Updated EllieBot.Generators

This commit is contained in:
Toastie 2024-03-23 14:54:27 +13:00
parent c69f7951a7
commit 3252829969
Signed by: toastie_t0ast
GPG key ID: 27F3B6855AFD40A4
8 changed files with 841 additions and 0 deletions

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@ -23,6 +23,8 @@ Project("{9A19103F-16F7-4668-BE54-9A1E7A4F7556}") = "EllieBot.Tests", "src\Ellie
EndProject
Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "EllieBot.Coordinator", "src\EllieBot.Coordinator\EllieBot.Coordinator.csproj", "{A631DDF0-3AD1-4CB9-8458-314B1320868A}"
EndProject
Project("{FAE04EC0-301F-11D3-BF4B-00C04F79EFBC}") = "EllieBot.Generators", "src\EllieBot.Generators\EllieBot.Generators.csproj", "{CB1A5307-DD85-4795-8A8A-A25D36DADC51}"
EndProject
Global
GlobalSection(SolutionConfigurationPlatforms) = preSolution
Debug|Any CPU = Debug|Any CPU
@ -45,6 +47,10 @@ Global
{A631DDF0-3AD1-4CB9-8458-314B1320868A}.Debug|Any CPU.Build.0 = Debug|Any CPU
{A631DDF0-3AD1-4CB9-8458-314B1320868A}.Release|Any CPU.ActiveCfg = Release|Any CPU
{A631DDF0-3AD1-4CB9-8458-314B1320868A}.Release|Any CPU.Build.0 = Release|Any CPU
{CB1A5307-DD85-4795-8A8A-A25D36DADC51}.Debug|Any CPU.ActiveCfg = Debug|Any CPU
{CB1A5307-DD85-4795-8A8A-A25D36DADC51}.Debug|Any CPU.Build.0 = Debug|Any CPU
{CB1A5307-DD85-4795-8A8A-A25D36DADC51}.Release|Any CPU.ActiveCfg = Release|Any CPU
{CB1A5307-DD85-4795-8A8A-A25D36DADC51}.Release|Any CPU.Build.0 = Release|Any CPU
EndGlobalSection
GlobalSection(SolutionProperties) = preSolution
HideSolutionNode = FALSE
@ -55,6 +61,7 @@ Global
{5AD2EFFB-7774-49B2-A791-3BAC4DAEE067} = {872A4C63-833C-4AE0-91AB-3CE348D3E6F8}
{179DF3B3-AD32-4335-8231-9818338DF3A2} = {B28FB883-9688-41EB-BF5A-945F4A4EB628}
{A631DDF0-3AD1-4CB9-8458-314B1320868A} = {B28FB883-9688-41EB-BF5A-945F4A4EB628}
{CB1A5307-DD85-4795-8A8A-A25D36DADC51} = {B28FB883-9688-41EB-BF5A-945F4A4EB628}
EndGlobalSection
GlobalSection(ExtensibilityGlobals) = postSolution
SolutionGuid = {79F61C2C-CDBB-4361-A234-91A0B334CFE4}

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@ -0,0 +1,254 @@
// Code temporarily yeeted from
// https://github.com/mostmand/Cloneable/blob/master/Cloneable/CloneableGenerator.cs
// because of NRT issue
#nullable enable
using Microsoft.CodeAnalysis;
using Microsoft.CodeAnalysis.CSharp;
using Microsoft.CodeAnalysis.CSharp.Syntax;
using Microsoft.CodeAnalysis.Text;
using System.Collections.Generic;
using System.Linq;
using System.Text;
namespace Cloneable
{
[Generator]
public class CloneableGenerator : ISourceGenerator
{
private const string PREVENT_DEEP_COPY_KEY_STRING = "PreventDeepCopy";
private const string EXPLICIT_DECLARATION_KEY_STRING = "ExplicitDeclaration";
private const string CLONEABLE_NAMESPACE = "Cloneable";
private const string CLONEABLE_ATTRIBUTE_STRING = "CloneableAttribute";
private const string CLONE_ATTRIBUTE_STRING = "CloneAttribute";
private const string IGNORE_CLONE_ATTRIBUTE_STRING = "IgnoreCloneAttribute";
