PracticeDev/study_cpp/cpp_primer_source_code/Chapter 7/arfupt1.cpp

68 lines
2.1 KiB
C++

// arfupt.cpp -- an array of function pointers
#include <iostream>
// various notations, same signatures
const double * f1(const double ar[], int n);
const double * f2(const double [], int);
const double * f3(const double *, int);
int main()
{
using namespace std;
double av[3] = {1112.3, 1542.6, 2227.9};
// pointer to a function
typedef const double *(*p_fun)(const double *, int);
p_fun p1 = f1;
auto p2 = f2; // C++0x automatic type deduction
cout << "Using pointers to functions:\n";
cout << " Address Value\n";
cout << (*p1)(av,3) << ": " << *(*p1)(av,3) << endl;
cout << p2(av,3) << ": " << *p2(av,3) << endl;
// pa an array of pointers
p_fun pa[3] = {f1,f2,f3};
// auto doesn't work with list initialization
// but it does work for initializing to a single value
// pb a pointer to first element of pa
auto pb = pa;
cout << "\nUsing an array of pointers to functions:\n";
cout << " Address Value\n";
for (int i = 0; i < 3; i++)
cout << pa[i](av,3) << ": " << *pa[i](av,3) << endl;
cout << "\nUsing a pointer to a pointer to a function:\n";
cout << " Address Value\n";
for (int i = 0; i < 3; i++)
cout << pb[i](av,3) << ": " << *pb[i](av,3) << endl;
// what about a pointer to an array of function pointers
cout << "\nUsing pointers to an array of pointers:\n";
cout << " Address Value\n";
// easy way to declare pc
auto pc = &pa;
cout << (*pc)[0](av,3) << ": " << *(*pc)[0](av,3) << endl;
// slightly harder way to declare pd
p_fun (*pd)[3] = &pa;
// store return value in pdb
const double * pdb = (*pd)[1](av,3);
cout << pdb << ": " << *pdb << endl;
// alternative notation
cout << (*(*pd)[2])(av,3) << ": " << *(*(*pd)[2])(av,3) << endl;
// cin.get();
return 0;
}
// some rather dull functions
const double * f1(const double * ar, int n)
{
return ar;
}
const double * f2(const double ar[], int n)
{
return ar+1;
}
const double * f3(const double ar[], int n)
{
return ar+2;
}