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Merge pull request 'Add Generator' (#1) from generator into master

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Reviewed-on: #1
This commit is contained in:
Joel Therrien 2020-09-23 02:32:30 +00:00
commit 4454fdd5d2
7 changed files with 523 additions and 86 deletions
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2
Cargo.toml
View file

@ -9,3 +9,5 @@ edition = "2018"
[dependencies]
csv = "1.1.3"
argparse = "0.2.2"
rand = "0.7"
rand_chacha = "0.2.2"

107
src/bin/generator.rs Normal file
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@ -0,0 +1,107 @@
use rand_chacha::ChaCha8Rng;
use rand::prelude::*;
use sudoku_solver::grid::{Grid, CellValue};
use std::error::Error;
use std::io::Write;
fn main() {
let mut debug = false;
// Starting default seed will just be based on time
let mut seed = std::time::SystemTime::now().duration_since(std::time::UNIX_EPOCH).expect("Time went backwards").as_secs();
let mut max_hints = 81;
let mut max_attempts = 100;
let mut filename : Option<String> = None;
{ // this block limits scope of borrows by ap.refer() method
let mut ap = argparse::ArgumentParser::new();
ap.set_description("Generate Sudoku puzzles");
ap.refer(&mut debug)
.add_option(&["--debug"], argparse::StoreTrue, "Run in debug mode");
ap.refer(&mut seed)
.add_option(&["--seed"], argparse::Store, "Provide seed for puzzle generation");
ap.refer(&mut max_hints)
.add_option(&["--hints"], argparse::Store, "Only return a puzzle with less than or equal to this number of hints");
ap.refer(&mut max_attempts)
.add_option(&["--attempts"], argparse::Store, "Number of attempts that will be tried to generate such a puzzle; default is 100");
ap.refer(&mut filename)
.add_argument("filename", argparse::StoreOption, "Optional filename to store puzzle in as a CSV");
ap.parse_args_or_exit();
}
if debug {
unsafe {
sudoku_solver::grid::DEBUG = true;
sudoku_solver::solver::DEBUG = true;
sudoku_solver::generator::DEBUG = true;
}
}
if debug {
println!("Using seed {}", seed);
}
let mut rng = ChaCha8Rng::seed_from_u64(seed);
let mut num_attempts = 0;
let grid = loop {
if num_attempts >= max_attempts{
println!("Unable to find a puzzle with only {} hints in {} attempts", max_hints, max_attempts);
return;
}
let (grid, num_hints) = sudoku_solver::generator::generate_grid(&mut rng);
num_attempts = num_attempts + 1;
if num_hints <= max_hints {
println!("{}", grid);
println!("Puzzle has {} hints", num_hints);
if num_attempts > 1 {
println!("It took {} attempts to find this puzzle.", num_attempts);
}
break grid;
}
};
match filename {
Some(filename) => {
save_grid(&grid, &filename).unwrap();
println!("Grid saved to {}", filename);
},
None => {}
}
}
fn save_grid(grid: &Grid, filename: &str) -> Result<(), Box<dyn Error>>{
// Not using the csv crate for writing because it's being difficult and won't accept raw integers
let mut file = std::fs::File::create(filename)?;
for x in 0..9 {
for y in 0..9 {
let cell = grid.get(x, y).unwrap();
let value = &*cell.value.borrow();
let digit =
match value {
CellValue::Fixed(digit) => {*digit}
CellValue::Unknown(_) => {0}
};
let mut text = digit.to_string();
if y < 8 {
text.push(',');
}
file.write(text.as_bytes())?;
}
file.write(b"\n")?;
}
Ok(())
}

0
src/main.rs → src/bin/solver.rs
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328
src/generator.rs Normal file
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@ -0,0 +1,328 @@
use crate::grid::{Cell, Grid, CellValue, Line};
use crate::solver::{solve_grid_no_guess, SolveStatus, find_smallest_cell};
use std::rc::Rc;
use rand::prelude::*;
use rand_chacha::ChaCha8Rng;
pub static mut DEBUG : bool = false;
// Extension of SolveStatus
pub enum GenerateStatus {
UniqueSolution,
Unfinished,
NoSolution,
NotUniqueSolution
}
impl GenerateStatus {
fn increment(self, new_status : GenerateStatus) -> GenerateStatus {
match self {
GenerateStatus::UniqueSolution => {
match new_status {
