using System.Text; using System; using System.Collections.Generic; using System.Linq; using Terminal.Gui; using Xunit; using Xunit.Abstractions; // Alias Console to MockConsole so we don't accidentally use Console using Console = Terminal.Gui.FakeConsole; namespace Terminal.Gui.TextTests { public class TextFormatterTests { readonly ITestOutputHelper output; public TextFormatterTests (ITestOutputHelper output) { this.output = output; } [Fact] public void Basic_Usage () { var testText = "test"; var expectedSize = new Size (); var testBounds = new Rect (0, 0, 100, 1); var tf = new TextFormatter (); tf.Text = testText; expectedSize = new Size (testText.Length, 1); Assert.Equal (testText, tf.Text); Assert.Equal (TextAlignment.Left, tf.Alignment); Assert.Equal (expectedSize, tf.Size); tf.Draw (testBounds, new Attribute (), new Attribute ()); Assert.Equal (expectedSize, tf.Size); Assert.NotEmpty (tf.Lines); tf.Alignment = TextAlignment.Right; expectedSize = new Size (testText.Length, 1); Assert.Equal (testText, tf.Text); Assert.Equal (TextAlignment.Right, tf.Alignment); Assert.Equal (expectedSize, tf.Size); tf.Draw (testBounds, new Attribute (), new Attribute ()); Assert.Equal (expectedSize, tf.Size); Assert.NotEmpty (tf.Lines); tf.Alignment = TextAlignment.Right; expectedSize = new Size (testText.Length * 2, 1); tf.Size = expectedSize; Assert.Equal (testText, tf.Text); Assert.Equal (TextAlignment.Right, tf.Alignment); Assert.Equal (expectedSize, tf.Size); tf.Draw (testBounds, new Attribute (), new Attribute ()); Assert.Equal (expectedSize, tf.Size); Assert.NotEmpty (tf.Lines); tf.Alignment = TextAlignment.Centered; expectedSize = new Size (testText.Length * 2, 1); tf.Size = expectedSize; Assert.Equal (testText, tf.Text); Assert.Equal (TextAlignment.Centered, tf.Alignment); Assert.Equal (expectedSize, tf.Size); tf.Draw (testBounds, new Attribute (), new Attribute ()); Assert.Equal (expectedSize, tf.Size); Assert.NotEmpty (tf.Lines); } [Fact] public void TestSize_TextChange () { var tf = new TextFormatter () { Text = "你" }; Assert.Equal (2, tf.Size.Width); tf.Text = "你你"; Assert.Equal (4, tf.Size.Width); } [Fact] public void NeedsFormat_Sets () { var testText = "test"; var testBounds = new Rect (0, 0, 100, 1); var tf = new TextFormatter (); tf.Text = "test"; Assert.True (tf.NeedsFormat); // get_Lines causes a Format Assert.NotEmpty (tf.Lines); Assert.False (tf.NeedsFormat); // get_Lines causes a Format Assert.Equal (testText, tf.Text); tf.Draw (testBounds, new Attribute (), new Attribute ()); Assert.False (tf.NeedsFormat); tf.Size = new Size (1, 1); Assert.True (tf.NeedsFormat); Assert.NotEmpty (tf.Lines); Assert.False (tf.NeedsFormat); // get_Lines causes a Format tf.Alignment = TextAlignment.Centered; Assert.True (tf.NeedsFormat); Assert.NotEmpty (tf.Lines); Assert.False (tf.NeedsFormat); // get_Lines causes a Format } [Theory] [InlineData (null)] [InlineData ("")] [InlineData ("no hotkey")] [InlineData ("No hotkey, Upper Case")] [InlineData ("Non-english: Сохранить")] public void FindHotKey_Invalid_ReturnsFalse (string text) { Rune hotKeySpecifier = (Rune)'_'; bool supportFirstUpperCase = false; int hotPos = 0; Key hotKey = Key.Unknown; bool result = false; result = TextFormatter.FindHotKey (text, hotKeySpecifier, supportFirstUpperCase, out hotPos, out hotKey); Assert.False (result); Assert.Equal (-1, hotPos); Assert.Equal (Key.Unknown, hotKey); } [Theory] [InlineData ("_K Before", true, 0, (Key)'K')] [InlineData ("a_K Second", true, 1, (Key)'K')] [InlineData ("Last _K", true, 5, (Key)'K')] [InlineData ("After K_", false, -1, Key.Unknown)] [InlineData ("Multiple _K and _R", true, 9, (Key)'K')] [InlineData ("Non-english: _Кдать", true, 13, (Key)'К')] // Cryllic K (К) [InlineData ("_K Before", true, 0, (Key)'K', true)] // Turn on FirstUpperCase and verify same results [InlineData ("a_K Second", true, 1, (Key)'K', true)] [InlineData ("Last _K", true, 5, (Key)'K', true)] [InlineData ("After K_", false, -1, Key.Unknown, true)] [InlineData ("Multiple _K and _R", true, 9, (Key)'K', true)] [InlineData ("Non-english: _Кдать", true, 13, (Key)'К', true)] // Cryllic K (К) public void FindHotKey_AlphaUpperCase_Succeeds (string text, bool expectedResult, int expectedHotPos, Key expectedKey, bool supportFirstUpperCase = false) { Rune hotKeySpecifier = (Rune)'_'; var result = TextFormatter.FindHotKey (text, hotKeySpecifier, supportFirstUpperCase, out int hotPos, out Key hotKey); if (expectedResult) { Assert.True (result); } else { Assert.False (result); } Assert.Equal (expectedResult, result); Assert.Equal (expectedHotPos, hotPos); Assert.Equal (expectedKey, hotKey); } [Theory] [InlineData ("_k Before", true, 0, (Key)'K')] // lower case should return uppercase Hotkey [InlineData ("a_k Second", true, 1, (Key)'K')] [InlineData ("Last _k", true, 5, (Key)'K')] [InlineData ("After k_", false, -1, Key.Unknown)] [InlineData ("Multiple _k and _R", true, 9, (Key)'K')] [InlineData ("Non-english: _кдать", true, 13, (Key)'К')] // Lower case Cryllic K (к) [InlineData ("_k Before", true, 0, (Key)'K', true)] // Turn on FirstUpperCase and verify same results [InlineData ("a_k Second", true, 1, (Key)'K', true)] [InlineData ("Last _k", true, 5, (Key)'K', true)] [InlineData ("After k_", false, -1, Key.Unknown, true)] [InlineData ("Multiple _k and _r", true, 9, (Key)'K', true)] [InlineData ("Non-english: _кдать", true, 13, (Key)'К', true)] // Cryllic K (К) public void FindHotKey_AlphaLowerCase_Succeeds (string text, bool expectedResult, int expectedHotPos, Key expectedKey, bool supportFirstUpperCase = false) { Rune hotKeySpecifier = (Rune)'_'; var result = TextFormatter.FindHotKey (text, hotKeySpecifier, supportFirstUpperCase, out int hotPos, out Key hotKey); if (expectedResult) { Assert.True (result); } else { Assert.False (result); } Assert.Equal (expectedResult, result); Assert.Equal (expectedHotPos, hotPos); Assert.Equal (expectedKey, hotKey); } [Theory] [InlineData ("_1 Before", true, 0, (Key)'1')] // Digits [InlineData ("a_1 Second", true, 1, (Key)'1')] [InlineData ("Last _1", true, 5, (Key)'1')] [InlineData ("After 1_", false, -1, Key.Unknown)] [InlineData ("Multiple _1 and _2", true, 9, (Key)'1')] [InlineData ("_1 Before", true, 0, (Key)'1', true)] // Turn on FirstUpperCase and verify same results [InlineData ("a_1 Second", true, 1, (Key)'1', true)] [InlineData ("Last _1", true, 5, (Key)'1', true)] [InlineData ("After 1_", false, -1, Key.Unknown, true)] [InlineData ("Multiple _1 and _2", true, 9, (Key)'1', true)] public void FindHotKey_Numeric_Succeeds (string text, bool expectedResult, int expectedHotPos, Key expectedKey, bool supportFirstUpperCase = false) { Rune hotKeySpecifier = (Rune)'_'; var result = TextFormatter.FindHotKey (text, hotKeySpecifier, supportFirstUpperCase, out int hotPos, out Key hotKey); if (expectedResult) { Assert.True (result); } else { Assert.False (result); } Assert.Equal (expectedResult, result); Assert.Equal (expectedHotPos, hotPos); Assert.Equal (expectedKey, hotKey); } [Theory] [InlineData ("K Before", true, 0, (Key)'K')] [InlineData ("aK Second", true, 1, (Key)'K')] [InlineData ("last K", true, 5, (Key)'K')] [InlineData ("multiple K and R", true, 9, (Key)'K')] [InlineData ("non-english: Кдать", true, 13, (Key)'К')] // Cryllic K (К) public void FindHotKey_Legacy_FirstUpperCase_Succeeds (string text, bool expectedResult, int expectedHotPos, Key expectedKey) { var supportFirstUpperCase = true; Rune hotKeySpecifier = (Rune)0; var result = TextFormatter.FindHotKey (text, hotKeySpecifier, supportFirstUpperCase, out int hotPos, out Key hotKey); if (expectedResult) { Assert.True (result); } else { Assert.False (result); } Assert.Equal (expectedResult, result); Assert.Equal (expectedHotPos, hotPos); Assert.Equal (expectedKey, hotKey); } [Theory] [InlineData ("\"k before")] [InlineData ("ak second")] [InlineData ("last k")] [InlineData ("multiple k and r")] [InlineData ("12345")] [InlineData ("`~!@#$%^&*()-_=+[{]}\\|;:'\",<.