I'm creating a variant of a chess-like program that needs to simultaneously generate and traverse a very large tree-like structure. Each node has 10 bools, an int, 8 ulongs, a short and 2 ulongs. The root node receives some initial parameters, then the valid children nodes are determined programatically (recursively) from there.
Basically, my program continuously grows this tree while the user and the program takes turns traversing from child node to child node. Each time a new child node is 'chosen', it's parent and siblings are no longer needed and are discarded. As the tree reaches (on average) a depth of about 60 (from the initial root node), the number of valid children nodes will naturally begin to dwindle until at about a depth of about 75, the tree resolves into one final node with no further children.
The logic behind this looked fairly straight forward at first, but I'm constantly hitting an OutOfMemoryException that is outright killing any further progress.
The following at some averages for valid children per 'generation':
Generation New Nodes 1 1 2 20 3 4,000 4 30,000 5 2,200,000 6 > 50,000,000
In my actual program, I can't even fully expand the fifth generation. When I don't persist the node specific data (I clear a node's data once it's been used to determine it's own children) I can fully expand the 5th generation, but hit a very solid wall partway though the sixth generation.
Ideally, I would like my program to eventually reach and then maintain 8 generations of nodes afer the 'current' node. The more I look at this, the less likely this seems.
I tired running this with an sqlite database, but it wasn't able to grow the tree fast enough.
Does anyone know of any potential alternatives to dealing with a very large tree structure?