# Sorted insert into Linked List

i have been working with this iterative function since Sunday without any success, I want to create iterative function for sorted insert but after hour of node drawings, I think i would need some help with the function:

struct declaration:

  typedef struct E_Type * List;

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


the function:

bool insert(List & l, int data) {
while (l != 0) {
for (List p = l; p; p = p->next) {
if (p->data == data)
return false;
}

if (l->data > data) {
List new_list = new E_Type;
new_list->data = data;
new_list->next = l;
l = new_list;
return true;
} else if (l->data < data) {

List new_list = new E_Type;
new_list->data = data;
l->next = new_list;
l = new_list;
return true;
}
}

if (l == 0) {
List new_list = new E_Type;
new_list->data = data;
new_list->next = l;
l = new_list;
return true;
}
}


btw: is this function even possible... all tutorials, infos etc about this insertion are with recursive call for next-data

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Please, describe what problems you're having. –  jweyrich Dec 11 '12 at 16:51
Why do you need to have that for loop inside the while loop. Is a one time check not enough? –  TJ- Dec 11 '12 at 16:54
well the code crashes after insertion of valute that is bigger than the current value –  EmilDo Dec 11 '12 at 16:54
Your while doesn't make sense. If data is smaller or greater than the current node, you create a new E_Type and return... –  emartel Dec 11 '12 at 16:55
@tj I am checking for values that are already in the list, if there are any.. false is returned. –  EmilDo Dec 11 '12 at 16:55

I can see how you have gotten stuck. Your insert function tries to do multiple tasks (check for duplicates, find where to insert a new element and do the actual insertion) and the steps needed for each task have gotten muddled up.

My best advice is to take a step back and write three functions:

1. Make function that checks if an element already exists (lets call it bool find_element(List l, int data)).
2. Make a function that inserts a new element at the front of an existing list and returns the new list (List insert_front(List l, int data)). This function can make use of the fact that each element of a List can be regarded as the head of a list as well.
3. Make a function that determines where to insert a new element (List locate_insertion_point(List l, int data)).
4. Write your insert function in terms of the three new functions.

bool insert(List& l, int data)
{
if (find_element(l, data))
return false;

List insert = locate_insertion_point(l, data);
if (insert == NULL)
{ /* Can't insert after any point. Insert at the front */
List new_list = new E_Type;
new_list->data = data;
new_list->next = l;
l = new_list;
}
else
{ /* insert after insert */
List next = insert->next;
insert->next = insert_front(next, data);
}
return true;
}

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thanks, i also think that helpfunction like find will greatly reduce the complexity and confusion for me about this function –  EmilDo Dec 11 '12 at 17:18
//find the closest Node that is not > data and return it
List* find(List* l, int data) {
// l != NULL
List* current = l;
List* previous = NULL;

while(current != NULL && current->data > data) {
previous = current;
current = current->next;
}

return previous;
}

List* insert(List* l, int data) {
//l != NULL
List* current = new List();
current->data = data;

if(l->data > data) {
List* insert_position = find(l, data);
current->next = insert_position->next;
insert_position->next = current;
} else {
current->next = l;
return current;
}
return l;
}


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


You don't really need the typedef or struct keywords.

The above example should be close to what your looking for. There are a few issue with what you had as pointed out.

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I think it's better to give some corrections to student rather than just a working code... –  Jurlie Dec 11 '12 at 17:03
Well i will definitely not use the code, but it is great to have some code guidance like this so that I can rebuild mine function. –  EmilDo Dec 11 '12 at 17:07

The struct looks fine. I've tried to keep insert's structure as close as possible to yours. I hope the comments can help you see what you did wrong.

bool insert( List & l, int data ) {
// We have to look sequentially at all members in the *ordered* list
while ( l != 0 ) {
// We already have this data, we exit
if ( l->data == data ) return false;
// If this element's data is bigger we shift it by one spot
// so we can insert the new one
else if ( l->data > data ) {
List new_element = new E_Type;
// Save current element in the new one ( that will shift )
new_element->data = l->data;
new_element->next = l->next;
// "Insert" our new element
l->data = data;
l->next = new_element;
return true;
}
// If we didn't return before, we skip to the next element
// but only if it's not the end
if ( l->next )
l = l->next;
else
break;
}
if ( l ) {
// If we are here it means that all elements are lower than the new data.
// l currently holds the last element of the list, so we only need to add
// a new element to the list
List new_element = new E_Type;
new_element->data = data;
new_element->next = 0;
l->next = new_element;
return true;
}
else {
// If we are here it means that there was no list to begin with.
// Thus, we have to create a first element.
l = new E_Type;
l->data = data;
l->next = 0;
return true;
}
}

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thanks a lot, your guide through the function is great! –  EmilDo Dec 11 '12 at 17:49

There's a lot of mistakes:

l->next = new_list;


This line erases previous value of pointer l->next.

There's no code that looks for proper element to insert new element before of after.

Your while has no sense since your l pointer doesn't change from iteration to iteration.

You better just write in the piece of paper elementary steps your function should do and only after that code them in C++.

(Or just use working sample from neighbor answer ;-) )

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