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@@ -553,7 +553,6 @@ impl AnyPossible {
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(pos, max)
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}
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-
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pub fn find_pairs(&mut self, cellgroup: &[usize]) -> (Vec<(Vec<u8>, Vec<u8>)>, bool) {
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// result[value] = indexes where it is located?
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// Step 1: find values, and their position(s).
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@@ -599,20 +598,24 @@ impl AnyPossible {
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}
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let count = pos_found.count_set();
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+ /*
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if count == 1 {
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// Single possible item here ... skip this for now.
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continue;
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}
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+ */
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let mut matches = 1;
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// Pos contains the numbers in the cell.
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let mut pos = Vec::<u8>::new();
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pos.push(idx);
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- for look in idx + 1..width {
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- if result[look as usize] == pos_found {
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- matches += 1;
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- pos.push(look);
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+ if count != 1 {
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+ for look in idx + 1..width {
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+ if result[look as usize] == pos_found {
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+ matches += 1;
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+ pos.push(look);
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+ }
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}
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}
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@@ -629,7 +632,7 @@ impl AnyPossible {
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index_pos.push(p);
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if self.possible[cellgroup[p as usize]] != new_possible {
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// println!("Update pos {} with {:?}", p, new_possible);
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- /*
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+ /*
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println!(
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"Index is {} => {:?}",
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cellgroup[p as usize],
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@@ -648,7 +651,6 @@ impl AnyPossible {
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(pairs, possibles_updated)
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}
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-
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/// Display Possible
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/// - Collect all of the possibles, with max length.
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/// - Display formatted (using max length).
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@@ -678,16 +680,19 @@ yet another. I think that's how I mentally judge the puzzles.
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*/
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+/*
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pub struct Pairs {
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pub values: [u8; 2],
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pub pos: [u8; 2],
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}
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+*/
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#[derive(Debug, Clone)]
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pub struct AnySolver {
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pub board: AnyBoard,
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pub possible: AnyPossible,
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pub group: AnyGroup,
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+ // Is this value set in the given cell?
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pub cell_poss: Vec<GenBits<u32>>,
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}
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@@ -813,31 +818,126 @@ impl AnySolver {
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// OR, just check row and columns?
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}
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-
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+
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+ pub fn finalize_possible(&mut self) {
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+ let width = self.board.width;
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+ let size = self.board.size;
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+
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+ // I might want to save the pair information.
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+
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+ for cell in 0..width {
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+ self.possible
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+ .find_pairs(self.group.group(Groups::Cell, cell));
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+ }
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+
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+ // What values are possible in which rows/columns and cells?
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+
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+ // Scan rows/columns
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+ for cell in 0..width {
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+ let cell_info = self.group.group(Groups::Cell, cell);
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+
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+ for row in 0..size {
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+
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+ }
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+ }
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+ }
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+
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// find_pairs: Finds the pairs (and triples, and quads, and ...) *MOVED to AnyPossible*
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/// Finalize move on the board.
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/// - This uses the cell index last modified, so we have fewer
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/// cells to check here. (2 * size) cells.
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- pub fn finalize_cell(&mut self, index: u8) {
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- let size = self.board.width;
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+ #[deprecated]
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+ pub fn finalize_cell(&mut self, cell_index: u8) {
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+ let width = self.board.width;
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+ let size = self.board.size;
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let mut update: bool = false;
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- self.possible.find_pairs(self.group.group(Groups::Cell, index));
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+ self.possible
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+ .find_pairs(self.group.group(Groups::Cell, cell_index));
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// println!("Finalize Cell Pairs: {:?}", self.possible.find_pairs(self.group.group(Groups::Cell, index)));
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+ /*
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+ Let me describe what I want to do here:
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+
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+ ╔═══╦═══╦═══╗
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+ ║ 2 ║ ║ ║
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+ ║ ║ ║ ║
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+ ║ ║ ║ ║
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+ ╠═══╬═══╬═══╣
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+ ║3 ║ ║ ║
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+ ║4 ║ ║ ║
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+ ║5 ║ ║ ║
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+ ╠═══╬═══╬═══╣
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+ ║ ║ ║ ║
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+ ║ ║ ║ ║
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+ ║ ║ ║ ║
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+ ╚═══╩═══╩═══╝
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+ (1,1):1,6,7,8,9 (2,1): (3,1):1,3,4,5,6,7,8,9
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+ (1,2):1,6,7,8,9 (2,2):1,3,4,5,6,7,8,9 (3,2):1,3,4,5,6,7,8,9
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+ (1,3):1,6,7,8,9 (2,3):1,3,4,5,6,7,8,9 (3,3):1,3,4,5,6,7,8,9
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+ (1,4): (2,4):1,6,7,8,9 (3,4):1,2,6,7,8,9
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+ (1,5): (2,5):1,6,7,8,9 (3,5):1,2,6,7,8,9
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+ (1,6): (2,6):1,6,7,8,9 (3,6):1,2,6,7,8,9
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+ (1,7):1,2,6,7,8,9 (2,7):1,3,4,5,6,7,8,9 (3,7):1,2,3,4,5,6,7,8,9
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+ (1,8):1,2,6,7,8,9 (2,8):1,3,4,5,6,7,8,9 (3,8):1,2,3,4,5,6,7,8,9
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+ (1,9):1,2,6,7,8,9 (2,9):1,3,4,5,6,7,8,9 (3,9):1,2,3,4,5,6,7,8,9
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+
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+ In cell 3, 2 must be in the last column.
