318 lines
13 KiB
C#
Executable File
318 lines
13 KiB
C#
Executable File
// Copyright 2017-2018 Alexander Luzgarev
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using System.IO;
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using System.Linq;
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using System.Numerics;
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using NUnit.Framework;
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namespace MatFileHandler.Tests
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{
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/// <summary>
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/// Tests of file reading API.
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/// </summary>
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[TestFixture]
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public class MatFileReaderTests
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{
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private const string TestDirectory = "test-data";
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/// <summary>
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/// Test reading all files in a given test set.
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/// </summary>
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/// <param name="testSet">Name of the set.</param>
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[TestCase("good")]
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public void TestReader(string testSet)
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{
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foreach (var matFile in GetTests(testSet).GetAllTestData())
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{
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Assert.That(matFile.Variables, Is.Not.Empty);
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}
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}
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/// <summary>
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/// Test reading lower and upper limits of integer data types.
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/// </summary>
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[Test]
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public void TestLimits()
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{
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var matFile = GetTests("good")["limits"];
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IArray array;
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array = matFile["int8_"].Value;
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CheckLimits(array as IArrayOf<sbyte>, CommonData.Int8Limits);
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Assert.That(array.ConvertToDoubleArray(), Is.EqualTo(new[] { -128.0, 127.0 }));
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array = matFile["uint8_"].Value;
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CheckLimits(array as IArrayOf<byte>, CommonData.UInt8Limits);
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array = matFile["int16_"].Value;
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CheckLimits(array as IArrayOf<short>, CommonData.Int16Limits);
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array = matFile["uint16_"].Value;
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CheckLimits(array as IArrayOf<ushort>, CommonData.UInt16Limits);
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array = matFile["int32_"].Value;
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CheckLimits(array as IArrayOf<int>, CommonData.Int32Limits);
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array = matFile["uint32_"].Value;
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CheckLimits(array as IArrayOf<uint>, CommonData.UInt32Limits);
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array = matFile["int64_"].Value;
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CheckLimits(array as IArrayOf<long>, CommonData.Int64Limits);
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array = matFile["uint64_"].Value;
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CheckLimits(array as IArrayOf<ulong>, CommonData.UInt64Limits);
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}
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/// <summary>
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/// Test writing lower and upper limits of integer-based complex data types.
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/// </summary>
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[Test]
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public void TestComplexLimits()
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{
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var matFile = GetTests("good")["limits_complex"];
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IArray array;
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array = matFile["int8_complex"].Value;
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CheckComplexLimits(array as IArrayOf<ComplexOf<sbyte>>, CommonData.Int8Limits);
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Assert.That(
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array.ConvertToComplexArray(),
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Is.EqualTo(new[] { -128.0 + (127.0 * Complex.ImaginaryOne), 127.0 - (128.0 * Complex.ImaginaryOne) }));
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array = matFile["uint8_complex"].Value;
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CheckComplexLimits(array as IArrayOf<ComplexOf<byte>>, CommonData.UInt8Limits);
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array = matFile["int16_complex"].Value;
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CheckComplexLimits(array as IArrayOf<ComplexOf<short>>, CommonData.Int16Limits);
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array = matFile["uint16_complex"].Value;
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CheckComplexLimits(array as IArrayOf<ComplexOf<ushort>>, CommonData.UInt16Limits);
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array = matFile["int32_complex"].Value;
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CheckComplexLimits(array as IArrayOf<ComplexOf<int>>, CommonData.Int32Limits);
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array = matFile["uint32_complex"].Value;
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CheckComplexLimits(array as IArrayOf<ComplexOf<uint>>, CommonData.UInt32Limits);
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array = matFile["int64_complex"].Value;
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CheckComplexLimits(array as IArrayOf<ComplexOf<long>>, CommonData.Int64Limits);
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array = matFile["uint64_complex"].Value;
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CheckComplexLimits(array as IArrayOf<ComplexOf<ulong>>, CommonData.UInt64Limits);
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}
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/// <summary>
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/// Test reading an ASCII-encoded string.
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/// </summary>
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[Test]
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public void TestAscii()
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{
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var matFile = GetTests("good")["ascii"];
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var arrayAscii = matFile["s"].Value as ICharArray;
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Assert.That(arrayAscii, Is.Not.Null);
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Assert.That(arrayAscii.Dimensions, Is.EqualTo(new[] { 1, 3 }));
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Assert.That(arrayAscii.String, Is.EqualTo("abc"));
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Assert.That(arrayAscii[2], Is.EqualTo('c'));
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}
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/// <summary>
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/// Test reading a Unicode string.
