virtualx-engine/modules/mono/editor/Godot.NET.Sdk/Godot.SourceGenerators/ScriptMethodsGenerator.cs

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using System.Collections.Generic;
using System.Linq;
using System.Text;
using Microsoft.CodeAnalysis;
using Microsoft.CodeAnalysis.CSharp.Syntax;
using Microsoft.CodeAnalysis.Text;
namespace Godot.SourceGenerators
{
[Generator]
public class ScriptMethodsGenerator : ISourceGenerator
{
public void Initialize(GeneratorInitializationContext context)
{
}
public void Execute(GeneratorExecutionContext context)
{
if (context.IsGodotSourceGeneratorDisabled("ScriptMethods"))
return;
INamedTypeSymbol[] godotClasses = context
.Compilation.SyntaxTrees
.SelectMany(tree =>
tree.GetRoot().DescendantNodes()
.OfType<ClassDeclarationSyntax>()
.SelectGodotScriptClasses(context.Compilation)
// Report and skip non-partial classes
.Where(x =>
{
if (x.cds.IsPartial())
{
if (x.cds.IsNested() && !x.cds.AreAllOuterTypesPartial(out var typeMissingPartial))
{
Common.ReportNonPartialGodotScriptOuterClass(context, typeMissingPartial!);
return false;
}
return true;
}
Common.ReportNonPartialGodotScriptClass(context, x.cds, x.symbol);
return false;
})
.Select(x => x.symbol)
)
.Distinct<INamedTypeSymbol>(SymbolEqualityComparer.Default)
.ToArray();
if (godotClasses.Length > 0)
{
var typeCache = new MarshalUtils.TypeCache(context.Compilation);
foreach (var godotClass in godotClasses)
{
VisitGodotScriptClass(context, typeCache, godotClass);
}
}
}
private class MethodOverloadEqualityComparer : IEqualityComparer<GodotMethodData>
{
public bool Equals(GodotMethodData x, GodotMethodData y)
=> x.ParamTypes.Length == y.ParamTypes.Length && x.Method.Name == y.Method.Name;
public int GetHashCode(GodotMethodData obj)
{
unchecked
{
return (obj.ParamTypes.Length.GetHashCode() * 397) ^ obj.Method.Name.GetHashCode();
}
}
}
private static void VisitGodotScriptClass(
GeneratorExecutionContext context,
MarshalUtils.TypeCache typeCache,
INamedTypeSymbol symbol
)
{
INamespaceSymbol namespaceSymbol = symbol.ContainingNamespace;
string classNs = namespaceSymbol != null && !namespaceSymbol.IsGlobalNamespace ?
namespaceSymbol.FullQualifiedNameOmitGlobal() :
string.Empty;
bool hasNamespace = classNs.Length != 0;
bool isInnerClass = symbol.ContainingType != null;
string uniqueHint = symbol.FullQualifiedNameOmitGlobal().SanitizeQualifiedNameForUniqueHint()
+ "_ScriptMethods.generated";
var source = new StringBuilder();
source.Append("using Godot;\n");
source.Append("using Godot.NativeInterop;\n");
source.Append("\n");
if (hasNamespace)
{
source.Append("namespace ");
source.Append(classNs);
source.Append(" {\n\n");
}
if (isInnerClass)
{
var containingType = symbol.ContainingType;
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AppendPartialContainingTypeDeclarations(containingType);
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void AppendPartialContainingTypeDeclarations(INamedTypeSymbol? containingType)
{
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if (containingType == null)
return;
AppendPartialContainingTypeDeclarations(containingType.ContainingType);
source.Append("partial ");
source.Append(containingType.GetDeclarationKeyword());
source.Append(" ");
source.Append(containingType.NameWithTypeParameters());
source.Append("\n{\n");
}
}
source.Append("partial class ");
source.Append(symbol.NameWithTypeParameters());
source.Append("\n{\n");
var members = symbol.GetMembers();
var methodSymbols = members
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.Where(s => s.Kind == SymbolKind.Method && !s.IsImplicitlyDeclared)
.Cast<IMethodSymbol>()
.Where(m => m.MethodKind == MethodKind.Ordinary);
var godotClassMethods = methodSymbols.WhereHasGodotCompatibleSignature(typeCache)
.Distinct(new MethodOverloadEqualityComparer())
.ToArray();
source.Append("#pragma warning disable CS0109 // Disable warning about redundant 'new' keyword\n");
source.Append(" /// <summary>\n")
.Append(" /// Cached StringNames for the methods contained in this class, for fast lookup.\n")
.Append(" /// </summary>\n");
source.Append(
$" public new class MethodName : {symbol.BaseType.FullQualifiedNameIncludeGlobal()}.MethodName {{\n");