GenerateStatus::UniqueSolution => GenerateStatus::NotUniqueSolution, // We now have two completes, so the solutions are not unique
GenerateStatus::NoSolution => GenerateStatus::UniqueSolution, // We already have a complete, so no issue with another guess being invalid
GenerateStatus::Unfinished => {panic!("Should not have encountered an UNFINISHED status")},
GenerateStatus::NotUniqueSolution => GenerateStatus::NotUniqueSolution // That solver found multiple solutions so no need to keep checking
}
},
GenerateStatus::Unfinished => {
match new_status {
GenerateStatus::UniqueSolution => GenerateStatus::UniqueSolution,
GenerateStatus::NoSolution => GenerateStatus::Unfinished,
GenerateStatus::Unfinished => {panic!("Should not have encountered an UNFINISHED status")},
GenerateStatus::NotUniqueSolution => GenerateStatus::NotUniqueSolution // That solver found multiple solutions so no need to keep checking
}
},
GenerateStatus::NotUniqueSolution => GenerateStatus::NotUniqueSolution,
GenerateStatus::NoSolution => GenerateStatus::NoSolution // This guess didn't pan out
}
}
}
impl SolveStatus {
fn map_to_generate_status(self) -> GenerateStatus {
match self {
SolveStatus::Complete => {GenerateStatus::UniqueSolution }
SolveStatus::Unfinished => {GenerateStatus::Unfinished }
SolveStatus::Invalid => {GenerateStatus::NoSolution }
}
}
}
impl Grid {
fn get_random_empty_cell(&self, rng : &mut ChaCha8Rng) -> Result<Rc<Cell>, &str> {
// Idea - put all empty cells into a vector and choose one at random
// If vector is empty we return an error
let mut empty_cells = Vec::new();
for x in 0..9 {
for y in 0..9 {
let cell = self.get(x, y).unwrap();
let add_cell = {
let cell_value = &*cell.value.borrow();
match cell_value { // May cause issues with borrow rules
CellValue::Fixed(_) => {false}
CellValue::Unknown(_) => {
true
}
}
};
if add_cell {
empty_cells.push(cell);
}
}
}
match empty_cells.iter().choose(rng) {
Some(cell) => Ok(Rc::clone(cell)),
None => Err("Unable to find an empty cell")
}
}
}
impl Cell {
fn delete_value(&self){
unsafe {
if DEBUG {
println!("Cell {}, {} had its value deleted.", self.x, self.y);
}
}
self.set_value_exact(CellValue::Unknown(vec![])); // placeholder
// This will reset all the possibilities for this cell and the ones that might have been limited by this cell
self.section.upgrade().unwrap().borrow().recalculate_and_set_possibilities();
self.row.upgrade().unwrap().borrow().recalculate_and_set_possibilities();
self.column.upgrade().unwrap().borrow().recalculate_and_set_possibilities();
}
/**
As part of delete_value, we need to manually recalculate possibilities for not just the cell whose value we deleted,
but also the other empty cells in the same row, column, and section.
*/
fn calculate_possibilities(&self) -> Vec<u8> {
// Need to calculate possibilities for this cell
let mut possibilities = vec![1, 2, 3, 4, 5, 6, 7, 8, 9];
fn eliminate_possibilities(possibilities: &mut Vec<u8>, line: &Line, cell: &Cell){
for (_index, other) in line.vec.iter().enumerate(){
if other.x != cell.x || other.y != cell.y {
let value = &*other.value.borrow();
match value {
CellValue::Fixed(digit) => {
let location = possibilities.binary_search(digit);
match location {
Ok(location) => {
possibilities.remove(location);
}
Err(_) => {}
}
}
CellValue::Unknown(_) => {}
}
}
}
}
eliminate_possibilities(&mut possibilities, &self.section.upgrade().unwrap().borrow(), self);
eliminate_possibilities(&mut possibilities, &self.row.upgrade().unwrap().borrow(), self);
eliminate_possibilities(&mut possibilities, &self.column.upgrade().unwrap().borrow(), self);
return possibilities;
}
}
impl Line {
fn recalculate_and_set_possibilities(&self) {
for (_index, cell) in self.vec.iter().enumerate() {
let cell = &**cell;
let new_possibilities = {
let cell_value = &*cell.value.borrow();
match cell_value {
CellValue::Fixed(_) => { continue; }
CellValue::Unknown(_) => {
cell.calculate_possibilities()
}
}
};
cell.set_value_exact(CellValue::Unknown(new_possibilities));
}
}
}
pub fn generate_grid(rng: &mut ChaCha8Rng) -> (Grid, i32) {
let mut num_hints;
