这也是一个控制输入的示例,并将每个计数存储在它计数的字符上:
////////////////////////////
// AlphaNumCounter.h
////////////////////////////
#ifndef ALPHANUMCOUNTER_H
#define ALPHANUMCOUNTER_H
#include "stdafx.h"
#include <vector>
#include <map>
namespace MyStuff
{
const int NOT_VALID_SEARCH_CHAR = -1;
class AlphaNumCounter
{
public:
AlphaNumCounter();
AlphaNumCounter(bool bIsCaseSensitive);
unsigned int CountOccurance(const std::string &haystack, const char &needle);
// Debug func that print all the occurances of a character on the last CountOccurance call
void PrintOccurances()
{
for( std::map<char, unsigned int>::iterator pIter = m_mapAlphaNumerics.begin(); pIter != m_mapAlphaNumerics.end(); pIter++)
{
char c = (*pIter).first;
int count = (*pIter).second;
std::cout << "'" << c << "' had '" << count << "' occurances on last count iteration." << std::endl;
}
}
private:
void Init(); // Shared initializer for all ctor's
std::map<char, unsigned int> m_mapAlphaNumerics; // A map which holds the number of occurances of char (i.e: ['a'][7], if 'a' was found 7 times )
bool m_bIsCaseSensitive; // Should 'A' be counted as 'a', and vice versa...?
};
}
#endif // ALPHANUMCOUNTER_H
/////////////////////////////////
// AlphaNumCounter.cpp
/////////////////////////////////
#include "stdafx.h"
#include "AlphaNumCounter.h"
#include <algorithm>
using namespace MyStuff;
AlphaNumCounter::AlphaNumCounter() : m_mapAlphaNumerics(), m_bIsCaseSensitive(false)
{
Init();
}
AlphaNumCounter::AlphaNumCounter(bool bIsCaseSensitive) : m_mapAlphaNumerics(), m_bIsCaseSensitive(bIsCaseSensitive)
{
Init();
}
void AlphaNumCounter::Init()
{
// Store lowercase a - z
for( char i = 'a'; i <= 'z'; i++ )
m_mapAlphaNumerics[i] = 0;
// Store uppercase a-z
for( char i = 'A'; i <= 'Z'; i++ )
m_mapAlphaNumerics[i] = 0;
// Store 0 - 9
for( char i = '0'; i <= '9'; i++ )
m_mapAlphaNumerics[i] = 0;
}
unsigned int AlphaNumCounter::CountOccurance(const std::string &haystack, const char &needle)
{
// If neither a-z || A-Z || 0-9 is being searched for, we return a indication of that.
if(m_mapAlphaNumerics.find(needle) == m_mapAlphaNumerics.end())
return NOT_VALID_SEARCH_CHAR;
char ch = needle;
std::string sz = haystack;
// If the check is not case sensitive (i.e: A == a), we make sure both params are lowercase for matching.
if( !m_bIsCaseSensitive ){
ch = ::tolower(ch);
std::transform(sz.begin(), sz.end(), sz.begin(), ::tolower);
}
// Count occurances of 'ch' in 'sz' ('needle' in 'haystack')
std::size_t n = std::count(sz.begin(), sz.end(), ch);
// The occurances of 'needle' must be set to 'n' for this iteration
m_mapAlphaNumerics[ch] = n;
// Also set the uppercase val if its case insensitive. Then both 'a' and 'A' would have the same occurance count.
if( !m_bIsCaseSensitive )
m_mapAlphaNumerics[::toupper(ch)] = n;
return n; // Return the count for convenience of usage
}
//////////////////////
// Main.cpp
//////////////////////
using namespace std;
int _tmain(int argc, _TCHAR* argv[])
{
MyStuff::AlphaNumCounter aCounter;
aCounter.PrintOccurances();
cout << "\n--------------------------------------------------------------\n";
cout << "Enter a string: " << std::endl;
string haystack = string();
getline(cin, haystack);
cout << "\nNow enter a single alphanumerical character to count, in that string: " << endl;
char needle;
cin >> needle;
cin.clear();
cin.ignore( numeric_limits<streamsize> ::max(), '\n');
while( aCounter.CountOccurance(haystack, needle) == MyStuff::NOT_VALID_SEARCH_CHAR )
{
cout << "\nI repeat: enter a single *alphanumerical* character to count, in that string: " << endl;
cin >> needle;
cin.clear();
cin.ignore( numeric_limits<streamsize> ::max(), '\n');
}
cout << "\n--------------------------------------------------------------\n";
aCounter.PrintOccurances();
system("PAUSE");
return 0;
}
希望能帮助到你!问候,奥文德