Snow Howler is the librarian at the central library of the city of HuskyLand. He must handle requests which come in the following forms:
1 x y : Insert a book with pages at the end of the shelf.
2 x y : Print the number of pages in the book on the shelf.
3 x : Print the number of books on the shelf.
Snow Howler has got an assistant, Oshie, provided by the Department of Education. Although inexperienced, Oshie can handle all of the queries of types 2 and 3.
Help Snow Howler deal with all the queries of type 1.
Oshie has used two arrays:
int* total_number_of_books; /* * This stores the total number of books on each shelf. */ int** total_number_of_pages; /* * This stores the total number of pages in each book of each shelf. * The rows represent the shelves and the columns represent the books. */
Input Format
The first line contains an integer , the number of shelves in the library.
The second line contains an integer , the number of requests.
Each of the following lines contains a request in one of the three specified formats.
Constraints
- For each query of the second type, it is guaranteed that a book is present on the shelf at index.
- Both the shelves and the books are numbered starting from 0.
- Maximum number of books per shelf .
Output Format
Write the logic for the requests of type 1. The logic for requests of types 2 and 3 are provided.
Sample Input 0
5 5 1 0 15 1 0 20 1 2 78 2 2 0 3 0
Sample Output 0
78 2
Explanation 0
There are shelves and requests, or queries.
– 1 Place a page book at the end of shelf .
– 2 Place a page book at the end of shelf .
– 3 Place a page book at the end of shelf .
– 4 The number of pages in the book on the shelf is 78.
– 5 The number of books on the shelf is 2.
#include <stdio.h>
#include <stdlib.h>
/*
* This stores the total number of books in each shelf.
*/
int* total_number_of_books;
/*
* This stores the total number of pages in each book of each shelf.
* The rows represent the shelves and the columns represent the books.
*/
int** total_number_of_pages;
int main()
{
int total_number_of_shelves;
scanf("%d", &total_number_of_shelves);
int total_number_of_queries;
scanf("%d", &total_number_of_queries);
total_number_of_books=(int*)malloc(sizeof(int)*total_number_of_shelves);
total_number_of_pages=(int**)malloc(sizeof(int*)*total_number_of_shelves);
for(int i=0; i<total_number_of_shelves; i++){
total_number_of_books[i]=0;
total_number_of_pages[i]=(int*)malloc(sizeof(int));
}
while (total_number_of_queries--) {
int type_of_query;
scanf("%d", &type_of_query);
if (type_of_query == 1) {
int x, y;
scanf("%d %d", &x, &y);
*(total_number_of_books+x)+=1;
*(total_number_of_pages+x)=realloc(*(total_number_of_pages+x), *(total_number_of_books+x)*sizeof(int));
*(*(total_number_of_pages+x)+*(total_number_of_books+x)-1)=y;
} else if (type_of_query == 2) {
int x, y;
scanf("%d %d", &x, &y);
printf("%d\n", *(*(total_number_of_pages + x) + y));
} else {
int x;
scanf("%d", &x);
printf("%d\n", *(total_number_of_books + x));
}
}
if (total_number_of_books) {
free(total_number_of_books);
}
for (int i = 0; i < total_number_of_shelves; i++) {
if (*(total_number_of_pages + i)) {
free(*(total_number_of_pages + i));
}
}
if (total_number_of_pages) {
free(total_number_of_pages);
}
return 0;
}