let mut grid : Grid = loop {
// First step; randomly assign 8 different digits to different empty cells and see if there's a possible solution
// We have to ensure that 8 of the digits appear at least once, otherwise the solution can't be unique because you could interchange the two missing digits throughout the puzzle
// We do this in a loop so that if we are really unlucky and our guesses stop there from being any solution, we can easily re-run it
let mut grid = Grid::new();
num_hints = 0;
let digit_excluded = rng.gen_range(1, 10);
for digit in 1..10 {
if digit != digit_excluded {
let cell = grid.get_random_empty_cell(rng);
cell.unwrap().set(digit);
num_hints = num_hints + 1;
}
}
let status = solve_grid(&mut grid);
match status {
GenerateStatus::UniqueSolution => { // very surprising result, given that the smallest puzzles found have 14 guesses
eprintln!("Wow! A puzzle with only 8 guesses have been found");
return (grid, num_hints);
}
GenerateStatus::Unfinished => {panic!("solve_grid should never return UNFINISHED")}
GenerateStatus::NoSolution => {continue;}
GenerateStatus::NotUniqueSolution => {break grid;}
};
};
// Alright, we now have a grid that we can start adding more guesses onto until we find a unique solution
grid =
'outer: loop {
num_hints = num_hints + 1;
let cell = grid.get_random_empty_cell(rng).unwrap(); // We unwrap because if somehow we're filled each cell without finding a solution, that's reason for a panic
let cell = &*cell;
let mut cell_possibilities = cell.get_value_possibilities().expect("An empty cell has no possibilities");
// Let's scramble the order
cell_possibilities.shuffle(rng);
for (_index, digit) in cell_possibilities.iter().enumerate() {
let grid_clone = grid.clone();
let cell = &*grid_clone.get(cell.x, cell.y).unwrap();
cell.set(*digit);
let status = solve_grid(&grid_clone);
match status {
GenerateStatus::UniqueSolution => { // We're done!
break 'outer grid_clone;
}
GenerateStatus::Unfinished => {
panic!("solve_grid should never return UNFINISHED")
}
GenerateStatus::NoSolution => { // Try another guess
continue;
}
GenerateStatus::NotUniqueSolution => { // We need more guesses
grid = grid_clone;
continue 'outer;
}
}
};
// If we reach this point in the loop, then none of the possibilities for cell provided any solution
// Which means something serious happened before in the solving process - reason for panic
eprint!("No valid hints were found for puzzle\n{} at cell ({}, {})", grid, cell.x, cell.y);
panic!("Unable to continue as puzzle is invalid");
};
// At this point we have a valid puzzle, but from experience it has way too many guesses, and many of them
// are likely not needed. Let's now try removing a bunch.
let mut non_empty_cells = Vec::new();
for x in 0..9 {
for y in 0..9 {
let cell = grid.get(x, y).unwrap();
let value = &*cell.value.borrow();
match value {
CellValue::Fixed(_) => {non_empty_cells.push(Rc::clone(&cell))}
CellValue::Unknown(_) => {}
}
}
}
// Need to randomly reorder non_empty_cells
non_empty_cells.shuffle(rng);
for (_index, cell) in non_empty_cells.iter().enumerate() {
let grid_clone = grid.clone();
let cell_clone = grid_clone.get(cell.x, cell.y).unwrap();
let cell_clone = &*cell_clone;
cell_clone.delete_value();
let status = solve_grid(&mut grid);
match status {
GenerateStatus::UniqueSolution => { // great; that cell value was not needed
num_hints = num_hints - 1;
grid = grid_clone;
}
GenerateStatus::Unfinished => {panic!("solve_grid should never return UNFINISHED")}
GenerateStatus::NoSolution => {panic!("Removing constraints should not have set the # of solutions to zero")}
GenerateStatus::NotUniqueSolution => {continue;}
};
}
return (grid, num_hints);
}
fn solve_grid(grid: &Grid) -> GenerateStatus{
// Code is kind of messy so here it goes - solve_grid first tries to solve without any guesses
// If that's not enough and a guess is required, then solve_grid_guess is called
// solve_grid_guess runs through all the possibilities for the smallest cell, trying to solve them
// through calling this function.
