libs.capnproto-dotnetcore_R.../capnpc-csharp.tests/UnitTests.cs

using capnpc_csharp.Tests.Properties;
using Capnp;
using Microsoft.VisualStudio.TestTools.UnitTesting;
using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;

namespace CapnpC
{
    [TestClass]
    public class UnitTests
    {
        static readonly Dictionary<int, string> GeneratedCode = new Dictionary<int, string>();

        [TestMethod]
        public void Test00Enumerant()
        {
            var model = Load(Resources.UnitTest1_capnp);
            Assert.AreEqual("@byte", GetTypeDef(0xc8461867c409f5d4, model).Enumerants[0].Literal);
        }

        [TestMethod]
        public void Test01NestedClash()
        {
            var run = LoadAndGenerate(Resources.UnitTest1_capnp, 1);
            var structFoo = GetTypeDef(0x93db6ba5509bac24, run.Model);
            var names = run.CodeGen.GetNames();
            var fieldName = names.GetCodeIdentifier(structFoo.Fields[0]).ToString();
            Assert.AreEqual("Foo", structFoo.Name);
            Assert.AreNotEqual(structFoo.Name, fieldName);
        }

        [TestMethod]
        public void Test02ForwardInheritance()
        {
            LoadAndGenerate(Resources.UnitTest2_capnp, 2);
            // Should not throw
        }

        [TestMethod]
        public void Test03NonGeneratedNodeSkip()
        {
            LoadAndGenerate(Resources.UnitTest3_capnp, 3);
            // Should not throw
        }

        [TestMethod]
        public void Test04MutualDependencies()
        {
            LoadAndGenerate(Resources.UnitTest4_capnp, 4);
            // Should not throw
        }

        [TestMethod]
        public void Test10ImportedNamespaces()
        {
            var run = LoadAndGenerate(Resources.UnitTest10_capnp, 10);
            var outerTypeDef = run.FirstFile.NestedTypes.First();
            var outerType = Model.Types.FromDefinition(outerTypeDef);
            var innerType = outerTypeDef.Fields[0].Type;
            var innerTypeDef = innerType.Definition;
            var names = run.CodeGen.GetNames();
            var outerNameSyntax = names.GetQName(outerType, outerTypeDef);
            var innerNameSyntax = names.GetQName(innerType, outerTypeDef);
            string[] outerNamespace = { "Foo", "Bar", "Baz" };
            string[] innerNamespace = { "Foo", "Garf", "Snarf" };
            CollectionAssert.AreEqual(outerNamespace, (outerTypeDef.DeclaringElement as Model.GenFile).Namespace);
            CollectionAssert.AreEqual(innerNamespace, (innerType.Definition.DeclaringElement as Model.GenFile).Namespace);
            string outerNSStr = String.Join('.', outerNamespace);
            string innerNSStr = String.Join('.', innerNamespace);
            Assert.AreEqual($"{outerNSStr}.Outer", outerNameSyntax.ToString());
            Assert.AreEqual($"{innerNSStr}.Inner", innerNameSyntax.ToString());
        }

        [TestMethod]
        public void Test11ImportedConst()
        {
            LoadAndGenerate(Resources.UnitTest11_capnp, 11);
            // Should not throw
        }

        [TestMethod]
        public void Test20AnnotationAndConst()
        {
            LoadAndGenerate(Resources.UnitTest20_capnp, 20);
            // Should not throw 
        }

        [TestMethod]
        public void Test30SchemaCapnp()
        {
            LoadAndGenerate(Resources.schema_with_offsets_capnp);
            // Should not throw
        }

        struct Run
        {
            public Model.SchemaModel Model;
            public Generator.CodeGenerator CodeGen;
            public Model.GenFile FirstFile;
            public string Code;
        }

        static Generator.CodeGenerator NewGeneratorFor(Model.SchemaModel model)
            => new Generator.CodeGenerator(model, new Generator.GeneratorOptions());

        Run LoadAndGenerate(byte[] input, int? testNum = null)
        {
            var run = new Run();
            run.Model = Load(input);
            run.CodeGen = NewGeneratorFor(run.Model);
            run.FirstFile = run.Model.FilesToGenerate.First();
            run.Code = run.CodeGen.Transform(run.FirstFile);
            if (testNum is int num)
                GeneratedCode[num] = run.Code;
            return run;
        }

        static Model.TypeDefinition GetTypeDef(ulong id, Model.SchemaModel model)
        {
            foreach (var defs in model.FilesToGenerate.Select(f => f.NestedTypes))
            {
                if (GetTypeDef(id, defs) is Model.TypeDefinition def) return def;
            }
            return null;
        }