private const string CLONEABLE_ATTRIBUTE_TEXT = @"// <AutoGenerated/>
using System;
namespace " + CLONEABLE_NAMESPACE + @"
{
[AttributeUsage(AttributeTargets.Class | AttributeTargets.Struct, Inherited = true, AllowMultiple = false)]
public sealed class " + CLONEABLE_ATTRIBUTE_STRING + @" : Attribute
{
public " + CLONEABLE_ATTRIBUTE_STRING + @"()
{
}
public bool " + EXPLICIT_DECLARATION_KEY_STRING + @" { get; set; }
}
}
";
private const string CLONE_PROPERTY_ATTRIBUTE_TEXT = @"// <AutoGenerated/>
using System;
namespace " + CLONEABLE_NAMESPACE + @"
{
[AttributeUsage(AttributeTargets.Property, Inherited = true, AllowMultiple = false)]
public sealed class " + CLONE_ATTRIBUTE_STRING + @" : Attribute
{
public " + CLONE_ATTRIBUTE_STRING + @"()
{
}
public bool " + PREVENT_DEEP_COPY_KEY_STRING + @" { get; set; }
}
}
";
private const string IGNORE_CLONE_PROPERTY_ATTRIBUTE_TEXT = @"// <AutoGenerated/>
using System;
namespace " + CLONEABLE_NAMESPACE + @"
{
[AttributeUsage(AttributeTargets.Property, Inherited = true, AllowMultiple = false)]
public sealed class " + IGNORE_CLONE_ATTRIBUTE_STRING + @" : Attribute
{
public " + IGNORE_CLONE_ATTRIBUTE_STRING + @"()
{
}
}
}
";
private INamedTypeSymbol? _cloneableAttribute;
private INamedTypeSymbol? _ignoreCloneAttribute;
private INamedTypeSymbol? _cloneAttribute;
public void Initialize(GeneratorInitializationContext context)
=> context.RegisterForSyntaxNotifications(() => new SyntaxReceiver());
public void Execute(GeneratorExecutionContext context)
{
InjectCloneableAttributes(context);
GenerateCloneMethods(context);
}
private void GenerateCloneMethods(GeneratorExecutionContext context)
{
if (context.SyntaxReceiver is not SyntaxReceiver receiver)
return;
Compilation compilation = GetCompilation(context);
InitAttributes(compilation);
var classSymbols = GetClassSymbols(compilation, receiver);
foreach (var classSymbol in classSymbols)
{
if (!classSymbol.TryGetAttribute(_cloneableAttribute!, out var attributes))
continue;
var attribute = attributes.Single();
var isExplicit = (bool?)attribute.NamedArguments.FirstOrDefault(e => e.Key.Equals(EXPLICIT_DECLARATION_KEY_STRING)).Value.Value ?? false;
context.AddSource($"{classSymbol.Name}_cloneable.g.cs", SourceText.From(CreateCloneableCode(classSymbol, isExplicit), Encoding.UTF8));
}
}
private void InitAttributes(Compilation compilation)
{
_cloneableAttribute = compilation.GetTypeByMetadataName($"{CLONEABLE_NAMESPACE}.{CLONEABLE_ATTRIBUTE_STRING}")!;
_cloneAttribute = compilation.GetTypeByMetadataName($"{CLONEABLE_NAMESPACE}.{CLONE_ATTRIBUTE_STRING}")!;
_ignoreCloneAttribute = compilation.GetTypeByMetadataName($"{CLONEABLE_NAMESPACE}.{IGNORE_CLONE_ATTRIBUTE_STRING}")!;
}
private static Compilation GetCompilation(GeneratorExecutionContext context)
{
var options = context.Compilation.SyntaxTrees.First().Options as CSharpParseOptions;
var compilation = context.Compilation.AddSyntaxTrees(CSharpSyntaxTree.ParseText(SourceText.From(CLONEABLE_ATTRIBUTE_TEXT, Encoding.UTF8), options)).
