## First of all

As mention in comment, but to be more clear, **the question is from**:

`<Cracking the coding interview 6th>`

| `IX Interview Questions`

| `2. Linked Lists`

| `Question 2.2`

.

It's a great book by `Gayle Laakmann McDowell`

, a software engineer from Google, who has interviewed a lot people.

## Approaches

*(Assuming the linked list doesn't keep track of length)*, there are 2 approaches in **O(n)** time, and **O(1)** space:

- Find length first, then loop to the (len-k+1) element.

This solution is not mentioned in the book, as I remember.
- Loop, via 2 pointer, keep them (k-1) distance.

This solution is from the book, as the same in the question.

## Code

Following is the implementation in `Java`

, with unit test, *(without using any advanced data structure in JDK itself)*.

**KthToEnd.java**

```
/**
* Find k-th element to end of singly linked list, whose size unknown,
* <p>1-th is the last, 2-th is the one before last,
*
* @author eric
* @date 1/21/19 4:41 PM
*/
public class KthToEnd {
/**
* Find the k-th to end element, by find length first.
*
* @param head
* @param k
* @return
*/
public static Integer kthToEndViaLen(LinkedListNode<Integer> head, int k) {
int len = head.getCount(); // find length,
if (len < k) return null; // not enough element,
return (Integer) head.getKth(len - k).value; // get target element with its position calculated,
}
/**
* Find the k-th to end element, via 2 pinter that has (k-1) distance.
*
* @param head
* @param k
* @return
*/
public static Integer kthToEndVia2Pointer(LinkedListNode<Integer> head, int k) {
LinkedListNode<Integer> p0 = head; // begin at 0-th element,
LinkedListNode<Integer> p1 = head.getKth(k - 1); // begin at (k-1)-th element,
while (p1.next != null) {
p0 = p0.next;
p1 = p1.next;
}
return p0.value;
}
static class LinkedListNode<T> {
private T value;
private LinkedListNode next;
public LinkedListNode(T value) {
this.value = value;
}
/**
* Append a new node to end.
*
* @param value
* @return new node
*/
public LinkedListNode append(T value) {
LinkedListNode end = getEnd();
end.next = new LinkedListNode(value);
return end.next;
}
/**
* Append a range of number, range [start, end).
*
* @param start included,
* @param end excluded,
*/
public void appendRangeNum(Integer start, Integer end) {
KthToEnd.LinkedListNode last = getEnd();
for (int i = start; i < end; i++) {
last = last.append(i);
}
}
/**
* Get end element of the linked list this node belongs to, time complexity: O(n).
*
* @return
*/
public LinkedListNode getEnd() {
LinkedListNode end = this;
while (end != null && end.next != null) {
end = end.next;
}
return end;
}
/**
* Count of element, with this as head of linked list.
*
* @return
*/
public int getCount() {
LinkedListNode end = this;
int count = 0;
while (end != null) {
count++;
end = end.next;
}
return count;
}
/**
* Get k-th element from beginning, k start from 0.
*
* @param k
* @return
*/
public LinkedListNode getKth(int k) {
LinkedListNode<T> target = this;
while (k-- > 0) {
target = target.next;
}
return target;
}
}
}
```

**KthToEndTest.java**

*(unit test, using *`TestNG`

, or you change to `JUnit`

/ .., as wish)

```
import org.testng.Assert;
import org.testng.annotations.BeforeClass;
import org.testng.annotations.Test;
/**
* KthToEnd test.
*
* @author eric
* @date 1/21/19 5:20 PM
*/
public class KthToEndTest {
private int len = 10;
private KthToEnd.LinkedListNode<Integer> head;
@BeforeClass
public void prepare() {
// prepare linked list with value [0, len-1],
head = new KthToEnd.LinkedListNode(0);
head.appendRangeNum(1, len);
}
@Test
public void testKthToEndViaLen() {
// validate
for (int i = 1; i <= len; i++) {
Assert.assertEquals(KthToEnd.kthToEndViaLen(head, i).intValue(), len - i);
}
}
@Test
public void testKthToEndVia2Pointer() {
// validate
for (int i = 1; i <= len; i++) {
Assert.assertEquals(KthToEnd.kthToEndVia2Pointer(head, i).intValue(), len - i);
}
}
}
```

**Tips:**

`KthToEnd.LinkedListNode`

It's a simple singly linked list node implemented from scratch, it represents a linked list start from itself.

It doesn't additionally track head / tail / length, though it has methods to do that.