实现效果图:
实例代码:
Matrix.h
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#pragma once #include "vector" #include "iostream" #define rep(i,n) for(int i=1;i<=n;i++) //宏定义for循环,精简代码 using namespace std; class Matrix { public: //基本构造函数 Matrix(int Row=0, int Column=0); //拷贝构造函数或者复制构造函数 Matrix(const Matrix& matrix); //赋值操作符重载,必须为成员函数,不然会报错 Matrix& operator=(const Matrix& matrix); //复合赋值操作符重载,建议重载为成员函数 Matrix& operator+=(const Matrix& matrix); Matrix& operator*=(const Matrix& matrix); Matrix& operator*=(const float& number); Matrix& operator*=(const int& number); Matrix& operator-=(const Matrix& matrix); Matrix& operator/=(const float& number); float& operator[](const size_t& index); Matrix& operator++();//前缀式自增 Matrix& operator--();//前缀式自减 Matrix operator++(int); //后缀式自增 Matrix operator--(int); //后缀式自减 //算术和关系操作符一般为非成员函数,声明为友元 friend Matrix operator+(const Matrix& matrix1, const Matrix& matrix2); friend Matrix operator-(const Matrix& matrix1, const Matrix& matrix2); friend Matrix operator*(const Matrix& matrix1, const Matrix& matrix2); friend Matrix operator*(const Matrix& matrix1, const float& number); friend Matrix operator*(const Matrix& matrix1, const int& number); friend bool operator==(const Matrix& matrix1, const Matrix& matrix2); friend bool operator!=(const Matrix& matrix1, const Matrix& matrix2); //输出操作符<<的重载,必须声明为友元 friend ostream& operator<<(ostream& os, const Matrix&object); //输入操作符>>重载,必须声明为友元 friend istream& operator >>(istream& in,Matrix&object); void Display(); ~Matrix(); public: int Row; int Column; vector< vector <float> > data; //二维vector,用于存放矩阵类数据 }; |
Matrix.cpp
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#include "stdafx.h" #include "Matrix.h" #include "iomanip" //构造函数 Matrix::Matrix( int Row/* =0 */, int Column /* =0 */){ this->Row = Row; this-> Column = Column ; data.resize(Row + 1); //申请行数为row+1,0号位不用 rep(i, Row) data[i].resize( Column + 1); //申请各行的列数 rep(i, Row) rep(j, Column ) data[i][j] = 0; //每个元素初始化为0,方便后面计算 } //打印函数 void Matrix::Display(){ rep(i, Row) { rep(j, Column ) cout << setw(8) << data[i][j] << ' ' ; cout <<endl; } } //拷贝构造函数 Matrix::Matrix(const Matrix& matrix){ Row = matrix.Row; Column = matrix. Column ; data.resize(Row+1); //申请行数为row,0号位不用 rep(i, Row) data[i].resize( Column +1); //申请各行的列数 rep(i, Row) rep(j, Column ) data[i][j] = matrix.data[i][j]; } //赋值操作符重载 Matrix& Matrix::operator=(const Matrix& matrix){ if (this==&matrix) { return *this; } Row = matrix.Row; Column = matrix. Column ; //分配资源 data.resize(Row + 1); //申请行数为row+1,0号位不用 rep(i, Row) data[i].resize( Column + 1); //申请各行的列数 rep(i, Row) rep(j, Column ) data[i][j] = matrix.data[i][j]; //返回本对象的引用 return *this; } //复合赋值操作符重载 Matrix& Matrix::operator+=(const Matrix& matrix){ if (Row == matrix.Row&& Column == matrix. Column ) { rep(i, Row) { rep(j, Column ) { data[i][j] += matrix.data[i][j]; } } } return *this; } Matrix& Matrix::operator-=(const Matrix& matrix){ if (Row == matrix.Row&& Column == matrix. Column ) { rep(i, Row) { rep(j, Column ) { data[i][j] -= matrix.data[i][j]; } } } return *this; } Matrix& Matrix::operator*=(const float & number){ rep(i, Row) { rep(j, Column ) { data[i][j] = data[i][j] * number; } } return *this; } Matrix& Matrix::operator*=(const int & number){ rep(i, Row) { rep(j, Column ) { data[i][j] = data[i][j] * number; } } return *this; } Matrix& Matrix::operator*=(const Matrix& matrix){ //先保存矩阵的值 Matrix temp (Row, Column ); rep(i, temp .Row) { rep(j, temp . Column ) { temp .data[i][j] = data[i][j]; } } //改变矩阵的大小和值 Column = matrix. Column ; data.clear(); //清除数据 data.resize(Row+1); //申请行数为row+1,0号位不用 rep(i, Row) data[i].resize( Column +1); //申请各行的列数 //重新给矩阵赋值 rep(i, temp .Row) { rep(j, matrix. Column ) { double sum = 0; rep(k, temp . Column ) sum += temp .data[i][k] * matrix.data[k][j]; data[i][j] = sum ; //改变矩阵的值 } } return *this; } Matrix& Matrix::operator/=(const float & number){ rep(i, Row) { rep(j, Column ) { data[i][j] = data[i][j] / number; } } return *this; } //前缀式自增 Matrix& Matrix::operator++(){ //对每个元素都加1 rep(i, Row) { rep(j, Column ) { data[i][j] +=1; } } return *this; } //前缀式自减 Matrix& Matrix::operator --(){ //对每个元素都减1 rep(i, Row) { rep(j, Column ) { data[i][j] -= 1; } } return *this; } //后缀式自增 Matrix Matrix::operator++( int ){ //拷贝构造函数 Matrix ret(*this); //对每个元素都加1 rep(i, Row) { rep(j, Column ) { data[i][j] += 1; } } return ret; } //后缀式自减 Matrix Matrix::operator --(int){ //拷贝构造函数 Matrix ret(*this); //对每个元素都减1 rep(i, Row) { rep(j, Column ) { data[i][j] -= 1; } } return ret; } //析构函数 Matrix::~Matrix() { data.clear(); } //加法操作符重载 Matrix operator+(const Matrix& matrix1, const Matrix& matrix2){ Matrix temp (matrix1.Row, matrix1. Column ); if (matrix1.Row == matrix2.Row&&matrix1. Column == matrix2. Column ) { rep(i, matrix1.Row) { rep(j, matrix2. Column ) { temp .data[i][j] = matrix1.data[i][j]+matrix2.data[i][j]; } } } return temp ; } //减法操作符重载 Matrix operator-(const Matrix& matrix1, const Matrix& matrix2){ Matrix temp (matrix1.Row, matrix1. Column ); if (matrix1.Row == matrix2.Row&&matrix1. Column == matrix2. Column ) { rep(i, matrix1.Row) { rep(j, matrix2. Column ) { temp .data[i][j] = matrix1.data[i][j] - matrix2.data[i][j]; } } } return temp ; } //乘法操作符重载 Matrix operator*(const Matrix& matrix1, const Matrix& matrix2){ Matrix temp (matrix1.Row, matrix2. Column ); rep(i, temp .Row) { rep(j, temp . Column ) { double sum = 0; rep(k, matrix1. Column ) sum += matrix1.data[i][k] * matrix2.data[k][j]; temp .data[i][j] = sum ; } } return temp ; } //乘法操作符重载 Matrix operator*(const Matrix& matrix1, const float & number){ Matrix temp (matrix1.Row, matrix1. Column ); rep(i, temp .Row) { rep(j, temp . Column ) { temp .data[i][j] = matrix1.data[i][j]* number; } } return temp ; } //乘法操作符重载 Matrix operator*(const Matrix& matrix1, const int & number){ Matrix temp (matrix1.Row, matrix1. Column ); rep(i, temp .Row) { rep(j, temp . Column ) { temp .data[i][j] = matrix1.data[i][j] * number; } } return temp ; } //等于关系操作符重载 bool operator==(const Matrix& matrix1, const Matrix& matrix2){ //只有维数相等才有可比性 if (matrix1.Row==matrix2.Row&&matrix1. Column ==matrix2. Column ) { rep(i, matrix1.Row) { rep(j, matrix1. Column ) { if (matrix1.data[i][j]!=matrix2.data[i][j]) { return false ; } } } return true ; } else { return false ; } } //不等于关系操作符重载 bool operator!=(const Matrix& matrix1, const Matrix& matrix2){ //只有维数相等才有可比性 if (matrix1.Row == matrix2.Row&&matrix1. Column == matrix2. Column ) { rep(i, matrix1.Row) { rep(j, matrix1. Column ) { if (matrix1.data[i][j] != matrix2.data[i][j]) { return true ; } } } return false ; } else { return false ; } } //输出操作符重载 ostream& operator<<(ostream& os, const Matrix&object){ rep(i, object.Row) { rep(j, object. Column ) os << setw(8) << object.data[i][j] << ' ' ; os <<endl; } return os; } //输入操作符重载 istream& operator >>(istream& in , Matrix&object){ rep(i, object.Row) rep(j, object. Column ) in >> object.data[i][j]; return in ; } |
main.c
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#include "iostream" #include "Matrix.h" using namespace std; int main(){ int row1, row2, col1, col2; cout << "请输入第一个矩阵的行和列:\n" ; cin >> row1 >> col1; Matrix m1(row1, col1); cout << "请输入" << row1 << '*' << col1 << "个数:\n" ; cin >> m1; cout << "输出矩阵的值:\n" ; cout << m1; cout << "请输入第二个矩阵的行和列:\n" ; cin >> row2 >> col2; Matrix m2(row2, col2); cout << "请输入" << row2 << '*' << col2 << "个数:\n " ; cin >> m2; cout << "输出矩阵的值:\n" ; cout << m2; if (col1 != row2) cout << "这两个矩阵无法相乘\n" ; else { cout << "判断矩阵m1与m2是否相等:\n" ; if (m1==m2) { cout << "m1和m2相等:\n" ; } else { cout << "m1和m2不相等:\n" ; } cout << "m1拷贝构造m3矩阵结果输出:\n" ; Matrix m3(m1); cout << m3; cout << "m1赋值重载m4矩阵结果输出:\n" ; Matrix m4(m1.Row,m1.Column); m4 = m1; cout << m4; cout << "m1*m2矩阵相乘输出m5:\n" ; Matrix m5(m1.Row, m2.Column); m5 = m1*m2; cout << m5; cout << "矩阵m1*2输出m6:\n" ; Matrix m6(m1.Row, m1.Column); m6 = m1*2; cout << m6; cout << "矩阵m1*0.5输出m7:\n" ; Matrix m7(m1.Row, m1.Column); m7 = m1 * 0.5; cout << m7; cout << "m1*m2矩阵相乘输出m1:\n" ; m1 *= m2; cout << m1; cout << "m1矩阵前自增输出\n" ; cout << ++m1; cout << "m1矩阵后自增输出\n" ; cout << m1++; cout << "m1矩阵输出\n" ; cout << m1; cout << "m1矩阵前自减输出\n" ; cout << --m1; cout << "m1矩阵后自减输出\n" ; cout << m1--; cout << "m1矩阵输出\n" ; cout << m1; } return 0; } |
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原文链接:http://blog.csdn.net/liuyi1207164339/article/details/47082463