>/?")] // punctuation [InlineData (" ~  s  gui.cs   master ↑10")] // ~IsLetterOrDigit + Unicode [InlineData ("non-english: кдать")] // Lower case Cryllic K (к) public void FindHotKey_Legacy_FirstUpperCase_NotFound_Returns_False (string text) { bool supportFirstUpperCase = true; var hotKeySpecifier = (Rune)0; var result = TextFormatter.FindHotKey (text, hotKeySpecifier, supportFirstUpperCase, out int hotPos, out Key hotKey); Assert.False (result); Assert.Equal (-1, hotPos); Assert.Equal (Key.Unknown, hotKey); } [Theory] [InlineData (null)] [InlineData ("")] [InlineData ("a")] public void RemoveHotKeySpecifier_InValid_ReturnsOriginal (string text) { Rune hotKeySpecifier = (Rune)'_'; if (text == null) { Assert.Null (TextFormatter.RemoveHotKeySpecifier (text, 0, hotKeySpecifier)); Assert.Null (TextFormatter.RemoveHotKeySpecifier (text, -1, hotKeySpecifier)); Assert.Null (TextFormatter.RemoveHotKeySpecifier (text, 100, hotKeySpecifier)); } else { Assert.Equal (text, TextFormatter.RemoveHotKeySpecifier (text, 0, hotKeySpecifier)); Assert.Equal (text, TextFormatter.RemoveHotKeySpecifier (text, -1, hotKeySpecifier)); Assert.Equal (text, TextFormatter.RemoveHotKeySpecifier (text, 100, hotKeySpecifier)); } } [Theory] [InlineData ("_K Before", 0, "K Before")] [InlineData ("a_K Second", 1, "aK Second")] [InlineData ("Last _K", 5, "Last K")] [InlineData ("After K_", 7, "After K")] [InlineData ("Multiple _K and _R", 9, "Multiple K and _R")] [InlineData ("Non-english: _Кдать", 13, "Non-english: Кдать")] public void RemoveHotKeySpecifier_Valid_ReturnsStripped (string text, int hotPos, string expectedText) { Rune hotKeySpecifier = (Rune)'_'; Assert.Equal (expectedText, TextFormatter.RemoveHotKeySpecifier (text, hotPos, hotKeySpecifier)); } [Theory] [InlineData ("all lower case", 0)] [InlineData ("K Before", 0)] [InlineData ("aK Second", 1)] [InlineData ("Last K", 5)] [InlineData ("fter K", 7)] [InlineData ("Multiple K and R", 9)] [InlineData ("Non-english: Кдать", 13)] public void RemoveHotKeySpecifier_Valid_Legacy_ReturnsOriginal (string text, int hotPos) { Rune hotKeySpecifier = (Rune)'_'; Assert.Equal (text, TextFormatter.RemoveHotKeySpecifier (text, hotPos, hotKeySpecifier)); } [Theory] [InlineData (null)] [InlineData ("")] public void CalcRect_Invalid_Returns_Empty (string text) { Assert.Equal (Rect.Empty, TextFormatter.CalcRect (0, 0, text)); Assert.Equal (new Rect (new Point (1, 2), Size.Empty), TextFormatter.CalcRect (1, 2, text)); Assert.Equal (new Rect (new Point (-1, -2), Size.Empty), TextFormatter.CalcRect (-1, -2, text)); } [Theory] [InlineData ("test")] [InlineData (" ~  s  gui.cs   master ↑10")] public void CalcRect_SingleLine_Returns_1High (string text) { Assert.Equal (new Rect (0, 0, text.GetRuneCount (), 1), TextFormatter.CalcRect (0, 0, text)); Assert.Equal (new Rect (0, 0, text.GetColumns (), 1), TextFormatter.CalcRect (0, 0, text)); } [Theory] [InlineData ("line1\nline2", 5, 2)] [InlineData ("\nline2", 5, 2)] [InlineData ("\n\n", 0, 3)] [InlineData ("\n\n\n", 0, 4)] [InlineData ("line1\nline2\nline3long!", 10, 3)] [InlineData ("line1\nline2\n\n", 5, 4)] [InlineData ("line1\r\nline2", 5, 2)] [InlineData (" ~  s  gui.cs   master ↑10\n", 31, 2)] [InlineData ("\n ~  s  gui.cs   master ↑10", 31, 2)] [InlineData (" ~  s  gui.cs   master\n↑10", 27, 2)] public void CalcRect_MultiLine_Returns_nHigh (string text, int expectedWidth, int expectedLines) { Assert.Equal (new Rect (0, 0, expectedWidth, expectedLines), TextFormatter.CalcRect (0, 0, text)); var lines = text.Split (text.Contains (Environment.NewLine) ? Environment.NewLine : "\n"); var maxWidth = lines.Max (s => s.GetColumns ()); var lineWider = 0; for (int i = 0; i < lines.Length; i++) { var w = lines [i].GetColumns (); if (w == maxWidth) { lineWider = i; } } Assert.Equal (new Rect (0, 0, maxWidth, expectedLines), TextFormatter.CalcRect (0, 0, text)); Assert.Equal (new Rect (0, 0, lines [lineWider].ToRuneList ().Sum (r => Math.Max (r.GetColumns (), 0)), expectedLines), TextFormatter.CalcRect (0, 0, text)); } [Theory] [InlineData ("")] [InlineData (null)] [InlineData ("test")] public void ClipAndJustify_Invalid_Returns_Original (string text) { var expected = string.IsNullOrEmpty (text) ? text : ""; Assert.Equal (expected, TextFormatter.ClipAndJustify (text, 0, TextAlignment.Left)); Assert.Equal (expected, TextFormatter.ClipAndJustify (text, 0, TextAlignment.Left)); Assert.Throws (() => TextFormatter.ClipAndJustify (text, -1, TextAlignment.Left)); } [Theory] [InlineData ("test", "", 0)] [InlineData ("test", "te", 2)] [InlineData ("test", "test", int.MaxValue)] [InlineData ("A sentence has words.", "A sentence has words.", 22)] // should fit [InlineData ("A sentence has words.", "A sentence has words.", 21)] // should fit [InlineData ("A sentence has words.", "A sentence has words.", int.MaxValue)] // should fit [InlineData ("A sentence has words.", "A sentence has words", 20)] // Should not fit [InlineData ("A sentence has words.", "A sentence", 10)] // Should not fit [InlineData ("A\tsentence\thas\twords.", "A\tsentence\thas\twords.", int.MaxValue)] [InlineData ("A\tsentence\thas\twords.", "A\tsentence", 10)] [InlineData ("line1\nline2\nline3long!", "line1\nline2\nline3long!", int.MaxValue)] [InlineData ("line1\nline2\nline3long!", "line1\nline", 10)] [InlineData (" ~  s  gui.cs   master ↑10", " ~  s  ", 10)] // Unicode [InlineData ("Ð ÑÐ", "Ð ÑÐ", 5)] // should fit [InlineData ("Ð ÑÐ", "Ð ÑÐ", 4)] // should fit [InlineData ("Ð ÑÐ", "Ð Ñ", 3)] // Should not fit public void ClipAndJustify_Valid_Left (string text, string justifiedText, int maxWidth) { var align = TextAlignment.Left; Assert.Equal (justifiedText, TextFormatter.ClipAndJustify (text, maxWidth, align)); var expectedClippedWidth = Math.Min (justifiedText.GetRuneCount (), maxWidth); Assert.Equal (justifiedText, TextFormatter.ClipAndJustify (text, maxWidth, align)); Assert.True (justifiedText.GetRuneCount () <= maxWidth); Assert.True (justifiedText.GetColumns () <= maxWidth); Assert.Equal (expectedClippedWidth, justifiedText.GetRuneCount ()); Assert.Equal (expectedClippedWidth, justifiedText.ToRuneList ().Sum (r => Math.Max (r.GetColumns (), 1))); Assert.True (expectedClippedWidth <= maxWidth); Assert.Equal (StringExtensions.ToString (justifiedText.ToRunes () [0..expectedClippedWidth]), justifiedText); } [Theory] [InlineData ("test", "", 0)] [InlineData ("test", "te", 2)] [InlineData ("test", "test", int.MaxValue)] [InlineData ("A sentence has words.", "A sentence has words.", 22)] // should fit [InlineData ("A sentence has words.", "A sentence has words.", 21)] // should fit [InlineData ("A sentence has words.", "A sentence has words.", int.MaxValue)] // should fit [InlineData ("A sentence has words.", "A sentence has words", 20)] // Should not fit [InlineData ("A sentence has words.", "A sentence", 10)] // Should not fit [InlineData ("A\tsentence\thas\twords.", "A\tsentence\thas\twords.", int.MaxValue)] [InlineData ("A\tsentence\thas\twords.", "A\tsentence", 10)] [InlineData ("line1\nline2\nline3long!", "line1\nline2\nline3long!", int.MaxValue)] [InlineData ("line1\nline2\nline3long!", "line1\nline", 10)] [InlineData (" ~  s  gui.cs   master ↑10", " ~  s  ", 10)] // Unicode [InlineData ("Ð ÑÐ", "Ð ÑÐ", 5)] // should fit [InlineData ("Ð ÑÐ", "Ð ÑÐ", 4)] // should fit [InlineData ("Ð ÑÐ", "Ð Ñ", 3)] // Should not fit public void ClipAndJustify_Valid_Right (string text, string justifiedText, int maxWidth) { var align = TextAlignment.Right; Assert.Equal (justifiedText, TextFormatter.ClipAndJustify (text, maxWidth, align)); var expectedClippedWidth = Math.Min (justifiedText.GetRuneCount (), maxWidth); Assert.Equal (justifiedText, TextFormatter.ClipAndJustify (text, maxWidth, align)); Assert.True (justifiedText.GetRuneCount () <= maxWidth); Assert.True (justifiedText.GetColumns () <= maxWidth); Assert.Equal (expectedClippedWidth, justifiedText.GetRuneCount ()); Assert.Equal (expectedClippedWidth, justifiedText.ToRuneList ().Sum (r => Math.Max (r.GetColumns (), 1))); Assert.True (expectedClippedWidth <= maxWidth); Assert.Equal (StringExtensions.ToString (justifiedText.ToRunes () [0..expectedClippedWidth]), justifiedText); } [Theory] [InlineData ("test", "", 0)] [InlineData ("test", "te", 2)] [InlineData ("test", "test", int.MaxValue)] [InlineData ("A sentence has words.", "A sentence has words.", 22)] // should fit [InlineData ("A sentence has words.", "A