AddSyntaxTrees(CSharpSyntaxTree.ParseText(SourceText.From(CLONE_PROPERTY_ATTRIBUTE_TEXT, Encoding.UTF8), options)).
AddSyntaxTrees(CSharpSyntaxTree.ParseText(SourceText.From(IGNORE_CLONE_PROPERTY_ATTRIBUTE_TEXT, Encoding.UTF8), options));
return compilation;
}
private string CreateCloneableCode(INamedTypeSymbol classSymbol, bool isExplicit)
{
string namespaceName = classSymbol.ContainingNamespace.ToDisplayString();
var fieldAssignmentsCode = GenerateFieldAssignmentsCode(classSymbol, isExplicit).ToList();
var fieldAssignmentsCodeSafe = fieldAssignmentsCode.Select(x =>
{
if (x.isCloneable)
return x.line + "Safe(referenceChain)";
return x.line;
});
var fieldAssignmentsCodeFast = fieldAssignmentsCode.Select(x =>
{
if (x.isCloneable)
return x.line + "()";
return x.line;
});
return $@"using System.Collections.Generic;
namespace {namespaceName}
{{
{GetAccessModifier(classSymbol)} partial class {classSymbol.Name}
{{
/// <summary>
/// Creates a copy of {classSymbol.Name} with NO circular reference checking. This method should be used if performance matters.
///
/// <exception cref=""StackOverflowException"">Will occur on any object that has circular references in the hierarchy.</exception>
/// </summary>
public {classSymbol.Name} Clone()
{{
return new {classSymbol.Name}
{{
{string.Join(",\n", fieldAssignmentsCodeFast)}
}};
}}
/// <summary>
/// Creates a copy of {classSymbol.Name} with circular reference checking. If a circular reference was detected, only a reference of the leaf object is passed instead of cloning it.
/// </summary>
/// <param name=""referenceChain"">Should only be provided if specific objects should not be cloned but passed by reference instead.</param>
public {classSymbol.Name} CloneSafe(Stack<object> referenceChain = null)
{{
if(referenceChain?.Contains(this) == true)
return this;
referenceChain ??= new Stack<object>();
referenceChain.Push(this);
var result = new {classSymbol.Name}
{{
{string.Join($",\n", fieldAssignmentsCodeSafe)}
}};
referenceChain.Pop();
return result;
}}
}}
}}";
}
private IEnumerable<(string line, bool isCloneable)> GenerateFieldAssignmentsCode(INamedTypeSymbol classSymbol, bool isExplicit)
{
var fieldNames = GetCloneableProperties(classSymbol, isExplicit);
var fieldAssignments = fieldNames.Select(field => IsFieldCloneable(field, classSymbol))
.OrderBy(x => x.isCloneable)
.Select(x => (GenerateAssignmentCode(x.item.Name, x.isCloneable), x.isCloneable));
return fieldAssignments;
}
private string GenerateAssignmentCode(string name, bool isCloneable)
{
if (isCloneable)
{
return $@" {name} = this.{name}?.Clone";
}
return $@" {name} = this.{name}";
}
private (IPropertySymbol item, bool isCloneable) IsFieldCloneable(IPropertySymbol x, INamedTypeSymbol classSymbol)
{
if (SymbolEqualityComparer.Default.Equals(x.Type, classSymbol))
{
return (x, false);
}
if (!x.Type.TryGetAttribute(_cloneableAttribute!, out var attributes))
{
return (x, false);
}
var preventDeepCopy = (bool?)attributes.Single().NamedArguments.FirstOrDefault(e => e.Key.Equals(PREVENT_DEEP_COPY_KEY_STRING)).Value.Value ?? false;
