Design an iterator that supports the peek operation on a list in addition to the hasNext and the next operations.
Implement the PeekingIterator class:
PeekingIterator(int[] nums)Initializes the object with the given integer arraynums.int next()Returns the next element in the array and moves the pointer to the next element.bool hasNext()Returnstrueif there are still elements in the array.int peek()Returns the next element in the array without moving the pointer.
Example 1:
Input ["PeekingIterator", "next", "peek", "next", "next", "hasNext"] [[[1, 2, 3]], [], [], [], [], []] Output [null, 1, 2, 2, 3, false] Explanation PeekingIterator peekingIterator = new PeekingIterator([1, 2, 3]); // [1,2,3] peekingIterator.next(); // return 1, the pointer moves to the next element [1,2,3]. peekingIterator.peek(); // return 2, the pointer does not move [1,2,3]. peekingIterator.next(); // return 2, the pointer moves to the next element [1,2,3] peekingIterator.next(); // return 3, the pointer moves to the next element [1,2,3] peekingIterator.hasNext(); // return False
Constraints:
1 <= nums.length <= 10001 <= nums[i] <= 1000- All the calls to
nextandpeekare valid. - At most
1000calls will be made tonext,hasNext, andpeek.
Follow up: How would you extend your design to be generic and work with all types, not just integer?
# Below is the interface for Iterator, which is already defined for you.
#
# class Iterator:
# def __init__(self, nums):
# """
# Initializes an iterator object to the beginning of a list.
# :type nums: List[int]
# """
#
# def hasNext(self):
# """
# Returns true if the iteration has more elements.
# :rtype: bool
# """
#
# def next(self):
# """
# Returns the next element in the iteration.
# :rtype: int
# """
class PeekingIterator:
def __init__(self, iterator):
"""
Initialize your data structure here.
:type iterator: Iterator
"""
self.iterator = iterator
self.has_peeked = False
self.peeked_element = None
def peek(self):
"""
Returns the next element in the iteration without advancing the iterator.
:rtype: int
"""
if not self.has_peeked:
self.peeked_element = self.iterator.next()
self.has_peeked = True
return self.peeked_element
def next(self):
"""
:rtype: int
"""
if not self.has_peeked:
return self.iterator.next()
result = self.peeked_element
self.has_peeked = False
self.peeked_element = None
return result
def hasNext(self):
"""
:rtype: bool
"""
return self.has_peeked or self.iterator.hasNext()
# Your PeekingIterator object will be instantiated and called as such:
# iter = PeekingIterator(Iterator(nums))
# while iter.hasNext():
# val = iter.peek() # Get the next element but not advance the iterator.
# iter.next() # Should return the same value as [val].// Java Iterator interface reference:
// https://docs.oracle.com/javase/8/docs/api/java/util/Iterator.html
class PeekingIterator implements Iterator<Integer> {
private Iterator<Integer> iterator;
private boolean hasPeeked;
private Integer peekedElement;
public PeekingIterator(Iterator<Integer> iterator) {
// initialize any member here.
this.iterator = iterator;
}
// Returns the next element in the iteration without advancing the iterator.
public Integer peek() {
if (!hasPeeked) {
peekedElement = iterator.next();
hasPeeked = true;
}
return peekedElement;
}
// hasNext() and next() should behave the same as in the Iterator interface.
// Override them if needed.
@Override
public Integer next() {
if (!hasPeeked) {
return iterator.next();
}
Integer result = peekedElement;
hasPeeked = false;
peekedElement = null;
return result;
}
@Override
public boolean hasNext() {
return hasPeeked || iterator.hasNext();
}
}