sentence has words.", 21)] // should fit [InlineData ("A sentence has words.", "A sentence has words.", int.MaxValue)] // should fit [InlineData ("A sentence has words.", "A sentence has words", 20)] // Should not fit [InlineData ("A sentence has words.", "A sentence", 10)] // Should not fit [InlineData ("A\tsentence\thas\twords.", "A\tsentence\thas\twords.", int.MaxValue)] [InlineData ("A\tsentence\thas\twords.", "A\tsentence", 10)] [InlineData ("line1\nline2\nline3long!", "line1\nline2\nline3long!", int.MaxValue)] [InlineData ("line1\nline2\nline3long!", "line1\nline", 10)] [InlineData (" ~  s  gui.cs   master ↑10", " ~  s  ", 10)] // Unicode [InlineData ("Ð ÑÐ", "Ð ÑÐ", 5)] // should fit [InlineData ("Ð ÑÐ", "Ð ÑÐ", 4)] // should fit [InlineData ("Ð ÑÐ", "Ð Ñ", 3)] // Should not fit public void ClipAndJustify_Valid_Centered (string text, string justifiedText, int maxWidth) { var align = TextAlignment.Centered; Assert.Equal (justifiedText, TextFormatter.ClipAndJustify (text, maxWidth, align)); var expectedClippedWidth = Math.Min (justifiedText.GetRuneCount (), maxWidth); Assert.Equal (justifiedText, TextFormatter.ClipAndJustify (text, maxWidth, align)); Assert.True (justifiedText.GetRuneCount () <= maxWidth); Assert.True (justifiedText.GetColumns () <= maxWidth); Assert.Equal (expectedClippedWidth, justifiedText.GetRuneCount ()); Assert.Equal (expectedClippedWidth, justifiedText.ToRuneList ().Sum (r => Math.Max (r.GetColumns (), 1))); Assert.True (expectedClippedWidth <= maxWidth); Assert.Equal (StringExtensions.ToString (justifiedText.ToRunes () [0..expectedClippedWidth]), justifiedText); } [Theory] [InlineData ("test", "", 0)] [InlineData ("test", "te", 2)] [InlineData ("test", "test", int.MaxValue)] [InlineData ("A sentence has words.", "A sentence has words.", 22)] // should fit [InlineData ("A sentence has words.", "A sentence has words.", 21)] // should fit [InlineData ("A sentence has words.", "A sentence has words.", 500)] // should fit [InlineData ("A sentence has words.", "A sentence has words", 20)] // Should not fit [InlineData ("A sentence has words.", "A sentence", 10)] // Should not fit [InlineData ("A\tsentence\thas\twords.", "A\tsentence\thas\twords.", int.MaxValue)] [InlineData ("A\tsentence\thas\twords.", "A\tsentence", 10)] [InlineData ("line1\nline2\nline3long!", "line1\nline2\nline3long!", int.MaxValue)] [InlineData ("line1\nline2\nline3long!", "line1\nline", 10)] [InlineData (" ~  s  gui.cs   master ↑10", " ~  s  ", 10)] // Unicode [InlineData ("Ð ÑÐ", "Ð ÑÐ", 5)] // should fit [InlineData ("Ð ÑÐ", "Ð ÑÐ", 4)] // should fit [InlineData ("Ð ÑÐ", "Ð Ñ", 3)] // Should not fit public void ClipAndJustify_Valid_Justified (string text, string justifiedText, int maxWidth) { var align = TextAlignment.Justified; Assert.Equal (justifiedText, TextFormatter.ClipAndJustify (text, maxWidth, align)); var expectedClippedWidth = Math.Min (justifiedText.GetRuneCount (), maxWidth); Assert.Equal (justifiedText, TextFormatter.ClipAndJustify (text, maxWidth, align)); Assert.True (justifiedText.GetRuneCount () <= maxWidth); Assert.True (justifiedText.GetColumns () <= maxWidth); Assert.Equal (expectedClippedWidth, justifiedText.GetRuneCount ()); Assert.Equal (expectedClippedWidth, justifiedText.ToRuneList ().Sum (r => Math.Max (r.GetColumns (), 1))); Assert.True (expectedClippedWidth <= maxWidth); Assert.Equal (StringExtensions.ToString (justifiedText.ToRunes () [0..expectedClippedWidth]), justifiedText); // see Justify_ tests below } [Theory] [InlineData ("")] [InlineData (null)] [InlineData ("test")] public void Justify_Invalid (string text) { Assert.Equal (text, TextFormatter.Justify (text, 0)); Assert.Equal (text, TextFormatter.Justify (text, 0)); Assert.Throws (() => TextFormatter.Justify (text, -1)); } [Theory] [InlineData ("word")] // Even # of chars [InlineData ("word.")] // Odd # of chars [InlineData ("пÑивеÑ")] // Unicode (even #) [InlineData ("пÑивеÑ.")] // Unicode (odd # of chars) public void Justify_SingleWord (string text) { var justifiedText = text; char fillChar = '+'; int width = text.GetRuneCount (); Assert.Equal (justifiedText, TextFormatter.Justify (text, width, fillChar)); width = text.GetRuneCount () + 1; Assert.Equal (justifiedText, TextFormatter.Justify (text, width, fillChar)); width = text.GetRuneCount () + 2; Assert.Equal (justifiedText, TextFormatter.Justify (text, width, fillChar)); width = text.GetRuneCount () + 10; Assert.Equal (justifiedText, TextFormatter.Justify (text, width, fillChar)); width = text.GetRuneCount () + 11; Assert.Equal (justifiedText, TextFormatter.Justify (text, width, fillChar)); } [Theory] // Even # of spaces // 0123456789 [InlineData ("012 456 89", "012 456 89", 10, 0, "+", true)] [InlineData ("012 456 89", "012++456+89", 11, 1)] [InlineData ("012 456 89", "012 456 89", 12, 2, "++", true)] [InlineData ("012 456 89", "012+++456++89", 13, 3)] [InlineData ("012 456 89", "012 456 89", 14, 4, "+++", true)] [InlineData ("012 456 89", "012++++456+++89", 15, 5)] [InlineData ("012 456 89", "012 456 89", 16, 6, "++++", true)] [InlineData ("012 456 89", "012 456 89", 30, 20, "+++++++++++", true)] [InlineData ("012 456 89", "012+++++++++++++456++++++++++++89", 33, 23)] // Odd # of spaces // 01234567890123 [InlineData ("012 456 89 end", "012 456 89 end", 14, 0, "+", true)] [InlineData ("012 456 89 end", "012++456+89+end", 15, 1)] [InlineData ("012 456 89 end", "012++456++89+end", 16, 2)] [InlineData ("012 456 89 end", "012 456 89 end", 17, 3, "++", true)] [InlineData ("012 456 89 end", "012+++456++89++end", 18, 4)] [InlineData ("012 456 89 end", "012+++456+++89++end", 19, 5)] [InlineData ("012 456 89 end", "012 456 89 end", 20, 6, "+++", true)] [InlineData ("012 456 89 end", "012++++++++456++++++++89+++++++end", 34, 20)] [InlineData ("012 456 89 end", "012+++++++++456+++++++++89++++++++end", 37, 23)] // Unicode // Even # of chars // 0123456789 [InlineData ("пÑРвРÑ", "пÑРвРÑ", 10, 0, "+", true)] [InlineData ("пÑРвРÑ", "пÑÐ++вÐ+Ñ", 11, 1)] [InlineData ("пÑРвРÑ", "пÑРвРÑ", 12, 2, "++", true)] [InlineData ("пÑРвРÑ", "пÑÐ+++вÐ++Ñ", 13, 3)] [InlineData ("пÑРвРÑ", "пÑРвРÑ", 14, 4, "+++", true)] [InlineData ("пÑРвРÑ", "пÑÐ++++вÐ+++Ñ", 15, 5)] [InlineData ("пÑРвРÑ", "пÑРвРÑ", 16, 6, "++++", true)] [InlineData ("пÑРвРÑ", "пÑРвРÑ", 30, 20, "+++++++++++", true)] [InlineData ("пÑРвРÑ", "пÑÐ+++++++++++++вÐ++++++++++++Ñ", 33, 23)] // Unicode // Odd # of chars // 0123456789 [InlineData ("Ð ÑРвРÑ", "Ð ÑРвРÑ", 10, 0, "+", true)] [InlineData ("Ð ÑРвРÑ", "Ð++ÑÐ+вÐ+Ñ", 11, 1)] [InlineData ("Ð ÑРвРÑ", "Ð++ÑÐ++вÐ+Ñ", 12, 2)] [InlineData ("Ð ÑРвРÑ", "Ð ÑРвРÑ", 13, 3, "++", true)] [InlineData ("Ð ÑРвРÑ", "Ð+++ÑÐ++вÐ++Ñ", 14, 4)] [InlineData ("Ð ÑРвРÑ", "Ð+++ÑÐ+++вÐ++Ñ", 15, 5)] [InlineData ("Ð ÑРвРÑ", "Ð ÑРвРÑ", 16, 6, "+++", true)] [InlineData ("Ð ÑРвРÑ", "Ð++++++++ÑÐ++++++++вÐ+++++++Ñ", 30, 20)] [InlineData ("Ð ÑРвРÑ", "Ð+++++++++ÑÐ+++++++++вÐ++++++++Ñ", 33, 23)] public void Justify_Sentence (string text, string justifiedText, int forceToWidth, int widthOffset, string replaceWith = null, bool replace = false) { char fillChar = '+'; Assert.Equal (forceToWidth, text.GetRuneCount () + widthOffset); if (replace) { justifiedText = text.Replace (" ", replaceWith); } Assert.Equal (justifiedText, TextFormatter.Justify (text, forceToWidth, fillChar)); Assert.True (Math.Abs (forceToWidth - justifiedText.GetRuneCount ()) < text.Count (s => s == ' ')); Assert.True (Math.Abs (forceToWidth - justifiedText.GetColumns ()) < text.Count (s => s == ' ')); } [Fact] public void WordWrap_Invalid () { var text = string.Empty; int width = 0; Assert.Empty (TextFormatter.WordWrapText (null, width)); Assert.Empty (TextFormatter.WordWrapText (text, width)); Assert.Throws (() => TextFormatter.WordWrapText (text, -1)); } [Fact] public void WordWrap_BigWidth () { List wrappedLines; var text = "Constantinople"; wrappedLines = TextFormatter.WordWrapText (text, 100); Assert.True (wrappedLines.Count == 1); Assert.Equal ("Constantinople", wrappedLines [0]); } [Theory] [InlineData ("Constantinople", 14, 0, new string [] { "Constantinople" })] [InlineData ("Constantinople", 12, -2, new string [] { "Constantinop", "le" })] [InlineData ("Constantinople", 9, -5, new