/// <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(); } }
/// <summary> /// Construct a complex sparse array. /// </summary> /// <param name="flags">Array flags.</param> /// <param name="dimensions">Array dimensions.</param> /// <param name="name">Array name.</param> /// <param name="rowIndex">Row indices.</param> /// <param name="columnIndex">Denotes index ranges for each column.</param> /// <param name="data">Real parts of the values.</param> /// <param name="imaginaryData">Imaginary parts of the values.</param> /// <returns>A constructed array.</returns> public static MatArray ConvertToMatSparseArrayOfComplex( SparseArrayFlags flags, int[] dimensions, string name, int[] rowIndex, int[] columnIndex, DataElement data, DataElement imaginaryData) { var realParts = DataExtraction.GetDataAsDouble(data); var imaginaryParts = DataExtraction.GetDataAsDouble(imaginaryData); if (realParts == null) { throw new HandlerException("Couldn't read sparse array."); } var dataDictionary = ConvertMatlabSparseToDictionary( rowIndex, columnIndex, j => new Complex(realParts[j], imaginaryParts[j])); return(new MatSparseArrayOf <Complex>(flags, dimensions, name, dataDictionary)); }