Assume the coasting is an infinite straight line. Land is in one side of coasting, sea in the other. Each small island is a point locating in the sea side. And any radar installation, locating on the coasting, can only cover d distance, so an island in the sea can be covered by a radius installation, if the distance between them is at most d .

We use Cartesian coordinate system, defining the coasting is the x -axis. The sea side is above x -axis, and the land side below. Given the position of each island in the sea, and given the distance of the coverage of the radar installation, your task is to write a program to find the minimal number of radar installations to cover all the islands. Note that the position of an island is represented by its x -y coordinates.

Input

The input consists of several test cases. The first line of each case contains two integers n (1n1000)and d , where n is the number of islands in the sea and d is the distance of coverage of the radar installation. This is followed by n lines each containing two integers representing the coordinate of the position of each island. Then a blank line follows to separate the cases.

The input is terminated by a line containing pair of zeros.

Output

For each test case output one line consisting of the test case number followed by the minimal number of radar installations needed. `-1' installation means no solution for that case.

Sample Input

3 2

1 2

-3 1

2 1

1 2

0 2

0 0

Sample Output

Case 1: 2

Case 2: 1

题意：给定n个岛屿坐标，和雷达半径，雷达只能放在x轴上，求出最少放几个雷达。

思路：贪心。每个岛屿都有最左和最右最远放雷达能覆盖到的点，我们把这作为左右区间。只要在区间中选中一个位置放雷达。就可以满足该岛屿被覆盖，转换为区间选点问题。

代码：

#include <stdio.h>

#include <string.h>

#include <math.h>

#include <algorithm>

using namespace std;

double dd;

int n, i, judge, num, ans, j;

struct D {

	double x;

	double y;

	double l;

	double r;

	int v;

} d[1005];

int cmp(D a, D b) {

	if (a.r != b.r)

		return a.r < b.r;

	return a.l > b.l;

}

int main() {

	int t = 1;

	while (~scanf("%d%lf", &n, &dd) && n || dd) {

		judge = 1; num = 0; ans = 0;

		memset(d, 0, sizeof(d));

		for (i = 0; i < n; i ++) {

			scanf("%lf%lf", &d[i].x, &d[i].y);

			if (d[i].y > dd)

				judge = 0;

			d[i].r = sqrt(dd * dd - d[i].y * d[i].y) + d[i].x;

			d[i].l = d[i].x - sqrt(dd * dd - d[i].y * d[i].y);

		}

		sort(d, d + n, cmp);

		printf("Case %d: ", t ++);

		if (judge) {

			while (num < n) {

				for (i = 0; i < n; i ++) {

					if (!d[i].v) {

						double x = d[i].r;

						for (j = i; j < n; j ++) {

							if (d[j].l <= x && !d[j].v) {

								d[j].v = 1;

								num ++;

							}

						}

						ans ++;

						break;

					}

				}

			}

			printf("%d\n", ans);

		}

		else printf("-1\n");

	}

	return 0;

}