// takes the hyperbolic tangent of a number
public void HyperbolicTangent()
{
Entry = ScientificFunctions.Tanh(Entry);
first = true;
overwrite = true;
}
// takes the inverse tangent of the number and returns it in the selected angle units (rads/degrees)
public void InverseTangent()
{
Entry = ScientificFunctions.Arctan(Entry, DegreeSelected);
first = true;
overwrite = true;
}
// takes the hyperbolic cosine of a number
public void HyperbolicCosine()
{
Entry = ScientificFunctions.Cosh(Entry);
first = true;
overwrite = true;
}
//----------triginometric----------
// takes the sine of the number in the selected angle units (rads/degrees)
public void Sine()
{
Entry = ScientificFunctions.Sin(Entry, DegreeSelected);
first = true;
overwrite = true;
}
// takes the inverse cosine of the number and returns it in the selected angle units (rads/degrees)
public void InverseCosine()
{
Entry = ScientificFunctions.Arccos(Entry, DegreeSelected);
first = true;
overwrite = true;
}
//--------------root---------------
/// <summary>
/// Cube root of entry
/// </summary>
public void CubeRoot()
{
Entry = "" + ScientificFunctions.CubedRoot(Entry);
first = true;
overwrite = true;
}
//-----------logarithmic-----------
/// <summary>
/// Natural log of entry
/// </summary>
public void NaturalLog()
{
Entry = "" + ScientificFunctions.Ln(Entry);
first = true;
overwrite = true;
}
//----------------------------------------------------------------------------
//--------------------------End of simple calculator--------------------------
//----------------------------------------------------------------------------
//----------------------------------------------------------------------------
//--------------------------Start of scientific calculator--------------------
//----------------------------------------------------------------------------
//-----------exponential-----------
/// <summary>
/// Squares entry
/// </summary>
public void Square()
{
Entry = ScientificFunctions.Square(Entry);
first = true;
overwrite = true;
}
/// <summary>
/// Cubes entry
/// </summary>
public void Cube()
{
Entry = ScientificFunctions.Cube(Entry);
first = true;
overwrite = true;
}
/// <summary>
/// Finds new display based on previous operator
/// </summary>
public void Equals()
{
if (numBase != "dec")
{
Entry = ProgrammerFunctions.ConvertBase(Entry, numBase, "dec");
PreEntry = ProgrammerFunctions.ConvertBase(PreEntry, preEntryBase, "dec");
}
if (operation == "+")
{
Entry = StandardFunctions.Add(PreEntry, Entry);
}
else if (operation == "-")
{
Entry = StandardFunctions.Subtract(PreEntry, Entry);
}
else if (operation == "*")
{
Entry = StandardFunctions.Multiply(PreEntry, Entry);
}
else if (operation == "/")
{
Entry = StandardFunctions.Divide(PreEntry, Entry);
}
else if (operation == "exp")
{
Entry = ScientificFunctions.GenericExponent(PreEntry, Entry);
}
else if (operation == "root")
{
Entry = ScientificFunctions.GenericRoot(PreEntry, Entry);
}
else if (operation == "log")
{
Entry = ScientificFunctions.GenericLog(PreEntry, Entry);
}
else if (operation == "power")
{
Entry = ScientificFunctions.ScientificNotation(Entry);
}
else if (operation == "i")
{
Entry = StandardFunctions.IntegerDivide(PreEntry, Entry);
}
else if (operation == "mod")
{
Entry = StandardFunctions.Mod(PreEntry, Entry);
}
PreEntry = Entry;
if (numBase != "dec")
{
Entry = ProgrammerFunctions.ConvertBase(Entry, "dec", numBase);
PreEntry = ProgrammerFunctions.ConvertBase(PreEntry, "dec", numBase);
}
first = true;
overwrite = true;
operation = "";
enteredNum = false;
}
//-----------hyperbolic------------
// takes the hyperbolic sine of a number
public void HyperbolicSine()
{
entry = ScientificFunctions.Sinh(entry);
first = true;
overwrite = true;
}
// takes the inverse sine of the number and returns it in the selected angle units (rads/degrees)
public void InverseSine()
{
entry = ScientificFunctions.Arcsin(entry, degreeSelected);
first = true;
overwrite = true;
}
// takes the tangent of the number in the selected angle units (rads/degrees)
public void Tangent()
{
entry = ScientificFunctions.Tan(entry, degreeSelected);
first = true;
overwrite = true;
}
// takes the cossine of the number in the selected angle units (rads/degrees)
public void Cosine()
{
entry = ScientificFunctions.Cos(entry, degreeSelected);
first = true;
overwrite = true;
}