/// <summary>
/// Construct a numerical array.
/// </summary>
/// <typeparam name="T">Element type.</typeparam>
/// <param name="flags">Array flags.</param>
/// <param name="dimensions">Array dimensions.</param>
/// <param name="name">Array name.</param>
/// <param name="realData">Real parts of the values.</param>
/// <param name="imaginaryData">Imaginary parts of the values.</param>
/// <returns>A constructed array.</returns>
/// <remarks>
/// Possible values for T: Int8, UInt8, Int16, UInt16, Int32, UInt32, Int64, UInt64, Single, Double,
/// ComplexOf<TReal> (where TReal is one of Int8, UInt8, Int16, UInt16, Int32, UInt32, Int64, UInt64, Single),
/// Complex.
/// </remarks>
public static MatArray ConvertToMatNumericalArrayOf <T>(
ArrayFlags flags,
int[] dimensions,
string name,
DataElement realData,
DataElement imaginaryData)
where T : struct
{
if (flags.Variable.HasFlag(Variable.IsLogical))
{
var data = DataExtraction.GetDataAsUInt8(realData).ToArrayLazily().Select(x => x != 0).ToArray();
return(new MatNumericalArrayOf <bool>(flags, dimensions, name, data));
}
switch (flags.Class)
{
case ArrayType.MxChar:
switch (realData)
{
case MiNum <byte> dataByte:
return(ConvertToMatCharArray(flags, dimensions, name, dataByte));
case MiNum <ushort> dataUshort:
return(ConvertToMatCharArray(flags, dimensions, name, dataUshort));
default:
throw new NotSupportedException("Only utf8, utf16 or ushort char arrays are supported.");
}
case ArrayType.MxDouble:
case ArrayType.MxSingle:
case ArrayType.MxInt8:
case ArrayType.MxUInt8:
case ArrayType.MxInt16:
case ArrayType.MxUInt16:
case ArrayType.MxInt32:
case ArrayType.MxUInt32:
case ArrayType.MxInt64:
case ArrayType.MxUInt64:
var dataArray = ConvertDataToProperType <T>(realData, flags.Class);
if (flags.Variable.HasFlag(Variable.IsComplex))
{
var dataArray2 = ConvertDataToProperType <T>(imaginaryData, flags.Class);
if (flags.Class == ArrayType.MxDouble)
{
var complexArray =
(dataArray as double[])
.Zip(dataArray2 as double[], (x, y) => new Complex(x, y))
.ToArray();
return(new MatNumericalArrayOf <Complex>(flags, dimensions, name, complexArray));
}
var complexDataArray = dataArray.Zip(dataArray2, (x, y) => new ComplexOf <T>(x, y)).ToArray();
return(new MatNumericalArrayOf <ComplexOf <T> >(flags, dimensions, name, complexDataArray));
}
return(new MatNumericalArrayOf <T>(flags, dimensions, name, dataArray));
default:
throw new NotSupportedException();
}
}
private static T[]? ConvertDataToSparseProperType <T>(DataElement data, bool isLogical)
{
if (isLogical)
{
return(DataExtraction.GetDataAsUInt8(data).Select(x => x != 0).ToArray() as T[]);
}
switch (data)
{
case MiNum <double> _:
return(DataExtraction.GetDataAsDouble(data) as T[]);
default:
throw new NotSupportedException();
}
}
private static T[] ConvertDataToProperType <T>(DataElement data, ArrayType arrayType)
{
switch (arrayType)
{
case ArrayType.MxDouble:
return(DataExtraction.GetDataAsDouble(data).ToArrayLazily() as T[]);
case ArrayType.MxSingle:
return(DataExtraction.GetDataAsSingle(data).ToArrayLazily() as T[]);
case ArrayType.MxInt8:
return(DataExtraction.GetDataAsInt8(data).ToArrayLazily() as T[]);
case ArrayType.MxUInt8:
return(DataExtraction.GetDataAsUInt8(data).ToArrayLazily() as T[]);
case ArrayType.MxInt16:
return(DataExtraction.GetDataAsInt16(data).ToArrayLazily() as T[]);
case ArrayType.MxUInt16:
return(DataExtraction.GetDataAsUInt16(data).ToArrayLazily() as T[]);
case ArrayType.MxInt32:
return(DataExtraction.GetDataAsInt32(data).ToArrayLazily() as T[]);
case ArrayType.MxUInt32:
return(DataExtraction.GetDataAsUInt32(data).ToArrayLazily() as T[]);
case ArrayType.MxInt64:
return(DataExtraction.GetDataAsInt64(data).ToArrayLazily() as T[]);
case ArrayType.MxUInt64:
return(DataExtraction.GetDataAsUInt64(data).ToArrayLazily() as T[]);
default:
throw new NotSupportedException();
}
}