Files
GoldenCrystal f9976c7a03 Use ref returns to access character data, which should reduce memory consumption a bit.
Reduced some parts of the code by leveraging C# 6 and C# 7 features.
Preliminary work for adding emoji properties to characters.
2017-06-25 02:36:38 +02:00

218 lines
9.1 KiB
C#

using System;
using System.Unicode;
using System.Globalization;
using Xunit;
namespace UnicodeInformation.Tests
{
public class UnicodeInfoTests
{
[Fact]
public void UnicodeVersionShouldBeTheLatestSupported()
{
Assert.Equal(new Version(10, 0, 0), UnicodeInfo.UnicodeVersion);
}
[Fact]
public void ControlCharactersShouldHaveSpecificDisplayText()
{
for (int i = 0; i <= 0x20; ++i)
{
Assert.Equal(char.ConvertFromUtf32(0x2400 + i), UnicodeInfo.GetDisplayText(i));
Assert.Equal(char.ConvertFromUtf32(0x2400 + i), UnicodeInfo.GetDisplayText(UnicodeInfo.GetCharInfo(i)));
}
}
[Theory]
[InlineData("\u0041", 0x0041)]
[InlineData("\U0001F600", 0x1F600)]
[InlineData("\u00E9", 0x00E9)]
public void DisplayTextShouldReturnExpectedResult(string expectedText, int codePoint)
{
Assert.Equal(expectedText, UnicodeInfo.GetDisplayText(codePoint));
}
[Theory]
[InlineData(0x0030, UnicodeCategory.DecimalDigitNumber, UnicodeNumericType.Decimal, "0", "DIGIT ZERO", "Basic Latin")]
[InlineData(0x0031, UnicodeCategory.DecimalDigitNumber, UnicodeNumericType.Decimal, "1", "DIGIT ONE", "Basic Latin")]
[InlineData(0x0032, UnicodeCategory.DecimalDigitNumber, UnicodeNumericType.Decimal, "2", "DIGIT TWO", "Basic Latin")]
[InlineData(0x0035, UnicodeCategory.DecimalDigitNumber, UnicodeNumericType.Decimal, "5", "DIGIT FIVE", "Basic Latin")]
[InlineData(0x0039, UnicodeCategory.DecimalDigitNumber, UnicodeNumericType.Decimal, "9", "DIGIT NINE", "Basic Latin")]
[InlineData(0x0041, UnicodeCategory.UppercaseLetter, UnicodeNumericType.None, null, "LATIN CAPITAL LETTER A", "Basic Latin")]
[InlineData(0x1F600, UnicodeCategory.OtherSymbol, UnicodeNumericType.None, null, "GRINNING FACE", "Emoticons")]
[InlineData(0x00E9, UnicodeCategory.LowercaseLetter, UnicodeNumericType.None, null, "LATIN SMALL LETTER E WITH ACUTE", "Latin-1 Supplement")]
[InlineData(0xD4DB, UnicodeCategory.OtherLetter, UnicodeNumericType.None, null, "HANGUL SYLLABLE PWILH", "Hangul Syllables")]
[InlineData(0x1F574, UnicodeCategory.OtherSymbol, UnicodeNumericType.None, null, "MAN IN BUSINESS SUIT LEVITATING", "Miscellaneous Symbols and Pictographs")]
[InlineData(0x16FE0, UnicodeCategory.ModifierLetter, UnicodeNumericType.None, null, "TANGUT ITERATION MARK", "Ideographic Symbols and Punctuation")]
[InlineData(0x17000, UnicodeCategory.OtherLetter, UnicodeNumericType.None, null, "TANGUT IDEOGRAPH-17000", "Tangut")]
[InlineData(0x17943, UnicodeCategory.OtherLetter, UnicodeNumericType.None, null, "TANGUT IDEOGRAPH-17943", "Tangut")] // Number 4
[InlineData(0x187EC, UnicodeCategory.OtherLetter, UnicodeNumericType.None, null, "TANGUT IDEOGRAPH-187EC", "Tangut")]
[InlineData(0x0D76, UnicodeCategory.OtherNumber, UnicodeNumericType.Numeric, "1/16", "MALAYALAM FRACTION ONE SIXTEENTH", "Malayalam")]
