using Microsoft.CodeAnalysis; using Microsoft.CodeAnalysis.Diagnostics; using NUnit.Framework; using SMAPI.ModBuildConfig.Analyzer.Tests.Framework; using StardewModdingAPI.ModBuildConfig.Analyzer; namespace SMAPI.ModBuildConfig.Analyzer.Tests { /// Unit tests for . [TestFixture] public class NetFieldAnalyzerTests : DiagnosticVerifier { /********* ** Fields *********/ /// Sample C# mod code, with a {{test-code}} placeholder for the code in the Entry method to test. const string SampleProgram = @" using System; using StardewValley; using Netcode; using SObject = StardewValley.Object; namespace SampleMod { class ModEntry { public void Entry() { {{test-code}} } } } "; /// The line number where the unit tested code is injected into . private const int SampleCodeLine = 13; /// The column number where the unit tested code is injected into . private const int SampleCodeColumn = 25; /********* ** Unit tests *********/ /// Test that no diagnostics are raised for an empty code block. [TestCase] public void EmptyCode_HasNoDiagnostics() { // arrange string test = @""; // assert this.VerifyCSharpDiagnostic(test); } /// Test that the expected diagnostic message is raised for implicit net field comparisons. /// The code line to test. /// The column within the code line where the diagnostic message should be reported. /// The expression which should be reported. /// The source type name which should be reported. /// The target type name which should be reported. [TestCase("Item item = null; if (item.netIntField < 42);", 22, "item.netIntField", "NetInt", "int")] // ↓ implicit conversion [TestCase("Item item = null; if (item.netIntField <= 42);", 22, "item.netIntField", "NetInt", "int")] [TestCase("Item item = null; if (item.netIntField > 42);", 22, "item.netIntField", "NetInt", "int")] [TestCase("Item item = null; if (item.netIntField >= 42);", 22, "item.netIntField", "NetInt", "int")] [TestCase("Item item = null; if (item.netIntField == 42);", 22, "item.netIntField", "NetInt", "int")] [TestCase("Item item = null; if (item.netIntField != 42);", 22, "item.netIntField", "NetInt", "int")] [TestCase("Item item = null; if (item?.netIntField != 42);", 22, "item?.netIntField", "NetInt", "int")] [TestCase("Item item = null; if (item?.netIntField != null);", 22, "item?.netIntField", "NetInt", "object")] [TestCase("Item item = null; if (item.netIntProperty < 42);", 22, "item.netIntProperty", "NetInt", "int")] [TestCase("Item item = null; if (item.netIntProperty <= 42);", 22, "item.netIntProperty", "NetInt", "int")] [TestCase("Item item = null; if (item.netIntProperty > 42);", 22, "item.netIntProperty", "NetInt", "int")] [TestCase("Item item = null; if (item.netIntProperty >= 42);", 22, "item.netIntProperty", "NetInt", "int")] [TestCase("Item item = null; if (item.netIntProperty == 42);", 22, "item.netIntProperty", "NetInt", "int")] [TestCase("Item item = null; if (item.netIntProperty != 42);", 22, "item.netIntProperty", "NetInt", "int")] [TestCase("Item item = null; if (item?.netIntProperty != 42);", 22, "item?.netIntProperty", "NetInt", "int")] [TestCase("Item item = null; if (item?.netIntProperty != null);", 22, "item?.netIntProperty", "NetInt", "object")] [TestCase("Item item = null; if (item.netRefField == null);", 22, "item.netRefField", "NetRef", "object")] [TestCase("Item item = null; if (item.netRefField != null);", 22, "item.netRefField", "NetRef", "object")] [TestCase("Item item = null; if (item.netRefProperty == null);", 22, "item.netRefProperty", "NetRef", "object")] [TestCase("Item item = null; if (item.netRefProperty != null);", 22, "item.netRefProperty", "NetRef", "object")] [TestCase("SObject obj = null; if (obj.netIntField != 42);", 24, "obj.netIntField", "NetInt", "int")] // ↓ implicit conversion for parent field [TestCase("SObject obj = null; if (obj.netIntProperty != 42);", 24, "obj.netIntProperty", "NetInt", "int")] [TestCase("SObject obj = null; if (obj.netRefField == null);", 24, "obj.netRefField", "NetRef", "object")] [TestCase("SObject obj = null; if (obj.netRefField != null);", 24, "obj.netRefField", "NetRef", "object")] [TestCase("SObject obj = null; if (obj.netRefProperty == null);", 24, "obj.netRefProperty", "NetRef", "object")] [TestCase("SObject obj = null; if (obj.netRefProperty != null);", 24, "obj.netRefProperty", "NetRef", "object")] [TestCase("Item item = new Item(); object list = item.netList;", 38, "item.netList", "NetList", "object")] // ↓ NetList field converted to a non-interface type [TestCase("Item item = new Item(); object list = item.netCollection;", 38, "item.netCollection", "NetCollection", "object")] [TestCase("Item item = new Item(); int x = (int)item.netIntField;", 32, "item.netIntField", "NetInt", "int")] // ↓ explicit conversion to invalid type [TestCase("Item item = new Item(); int x = item.netRefField as object;", 32, "item.netRefField", "NetRef", "object")] public void AvoidImplicitNetFieldComparisons_RaisesDiagnostic(string codeText, int column, string expression, string fromType, string toType) { // arrange string code = NetFieldAnalyzerTests.SampleProgram.Replace("{{test-code}}", codeText); DiagnosticResult expected = new() { Id = "AvoidImplicitNetFieldCast", Message = $"This implicitly converts '{expression}' from {fromType} to {toType}, but {fromType} has unintuitive implicit conversion rules. Consider comparing against the actual value instead to avoid bugs. See https://smapi.io/package/avoid-implicit-net-field-cast for details.", Severity = DiagnosticSeverity.Warning, Locations = new[] { new DiagnosticResultLocation("Test0.cs", NetFieldAnalyzerTests.SampleCodeLine, NetFieldAnalyzerTests.SampleCodeColumn + column) } }; // assert this.VerifyCSharpDiagnostic(code, expected); } /// Test that the net field analyzer doesn't raise any warnings for safe member access. /// The code line to test. [TestCase("Item item = new Item(); System.Collections.IEnumerable list = farmer.eventsSeen;")] [TestCase("Item item = new Item(); System.Collections.Generic.IEnumerable list = farmer.netList;")] [TestCase("Item item = new Item(); System.Collections.Generic.IList list = farmer.netList;")] [TestCase("Item item = new Item(); System.Collections.Generic.ICollection list = farmer.netCollection;")] [TestCase("Item item = new Item(); System.Collections.Generic.IList list = farmer.netObjectList;")] // subclass of NetList public void AvoidImplicitNetFieldComparisons_AllowsSafeAccess(string codeText) { // arrange string code = NetFieldAnalyzerTests.SampleProgram.Replace("{{test-code}}", codeText); // assert this.VerifyCSharpDiagnostic(code); } /// Test that the expected diagnostic message is raised for avoidable net field references. /// The code line to test. /// The column within the code line where the diagnostic message should be reported. /// The expression which should be reported. /// The net type name which should be reported. /// The suggested property name which should be reported. [TestCase("Item item = null; int category = item.category;", 33, "item.category", "NetInt", "Category")] [TestCase("Item item = null; int category = (item).category;", 33, "(item).category", "NetInt", "Category")] [TestCase("Item item = null; int category = ((Item)item).category;", 33, "((Item)item).category", "NetInt", "Category")] [TestCase("SObject obj = null; int category = obj.category;", 35, "obj.category", "NetInt", "Category")] public void AvoidNetFields_RaisesDiagnostic(string codeText, int column, string expression, string netType, string suggestedProperty) { // arrange string code = NetFieldAnalyzerTests.SampleProgram.Replace("{{test-code}}", codeText); DiagnosticResult expected = new() { Id = "AvoidNetField", Message = $"'{expression}' is a {netType} field; consider using the {suggestedProperty} property instead. See https://smapi.io/package/avoid-net-field for details.", Severity = DiagnosticSeverity.Warning, Locations = new[] { new DiagnosticResultLocation("Test0.cs", NetFieldAnalyzerTests.SampleCodeLine, NetFieldAnalyzerTests.SampleCodeColumn + column) } }; // assert this.VerifyCSharpDiagnostic(code, expected); } /********* ** Helpers *********/ /// Get the analyzer being tested. protected override DiagnosticAnalyzer GetCSharpDiagnosticAnalyzer() { return new NetFieldAnalyzer(); } } }