string [] { "Constanti", "nople" })] [InlineData ("Constantinople", 7, -7, new string [] { "Constan", "tinople" })] [InlineData ("Constantinople", 5, -9, new string [] { "Const", "antin", "ople" })] [InlineData ("Constantinople", 4, -10, new string [] { "Cons", "tant", "inop", "le" })] [InlineData ("Constantinople", 1, -13, new string [] { "C", "o", "n", "s", "t", "a", "n", "t", "i", "n", "o", "p", "l", "e" })] public void WordWrap_SingleWordLine (string text, int maxWidth, int widthOffset, IEnumerable resultLines) { List wrappedLines; Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth); wrappedLines = TextFormatter.WordWrapText (text, maxWidth); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetRuneCount ()) : 0)); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetColumns ()) : 0)); Assert.Equal (resultLines, wrappedLines); } [Theory] [InlineData ("กขฃคฅฆงจฉชซฌญฎฏฐฑฒณดตถทธนบปผฝพฟภมยรฤลฦวศษสหฬอฮฯะัาำ", 51, 0, new string [] { "กขฃคฅฆงจฉชซฌญฎฏฐฑฒณดตถทธนบปผฝพฟภมยรฤลฦวศษสหฬอฮฯะัาำ" })] [InlineData ("กขฃคฅฆงจฉชซฌญฎฏฐฑฒณดตถทธนบปผฝพฟภมยรฤลฦวศษสหฬอฮฯะัาำ", 50, -1, new string [] { "กขฃคฅฆงจฉชซฌญฎฏฐฑฒณดตถทธนบปผฝพฟภมยรฤลฦวศษสหฬอฮฯะัา", "ำ" })] [InlineData ("กขฃคฅฆงจฉชซฌญฎฏฐฑฒณดตถทธนบปผฝพฟภมยรฤลฦวศษสหฬอฮฯะัาำ", 46, -5, new string [] { "กขฃคฅฆงจฉชซฌญฎฏฐฑฒณดตถทธนบปผฝพฟภมยรฤลฦวศษสหฬอฮ", "ฯะัาำ" })] [InlineData ("กขฃคฅฆงจฉชซฌญฎฏฐฑฒณดตถทธนบปผฝพฟภมยรฤลฦวศษสหฬอฮฯะัาำ", 26, -25, new string [] { "กขฃคฅฆงจฉชซฌญฎฏฐฑฒณดตถทธนบ", "ปผฝพฟภมยรฤลฦวศษสหฬอฮฯะัาำ" })] [InlineData ("กขฃคฅฆงจฉชซฌญฎฏฐฑฒณดตถทธนบปผฝพฟภมยรฤลฦวศษสหฬอฮฯะัาำ", 17, -34, new string [] { "กขฃคฅฆงจฉชซฌญฎฏฐฑ", "ฒณดตถทธนบปผฝพฟภมย", "รฤลฦวศษสหฬอฮฯะัาำ" })] [InlineData ("กขฃคฅฆงจฉชซฌญฎฏฐฑฒณดตถทธนบปผฝพฟภมยรฤลฦวศษสหฬอฮฯะัาำ", 13, -38, new string [] { "กขฃคฅฆงจฉชซฌญ", "ฎฏฐฑฒณดตถทธนบ", "ปผฝพฟภมยรฤลฦว", "ศษสหฬอฮฯะัาำ" })] [InlineData ("กขฃคฅฆงจฉชซฌญฎฏฐฑฒณดตถทธนบปผฝพฟภมยรฤลฦวศษสหฬอฮฯะัาำ", 1, -50, new string [] { "ก", "ข", "ฃ", "ค", "ฅ", "ฆ", "ง", "จ", "ฉ", "ช", "ซ", "ฌ", "ญ", "ฎ", "ฏ", "ฐ", "ฑ", "ฒ", "ณ", "ด", "ต", "ถ", "ท", "ธ", "น", "บ", "ป", "ผ", "ฝ", "พ", "ฟ", "ภ", "ม", "ย", "ร", "ฤ", "ล", "ฦ", "ว", "ศ", "ษ", "ส", "ห", "ฬ", "อ", "ฮ", "ฯ", "ะ", "ั", "า", "ำ" })] public void WordWrap_Unicode_SingleWordLine (string text, int maxWidth, int widthOffset, IEnumerable resultLines) { List wrappedLines; Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth); wrappedLines = TextFormatter.WordWrapText (text, maxWidth); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetRuneCount ()) : 0)); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetColumns ()) : 0)); Assert.Equal (resultLines, wrappedLines); } [Theory] [InlineData ("This\u00A0is\u00A0a\u00A0sentence.", 19, 0, new string [] { "This\u00A0is\u00A0a\u00A0sentence." })] [InlineData ("This\u00A0is\u00A0a\u00A0sentence.", 18, -1, new string [] { "This\u00A0is\u00A0a\u00A0sentence", "." })] [InlineData ("This\u00A0is\u00A0a\u00A0sentence.", 17, -2, new string [] { "This\u00A0is\u00A0a\u00A0sentenc", "e." })] [InlineData ("This\u00A0is\u00A0a\u00A0sentence.", 14, -5, new string [] { "This\u00A0is\u00A0a\u00A0sent", "ence." })] [InlineData ("This\u00A0is\u00A0a\u00A0sentence.", 10, -9, new string [] { "This\u00A0is\u00A0a\u00A0", "sentence." })] [InlineData ("This\u00A0is\u00A0a\u00A0sentence.", 7, -12, new string [] { "This\u00A0is", "\u00A0a\u00A0sent", "ence." })] [InlineData ("This\u00A0is\u00A0a\u00A0sentence.", 5, -14, new string [] { "This\u00A0", "is\u00A0a\u00A0", "sente", "nce." })] [InlineData ("This\u00A0is\u00A0a\u00A0sentence.", 1, -18, new string [] { "T", "h", "i", "s", "\u00A0", "i", "s", "\u00A0", "a", "\u00A0", "s", "e", "n", "t", "e", "n", "c", "e", "." })] public void WordWrap_Unicode_LineWithNonBreakingSpace (string text, int maxWidth, int widthOffset, IEnumerable resultLines) { List wrappedLines; Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth); wrappedLines = TextFormatter.WordWrapText (text, maxWidth); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetRuneCount ()) : 0)); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetColumns ()) : 0)); Assert.Equal (resultLines, wrappedLines); } [Theory] [InlineData ("This\u00A0is\n\u00A0a\u00A0sentence.", 20, 0, new string [] { "This\u00A0is\u00A0a\u00A0sentence." })] [InlineData ("This\u00A0is\n\u00A0a\u00A0sentence.", 19, -1, new string [] { "This\u00A0is\u00A0a\u00A0sentence." })] [InlineData ("\u00A0\u00A0\u00A0\u00A0\u00A0test\u00A0sentence.", 19, 0, new string [] { "\u00A0\u00A0\u00A0\u00A0\u00A0test\u00A0sentence." })] public void WordWrap_Unicode_2LinesWithNonBreakingSpace (string text, int maxWidth, int widthOffset, IEnumerable resultLines) { List wrappedLines; Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth); wrappedLines = TextFormatter.WordWrapText (text, maxWidth); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetRuneCount ()) : 0)); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetColumns ()) : 0)); Assert.Equal (resultLines, wrappedLines); } [Theory] [InlineData ("A sentence has words.", 21, 0, new string [] { "A sentence has words." })] [InlineData ("A sentence has words.", 20, -1, new string [] { "A sentence has", "words." })] [InlineData ("A sentence has words.", 15, -6, new string [] { "A sentence has", "words." })] [InlineData ("A sentence has words.", 14, -7, new string [] { "A sentence has", "words." })] [InlineData ("A sentence has words.", 13, -8, new string [] { "A sentence", "has words." })] // Unicode [InlineData ("A Unicode sentence (пÑивеÑ) has words.", 42, 0, new string [] { "A Unicode sentence (пÑивеÑ) has words." })] [InlineData ("A Unicode sentence (пÑивеÑ) has words.", 41, -1, new string [] { "A Unicode sentence (пÑивеÑ) has", "words." })] [InlineData ("A Unicode sentence (пÑивеÑ) has words.", 36, -6, new string [] { "A Unicode sentence (пÑивеÑ) has", "words." })] [InlineData ("A Unicode sentence (пÑивеÑ) has words.", 35, -7, new string [] { "A Unicode sentence (пÑивеÑ) has", "words." })] [InlineData ("A Unicode sentence (пÑивеÑ) has words.", 34, -8, new string [] { "A Unicode sentence (пÑивеÑ)", "has words." })] [InlineData ("A Unicode sentence (пÑивеÑ) has words.", 25, -17, new string [] { "A Unicode sentence", "(пÑивеÑ) has words." })] public void WordWrap_NoNewLines_Default (string text, int maxWidth, int widthOffset, IEnumerable resultLines) { // Calls WordWrapText (text, width) and thus preserveTrailingSpaces defaults to false List wrappedLines; Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth); wrappedLines = TextFormatter.WordWrapText (text, maxWidth); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetRuneCount ()) : 0)); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetColumns ()) : 0)); Assert.Equal (resultLines, wrappedLines); } /// /// WordWrap strips CRLF /// [Theory] [InlineData ("A sentence has words.\nA paragraph has lines.", 44, 0, new string [] { "A sentence has words.A paragraph has lines." })] [InlineData ("A sentence has words.\nA paragraph has lines.", 43, -1, new string [] { "A sentence has words.A paragraph has lines." })] [InlineData ("A sentence has words.\nA paragraph has lines.", 38, -6, new string [] { "A sentence has words.A paragraph has", "lines." })] [InlineData ("A sentence has words.\nA paragraph has lines.", 34, -10, new string [] { "A sentence has words.A paragraph", "has lines." })] [InlineData ("A sentence has words.\nA paragraph has lines.", 27, -17, new string [] { "A sentence has words.A", "paragraph has lines." })] // Unicode [InlineData ("A Unicode sentence (пÑивеÑ) has words.\nA Unicode Пункт has Линии.", 69, 0, new string [] { "A Unicode sentence (пÑивеÑ) has words.A Unicode Пункт has Линии." })] [InlineData ("A Unicode sentence (пÑивеÑ) has words.\nA Unicode Пункт has Линии.", 68, -1, new string [] { "A Unicode sentence (пÑивеÑ) has words.A Unicode Пункт has Линии." })] [InlineData ("A Unicode sentence (пÑивеÑ) has words.\nA Unicode Пункт has Линии.", 63, -6, new string [] { "A Unicode sentence (пÑивеÑ) has words.A Unicode Пункт has", "Линии." })] [InlineData ("A Unicode sentence (пÑивеÑ) has words.\nA Unicode Пункт has Линии.", 59, -10, new string [] { "A Unicode sentence (пÑивеÑ) has words.A Unicode Пункт", "has Линии." })] [InlineData ("A Unicode sentence (пÑивеÑ) has words.