/// <summary> /// Requests the architecture to add architecture specific compilation stages to the pipeline. These /// may depend upon the current state of the pipeline. /// </summary> /// <param name="methodPipeline">The pipeline of the method compiler to add architecture specific compilation stages to.</param> public abstract void ExtendMethodCompilerPipeline(CompilerPipeline methodPipeline);
public Compiler(MosaCompiler mosaCompiler) { TypeSystem = mosaCompiler.TypeSystem; TypeLayout = mosaCompiler.TypeLayout; CompilerSettings = mosaCompiler.CompilerSettings; Architecture = mosaCompiler.Platform; CompilerHooks = mosaCompiler.CompilerHooks; TraceLevel = CompilerSettings.TraceLevel; Statistics = CompilerSettings.Statistics; Linker = new MosaLinker(this); ObjectHeaderSize = Architecture.NativePointerSize + 4 + 4; // Hash Value (32-bit) + Lock & Status (32-bit) + Method Table StackFrame = Operand.CreateCPURegister(TypeSystem.BuiltIn.Pointer, Architecture.StackFrameRegister); StackPointer = Operand.CreateCPURegister(TypeSystem.BuiltIn.Pointer, Architecture.StackPointerRegister); LinkRegister = Architecture.LinkRegister == null ? null : Operand.CreateCPURegister(TypeSystem.BuiltIn.Object, Architecture.LinkRegister); ProgramCounter = Architecture.ProgramCounter == null ? null : Operand.CreateCPURegister(TypeSystem.BuiltIn.Object, Architecture.ProgramCounter); ExceptionRegister = Operand.CreateCPURegister(TypeSystem.BuiltIn.Object, Architecture.ExceptionRegister); LeaveTargetRegister = Operand.CreateCPURegister(TypeSystem.BuiltIn.Object, Architecture.LeaveTargetRegister); PostEvent(CompilerEvent.CompileStart); MethodStagePipelines = new Pipeline <BaseMethodCompilerStage> [MaxThreads]; MethodScheduler = new MethodScheduler(this); MethodScanner = new MethodScanner(this); foreach (var type in Assembly.GetExecutingAssembly().GetTypes()) { if (!type.IsClass) { continue; } foreach (var method in type.GetRuntimeMethods()) { // Now get all the IntrinsicMethodAttribute attributes var intrinsicMethodAttributes = (IntrinsicMethodAttribute[])method.GetCustomAttributes(typeof(IntrinsicMethodAttribute), true); for (int i = 0; i < intrinsicMethodAttributes.Length; i++) { var d = (IntrinsicMethodDelegate)System.Delegate.CreateDelegate(typeof(IntrinsicMethodDelegate), method); // Finally add the dictionary entry mapping the target name and the delegate InternalIntrinsicMethods.Add(intrinsicMethodAttributes[i].Target, d); } // Now get all the StubMethodAttribute attributes var stubMethodAttributes = (StubMethodAttribute[])method.GetCustomAttributes(typeof(StubMethodAttribute), true); for (int i = 0; i < stubMethodAttributes.Length; i++) { var d = (StubMethodDelegate)System.Delegate.CreateDelegate(typeof(StubMethodDelegate), method); // Finally add the dictionary entry mapping the target name and the delegate InternalStubMethods.Add(stubMethodAttributes[i].Target, d); } } } PlugSystem = new PlugSystem(TypeSystem); PlatformInternalRuntimeType = GetPlatformInternalRuntimeType(); InternalRuntimeType = GeInternalRuntimeType(); // Build the default compiler pipeline CompilerPipeline.Add(GetDefaultCompilerPipeline(CompilerSettings, Architecture.Is64BitPlatform)); // Call hook to allow for the extension of the pipeline CompilerHooks.ExtendCompilerPipeline?.Invoke(CompilerPipeline); Architecture.ExtendCompilerPipeline(CompilerPipeline, CompilerSettings); IsStopped = false; }
/// <summary> /// Extends the post-compiler pipeline with architecture specific compiler stages. /// </summary> /// <param name="compilerPipeline">The pipeline to extend.</param> public abstract void ExtendPostCompilerPipeline(CompilerPipeline compilerPipeline);
public Compiler(MosaCompiler mosaCompiler) { TypeSystem = mosaCompiler.TypeSystem; TypeLayout = mosaCompiler.TypeLayout; CompilerOptions = mosaCompiler.CompilerOptions; Linker = mosaCompiler.Linker; CompilerTrace = mosaCompiler.CompilerTrace; Architecture = CompilerOptions.Architecture; StackFrame = Operand.CreateCPURegister(TypeSystem.BuiltIn.Pointer, Architecture.StackFrameRegister); StackPointer = Operand.CreateCPURegister(TypeSystem.BuiltIn.Pointer, Architecture.StackPointerRegister); PostCompilerTraceEvent(CompilerEvent.CompilerStart); CompilerExtensions.AddRange(mosaCompiler.CompilerExtensions); MethodStagePipelines = new Pipeline <BaseMethodCompilerStage> [mosaCompiler.MaxThreads + 1]; MethodScheduler = new MethodScheduler(this); MethodScanner = new MethodScanner(this); foreach (var type in Assembly.GetExecutingAssembly().GetTypes()) { if (!type.IsClass) { continue; } foreach (var method in type.GetRuntimeMethods()) { // Now get all the IntrinsicMethodAttribute attributes var attributes = (IntrinsicMethodAttribute[])method.GetCustomAttributes(typeof(IntrinsicMethodAttribute), true); for (int i = 0; i < attributes.Length; i++) { var d = (InstrinsicMethodDelegate)Delegate.CreateDelegate(typeof(InstrinsicMethodDelegate), method); // Finally add the dictionary entry mapping the target name and the delegate InternalIntrinsicMethods.Add(attributes[i].Target, d); } } } PlugSystem = new PlugSystem(TypeSystem); PlatformInternalRuntimeType = GetPlatformInternalRuntimeType(); InternalRuntimeType = GeInternalRuntimeType(); // Build the default compiler pipeline CompilerPipeline.Add(GetDefaultCompilerPipeline(CompilerOptions)); foreach (var extension in CompilerExtensions) { extension.ExtendCompilerPipeline(CompilerPipeline); } Architecture.ExtendCompilerPipeline(CompilerPipeline, CompilerOptions); IsStopped = false; WorkCount = 0; }