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/// </summary>
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[Test]
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public void TestUnicode()
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{
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var matFile = GetTests("good")["unicode"];
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var arrayUnicode = matFile["s"].Value as ICharArray;
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Assert.That(arrayUnicode, Is.Not.Null);
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Assert.That(arrayUnicode.Dimensions, Is.EqualTo(new[] { 1, 2 }));
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Assert.That(arrayUnicode.String, Is.EqualTo("必フ"));
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Assert.That(arrayUnicode[0], Is.EqualTo('必'));
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Assert.That(arrayUnicode[1], Is.EqualTo('フ'));
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}
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/// <summary>
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/// Test reading a wide Unicode string.
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/// </summary>
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[Test]
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public void TestUnicodeWide()
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{
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var matFile = GetTests("good")["unicode-wide"];
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var arrayUnicodeWide = matFile["s"].Value as ICharArray;
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Assert.That(arrayUnicodeWide, Is.Not.Null);
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Assert.That(arrayUnicodeWide.Dimensions, Is.EqualTo(new[] { 1, 2 }));
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Assert.That(arrayUnicodeWide.String, Is.EqualTo("🍆"));
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}
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/// <summary>
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/// Test converting a structure array to a Double array.
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/// </summary>
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/// <returns>Should return null.</returns>
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[Test(ExpectedResult = null)]
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public double[] TestConvertToDoubleArray()
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{
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var matFile = GetTests("good")["struct"];
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var array = matFile.Variables[0].Value;
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return array.ConvertToDoubleArray();
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}
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/// <summary>
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/// Test converting a structure array to a Complex array.
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/// </summary>
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/// <returns>Should return null.</returns>
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[Test(ExpectedResult = null)]
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public Complex[] TestConvertToComplexArray()
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{
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var matFile = GetTests("good")["struct"];
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var array = matFile.Variables[0].Value;
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return array.ConvertToComplexArray();
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}
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/// <summary>
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/// Test reading a structure array.
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/// </summary>
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[Test]
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public void TestStruct()
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{
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var matFile = GetTests("good")["struct"];
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var structure = matFile["struct_"].Value as IStructureArray;
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Assert.That(structure, Is.Not.Null);
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Assert.That(structure.FieldNames, Is.EquivalentTo(new[] { "x", "y" }));
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var element = structure[0, 0];
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Assert.That(element.ContainsKey("x"), Is.True);
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Assert.That(element.Count, Is.EqualTo(2));
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Assert.That(element.TryGetValue("x", out var _), Is.True);
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Assert.That(element.TryGetValue("z", out var _), Is.False);
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Assert.That(element.Keys, Has.Exactly(2).Items);
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Assert.That(element.Values, Has.Exactly(2).Items);
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var keys = element.Select(pair => pair.Key);
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Assert.That(keys, Is.EquivalentTo(new[] { "x", "y" }));
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Assert.That((element["x"] as IArrayOf<double>)?[0], Is.EqualTo(12.345));
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Assert.That((structure["x", 0, 0] as IArrayOf<double>)?[0], Is.EqualTo(12.345));
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Assert.That((structure["y", 0, 0] as ICharArray)?.String, Is.EqualTo("abc"));
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Assert.That((structure["x", 1, 0] as ICharArray)?.String, Is.EqualTo("xyz"));
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Assert.That(structure["y", 1, 0].IsEmpty, Is.True);
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Assert.That((structure["x", 0, 1] as IArrayOf<double>)?[0], Is.EqualTo(2.0));
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Assert.That((structure["y", 0, 1] as IArrayOf<double>)?[0], Is.EqualTo(13.0));
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Assert.That(structure["x", 1, 1].IsEmpty, Is.True);
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Assert.That((structure["y", 1, 1] as ICharArray)?[0, 0], Is.EqualTo('a'));
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Assert.That(((structure["x", 0, 2] as ICellArray)?[0] as ICharArray)?.String, Is.EqualTo("x"));
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Assert.That(((structure["x", 0, 2] as ICellArray)?[1] as ICharArray)?.String, Is.EqualTo("yz"));
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Assert.That((structure["y", 0, 2] as IArrayOf<double>)?.Dimensions, Is.EqualTo(new[] { 2, 3 }));
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Assert.That((structure["y", 0, 2] as IArrayOf<double>)?[0, 2], Is.EqualTo(3.0));
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Assert.That((structure["x", 1, 2] as IArrayOf<float>)?[0], Is.EqualTo(1.5f));
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Assert.That(structure["y", 1, 2].IsEmpty, Is.True);
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}
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/// <summary>
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/// Test reading a sparse array.