\nA Unicode Пункт has Линии.", 52, -17, new string [] { "A Unicode sentence (пÑивеÑ) has words.A Unicode", "Пункт has Линии." })] public void WordWrap_WithNewLines (string text, int maxWidth, int widthOffset, IEnumerable resultLines) { List wrappedLines; Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth); wrappedLines = TextFormatter.WordWrapText (text, maxWidth); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetRuneCount ()) : 0)); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetColumns ()) : 0)); Assert.Equal (resultLines, wrappedLines); } [Theory] [InlineData ("A sentence has words.", 3, -18, new string [] { "A", "sen", "ten", "ce", "has", "wor", "ds." })] [InlineData ("A sentence has words.", 2, -19, new string [] { "A", "se", "nt", "en", "ce", "ha", "s", "wo", "rd", "s." })] [InlineData ("A sentence has words.", 1, -20, new string [] { "A", "s", "e", "n", "t", "e", "n", "c", "e", "h", "a", "s", "w", "o", "r", "d", "s", "." })] public void WordWrap_Narrow_Default (string text, int maxWidth, int widthOffset, IEnumerable resultLines) { // Calls WordWrapText (text, width) and thus preserveTrailingSpaces defaults to false List wrappedLines; Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth); wrappedLines = TextFormatter.WordWrapText (text, maxWidth); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetRuneCount ()) : 0)); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetColumns ()) : 0)); Assert.Equal (resultLines, wrappedLines); } [Theory] [InlineData ("A sentence has words.", 14, -7, new string [] { "A sentence ", "has words." })] [InlineData ("A sentence has words.", 8, -13, new string [] { "A ", "sentence", " has ", "words." })] [InlineData ("A sentence has words.", 6, -15, new string [] { "A ", "senten", "ce ", "has ", "words." })] [InlineData ("A sentence has words.", 3, -18, new string [] { "A ", "sen", "ten", "ce ", "has", " ", "wor", "ds." })] [InlineData ("A sentence has words.", 2, -19, new string [] { "A ", "se", "nt", "en", "ce", " ", "ha", "s ", "wo", "rd", "s." })] [InlineData ("A sentence has words.", 1, -20, new string [] { "A", " ", "s", "e", "n", "t", "e", "n", "c", "e", " ", "h", "a", "s", " ", "w", "o", "r", "d", "s", "." })] public void WordWrap_PreserveTrailingSpaces_True (string text, int maxWidth, int widthOffset, IEnumerable resultLines) { List wrappedLines; Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth); wrappedLines = TextFormatter.WordWrapText (text, maxWidth, preserveTrailingSpaces: true); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetRuneCount ()) : 0)); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetColumns ()) : 0)); Assert.Equal (resultLines, wrappedLines); } [Theory] [InlineData ("文に は言葉 があり ます。", 14, 0, new string [] { "文に は言葉 ", "があり ます。" })] [InlineData ("文に は言葉 があり ます。", 3, -11, new string [] { "文", "に ", "は", "言", "葉 ", "が", "あ", "り ", "ま", "す", "。" })] [InlineData ("文に は言葉 があり ます。", 2, -12, new string [] { "文", "に", " ", "は", "言", "葉", " ", "が", "あ", "り", " ", "ま", "す", "。" })] [InlineData ("文に は言葉 があり ます。", 1, -13, new string [] { })] public void WordWrap_PreserveTrailingSpaces_True_Wide_Runes (string text, int maxWidth, int widthOffset, IEnumerable resultLines) { List wrappedLines; Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth); wrappedLines = TextFormatter.WordWrapText (text, maxWidth, preserveTrailingSpaces: true); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetRuneCount ()) : 0)); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetColumns ()) : 0)); Assert.Equal (resultLines, wrappedLines); } [Theory] [InlineData ("文に は言葉 があり ます。", 14, 0, new string [] { "文に は言葉", "があり ます。" })] [InlineData ("文に は言葉 があり ます。", 3, -11, new string [] { "文", "に", "は", "言", "葉", "が", "あ", "り", "ま", "す", "。" })] [InlineData ("文に は言葉 があり ます。", 2, -12, new string [] { "文", "に", "は", "言", "葉", "が", "あ", "り", "ま", "す", "。" })] [InlineData ("文に は言葉 があり ます。", 1, -13, new string [] { })] public void WordWrap_PreserveTrailingSpaces_False_Wide_Runes (string text, int maxWidth, int widthOffset, IEnumerable resultLines) { List wrappedLines; Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth); wrappedLines = TextFormatter.WordWrapText (text, maxWidth); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetRuneCount ()) : 0)); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetColumns ()) : 0)); Assert.Equal (resultLines, wrappedLines); } [Theory] [InlineData ("A sentence has words. ", 3, new string [] { "A ", "sen", "ten", "ce ", "has", " ", "wor", "ds.", " " })] [InlineData ("A sentence has words. ", 3, new string [] { "A ", " ", "sen", "ten", "ce ", " ", " ", " ", "has", " ", "wor", "ds.", " " })] public void WordWrap_PreserveTrailingSpaces_True_With_Simple_Runes_Width_3 (string text, int width, IEnumerable resultLines) { var wrappedLines = TextFormatter.WordWrapText (text, width, preserveTrailingSpaces: true); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.Equal (resultLines, wrappedLines); var breakLines = ""; foreach (var line in wrappedLines) { breakLines += $"{line}{Environment.NewLine}"; } var expected = string.Empty; foreach (var line in resultLines) { expected += $"{line}{Environment.NewLine}"; } Assert.Equal (expected, breakLines); // Double space Complex example - this is how VS 2022 does it //text = "A sentence has words. "; //breakLines = ""; //wrappedLines = TextFormatter.WordWrapText (text, width, preserveTrailingSpaces: true); //foreach (var line in wrappedLines) { // breakLines += $"{line}{Environment.NewLine}"; //} //expected = "A " + Environment.NewLine + // " se" + Environment.NewLine + // " nt" + Environment.NewLine + // " en" + Environment.NewLine + // " ce" + Environment.NewLine + // " " + Environment.NewLine + // " " + Environment.NewLine + // " " + Environment.NewLine + // " ha" + Environment.NewLine + // " s " + Environment.NewLine + // " wo" + Environment.NewLine + // " rd" + Environment.NewLine + // " s." + Environment.NewLine; //Assert.Equal (expected, breakLines); } [Theory] [InlineData (null, 1, new string [] { })] // null input [InlineData ("", 1, new string [] { })] // Empty input [InlineData ("1 34", 1, new string [] { "1", "3", "4" })] // Single Spaces [InlineData ("1", 1, new string [] { "1" })] // Short input [InlineData ("12", 1, new string [] { "1", "2" })] [InlineData ("123", 1, new string [] { "1", "2", "3" })] [InlineData ("123456", 1, new string [] { "1", "2", "3", "4", "5", "6" })] // No spaces [InlineData (" ", 1, new string [] { " " })] // Just Spaces; should result in a single space [InlineData (" ", 1, new string [] { " " })] [InlineData (" ", 1, new string [] { " ", " " })] [InlineData (" ", 1, new string [] { " ", " " })] [InlineData ("12 456", 1, new string [] { "1", "2", "4", "5", "6" })] // Single Spaces [InlineData (" 2 456", 1, new string [] { " ", "2", "4", "5", "6" })] // Leading spaces should be preserved. [InlineData (" 2 456 8", 1, new string [] { " ", "2", "4", "5", "6", "8" })] [InlineData ("A sentence has words. ", 1, new string [] { "A", "s", "e", "n", "t", "e", "n", "c", "e", "h", "a", "s", "w", "o", "r", "d", "s", "." })] // Complex example [InlineData ("12 567", 1, new string [] { "1", "2", " ", "5", "6", "7" })] // Double Spaces [InlineData (" 3 567", 1, new string [] { " ", "3", "5", "6", "7" })] // Double Leading spaces should be preserved. [InlineData (" 3 678 1", 1, new string [] { " ", "3", " ", "6", "7", "8", " ", "1" })] [InlineData ("1 456", 1, new string [] { "1", " ", "4", "5", "6" })] [InlineData ("A sentence has words. ", 1, new string [] { "A", " ", "s", "e", "n", "t", "e", "n", "c", "e", " ", "h", "a", "s", "w", "o", "r", "d", "s", ".", " " })] // Double space Complex example public void WordWrap_PreserveTrailingSpaces_False_With_Simple_Runes_Width_1 (string text, int width, IEnumerable resultLines) { var wrappedLines = TextFormatter.WordWrapText (text, width, preserveTrailingSpaces: false); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.Equal (resultLines, wrappedLines); var breakLines = ""; foreach (var line in wrappedLines) { breakLines += $"{line}{Environment.NewLine}"; } var expected = string.Empty; foreach (var line in resultLines) { expected += $"{line}{Environment.NewLine}"; } Assert.Equal (expected, breakLines); } [Theory] [InlineData (null, 3, new string [] { })] // null input [InlineData ("", 3, new string [] { })] // Empty input [InlineData ("1", 3, new string [] { "1" })] // Short input [InlineData ("12", 3, new string [] { "12" })] [InlineData ("123", 3, new string [] { "123" })] [InlineData ("123456", 3, new string [] { "123", "456" })] // No spaces [InlineData ("1234567", 3, new string [] { "123", "456", "7" })] // No spaces [InlineData (" ", 3, new string [] { " " })] // Just Spaces; should result in a single space [InlineData (" ", 3, new string [] { " " })] [InlineData (" ", 3, new string [] { " " })] [InlineData (" ", 3, new string [] { " " })] [InlineData ("12 456", 3, new string [] { "12", "456" })] // Single Spaces [InlineData (" 2 456", 3, new string [] { " 2", "456" })] // Leading spaces should be preserved. [InlineData (" 2 456 8", 3, new string [] { " 2", "456", "8" })] [InlineData ("A sentence has words. ", 3, new string [] { "A", "sen", "ten", "ce", "has", "wor", "ds." })] // Complex example [InlineData ("12 567", 3, new string [] { "12 ", "567" })] // Double Spaces [InlineData (" 3 567", 3, new string [] { " 3", "567" })] // Double Leading spaces should be preserved. [InlineData (" 3 678 1", 3, new string [] { " 3", " 67", "8 ", "1" })] [InlineData ("1 456", 3, new string [] { "1 ", "456" })] [InlineData ("A sentence has words. ", 3, new string [] { "A ", "sen", "ten", "ce ", " ", "has", "wor", "ds.", " " })] // Double space Complex example public void WordWrap_PreserveTrailingSpaces_False_With_Simple_Runes_Width_3 (string text, int width, IEnumerable resultLines) { var wrappedLines = TextFormatter.WordWrapText (text, width, preserveTrailingSpaces: false); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.Equal (resultLines, wrappedLines); var breakLines = ""; foreach (var line in wrappedLines) { breakLines += $"{line}{Environment.NewLine}"; } var expected = string.Empty; foreach (var line in resultLines) { expected += $"{line}{Environment.NewLine}"; } Assert.Equal (expected, breakLines); } [Theory] [InlineData (null, 50, new string [] { })] // null input [InlineData ("", 50, new string [] { })] // Empty input [InlineData ("1", 50, new string [] { "1" })] // Short input [InlineData ("12", 50, new string [] { "12" })] [InlineData ("123", 50, new string [] { "123" })] [InlineData ("123456", 50, new string [] { "123456" })] // No spaces [InlineData ("1234567", 50, new string [] { "1234567" })] // No spaces [InlineData (" ", 50, new string [] { " " })] // Just Spaces; should result in a single space [InlineData (" ", 50, new string [] { " " })] [InlineData (" ", 50, new string [] { " " })] [InlineData ("12 456", 50, new string [] { "12 456" })] // Single Spaces [InlineData (" 2 456", 50, new string [] { " 2 456" })] // Leading spaces should be preserved. [InlineData (" 2 456 8", 50, new string [] { " 2 456 8" })] [InlineData ("A sentence has words. ", 50, new string [] { "A sentence has words. " })] // Complex example [InlineData ("12 567", 50, new string [] { "12 567" })] // Double Spaces [InlineData (" 3 567", 50, new string [] { " 3 567" })] // Double Leading spaces should be preserved. [InlineData (" 3 678 1", 50, new string [] { " 3 678 1" })] [InlineData ("1 456", 50, new string [] { "1 456" })] [InlineData ("A sentence has words. ", 50, new string [] { "A sentence has words. " })] // Double space Complex example public void WordWrap_PreserveTrailingSpaces_False_With_Simple_Runes_Width_50 (string text, int width, IEnumerable resultLines) { var wrappedLines = TextFormatter.WordWrapText (text, width, preserveTrailingSpaces: false); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.Equal (resultLines, wrappedLines); var breakLines = ""; foreach (var line in wrappedLines) { breakLines += $"{line}{Environment.NewLine}"; } var expected = string.Empty; foreach (var line in resultLines) { expected += $"{line}{Environment.NewLine}"; } Assert.Equal (expected, breakLines); } [Theory] [InlineData ("A sentence\t\t\t has words.", 14, -10, new string [] { "A sentence\t", "\t\t has ", "words." })] [InlineData ("A sentence\t\t\t has words.", 8, -16, new string [] { "A ", "sentence", "\t\t", "\t ", "has ", "words." })] [InlineData ("A sentence\t\t\t has words.", 3, -21, new string [] { "A ", "sen", "ten", "ce", "\t", "\t", "\t", " ", "has", " ", "wor", "ds." })] [InlineData ("A sentence\t\t\t has words.", 2, -22, new string [] { "A ", "se", "nt", "en", "ce", "\t", "\t", "\t", " ", "ha", "s ", "wo", "rd", "s." })] [InlineData ("A sentence\t\t\t has words.", 1, -23, new string [] { "A", " ", "s", "e", "n", "t", "e", "n", "c", "e", "\t", "\t", "\t", " ", "h", "a", "s", " ", "w", "o", "r", "d", "s", "." })] public void WordWrap_PreserveTrailingSpaces_True_With_Tab (string text, int maxWidth, int widthOffset, IEnumerable resultLines, int tabWidth = 4) { List wrappedLines; Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth); wrappedLines = TextFormatter.WordWrapText (text, maxWidth, preserveTrailingSpaces: true, tabWidth: tabWidth); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetRuneCount ()) : 0)); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetColumns ()) : 0)); Assert.Equal (resultLines, wrappedLines); } [Theory] [InlineData ("これが最初の行です。 こんにちは世界。 これが2行目です。", 29, 0, new string [] { "これが最初の行です。", "こんにちは世界。", "これが2行目です。" })] public void WordWrap_PreserveTrailingSpaces_False_Unicode_Wide_Runes (string text, int maxWidth, int widthOffset, IEnumerable resultLines) { List wrappedLines; Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth); wrappedLines = TextFormatter.WordWrapText (text, maxWidth, preserveTrailingSpaces: false); Assert.Equal (wrappedLines.Count, resultLines.Count ()); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetRuneCount ()) : 0)); Assert.True (expectedClippedWidth >= (wrappedLines.Count > 0 ? wrappedLines.Max (l => l.GetColumns ()) : 0)); Assert.Equal (resultLines, wrappedLines); } [Theory] [InlineData ("test", 0, 't', "test")] [InlineData ("test", 1, 'e', "test")] [InlineData ("Ok", 0, 'O', "Ok")] [InlineData ("[◦ Ok ◦]", 3, 'O', "[◦ Ok ◦]")] [InlineData ("^k", 0, '^', "^k")] public void ReplaceHotKeyWithTag (string text, int hotPos, uint tag, string expected) { var tf = new TextFormatter (); var runes = text.ToRuneList (); Rune rune; if (Rune.TryGetRuneAt (text, hotPos, out rune)) { Assert.Equal (rune, (Rune)tag); } var result = tf.ReplaceHotKeyWithTag (text, hotPos); Assert.Equal (result, expected); Assert.Equal ((Rune)tag, result.ToRunes () [hotPos]); Assert.Equal (text.GetRuneCount (), runes.Count); Assert.Equal (text, StringExtensions.ToString (runes)); } [Theory] [InlineData ("", -1, TextAlignment.Left, false, 0)] [InlineData (null, 0, TextAlignment.Left, false, 1)] [InlineData (null, 0, TextAlignment.Left, true, 1)] [InlineData ("", 0, TextAlignment.Left, false, 1)] [InlineData ("", 0, TextAlignment.Left, true, 1)] public void Reformat_Invalid (string text, int maxWidth, TextAlignment textAlignment, bool wrap, int linesCount) { if (maxWidth < 0) { Assert.Throws (() => TextFormatter.Format (text, maxWidth, textAlignment, wrap)); } else { var list = TextFormatter.Format (text, maxWidth, textAlignment, wrap); Assert.NotEmpty (list); Assert.True (list.Count == linesCount); Assert.Equal (string.Empty, list [0]); } } [Theory] [InlineData ("", 0, 0, TextAlignment.Left, false, 1, true)] [InlineData ("", 1, 1, TextAlignment.Left, false, 1, true)] [InlineData ("A sentence has words.", 0, -21, TextAlignment.Left, false, 1, true)] [InlineData ("A sentence has words.", 1, -20, TextAlignment.Left, false, 1, false)] [InlineData ("A sentence has words.", 5, -16, TextAlignment.Left, false, 1, false)] [InlineData ("A sentence has words.", 20, -1, TextAlignment.Left, false, 1, false)] // no clip [InlineData ("A sentence has words.", 21, 0, TextAlignment.Left, false, 1, false)] [InlineData ("A sentence has words.", 22, 1, TextAlignment.Left, false, 1, false)] public void Reformat_NoWordrap_SingleLine (string text, int maxWidth, int widthOffset, TextAlignment textAlignment, bool wrap, int linesCount, bool stringEmpty) { Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth); var list = TextFormatter.Format (text, maxWidth, textAlignment, wrap); Assert.NotEmpty (list); Assert.True (list.Count == linesCount); if (stringEmpty) { Assert.Equal (string.Empty, list [0]); } else { Assert.NotEqual (string.Empty, list [0]); } Assert.Equal (StringExtensions.ToString (text.ToRunes () [0..expectedClippedWidth]), list [0]); } [Theory] [InlineData ("A sentence has words.