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clippy and fmt

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This commit is contained in:
Matthias Blankertz
2024-01-29 15:55:53 +01:00
parent 3b523257f0
commit 6ad197871f
2 changed files with 273 additions and 223 deletions
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1
rustfmt.toml Normal file
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@@ -0,0 +1 @@
max_width = 120

495
src/main.rs
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@@ -1,53 +1,60 @@
use std::fmt;
use arr_macro::arr;
use std::fmt;
const GRID_SIZE: usize = 9;
#[derive(Debug, PartialEq)]
#[derive(Clone, Copy)]
#[derive(Debug, PartialEq, Clone, Copy)]
pub struct PossibleValues([bool; GRID_SIZE]);
impl PossibleValues {
fn get_value(&self) -> Option<u8> {
let mut val = 0u8;
for x in 0..GRID_SIZE {
if self.0[x] {
if val != 0 { panic!("get_value called on PossibleValue with more than one possiblitiy {}", self) }
val = (x+1) as u8;
}
}
if val == 0 { None } else { Some(val) }
let mut val = 0u8;
for x in 0..GRID_SIZE {
if self.0[x] {
if val != 0 {
panic!(
"get_value called on PossibleValue with more than one possiblitiy {}",
self
)
}
val = (x + 1) as u8;
}
}
if val == 0 {
None
} else {
Some(val)
}
}
fn get_values(&self) -> Vec<u8> {
let mut v = Vec::<u8>::new();
for x in 0..GRID_SIZE {
if self.0[x] {
v.push((x+1) as u8)
}
}
v
let mut v = Vec::<u8>::new();
for x in 0..GRID_SIZE {
if self.0[x] {
v.push((x + 1) as u8)
}
}
v
}
fn get_count(&self) -> u8 {
let mut count = 0u8;
for x in 0..GRID_SIZE {
if self.0[x] {
count += 1;
}
}
count
let mut count = 0u8;
for x in 0..GRID_SIZE {
if self.0[x] {
count += 1;
}
}
count
}
}
impl fmt::Display for PossibleValues {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
f.pad(format!("{:?}", self.get_values()).as_str())
f.pad(format!("{:?}", self.get_values()).as_str())
}
}
#[derive(Debug, PartialEq)]
#[derive(Clone, Copy)]
#[derive(Debug, PartialEq, Clone, Copy)]
pub enum CellValue {
None,
Fixed(u8),
@@ -56,27 +63,26 @@ pub enum CellValue {
impl CellValue {
fn from_possible(possible: PossibleValues) -> CellValue {
let cnt = possible.get_count();
match cnt {
0 => CellValue::None,
1 => CellValue::Fixed(possible.get_value().unwrap()),
_ => CellValue::Possible(possible),
}
let cnt = possible.get_count();
match cnt {
0 => CellValue::None,
1 => CellValue::Fixed(possible.get_value().unwrap()),
_ => CellValue::Possible(possible),
}
}
}
impl fmt::Display for CellValue {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match &self {
CellValue::Possible(x) => write!(f, "{:27}", x),
CellValue::None => write!(f, "{:27}", "X"),
CellValue::Fixed(x) => write!(f, "{:<27}", x),
}
match &self {
CellValue::Possible(x) => write!(f, "{:27}", x),
CellValue::None => write!(f, "{:27}", "X"),
CellValue::Fixed(x) => write!(f, "{:<27}", x),
}
}
}
#[derive(Debug, PartialEq)]
#[derive(Clone, Copy)]
#[derive(Debug, PartialEq, Clone, Copy)]
pub struct Grid {
data: [CellValue; GRID_SIZE * GRID_SIZE],
}
@@ -91,10 +97,12 @@ impl<'a> Iterator for GridRowIterator<'a> {
type Item = CellValue;
fn next(&mut self) -> Option<Self::Item> {
