static bool SplitBetween(LetterClass a, LetterClass b) { return(a != b || a == LetterClass.Other || b == LetterClass.Other ); }
private static void initializeTheLetterCommonText(string letter_Instructions, string letter_welcomePara, string letter_body, string letter_Title, string sum_Title, string sum_body, string sum_Instructions, string sum_Welcome, out LetterClass summaryLetter, out LetterClass verificationLetter) { //set up the letter classes for printing summaryLetter = new LetterClass(); verificationLetter = new LetterClass(); summaryLetter.Load(sum_Title, sum_Welcome, sum_body, sum_Instructions); verificationLetter.Load(letter_Title, letter_welcomePara, letter_body, letter_Instructions); }
public List <WordClass> solve() { foreach (string word in wordsToFind) { for (int i = 0; i < this.numberOfRows; i++) { for (int j = 0; j < this.numberOfColumns; j++) { if (word[0] == puzzle[i][j]) { LetterClass initialLetter = new LetterClass(word[0], i, j); allSolutions(i, j, word, initialLetter); } } } } return(this.solution); }
static bool SplitBetween(LetterClass a, LetterClass b) { return a != b || a == LetterClass.Other || b == LetterClass.Other ; }
private void wordDisplacement(int initialRowPosition, int initialColumnPosition, int despRow, int despCol, string word, LetterClass initialLetter) { List <LetterClass> positions = new List <LetterClass>(); positions.Add(initialLetter); int r = initialRowPosition; int c = initialColumnPosition; for (int i = 1; i < word.Count(); i++) { r += despRow; c += despCol; if (r >= 0 && c >= 0 && r < this.numberOfRows && c < this.numberOfColumns) { positions.Add(new LetterClass(this.puzzle[r][c], r, c)); } } addToSolution(positions, word); }
private void solveRightDown(int initialRowPosition, int initialColumnPosition, string word, LetterClass initialLetter) { wordDisplacement(initialRowPosition, initialColumnPosition, 1, 1, word, initialLetter); }
private void solveLeftUp(int initialRowPosition, int initialColumnPosition, string word, LetterClass initialLetter) { wordDisplacement(initialRowPosition, initialColumnPosition, -1, -1, word, initialLetter); }
private void allSolutions(int initialRowPosition, int initialColumnPosition, string word, LetterClass initialLetter) { solveUp(initialRowPosition, initialColumnPosition, word, initialLetter); solveDown(initialRowPosition, initialColumnPosition, word, initialLetter); solveLeft(initialRowPosition, initialColumnPosition, word, initialLetter); solveRight(initialRowPosition, initialColumnPosition, word, initialLetter); solveLeftUp(initialRowPosition, initialColumnPosition, word, initialLetter); solveLeftDown(initialRowPosition, initialColumnPosition, word, initialLetter); solveRightUp(initialRowPosition, initialColumnPosition, word, initialLetter); solveRightDown(initialRowPosition, initialColumnPosition, word, initialLetter); }