// solve_grid_no_guess tries to solve without any guesses.
let mut grid = grid.clone(); // We're generating a result and don't want to make changes to our input
let mut status = solve_grid_no_guess(&mut grid).map_to_generate_status();
status = match status {
GenerateStatus::Unfinished => {
solve_grid_guess(&mut grid)
},
_ => {status}
};
match status {
GenerateStatus::Unfinished => panic!("solve_grid_guess should never return UNFINISHED"),
_ => return status
}
}
fn solve_grid_guess(grid: &Grid) -> GenerateStatus{
let smallest_cell = find_smallest_cell(grid);
let smallest_cell = match smallest_cell {
Some(cell) => cell,
None => return GenerateStatus::NoSolution
};
let possibilities = smallest_cell.get_value_possibilities().unwrap();
let mut current_status = GenerateStatus::Unfinished;
for (_index, &digit) in possibilities.iter().enumerate() {
let mut grid_copy = grid.clone();
grid_copy.get(smallest_cell.x, smallest_cell.y).unwrap().set(digit);
let status = solve_grid(&mut grid_copy);
current_status = current_status.increment(status);
match current_status {
GenerateStatus::NotUniqueSolution => return GenerateStatus::NotUniqueSolution, // We have our answer; return it
GenerateStatus::UniqueSolution => {continue}, // Still looking to see if solution is unique
GenerateStatus::NoSolution => {panic!("current_status should not be NO_SOLUTION at this point")},
GenerateStatus::Unfinished => {continue} // Still looking for a solution
}
}
// We've tried all the possibilities for this guess
match current_status {
GenerateStatus::NotUniqueSolution => return current_status,
GenerateStatus::Unfinished => return GenerateStatus::NoSolution, // nothing panned out; last guess is a bust
GenerateStatus::UniqueSolution => return current_status, // Hey! Looks good!
GenerateStatus::NoSolution => {panic!("current_status should not be NO_SOLUTION at this point")}
}
}

38
src/grid.rs
View file

@ -6,8 +6,8 @@ pub static mut DEBUG: bool = false;
#[derive(Clone, Debug, Eq, PartialEq)]
pub enum CellValue {
FIXED(u8),
UNKNOWN(Vec<u8>)
Fixed(u8),
Unknown(Vec<u8>)
}
pub struct Cell {
@ -27,7 +27,7 @@ impl Cell {
}
}
self.value.replace(CellValue::FIXED(digit));
self.value.replace(CellValue::Fixed(digit));
// We fully expect our row, column, and section to still be here even though the Rust compiler won't guarantee it
// Panic-ing if they're not present is perfectly reasonable
@ -53,11 +53,11 @@ impl Cell {
pub fn set_value(&self, value: CellValue){
match value {
CellValue::FIXED(digit) => {
CellValue::Fixed(digit) => {
self.set(digit);
return;
},
CellValue::UNKNOWN(_) => {
CellValue::Unknown(_) => {
self.set_value_exact(value);
} // continue on
}
@ -77,8 +77,8 @@ impl Cell {
pub fn get_value_possibilities(&self) -> Option<Vec<u8>> {
let value = &*self.value.borrow();
match value {
CellValue::FIXED(_) => None,
CellValue::UNKNOWN(x) => Some(x.clone())
CellValue::Fixed(_) => None,
CellValue::Unknown(x) => Some(x.clone())
}
}
@ -109,7 +109,7 @@ impl Cell {
let value = &*cell.value.borrow();
match value {
CellValue::UNKNOWN(possibilities) => {
CellValue::Unknown(possibilities) => {
let mut new_possibilities = possibilities.clone();
match new_possibilities.binary_search(&digit) {
@ -117,7 +117,7 @@ impl Cell {
_ => {}
};
Some(CellValue::UNKNOWN(new_possibilities))
Some(CellValue::Unknown(new_possibilities))
/*
if new_possibilities.len() == 1 {
let remaining_digit = new_possibilities.first().unwrap().clone();