if self.pos >= GRID_SIZE { return None; }
let curr = self.parent.at(self.row, self.pos);
self.pos += 1;
Some(*curr)
if self.pos >= GRID_SIZE {
return None;
}
let curr = self.parent.at(self.row, self.pos);
self.pos += 1;
Some(*curr)
}
}
@@ -108,10 +116,12 @@ impl<'a> Iterator for GridColIterator<'a> {
type Item = CellValue;
fn next(&mut self) -> Option<Self::Item> {
if self.pos >= GRID_SIZE { return None; }
let curr = self.parent.at(self.pos, self.col);
self.pos += 1;
Some(*curr)
if self.pos >= GRID_SIZE {
return None;
}
let curr = self.parent.at(self.pos, self.col);
self.pos += 1;
Some(*curr)
}
}
@@ -119,261 +129,289 @@ pub struct GridBlockIterator<'a> {
parent: &'a Grid,
pos: usize,
row: usize,
col: usize
col: usize,
}
impl<'a> Iterator for GridBlockIterator<'a> {
type Item = CellValue;
fn next(&mut self) -> Option<Self::Item> {
if self.pos >= GRID_SIZE { return None; }
let curr = self.parent.at(self.row + self.pos % 3, self.col + self.pos / 3);
self.pos += 1;
Some(*curr)
if self.pos >= GRID_SIZE {
return None;
}
let curr = self.parent.at(self.row + self.pos % 3, self.col + self.pos / 3);
self.pos += 1;
Some(*curr)
}
}
impl Default for Grid {
fn default() -> Self {
Self::new()
}
}
impl Grid {
pub fn new() -> Grid {
Grid{data: arr![CellValue::None; 81]}
Grid {
data: arr![CellValue::None; 81],
}
}
pub fn from_array(input: [u8; 81]) -> Grid {
let mut g = Grid::new();
for row in 0..GRID_SIZE {
for col in 0..GRID_SIZE {
match input[row * GRID_SIZE + col] {
0 => *g.at_mut(row, col) = CellValue::None,
other => *g.at_mut(row, col) = CellValue::Fixed(other)
}
}
}
g.update();
g
let mut g = Grid::new();
for row in 0..GRID_SIZE {
for col in 0..GRID_SIZE {
match input[row * GRID_SIZE + col] {
0 => *g.at_mut(row, col) = CellValue::None,
other => *g.at_mut(row, col) = CellValue::Fixed(other),
}
}
}
g.update();
g
}
pub fn row_iter(&self, row: usize) -> GridRowIterator {
GridRowIterator{parent: self, pos: 0, row}
GridRowIterator {
parent: self,
pos: 0,
row,
}
}
pub fn col_iter(&self, col: usize) -> GridColIterator {
GridColIterator{parent: self, pos: 0, col}
GridColIterator {
parent: self,
pos: 0,
col,
}
}
pub fn block_iter(&self, row: usize, col: usize) -> GridBlockIterator {
let row = (row / 3) * 3;
let col = (col / 3) * 3;
GridBlockIterator{parent: self, pos: 0, row, col}
let row = (row / 3) * 3;
let col = (col / 3) * 3;
GridBlockIterator {
parent: self,
pos: 0,
row,
col,
}
}
// For all cells that are not fixed, compute possible values
pub fn update(&mut self) {
for row in 0..GRID_SIZE {
for col in 0..GRID_SIZE {
if let CellValue::Fixed(_) = &self.at(row, col) { continue; }
*self.at_mut(row, col) = self.compute_possible(row, col);
}
}
for row in 0..GRID_SIZE {
for col in 0..GRID_SIZE {
if let CellValue::Fixed(_) = &self.at(row, col) {
continue;
}
*self.at_mut(row, col) = self.compute_possible(row, col);
}
}
}
// Find the shortest list of possible values
pub fn find_shortest_possibles(&self) -> Option<(usize, usize, PossibleValues)> {
let mut len = 9;
let mut shortest_row : Option<usize> = None;
let mut shortest_col : Option<usize> = None;
for row in 0..GRID_SIZE {
