#include <iostream>
#include <string>
#include <cmath>
using namespace std;

//Function Prototypes
void signbit(double number, string &x); // checks sign of number; positive (0) or negative (1)
void zoro(double number, int &whole, double & fraction); // separates the integer value from the decimal value (ex. -10.25)
string wholeconverter(int whole); // converts the integer value to binary (ex. 10 = 1010)
string fractionconverter(double number); // converts the decimal value to binary (ex. 0.25 = 0100 0000 0000 0000 0000 0000)
string numberconverter(string wholebinary, string fracbin); // converts number entered into binary (ex. 10.25 = 00001010.0100000000000....)
string mantissaconverter(string wholebinary, string fracbin); //displays mantissa of converted number (ex. 01001000 00000000 .....)
string exponentconverter(string fullbinary); //converts integer of entered number into binary (ex. 130 = 10000010)
void fullconverter(string fracbin); //displays entered number in IEEE 754 single precision binary (ex. -10.25 = 01000001 00100100 00000000 00000000)
void hexconverter(double number); //displays entered number into IEEE 754 single precision HEX (ex. -10.25 = C1240000)

//C++ entry point
int main()
{
	//Declaration
	string x; // Sign
	string wholebinary, fracbin, fullbinary, mantissa;
	int whole, exponent;
	double number, fraction, binary;
	char choice, hex;

	//Initialization
	fraction = 0.00;
	number = 0.00;
	exponent = 0;
	whole = 0;
	binary = 0.00;
	hex = 0;
	choice = 0;
	x = "";
	fracbin = "";
	wholebinary = "";
	fullbinary = "";
	mantissa = "";

	signbit(number, x);
	zoro(number, whole, fraction);
	wholebinary = wholeconverter(whole);
	fracbin = fractionconverter(fraction);
	fullbinary = numberconverter(wholebinary, fracbin);
	mantissa = mantissaconverter(wholebinary, fracbin);



	// Menu Display
	cout << "PLEASE ENTER A NUMBER TO DISPLAY THE IEEE 754 FLOATING POINT OPTIONS." << endl;
	cin >> number;
	cout << "                                                                                          " << endl;

	cout << "PLEASE CHOOSE ONE OF THE FOLLOWING OPERATIONS: " << endl;
	cout << "1. DISPLAY THE SIGN BIT VALUE" << endl;
	cout << "2. DISPLAY THE INTEGER PART IN BOTH BASE-10 AND BINARY FORMATS" << endl;
	cout << "3. DISPLAY THE DECIMAL PART IN BOTH BASE-10 AND BINARY FORMATS" << endl;
	cout << "4. DISPLAY THE NUMBER ENTERED IN BOTH BASE-10 AND BINARY FORMATS" << endl;
	cout << "5. DISPLAY THE MANTISSA IN BINARY FORMAT" << endl;
	cout << "6. DISPLAY THE EXPONENT IN BOTH BASE-10 AND BINARY FORMAT" << endl;
	cout << "7. DISPLAY THE IEEE 754 SINGLE PRECISION BINARY FORMAT" << endl;
	cout << "8. DISPLAY THE IEEE 754 SINGLE PRECISION HEX FORMAT" << endl;
	cout << "                                                                                          " << endl;

	//Operation Selection
	cin >> choice;


	switch (choice)
	{
	case '1':
		signbit(number, x); // Function Call
		if (number >= 0)
		{
			cout << "SIGN BIT IS (" << x << ") SINCE THE NUMBER ENTERED IS POSITIVE." << endl;
		}
		
		else
		{
			cout << "SIGN BIT IS (" << x << ") SINCE THE NUMBER ENTERED IS NEGATIVE." << endl;
		}
		break;

	case '2':
		zoro(number, whole, fraction); // Function Call
		wholebinary = wholeconverter(whole); // Function Call
		cout << "NUMBER (" << abs(whole) << ") IN BASE-10 IS EQUAL TO ("<< wholebinary << ") IN BINARY" << endl;
		break;

	case '3':
		zoro(number, whole, fraction); // Function Call
		wholebinary = wholeconverter(whole); //
		fracbin = fractionconverter(fraction); // Function Call
		cout << "NUMBER (" << abs(fraction) << ") IN BASE-10 IS EQUAL TO (" << fracbin << ") IN BINARY" << endl;
		break;

