using System.Collections;
using Common;
namespace CommonTest;
///
/// 针对 Common.Number 的单元测试,覆盖所有公开方法
///
public class NumberTest
{
///
/// 测试 NumberToBytes 的正常与异常情况
///
[Fact]
public void Test_NumberToBytes()
{
// 测试大端(isLowNumHigh=false)
var result1 = Number.NumberToBytes(0x12345678ABCDEF01, 8, false);
Assert.True(result1.IsSuccessful);
Assert.Equal(new byte[] { 0x12, 0x34, 0x56, 0x78, 0xAB, 0xCD, 0xEF, 0x01 }, result1.Value);
// 测试小端(isLowNumHigh=true)
var result2 = Number.NumberToBytes(0x12345678ABCDEF01, 8, true);
Assert.True(result2.IsSuccessful);
Assert.Equal(new byte[] { 0x01, 0xEF, 0xCD, 0xAB, 0x78, 0x56, 0x34, 0x12 }, result2.Value);
// 测试长度不足(4字节)
var result3 = Number.NumberToBytes(0x12345678, 4, false);
Assert.True(result3.IsSuccessful);
Assert.Equal(new byte[] { 0x12, 0x34, 0x56, 0x78 }, result3.Value);
// 测试超长
var result4 = Number.NumberToBytes(0x1, 9, false);
Assert.False(result4.IsSuccessful);
}
///
/// 测试 BytesToUInt64 的正常与异常情况,覆盖不同参数组合
///
[Fact]
public void Test_BytesToUInt64()
{
// 正常大端(isLowNumHigh=false)
var bytes = new byte[] { 0x12, 0x34, 0x56, 0x78, 0xAB, 0xCD, 0xEF, 0x01 };
var result = Number.BytesToUInt64((byte[])bytes.Clone());
Assert.True(result.IsSuccessful);
Assert.Equal(0x12345678ABCDEF01UL, result.Value);
// 正常小端(isLowNumHigh=true)
var bytes2 = new byte[] { 0x01, 0xEF, 0xCD, 0xAB, 0x78, 0x56, 0x34, 0x12 };
var result2 = Number.BytesToUInt64((byte[])bytes2.Clone(), true);
Assert.True(result2.IsSuccessful);
Assert.Equal(0x12345678ABCDEF01UL, result2.Value);
// 长度不足8字节(numLength=4),大端
var bytes3 = new byte[] { 0x12, 0x34, 0x56, 0x78 };
var result3 = Number.BytesToUInt64((byte[])bytes3.Clone(), 0, 4, false);
Assert.True(result3.IsSuccessful);
Assert.Equal(0x1234567800000000UL, result3.Value);
// 长度不足8字节(numLength=4),小端
var bytes4 = new byte[] { 0x78, 0x56, 0x34, 0x12 };
var result4 = Number.BytesToUInt64((byte[])bytes4.Clone(), 0, 4, true);
Assert.True(result4.IsSuccessful);
Assert.Equal(0x12345678UL, result4.Value);
// numLength=0
var bytes5 = new byte[] { 0x12, 0x34, 0x56, 0x78 };
var result5 = Number.BytesToUInt64((byte[])bytes5.Clone(), 0, 0, false);
Assert.True(result5.IsSuccessful);
Assert.Equal(0UL, result5.Value);
// offset测试
var bytes6 = new byte[] { 0x00, 0x00, 0x12, 0x34, 0x56, 0x78, 0xAB, 0xCD, 0xEF, 0x01 };
var result6 = Number.BytesToUInt64(bytes6, 2, 8, false);
Assert.True(result6.IsSuccessful);
Assert.Equal(0x12345678ABCDEF01UL, result6.Value);
// numLength超限(>8),应返回异常
var bytes7 = new byte[9];
var result7 = Number.BytesToUInt64(bytes7, 0, 9, false);
Assert.False(result7.IsSuccessful);
// offset+numLength超限
var bytes8 = new byte[] { 0x01, 0x02, 0x03, 0x04 };
var result8 = Number.BytesToUInt64(bytes8, 2, 4, false);
Assert.True(result8.IsSuccessful);
Assert.Equal(0x0304000000000000UL, result8.Value);
// bytes长度不足offset+numLength
var bytes9 = new byte[] { 0x01, 0x02 };
var result9 = Number.BytesToUInt64(bytes9, 1, 2, true);
Assert.True(result9.IsSuccessful);
Assert.Equal(0x02UL, result9.Value);
// 空数组
var result10 = Number.BytesToUInt64(new byte[0], 0, 0, false);
Assert.True(result10.IsSuccessful);
Assert.Equal(0UL, result10.Value);
}
///
/// 测试 BytesToUInt32 的正常与异常情况,覆盖不同参数组合
///
[Fact]
public void Test_BytesToUInt32()
{
// 正常大端(isLowNumHigh=false)
var bytes = new byte[] { 0x12, 0x34, 0x56, 0x78 };
var result = Number.BytesToUInt32((byte[])bytes.Clone());