@ -128,7 +128,7 @@ impl Cell {
Some(CellValue::UNKNOWN(new_possibilities))
}*/
},
CellValue::FIXED(_) => {None}
CellValue::Fixed(_) => {None}
}
};
@ -152,9 +152,9 @@ pub struct Line {
#[derive(Debug)]
pub enum LineType {
ROW,
COLUMN,
SECTION
Row,
Column,
Section
}
impl Line {
@ -199,9 +199,9 @@ impl Grid {
let mut sections: Vec<MultiMut<Line>> = Vec::new();
for i in 0..9 {
rows.push(Rc::new(RefCell::new(Line::new(i, LineType::ROW))));
columns.push(Rc::new(RefCell::new(Line::new(i, LineType::COLUMN))));
sections.push(Rc::new(RefCell::new(Line::new(i, LineType::SECTION))));
rows.push(Rc::new(RefCell::new(Line::new(i, LineType::Row))));
columns.push(Rc::new(RefCell::new(Line::new(i, LineType::Column))));
sections.push(Rc::new(RefCell::new(Line::new(i, LineType::Section))));
}
for row_index in 0..9 {
@ -229,7 +229,7 @@ impl Grid {
let cell = Cell {
x: row_index,
y: column_index,
value: RefCell::new(CellValue::UNKNOWN(vec![1, 2, 3, 4, 5, 6, 7, 8, 9])),
value: RefCell::new(CellValue::Unknown(vec![1, 2, 3, 4, 5, 6, 7, 8, 9])),
row: row_weak,
column: column_weak,
section: section_weak
@ -325,12 +325,12 @@ impl std::fmt::Display for Grid {
match value {
CellValue::FIXED(x) => {
CellValue::Fixed(x) => {
row1.push_str(" ");
row2.push(' '); row2.push_str(&x.to_string()); row2.push(' ');
row3.push_str(" ");
},
CellValue::UNKNOWN(x) => {
CellValue::Unknown(x) => {
Grid::process_unknown(&x, 1, &mut row1);
Grid::process_unknown(&x, 2, &mut row1);
Grid::process_unknown(&x, 3, &mut row1);

2
src/lib.rs
View file

@ -1,3 +1,3 @@
pub mod grid;
pub mod solver;
pub mod generator;

128
src/solver.rs
View file

@ -80,14 +80,14 @@ fn bisect_possibility_groups(line: &Line, cells_of_interest: Vec<usize>){
let faux_possibilities = {
let value = &*cell.value.borrow();
match value {
CellValue::UNKNOWN(possibilities) => {
CellValue::Unknown(possibilities) => {
let mut set = HashSet::new();
for (_index, digit) in possibilities.iter().enumerate() {
set.insert(digit.clone());
}
set
},
CellValue::FIXED(_) => { continue }
CellValue::Fixed(_) => { continue }
}
};
@ -164,8 +164,8 @@ fn bisect_possibility_groups(line: &Line, cells_of_interest: Vec<usize>){
let mut possibilities = {
let value = &*real_cell.value.borrow();
match value {
CellValue::UNKNOWN(possibilities) => possibilities.clone(),
CellValue::FIXED(_) => {panic!("Faux_cell shouldn't have linked to fixed cell")}
CellValue::Unknown(possibilities) => possibilities.clone(),
CellValue::Fixed(_) => {panic!("Faux_cell shouldn't have linked to fixed cell")}
}
};
let starting_possibility_size = possibilities.len();
@ -187,9 +187,9 @@ fn bisect_possibility_groups(line: &Line, cells_of_interest: Vec<usize>){
if possibilities.len() < starting_possibility_size { // We have a change to make
let new_value = {
if possibilities.len() == 1 {
CellValue::FIXED(possibilities.pop().unwrap())
CellValue::Fixed(possibilities.pop().unwrap())
} else {
CellValue::UNKNOWN(possibilities)
CellValue::Unknown(possibilities)
}
};
@ -229,7 +229,7 @@ fn search_single_possibility(line: &Line){
match cell.get_value_possibilities(){
Some(x) => {
if x.len() == 1 {
let new_value = CellValue::FIXED(x.first().unwrap().clone());
let new_value = CellValue::Fixed(x.first().unwrap().clone());
cell.set_value(new_value);
}
},
@ -239,15 +239,15 @@ fn search_single_possibility(line: &Line){
}
enum PossibilityLines {
UNIQUE(usize),
INVALID,
NONE
Unique(usize),
Invalid,
None
}
impl PossibilityLines {
fn is_invalid(&self) -> bool {
