异常处理的思想与程序实现
异常处理的基本思想
异常处理的语法
例 处理除零异常
//12_1.cpp #include <iostream> using namespace std; int divide(int x, int y) { if (y == 0) throw x; return x / y; } int main() { try { cout << "5 / 2 = " << divide(5, 2) << endl; cout << "8 / 0 = " << divide(8, 0) << endl; cout << "7 / 1 = " << divide(7, 1) << endl; } catch (int e) { cout << e << " is divided by zero!" << endl; } cout << "That is ok." << endl; return 0; }
异常接口声明
- 一个函数显式声明可能抛出的异常,有利于函数的调用者为异常处理做好准备
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可以在函数的声明中列出这个函数可能抛掷的所有异常类型。
例如:void fun() throw(A,B,C,D); -
若无异常接口声明,则此函数可以抛掷任何类型的异常。
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不抛掷任何类型异常的函数声明如下:
void fun() throw();
异常处理中的构造与析构
自动的析构
- 找到一个匹配的catch异常处理后
- 初始化异常参数。
- 将从对应的try块开始到异常被抛掷处之间构造(且尚未析构)的所有自动对象进行析构。
- 从最后一个catch处理之后开始恢复执行。
例 带析构语义的类的C++异常处理
//12_2.cpp #include <iostream> #include <string> using namespace std; class MyException { public: MyException(const string &message) : message(message) {} ~MyException() {} const string &getMessage() const { return message; } private: string message; }; class Demo { public: Demo() { cout << "Constructor of Demo" << endl; } ~Demo() { cout << "Destructor of Demo" << endl; } }; void func() throw (MyException) { Demo d; cout << "Throw MyException in func()" << endl; throw MyException("exception thrown by func()"); } int main() { cout << "In main function" << endl; try { func(); } catch (MyException& e) { cout << "Caught an exception: " << e.getMessage() << endl; } cout << "Resume the execution of main()" << endl; return 0; } 运行结果: In main function Constructor of Demo Throw MyException in func() Destructor of Demo Caught an exception: exception thrown by func() Resume the execution of main()
标准程序库异常处理
标准异常类的继承关系
C++标准库各种异常类所代表的异常
标准异常类的基础
- exception:标准程序库异常类的公共基类
- logic_error表示可以在程序中被预先检测到的异常
- 如果小心地编写程序,这类异常能够避免
- runtime_error表示难以被预先检测的异常
例 三角形面积计算
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编写一个计算三角形面积的函数,函数的参数为三角形三边边长a、b、c,可以用Heron公式计算:
//12_3.cpp #include <iostream> #include <cmath> #include <stdexcept> using namespace std; //给出三角形三边长,计算三角形面积 double area(double a, double b, double c) throw (invalid_argument) { //判断三角形边长是否为正 if (a <= 0 || b <= 0 || c <= 0) throw invalid_argument("the side length should be positive"); //判断三边长是否满足三角不等式 if (a + b <= c || b + c <= a || c + a <= b) throw invalid_argument("the side length should fit the triangle inequation"); //由Heron公式计算三角形面积 double s = (a + b + c) / 2; return sqrt(s * (s - a) * (s - b) * (s - c)); } int main() { double a, b, c; //三角形三边长 cout << "Please input the side lengths of a triangle: "; cin >> a >> b >> c; try { double s = area(a, b, c); //尝试计算三角形面积 cout << "Area: " << s << endl; } catch (exception &e) { cout << "Error: " << e.what() << endl; } return 0; } • 运行结果1: Please input the side lengths of a triangle: 3 4 5 Area: 6 • 运行结果2: Please input the side lengths of a triangle: 0 5 5 Error: the side length should be positive • 运行结果2: Please input the side lengths of a triangle: 1 2 4 Error: the side length should fit the triangle inequation