return (item: x, !preventDeepCopy);
}
private string GetAccessModifier(INamedTypeSymbol classSymbol)
=> classSymbol.DeclaredAccessibility.ToString().ToLowerInvariant();
private IEnumerable<IPropertySymbol> GetCloneableProperties(ITypeSymbol classSymbol, bool isExplicit)
{
var targetSymbolMembers = classSymbol.GetMembers().OfType<IPropertySymbol>()
.Where(x => x.SetMethod is not null &&
x.CanBeReferencedByName);
if (isExplicit)
{
return targetSymbolMembers.Where(x => x.HasAttribute(_cloneAttribute!));
}
else
{
return targetSymbolMembers.Where(x => !x.HasAttribute(_ignoreCloneAttribute!));
}
}
private static IEnumerable<INamedTypeSymbol> GetClassSymbols(Compilation compilation, SyntaxReceiver receiver)
=> receiver.CandidateClasses.Select(clazz => GetClassSymbol(compilation, clazz));
private static INamedTypeSymbol GetClassSymbol(Compilation compilation, ClassDeclarationSyntax clazz)
{
var model = compilation.GetSemanticModel(clazz.SyntaxTree);
var classSymbol = model.GetDeclaredSymbol(clazz)!;
return classSymbol;
}
private static void InjectCloneableAttributes(GeneratorExecutionContext context)
{
context.AddSource(CLONEABLE_ATTRIBUTE_STRING, SourceText.From(CLONEABLE_ATTRIBUTE_TEXT, Encoding.UTF8));
context.AddSource(CLONE_ATTRIBUTE_STRING, SourceText.From(CLONE_PROPERTY_ATTRIBUTE_TEXT, Encoding.UTF8));
context.AddSource(IGNORE_CLONE_ATTRIBUTE_STRING, SourceText.From(IGNORE_CLONE_PROPERTY_ATTRIBUTE_TEXT, Encoding.UTF8));
}
}
}

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@ -0,0 +1,24 @@
// Code temporarily yeeted from
// https://github.com/mostmand/Cloneable/blob/master/Cloneable/CloneableGenerator.cs
// because of NRT issue
using System.Collections.Generic;
using System.Linq;
using Microsoft.CodeAnalysis;
namespace Cloneable
{
internal static class SymbolExtensions
{
public static bool TryGetAttribute(this ISymbol symbol, INamedTypeSymbol attributeType,
out IEnumerable<AttributeData> attributes)
{
attributes = symbol.GetAttributes()
.Where(a => SymbolEqualityComparer.Default.Equals(a.AttributeClass, attributeType));
return attributes.Any();
}
public static bool HasAttribute(this ISymbol symbol, INamedTypeSymbol attributeType)
=> symbol.GetAttributes()
.Any(a => SymbolEqualityComparer.Default.Equals(a.AttributeClass, attributeType));
}
}

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@ -0,0 +1,27 @@
// Code temporarily yeeted from
// https://github.com/mostmand/Cloneable/blob/master/Cloneable/CloneableGenerator.cs
// because of NRT issue
using System.Collections.Generic;
using Microsoft.CodeAnalysis;
using Microsoft.CodeAnalysis.CSharp.Syntax;
namespace Cloneable
{
internal class SyntaxReceiver : ISyntaxReceiver
{
public IList<ClassDeclarationSyntax> CandidateClasses { get; } = new List<ClassDeclarationSyntax>();
/// <summary>
/// Called for every syntax node in the compilation, we can inspect the nodes and save any information useful for generation
/// </summary>
public void OnVisitSyntaxNode(SyntaxNode syntaxNode)
{
// any field with at least one attribute is a candidate for being cloneable
if (syntaxNode is ClassDeclarationSyntax classDeclarationSyntax &&
