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0703-kth-largest-element-in-a-stream.c
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0703-kth-largest-element-in-a-stream.c
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struct heap {
int* array;
int len;
int max_len;
bool (*append)(struct heap* self, int val);
int (*pop)(struct heap* self);
};
bool heap_insert(struct heap*, int);
int heap_pop(struct heap*);
struct heap* Heap(int max_len) {
int* array = (int *)malloc(max_len * sizeof(int));
struct heap* heap = (struct heap*)malloc(sizeof(struct heap));
heap -> array = array;
heap -> max_len = max_len;
heap -> len = 0;
heap -> append = heap_insert;
heap -> pop = heap_pop;
return heap;
}
int heap_parent(int index) {
return (index - 1) / 2;
}
int heap_left(int index) {
return 2 * index + 1;
}
int heap_right(int index) {
return 2 * index + 2;
}
void heap_swap(struct heap* heap, int parent, int index) {
int temp = heap -> array[index];
heap -> array[index] = heap -> array[parent];
heap -> array[parent] = temp;
}
void heap_heapify(struct heap* heap, int index) {
if (index != 0) {
int parent = heap_parent(index);
if (heap -> array[parent] > heap -> array[index]) {
heap_swap(heap, parent, index);
heap_heapify(heap, parent);
}
}
}
bool heap_insert(struct heap* heap, int val) {
if (heap -> len == heap -> max_len) {
return false;
}
heap -> array[heap -> len] = val;
heap_heapify(heap, heap -> len);
heap -> len += 1;
return true;
}
bool heap_has_left(struct heap* heap,int index) {
return heap_left(index) < heap -> len;
}
bool heap_has_right(struct heap* heap, int index) {
return heap_right(index) < heap -> len;
}
void heap_heapify_reverse(struct heap* heap, int index) {
int left = heap_left(index);
int right = heap_right(index);
int minimum = index;
if (heap_has_left(heap, index) && (heap -> array[left] < heap -> array[minimum])) {
minimum = left;
}
if (heap_has_right(heap, index) && (heap -> array[right] < heap -> array[minimum])) {
minimum = right;
}
if (minimum != index) {
heap_swap(heap, index, minimum);
heap_heapify_reverse(heap, minimum);
}
}
int heap_pop(struct heap* heap) {
if (heap -> len == 0) {
return NULL;
}
int val = heap -> array[0];
heap -> len -= 1;
heap -> array[0] = heap -> array[heap -> len];
if (heap -> len > 1) {
heap_heapify_reverse(heap, 0);
}
return val;
}
void heap_free(struct heap* heap) {
free(heap -> array);
free(heap);
}
typedef struct {
struct heap* heap;
int k;
} KthLargest;
KthLargest* kthLargestCreate(int k, int* nums, int numsSize) {
KthLargest* self = malloc(sizeof(KthLargest));
self -> heap = Heap(numsSize + 2);
self -> k = k;
for (int i = 0; i < numsSize; i++) {
self -> heap -> append(self -> heap, nums[i]);
}
while (self -> heap -> len > k) {
self -> heap -> pop(self -> heap);
}
return self;
}
int kthLargestAdd(KthLargest* obj, int val) {
obj -> heap -> append(obj -> heap, val);
if (obj -> heap -> len > obj -> k) {
obj -> heap -> pop(obj -> heap);
}
return obj -> heap -> array[0];
}
void kthLargestFree(KthLargest* obj) {
heap_free(obj -> heap);
free(obj);
}
/**
* Your KthLargest struct will be instantiated and called as such:
* KthLargest* obj = kthLargestCreate(k, nums, numsSize);
* int param_1 = kthLargestAdd(obj, val);
* kthLargestFree(obj);
*/