Rearranging matrix rows when the matrix is implemented as a list in C

My task is to rearrange the rows of an matrix given two simple rules using C. 1. If the number in the last column is positive the row should be moved to the top. 2. If the number in the last column is zero the row should be moved to the bottom.

For example if I have {{1,2,0},{4,5,-6},{7,8,9},{1,1,1}} I would get {{1,1,1},{7,8,9},{4,5,-6},{1,2,0}}.

To do this I have implemented a matrix as a singlelinked list where the nodes represents the rows of the matrix. Then I have created a function called "rearrange" which should do the task for me. I have been able to solve the problem for all cases except when the number in the last column of the first row is 0. Then all i get is 0. That is for example {{0}{2}{3}} or {{1, 2, 0},{4, 5, 6}{7,8,9}} both give 0. I would be very have if someone could take a look at my code and maybe give me som input. Here is my code:

``````typedef struct node node;
typedef struct list list;

struct list{
node* first;
node* last;
};

struct node{
int* data;
node* next;
};

list* newList(int* data);
static node* newNode(int* data);
list* newList(int* data);
void rearrange(list* head,int rows, int cols);

int main(){
int a[1] = {0};
int b[1] = {-2};
int c[1] = {-3};
//int d[1] = {-4}; // if we want more rows
//int e[1] = {-5};
//Create empty list
//Print all elements
return 0;
}

int i;
while(currentEl != NULL) {
for(i=0;i<cols;i++){
printf("%d, ",currentEl->data[i]);
}
printf("\n");
currentEl = currentEl->next;
}
}

node* temp;
int count = 1;

while(count != rows+1){
int a = nextEl->data[cols-1];
temp = nextEl->next;
if(a>0 && count != 1){
currentEl->next = temp;
}else if(a==0 && head->first->data[cols-1] != 0){
nextEl->next = NULL;
currentEl->next = temp;
}else if(a==0 && head->first->data[cols-1] == 0){ // this needs to be changed
nextEl->next = NULL;
currentEl->next = temp;
}else {
currentEl = nextEl;
}
//nextEl = nextEl->next;
nextEl = currentEl->next;
if(count == 1){
}
count++;
}

}

node* temp;
temp = newNode(data);

}

node* temp;
temp = newNode(data);
}

static node* newNode(int* data){
node* new;
new = (node*)malloc(sizeof(node));
new->next = NULL;
new->data = data;
return new;
}

list* newList(int* data){