epr24pr1_ojanssen2/main.cpp

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#include "std_lib_inc.h"
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const vector<string> first_digit_strings = {
"", "ein", "zwei", "drei", "vier", "fuenf", "sechs", "sieben", "acht", "neun"
};
const vector<string> middle_digit_strings = {
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"", "zehn", "zwanzig", "dreissig", "vierzig", "fuenfzig", "sechzig", "siebzig", "achzig", "neunzig"
};
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int main()
{
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int input;
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/*
* Use while (true) with break instead of while(cin) to be able to instantly stop the loop in case of an invalid input
*/
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while (true)
{
cin >> input;
if (!cin)
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break; // Stop running loop, if input is wrong
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if (input < 1 || input > 999)
{
cout << "Zahl ausserhalb des gueltigen Bereichs.\n";
continue;
}
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const int right_digit = input % 10;
const int middle_and_right_digit = input % 100;
const int middle_digit = ((middle_and_right_digit) - right_digit) / 10;
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vector<string> result;
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string number_construction = "";
if (middle_and_right_digit < 11 || middle_and_right_digit > 12)
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{
// Handle everything else
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if (right_digit == 1)
number_construction = "s";
if (middle_digit > 1 && right_digit != 0)
number_construction = "und";
number_construction = first_digit_strings[right_digit] + number_construction;
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}
else
{
// Handle 11 and 12
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if (middle_and_right_digit == 11)
number_construction = "elf";
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else
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number_construction = "zwoelf";
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}
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result.push_back(number_construction);
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if ((input > 9 /*input_length > 1*/) && (middle_and_right_digit < 11 || middle_and_right_digit > 12))
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result.push_back(middle_digit_strings[middle_digit]);
else
result.push_back("");
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if (input > 99 /*input_length >= 3*/)
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{
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int left_digit = ((input % 1000) - middle_digit) / 100;
if (left_digit != 1)
number_construction = first_digit_strings[left_digit];
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else
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number_construction = "";
result.push_back(number_construction + "hundert");
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}
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else
result.push_back("");
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cout << result[2] << result[0] << result[1] << "\n";
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}
cout << "Eingabe beendet.\n";
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return 0;
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}