// Generate cached StringNames for methods and properties, for fast lookup
var distinctMethodNames = godotClassMethods
.Select(m => m.Method.Name)
.Distinct()
.ToArray();
foreach (string methodName in distinctMethodNames)
{
source.Append(" /// <summary>\n")
.Append(" /// Cached name for the '")
.Append(methodName)
.Append("' method.\n")
.Append(" /// </summary>\n");
source.Append(" public new static readonly global::Godot.StringName ");
source.Append(methodName);
source.Append(" = \"");
source.Append(methodName);
source.Append("\";\n");
}
source.Append(" }\n"); // class GodotInternal
// Generate GetGodotMethodList
if (godotClassMethods.Length > 0)
{
const string listType = "global::System.Collections.Generic.List<global::Godot.Bridge.MethodInfo>";
source.Append(" /// <summary>\n")
.Append(" /// Get the method information for all the methods declared in this class.\n")
.Append(" /// This method is used by Godot to register the available methods in the editor.\n")
.Append(" /// Do not call this method.\n")
.Append(" /// </summary>\n");
source.Append(" [global::System.ComponentModel.EditorBrowsable(global::System.ComponentModel.EditorBrowsableState.Never)]\n");
source.Append(" internal new static ")
.Append(listType)
.Append(" GetGodotMethodList()\n {\n");
source.Append(" var methods = new ")
.Append(listType)
.Append("(")
.Append(godotClassMethods.Length)
.Append(");\n");
foreach (var method in godotClassMethods)
{
var methodInfo = DetermineMethodInfo(method);
AppendMethodInfo(source, methodInfo);
}
source.Append(" return methods;\n");
source.Append(" }\n");
}
source.Append("#pragma warning restore CS0109\n");
// Generate InvokeGodotClassMethod
if (godotClassMethods.Length > 0)
{
source.Append(" /// <inheritdoc/>\n");
source.Append(" [global::System.ComponentModel.EditorBrowsable(global::System.ComponentModel.EditorBrowsableState.Never)]\n");
source.Append(" protected override bool InvokeGodotClassMethod(in godot_string_name method, ");
C#: Remove need for reflection to invoking callable delegates We aim to make the C# API reflection-free, mainly for concerns about performance, and to be able to target NativeAOT in refletion-free mode, which reduces the binary size. One of the main usages of reflection still left was the dynamic invokation of callable delegates, and for some time I wasn't sure I would find an alternative solution that I'd be happy with. The new solution uses trampoline functions to invoke the delegates: ``` static void Trampoline(object delegateObj, NativeVariantPtrArgs args, out godot_variant ret) { if (args.Count != 1) throw new ArgumentException($"Callable expected 1 arguments but received {args.Count}."); string res = ((Func<int, string>)delegateObj)( VariantConversionCallbacks.GetToManagedCallback<int>()(args[0]) ); ret = VariantConversionCallbacks.GetToVariantCallback<string>()(res); } Callable.CreateWithUnsafeTrampoline((int num) => "Foo" + num, &Trampoline); ``` Of course, this is too much boilerplate for user code. To improve this, the `Callable.From` methods were added. These are overloads that take `Action` and `Func` delegates, which covers the most common use cases: lambdas and method groups: ``` // Lambda Callable.From((int num) => "Foo" + num); // Method group string AppendNum(int num) => "Foo" + num; Callable.From(AppendNum); ``` Unfortunately, due to limitations in the C# language, implicit conversions from delegates to `Callable` are not supported. `Callable.From` does not support custom delegates. These should be uncommon, but the Godot C# API actually uses them for event signals. As such, the bindings generator was updated to generate trampoline functions for event signals. It was also optimized to use `Action` instead of a custom delegate for parameterless signals, which removes the need for the trampoline functions for those signals. The change to reflection-free invokation removes one of the last needs for `ConvertVariantToManagedObjectOfType`. The only remaining usage is from calling script constructors with parameters from the engine (`CreateManagedForGodotObjectScriptInstance`). Once that one is made reflection-free, `ConvertVariantToManagedObjectOfType` can be removed.