Assert.True(result.IsSuccessful);
Assert.Equal(0x12345678U, result.Value);
// 正常小端(isLowNumHigh=true)
var bytes2 = new byte[] { 0x78, 0x56, 0x34, 0x12 };
var result2 = Number.BytesToUInt32((byte[])bytes2.Clone(), true);
Assert.True(result2.IsSuccessful);
Assert.Equal(0x12345678U, result2.Value);
// 长度不足4字节(numLength=2),大端
var bytes3 = new byte[] { 0x12, 0x34 };
var result3 = Number.BytesToUInt32((byte[])bytes3.Clone(), 0, 2, false);
Assert.True(result3.IsSuccessful);
Assert.Equal(0x12340000U, result3.Value);
// 长度不足4字节(numLength=2),小端
var bytes4 = new byte[] { 0x34, 0x12 };
var result4 = Number.BytesToUInt32((byte[])bytes4.Clone(), 0, 2, true);
Assert.True(result4.IsSuccessful);
Assert.Equal(0x1234U, result4.Value);
// numLength=0
var bytes5 = new byte[] { 0x12, 0x34, 0x56, 0x78 };
var result5 = Number.BytesToUInt32((byte[])bytes5.Clone(), 0, 0, false);
Assert.True(result5.IsSuccessful);
Assert.Equal(0U, result5.Value);
// offset测试
var bytes6 = new byte[] { 0x00, 0x00, 0x12, 0x34, 0x56, 0x78 };
var result6 = Number.BytesToUInt32(bytes6, 2, 4, false);
Assert.True(result6.IsSuccessful);
Assert.Equal(0x12345678U, result6.Value);
// numLength超限(>4),应返回异常
var bytes7 = new byte[5];
var result7 = Number.BytesToUInt32(bytes7, 0, 5, false);
Assert.False(result7.IsSuccessful);
// offset+numLength超限
var bytes8 = new byte[] { 0x01, 0x02, 0x03, 0x04 };
var result8 = Number.BytesToUInt32(bytes8, 2, 2, false);
Assert.True(result8.IsSuccessful);
Assert.Equal(0x03040000U, result8.Value);
// bytes长度不足offset+numLength
var bytes9 = new byte[] { 0x01, 0x02 };
var result9 = Number.BytesToUInt32(bytes9, 1, 1, true);
Assert.True(result9.IsSuccessful);
Assert.Equal(0x02U, result9.Value);
// 空数组
var result10 = Number.BytesToUInt32(new byte[0], 0, 0, false);
Assert.True(result10.IsSuccessful);
Assert.Equal(0U, result10.Value);
}
///
/// 测试 UInt32ArrayToBytes 的正常与异常情况
///
[Fact]
public void Test_UInt32ArrayToBytes()
{
// 正常情况
var arr = new UInt32[] { 0x12345678, 0xABCDEF01 };
var result = Number.UInt32ArrayToBytes(arr);
Assert.True(result.IsSuccessful);
// BlockCopy 按小端序
Assert.Equal(new byte[] { 0x78, 0x56, 0x34, 0x12, 0x01, 0xEF, 0xCD, 0xAB }, result.Value);
// 空数组
var result2 = Number.UInt32ArrayToBytes(new UInt32[0]);
Assert.True(result2.IsSuccessful);
Assert.Empty(result2.Value);
}
///
/// 测试 MultiBitsToBytes 和 MultiBitsToNumber (ulong)
///
[Fact]
public void Test_MultiBitsToBytesAndNumber_Ulong()
{
// 合并两个比特段
var result = Number.MultiBitsToNumber(0b101UL, 3, 0b11UL, 2);
Assert.True(result.IsSuccessful);
Assert.Equal((ulong)0b10111, result.Value);
// 合并为字节数组
var bytesResult = Number.MultiBitsToBytes(0b101UL, 3, 0b11UL, 2);
Assert.True(bytesResult.IsSuccessful);
Assert.Equal(new byte[] { 0b10111 }, bytesResult.Value);
// 超过64位
var failResult = Number.MultiBitsToNumber(0xFFFFFFFFFFFFFFFF, 64, 1, 1);
Assert.False(failResult.IsSuccessful);
}
///
/// 测试 MultiBitsToNumber (uint)
///
[Fact]
public void Test_MultiBitsToNumber_Uint()
{
var result = Number.MultiBitsToNumber(0b101U, 3, 0b11U, 2);
Assert.True(result.IsSuccessful);
Assert.Equal((uint)0b10111, result.Value);
// 超过64位
var failResult = Number.MultiBitsToNumber(uint.MaxValue, 64, 1, 1);
Assert.False(failResult.IsSuccessful);
}
///
/// 测试 BitsCheck (ulong)
///
[Fact]
public void Test_BitsCheck_Ulong()
{
// 完全匹配
