using GFramework.Core.Extensions;
using NUnit.Framework;
namespace GFramework.Core.Tests.Extensions;
///
/// 测试 NumericExtensions 扩展方法的功能
///
[TestFixture]
public class NumericExtensionsTests
{
///
/// 测试Between方法在值在范围内时返回true
///
[Test]
public void Between_Should_Return_True_When_Value_Is_Within_Range()
{
// Arrange
var value = 50;
// Act
var result = value.Between(0, 100);
// Assert
Assert.That(result, Is.True);
}
///
/// 测试Between方法在值等于最小值时返回true
///
[Test]
public void Between_Should_Return_True_When_Value_Equals_Min()
{
// Arrange
var value = 0;
// Act
var result = value.Between(0, 100);
// Assert
Assert.That(result, Is.True);
}
///
/// 测试Between方法在值等于最大值时返回true
///
[Test]
public void Between_Should_Return_True_When_Value_Equals_Max()
{
// Arrange
var value = 100;
// Act
var result = value.Between(0, 100);
// Assert
Assert.That(result, Is.True);
}
///
/// 测试Between方法在值小于最小值时返回false
///
[Test]
public void Between_Should_Return_False_When_Value_Is_Less_Than_Min()
{
// Arrange
var value = -10;
// Act
var result = value.Between(0, 100);
// Assert
Assert.That(result, Is.False);
}
///
/// 测试Between方法在值大于最大值时返回false
///
[Test]
public void Between_Should_Return_False_When_Value_Is_Greater_Than_Max()
{
// Arrange
var value = 150;
// Act
var result = value.Between(0, 100);
// Assert
Assert.That(result, Is.False);
}
///
/// 测试Between方法在边界不包含时返回false
///
[Test]
public void Between_Should_Return_False_When_Value_Equals_Boundary_And_Not_Inclusive()
{
// Arrange
var value = 0;
// Act
var result = value.Between(0, 100, inclusive: false);
// Assert
Assert.That(result, Is.False);
}
///
/// 测试Between方法在最小值大于最大值时抛出ArgumentException
///
[Test]
public void Between_Should_Throw_ArgumentException_When_Min_Is_Greater_Than_Max()
{
// Arrange
var value = 50;
// Act & Assert
Assert.Throws(() => value.Between(100, 0));
}
///
/// 测试Lerp方法在t为0时返回起始值
///
[Test]
public void Lerp_Should_Return_From_When_T_Is_Zero()
{
// Arrange & Act
var result = 0f.Lerp(100f, 0f);
// Assert
Assert.That(result, Is.EqualTo(0f));
}
///
/// 测试Lerp方法在t为1时返回结束值
///
[Test]
public void Lerp_Should_Return_To_When_T_Is_One()
{
// Arrange & Act
var result = 0f.Lerp(100f, 1f);
// Assert
Assert.That(result, Is.EqualTo(100f));
}
///
/// 测试Lerp方法在t为0.5时返回中间值
///
[Test]
public void Lerp_Should_Return_Midpoint_When_T_Is_Half()
{
// Arrange & Act
var result = 0f.Lerp(100f, 0.5f);
// Assert
Assert.That(result, Is.EqualTo(50f));
}
///
/// 测试InverseLerp方法在值等于起始值时返回0
///
[Test]
public void InverseLerp_Should_Return_Zero_When_Value_Equals_From()
{
// Arrange & Act
var result = 0f.InverseLerp(0f, 100f);
// Assert
Assert.That(result, Is.EqualTo(0f));
}
///
/// 测试InverseLerp方法在值等于结束值时返回1
///
[Test]
public void InverseLerp_Should_Return_One_When_Value_Equals_To()
{
// Arrange & Act
var result = 100f.InverseLerp(0f, 100f);
// Assert
Assert.That(result, Is.EqualTo(1f));
}
///
/// 测试InverseLerp方法在值为中间值时返回0.5
///
[Test]
public void InverseLerp_Should_Return_Half_When_Value_Is_Midpoint()
{
// Arrange & Act
var result = 50f.InverseLerp(0f, 100f);
// Assert
Assert.That(result, Is.EqualTo(0.5f));
}
///
/// 测试InverseLerp方法在起始值等于结束值时抛出DivideByZeroException
///
[Test]
public void InverseLerp_Should_Throw_DivideByZeroException_When_From_Equals_To()
{
// Arrange & Act & Assert
Assert.Throws(() => 50f.InverseLerp(100f, 100f));
}
}