public static BruteForceAnalysis PerformBruteForce(SolverInfo information, WitnessWebIterator[] iterators, List <BoxWitness> witnesses)
{
BruteForceAnalysis bfa = new BruteForceAnalysis(information, iterators[0].getTiles(), SolverMain.MAX_BFDA_SOLUTIONS, null);
Cruncher[] crunchers = new Cruncher[iterators.Length];
Task[] tasks = new Task[iterators.Length];
for (int i = 0; i < iterators.Length; i++)
{
crunchers[i] = new Cruncher(information, iterators[i], witnesses, bfa);
Cruncher cruncher = crunchers[i];
tasks[i] = Task.Factory.StartNew(() => { cruncher.Crunch(); });
}
Task.WaitAll(tasks);
int solutions = 0;
int iterations = 0;
for (int i = 0; i < iterators.Length; i++)
{
solutions = solutions + crunchers[i].GetSolutionsFound();
iterations = iterations + iterators[i].GetIterations();
}
information.Write("Solutions found by brute force " + solutions + " after " + iterations + " iterations");
return(bfa);
}
public Cruncher(SolverInfo information, WitnessWebIterator iterator, List <BoxWitness> witnesses, BruteForceAnalysis bfa)
{
this.information = information;
this.iterator = iterator; // the iterator
this.tiles = iterator.getTiles(); // the tiles the iterator is iterating over
this.witnesses = witnesses; // the dependent witnesses (class BoxWitness) which need to be checked to see if they are satisfied
this.bfa = bfa;
// determine how many found mines are currently next to each tile
this.currentFlagsTiles = new sbyte[this.tiles.Count];
for (int i = 0; i < this.tiles.Count; i++)
{
this.currentFlagsTiles[i] = (sbyte)this.information.AdjacentTileInfo(this.tiles[i]).mines;
}
// determine how many found mines are currently next to each witness
this.currentFlagsWitnesses = new sbyte[this.witnesses.Count];
for (int i = 0; i < this.witnesses.Count; i++)
{
this.currentFlagsWitnesses[i] = (sbyte)this.information.AdjacentTileInfo(this.witnesses[i].GetTile()).mines;
}
}
public void AddInformation(GameResult information)
{
//long start = DateTime.Now.Ticks;
gameStatus = information.status;
this.probabilityEngine = null; // previous probability engine invalidated
newClears.Clear();
// the game results tell us when a tile is cleared, flagged or unflagged
foreach (ActionResult ar in information.actionResults)
{
if (ar.resultType == ResultType.Cleared)
{
tilesLeft--;
tiles[ar.x, ar.y].SetValue(ar.value);
SolverTile tile = tiles[ar.x, ar.y];
newClears.Add(tile);
if (tile.IsDead())
{
deadTiles.Remove(tile);
}
//if (tile.IsExcluded()) {
// excludedTiles.Remove(tile);
//}
//pendingClears.Remove(tile);
}
else if (ar.resultType == ResultType.Flagged)
{
tiles[ar.x, ar.y].SetFlagged(true);
}
else if (ar.resultType == ResultType.Hidden)
{
tiles[ar.x, ar.y].SetFlagged(false);
}
else if (ar.resultType == ResultType.Exploded)
{
SolverTile tile = tiles[ar.x, ar.y];
tile.SetFlagged(false);
MineFound(tile);
this.bfa = null; // can't walk the bfa tree if we've trodden on a mine
}
}
// find and mark tiles as exhausted
//int removed = 0;
//if (newClears.Count > 0) {
foreach (SolverTile tile in livingWitnesses)
{
if (AdjacentTileInfo(tile).hidden == 0)
{
tile.SetExhausted();
}
}
// remove all exhausted tiles from the list of witnesses
livingWitnesses.RemoveWhere(x => x.IsExhausted());
//}
// add new witnesses which aren't exhausted
foreach (SolverTile newTile in newClears)
{
AdjacentInfo adjInfo = AdjacentTileInfo(newTile);
if (adjInfo.hidden != 0)
{
if (adjInfo.excluded != adjInfo.hidden)
{
livingWitnesses.Add(newTile);
}
else
{
//excludedWitnesses.Add(newTile);
}
}
}
//Write("There are " + livingWitnesses.Count + " living witnesses (" + removed + " deleted)");
//Write("Adding Information to Solver took " + (DateTime.Now.Ticks - start) + " ticks");
}
public static SolverActionHeader FindActions(SolverInfo information)
{
long time1 = DateTime.Now.Ticks;
List <SolverAction> actions;
if (information.GetGameStatus() == GameStatus.Lost)
{
information.Write("Game has been lost already - no valid moves");
return(new SolverActionHeader());
}
else if (information.GetGameStatus() == GameStatus.Won)
{
information.Write("Game has been won already - no valid moves");
return(new SolverActionHeader());
}
else if (information.GetGameStatus() == GameStatus.NotStarted)
{
information.Write("Game has not yet started - currently unable to provide help");
return(new SolverActionHeader());
}
// are we walking down a brute force deep analysis tree?