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source.Append("NativeVariantPtrArgs args, out godot_variant ret)\n {\n");
foreach (var method in godotClassMethods)
{
GenerateMethodInvoker(method, source);
}
C#: Remove need for reflection to invoking callable delegates We aim to make the C# API reflection-free, mainly for concerns about performance, and to be able to target NativeAOT in refletion-free mode, which reduces the binary size. One of the main usages of reflection still left was the dynamic invokation of callable delegates, and for some time I wasn't sure I would find an alternative solution that I'd be happy with. The new solution uses trampoline functions to invoke the delegates: ``` static void Trampoline(object delegateObj, NativeVariantPtrArgs args, out godot_variant ret) { if (args.Count != 1) throw new ArgumentException($"Callable expected 1 arguments but received {args.Count}."); string res = ((Func<int, string>)delegateObj)( VariantConversionCallbacks.GetToManagedCallback<int>()(args[0]) ); ret = VariantConversionCallbacks.GetToVariantCallback<string>()(res); } Callable.CreateWithUnsafeTrampoline((int num) => "Foo" + num, &Trampoline); ``` Of course, this is too much boilerplate for user code. To improve this, the `Callable.From` methods were added. These are overloads that take `Action` and `Func` delegates, which covers the most common use cases: lambdas and method groups: ``` // Lambda Callable.From((int num) => "Foo" + num); // Method group string AppendNum(int num) => "Foo" + num; Callable.From(AppendNum); ``` Unfortunately, due to limitations in the C# language, implicit conversions from delegates to `Callable` are not supported. `Callable.From` does not support custom delegates. These should be uncommon, but the Godot C# API actually uses them for event signals. As such, the bindings generator was updated to generate trampoline functions for event signals. It was also optimized to use `Action` instead of a custom delegate for parameterless signals, which removes the need for the trampoline functions for those signals. The change to reflection-free invokation removes one of the last needs for `ConvertVariantToManagedObjectOfType`. The only remaining usage is from calling script constructors with parameters from the engine (`CreateManagedForGodotObjectScriptInstance`). Once that one is made reflection-free, `ConvertVariantToManagedObjectOfType` can be removed.