	case '4':
		zoro(number, whole, fraction); //Function Call
		wholebinary = wholeconverter(whole); //
		fracbin = fractionconverter(fraction); // Function Call
		fullbinary = numberconverter(wholebinary, fracbin);
		cout << "NUMBER(" << abs(number) << ") IN BASE-10 IS EQUAL TO (" << fullbinary << ") IN BINARY" << endl;
		break;

	case '5':
		zoro(number, whole, fraction); //Function Call
		wholebinary = wholeconverter(whole); //
		fracbin = fractionconverter(fraction); // Function Call
		fullbinary = numberconverter(wholebinary, fracbin);
		mantissa = mantissaconverter(wholebinary, fracbin); // Function Call
		cout << "MANTISSA IS (" << mantissa << ") IN BINARY." << endl;
		break;

	case '6':
		exponentconverter(fullbinary); // Function Call
		cout << "NUMBER (exponent ex.) IN BASE-10 IS EQUAL TO (exponenttobinary(exponent,binary) ex.) IN BINARY." << endl;
		break;

	case '7':
		fullconverter(fracbin); // Function Call
		
		break;

	case '8':
		hexconverter(number); // Function Call
		break;

	default:
		cout << "INVALID INPUT" << endl;
		break;
	}

	return 0;
}


/////////////////////////////////////////////////
// signbit function
// checks the sign of the number, positive or negative
// void type
// 2 parameters; one pass by value (number) and one pass by reference (&x)
// number, &x
void signbit(double number, string &x)
	{
	if (number >= 0.00)
	{
		x = '0';
	}
	else
	{
		x = '1';
	}
	}

////////////////////////////////////////////////////
// zoro function
// void function
// seperates the integer value from the decimal value 
// 3 parameters; one pass by value and two pass by reference
// number, whole, fraction
void zoro(double number, int &whole, double &fraction)
{
	// declartion
	//int whole;
	//double fraction;
	// initialization
	fraction = 0.0;
	whole = 0;

	whole = (int)number;
	fraction = number - whole;
	// no return statment
	//return a, b, c, d; only the one before the ; will be reported back
}

///////////////////////////////////////////////////
// wholeconverter function
// string function
// Converts the integer value to binary
// 1 parameter; pass by value
// whole
string  wholeconverter(int whole)
{
	//declaration
	string wholeb;
	//initialization
	wholeb = "";
	if (whole < 0)
		whole = whole * -1;
	whole = abs(whole);

	while (whole > 0)
	{
		if (whole % 2 == 0)
		{
			wholeb = "0" + wholeb;
		}
		else
		{
			wholeb = "1" + wholeb;
		}
		whole = whole / 2;
	}

	return wholeb;
}

////////////////////////////////////////
// fractionconverter function
// string function
// converts the decimal value to binary
// 1 parameter, pass by value
// fraction
string fractionconverter(double num)
{
	// result
	string result = "";
	int flag = 0;

	//if (num <0) num = num * -1;  //big O
	num = num;
	while (flag <= 30)  // number of position mantissa precision
	{
		flag++;  // increment for precision
		num = num * 2;
		if (num >= 1)
		{
			result = result + '1';
			num = num - 1;
			// num = num - (int)num;
		}
		else
			result = result + '0';
	}
	return result;
}

////////////////////////////////////////
// numberconverter function
// string type
// displays the number entered into binary format
// 2 parameters, both pass by value
// number, fracbin
string numberconverter(string wholebinary, string fracbin)
{
	string result = "";
	result = wholebinary + "." + fracbin;
	return result;
}


////////////////////////////////////////
// mantissaconverter function
// string type
// displays the mantissa of the converted number in binary format
// 1 parameter, pass by value
// mantissa
string mantissaconverter(string wholebinary, string fracbin)
{
	string result = "";
	result = wholebinary + fracbin;
	string mantissa(result, 1, 24);
	
	if (mantissa.substr(1, 23) == "1")
	{
		mantissa = mantissa.substr(0, 22) + "1";
	}
	return mantissa;
}

////////////////////////////////////////
// exponentconverter function
// string type
// converts the exponent of the entered number into binary format
// 1 parameter, pass by value
// exponent
string exponentconverter(string fullbinary)
{
	string exponent = "";
	exponent = fullbinary.length() - 1;
	

}