BruteForceAnalysis lastBfa = information.GetBruteForceAnalysis();
if (lastBfa != null) // yes
{
SolverTile expectedMove = lastBfa.GetExpectedMove();
if (expectedMove != null && expectedMove.IsHidden()) // the expected move wasn't played !
{
information.Write("The expected Brute Force Analysis move " + expectedMove.AsText() + " wasn't played");
information.SetBruteForceAnalysis(null);
}
else
{
SolverAction move = lastBfa.GetNextMove();
if (move != null)
{
information.Write("Next Brute Force Deep Analysis move is " + move.AsText());
actions = new List <SolverAction>(1);
actions.Add(move);
return(BuildActionHeader(information, actions));
}
}
}
actions = FindTrivialActions(information);
long time2 = DateTime.Now.Ticks;
information.Write("Finding Trivial Actions took " + (time2 - time1) + " ticks");
// if we have some actions from the trivial search use them
if (actions.Count > 0)
{
return(BuildActionHeader(information, actions));
}
if (information.GetTilesLeft() == information.GetDeadTiles().Count)
{
information.Write("All tiles remaining are dead");
// when all the tiles are dead return the first one (they are all equally good or bad)
foreach (SolverTile guess in information.GetDeadTiles())
{
actions.Add(new SolverAction(guess, ActionType.Clear, 0.5)); // not all 0.5 safe though !!
return(BuildActionHeader(information, actions));
}
}
// get all the witnessed tiles
List <SolverTile> witnesses = new List <SolverTile>(information.GetWitnesses());
HashSet <SolverTile> witnessedSet = new HashSet <SolverTile>();
foreach (SolverTile witness in witnesses)
{
foreach (SolverTile adjTile in information.GetAdjacentTiles(witness))
{
if (adjTile.IsHidden())
{
witnessedSet.Add(adjTile);
}
}
}
List <SolverTile> witnessed = new List <SolverTile>(witnessedSet);
int livingTilesLeft = information.GetTilesLeft();
int livingMinesLeft = information.GetMinesLeft();
int offEdgeTilesLeft = information.GetTilesLeft() - witnessed.Count;
//information.Write("Excluded tiles " + information.GetExcludedTiles().Count + " out of " + information.GetTilesLeft());
//information.Write("Excluded witnesses " + information.GetExcludedWitnesses().Count);
//information.Write("Excluded mines " + information.GetExcludedMineCount() + " out of " + information.GetMinesLeft());
// if there are no living mines but some living tiles then the living tiles can be cleared
if (livingMinesLeft == 0 && livingTilesLeft > 0)
{
information.Write("There are no living mines left - all living tiles must be clearable");
for (int x = 0; x < information.description.width; x++)
{
for (int y = 0; y < information.description.height; y++)
{
SolverTile tile = information.GetTile(x, y);
if (tile.IsHidden() && !tile.IsMine())
{
actions.Add(new SolverAction(tile, ActionType.Clear, 1));
}
}
}
return(BuildActionHeader(information, actions));
}
SolutionCounter solutionCounter = new SolutionCounter(information, witnesses, witnessed, livingTilesLeft, livingMinesLeft);
solutionCounter.Process();
information.Write("Solution counter says " + solutionCounter.GetSolutionCount() + " solutions and " + solutionCounter.getClearCount() + " clears");
//ProbabilityEngine pe = new ProbabilityEngine(information, witnesses, witnessed, information.GetTilesLeft(), information.GetMinesLeft());
ProbabilityEngine pe = new ProbabilityEngine(information, witnesses, witnessed, livingTilesLeft, livingMinesLeft);
pe.Process();
long time3 = DateTime.Now.Ticks;
information.Write("Probability Engine took " + (time3 - time2) + " ticks");
// have we found any local clears which we can use
List <SolverTile> localClears = pe.GetLocalClears();
if (localClears.Count > 0)
{
foreach (SolverTile tile in localClears) // place each local clear into an action
{
actions.Add(new SolverAction(tile, ActionType.Clear, 1));
}
information.Write("The probability engine has found " + localClears.Count + " safe Local Clears");
// add any mines to it
List <SolverTile> minesFound = pe.GetMinesFound();
foreach (SolverTile tile in minesFound) // place each mine found into an action
{
information.MineFound(tile);
actions.Add(new SolverAction(tile, ActionType.Flag, 0));
}
information.Write("The probability engine has found " + minesFound.Count + " mines");
return(BuildActionHeader(information, actions));
}
if (pe.GetBestEdgeProbability() == 1)
{
actions = pe.GetBestCandidates(1);
information.Write("The probability engine has found " + actions.Count + " safe Clears");