classDeclarationSyntax.AttributeLists.Count > 0)
{
CandidateClasses.Add(classDeclarationSyntax);
}
}
}
}

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@ -0,0 +1,336 @@
// #nullable enable
// using System;
// using System.CodeDom.Compiler;
// using System.Collections.Generic;
// using System.Collections.Immutable;
// using System.Collections.ObjectModel;
// using System.Diagnostics;
// using System.IO;
// using System.Linq;
// using System.Text;
// using System.Threading;
// using Microsoft.CodeAnalysis;
// using Microsoft.CodeAnalysis.CSharp;
// using Microsoft.CodeAnalysis.CSharp.Syntax;
// using Microsoft.CodeAnalysis.Text;
//
// namespace EllieBot.Generators.Command;
//
// [Generator]
// public class CommandAttributesGenerator : IIncrementalGenerator
// {
// public const string ATTRIBUTE = @"// <AutoGenerated />
//
// namespace EllieBot.Common;
//
// [System.AttributeUsage(System.AttributeTargets.Method)]
// public class CmdAttribute : System.Attribute
// {
//
// }";
//
// public class MethodModel
// {
// public string? Namespace { get; }
// public IReadOnlyCollection<string> Classes { get; }
// public string ReturnType { get; }
// public string MethodName { get; }
// public IEnumerable<string> Params { get; }
//
// public MethodModel(string? ns, IReadOnlyCollection<string> classes, string returnType, string methodName, IEnumerable<string> @params)
// {
// Namespace = ns;
// Classes = classes;
// ReturnType = returnType;
// MethodName = methodName;
// Params = @params;
// }
// }
//
// public class FileModel
// {
// public string? Namespace { get; }
// public IReadOnlyCollection<string> ClassHierarchy { get; }
// public IReadOnlyCollection<MethodModel> Methods { get; }
//
// public FileModel(string? ns, IReadOnlyCollection<string> classHierarchy, IReadOnlyCollection<MethodModel> methods)
// {
// Namespace = ns;
// ClassHierarchy = classHierarchy;
// Methods = methods;
// }
// }
//
// public void Initialize(IncrementalGeneratorInitializationContext context)
// {
// // #if DEBUG
// // if (!Debugger.IsAttached)
// // Debugger.Launch();
// // // SpinWait.SpinUntil(() => Debugger.IsAttached);
// // #endif
// context.RegisterPostInitializationOutput(static ctx => ctx.AddSource(
// "CmdAttribute.g.cs",
// SourceText.From(ATTRIBUTE, Encoding.UTF8)));
//
// var methods = context.SyntaxProvider
// .CreateSyntaxProvider(
// static (node, _) => node is MethodDeclarationSyntax { AttributeLists.Count: > 0 },
// static (ctx, cancel) => Transform(ctx, cancel))
// .Where(static m => m is not null)
// .Where(static m => m?.ChildTokens().Any(static x => x.IsKind(SyntaxKind.PublicKeyword)) ?? false);
//
// var compilationMethods = context.CompilationProvider.Combine(methods.Collect());
//
// context.RegisterSourceOutput(compilationMethods,
// static (ctx, tuple) => RegisterAction(in ctx, tuple.Left, in tuple.Right));
// }
//
// private static void RegisterAction(in SourceProductionContext ctx,
// Compilation comp,
// in ImmutableArray<MethodDeclarationSyntax?> methods)
// {
// if (methods is { IsDefaultOrEmpty: true })
