#region CPL License
/*
Nuclex Framework
Copyright (C) 2002-2013 Nuclex Development Labs
This library is free software; you can redistribute it and/or
modify it under the terms of the IBM Common Public License as
published by the IBM Corporation; either version 1.0 of the
License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
IBM Common Public License for more details.
You should have received a copy of the IBM Common Public
License along with this library
*/
#endregion
#if UNITTEST
using System;
using System.Collections.Generic;
using System.Text;
using NUnit.Framework;
namespace Nuclex.Support {
///
/// Unit test for the helper class to .NET's string builder
///
[TestFixture]
internal class StringBuilderHelperTest {
///
/// Verifies that bytes are correctly appended to a string builder
///
[Test]
public void TestAppendByte() {
StringBuilder builder = new StringBuilder();
builder.Append((byte)255, GarbagePolicy.Avoid);
Assert.AreEqual(((byte)255).ToString(), builder.ToString());
builder.Clear();
builder.Append((byte)255, GarbagePolicy.Accept);
Assert.AreEqual(((byte)255).ToString(), builder.ToString());
}
///
/// Verifies that a byte with value 0 is correctly appended to a string builder
///
[Test]
public void TestAppendNullByte() {
StringBuilder builder = new StringBuilder();
builder.Append((byte)0, GarbagePolicy.Avoid);
Assert.AreEqual(((byte)0).ToString(), builder.ToString());
builder.Clear();
builder.Append((byte)0, GarbagePolicy.Accept);
Assert.AreEqual(((byte)0).ToString(), builder.ToString());
}
///
/// Verifies that a positive integer is correctly appended to a string builder
///
[Test]
public void TestAppendPositiveInteger() {
StringBuilder builder = new StringBuilder();
builder.Append(12345, GarbagePolicy.Avoid);
Assert.AreEqual((12345).ToString(), builder.ToString());
builder.Clear();
builder.Append(12345, GarbagePolicy.Accept);
Assert.AreEqual((12345).ToString(), builder.ToString());
}
///
/// Verifies that an integer with value 0 is correctly appended to a string builder
///
[Test]
public void TestAppendNullInteger() {
StringBuilder builder = new StringBuilder();
builder.Append(0, GarbagePolicy.Avoid);
Assert.AreEqual((0).ToString(), builder.ToString());
builder.Clear();
builder.Append(0, GarbagePolicy.Accept);
Assert.AreEqual((0).ToString(), builder.ToString());
}
///
/// Verifies that a negative integer is correctly appended to a string builder
///
[Test]
public void TestAppendNegativeInteger() {
StringBuilder builder = new StringBuilder();
builder.Append(-12345, GarbagePolicy.Avoid);
Assert.AreEqual((-12345).ToString(), builder.ToString());
builder.Clear();
builder.Append(-12345, GarbagePolicy.Accept);
Assert.AreEqual((-12345).ToString(), builder.ToString());
}
///
/// Verifies that a positive long integer is correctly appended to a string builder
///
[Test]
public void TestAppendPositiveLong() {
StringBuilder builder = new StringBuilder();
builder.Append(12345L, GarbagePolicy.Avoid);
Assert.AreEqual((12345L).ToString(), builder.ToString());
builder.Clear();
builder.Append(12345L, GarbagePolicy.Accept);
Assert.AreEqual((12345L).ToString(), builder.ToString());
}
///
/// Verifies that a long integer with value 0 is correctly appended to a string builder
///
[Test]
public void TestAppendNullLong() {
StringBuilder builder = new StringBuilder();
builder.Append(0L, GarbagePolicy.Avoid);
Assert.AreEqual((0L).ToString(), builder.ToString());
builder.Clear();
builder.Append(0L, GarbagePolicy.Accept);
Assert.AreEqual((0L).ToString(), builder.ToString());
}
///
/// Verifies that a negative long integer is correctly appended to a string builder
///
[Test]
public void TestAppendNegativeLong() {
StringBuilder builder = new StringBuilder();
builder.Append(-12345L, GarbagePolicy.Avoid);
Assert.AreEqual((-12345L).ToString(), builder.ToString());
builder.Clear();
builder.Append(-12345L, GarbagePolicy.Accept);
Assert.AreEqual((-12345L).ToString(), builder.ToString());
}
///
/// Verifies that negative floating point values are correctly converted
///
[Test]
public void TestAppendNegativeFloat() {
StringBuilder builder = new StringBuilder();
builder.Append(-0.125f, GarbagePolicy.Avoid);
Assert.AreEqual((-0.125f).ToString(), builder.ToString());
builder.Clear();
builder.Append(-0.125f, GarbagePolicy.Accept);
Assert.AreEqual((-0.125f).ToString(), builder.ToString());
}
///
/// Verifies that positive floating point values are correctly converted
///
[Test]
public void TestAppendPositiveFloat() {
StringBuilder builder = new StringBuilder();
builder.Append(10.0625f, GarbagePolicy.Avoid);
Assert.AreEqual((10.0625f).ToString(), builder.ToString());
builder.Clear();
builder.Append(10.0625f, GarbagePolicy.Accept);
Assert.AreEqual((10.0625f).ToString(), builder.ToString());
}
///
/// Verifies that very small floating point values are correctly converted
///
[Test]
public void TestAppendSmallFloat() {
StringBuilder builder = new StringBuilder();
builder.Append(0.00390625f, GarbagePolicy.Avoid);
Assert.AreEqual((0.00390625f).ToString(), builder.ToString());
builder.Clear();
builder.Append(0.00390625f, GarbagePolicy.Accept);
Assert.AreEqual((0.00390625f).ToString(), builder.ToString());
}
///
/// Verifies that very large floating point values are correctly converted
///
[Test]
public void TestAppendHugeFloat() {
StringBuilder builder = new StringBuilder();
builder.Append(1000000000.0f, GarbagePolicy.Avoid);
Assert.AreEqual((1000000000.0f).ToString("F1"), builder.ToString());
builder.Clear();
builder.Append(1000000000.0f, GarbagePolicy.Accept);
Assert.AreEqual((1000000000.0f).ToString(), builder.ToString());
}
/// Tests whether the number of decimal places can be restricted
[Test]
public void TestAppendFloatLimitDecimalPlaces() {
StringBuilder builder = new StringBuilder();
builder.Append(0.00390625f, 3);
Assert.AreEqual((0.003f).ToString(), builder.ToString());
}
///
/// Verifies that a float with no decimal places is correctly appended
///
[Test]
public void TestAppendFloatWithoutDecimalPlaces() {
StringBuilder builder = new StringBuilder();
builder.Append(0.00390625f, 0);
Assert.AreEqual((0.0f).ToString(), builder.ToString()); // Note: no rounding!