// add any mines to it
List <SolverTile> minesFound = pe.GetMinesFound();
foreach (SolverTile tile in minesFound) // place each mine found into an action
{
information.MineFound(tile);
actions.Add(new SolverAction(tile, ActionType.Flag, 0));
}
information.Write("The probability engine has found " + minesFound.Count + " mines");
return(BuildActionHeader(information, actions));
}
// dead edge (all tiles on the edge are dead and there is only one mine count value)
if (pe.GetDeadEdge().Count != 0)
{
SolverTile tile = pe.GetDeadEdge()[0];
information.Write("Probability engine has found a dead area, guessing at " + tile.AsText());
double probability = Combination.DivideBigIntegerToDouble(BigInteger.One, pe.GetDeadEdgeSolutionCount(), 6);
actions.Add(new SolverAction(tile, ActionType.Clear, probability));
return(BuildActionHeader(information, actions));
}
// Isolated edges found (all adjacent tiles are also on the edge and there is only one mine count value)
if (pe.GetOutcome() == ProbabilityEngine.Outcome.ISOLATED_EDGE)
{
information.Write("Probability engine has found an isolated area");
Cruncher cruncher = pe.getIsolatedEdgeCruncher();
// determine all possible solutions
cruncher.Crunch();
// determine best way to solver them
BruteForceAnalysis bfa = cruncher.GetBruteForceAnalysis();
bfa.process();
// if after trying to process the data we can't complete then abandon it
if (!bfa.IsComplete())
{
information.Write("Abandoned the Brute Force Analysis after " + bfa.GetNodeCount() + " steps");
bfa = null;
}
else // otherwise try and get the best long term move
{
information.Write("Built probability tree from " + bfa.GetSolutionCount() + " solutions in " + bfa.GetNodeCount() + " steps");
SolverAction move = bfa.GetNextMove();
if (move != null)
{
information.SetBruteForceAnalysis(bfa); // save the details so we can walk the tree
information.Write("Brute Force Analysis: " + move.AsText());
actions.Add(move);
return(BuildActionHeader(information, actions));
}
else if (bfa.GetAllDead())
{
SolverTile tile = cruncher.getTiles()[0];
information.Write("Brute Force Analysis has decided all tiles are dead on the Isolated Edge, guessing at " + tile.AsText());
double probability = Combination.DivideBigIntegerToDouble(BigInteger.One, bfa.GetSolutionCount(), 6);
actions.Add(new SolverAction(tile, ActionType.Clear, probability));
return(BuildActionHeader(information, actions));
}
else
{
information.Write("Brute Force Analysis: no move found!");
}
}
}
// after this point we know the probability engine didn't return any certain clears. But there are still some special cases when everything off edge is either clear or a mine
// If there are tiles off the edge and they are definitely safe then clear them all, or mines then flag them
if (offEdgeTilesLeft > 0 && (pe.GetOffEdgeProbability() == 1 || pe.GetOffEdgeProbability() == 0))
{
information.Write("Looking for the certain moves off the edge found by the probability engine");
bool clear;
if (pe.GetOffEdgeProbability() == 1)
{
information.Write("All off edge tiles are clear");
clear = true;
}
else
{
information.Write("All off edge tiles are mines");
clear = false;
}
for (int x = 0; x < information.description.width; x++)
{
for (int y = 0; y < information.description.height; y++)
{
SolverTile tile = information.GetTile(x, y);
if (tile.IsHidden() && !witnessedSet.Contains(tile))
{
if (clear)
{
information.Write(tile.AsText() + " is clear");
actions.Add(new SolverAction(tile, ActionType.Clear, 1));
}
else
{
information.Write(tile.AsText() + " is mine");
information.MineFound(tile);
actions.Add(new SolverAction(tile, ActionType.Flag, 0));
}
}
}
}
if (actions.Count > 0)
{
// add any mines to it
List <SolverTile> minesFound = pe.GetMinesFound();
foreach (SolverTile tile in minesFound) // place each mine found into an action
{
information.MineFound(tile);
actions.Add(new SolverAction(tile, ActionType.Flag, 0));
}
information.Write("The probability engine has found " + minesFound.Count + " mines");
return(BuildActionHeader(information, actions));
}
else
{
Console.WriteLine("No Actions found!");
}
}
// these are guesses
List <SolverAction> guesses = pe.GetBestCandidates(1);
// we know the Probability Engine completed so hold onto the information for the gui
information.SetProbabilityEngine(pe);
// if there aren't many possible solutions then do a brute force search
