Problem
Enlightened landscape
Consider a landscape composed of connected line segments:
Above the landscape, N light bulbs are hang at the same height Tin various horizontal positions. The purpose of these light bulbs is to light up the entire landscape. A landscape point is considered lit if it can "see" a light bulb directly, that is, if the line segment which links the point with a bulb does not contain any other landscape segments point.
Task
Write a program that determines the mi-ni-mum number of light bulbs that must be switched on in order to illuminate the entire landscape.
Input
Input file name: LIGHT.IN
Line 1: M
- An integer, the number of landscape height specifications, including the first and the last point of the landscape.
Lines 2..M+1: Xi Hi - Two integers, separated by a space: the landscape height Hi at horizontal position Xi, 1 <= i <= M; for 1 <= i <= M-1 we have Xi+1 > Xi; any two consecutive specified points identify a segment of line in the landscape.
Line M+2: N T - Two integers, separated by a space, the num-ber of light bulbs and their height coordinate (altitude). The bulbs are numbered from 1 to N)
Line M+3: B1 B2 ... BN - N integers, separated by spaces: the hori-zon-tal coordinates of the light bulbs Bi+1 > Bi, 1 ?i ?N-1;
Output
File name: LIGHT.OUT
Line 1: K - An integer: the minimum number of light bulbs to be switched on.
Line 2: L1 L2 ... LK - K integers, separated by spaces: the labels of the light bulbs to be switched on spe-cified in increasing order of their horizontal coordinates.
Limits
- 1 <= M <= 200
- 1 <= N <= 200
- 1 <= Xi <= 10000 for 1 <= i <= M
- 1 < T <= 10000
- 1 <= Hi <= 10000 for 1 <= i <= M
- T > Hi for any 1 <= i <= M
- X1 <= B1 and BN <=XM
- The task always has a solution for the test data. If there are multiple solutions, only one is required.
Sample Input
6 1 1 3 3 4 1 7 1 8 3 11 1 4 5 1 5 6 10
Sample Output
2 1 4