match &self {
PossibilityLines::INVALID => true,
PossibilityLines::Invalid => true,
_ => false
}
}
@ -265,15 +265,15 @@ fn search_useful_constraint(grid: &Grid, line: &Line){
}
let (check_row, check_column, check_section) = match line.line_type {
LineType::ROW => {(false, false, true)},
LineType::COLUMN => {(false, false, true)},
LineType::SECTION => {(true, true, false)},
LineType::Row => {(false, false, true)},
LineType::Column => {(false, false, true)},
LineType::Section => {(true, true, false)},
};
for possibility in 0..9 {
let mut rows = match check_row {true => PossibilityLines::NONE, false => PossibilityLines::INVALID};
let mut columns = match check_column {true => PossibilityLines::NONE, false => PossibilityLines::INVALID};
let mut sections = match check_section {true => PossibilityLines::NONE, false => PossibilityLines::INVALID};
let mut rows = match check_row {true => PossibilityLines::None, false => PossibilityLines::Invalid };
let mut columns = match check_column {true => PossibilityLines::None, false => PossibilityLines::Invalid };
let mut sections = match check_section {true => PossibilityLines::None, false => PossibilityLines::Invalid };
for cell_id in 0..9 {
let cell_ref = line.get(cell_id).unwrap();
@ -282,7 +282,7 @@ fn search_useful_constraint(grid: &Grid, line: &Line){
let value = &*cell_ref.value.borrow();
match value {
CellValue::FIXED(x) => { // We can deduce this possibility won't occur elsewhere in our row, so leave for-loop
CellValue::Fixed(x) => { // We can deduce this possibility won't occur elsewhere in our row, so leave for-loop
if possibility.eq(x) {
rows = process_possibility_line(rows, &cell_ref.row);
columns = process_possibility_line(columns, &cell_ref.column);
@ -290,7 +290,7 @@ fn search_useful_constraint(grid: &Grid, line: &Line){
break;
}
}
CellValue::UNKNOWN(digits) => {
CellValue::Unknown(digits) => {
if digits.contains(&possibility) {
rows = process_possibility_line(rows, &cell_ref.row);
columns = process_possibility_line(columns, &cell_ref.column);
@ -306,19 +306,19 @@ fn search_useful_constraint(grid: &Grid, line: &Line){
// Check each line and see if we can determine anything
match rows {
PossibilityLines::UNIQUE(index) => {
PossibilityLines::Unique(index) => {
remove_possibilities_line(grid.rows.get(index).unwrap(), possibility, &line.line_type, line.index);
},
_ => {}
}
match columns {
PossibilityLines::UNIQUE(index) => {
PossibilityLines::Unique(index) => {
remove_possibilities_line(grid.columns.get(index).unwrap(), possibility, &line.line_type, line.index);
},
_ => {}
}
match sections {
PossibilityLines::UNIQUE(index) => {
PossibilityLines::Unique(index) => {
remove_possibilities_line(grid.sections.get(index).unwrap(), possibility, &line.line_type, line.index);
},
_ => {}
@ -335,11 +335,11 @@ fn remove_possibilities_line(line: &Rc<RefCell<Line>>, digit_to_remove: u8, init
let new_value = {
let value = &*cell.value.borrow();
match value {
CellValue::UNKNOWN(possibilities) => {
CellValue::Unknown(possibilities) => {
let parent_line = match initial_line_type {
LineType::ROW => &cell.row,
LineType::COLUMN => &cell.column,
LineType::SECTION => &cell.section
LineType::Row => &cell.row,
LineType::Column => &cell.column,
LineType::Section => &cell.section
};
let parent_line = &*parent_line.upgrade().unwrap();
let parent_line = &*parent_line.borrow();
@ -359,9 +359,9 @@ fn remove_possibilities_line(line: &Rc<RefCell<Line>>, digit_to_remove: u8, init
