# Generate winnable solitaire games with a randomness equivalent to shuffling

If you are given:

1. A good shuffling algorithm (a good source of randomness plus a method of shuffling not subject to any of the common pitfalls which would bias the result)
2. A magic function `WINNABLE(D)` which takes the shuffled deck and returns True if the deck `D` is winnable by some playing sequence, or False if it inevitably results in a losing position.

then it would be possible to generate a set of "well distributed" winnable solitaire deals by generating a large set of starting decks with (1) and then filtering them down to the winnable set with (2). This method of randomly generating possibilities and picking from them is always a good starting point when you're trying to avoid having subtle selection bias creep in to your result.

The problem with this is that (2) is hard (maybe NP-hard depending on the game) and even approximations of it are computationally expensive (if you're on an iPad, say). However, cheaper algorithms such as starting from a winning position and making random "un-moves" to reverse the game back to a starting point may have biases toward particular deck shuffles that are very hard to quantify or avoid.

Are there any interesting algorithms or research in the area of generating winnable games like this?

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I usually go about this in reverse; from a solved position I generate random mutations until I reach a starting point with a given 'complexity' (level). **Simon Tatham's puzzle collection also has many generative algorithms that generates solvable cases of peg solitaire, mine field, inertia, etc. etc. You could look at his problem generators. –  sehe Sep 17 '13 at 21:49

Hmm, I don't know much about Solitaire but this is how I would tackle the problem. See my pseudo code.

//Assuming you have created a "card" object.

``````Generate a List<Cards> deck;// A list populated with every card in deck that you can use in Solitaire with the number of each card you can use in Solitaire.
Generate a List<Cards> table;
while(deck.size()>0){//This is the real code.
`"If you are given ... A good shuffling algorithm ..."` - a shuffling algorithm is already given, the task is not to write one. –  Dukeling Sep 18 '13 at 5:53