for col in 0..GRID_SIZE {
if let CellValue::Possible(x) = &self.at(row, col) {
if x.get_count() <= len {
len = x.get_count();
shortest_row = Some(row);
shortest_col = Some(col);
}
}
}
}
if let Some(row) = shortest_row {
let col = shortest_col.unwrap();
let CellValue::Possible(val) = &self.at(row, col) else { panic!(); };
Some((row, col, *val))
} else {
None
}
let mut len = 9;
let mut shortest_row: Option<usize> = None;
let mut shortest_col: Option<usize> = None;
for row in 0..GRID_SIZE {
for col in 0..GRID_SIZE {
if let CellValue::Possible(x) = &self.at(row, col) {
if x.get_count() <= len {
len = x.get_count();
shortest_row = Some(row);
shortest_col = Some(col);
}
}
}
}
if let Some(row) = shortest_row {
let col = shortest_col.unwrap();
let CellValue::Possible(val) = &self.at(row, col) else {
panic!();
};
Some((row, col, *val))
} else {
None
}
}
pub fn done(&self) -> bool {
for row in 0..GRID_SIZE {
for col in 0..GRID_SIZE {
match &self.at(row, col) {
CellValue::Possible(_) => return false,
CellValue::None => return false,
CellValue::Fixed(_) => continue,
}
}
}
return true;
for row in 0..GRID_SIZE {
for col in 0..GRID_SIZE {
match &self.at(row, col) {
CellValue::Possible(_) => return false,
CellValue::None => return false,
CellValue::Fixed(_) => continue,
}
}
}
true
}
pub fn possible(&self) -> bool {
for row in 0..GRID_SIZE {
for col in 0..GRID_SIZE {
match &self.at(row, col) {
CellValue::None => return false,
_ => continue,
}
}
}
return true;
for row in 0..GRID_SIZE {
for col in 0..GRID_SIZE {
match &self.at(row, col) {
CellValue::None => return false,
_ => continue,
}
}
}
true
}
pub fn at(&self, row: usize, col: usize) -> &CellValue {
if row >= GRID_SIZE || col >= GRID_SIZE { panic!("out of bounds access"); }
&self.data[row*GRID_SIZE + col]
if row >= GRID_SIZE || col >= GRID_SIZE {
panic!("out of bounds access");
}
&self.data[row * GRID_SIZE + col]
}
pub fn at_mut(&mut self, row: usize, col: usize) -> &mut CellValue {
if row >= GRID_SIZE || col >= GRID_SIZE { panic!("out of bounds access"); }
&mut self.data[row*GRID_SIZE + col]
}
fn get_value(&self, row: usize, col: usize) -> Option<u8> {
match &self.at(row, col) {
CellValue::Possible(x) => x.get_value(),
CellValue::None => None,
CellValue::Fixed(x) => Some(*x)
}
}
fn get_values(&self, row: usize, col: usize) -> Vec<u8> {
match &self.at(row, col) {
CellValue::Possible(x) => x.get_values(),
CellValue::None => Vec::<u8>::new(),
CellValue::Fixed(x) => vec![*x],
}
if row >= GRID_SIZE || col >= GRID_SIZE {
panic!("out of bounds access");
}
&mut self.data[row * GRID_SIZE + col]
}
fn compute_possible(&self, row: usize, col: usize) -> CellValue {
if let CellValue::Fixed(x) = &self.at(row, col) { return CellValue::Fixed(*x); }
let mut result = PossibleValues([true; 9]);
for other in self.row_iter(row) {
if let CellValue::Fixed(x) = other { result.0[(x-1) as usize] = false }
}
for other in self.col_iter(col) {
if let CellValue::Fixed(x) = other { result.0[(x-1) as usize] = false }
}
for other in self.block_iter(row, col) {
if let CellValue::Fixed(x) = other { result.0[(x-1) as usize] = false }
}