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/// </summary>
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[Test]
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public void TestSparse()
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{
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var matFile = GetTests("good")["sparse"];
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var sparseArray = matFile["sparse_"].Value as ISparseArrayOf<double>;
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Assert.That(sparseArray, Is.Not.Null);
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Assert.That(sparseArray.Dimensions, Is.EqualTo(new[] { 4, 5 }));
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Assert.That(sparseArray.Data[(1, 1)], Is.EqualTo(1.0));
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Assert.That(sparseArray[1, 1], Is.EqualTo(1.0));
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Assert.That(sparseArray[1, 2], Is.EqualTo(2.0));
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Assert.That(sparseArray[2, 1], Is.EqualTo(3.0));
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Assert.That(sparseArray[2, 3], Is.EqualTo(4.0));
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Assert.That(sparseArray[0, 4], Is.EqualTo(0.0));
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Assert.That(sparseArray[3, 0], Is.EqualTo(0.0));
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Assert.That(sparseArray[3, 4], Is.EqualTo(0.0));
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}
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/// <summary>
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/// Test reading a logical array.
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/// </summary>
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[Test]
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public void TestLogical()
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{
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var matFile = GetTests("good")["logical"];
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var array = matFile["logical_"].Value;
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var logicalArray = array as IArrayOf<bool>;
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Assert.That(logicalArray, Is.Not.Null);
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Assert.That(logicalArray[0, 0], Is.True);
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Assert.That(logicalArray[0, 1], Is.True);
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Assert.That(logicalArray[0, 2], Is.False);
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Assert.That(logicalArray[1, 0], Is.False);
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Assert.That(logicalArray[1, 1], Is.True);
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Assert.That(logicalArray[1, 2], Is.True);
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}
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/// <summary>
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/// Test reading a sparse logical array.
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/// </summary>
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[Test]
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public void TestSparseLogical()
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{
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var matFile = GetTests("good")["sparse_logical"];
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var array = matFile["sparse_logical"].Value;
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var sparseArray = array as ISparseArrayOf<bool>;
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Assert.That(sparseArray, Is.Not.Null);
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Assert.That(sparseArray.Data[(0, 0)], Is.True);
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Assert.That(sparseArray[0, 0], Is.True);
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Assert.That(sparseArray[0, 1], Is.True);
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Assert.That(sparseArray[0, 2], Is.False);
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Assert.That(sparseArray[1, 0], Is.False);
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Assert.That(sparseArray[1, 1], Is.True);
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Assert.That(sparseArray[1, 2], Is.True);
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}
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/// <summary>
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/// Test reading a global variable.
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/// </summary>
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[Test]
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public void TestGlobal()
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{
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var matFile = GetTests("good")["global"];
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var variable = matFile.Variables.First();
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Assert.That(variable.IsGlobal, Is.True);
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}
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/// <summary>
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/// Test reading a sparse complex array.
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/// </summary>
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[Test]
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public void TextSparseComplex()
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{
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var matFile = GetTests("good")["sparse_complex"];
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var array = matFile["sparse_complex"].Value;
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var sparseArray = array as ISparseArrayOf<Complex>;
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Assert.That(sparseArray, Is.Not.Null);
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Assert.That(sparseArray[0, 0], Is.EqualTo(-1.5 + (2.5 * Complex.ImaginaryOne)));
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Assert.That(sparseArray[1, 0], Is.EqualTo(2 - (3 * Complex.ImaginaryOne)));
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Assert.That(sparseArray[0, 1], Is.EqualTo(Complex.Zero));
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Assert.That(sparseArray[1, 1], Is.EqualTo(0.5 + (1.0 * Complex.ImaginaryOne)));
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}
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/// <summary>
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/// Test reading an object.
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/// </summary>
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[Test]
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public void TestObject()
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{
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Assert.That(() => GetTests("bad")["object"], Throws.TypeOf<HandlerException>());
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}
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private static AbstractTestDataFactory<IMatFile> GetTests(string factoryName) =>
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new MatTestDataFactory(Path.Combine(TestDirectory, factoryName));
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private static void CheckLimits<T>(IArrayOf<T> array, T[] limits)
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where T : struct
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{
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Assert.That(array, Is.Not.Null);
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Assert.That(array.Dimensions, Is.EqualTo(new[] { 1, 2 }));
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Assert.That(array.Data, Is.EqualTo(limits));
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}
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private static void CheckComplexLimits<T>(IArrayOf<ComplexOf<T>> array, T[] limits)
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where T : struct
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{
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Assert.That(array, Is.Not.Null);
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Assert.That(array.Dimensions, Is.EqualTo(new[] { 1, 2 }));
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Assert.That(array[0], Is.EqualTo(new ComplexOf<T>(limits[0], limits[1])));
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Assert.That(array[1], Is.EqualTo(new ComplexOf<T>(limits[1], limits[0])));
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}
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}
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} |