// return;
//
// var models = GetModels(comp, methods, ctx.CancellationToken);
//
// foreach (var model in models)
// {
// var name = $"{model.Namespace}.{string.Join(".", model.ClassHierarchy)}.g.cs";
// try
// {
// var source = GetSourceText(model);
// ctx.AddSource(name, SourceText.From(source, Encoding.UTF8));
// }
// catch (Exception ex)
// {
// Console.WriteLine($"Error writing source file {name}\n" + ex);
// }
// }
// }
//
// private static string GetSourceText(FileModel model)
// {
// using var sw = new StringWriter();
// using var tw = new IndentedTextWriter(sw);
//
// tw.WriteLine("// <AutoGenerated />");
// tw.WriteLine("#pragma warning disable CS1066");
//
// if (model.Namespace is not null)
// {
// tw.WriteLine($"namespace {model.Namespace};");
// tw.WriteLine();
// }
//
// foreach (var className in model.ClassHierarchy)
// {
// tw.WriteLine($"public partial class {className}");
// tw.WriteLine("{");
// tw.Indent ++;
// }
//
// foreach (var method in model.Methods)
// {
// tw.WriteLine("[EllieCommand]");
// tw.WriteLine("[EllieDescription]");
// tw.WriteLine("[Aliases]");
// tw.WriteLine($"public partial {method.ReturnType} {method.MethodName}({string.Join(", ", method.Params)});");
// }
//
// foreach (var _ in model.ClassHierarchy)
// {
// tw.Indent --;
// tw.WriteLine("}");
// }
//
// tw.Flush();
// return sw.ToString();
// }
//
// private static IReadOnlyCollection<FileModel> GetModels(Compilation compilation,
// in ImmutableArray<MethodDeclarationSyntax?> inputMethods,
// CancellationToken cancel)
// {
// var models = new List<FileModel>();
//
// var methods = inputMethods
// .Where(static x => x is not null)
// .Distinct();
//
// var methodModels = methods
// .Select(x => MethodDeclarationToMethodModel(compilation, x!))
// .Where(static x => x is not null)
// .Cast<MethodModel>();
//
// var groups = methodModels
// .GroupBy(static x => $"{x.Namespace}.{string.Join(".", x.Classes)}");
//
// foreach (var group in groups)
// {
// if (cancel.IsCancellationRequested)
// return new Collection<FileModel>();
//
// if (group is null)
// continue;
//
// var elems = group.ToList();
// if (elems.Count is 0)
// continue;
//
// var model = new FileModel(
// methods: elems,
// ns: elems[0].Namespace,
// classHierarchy: elems![0].Classes
// );
//
// models.Add(model);
// }
//
//
// return models;
// }
//
// private static MethodModel? MethodDeclarationToMethodModel(Compilation comp, MethodDeclarationSyntax decl)
// {
// // SpinWait.SpinUntil(static () => Debugger.IsAttached);
//
// SemanticModel semanticModel;
// try
// {
// semanticModel = comp.GetSemanticModel(decl.SyntaxTree);
// }
// catch
// {
// // for some reason this method can throw "Not part of this compilation" argument exception
// return null;
// }
//
// var methodModel = new MethodModel(
// @params: decl.ParameterList.Parameters
// .Where(p => p.Type is not null)
// .Select(p =>
// {
// var prefix = p.Modifiers.Any(static x => x.IsKind(SyntaxKind.ParamsKeyword))
// ? "params "
// : string.Empty;
//
// var type = semanticModel
// .GetTypeInfo(p.Type!)
