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test: inverse

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This commit is contained in:
Alonso Adrian Martinez Hernandez
2026-04-29 17:12:45 -06:00
parent 18f2952879
commit 62220c762f
1 changed files with 155 additions and 18 deletions
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173
src/lib.rs
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@@ -159,7 +159,7 @@ impl Matrix {
}
pub fn insert_column(&mut self, index: usize, data: Vec<Fraction>) -> Result<(), MatrixError> {
if index >= self.columns {
if index > self.columns {
return Err(MatrixError::ColumnOutOfRange);
}
@@ -177,7 +177,7 @@ impl Matrix {
}
pub fn insert_rows(&mut self, index: usize, data: Vec<Fraction>) -> Result<(), MatrixError> {
if index >= self.rows {
if index > self.rows {
return Err(MatrixError::RowOutOfRange);
}
@@ -367,7 +367,7 @@ impl Matrix {
}
let (trig_matrix, sign) = match self.gaussian_elimination() {
Err(MatrixError::FailedGauss) => return Ok(Fraction::new(0, 1).unwrap()),
Err(MatrixError::FailedGauss) => return Ok(Fraction::from(0)),
Ok((matrix, sign)) => (matrix, sign),
Err(err) => return Err(err),
};
@@ -388,28 +388,27 @@ impl Matrix {
return Err(MatrixError::NotSquared);
}
let mut inverse = Matrix {
let mut augmented = Matrix {
rows: self.rows,
columns: self.columns,
data: self.data.clone(),
};
// Inserts indentity matrix
for i in 0..inverse.rows {
// create full of 0 column
let mut new_column: Vec<Fraction> = vec![Fraction::from(0i64); inverse.rows];
// construir [A | I]
for i in 0..self.rows {
let mut col = vec![Fraction::from(0); self.rows];
col[i] = Fraction::from(1);
// at i set to 1
new_column[i] = Fraction::from(1i64);
inverse.insert_column(inverse.columns - 1, new_column)?;
augmented.insert_column(augmented.columns, col)?;
}
let inverse = inverse.gauss_jordan_elimination()?;
// ahora debe ser 2N
assert_eq!(augmented.columns, self.columns * 2);
// Gets the interesting part that was affected by the gaussian elimination
let inverse =
inverse.sub_matrix((0, self.columns), (self.rows + 1, inverse.columns - 1))?;
let reduced = augmented.gauss_jordan_elimination()?;
// extraer lado derecho
let inverse = reduced.sub_matrix((0, self.columns), (self.rows, self.columns * 2))?;
Ok(inverse)
}
@@ -1798,7 +1797,7 @@ mod tests {
let data = vec![Fraction::from(1), Fraction::from(2)];
let result = m.insert_column(2, data);
let result = m.insert_column(3, data);
assert!(matches!(result, Err(MatrixError::ColumnOutOfRange)));
}
@@ -1927,7 +1926,7 @@ mod tests {
let data = vec![Fraction::from(1), Fraction::from(2)];
let result = m.insert_rows(2, data);
let result = m.insert_rows(3, data);
assert!(matches!(result, Err(MatrixError::RowOutOfRange)));
}
@@ -2713,4 +2712,142 @@ mod tests {
assert_eq!(det_scaled, det_original * Fraction::from(2));
}
#[test]
fn test_inverse_identity() {
let m = Matrix {
rows: 3,
columns: 3,
data: vec![
Fraction::from(1),
Fraction::from(0),
Fraction::from(0),
Fraction::from(0),
Fraction::from(1),
Fraction::from(0),
Fraction::from(0),
Fraction::from(0),
Fraction::from(1),
],
};
let inv = m.inverse().unwrap();
assert_eq!(inv.data, m.data);
}
#[test]
fn test_inverse_2x2() {
let m = Matrix {
rows: 2,
columns: 2,
data: vec![
Fraction::from(4),
Fraction::from(7),
Fraction::from(2),
Fraction::from(6),
],
};
let inv = m.inverse().unwrap();
// inversa conocida:
// (1/det) * [ 6 -7 ; -2 4 ] , det = 10
let expected = vec![
Fraction::new(6, 10).unwrap(),
Fraction::new(-7, 10).unwrap(),
Fraction::new(-2, 10).unwrap(),
Fraction::new(4, 10).unwrap(),
];
assert_eq!(inv.data, expected);
}
#[test]
fn test_inverse_multiplication_identity() {
let m = Matrix {
rows: 2,
columns: 2,
data: vec![
Fraction::from(1),
Fraction::from(2),
Fraction::from(3),
Fraction::from(4),
],
};
let inv = m.inverse().unwrap();
let identity = (m.clone() * inv.clone()).unwrap();
for i in 0..2 {
for j in 0..2 {
if i == j {
assert_eq!(*identity.get(i, j).unwrap(), Fraction::from(1));
} else {
assert!(identity.get(i, j).unwrap().is_zero());
}
}
}
}
#[test]
fn test_inverse_singular() {
let m = Matrix {
rows: 2,
columns: 2,
data: vec![
Fraction::from(1),
Fraction::from(2),
Fraction::from(2),
Fraction::from(4),
],
};
let res = m.inverse();
assert!(matches!(res, Err(MatrixError::FailedGaussJordan)));
}
#[test]
fn test_inverse_3x3() {
let m = Matrix {
rows: 3,
columns: 3,
data: vec![
Fraction::from(1),
Fraction::from(2),
Fraction::from(3),
Fraction::from(0),
Fraction::from(1),
Fraction::from(4),
Fraction::from(5),
Fraction::from(6),
Fraction::from(0),
],
};
let inv = m.inverse().unwrap();
let identity = (m * inv).unwrap();
for i in 0..3 {
for j in 0..3 {
if i == j {
assert_eq!(*identity.get(i, j).unwrap(), Fraction::from(1));
} else {
assert!(identity.get(i, j).unwrap().is_zero());
}
}
}
}
#[test]
fn test_inverse_not_squared() {
let m = Matrix::new(2, 3, Fraction::from(1)).unwrap();
let res = m.inverse();
assert!(matches!(res, Err(MatrixError::NotSquared)));
}
}