let new_value;
if new_possibilities.len() == 1 {
new_value = CellValue::FIXED(new_possibilities.first().unwrap().clone());
new_value = CellValue::Fixed(new_possibilities.first().unwrap().clone());
} else {
new_value = CellValue::UNKNOWN(new_possibilities);
new_value = CellValue::Unknown(new_possibilities);
}
new_value
@ -381,13 +381,13 @@ fn process_possibility_line(possibility_line: PossibilityLines, line: &Weak<RefC
let line = &*(&*line).borrow();
match possibility_line {
PossibilityLines::NONE => {PossibilityLines::UNIQUE(line.index)},
PossibilityLines::INVALID => {possibility_line},
PossibilityLines::UNIQUE(x) => {
PossibilityLines::None => {PossibilityLines::Unique(line.index)},
PossibilityLines::Invalid => {possibility_line},
PossibilityLines::Unique(x) => {
if line.index.eq(&x) {
possibility_line
} else {
PossibilityLines::INVALID
PossibilityLines::Invalid
}
}
}
@ -426,7 +426,7 @@ fn solve_line(grid: &Grid, line: &Line){
}
fn find_smallest_cell(grid: &Grid) -> Option<Rc<Cell>>{
pub fn find_smallest_cell(grid: &Grid) -> Option<Rc<Cell>>{
// Find a cell of smallest size (in terms of possibilities) and make a guess
// Can assume that no cells of only possibility 1 exist
@ -440,7 +440,7 @@ fn find_smallest_cell(grid: &Grid) -> Option<Rc<Cell>>{
let cell_value = &*cell.value.borrow();
match cell_value {
CellValue::UNKNOWN(possibilities) => {
CellValue::Unknown(possibilities) => {
if (possibilities.len() < smallest_size) && (possibilities.len() > 0){
smallest_size = possibilities.len();
smallest_cell = Some(cell_rc);
@ -461,9 +461,9 @@ fn find_smallest_cell(grid: &Grid) -> Option<Rc<Cell>>{
pub enum SolveStatus {
COMPLETE,
UNFINISHED,
INVALID
Complete,
Unfinished,
Invalid
}
pub fn solve_grid(grid: &mut Grid) -> SolveStatus{
@ -475,14 +475,14 @@ pub fn solve_grid(grid: &mut Grid) -> SolveStatus{
let mut status = solve_grid_no_guess(grid);
status = match status {
SolveStatus::UNFINISHED => {
SolveStatus::Unfinished => {
solve_grid_guess(grid)
},
_ => {status}
};
match status {
SolveStatus::UNFINISHED => panic!("solve_grid_guess should never return UNFINISHED"),
SolveStatus::Unfinished => panic!("solve_grid_guess should never return UNFINISHED"),
_ => return status
}
}
@ -517,7 +517,7 @@ pub fn solve_grid_no_guess(grid: &mut Grid) -> SolveStatus{
}
if !ran_something{ // No lines have changed since we last analyzed them
return SolveStatus::UNFINISHED;
return SolveStatus::Unfinished;
}
// Check if complete or invalid
@ -529,20 +529,20 @@ pub fn solve_grid_no_guess(grid: &mut Grid) -> SolveStatus{
let value = &**(&cell.value.borrow());
match value {
CellValue::UNKNOWN(possibilities) => {
CellValue::Unknown(possibilities) => {
appears_complete = false;
if possibilities.len() == 0 {
return SolveStatus::INVALID;
return SolveStatus::Invalid;
}
},
CellValue::FIXED(_) => {}
CellValue::Fixed(_) => {}
}
}
}
if appears_complete {
return SolveStatus::COMPLETE;
return SolveStatus::Complete;
}
}
@ -552,7 +552,7 @@ fn solve_grid_guess(grid: &mut Grid) -> SolveStatus{
let smallest_cell = find_smallest_cell(grid);
let smallest_cell = match smallest_cell {
Some(cell) => cell,
None => return SolveStatus::INVALID
None => return SolveStatus::Invalid
};
let possibilities = smallest_cell.get_value_possibilities().unwrap();
@ -562,20 +562,20 @@ fn solve_grid_guess(grid: &mut Grid) -> SolveStatus{
let status = solve_grid(&mut grid_copy);
match status {
SolveStatus::COMPLETE => {
SolveStatus::Complete => {
