// // TestWrapping.cs // // Author: // Mike Krüger // // Copyright (c) 2012 Xamarin Inc. (http://xamarin.com) // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE. using System; using System.IO; using NUnit.Framework; using ICSharpCode.NRefactory.CSharp; namespace ICSharpCode.NRefactory.CSharp.FormattingTests { [TestFixture()] public class TestWrapping : TestBase { [Test] public void TestInitializerWrapAlways() { var policy = FormattingOptionsFactory.CreateMono(); policy.ArrayInitializerWrapping = Wrapping.WrapAlways; Test(policy, @"class Test { void TestMe () { var foo = new [] { 1, 2, 3 }; } }", @"class Test { void TestMe () { var foo = new [] { 1, 2, 3 }; } }"); } [Test] public void TestInitializerDoNotWrap() { var policy = FormattingOptionsFactory.CreateMono(); policy.ArrayInitializerWrapping = Wrapping.DoNotWrap; Test(policy, @"class Test { void TestMe () { var foo = new [] { 1, 2, 3 }; } }", @"class Test { void TestMe () { var foo = new [] { 1, 2, 3 }; } }"); } [Test] public void TestInitializerBraceStyle() { var policy = FormattingOptionsFactory.CreateMono(); policy.ArrayInitializerWrapping = Wrapping.WrapAlways; policy.ArrayInitializerBraceStyle = BraceStyle.NextLine; Test(policy, @"class Test { void TestMe () { var foo = new [] { 1, 2, 3 }; } }", @"class Test { void TestMe () { var foo = new [] { 1, 2, 3 }; } }"); } [Test] public void TestChainedMethodCallWrapping() { var policy = FormattingOptionsFactory.CreateMono(); policy.ChainedMethodCallWrapping = Wrapping.WrapAlways; Test(policy, @"class Test { void TestMe () { Foo ().Bar (). Zoom(); } }", @"class Test { void TestMe () { Foo () .Bar () .Zoom (); } }"); } [Test] public void TestChainedMethodCallDoNotWrapWrapping() { var policy = FormattingOptionsFactory.CreateMono(); policy.ChainedMethodCallWrapping = Wrapping.DoNotWrap; Test(policy, @"class Test { void TestMe () { Foo () .Bar () .Zoom (); } }", @"class Test { void TestMe () { Foo ().Bar ().Zoom (); } }"); } [Test] public void TestMethodCallArgumentWrapping() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodCallArgumentWrapping = Wrapping.WrapAlways; policy.NewLineAferMethodCallOpenParentheses = NewLinePlacement.NewLine; policy.MethodCallClosingParenthesesOnNewLine = NewLinePlacement.NewLine; Test(policy, @"class Test { void TestMe () { Foo (1, 2, 3); } }", @"class Test { void TestMe () { Foo ( 1, 2, 3 ); } }"); } [Test] public void TestMethodCallArgumentNoNewLineWrapping() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodCallArgumentWrapping = Wrapping.WrapAlways; policy.NewLineAferMethodCallOpenParentheses = NewLinePlacement.SameLine; policy.MethodCallClosingParenthesesOnNewLine = NewLinePlacement.SameLine; Test(policy, @"class Test { void TestMe () { FooBar (1, 2, 3); } }", @"class Test { void TestMe () { FooBar (1, 2, 3); } }"); } [Test] public void TestMethodCallArgumentDoNotWrapWrapping() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodCallArgumentWrapping = Wrapping.DoNotWrap; policy.NewLineAferMethodCallOpenParentheses = NewLinePlacement.NewLine; policy.MethodCallClosingParenthesesOnNewLine = NewLinePlacement.NewLine; Test(policy, @"class Test { void TestMe () { Foo ( 1, 2, 3 ); } }", @"class Test { void TestMe () { Foo (1, 2, 3); } }"); } [Test] public void TestIndexerCallArgumentNoNewLineWrapping() { var policy = FormattingOptionsFactory.CreateMono(); policy.IndexerArgumentWrapping = Wrapping.WrapAlways; policy.NewLineAferIndexerOpenBracket = NewLinePlacement.NewLine; policy.IndexerClosingBracketOnNewLine = NewLinePlacement.NewLine; Test(policy, @"class Test { void TestMe () { FooBar [1, 2, 3] = 5; } }", @"class Test { void TestMe () { FooBar [ 1, 2, 3 ] = 5; } }"); } [Test] public void TestObjectCreationArgumentNoNewLineWrapping() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodCallArgumentWrapping = Wrapping.WrapAlways; policy.NewLineAferMethodCallOpenParentheses = NewLinePlacement.NewLine; policy.MethodCallClosingParenthesesOnNewLine = NewLinePlacement.NewLine; Test(policy, @"class Test { void TestMe () { new FooBar (1, 2, 3); } }", @"class Test { void TestMe () { new FooBar ( 1, 2, 3 ); } }"); } [Test] public void TestMethodDeclarationParameterNewLineWrapping() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodDeclarationParameterWrapping = Wrapping.WrapAlways; policy.NewLineAferMethodDeclarationOpenParentheses = NewLinePlacement.NewLine; policy.MethodDeclarationClosingParenthesesOnNewLine = NewLinePlacement.NewLine; Test(policy, @"class Test { void TestMe (int i, int j, int k) { } }", @"class Test { void TestMe ( int i, int j, int k ) { } }"); } [Test] public void TestMethodDeclarationParameterDoNotChangeCase1() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodDeclarationParameterWrapping = Wrapping.DoNotChange; Test(policy, @"class Test { void TestMe ( int i, int j, int k ) { } }", @"class Test { void TestMe ( int i, int j, int k ) { } }"); } [Test] public void TestMethodDeclarationParameterDoNotChangeCase2() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodDeclarationParameterWrapping = Wrapping.DoNotChange; Test(policy, @"class Test { void TestMe ( int i, int j, int k ) { } }", @"class Test { void TestMe ( int i, int j, int k) { } }"); } [Test] public void TestMethodDeclarationParameterDoNotChangeCase3() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodDeclarationParameterWrapping = Wrapping.DoNotChange; Test(policy, @"class Test { void TestMe (int i, int j, int k ) { } }", @"class Test { void TestMe (int i, int j, int k) { } }"); } [Test] public void TestOperatorDeclarationParameterNewLineWrapping() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodDeclarationParameterWrapping = Wrapping.WrapAlways; policy.NewLineAferMethodDeclarationOpenParentheses = NewLinePlacement.NewLine; policy.MethodDeclarationClosingParenthesesOnNewLine = NewLinePlacement.SameLine; Test(policy, @"class Test { public static Test operator + (Test a, Test b) { return null; } }", @"class Test { public static Test operator + ( Test a, Test b) { return null; } }"); } [Test] public void TestConstructorDeclarationParameterNewLineWrapping() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodDeclarationParameterWrapping = Wrapping.WrapAlways; policy.NewLineAferMethodDeclarationOpenParentheses = NewLinePlacement.NewLine; policy.MethodDeclarationClosingParenthesesOnNewLine = NewLinePlacement.NewLine; Test(policy, @"class Test { Test (int i, int j, int k) { } }", @"class Test { Test ( int i, int j, int k ) { } }"); } [Test] public void TestIndexerDeclarationParameterNewLineWrapping() { var policy = FormattingOptionsFactory.CreateMono(); policy.IndexerDeclarationParameterWrapping = Wrapping.WrapAlways; policy.NewLineAferIndexerDeclarationOpenBracket = NewLinePlacement.NewLine; policy.IndexerDeclarationClosingBracketOnNewLine = NewLinePlacement.NewLine; Test(policy, @"class Test { int this [int i, int j, int k] { get { } } }", @"class Test { int this [ int i, int j, int k ] { get { } } }"); } [Test] public void TestIndexerDeclarationAlignment() { var policy = FormattingOptionsFactory.CreateMono(); policy.AlignToFirstIndexerDeclarationParameter = true; Test(policy, @"class Test { int this [int i, int j, int k] { get { } } }", @"class Test { int this [int i, int j, int k] { get { } } }"); } [Test] public void TestMethodCallArgumentWrappingDoNotChangeCase1() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodCallArgumentWrapping = Wrapping.DoNotChange; policy.NewLineAferMethodCallOpenParentheses = NewLinePlacement.NewLine; policy.MethodCallClosingParenthesesOnNewLine = NewLinePlacement.NewLine; Test(policy, @"class Test { void TestMe () { Foo ( 1, 2, 3 ); } }", @"class Test { void TestMe () { Foo ( 1, 2, 3 ); } }"); } [Test] public void TestMethodCallArgumentWrappingDoNotChangeCase2() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodCallArgumentWrapping = Wrapping.DoNotChange; policy.NewLineAferMethodCallOpenParentheses = NewLinePlacement.NewLine; policy.MethodCallClosingParenthesesOnNewLine = NewLinePlacement.NewLine; Test(policy, @"class Test { void TestMe () { Foo (1, 2, 3 ); } }", @"class Test { void TestMe () { Foo (1, 2, 3 ); } }"); } [Test] public void TestMethodCallArgumentWrappingDoNotChangeCase3() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodCallArgumentWrapping = Wrapping.DoNotChange; policy.NewLineAferMethodCallOpenParentheses = NewLinePlacement.NewLine; policy.MethodCallClosingParenthesesOnNewLine = NewLinePlacement.NewLine; Test(policy, @"class Test { void TestMe () { Foo (1, 2, 3 ); } }", @"class Test { void TestMe () { Foo (1, 2, 3); } }"); } [Test] public void TestDoNotTouchMethodDeclarationCase1 () { CSharpFormattingOptions policy = FormattingOptionsFactory.CreateMono (); var adapter = Test (policy, @"class Test { int Foo (int i, double d, Action a) { a (); } }", @"class Test { int Foo (int i, double d, Action a) { a (); } }", FormattingMode.Intrusive); } [Test] public void TestNoBlankLinesBetweenEndBraceAndEndParenthesis () { CSharpFormattingOptions policy = FormattingOptionsFactory.CreateMono (); policy.BlankLinesBetweenMembers = 1; var adapter = Test (policy, @"class Test { int Foo (int i, double d, Action a) { a (); } void Bar () { Foo (1, 2, () => { }); } }", @"class Test { int Foo (int i, double d, Action a) { a (); } void Bar () { Foo (1, 2, () => { }); } }", FormattingMode.Intrusive); } [Test] public void TestMethodCallDoNotWrapCorrectionNoAlignment() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodCallArgumentWrapping = Wrapping.DoNotChange; policy.NewLineAferMethodCallOpenParentheses = NewLinePlacement.DoNotCare; policy.MethodCallClosingParenthesesOnNewLine = NewLinePlacement.DoNotCare; policy.AlignToFirstMethodCallArgument = false; Test(policy, @"class Test { void TestMe () { FooBarLongMethod (1, 2, 3 ); } }", @"class Test { void TestMe () { FooBarLongMethod (1, 2, 3 ); } }"); } [Test] public void TestMethodCallNoAlignmentHasNoEffectInNewLineCase() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodCallArgumentWrapping = Wrapping.DoNotChange; policy.AlignToFirstMethodCallArgument = true; Test(policy, @"class Test { void TestMe () { FooBarLongMethod ( 1, 2, 3 ); } }", @"class Test { void TestMe () { FooBarLongMethod ( 1, 2, 3 ); } }"); } [Test] public void TestMethodDeclarationNoAlignmentHasNoEffectInNewLineCase() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodCallArgumentWrapping = Wrapping.DoNotChange; policy.AlignToFirstMethodDeclarationParameter = true; Test(policy, @"class Test { void TestMe ( int test, string fooo) { } }", @"class Test { void TestMe ( int test, string fooo) { } }"); } [Test] public void TestMethodDeclarationAlignment() { var policy = FormattingOptionsFactory.CreateMono(); policy.AlignToFirstMethodDeclarationParameter = true; Test(policy, @"class Test { void TestMe (int test, string fooo) { } }", @"class Test { void TestMe (int test, string fooo) { } }"); } [Test] public void TestMethodDeclarationNoAlignmentHasNoEffectInNewLine2() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodDeclarationParameterWrapping = Wrapping.WrapAlways; policy.AlignToFirstMethodDeclarationParameter = false; Test(policy, @"class Test { public void LongMethodCallInMultiple ( int test,string foo,double bar) { } }", @"class Test { public void LongMethodCallInMultiple ( int test, string foo, double bar) { } }"); } [Test] public void TestMethodDeclarationDoNotWrapCorrectionNoAlignment() { var policy = FormattingOptionsFactory.CreateMono(); policy.MethodDeclarationParameterWrapping = Wrapping.DoNotChange; policy.NewLineAferMethodDeclarationOpenParentheses = NewLinePlacement.DoNotCare; policy.MethodDeclarationClosingParenthesesOnNewLine = NewLinePlacement.DoNotCare; policy.AlignToFirstMethodDeclarationParameter = false; Test(policy, @"class Test { void TestMe (int bar, int test, int foo) { } }", @"class Test { void TestMe (int bar, int test, int foo) { } }"); } [Ignore("FIXME")] [Test] public void TestWrappingBug() { var policy = FormattingOptionsFactory.CreateMono(); Test(policy, @"class Test { void TestMe () { VantageErrorLog.Throw(Title: ""DexterHelper: WriteToDexter (WebEx)"", Method: ""WriteToDexter"", Location: ""DX001"", Code: ""DX001"", Message: string.Format(""DexterHelper: WriteToDexter{0}{1}{0}{2}"", VantageConstants.CRLF, webex.Message, responseString), ex: new Exception(string.Format(""DexterHelper: WriteToDexter{0}{1}{0}{2}"", VantageConstants.CRLF, webex.Message, responseString)), TellUser: false, WriteToDatabase: true, TellVantageSupport: true, Rethrow: false); } }", @"class Test { void TestMe () { VantageErrorLog.Throw (Title: ""DexterHelper: WriteToDexter (WebEx)"", Method: ""WriteToDexter"", Location: ""DX001"", Code: ""DX001"", Message: string.Format (""DexterHelper: WriteToDexter{0}{1}{0}{2}"", VantageConstants.CRLF, webex.Message, responseString), ex: new Exception (string.Format (""DexterHelper: WriteToDexter{0}{1}{0}{2}"", VantageConstants.CRLF, webex.Message, responseString)), TellUser: false, WriteToDatabase: true, TellVantageSupport: true, Rethrow: false); } }"); } } }