        static Model.TypeDefinition GetTypeDef(ulong id, IEnumerable<Model.TypeDefinition> defs)
        {
            foreach (var def in defs)
            {
                if (def.Id == id) return def;
                var sub = GetTypeDef(id, def.NestedTypes);
                if (sub != null) return sub;
            }
            return null;
        }

        static Model.SchemaModel Load(byte[] data)
        {
            WireFrame segments;
            var input = new MemoryStream(data);
            using (input)
            {
                segments = Framing.ReadSegments(input);
            }
            var dec = DeserializerState.CreateRoot(segments);
            var reader = Schema.CodeGeneratorRequest.Reader.Create(dec);
            var model = Model.SchemaModel.Create(reader);
            return model;
        }
    }
}
Test renaming of enumerants that are C# keywords. 2019-08-29 01:36:47 -04:00			`using capnpc_csharp.Tests.Properties;`
			`using Capnp;`
			`using Microsoft.VisualStudio.TestTools.UnitTesting;`
Test namespace generation in imported types. 2019-08-29 12:01:08 -04:00			`using System;`
Test renaming of enumerants that are C# keywords. 2019-08-29 01:36:47 -04:00			`using System.Collections.Generic;`
			`using System.IO;`
			`using System.Linq;`

			`namespace CapnpC`
			`{`
			`[TestClass]`
			`public class UnitTests`
			`{`
Factor out common code in unit tests. 2019-08-30 13:54:47 -04:00			`static readonly Dictionary<int, string> GeneratedCode = new Dictionary<int, string>();`
Test renaming of enumerants that are C# keywords. 2019-08-29 01:36:47 -04:00
			`[TestMethod]`
			`public void Test00Enumerant()`
			`{`
			`var model = Load(Resources.UnitTest1_capnp);`
			`Assert.AreEqual("@byte", GetTypeDef(0xc8461867c409f5d4, model).Enumerants[0].Literal);`
			`}`

Test for absence of name clashes with immediately enclosing type. 2019-08-29 10:28:53 -04:00			`[TestMethod]`
			`public void Test01NestedClash()`
			`{`
Factor out common code in unit tests. 2019-08-30 13:54:47 -04:00			`var run = LoadAndGenerate(Resources.UnitTest1_capnp, 1);`
			`var structFoo = GetTypeDef(0x93db6ba5509bac24, run.Model);`
			`var names = run.CodeGen.GetNames();`
Test for absence of name clashes with immediately enclosing type. 2019-08-29 10:28:53 -04:00			`var fieldName = names.GetCodeIdentifier(structFoo.Fields[0]).ToString();`
			`Assert.AreEqual("Foo", structFoo.Name);`
			`Assert.AreNotEqual(structFoo.Name, fieldName);`
			`}`

Test forward-inherited types. 2019-08-29 12:38:13 -04:00			`[TestMethod]`
			`public void Test02ForwardInheritance()`
			`{`
Factor out common code in unit tests. 2019-08-30 13:54:47 -04:00			`LoadAndGenerate(Resources.UnitTest2_capnp, 2);`
Test forward-inherited types. 2019-08-29 12:38:13 -04:00			`// Should not throw`
			`}`

Test use of nodes imported from non-generated files. 2019-08-29 10:29:21 -04:00			`[TestMethod]`
			`public void Test03NonGeneratedNodeSkip()`
			`{`
Factor out common code in unit tests. 2019-08-30 13:54:47 -04:00			`LoadAndGenerate(Resources.UnitTest3_capnp, 3);`
Test use of nodes imported from non-generated files. 2019-08-29 10:29:21 -04:00			`// Should not throw`
			`}`

Test mutually recursive dependencies between nodes. 2019-08-30 13:55:41 -04:00			`[TestMethod]`
			`public void Test04MutualDependencies()`
			`{`
			`LoadAndGenerate(Resources.UnitTest4_capnp, 4);`
			`// Should not throw`
			`}`

