You basically have two options. Both have advantages and disadvantages, so you might want to combine ideas from both into your solution.
Option 1: Write a heuristic
Think about situations which make the game impossible to solve (such as being stuck in a ring of wall blocks). Detect such situations and print "no more moves" as soon as such a situation occurs. The more such situations you can think of and implement, the better your algorithm becomes.
Advantage: Easy and fast.
Disadvantage: There will be cases where the game is unsolvable but your algorithm does not detect it.
Option 2: Write a solver
Write a program that, given a state of your game (where is the player, where are the blocks, etc.), outputs a list of steps that can be taken to solve the game (or
null or some other special value when there is no solution anymore -- this is your "no more moves" case).
How to implement something like this depends on the exact rules of the game. A simple approach is to do a Breadth-First Search on the Game Tree: Every node in your tree is a game state, and every arc between nodes is a possible action that the player could take (move up, move down, etc.).
Advantage: This reliably detects when the game cannot be won anymore. In addition, this program can be used to give hints to the player when he gets stuck.
Disadvantage: Depending on the complexity of your game, calculating a solution might take ages. For very simple games this could work; for somewhat simple games it might take very long, and for fairly complex games such a chess or checkers, it's very hard or impossible.