// .Type
// ?.ToDisplayString(SymbolDisplayFormat.FullyQualifiedFormat);
//
//
// var name = p.Identifier.Text;
//
// var suffix = string.Empty;
// if (p.Default is not null)
// {
// if (p.Default.Value is LiteralExpressionSyntax)
// {
// suffix = " = " + p.Default.Value;
// }
// else if (p.Default.Value is MemberAccessExpressionSyntax maes)
// {
// var maesSemModel = comp.GetSemanticModel(maes.SyntaxTree);
// var sym = maesSemModel.GetSymbolInfo(maes.Name);
// if (sym.Symbol is null)
// {
// suffix = " = " + p.Default.Value;
// }
// else
// {
// suffix = " = " + sym.Symbol.ToDisplayString();
// }
// }
// }
//
// return $"{prefix}{type} {name}{suffix}";
// })
// .ToList(),
// methodName: decl.Identifier.Text,
// returnType: decl.ReturnType.ToString(),
// ns: GetNamespace(decl),
// classes: GetClasses(decl)
// );
//
// return methodModel;
// }
//
// //https://github.com/andrewlock/NetEscapades.EnumGenerators/blob/main/src/NetEscapades.EnumGenerators/EnumGenerator.cs
// static string? GetNamespace(MethodDeclarationSyntax declarationSyntax)
// {
// // determine the namespace the class is declared in, if any
// string? nameSpace = null;
// var parentOfInterest = declarationSyntax.Parent;
// while (parentOfInterest is not null)
// {
// parentOfInterest = parentOfInterest.Parent;
//
// if (parentOfInterest is BaseNamespaceDeclarationSyntax ns)
// {
// nameSpace = ns.Name.ToString();
// while (true)
// {
// if (ns.Parent is not NamespaceDeclarationSyntax parent)
// {
// break;
// }
//
// ns = parent;
// nameSpace = $"{ns.Name}.{nameSpace}";
// }
//
// return nameSpace;
// }
//
// }
//
// return nameSpace;
// }
//
// static IReadOnlyCollection<string> GetClasses(MethodDeclarationSyntax declarationSyntax)
// {
// // determine the namespace the class is declared in, if any
// var classes = new LinkedList<string>();
// var parentOfInterest = declarationSyntax.Parent;
// while (parentOfInterest is not null)
// {
// if (parentOfInterest is ClassDeclarationSyntax cds)
// {
// classes.AddFirst(cds.Identifier.ToString());
// }
//
// parentOfInterest = parentOfInterest.Parent;
// }
//
// Debug.WriteLine($"Method {declarationSyntax.Identifier.Text} has {classes.Count} classes");
//
// return classes;
// }
//
// private static MethodDeclarationSyntax? Transform(GeneratorSyntaxContext ctx, CancellationToken cancel)
// {
// var methodDecl = ctx.Node as MethodDeclarationSyntax;
// if (methodDecl is null)
// return default;
//
// foreach (var attListSyntax in methodDecl.AttributeLists)
// {
// foreach (var attSyntax in attListSyntax.Attributes)
// {
// if (cancel.IsCancellationRequested)
// return default;
//
// var symbol = ctx.SemanticModel.GetSymbolInfo(attSyntax).Symbol;
// if (symbol is not IMethodSymbol attSymbol)
// continue;
//
// if (attSymbol.ContainingType.ToDisplayString() == "EllieBot.Common.CmdAttribute")
// return methodDecl;
// }
// }
//
// return default;
// }
// }

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@ -0,0 +1,25 @@
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<TargetFramework>netstandard2.0</TargetFramework>
<LangVersion>latest</LangVersion>
<IncludeBuildOutput>false</IncludeBuildOutput>
<IsRoslynComponent>true</IsRoslynComponent>
</PropertyGroup>
<ItemGroup>
<PackageReference Include="Microsoft.CodeAnalysis.CSharp" Version="4.0.1" PrivateAssets="all" />
<PackageReference Include="Microsoft.CodeAnalysis.Analyzers" Version="3.3.3" PrivateAssets="all" />
<PackageReference Include="Newtonsoft.Json" Version="13.0.3" PrivateAssets="all" GeneratePathProperty="true" />
</ItemGroup>
<PropertyGroup>
<GetTargetPathDependsOn>$(GetTargetPathDependsOn);GetDependencyTargetPaths</GetTargetPathDependsOn>
</PropertyGroup>
<Target Name="GetDependencyTargetPaths">
<ItemGroup>
<TargetPathWithTargetPlatformMoniker Include="$(PKGNewtonsoft_Json)\lib\netstandard2.0\Newtonsoft.Json.dll" IncludeRuntimeDependency="false" />