[InlineData(0x0D5D, UnicodeCategory.OtherNumber, UnicodeNumericType.Numeric, "3/20", "MALAYALAM FRACTION THREE TWENTIETHS", "Malayalam")]
[InlineData(0x0D59, UnicodeCategory.OtherNumber, UnicodeNumericType.Numeric, "1/40", "MALAYALAM FRACTION ONE FORTIETH", "Malayalam")]
[InlineData(0x1F953, UnicodeCategory.OtherSymbol, UnicodeNumericType.None, null, "BACON", "Supplemental Symbols and Pictographs")]
[InlineData(0x1F966, UnicodeCategory.OtherSymbol, UnicodeNumericType.None, null, "BROCCOLI", "Supplemental Symbols and Pictographs")]
public void CharacterInfoShouldHaveExpectedResults(int codePoint, UnicodeCategory expectedCategory, UnicodeNumericType expectedNumericType, string expectedNumericValue, string expectedName, string expectedBlock)
{
var info = UnicodeInfo.GetCharInfo(codePoint);
Assert.Equal(codePoint, info.CodePoint);
Assert.Equal(expectedCategory, info.Category);
Assert.Equal(expectedNumericType, info.NumericType);
if (expectedNumericValue != null) Assert.Equal(UnicodeRationalNumber.Parse(expectedNumericValue), info.NumericValue);
else Assert.Null(info.NumericValue);
Assert.Equal(expectedName, info.Name);
Assert.Equal(expectedBlock, UnicodeInfo.GetBlockName(codePoint));
Assert.Equal(expectedBlock, info.Block);
}
#if DEBUG
[Theory]
[InlineData('\0')]
[InlineData('\uABFF')]
[InlineData('\uD7A5')]
public void HangulNameShouldFailForNonHangulCodePoints(char codePoint)
{
Assert.Throws<ArgumentOutOfRangeException>(() => HangulInfo.GetHangulName(codePoint));
}
#endif
[Theory]
[InlineData("HANGUL SYLLABLE PWILH", 0xD4DB)]
[InlineData("HANGUL SYLLABLE PWAENG", 0xD439)]
[InlineData("HANGUL SYLLABLE PANJ", 0xD311)]
[InlineData("HANGUL SYLLABLE TOLM", 0xD1AA)]
public void HangulNameShouldReturnExpectedResult(string expectedName, int codePoint)
{
Assert.Equal(expectedName, UnicodeInfo.GetName(codePoint));
}
[Theory]
[InlineData("Basic Latin", 0x0041)]
[InlineData("Miscellaneous Technical", 0x2307)]
[InlineData("Hangul Syllables", 0xD311)]
[InlineData("Miscellaneous Symbols and Pictographs", 0x1F574)]
public void MethodGetBlockNameShouldHaveExpectedResult(string expectedBlockName, int codePoint)
{
Assert.Equal(expectedBlockName, UnicodeInfo.GetBlockName(codePoint));
}
[Fact]
public void RadicalStrokeCountShouldHaveExpectedResults()
{
var char5E7A = UnicodeInfo.GetCharInfo(0x5E7A);
Assert.NotEmpty(char5E7A.UnicodeRadicalStrokeCounts);
Assert.False(char5E7A.UnicodeRadicalStrokeCounts[0].IsSimplified);
Assert.Equal(52, char5E7A.UnicodeRadicalStrokeCounts[0].Radical);
Assert.Equal(0, char5E7A.UnicodeRadicalStrokeCounts[0].StrokeCount);
var char2A6D6 = UnicodeInfo.GetCharInfo(0x2A6D6);
Assert.NotEmpty(char2A6D6.UnicodeRadicalStrokeCounts);
Assert.False(char2A6D6.UnicodeRadicalStrokeCounts[0].IsSimplified);
Assert.Equal(214, char2A6D6.UnicodeRadicalStrokeCounts[0].Radical);
Assert.Equal(20, char2A6D6.UnicodeRadicalStrokeCounts[0].StrokeCount);
}
[Fact]
public void RadicalInfoShouldHaveExpectedResults()
{
var radical1 = UnicodeInfo.GetCjkRadicalInfo(1);
Assert.False(radical1.HasSimplifiedForm);
Assert.Equal(1, radical1.RadicalIndex);
