NWERC11F - Pool construction

You are working for the International Company for Pool Construction, a construction company which specializes in building swimming pools. A new client wants to build several new pool areas.

A pool area is a rectangular grid of w × h square patches, consisting of zero or more (possibly disconnected) pools. A pool consists of one or multiple connected hole patches, which will later be filled with water. In the beginning, you start with a piece of land where each patch is either a hole in the ground ('.') or flat grass ('#'). In order to transform this land into a pool area, you must adhere to the following:

  • You can leave a patch as it is. This costs nothing.
  • If the patch is grass in the beginning, you can dig a hole there. This costs d EUR.
  • If the patch is a hole in the beginning, you can fill the hole and put grass on top. This costs f EUR.
  • You must place special boundary elements along each edge running between a final grass patch and a final hole patch, to ensure that water does not leak from the pool. This costs b EUR per boundary element.
  • The outermost rows and columns of the pool area must always be grass.

You are given the task of calculating the cost of the cheapest possible pool area given the layout of the existing piece of land.

Input

On the first line a positive integer: the number of test cases, at most 100. After that per test case:

  • one line with two integers w and h (2 ≤ w, h ≤ 50): the width and height of the building site.
  • one line with three integers d, f and b (1 ≤ d, f, b ≤ 10 000): the costs for digging a new hole, filling an existing hole, and building a boundary element between a pool and grass patch.
  • h lines of w characters each, denoting the layout of the original building site.

Output

Per test case:

  • one line with an integer: the cost of building the cheapest possible pool area from the original piece of land.

Example

Input:
3
3 3
5 5 1
#.#
#.#
###
5 4
1 8 1
#..##
##.##
#.#.#
#####
2 2
27 11 11
#.
.#

Output:
9
27
22

Added by:Jeroen Bransen
Date:2011-11-02
Time limit:2.222s
Source limit:50000B
Memory limit:1536MB
Cluster: Cube (Intel G860)
Languages:All except: ASM64
Resource:NWERC 2011 Jury

hide comments
2012-06-08 20:15:28 Korn Acker
If I'm right the complexity of this exercise is something like (number of patches) ^ 3 . I was wondering how can you know that such a solution can pass? Because 2500^3 is quite a lot calculations.
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