}
///
/// Verifies the behavior of the helper with unsupported floating point values
///
[Test]
public void TestAppendOutOfRangeFloat() {
StringBuilder builder = new StringBuilder();
Assert.IsFalse(builder.Append(float.PositiveInfinity, GarbagePolicy.Avoid));
Assert.IsFalse(builder.Append(float.NegativeInfinity, GarbagePolicy.Avoid));
Assert.IsFalse(builder.Append(float.NaN, GarbagePolicy.Avoid));
Assert.IsFalse(builder.Append(0.000000059604644775390625f, GarbagePolicy.Avoid));
}
///
/// Verifies that negative double precision floating point values are
/// correctly converted
///
[Test]
public void TestAppendNegativeDouble() {
StringBuilder builder = new StringBuilder();
builder.Append(-32.015625, GarbagePolicy.Avoid);
Assert.AreEqual((-32.015625).ToString(), builder.ToString());
builder.Clear();
builder.Append(-32.015625, GarbagePolicy.Accept);
Assert.AreEqual((-32.015625).ToString(), builder.ToString());
}
///
/// Verifies that positive double precision floating point values are
/// correctly converted
///
[Test]
public void TestAppendPositiveDouble() {
StringBuilder builder = new StringBuilder();
builder.Append(10.0625, GarbagePolicy.Avoid);
Assert.AreEqual((10.0625).ToString(), builder.ToString());
builder.Clear();
builder.Append(10.0625, GarbagePolicy.Accept);
Assert.AreEqual((10.0625).ToString(), builder.ToString());
}
///
/// Verifies that very small double precision floating point values are
/// correctly converted
///
[Test]
public void TestAppendSmallDouble() {
StringBuilder builder = new StringBuilder();
builder.Append(0.00390625, GarbagePolicy.Avoid);
Assert.AreEqual((0.00390625).ToString(), builder.ToString());
builder.Clear();
builder.Append(0.00390625, GarbagePolicy.Accept);
Assert.AreEqual((0.00390625).ToString(), builder.ToString());
}
///
/// Verifies that very large double precision floating point values are
/// correctly converted
///
[Test]
public void TestAppendHugeDouble() {
StringBuilder builder = new StringBuilder();
builder.Append(1000000000000000000.0, GarbagePolicy.Avoid);
Assert.AreEqual((1000000000000000000.0).ToString("F1"), builder.ToString());
builder.Clear();
builder.Append(1000000000000000000.0, GarbagePolicy.Accept);
Assert.AreEqual((1000000000000000000.0).ToString(), builder.ToString());
}
/// Tests whether the number of decimal places can be restricted
[Test]
public void TestAppendDoubleLimitDecimalPlaces() {
StringBuilder builder = new StringBuilder();
StringBuilderHelper.Append(builder, 0.00390625, 3);
Assert.AreEqual((0.003).ToString(), builder.ToString()); // Note: no rounding!
}
///
/// Verifies that a double with no decimal places is correctly appended
///
[Test]
public void TestAppendDoubleWithoutDecimalPlaces() {
StringBuilder builder = new StringBuilder();
StringBuilderHelper.Append(builder, 0.00390625, 0);
Assert.AreEqual((0.0).ToString(), builder.ToString());
}
///
/// Verifies the behavior of the helper with unsupported double precision
/// floating point values
///
[Test]
public void TestAppendOutOfRangeDouble() {
StringBuilder builder = new StringBuilder();
Assert.IsFalse(builder.Append(double.PositiveInfinity, GarbagePolicy.Avoid));
Assert.IsFalse(builder.Append(double.NegativeInfinity, GarbagePolicy.Avoid));
Assert.IsFalse(builder.Append(double.NaN, GarbagePolicy.Avoid));
Assert.IsFalse(builder.Append(1.1102230246251565404236316680908e-16, GarbagePolicy.Avoid));
}
///
/// Verifies that the contents of a string builder can be cleared
///
[Test]
public void TestClear() {
StringBuilder builder = new StringBuilder("Hello World");
StringBuilderHelper.Clear(builder);
Assert.AreEqual(string.Empty, builder.ToString());
}
}
} // namespace Nuclex.Support
#endif // UNITTEST