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source.Append(" return base.InvokeGodotClassMethod(method, args, out ret);\n");
source.Append(" }\n");
}
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// Generate InvokeGodotClassStaticMethod
var godotClassStaticMethods = godotClassMethods.Where(m => m.Method.IsStatic).ToArray();
if (godotClassStaticMethods.Length > 0)
{
source.Append("#pragma warning disable CS0109 // Disable warning about redundant 'new' keyword\n");
source.Append(" [global::System.ComponentModel.EditorBrowsable(global::System.ComponentModel.EditorBrowsableState.Never)]\n");
source.Append(" internal new static bool InvokeGodotClassStaticMethod(in godot_string_name method, ");
source.Append("NativeVariantPtrArgs args, out godot_variant ret)\n {\n");
foreach (var method in godotClassStaticMethods)
{
GenerateMethodInvoker(method, source);
}
source.Append(" ret = default;\n");
source.Append(" return false;\n");
source.Append(" }\n");
source.Append("#pragma warning restore CS0109\n");
}
// Generate HasGodotClassMethod
if (distinctMethodNames.Length > 0)
{
source.Append(" /// <inheritdoc/>\n");
source.Append(" [global::System.ComponentModel.EditorBrowsable(global::System.ComponentModel.EditorBrowsableState.Never)]\n");
source.Append(" protected override bool HasGodotClassMethod(in godot_string_name method)\n {\n");
bool isFirstEntry = true;
foreach (string methodName in distinctMethodNames)
{
GenerateHasMethodEntry(methodName, source, isFirstEntry);
isFirstEntry = false;
}
source.Append(" return base.HasGodotClassMethod(method);\n");
source.Append(" }\n");
}
source.Append("}\n"); // partial class
if (isInnerClass)
{
var containingType = symbol.ContainingType;
while (containingType != null)
{
source.Append("}\n"); // outer class
containingType = containingType.ContainingType;
}
}
if (hasNamespace)
{
source.Append("\n}\n");
}
context.AddSource(uniqueHint, SourceText.From(source.ToString(), Encoding.UTF8));
}
private static void AppendMethodInfo(StringBuilder source, MethodInfo methodInfo)
{
source.Append(" methods.Add(new(name: MethodName.")
.Append(methodInfo.Name)
.Append(", returnVal: ");
AppendPropertyInfo(source, methodInfo.ReturnVal);
source.Append(", flags: (global::Godot.MethodFlags)")
.Append((int)methodInfo.Flags)
.Append(", arguments: ");
if (methodInfo.Arguments is { Count: > 0 })
{
source.Append("new() { ");
foreach (var param in methodInfo.Arguments)
{
AppendPropertyInfo(source, param);
// C# allows colon after the last element
source.Append(", ");
}
source.Append(" }");
}
else
{
source.Append("null");
}
source.Append(", defaultArguments: null));\n");
}
private static void AppendPropertyInfo(StringBuilder source, PropertyInfo propertyInfo)
{
source.Append("new(type: (global::Godot.Variant.Type)")
.Append((int)propertyInfo.Type)
.Append(", name: \"")
.Append(propertyInfo.Name)
.Append("\", hint: (global::Godot.PropertyHint)")
.Append((int)propertyInfo.Hint)
.Append(", hintString: \"")
.Append(propertyInfo.HintString)
.Append("\", usage: (global::Godot.PropertyUsageFlags)")
.Append((int)propertyInfo.Usage)
.Append(", exported: ")
.Append(propertyInfo.Exported ? "true" : "false");
if (propertyInfo.ClassName != null)
{
source.Append(", className: new global::Godot.StringName(\"")
.Append(propertyInfo.ClassName)
.Append("\")");
}
source.Append(")");
}
private static MethodInfo DetermineMethodInfo(GodotMethodData method)
{
PropertyInfo returnVal;
if (method.RetType != null)
{
returnVal = DeterminePropertyInfo(method.RetType.Value.MarshalType,
method.RetType.Value.TypeSymbol,
name: string.Empty);
}
else
{
returnVal = new PropertyInfo(VariantType.Nil, string.Empty, PropertyHint.None,
hintString: null, PropertyUsageFlags.Default, exported: false);
}
int paramCount = method.ParamTypes.Length;
List<PropertyInfo>? arguments;
if (paramCount > 0)
{
arguments = new(capacity: paramCount);
for (int i = 0; i < paramCount; i++)
{
arguments.Add(DeterminePropertyInfo(method.ParamTypes[i],
method.Method.Parameters[i].Type,
name: method.Method.Parameters[i].Name));
}
}
else
{
arguments = null;
}
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MethodFlags flags = MethodFlags.Default;
if (method.Method.IsStatic)
{
flags |= MethodFlags.Static;
}
return new MethodInfo(method.Method.Name, returnVal, flags, arguments,
