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Yudong Jin 2778a6f9c7 Translate all code to English (#1836)
* Review the EN heading format.

* Fix pythontutor headings.

* Fix pythontutor headings.

* bug fixes

* Fix headings in **/summary.md

* Revisit the CN-to-EN translation for Python code using Claude-4.5

* Revisit the CN-to-EN translation for Java code using Claude-4.5

* Revisit the CN-to-EN translation for Cpp code using Claude-4.5.

* Fix the dictionary.

* Fix cpp code translation for the multipart strings.

* Translate Go code to English.

* Update workflows to test EN code.

* Add EN translation for C.

* Add EN translation for CSharp.

* Add EN translation for Swift.

* Trigger the CI check.

* Revert.

* Update en/hash_map.md

* Add the EN version of Dart code.

* Add the EN version of Kotlin code.

* Add missing code files.

* Add the EN version of JavaScript code.

* Add the EN version of TypeScript code.

* Fix the workflows.

* Add the EN version of Ruby code.

* Add the EN version of Rust code.

* Update the CI check for the English version  code.

* Update Python CI check.

* Fix cmakelists for en/C code.

* Fix Ruby comments
2025-12-31 07:44:52 +08:00

77 lines
2.3 KiB
Rust

/*
* File: n_queens.rs
* Created Time: 2023-07-15
* Author: codingonion (coderonion@gmail.com)
*/
/* Backtracking algorithm: N queens */
fn backtrack(
row: usize,
n: usize,
state: &mut Vec<Vec<String>>,
res: &mut Vec<Vec<Vec<String>>>,
cols: &mut [bool],
diags1: &mut [bool],
diags2: &mut [bool],
) {
// When all rows are placed, record the solution
if row == n {
res.push(state.clone());
return;
}
// Traverse all columns
for col in 0..n {
// Calculate the main diagonal and anti-diagonal corresponding to this cell
let diag1 = row + n - 1 - col;
let diag2 = row + col;
// Pruning: do not allow queens to exist in the column, main diagonal, and anti-diagonal of this cell
if !cols[col] && !diags1[diag1] && !diags2[diag2] {
// Attempt: place the queen in this cell
state[row][col] = "Q".into();
(cols[col], diags1[diag1], diags2[diag2]) = (true, true, true);
// Place the next row
backtrack(row + 1, n, state, res, cols, diags1, diags2);
// Backtrack: restore this cell to an empty cell
state[row][col] = "#".into();
(cols[col], diags1[diag1], diags2[diag2]) = (false, false, false);
}
}
}
/* Solve N queens */
fn n_queens(n: usize) -> Vec<Vec<Vec<String>>> {
// Initialize an n*n chessboard, where 'Q' represents a queen and '#' represents an empty cell
let mut state: Vec<Vec<String>> = vec![vec!["#".to_string(); n]; n];
let mut cols = vec![false; n]; // Record whether there is a queen in the column
let mut diags1 = vec![false; 2 * n - 1]; // Record whether there is a queen on the main diagonal
let mut diags2 = vec![false; 2 * n - 1]; // Record whether there is a queen on the anti-diagonal
let mut res: Vec<Vec<Vec<String>>> = Vec::new();
backtrack(
0,
n,
&mut state,
&mut res,
&mut cols,
&mut diags1,
&mut diags2,
);
res
}
/* Driver Code */
pub fn main() {
let n: usize = 4;
let res = n_queens(n);
println!("Input board size is {n}");
println!("Total queen placement solutions: {}", res.len());
for state in res.iter() {
println!("--------------------");
for row in state.iter() {
println!("{:?}", row);
}
}
}