\nLine 2.", 0, -29, TextAlignment.Left, false, 1, true)] [InlineData ("A sentence has words.\nLine 2.", 1, -28, TextAlignment.Left, false, 1, false)] [InlineData ("A sentence has words.\nLine 2.", 5, -24, TextAlignment.Left, false, 1, false)] [InlineData ("A sentence has words.\nLine 2.", 28, -1, TextAlignment.Left, false, 1, false)] // no clip [InlineData ("A sentence has words.\nLine 2.", 29, 0, TextAlignment.Left, false, 1, false)] [InlineData ("A sentence has words.\nLine 2.", 30, 1, TextAlignment.Left, false, 1, false)] [InlineData ("A sentence has words.\r\nLine 2.", 0, -30, TextAlignment.Left, false, 1, true)] [InlineData ("A sentence has words.\r\nLine 2.", 1, -29, TextAlignment.Left, false, 1, false)] [InlineData ("A sentence has words.\r\nLine 2.", 5, -25, TextAlignment.Left, false, 1, false)] [InlineData ("A sentence has words.\r\nLine 2.", 29, -1, TextAlignment.Left, false, 1, false, 1)] [InlineData ("A sentence has words.\r\nLine 2.", 30, 0, TextAlignment.Left, false, 1, false)] [InlineData ("A sentence has words.\r\nLine 2.", 31, 1, TextAlignment.Left, false, 1, false)] public void Reformat_NoWordrap_NewLines (string text, int maxWidth, int widthOffset, TextAlignment textAlignment, bool wrap, int linesCount, bool stringEmpty, int clipWidthOffset = 0) { Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth) + clipWidthOffset; var list = TextFormatter.Format (text, maxWidth, textAlignment, wrap); Assert.NotEmpty (list); Assert.True (list.Count == linesCount); if (stringEmpty) { Assert.Equal (string.Empty, list [0]); } else { Assert.NotEqual (string.Empty, list [0]); } if (text.Contains ("\r\n") && maxWidth > 0) { Assert.Equal (StringExtensions.ToString (text.ToRunes () [0..expectedClippedWidth]).Replace ("\r\n", " "), list [0]); } else if (text.Contains ('\n') && maxWidth > 0) { Assert.Equal (StringExtensions.ToString (text.ToRunes () [0..expectedClippedWidth]).Replace ("\n", " "), list [0]); } else { Assert.Equal (StringExtensions.ToString (text.ToRunes () [0..expectedClippedWidth]), list [0]); } } [Theory] // Even # of spaces // 0123456789 [InlineData ("012 456 89", 0, -10, TextAlignment.Left, true, true, true, new string [] { "" })] [InlineData ("012 456 89", 1, -9, TextAlignment.Left, true, true, false, new string [] { "0", "1", "2", " ", "4", "5", "6", " ", "8", "9" }, "01245689")] [InlineData ("012 456 89", 5, -5, TextAlignment.Left, true, true, false, new string [] { "012 ", "456 ", "89" })] [InlineData ("012 456 89", 9, -1, TextAlignment.Left, true, true, false, new string [] { "012 456 ", "89" })] // no clip [InlineData ("012 456 89", 10, 0, TextAlignment.Left, true, true, false, new string [] { "012 456 89" })] [InlineData ("012 456 89", 11, 1, TextAlignment.Left, true, true, false, new string [] { "012 456 89" })] // Odd # of spaces // 01234567890123 [InlineData ("012 456 89 end", 13, -1, TextAlignment.Left, true, true, false, new string [] { "012 456 89 ", "end" })] // no clip [InlineData ("012 456 89 end", 14, 0, TextAlignment.Left, true, true, false, new string [] { "012 456 89 end" })] [InlineData ("012 456 89 end", 15, 1, TextAlignment.Left, true, true, false, new string [] { "012 456 89 end" })] public void Reformat_Wrap_Spaces_No_NewLines (string text, int maxWidth, int widthOffset, TextAlignment textAlignment, bool wrap, bool preserveTrailingSpaces, bool stringEmpty, IEnumerable resultLines, string noSpaceText = "") { Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth); var list = TextFormatter.Format (text, maxWidth, textAlignment, wrap, preserveTrailingSpaces); Assert.NotEmpty (list); Assert.True (list.Count == resultLines.Count ()); if (stringEmpty) { Assert.Equal (string.Empty, list [0]); } else { Assert.NotEqual (string.Empty, list [0]); } Assert.Equal (resultLines, list); if (maxWidth > 0) { // remove whitespace chars if (maxWidth < 5) { expectedClippedWidth = text.GetRuneCount () - text.Sum (r => r == ' ' ? 1 : 0); } else { expectedClippedWidth = Math.Min (text.GetRuneCount (), maxWidth - text.Sum (r => r == ' ' ? 1 : 0)); } list = TextFormatter.Format (text, maxWidth, TextAlignment.Left, wrap, preserveTrailingSpaces: false); if (maxWidth == 1) { Assert.Equal (expectedClippedWidth, list.Count); Assert.Equal (noSpaceText, string.Concat (list.ToArray ())); } if (maxWidth > 1 && maxWidth < 10) { Assert.Equal (StringExtensions.ToString (text.ToRunes () [0..expectedClippedWidth]), list [0]); } } } [Theory] // Unicode // Even # of chars // 0123456789 [InlineData ("\u2660пÑРвРÑ", 10, -1, TextAlignment.Left, true, false, new string [] { "\u2660пÑРвÐ", "Ñ" })] // no clip [InlineData ("\u2660пÑРвРÑ", 11, 0, TextAlignment.Left, true, false, new string [] { "\u2660пÑРвРÑ" })] [InlineData ("\u2660пÑРвРÑ", 12, 1, TextAlignment.Left, true, false, new string [] { "\u2660пÑРвРÑ" })] // Unicode // Odd # of chars // 0123456789 [InlineData ("\u2660 ÑРвРÑ", 9, -1, TextAlignment.Left, true, false, new string [] { "\u2660 ÑРвÐ", "Ñ" })] // no clip [InlineData ("\u2660 ÑРвРÑ", 10, 0, TextAlignment.Left, true, false, new string [] { "\u2660 ÑРвРÑ" })] [InlineData ("\u2660 ÑРвРÑ", 11, 1, TextAlignment.Left, true, false, new string [] { "\u2660 ÑРвРÑ" })] public void Reformat_Unicode_Wrap_Spaces_No_NewLines (string text, int maxWidth, int widthOffset, TextAlignment textAlignment, bool wrap, bool preserveTrailingSpaces, IEnumerable resultLines) { Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var list = TextFormatter.Format (text, maxWidth, textAlignment, wrap, preserveTrailingSpaces); Assert.Equal (list.Count, resultLines.Count ()); Assert.Equal (resultLines, list); } [Theory] // Unicode [InlineData ("\u2460\u2461\u2462\n\u2460\u2461\u2462\u2463\u2464", 8, -1, TextAlignment.Left, true, false, new string [] { "\u2460\u2461\u2462", "\u2460\u2461\u2462\u2463\u2464" })] // no clip [InlineData ("\u2460\u2461\u2462\n\u2460\u2461\u2462\u2463\u2464", 9, 0, TextAlignment.Left, true, false, new string [] { "\u2460\u2461\u2462", "\u2460\u2461\u2462\u2463\u2464" })] [InlineData ("\u2460\u2461\u2462\n\u2460\u2461\u2462\u2463\u2464", 10, 1, TextAlignment.Left, true, false, new string [] { "\u2460\u2461\u2462", "\u2460\u2461\u2462\u2463\u2464" })] public void Reformat_Unicode_Wrap_Spaces_NewLines (string text, int maxWidth, int widthOffset, TextAlignment textAlignment, bool wrap, bool preserveTrailingSpaces, IEnumerable resultLines) { Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var list = TextFormatter.Format (text, maxWidth, textAlignment, wrap, preserveTrailingSpaces); Assert.Equal (list.Count, resultLines.Count ()); Assert.Equal (resultLines, list); } [Theory] [InlineData (" A sentence has words. \n This is the second Line - 2. ", 4, -50, TextAlignment.Left, true, false, new string [] { " A", "sent", "ence", "has", "word", "s. ", " Thi", "s is", "the", "seco", "nd", "Line", "- 2." }, " Asentencehaswords. This isthesecondLine- 2.")] [InlineData (" A sentence has words. \n This is the second Line - 2. ", 4, -50, TextAlignment.Left, true, true, new string [] { " A ", "sent", "ence", " ", "has ", "word", "s. ", " ", "This", " is ", "the ", "seco", "nd ", "Line", " - ", "2. " }, " A sentence has words. This is the second Line - 2. ")] public void Format_WordWrap_PreserveTrailingSpaces (string text, int maxWidth, int widthOffset, TextAlignment textAlignment, bool wrap, bool preserveTrailingSpaces, IEnumerable resultLines, string expectedWrappedText) { Assert.Equal (maxWidth, text.GetRuneCount () + widthOffset); var list = TextFormatter.Format (text, maxWidth, textAlignment, wrap, preserveTrailingSpaces); Assert.Equal (list.Count, resultLines.Count ()); Assert.Equal (resultLines, list); string wrappedText = string.Empty; foreach (var txt in list) wrappedText += txt; Assert.Equal (expectedWrappedText, wrappedText); } [Fact] public void Format_Dont_Throw_ArgumentException_With_WordWrap_As_False_And_Keep_End_Spaces_As_True () { var exception = Record.Exception (() => TextFormatter.Format ("Some text", 4, TextAlignment.Left, false, true)); Assert.Null (exception); } [Theory] [InlineData ("Hello world, how are you today? Pretty neat!", 44, 80, "Hello world, how are you today? Pretty neat!")] public void Format_Justified_Always_Returns_Text_Width_Equal_To_Passed_Width_Horizontal (string text, int runeCount, int maxWidth, string justifiedText) { Assert.Equal (runeCount, text.GetRuneCount ()); var fmtText = string.Empty; for (int i = text.GetRuneCount (); i < maxWidth; i++) { fmtText = TextFormatter.Format (text, i, TextAlignment.Justified, false, true) [0]; Assert.Equal (i, fmtText.GetRuneCount ()); var c = fmtText [^1]; Assert.True (text.EndsWith (c)); } Assert.Equal (justifiedText, fmtText); } [Theory] [InlineData ("Hello world, how are you today? Pretty neat!", 44, 80, "Hello world, how are you today? Pretty neat!")] public void Format_Justified_Always_Returns_Text_Width_Equal_To_Passed_Width_Vertical (string text, int runeCount, int maxWidth, string justifiedText) { Assert.Equal (runeCount, text.GetRuneCount ()); var fmtText = string.Empty; for (int i = text.GetRuneCount (); i < maxWidth; i++) { fmtText = TextFormatter.Format (text, i, TextAlignment.Justified, false, true, 0, TextDirection.TopBottom_LeftRight) [0]; Assert.Equal (i, fmtText.GetRuneCount ()); var c = fmtText [^1]; Assert.True (text.EndsWith (c)); } Assert.Equal (justifiedText, fmtText); } [Theory] [InlineData ("fff", 6, "fff ")] [InlineData ("Hello World", 16, "Hello World ")] public void TestClipOrPad_ShortWord (string text, int fillPad, string expectedText) { // word is short but we want it to fill # so it should be padded Assert.Equal (expectedText, TextFormatter.ClipOrPad (text, fillPad)); } [Theory] [InlineData ("123456789", 3, "123")] [InlineData ("Hello World", 8, "Hello Wo")] public void TestClipOrPad_LongWord (string text, int fillPad, string expectedText) { // word is long but we want it to fill # space only Assert.Equal (expectedText, TextFormatter.ClipOrPad (text, fillPad)); } [Fact] public void Internal_Tests () { var tf = new TextFormatter (); Assert.Equal (Key.Null, tf.HotKey); tf.HotKey = Key.CtrlMask | Key.Q; Assert.Equal (Key.CtrlMask | Key.Q, tf.HotKey); } [Theory] [InlineData ("Hello World", 11)] [InlineData ("こんにちは世界", 14)] public void GetColumns_Simple_And_Wide_Runes (string text, int width) { Assert.Equal (width, text.GetColumns ()); } [Theory] [InlineData ("Hello World", 11, 6, 1, 1)] [InlineData ("こんにちは 世界", 15, 6, 1, 2)] public void GetSumMaxCharWidth_Simple_And_Wide_Runes (string text, int width, int index, int length, int indexWidth) { Assert.Equal (width, TextFormatter.GetSumMaxCharWidth (text)); Assert.Equal (indexWidth, TextFormatter.GetSumMaxCharWidth (text, index, length)); } [Theory] [InlineData (new string [] { "Hello", "World" }, 2, 1, 1, 1)] [InlineData (new string [] { "こんにちは", "世界" }, 4, 1, 1, 2)] public void GetSumMaxCharWidth_List_Simple_And_Wide_Runes (IEnumerable text, int width, int index, int length, int indexWidth) { Assert.Equal (width, TextFormatter.GetSumMaxCharWidth (text.ToList ())); Assert.Equal (indexWidth, TextFormatter.GetSumMaxCharWidth (text.ToList (), index, length)); } [Theory] [InlineData ("test", 3, 3)] [InlineData ("test", 4, 4)] [InlineData ("test", 10, 4)] public void GetLengthThatFits_Runelist (string text, int columns, int expectedLength) { var runes = text.ToRuneList (); Assert.Equal (expectedLength, TextFormatter.GetLengthThatFits (runes, columns)); } [Theory] [InlineData ("test", 3, 3)] [InlineData ("test", 4, 4)] [InlineData ("test", 10, 4)] [InlineData ("test", 1, 1)] [InlineData ("test", 0, 0)] [InlineData ("test", -1, 0)] [InlineData (null, -1, 0)] [InlineData ("", -1, 0)] public void GetLengthThatFits_String (string text, int columns, int expectedLength) { Assert.Equal (expectedLength, TextFormatter.GetLengthThatFits (text, columns)); } [Theory] [InlineData ("Hello World", 6, 6)] [InlineData ("こんにちは 世界", 6, 3)] public void GetLengthThatFits_Simple_And_Wide_Runes (string text, int columns, int expectedLength) { Assert.Equal (expectedLength, TextFormatter.GetLengthThatFits (text, columns)); } [Theory] [InlineData ("Hello World", 6, 6)] [InlineData ("こんにちは 世界", 6, 3)] [MemberData (nameof (CMGlyphs))] public void GetLengthThatFits_List_Simple_And_Wide_Runes (string text, int columns, int expectedLength) { var runes = text.ToRuneList (); Assert.Equal (expectedLength, TextFormatter.GetLengthThatFits (runes, columns)); } public static IEnumerable CMGlyphs => new List { new object[] { $"{CM.Glyphs.LeftBracket} Say Hello 你 {CM.Glyphs.RightBracket}", 16, 15 } }; [Theory] [InlineData ("Truncate", 3, "Tru")] [InlineData ("デモエムポンズ", 3, "デ")] public void Format_Truncate_Simple_And_Wide_Runes (string text, int width, string expected) { var list = TextFormatter.Format (text, width, false, false); Assert.Equal (expected, list [^1]); } [Theory] [MemberData (nameof (FormatEnvironmentNewLine))] public void Format_With_PreserveTrailingSpaces_And_Without_PreserveTrailingSpaces (string text, int width, IEnumerable expected) { var preserveTrailingSpaces = false; var formated = TextFormatter.Format (text, width, false, true, preserveTrailingSpaces); Assert.Equal (expected, formated); preserveTrailingSpaces = true; formated = TextFormatter.Format (text, width, false, true, preserveTrailingSpaces); Assert.Equal (expected, formated); } public static IEnumerable FormatEnvironmentNewLine => new List { new object[] { $"Line1{Environment.NewLine}Line2{Environment.NewLine}Line3{Environment.NewLine}", 60, new string [] { "Line1", "Line2", "Line3" } } }; [Theory] [MemberData (nameof (SplitEnvironmentNewLine))] public void SplitNewLine_Ending__With_Or_Without_NewLine_Probably_CRLF (string text, IEnumerable expected) { var splited = TextFormatter.SplitNewLine (text); Assert.Equal (expected, splited); } public static IEnumerable SplitEnvironmentNewLine => new List { new object[] { $"First Line 界{Environment.NewLine}Second Line 界{Environment.NewLine}Third Line 界", new string [] { "First Line 界", "Second Line 界", "Third Line 界" } }, new object[] { $"First Line 界{Environment.NewLine}Second Line 界{Environment.NewLine}Third Line 界{Environment.NewLine}", new string [] { "First Line 界", "Second Line 界", "Third Line 界", "" } } }; [Theory] [InlineData ($"First Line 界\nSecond Line 界\nThird Line 界", new string [] { "First Line 界", "Second Line 界", "Third Line 界" })] public void SplitNewLine_Ending_Without_NewLine_Only_LF (string text, IEnumerable expected) { var splited = TextFormatter.SplitNewLine (text); Assert.Equal (expected, splited); } [Theory] [InlineData ($"First Line 界\nSecond Line 界\nThird Line 界\n", new string [] { "First Line 界", "Second Line 界", "Third Line 界", "" })] public void SplitNewLine_Ending_With_NewLine_Only_LF (string text, IEnumerable expected) { var splited = TextFormatter.SplitNewLine (text); Assert.Equal (expected, splited); } [Theory] [InlineData ("Single Line 界", 14)] [InlineData ($"First Line 界\nSecond Line 界\nThird Line 界\n", 14)] public void MaxWidthLine_With_And_Without_Newlines (string text, int expected) { Assert.Equal (expected, TextFormatter.MaxWidthLine (text)); } [Theory] [InlineData ("New Test 你", 10, 10, 20320, 20320, 9, "你")] [InlineData ("New Test \U0001d539", 10, 11, 120121, 55349, 9, "𝔹")] public void String_Array_Is_Not_Always_Equal_ToRunes_Array (string text, int runesLength, int stringLength, int runeValue, int stringValue, int index, string expected) { var usToRunes = text.ToRunes (); Assert.Equal (runesLength, usToRunes.Length); Assert.Equal (stringLength, text.Length); Assert.Equal (runeValue, usToRunes [index].Value); Assert.Equal (stringValue, text [index]); Assert.Equal (expected, usToRunes [index].ToString ()); if (char.IsHighSurrogate (text [index])) { // Rune array length isn't equal to string array Assert.Equal (expected, new string (new char [] { text [index], text [index + 1] })); } else { // Rune array length is equal to string array Assert.Equal (expected, text [index].ToString ()); } } } }