defaultArguments: null);
}
private static PropertyInfo DeterminePropertyInfo(MarshalType marshalType, ITypeSymbol typeSymbol, string name)
{
var memberVariantType = MarshalUtils.ConvertMarshalTypeToVariantType(marshalType)!.Value;
var propUsage = PropertyUsageFlags.Default;
if (memberVariantType == VariantType.Nil)
propUsage |= PropertyUsageFlags.NilIsVariant;
string? className = null;
if (memberVariantType == VariantType.Object && typeSymbol is INamedTypeSymbol namedTypeSymbol)
{
className = namedTypeSymbol.GetGodotScriptNativeClassName();
}
return new PropertyInfo(memberVariantType, name,
PropertyHint.None, string.Empty, propUsage, className, exported: false);
}
private static void GenerateHasMethodEntry(
string methodName,
StringBuilder source,
bool isFirstEntry
)
{
source.Append(" ");
if (!isFirstEntry)
source.Append("else ");
source.Append("if (method == MethodName.");
source.Append(methodName);
source.Append(") {\n return true;\n }\n");
}
private static void GenerateMethodInvoker(
GodotMethodData method,
StringBuilder source
)
{
string methodName = method.Method.Name;
source.Append(" if (method == MethodName.");
source.Append(methodName);
C#: Remove need for reflection to invoking callable delegates We aim to make the C# API reflection-free, mainly for concerns about performance, and to be able to target NativeAOT in refletion-free mode, which reduces the binary size. One of the main usages of reflection still left was the dynamic invokation of callable delegates, and for some time I wasn't sure I would find an alternative solution that I'd be happy with. The new solution uses trampoline functions to invoke the delegates: ``` static void Trampoline(object delegateObj, NativeVariantPtrArgs args, out godot_variant ret) { if (args.Count != 1) throw new ArgumentException($"Callable expected 1 arguments but received {args.Count}."); string res = ((Func<int, string>)delegateObj)( VariantConversionCallbacks.GetToManagedCallback<int>()(args[0]) ); ret = VariantConversionCallbacks.GetToVariantCallback<string>()(res); } Callable.CreateWithUnsafeTrampoline((int num) => "Foo" + num, &Trampoline); ``` Of course, this is too much boilerplate for user code. To improve this, the `Callable.From` methods were added. These are overloads that take `Action` and `Func` delegates, which covers the most common use cases: lambdas and method groups: ``` // Lambda Callable.From((int num) => "Foo" + num); // Method group string AppendNum(int num) => "Foo" + num; Callable.From(AppendNum); ``` Unfortunately, due to limitations in the C# language, implicit conversions from delegates to `Callable` are not supported. `Callable.From` does not support custom delegates. These should be uncommon, but the Godot C# API actually uses them for event signals. As such, the bindings generator was updated to generate trampoline functions for event signals. It was also optimized to use `Action` instead of a custom delegate for parameterless signals, which removes the need for the trampoline functions for those signals. The change to reflection-free invokation removes one of the last needs for `ConvertVariantToManagedObjectOfType`. The only remaining usage is from calling script constructors with parameters from the engine (`CreateManagedForGodotObjectScriptInstance`). Once that one is made reflection-free, `ConvertVariantToManagedObjectOfType` can be removed.
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source.Append(" && args.Count == ");
source.Append(method.ParamTypes.Length);
source.Append(") {\n");
if (method.RetType != null)
source.Append(" var callRet = ");
else
source.Append(" ");
source.Append(methodName);
source.Append("(");
for (int i = 0; i < method.ParamTypes.Length; i++)
{
if (i != 0)
source.Append(", ");
source.AppendNativeVariantToManagedExpr(string.Concat("args[", i.ToString(), "]"),
method.ParamTypeSymbols[i], method.ParamTypes[i]);
}
source.Append(");\n");
if (method.RetType != null)
{
source.Append(" ret = ");
source.AppendManagedToNativeVariantExpr("callRet",
method.RetType.Value.TypeSymbol, method.RetType.Value.MarshalType);
source.Append(";\n");
source.Append(" return true;\n");
}
else
{
source.Append(" ret = default;\n");
source.Append(" return true;\n");
}
source.Append(" }\n");
}
}
}