most inscrutable code layout I've seen in a long time. Please, for everyone's sanity's sake, adopt a more orthodox format. At the least, the `if` and the `else` should align vertically, and the `}` should be at the start of the line, not hidden at the end. –  Jonathan Leffler Feb 14 '12 at 14:52
Never typecast the result of malloc in C. Read this. –  Lundin Feb 14 '12 at 15:23

There is a mismatch between the type of the `xTest` pointer and the size you allocate in `malloc`. If `xTest` is of type `struct dagNode **`, the proper allocation should be:

``````xTest = malloc(sizeof(struct dagNode *) * numXtest);
``````

Probably you want to allocate `numXtest` pointers to a struct, not `numXtest` structs.

-

`nextNode()` seems to be the obvious culprit.

Edit: Note that you are also incrementing `i` twice per iterations. This will certainly crash.

-
This is the most probable cause of the trouble. In the loop, there is a hidden increment `xTest[i] = rootList; i++;` just before the print. So, you skip past the pointer you've just set up before you print the data. Since the `for` loop control also increments `i`, you (the OP) should probably just delete the `i++;` inside the loop. The memory issue identified by @Blagovest is also something to deal with, but if `sizeof(struct dagNode) >= sizeof(struct dagNode *)` (which is inevitable since the nodes contain a pointer), the defect only wastes memory rather than causing crashes. –  Jonathan Leffler Feb 14 '12 at 15:00

I'm sorry but this post does not answer the question. I merely want to give you an example of an alternative coding style. Pick up what you like from it.

I haven't changed the meaning of the code, except for the removal of the most obvious bugs already pointed out in other answers/comments.

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

typedef struct
{
...
} dagNode;

dagNode* buildBST (dagNode* rootList)
{
dagNode** xTest;
int numXtest=0;
int i=0;

rootList = nextNode(TYPE_XTEST, rootList);

while (!IS_TERMINATED(rootList))               // first visit
{
numXtest++;
rootList = nextNode(TYPE_XTEST, rootList);
}

xTest = malloc(sizeof(dagNode) * numXtest);

for(i=0; i<numXtest; i++)                      // second visit, saving the address of some datas
{
rootList = nextNode(TYPE_XTEST, rootList);
xTest[i] = rootList;

printf("t=%d,val=%d\t",
xTest[i]->nodeType,
xTest[i]->val);
}

}

dagNode *nextNode (int typeOfNextNode, dagNode *node)
{
if (IS_TERMINATED(node))
{
return node;
}

node = node->next;

if (typeOfNextNode == TYPE_EDGE_OR_GAP)
{
while ( !IS_TERMINATED(node) &&
!IS_AN_EDGE(node) &&
!IS_A_GAP(node) )
{
node = node->next;
}
}
else
{
while ( !IS_TERMINATED(node) &&
(node->nodeType != typeOfNextNode) )
{
node = node->next;
}
}

return node;
}
``````
-
Thanks for your post, i'm following your (better) style in the future. –  frenk Feb 25 '12 at 11:52