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heap.c
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heap.c
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/*
Include header files
*/
#include "common_headers.h"
#include "definitions.h"
/*
int heap_comparator(heap* Heap, int i, int j)
Custom comparator for heap that compares nodes based either on file name or parameter (file size) as per the policy SFF or SFNF
Returns 1 iff value at index i has larger size or lexicographically bigger name than at index j
*/
int heap_comparator(heap* Heap, int i, int j){
// returns 1 iff i > j in comparison
if(Heap->by_file_name==1){
// Comparing by file name (SFNF)
if(strcmp(Heap->array[i].file_name,Heap->array[j].file_name) > 0) return 1;
return 0;
} else {
// Comparing by file size (SFF)
if(Heap->array[i].parameter > Heap->array[j].parameter) return 1;
return 0;
}
}
/*
void _swap(node* x, node* y)
Function to swap values at two nodes
*/
void _swap(node* x, node* y){
node temp = *x;
*x = *y;
*y = temp;
}
/*
heap* init_heap(int heap_size, int by_file_name)
Returns a newly initialized heap with the given max heap size and by_file_name bit that indicates sorting of nodes either by file name or by file size in the comparator function
*/
heap* init_heap(int heap_size, int by_file_name){
// Allocate memory, exit if fails, and initialize values
heap* newHeap = (heap*)malloc(sizeof(heap));
if(!newHeap) exit(1);
newHeap->max_size = heap_size;
newHeap->curr_size = 0;
newHeap->by_file_name = by_file_name;
newHeap->array = (node*)malloc(heap_size*sizeof(node));
if(!newHeap->array) exit(1);
// Initialize the heap array with default values that will be overwritten as and when they are filled
for(int i=0;i< heap_size; i++){
newHeap->array[i].fd = 0;
newHeap->array[i].parameter = 0;
newHeap->array[i].file_name = (char *) malloc(1024*sizeof(char));
}
return newHeap;
}
/*
void insert_in_heap(int conn_fd, off_t parameter, char* file_name, heap* Heap)
Inserts new connection file desciptor from the client into the queue. It takes file name and size (parameter) as arguments
*/
void insert_in_heap(int conn_fd, off_t parameter, char* file_name, heap* Heap){
// Check if the queue is not full
assert(Heap->curr_size < Heap->max_size);
// Insert at last position available in the heap array
int index = Heap->curr_size;
Heap->curr_size++;
Heap->array[index].fd = conn_fd;
Heap->array[index].parameter = parameter;
strcpy(Heap->array[index].file_name, file_name);
// Heapify in bottom-up manner until min-heap property is not satisfied
while(index!=0 && (heap_comparator(Heap, index/2, index)==1)){
_swap(&Heap->array[index/2], &Heap->array[index]);
index = index/2;
}
}
/*
void heapify(heap* Heap, int index)
Heapifies heap in top-down manner from the given index of the heap array
*/
void heapify(heap* Heap, int index){
// Left child and right child
int left = 2*index + 1;
int right = 2*index + 2;
// Index of smallest node (according to the min-heap property)
int smallest = index;
// Update smallest if left is smaller
if(left < Heap->curr_size && (heap_comparator(Heap, smallest, left)==1)){
smallest = left;
}
// Update smallest if right is smaller
if(right < Heap->curr_size && (heap_comparator(Heap, smallest, right)==1)){
smallest = right;
}
// Update current node with smallest child and recurse in top-down manner
if(smallest != index){
_swap(&Heap->array[smallest], &Heap->array[index]);
heapify(Heap, smallest);
}
}
/*
int extract_min(heap* Heap)
Returns minimum element (file descriptor at the root of the heap).
*/
int extract_min(heap* Heap){
// Check if the heap is not empty
assert(Heap->curr_size > 0);
// Swap last node with first node in the array
_swap(&Heap->array[0], &Heap->array[Heap->curr_size-1]);
// Get file descriptor
int fd = Heap->array[Heap->curr_size-1].fd;
//Reduce heap size
Heap->curr_size--;
// Heapify from first node of the array in top-down manner
heapify(Heap, 0);
return fd;
}