# Debugging mergesort

I need to sort a doubly-linked list. According to the almighty wikipedia, mergesort is the way to go for that.

The recursive algorithm works reasonably well, but as I'm writing a general-purpose implementation, performance might be an issue.

Porting the iterative version for arrays will kill performance as rescanning the list to divide it into sublists is slow; for anyone interested - here's the code:

``````static void sort(struct linked_list *list,
int (*cmp)(const void *, const void *))
{
size_t slice_size = 1;
for(; slice_size < list->size; slice_size *= 2)
{
struct node *tail = list->first;
while(tail)
{

size_t count = slice_size;
while(tail && count--) // performance killer
tail = tail->next;

count = slice_size;
while(head != tail && tail && count)
{
else
{
struct node *node = tail;
tail = tail->next;
remove_node(node, list);
--count;
}
}

while(tail && count--) // performance killer
tail = tail->next;
}
}
}
``````

But there's another iterative version using a stack-based approach:

``````struct slice
{
size_t size;
};

int (*cmp)(const void *, const void *))
{
if(list->size < 2) return;

struct slice stack[32];
size_t top = -1;
struct node *current = list->first;

for(; current; current = current->next)
{
stack[++top] = (struct slice){ current, 1 };
for(; top && stack[top-1].size <= stack[top].size; --top)
merge_down(list, cmp, stack + top);
}

for(; top; --top)
merge_down(list, cmp, stack + top);
}
``````

This will push size 1 lists onto the stack and merges down as long as the top list is of greater or equal size than its predecessor.

Unfortunately, there's a bug somewhere as for some input lists, `merge_down()` will fail a sanity check:

``````static void merge_down(struct linked_list *list,
int (*cmp)(const void *, const void *), struct slice *top)
{
size_t count = top->size;

--top;

top->size += count;

{
// sanity check: count nodes in right list
int i = count;
struct node *node = right;
for(; i--; node = node->next) if(!node)
{
puts("too few right nodes");
exit(0);
}
}

if(cmp(left->data, right->data) <= 0)
{
left = left->next;
}
else
{
struct node *node = right;
right = right->next;
remove_node(node, list);
insert_before(node, list, left);
--count;
}

while(left != right && count)
{
if(cmp(left->data, right->data) <= 0)
left = left->next;
else
{
struct node *node = right;
right = right->next;
remove_node(node, list);
insert_before(node, list, left);
--count;
}
}
}
``````

The linked list implementation might be relevant as well:

``````struct node
{
struct node *prev;
struct node *next;
long long data[]; // use `long long` for alignment
};

{
struct _list _list; // ignore
size_t size;
struct node *first;
struct node *last;
};

static void insert_before(struct node *node, struct linked_list *list,
struct node *ref_node)
{
if(ref_node)
{
node->next = ref_node;
node->prev = ref_node->prev;
if(ref_node->prev) ref_node->prev->next = node;
else list->first = node;
ref_node->prev = node;
}
else // empty list
{
node->next = NULL;
node->prev = NULL;
list->first = node;
list->last = node;
}
++list->size;
}

static void remove_node(struct node *node, struct linked_list *list)
{
if(node->prev) node->prev->next = node->next;
else list->first = node->next;
if(node->next) node->next->prev = node->prev;
else list->last = node->prev;
--list->size;
}
``````

What am I missing here?

-
why don't you try a direct derecursival of your recursive version ? It's often more efficient (both for debugging and code performance) than trying to use a brand new iterative version. Derecursival is usually quite mechanical and do not requires much thinking. If you show us your recursive version we could see how it goes. –  kriss Sep 29 '09 at 15:14

Do you ever need to copy a node to the end of the list?
What's the `insert_before()` call then?

``````insert_before(node, list, NULL);
``````

That would mess up `list->first` and `node->prev`.

-
I think such a call can't happen - I'll add some debug output to `insert_before()` to make sure... –  Christoph Sep 29 '09 at 11:21
nope, must be something else –  Christoph Sep 29 '09 at 11:23

I've now run your code and got it to working after I commented out the line indicated below.

``````static void merge_down(struct linked_list *list,
int (*cmp)(const void *, const void *), struct slice *top)
{
size_t count = top->size;

--top;

top->size += count; /* possible bug? */
/* ^^^^^^^^^^^^^^^^^^^ */
``````

Does that work for you too?

-
seems to work - but I don't understand why: as I'm merging the top 2 lists and discarding the right one, shouldn't the left list's size be increased by the right one's –  Christoph Sep 29 '09 at 12:37
doesn't work: I get an endless loop for large input sizes; easy fix is to add a check `&& right` to the loop condition instead, but I'd like to understand what't going wrong –  Christoph Sep 29 '09 at 12:46

I found the error myself:

``````for(; current; current = current->next)
{
stack[++top] = (struct slice){ current, 1 };
for(; top && stack[top-1].size <= stack[top].size; --top)
merge_down(list, cmp, stack + top);
}
``````

Here, the next value of `current` gets determined after the call to `merge_down()`, which might move the node around, ie `current->next` will no longer point to the correct node.

Rearranging fixes the problem:

``````while(current)
{
stack[++top] = (struct slice){ current, 1 };
current = current->next;
for(; top && stack[top-1].size <= stack[top].size; --top)
merge_down(list, cmp, stack + top);
}
``````

Thanks to pmg for the effort: I added some votes for that.

-
hm.. I'll have to wait two days befor being able to accept my own answer :( –  Christoph Sep 29 '09 at 21:43
YAY! Glad you found the problem! –  pmg Sep 29 '09 at 22:51

stack-based approach

``````/* ... */
struct slice stack[32];
size_t top = -1;
struct node *current = list->first;

for(; current; current = current->next)
{
stack[++top] = (struct slice){ current, 1 };
for(; top && stack[top-1].size <= stack[top].size; --top)
/*    ^^^    */
merge_down(list, cmp, stack + top);
}
/* ... */
``````

`top` is always going to be 0 the first time through the loop, right?
The `merge_down()` function is never going to get called. I didn't try the code, but that doesn't look right.

Edit
32 elements for the `stack` is not enough... When the list has more than 32 elements in order (maybe after a few passes) you write beyond the end of `stack`.

-
afaik it's correct: you can only merge down if there are at leat two list on the stack, ie no merging on the first iteration –  Christoph Sep 29 '09 at 10:49
Hmmm ... right! Makes sense too. –  pmg Sep 29 '09 at 11:11
Check that `top` doesn't go over the limit: `assert (top < (sizeof stack / sizeof stack[0]) - 1);` –  pmg Sep 29 '09 at 15:05

As kriss asked for it, here's the recursive version (a standard mergesort using the merge function from the other exaples):

``````static struct node *merge(struct linked_list *list,
int (*cmp)(const void *, const void *),
struct node *left, struct node *right, size_t right_count)
{
if(cmp(left->data, right->data) <= 0)
{
left = left->next;
}
else
{
struct node *node = right;
right = right->next;
remove_node(node, list);
insert_before(node, list, left);
--right_count;
}

while(left != right && right_count)
{
if(cmp(left->data, right->data) <= 0)
left = left->next;
else
{
struct node *node = right;
right = right->next;
remove_node(node, list);
insert_before(node, list, left);
--right_count;
}
}

}

static struct node *mergesort(struct linked_list *list,
int (*cmp)(const void *, const void *), struct node *head, size_t size)
{
size_t left_count = size / 2;
size_t right_count = size - left_count;

size_t count = left_count;
while(count--) tail = tail->next;

return merge(list, cmp,