I am designing a SDL game where the player(human) can place nets on a N*M grid such that each net covers a single element of the grid only (There are N*M elements/cells on the grid).
Now in each round of the game (the game currently has 10 rounds ),the player can place nets on the grid by purchasing nets with each net costing NetCost (which is subtracted from the player's score) in order to catch balls falling. Also the player can move move the nets at start of any round to a cell/element sharing an edge (ie up,down,left,right).
Now balls fall in each round (each round is instantaneous theoritically although in the visuals of the game it lastss 2 seconds)
The players's nets catch these balls such that a net placed at a cell catches all balls that fell at that particular cell.
For each ball missed there is a penalty on the score B.
The player starts with a fixed score.
The computer player and human player play the same round separately such that choices made by human player don't affect computer player and vice versa.
Now I have to design an efficient computer player for single player mode .The computer player will also start from the same score as the human player. The purpose of the computer player is to get maximum score possible on the same grid using the same nets available to the user. These inputs to the computer player will be the balls falling in each round R at the starting of the round R along with their grid location. How can I design an efficient computer player for this game?
Note the grid size is constant for each round and is 30x30. The starting score is fixed at 100,000 for both players.However net cost and the ball drop penalty maybe chosen by the user at the start of the game ie before round 1 .These costs remain constant for all the rounds The number of nets may be limited to lets say 200 for each round. I am not sure what algorithm I can apply here. Can someone please guide me in the right direction?