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+ In cell 6, 2 must be in the first column. (3,7), (3,8) and (3,9) should not contain 2.
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+
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+ */
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+ let (cell_x, cell_y) = self.group.xy(self.group.group(Groups::Cell, cell_index)[0]);
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+ let x_range = cell_x..cell_x + self.board.size;
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+ let y_range = cell_y..cell_y + self.board.size;
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+ let top_cell = cell_index - (cell_index / size) * size;
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+ let left_cell = cell_index - (cell_index % size);
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+
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+ println!(
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+ "finalize_cell({cell_index}): ({cell_x},{cell_y}) top {top_cell} left {left_cell}"
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+ );
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+
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+ // Ranges are consumed.
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+
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// Check columns - (of given cell) for logical removes (see logic_test for example)
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- for c in 0..size {
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- // Calculate the row and column for the given cell.
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- let _col = (index % size) * size + c;
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- // println!("Index {} COL {}", index, col);
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+ for value in 0..width {
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+ // Find what columns value is allowed. (in which cells).
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+ // Is this value needed in any of the cells?
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+ let mut found = GenBits::<u32>(0);
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+ let mut all_cells = found;
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+
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+ for ci in (top_cell..width).step_by(size as usize) {
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+ all_cells.set(ci as usize, true);
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+ if self.cell_poss[ci as usize].get(value as usize) {
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+ found.set(ci as usize, true);
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+ }
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+ }
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+
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+ if found == GenBits::<u32>(0) {
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+ // Not possible anywhere, so skip to next value.
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+ continue;
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+ }
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+
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+ println!("Value {} {:?} is needed {:?}", value + 1, all_cells, found);
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+
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+ for x in x_range.clone() {
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+ for y in 0..width {
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+ // Calculate the row and column for the given cell.
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+ // let _col = (cell_index % width) * width + c;
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+ // println!("Index {} COL {}", index, col);
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+ }
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+ }
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}
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// Check rows
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- for r in 0..size {
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- // Calculate the row and column for the given cell.
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- let _row = (index / size) * size + r;
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- // println!("Index {} ROW {}", index, row);
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+ for value in 0..width {
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+ for y in y_range.clone() {
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+ for x in 0..width {
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+ // Calculate the row and column for the given cell.
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+ // let _row = (cell_index / width) * width + r;
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+ // println!("Index {} ROW {}", index, row);
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+ }
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+ }
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}
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println!("finalize_cell ends...");
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}
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@@ -846,7 +946,13 @@ impl AnySolver {
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/// - This checks the board for logic fixes. (when column is full/has 1+pair/triple)
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pub fn finalize_move(&mut self) {
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// Process the cells diagonally.
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- println!("TODO: (finalize_move)");
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+ println!("TODO: (naively)");
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+
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+ // naive solution - check all the cells.
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+ for idx in 0..self.board.width {
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+ self.finalize_cell(idx);
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+ }
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+
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/*
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for idx in 0..self.board.size {
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self.finalize_cell(idx + idx * self.board.size);
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@@ -1611,8 +1717,13 @@ mod tests {
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*/
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solver.possible.display();
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- let pos_index = solver.group.pos(2,6);
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- assert_eq!(solver.possible.get(pos_index, 1), false, "(3,7) contains a 2 [{:?}](not possible)", solver.possible.possible[pos_index]);
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+ let pos_index = solver.group.pos(2, 6);
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+ assert_eq!(
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+ solver.possible.get(pos_index, 1),
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+ false,
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+ "(3,7) contains a 2 [{:?}](not possible)",
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+ solver.possible.possible[pos_index]
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+ );
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// assert!(solver.validate_board());
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solver.possible.display();
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@@ -1662,6 +1773,7 @@ mod tests {
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board.set(1, 7, 5);
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board.display();
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let mut solver = AnySolver::new_from(&board);
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+ solver.possible.display();
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/*
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╔═══╦═══╦═══╗
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@@ -1695,12 +1807,14 @@ mod tests {
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println!("RIGHT HERE:");
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/*
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- let g= solver.group.group(Groups::Cell, 3);
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+ let g= solver.group.group(Groups::Cell, 3);
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let pairs = solver.possible.find_pairs(g);
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*/
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- let pairs = solver.possible.find_pairs(solver.group.group(Groups::Cell, 3));
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+ let pairs = solver
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+ .possible
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+ .find_pairs(solver.group.group(Groups::Cell, 3));
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println!("Pairs [cell index 3]: {:?}", pairs);
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- let g= solver.group.group(Groups::Row, 4); // .clone();
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+ let g = solver.group.group(Groups::Row, 4); // .clone();
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let pairs = solver.possible.find_pairs(g);
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println!("Pairs [ row index 4]: {:?}", pairs);
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@@ -1750,8 +1864,8 @@ mod tests {
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*/
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println!("RIGHT HERE:");
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- let g= solver.group.group(Groups::Cell, 3);
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- println!("Pairs [cell index 3]: {:?}", solver.possible.find_pairs( g));
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+ let g = solver.group.group(Groups::Cell, 3);
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+ println!("Pairs [cell index 3]: {:?}", solver.possible.find_pairs(g));
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solver.finalize_cell(3);
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solver.possible.display();
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