Assert.Equal('\u2F00', radical1.TraditionalRadicalCodePoint);
Assert.Equal('\u4E00', radical1.TraditionalCharacterCodePoint);
Assert.Equal('\u2F00', radical1.SimplifiedRadicalCodePoint);
Assert.Equal('\u4E00', radical1.SimplifiedCharacterCodePoint);
var radical214 = UnicodeInfo.GetCjkRadicalInfo(214);
Assert.False(radical214.HasSimplifiedForm);
Assert.Equal(214, radical214.RadicalIndex);
Assert.Equal('\u2FD5', radical214.TraditionalRadicalCodePoint);
Assert.Equal('\u9FA0', radical214.TraditionalCharacterCodePoint);
Assert.Equal('\u2FD5', radical214.SimplifiedRadicalCodePoint);
Assert.Equal('\u9FA0', radical214.SimplifiedCharacterCodePoint);
Assert.Throws<IndexOutOfRangeException>(() => UnicodeInfo.GetCjkRadicalInfo(0));
Assert.Throws<IndexOutOfRangeException>(() => UnicodeInfo.GetCjkRadicalInfo(215));
}
[Fact]
public void MethodGetNameShouldNeverFail()
{
for (int i = 0; i <= 0x10FFFF; i++)
{
UnicodeInfo.GetName(i);
}
}
[Fact]
public void MethodGetDisplayTextShouldNeverFail()
{
for (int i = 0; i <= 0x10FFFF; i++)
{
UnicodeInfo.GetDisplayText(i);
}
}
[Fact]
public void MethodGetCategoryShouldNeverFail()
{
for (int i = 0; i <= 0x10FFFF; i++)
{
UnicodeInfo.GetCategory(i);
}
}
[Fact]
public void MethodGetCharInfoShouldNeverFail()
{
for (int i = 0; i <= 0x10FFFF; i++)
{
UnicodeInfo.GetCharInfo(i);
}
}
[Fact]
public void MethodGetCharInfoShouldHaveCoherentResults()
{
for (int i = 0; i <= 0x10FFFF; i++)
{
var charInfo = UnicodeInfo.GetCharInfo(i);
Assert.Equal(charInfo.Name, UnicodeInfo.GetName(i));
Assert.Equal(charInfo.Category, UnicodeInfo.GetCategory(i));
Assert.Equal(UnicodeInfo.GetDisplayText(charInfo), UnicodeInfo.GetDisplayText(i));
}
}
#if DEBUG
[Fact]
public void UnihanCodePointPackingShouldHaveExpectedResults()
{
for (int i = 0x3400; i < 0x4E00; ++i)
Assert.Equal(i, UnihanCharacterData.UnpackCodePoint(UnihanCharacterData.PackCodePoint(i)));
for (int i = 0x4E00; i < 0xA000; ++i)
Assert.Equal(i, UnihanCharacterData.UnpackCodePoint(UnihanCharacterData.PackCodePoint(i)));
for (int i = 0xF900; i < 0xFB00; ++i)
Assert.Equal(i, UnihanCharacterData.UnpackCodePoint(UnihanCharacterData.PackCodePoint(i)));
for (int i = 0x20000; i < 0x2F800; ++i)
Assert.Equal(i, UnihanCharacterData.UnpackCodePoint(UnihanCharacterData.PackCodePoint(i)));
for (int i = 0x2F800; i < 0x30000; ++i)
Assert.Equal(i, UnihanCharacterData.UnpackCodePoint(UnihanCharacterData.PackCodePoint(i)));
// The PackCodePoint method should fail for code points outside of the valid range.
Assert.Throws<ArgumentOutOfRangeException>(() => UnihanCharacterData.PackCodePoint(0xA000));
Assert.Throws<ArgumentOutOfRangeException>(() => UnihanCharacterData.PackCodePoint(0xFB00));
Assert.Throws<ArgumentOutOfRangeException>(() => UnihanCharacterData.PackCodePoint(0x30000));
// The UnpackCodePoint method should fail for values outside of the valid range.
Assert.Throws<ArgumentOutOfRangeException>(() => UnihanCharacterData.UnpackCodePoint(-1));
Assert.Throws<ArgumentOutOfRangeException>(() => UnihanCharacterData.UnpackCodePoint(0x20000));
}
#endif
}
}