Test namespace generation in imported types. 2019-08-29 12:01:08 -04:00			`[TestMethod]`
			`public void Test10ImportedNamespaces()`
			`{`
Factor out common code in unit tests. 2019-08-30 13:54:47 -04:00			`var run = LoadAndGenerate(Resources.UnitTest10_capnp, 10);`
			`var outerTypeDef = run.FirstFile.NestedTypes.First();`
Test namespace generation in imported types. 2019-08-29 12:01:08 -04:00			`var outerType = Model.Types.FromDefinition(outerTypeDef);`
			`var innerType = outerTypeDef.Fields[0].Type;`
			`var innerTypeDef = innerType.Definition;`
Factor out common code in unit tests. 2019-08-30 13:54:47 -04:00			`var names = run.CodeGen.GetNames();`
Test namespace generation in imported types. 2019-08-29 12:01:08 -04:00			`var outerNameSyntax = names.GetQName(outerType, outerTypeDef);`
			`var innerNameSyntax = names.GetQName(innerType, outerTypeDef);`
			`string[] outerNamespace = { "Foo", "Bar", "Baz" };`
			`string[] innerNamespace = { "Foo", "Garf", "Snarf" };`
			`CollectionAssert.AreEqual(outerNamespace, (outerTypeDef.DeclaringElement as Model.GenFile).Namespace);`
			`CollectionAssert.AreEqual(innerNamespace, (innerType.Definition.DeclaringElement as Model.GenFile).Namespace);`
			`string outerNSStr = String.Join('.', outerNamespace);`
			`string innerNSStr = String.Join('.', innerNamespace);`
			`Assert.AreEqual($"{outerNSStr}.Outer", outerNameSyntax.ToString());`
			`Assert.AreEqual($"{innerNSStr}.Inner", innerNameSyntax.ToString());`
			`}`

Test constants in imported non-generated structures and interfaces. 2019-08-30 11:23:44 -04:00			`[TestMethod]`
			`public void Test11ImportedConst()`
			`{`
Factor out common code in unit tests. 2019-08-30 13:54:47 -04:00			`LoadAndGenerate(Resources.UnitTest11_capnp, 11);`
Test constants in imported non-generated structures and interfaces. 2019-08-30 11:23:44 -04:00			`// Should not throw`
			`}`

Test annotations and constants in schemas processed for generation. 2019-08-29 11:57:37 -04:00			`[TestMethod]`
			`public void Test20AnnotationAndConst()`
			`{`
Factor out common code in unit tests. 2019-08-30 13:54:47 -04:00			`LoadAndGenerate(Resources.UnitTest20_capnp, 20);`
Test annotations and constants in schemas processed for generation. 2019-08-29 11:57:37 -04:00			`// Should not throw`
			`}`

Test for success on Schema.capnp. 2019-08-29 13:02:32 -04:00			`[TestMethod]`
			`public void Test30SchemaCapnp()`
			`{`
Factor out common code in unit tests. 2019-08-30 13:54:47 -04:00			`LoadAndGenerate(Resources.schema_with_offsets_capnp);`
Test for success on Schema.capnp. 2019-08-29 13:02:32 -04:00			`// Should not throw`
			`}`

Factor out common code in unit tests. 2019-08-30 13:54:47 -04:00			`struct Run`
			`{`
			`public Model.SchemaModel Model;`
			`public Generator.CodeGenerator CodeGen;`
			`public Model.GenFile FirstFile;`
			`public string Code;`
			`}`

Test for absence of name clashes with immediately enclosing type. 2019-08-29 10:28:53 -04:00			`static Generator.CodeGenerator NewGeneratorFor(Model.SchemaModel model)`
			`=> new Generator.CodeGenerator(model, new Generator.GeneratorOptions());`

Factor out common code in unit tests. 2019-08-30 13:54:47 -04:00			`Run LoadAndGenerate(byte[] input, int? testNum = null)`
			`{`
			`var run = new Run();`
			`run.Model = Load(input);`
			`run.CodeGen = NewGeneratorFor(run.Model);`
			`run.FirstFile = run.Model.FilesToGenerate.First();`
			`run.Code = run.CodeGen.Transform(run.FirstFile);`
			`if (testNum is int num)`
			`GeneratedCode[num] = run.Code;`
			`return run;`
			`}`

Test renaming of enumerants that are C# keywords. 2019-08-29 01:36:47 -04:00			`static Model.TypeDefinition GetTypeDef(ulong id, Model.SchemaModel model)`
			`{`
			`foreach (var defs in model.FilesToGenerate.Select(f => f.NestedTypes))`
			`{`
			`if (GetTypeDef(id, defs) is Model.TypeDefinition def) return def;`
			`}`
			`return null;`
			`}`

			`static Model.TypeDefinition GetTypeDef(ulong id, IEnumerable<Model.TypeDefinition> defs)`
			`{`
			`foreach (var def in defs)`
			`{`
			`if (def.Id == id) return def;`
			`var sub = GetTypeDef(id, def.NestedTypes);`
			`if (sub != null) return sub;`
			`}`
			`return null;`
			`}`

			`static Model.SchemaModel Load(byte[] data)`
			`{`
			`WireFrame segments;`
			`var input = new MemoryStream(data);`
			`using (input)`
			`{`
			`segments = Framing.ReadSegments(input);`
			`}`
			`var dec = DeserializerState.CreateRoot(segments);`
			`var reader = Schema.CodeGeneratorRequest.Reader.Create(dec);`
			`var model = Model.SchemaModel.Create(reader);`
			`return model;`
			`}`
			`}`
			`}`