if (pe.GetSolutionCount() <= MAX_BFDA_SOLUTIONS)
{
//if (minesFound.Count > 0) {
// information.Write("Not doing a brute force analysis because we found some mines using the probability engine");
// return BuildActionHeader(information, actions);
//}
// find a set of independent witnesses we can use as the base of the iteration
pe.GenerateIndependentWitnesses();
BigInteger expectedIterations = pe.GetIndependentIterations() * SolverMain.Calculate(livingMinesLeft - pe.GetIndependentMines(), livingTilesLeft - pe.GetIndependentTiles());
information.Write("Expected Brute Force iterations " + expectedIterations);
// do the brute force if there are not too many iterations
if (expectedIterations < MAX_BRUTE_FORCE_ITERATIONS)
{
List <SolverTile> allCoveredTiles = new List <SolverTile>();
for (int x = 0; x < information.description.width; x++)
{
for (int y = 0; y < information.description.height; y++)
{
SolverTile tile = information.GetTile(x, y);
if (tile.IsHidden() && !tile.IsMine())
{
allCoveredTiles.Add(tile);
}
}
}
WitnessWebIterator[] iterators = BuildParallelIterators(information, pe, allCoveredTiles, expectedIterations);
BruteForceAnalysis bfa = Cruncher.PerformBruteForce(information, iterators, pe.GetDependentWitnesses());
bfa.process();
// if after trying to process the data we can't complete then abandon it
if (!bfa.IsComplete())
{
information.Write("Abandoned the Brute Force Analysis after " + bfa.GetNodeCount() + " steps");
bfa = null;
}
else // otherwise try and get the best long term move
{
information.Write("Built probability tree from " + bfa.GetSolutionCount() + " solutions in " + bfa.GetNodeCount() + " steps");
SolverAction move = bfa.GetNextMove();
if (move != null)
{
information.SetBruteForceAnalysis(bfa); // save the details so we can walk the tree
information.Write("Brute Force Analysis: " + move.AsText());
actions.Add(move);
return(BuildActionHeader(information, actions));
}
else
{
information.Write("Brute Force Analysis: no move found!");
}
}
}
else
{
information.Write("Too many iterations, Brute Force not atempted");
}
}
if (guesses.Count == 0) // find an off edge guess
{
if (offEdgeTilesLeft > 0)
{
information.Write("getting an off edge guess");
SolverTile tile = OffEdgeGuess(information, witnessedSet);
SolverAction action = new SolverAction(tile, ActionType.Clear, pe.GetOffEdgeProbability());
information.Write(action.AsText());
actions.Add(action);
}
else
{
if (information.GetDeadTiles().Count > 0)
{
information.Write("Finding a dead tile to guess");
SolverTile tile = null;
foreach (SolverTile deadTile in information.GetDeadTiles()) // get the first dead tile
{
tile = deadTile;
break;
}
SolverAction action = new SolverAction(tile, ActionType.Clear, 0.5); // probability may not be 0.5
actions.Add(action);
}
}
}
else if (guesses.Count > 1) // if we have more than 1 guess then do some tie break logic
{
information.Write("Doing a tie break for " + guesses.Count + " actions");
actions = DoTieBreak(guesses);
}
else
{
actions = guesses;
}
return(BuildActionHeader(information, actions));
}
/*
* public void ExcludeMines(int n) {
*
* if (!EXCLUDE_ON) {
* return;
* }
*
* this.excludedMinesCount = this.excludedMinesCount + n;
* }
*
* public int GetExcludedMineCount() {
* return this.excludedMinesCount;
* }
*
* public void ExcludeTile(SolverTile tile) {
*
* if (!EXCLUDE_ON) {
* return;
* }
*
* tile.SetExcluded();
* excludedTiles.Add(tile);
* }
*
* public HashSet<SolverTile> GetExcludedTiles() {
* return this.excludedTiles;
* }
*
* /// <summary>
* /// Move a tile from the list of witnesses to the list of excluded witnesses
* /// </summary>
* public void ExcludeWitness(SolverTile tile) {
*
* if (!EXCLUDE_ON) {
* return;
* }
*
* tile.SetExcluded();
* if (livingWitnesses.Remove(tile)) {
* excludedWitnesses.Add(tile);
* }
* }
*
* public HashSet<SolverTile> GetExcludedWitnesses() {
* return this.excludedWitnesses;
* }
*/
public void SetBruteForceAnalysis(BruteForceAnalysis bfa)
{
this.bfa = bfa;
}
public Node(BruteForceAnalysis bfa, Position position)
{
this.position = position;
this.bfa = bfa;
}
public Node(BruteForceAnalysis bfa, int size)
{
position = new Position(size);
this.bfa = bfa;
}
public SolutionTable(BruteForceAnalysis bfa, int maxSize)
{
this.bfa = bfa;
solutions = new sbyte[maxSize][];
}
public LivingLocation(BruteForceAnalysis bfa, short index)
{
this.index = index;
this.bfa = bfa;
}