Assert.True(Number.BitsCheck(0b1101UL, 0b1101UL));
// 不匹配
Assert.False(Number.BitsCheck(0b1101UL, 0b1001UL));
// 掩码
Assert.True(Number.BitsCheck(0b1101UL, 0b1001UL, 0b1001UL));
}
///
/// 测试 BitsCheck (uint)
///
[Fact]
public void Test_BitsCheck_Uint()
{
Assert.True(Number.BitsCheck(0b1011U, 0b1011U));
Assert.False(Number.BitsCheck(0b1011U, 0b1001U));
Assert.True(Number.BitsCheck(0b1011U, 0b1001U, 0b1001U));
}
///
/// 测试 ToBit
///
[Fact]
public void Test_ToBit()
{
// 取第0位
var result = Number.ToBit(0b1010U, 0);
Assert.True(result.IsSuccessful);
Assert.False(result.Value);
// 取第1位
var result2 = Number.ToBit(0b1010U, 1);
Assert.True(result2.IsSuccessful);
Assert.True(result2.Value);
// 负数位置
var result3 = Number.ToBit(0b1010U, -1);
Assert.False(result3.IsSuccessful);
}
///
/// 测试 BitsToNumber
///
[Fact]
public void Test_BitsToNumber()
{
// 5位BitArray
var bits = new BitArray(new bool[] { true, true, false, true, false }); // 0b01011
var result = Number.BitsToNumber(bits);
Assert.True(result.IsSuccessful);
Assert.Equal((uint)0b01011, result.Value);
// 超过32位
var bits2 = new BitArray(33);
Assert.Throws(() => Number.BitsToNumber(bits2));
}
///
/// 测试 StringToBytes
///
[Fact]
public void Test_StringToBytes()
{
// 16进制字符串
var bytes = Number.StringToBytes("1234ABCD");
Assert.Equal(new byte[] { 0x12, 0x34, 0xAB, 0xCD }, bytes);
// 8位字符串
var bytes2 = Number.StringToBytes("01020304");
Assert.Equal(new byte[] { 0x01, 0x02, 0x03, 0x04 }, bytes2);
}
///
/// 测试 ReverseBytes
///
[Fact]
public void Test_ReverseBytes()
{
// 步长为2
var src = new byte[] { 0x01, 0x02, 0x03, 0x04 };
var result = Number.ReverseBytes(src, 2);
Assert.True(result.IsSuccessful);
Assert.Equal(new byte[] { 0x02, 0x01, 0x04, 0x03 }, result.Value);
// 步长为4
var src2 = new byte[] { 0x01, 0x02, 0x03, 0x04 };
var result2 = Number.ReverseBytes(src2, 4);
Assert.True(result2.IsSuccessful);
Assert.Equal(new byte[] { 0x04, 0x03, 0x02, 0x01 }, result2.Value);
// 步长为1(无变化)
var src3 = new byte[] { 0x01, 0x02, 0x03, 0x04 };
var result3 = Number.ReverseBytes(src3, 1);
Assert.True(result3.IsSuccessful);
Assert.Equal(src3, result3.Value);
// 步长为0(异常)
var result4 = Number.ReverseBytes(src3, 0);
Assert.False(result4.IsSuccessful);
// 步长不能整除
var result5 = Number.ReverseBytes(src3, 3);
Assert.False(result5.IsSuccessful);
}
///
/// 测试 ReverseBits (byte)
///
[Fact]
public void Test_ReverseBits_Byte()
{
// 0b00010010 -> 0b01001000
byte src = 0b00010010;
byte reversed = Number.ReverseBits(src);
Assert.Equal(0b01001000, reversed);
// 0b11110000 -> 0b00001111
Assert.Equal(0b00001111, Number.ReverseBits(0b11110000));
}
///
/// 测试 ReverseBits (byte[])
///
[Fact]
public void Test_ReverseBits_ByteArray()
{
var src = new byte[] { 0b00010010, 0b11110000 };
var reversed = Number.ReverseBits(src);
Assert.Equal(new byte[] { 0b01001000, 0b00001111 }, reversed);
// 空数组
var reversed2 = Number.ReverseBits(new byte[0]);
Assert.Empty(reversed2);
}
///
/// 测试 GetLength
///
[Fact]
public void Test_GetLength()
{
Assert.Equal(5, Number.GetLength(12345));
Assert.Equal(4, Number.GetLength(-123));
Assert.Equal(1, Number.GetLength(0));
}
///
/// 测试 IntPow
///
[Fact]
public void Test_IntPow()
{
Assert.Equal(8, Number.IntPow(2, 3));
Assert.Equal(1, Number.IntPow(5, 0));
Assert.Equal(0, Number.IntPow(0, 5));
Assert.Equal(7, Number.IntPow(7, 1));
Assert.Equal(81, Number.IntPow(3, 4));
}
}