CellValue::from_possible(result)
if let CellValue::Fixed(x) = &self.at(row, col) {
return CellValue::Fixed(*x);
}
let mut result = PossibleValues([true; 9]);
for other in self.row_iter(row) {
if let CellValue::Fixed(x) = other {
result.0[(x - 1) as usize] = false
}
}
for other in self.col_iter(col) {
if let CellValue::Fixed(x) = other {
result.0[(x - 1) as usize] = false
}
}
for other in self.block_iter(row, col) {
if let CellValue::Fixed(x) = other {
result.0[(x - 1) as usize] = false
}
}
CellValue::from_possible(result)
}
}
impl fmt::Display for Grid {
fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
for row in 0..GRID_SIZE {
for col in 0..GRID_SIZE {
write!(f, "{}", &self.at(row, col))?;
if col < GRID_SIZE-1 {
if (col + 1) % 3 == 0 {
write!(f, " || ")?;
} else {
write!(f, " | ")?;
}
}
}
if row < GRID_SIZE-1 {
if (row + 1) % 3 == 0 {
write!(f, "\n{}", "-".repeat(29*9+2))?;
}
writeln!(f)?;
}
}
Ok(())
for row in 0..GRID_SIZE {
for col in 0..GRID_SIZE {
write!(f, "{}", &self.at(row, col))?;
if col < GRID_SIZE - 1 {
if (col + 1) % 3 == 0 {
write!(f, " || ")?;
} else {
write!(f, " | ")?;
}
}
}
if row < GRID_SIZE - 1 {
if (row + 1) % 3 == 0 {
write!(f, "\n{}", "-".repeat(29 * 9 + 2))?;
}
writeln!(f)?;
}
}
Ok(())
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn possible_values() {
let none = PossibleValues([false; 9]);
let three = PossibleValues([false, false, true, false, false, false, false, false, false]);
let some = PossibleValues([false, true, false, true, false, false, false, false, false]);
let all = PossibleValues([true; 9]);
let none = PossibleValues([false; 9]);
let three = PossibleValues([false, false, true, false, false, false, false, false, false]);
let some = PossibleValues([false, true, false, true, false, false, false, false, false]);
let all = PossibleValues([true; 9]);
assert_eq!(None, none.get_value());
assert_eq!(Some(3), three.get_value());
assert_eq!(None, none.get_value());
assert_eq!(Some(3), three.get_value());
assert_eq!(0, none.get_count());
assert_eq!(1, three.get_count());
assert_eq!(2, some.get_count());
assert_eq!(9, all.get_count());
assert_eq!(0, none.get_count());
assert_eq!(1, three.get_count());
assert_eq!(2, some.get_count());
assert_eq!(9, all.get_count());
assert_eq!(Vec::<u8>::new(), none.get_values());
assert_eq!(vec![3u8], three.get_values());
assert_eq!(vec![2u8, 4u8], some.get_values());
assert_eq!(vec![1u8, 2u8, 3u8, 4u8, 5u8, 6u8, 7u8, 8u8, 9u8], all.get_values());
assert_eq!(Vec::<u8>::new(), none.get_values());
assert_eq!(vec![3u8], three.get_values());
assert_eq!(vec![2u8, 4u8], some.get_values());
assert_eq!(vec![1u8, 2u8, 3u8, 4u8, 5u8, 6u8, 7u8, 8u8, 9u8], all.get_values());
}
#[test]
#[should_panic]
fn possible_values_get_value() {
let some = PossibleValues([false, true, false, true, false, false, false, false, false]);
some.get_value();
let some = PossibleValues([false, true, false, true, false, false, false, false, false]);
some.get_value();
}
#[test]
fn cellvalue_from_possible() {
let none = PossibleValues([false; 9]);
let three = PossibleValues([false, false, true, false, false, false, false, false, false]);