grid.clone_from(&grid_copy);
return SolveStatus::COMPLETE;
return SolveStatus::Complete;
},
SolveStatus::UNFINISHED => {
SolveStatus::Unfinished => {
panic!("solve_grid should never return UNFINISHED")
},
SolveStatus::INVALID => {
SolveStatus::Invalid => {
continue;
}
}
}
return SolveStatus::INVALID;
return SolveStatus::Invalid;
}
@ -592,14 +592,14 @@ mod tests {
grid.get(0, i).unwrap().set(i as u8 +1);
}
assert_eq!(CellValue::UNKNOWN(vec![9]), grid.get(0, 8).unwrap().get_value_copy());
assert_eq!(CellValue::Unknown(vec![9]), grid.get(0, 8).unwrap().get_value_copy());
let line = grid.rows.first().unwrap();
let line = &*(**line).borrow();
search_single_possibility(line);
assert_eq!(CellValue::FIXED(9), grid.get(0, 8).unwrap().get_value_copy());
assert_eq!(CellValue::Fixed(9), grid.get(0, 8).unwrap().get_value_copy());
}
#[test]
@ -614,14 +614,14 @@ mod tests {
grid.get(1, 7).unwrap().set(2);
grid.get(1, 8).unwrap().set(3);
assert_eq!(CellValue::UNKNOWN(vec![1, 2, 3, 7, 8, 9]), grid.get(0, 0).unwrap().get_value_copy());
assert_eq!(CellValue::Unknown(vec![1, 2, 3, 7, 8, 9]), grid.get(0, 0).unwrap().get_value_copy());
let line = grid.rows.first().unwrap();
let line = &*(**line).borrow();
identify_and_process_possibility_groups(line);
assert_eq!(CellValue::UNKNOWN(vec![1, 2, 3]), grid.get(0, 0).unwrap().get_value_copy());
assert_eq!(CellValue::Unknown(vec![1, 2, 3]), grid.get(0, 0).unwrap().get_value_copy());
}
#[test]
@ -638,14 +638,14 @@ mod tests {
assert_eq!(CellValue::UNKNOWN(vec![1, 2, 3, 4, 5, 6, 7, 8, 9]), grid.get(2, 0).unwrap().get_value_copy());
assert_eq!(CellValue::Unknown(vec![1, 2, 3, 4, 5, 6, 7, 8, 9]), grid.get(2, 0).unwrap().get_value_copy());
let line = grid.rows.first().unwrap();
let line = &*(**line).borrow();
search_useful_constraint(&grid, line);
assert_eq!(CellValue::UNKNOWN(vec![4, 5, 6, 7, 8, 9]), grid.get(2, 0).unwrap().get_value_copy());
assert_eq!(CellValue::Unknown(vec![4, 5, 6, 7, 8, 9]), grid.get(2, 0).unwrap().get_value_copy());
}
@ -661,15 +661,15 @@ mod tests {
grid.get(6, 1).unwrap().set(8);
grid.get(8, 2).unwrap().set(7);
grid.get(0, 1).unwrap().set_value(CellValue::UNKNOWN(vec![1, 3, 4, 7, 9]));
grid.get(1, 1).unwrap().set_value(CellValue::UNKNOWN(vec![1, 3, 4, 5, 9]));
grid.get(2, 1).unwrap().set_value(CellValue::UNKNOWN(vec![1, 2]));
grid.get(4, 1).unwrap().set_value(CellValue::UNKNOWN(vec![1, 3, 4, 7]));
grid.get(7, 1).unwrap().set_value(CellValue::UNKNOWN(vec![1, 2, 3, 9]));
grid.get(8, 1).unwrap().set_value(CellValue::UNKNOWN(vec![1, 2, 3, 5, 9]));
grid.get(0, 1).unwrap().set_value(CellValue::Unknown(vec![1, 3, 4, 7, 9]));
grid.get(1, 1).unwrap().set_value(CellValue::Unknown(vec![1, 3, 4, 5, 9]));
grid.get(2, 1).unwrap().set_value(CellValue::Unknown(vec![1, 2]));
grid.get(4, 1).unwrap().set_value(CellValue::Unknown(vec![1, 3, 4, 7]));
grid.get(7, 1).unwrap().set_value(CellValue::Unknown(vec![1, 2, 3, 9]));
grid.get(8, 1).unwrap().set_value(CellValue::Unknown(vec![1, 2, 3, 5, 9]));
// 5 is wrongly removed here
grid.get(1, 0).unwrap().set_value(CellValue::UNKNOWN(vec![1, 3, 4, 5, 9]));
grid.get(1, 0).unwrap().set_value(CellValue::Unknown(vec![1, 3, 4, 5, 9]));
println!("{}", grid);
@ -678,7 +678,7 @@ mod tests {
search_useful_constraint(&grid, line);
assert_eq!(CellValue::UNKNOWN(vec![1, 3, 4, 5, 9]), grid.get(1, 0).unwrap().get_value_copy());
assert_eq!(CellValue::Unknown(vec![1, 3, 4, 5, 9]), grid.get(1, 0).unwrap().get_value_copy());
}