</ItemGroup>
</Target>
</Project>

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@ -0,0 +1,144 @@
#nullable enable
using System;
using System.CodeDom.Compiler;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Text.RegularExpressions;
using Microsoft.CodeAnalysis;
using Newtonsoft.Json;
namespace EllieBot.Generators
{
internal readonly struct TranslationPair
{
public string Name { get; }
public string Value { get; }
public TranslationPair(string name, string value)
{
Name = name;
Value = value;
}
}
[Generator]
public class LocalizedStringsGenerator : ISourceGenerator
{
private const string LOC_STR_SOURCE = @"namespace EllieBot
{
public readonly struct LocStr
{
public readonly string Key;
public readonly object[] Params;
public LocStr(string key, params object[] data)
{
Key = key;
Params = data;
}
}
}";
public void Initialize(GeneratorInitializationContext context)
{
}
public void Execute(GeneratorExecutionContext context)
{
var file = context.AdditionalFiles.First(x => x.Path.EndsWith("responses.en-US.json"));
var fields = GetFields(file.GetText()?.ToString());
using (var stringWriter = new StringWriter())
using (var sw = new IndentedTextWriter(stringWriter))
{
sw.WriteLine("namespace EllieBot;");
sw.WriteLine();
sw.WriteLine("public static class strs");
sw.WriteLine("{");
sw.Indent++;
var typedParamStrings = new List<string>(10);
foreach (var field in fields)
{
var matches = Regex.Matches(field.Value, @"{(?<num>\d)[}:]");
var max = 0;
foreach (Match match in matches)
{
max = Math.Max(max, int.Parse(match.Groups["num"].Value) + 1);
}
typedParamStrings.Clear();
var typeParams = new string[max];
var passedParamString = string.Empty;
for (var i = 0; i < max; i++)
{
typedParamStrings.Add($"in T{i} p{i}");
passedParamString += $", p{i}";
typeParams[i] = $"T{i}";
}
var sig = string.Empty;
var typeParamStr = string.Empty;
if (max > 0)
{
sig = $"({string.Join(", ", typedParamStrings)})";
typeParamStr = $"<{string.Join(", ", typeParams)}>";
}
sw.WriteLine("public static LocStr {0}{1}{2} => new LocStr(\"{3}\"{4});",
field.Name,
typeParamStr,
sig,
field.Name,
passedParamString);
}
sw.Indent--;
sw.WriteLine("}");
sw.Flush();
context.AddSource("strs.g.cs", stringWriter.ToString());
}
context.AddSource("LocStr.g.cs", LOC_STR_SOURCE);
}
private List<TranslationPair> GetFields(string? dataText)
{
if (string.IsNullOrWhiteSpace(dataText))
return new();
Dictionary<string, string> data;
try
{
var output = JsonConvert.DeserializeObject<Dictionary<string, string>>(dataText!);
if (output is null)
return new();
data = output;
}
catch
{
Debug.WriteLine("Failed parsing responses file.");
return new();
}
var list = new List<TranslationPair>();
foreach (var entry in data)
{
list.Add(new(
entry.Key,
entry.Value
));
}
return list;
}
}
}

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@ -0,0 +1,24 @@
## Generators
Project which contains source generators required for EllieBot project
---
### 1) Localized Strings Generator
-- Why --
Type safe response strings access, and enforces correct usage of response strings.
-- How it works --
Creates a file "strs.cs" containing a class called "strs" in "EllieBot" namespace.
Loads "data/strings/responses.en-US.json" and creates a property or a function for each key in the responses json file based on whether the value has string format placeholders or not.
- If a value has no placeholders, it creates a property in the strs class which returns an instance of a LocStr struct containing only the key and no replacement parameters
- If a value has placeholders, it creates a function with the same number of arguments as the number of placeholders, and passes those arguments to the LocStr instance
-- How to use --
1. Add a new key to responses.en-US.json "greet_me": "Hello, {0}"
2. You now have access to a function strs.greet_me(obj p1)
3. Using "GetText(strs.greet_me("Me"))" will return "Hello, Me"