let some = PossibleValues([false, true, false, true, false, false, false, false, false]);
let all = PossibleValues([true; 9]);
let none = PossibleValues([false; 9]);
let three = PossibleValues([false, false, true, false, false, false, false, false, false]);
let some = PossibleValues([false, true, false, true, false, false, false, false, false]);
let all = PossibleValues([true; 9]);
assert_eq!(CellValue::None, CellValue::from_possible(none));
assert_eq!(CellValue::Fixed(3), CellValue::from_possible(three));
assert_eq!(CellValue::Possible(some), CellValue::from_possible(some));
assert_eq!(CellValue::Possible(all), CellValue::from_possible(all));
assert_eq!(CellValue::None, CellValue::from_possible(none));
assert_eq!(CellValue::Fixed(3), CellValue::from_possible(three));
assert_eq!(CellValue::Possible(some), CellValue::from_possible(some));
assert_eq!(CellValue::Possible(all), CellValue::from_possible(all));
}
#[test]
fn new_grid_is_empty() {
let g = Grid::new();
for row in 0..9 {
for col in 0..9 {
assert_eq!(None, g.get_value(row, col));
}
}
let g = Grid::new();
for row in 0..9 {
for col in 0..9 {
assert_eq!(None, g.get_value(row, col));
}
}
}
}
fn solve(g: Grid) -> Option<Grid> {
let mut queue = vec![g];
while let Some(mut work) = queue.pop() {
if !work.possible() { continue; }
let prev = work;
println!("{work}");
println!();
work.update();
if work.done() {
return Some(work);
} else if prev == work {
let Some((row, col, possibles)) = work.find_shortest_possibles() else { continue; };
for possible in possibles.get_values() {
let mut copy = work;
*copy.at_mut(row, col) = CellValue::Fixed(possible);
copy.update();
queue.push(copy);
}
} else {
queue.push(work);
}
if !work.possible() {
continue;
}
let prev = work;
println!("{work}");
println!();
work.update();
if work.done() {
return Some(work);
} else if prev == work {
let Some((row, col, possibles)) = work.find_shortest_possibles() else {
continue;
};
for possible in possibles.get_values() {
let mut copy = work;
*copy.at_mut(row, col) = CellValue::Fixed(possible);
copy.update();
queue.push(copy);
}
} else {
queue.push(work);
}
}
None
}
fn main() {
#[rustfmt::skip]
let g = Grid::from_array([5, 3, 0, 0, 7, 0, 0, 0, 0,
6, 0, 0, 1, 9, 5, 0, 0, 0,
0, 9, 8, 0, 0, 0, 0, 6, 0,
@@ -382,9 +420,14 @@ fn main() {
7, 0, 0, 0, 2, 0, 0, 0, 6,
0, 6, 0, 0, 0, 0, 2, 8, 0,
0, 0, 0, 4, 1, 9, 0, 0, 5,
0, 0, 0, 0, 8, 0, 0, 7, 9]);
println!("{}\n", solve(g).map(|g| format!("{}", g)).unwrap_or("No solution".to_string()));
0, 0, 0, 0, 8, 0, 0, 7, 9,
]);
println!(
"{}\n",
solve(g).map(|g| format!("{}", g)).unwrap_or("No solution".to_string())
);
#[rustfmt::skip]
let evil = Grid::from_array([0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 3, 0, 8, 5,
0, 0, 1, 0, 2, 0, 0, 0, 0,
@@ -393,6 +436,12 @@ fn main() {
0, 9, 0, 0, 0, 0, 0, 0, 0,
5, 0, 0, 0, 0, 0, 0, 7, 3,
0, 0, 2, 0, 1, 0, 0, 0, 0,
0, 0, 0, 0, 4, 0, 0, 0, 9]);
println!("{}\n", solve(evil).map(|g| format!("{}", g)).unwrap_or("No solution".to_string()));
0, 0, 0, 0, 4, 0, 0, 0, 9,
]);
println!(
"{}\n",
solve(evil)
.map(|g| format!("{}", g))
.unwrap_or("No solution".to_string())
);
}