2019年1月18日 星期五

Solving linear equations with Gaussian elimination

Please note that you should use LU-decomposition to solve linear equations. The following code produces valid solutions, but when your vector b changes you have to do all the work again. LU-decomposition is faster in those cases and not slower in case you don't have to solve equations with the same matrix twice.
源自於 https://martin-thoma.com/solving-linear-equations-with-gaussian-elimination/
Suppose you have a system of nN1 linear equations and variables x1,x2,,xnR:
a1,1x1+a1,2x2++a1,nxn=b1a2,1x1+a2,2x2++a2,nxn=b2=an,1x1+an,2x2++an,nxn=bn
All factors ai,jR for i,j1,,n can be written in one matrix ARn×n and all bi can be written as a vector b. You combine all xi in the same way to a vector x.
So you can write the system of equations as:
Ax=b

How Gaussian elimination works ¶

First, you write A and b in an augmented matrix (A|b):
(a1,1a1,2a1,nb1a2,1a2,2a2,nb2an,1an,2an,nbn)
On this matrix you may make exactly three operations:
  • Swap rows
  • Add one row onto another
  • Multiply every factor of one row with a constant
You want to get a triangular matrix. So you subsequently eliminate one variable from the system of equations until you have a matrix like this:
(a1,1a1,2a1,3a1,nb10a2,2a2,3a2,nb200a3,3a3,nb3000a3,nbn)
It's actually quite simple to get this form:
Pseudocode for Gaussian elimination
Pseudocode for Gaussian elimination

C++ Code ¶

#include <iostream>
#include <cmath>
#include <vector>

using namespace std;

void print(vector< vector<double> > A) {
    int n = A.size();
    for (int i=0; i<n; i++) {
        for (int j=0; j<n+1; j++) {
            cout << A[i][j] << "\t";
            if (j == n-1) {
                cout << "| ";
            }
        }
        cout << "\n";
    }
    cout << endl;
}

vector<double> gauss(vector< vector<double> > A) {
    int n = A.size();

    for (int i=0; i<n; i++) {
        // Search for maximum in this column
        double maxEl = abs(A[i][i]);
        int maxRow = i;
        for (int k=i+1; k<n; k++) {
            if (abs(A[k][i]) > maxEl) {
                maxEl = abs(A[k][i]);
                maxRow = k;
            }
        }

        // Swap maximum row with current row (column by column)
        for (int k=i; k<n+1;k++) {
            double tmp = A[maxRow][k];
            A[maxRow][k] = A[i][k];
            A[i][k] = tmp;
        }

        // Make all rows below this one 0 in current column
        for (int k=i+1; k<n; k++) {
            double c = -A[k][i]/A[i][i];
            for (int j=i; j<n+1; j++) {
                if (i==j) {
                    A[k][j] = 0;
                } else {
                    A[k][j] += c * A[i][j];
                }
            }
        }
    }

    // Solve equation Ax=b for an upper triangular matrix A
    vector<double> x(n);
    for (int i=n-1; i>=0; i--) {
        x[i] = A[i][n]/A[i][i];
        for (int k=i-1;k>=0; k--) {
            A[k][n] -= A[k][i] * x[i];
        }
    }
    return x;
}

int main() {
    int n;
    cin >> n;

    vector<double> line(n+1,0);
    vector< vector<double> > A(n,line);

    // Read input data
    for (int i=0; i<n; i++) {
        for (int j=0; j<n; j++) {
            cin >> A[i][j];
        }
    }

    for (int i=0; i<n; i++) {
        cin >> A[i][n];
    }

    // Print input
    print(A);

    // Calculate solution
    vector<double> x(n);
    x = gauss(A);

    // Print result
    cout << "Result:\t";
    for (int i=0; i<n; i++) {
        cout << x[i] << " ";
    }
    cout << endl;
}
You can call it like this:
./gauss.out < 3x3.in
1   2   3   | 1
4   5   6   | 1
1   0   1   | 1

Result: 0 -1 1

Python code ¶

#!/usr/bin/env python
# -*- coding: utf-8 -*-


def pprint(A):
    n = len(A)
    for i in range(0, n):
        line = ""
        for j in range(0, n+1):
            line += str(A[i][j]) + "\t"
            if j == n-1:
                line += "| "
        print(line)
    print("")


def gauss(A):
    n = len(A)

    for i in range(0, n):
        # Search for maximum in this column
        maxEl = abs(A[i][i])
        maxRow = i
        for k in range(i+1, n):
            if abs(A[k][i]) > maxEl:
                maxEl = abs(A[k][i])
                maxRow = k

        # Swap maximum row with current row (column by column)
        for k in range(i, n+1):
            tmp = A[maxRow][k]
            A[maxRow][k] = A[i][k]
            A[i][k] = tmp

        # Make all rows below this one 0 in current column
        for k in range(i+1, n):
            c = -A[k][i]/A[i][i]
            for j in range(i, n+1):
                if i == j:
                    A[k][j] = 0
                else:
                    A[k][j] += c * A[i][j]

    # Solve equation Ax=b for an upper triangular matrix A
    x = [0 for i in range(n)]
    for i in range(n-1, -1, -1):
        x[i] = A[i][n]/A[i][i]
        for k in range(i-1, -1, -1):
            A[k][n] -= A[k][i] * x[i]
    return x


if __name__ == "__main__":
    from fractions import Fraction
    n = input()

    A = [[0 for j in range(n+1)] for i in range(n)]

    # Read input data
    for i in range(0, n):
        line = map(Fraction, raw_input().split(" "))
        for j, el in enumerate(line):
            A[i][j] = el
    raw_input()

    line = raw_input().split(" ")
    lastLine = map(Fraction, line)
    for i in range(0, n):
        A[i][n] = lastLine[i]

    # Print input
    pprint(A)

    # Calculate solution
    x = gauss(A)

    # Print result
    line = "Result:\t"
    for i in range(0, n):
        line += str(x[i]) + "\t"
    print(line)

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