public void Merge(Counters counters) { if (counters.counters != null) { foreach (var item in counters.counters) { Update(item.Key, item.Value); } } }
public CompilerMethodData(MosaMethod mosaMethod) { if (mosaMethod == null) throw new ArgumentNullException("mosaMethod"); Method = mosaMethod; Calls = new List<MosaMethod>(); CalledBy = new List<MosaMethod>(); Counters = new Counters(); CompileCount = 0; }
/// <summary> /// Initializes a new compiler instance. /// </summary> /// <param name="architecture">The compiler target architecture.</param> /// <param name="typeSystem">The type system.</param> /// <param name="typeLayout">The type layout.</param> /// <param name="compilationScheduler">The compilation scheduler.</param> /// <param name="compilerTrace">The compiler trace.</param> /// <param name="linker">The linker.</param> /// <param name="compilerOptions">The compiler options.</param> /// <exception cref="System.ArgumentNullException">@Architecture</exception> protected BaseCompiler(BaseArchitecture architecture, TypeSystem typeSystem, MosaTypeLayout typeLayout, ICompilationScheduler compilationScheduler, CompilerTrace compilerTrace, BaseLinker linker, CompilerOptions compilerOptions) { if (architecture == null) throw new ArgumentNullException(@"Architecture"); Pipeline = new CompilerPipeline(); Architecture = architecture; TypeSystem = typeSystem; TypeLayout = typeLayout; CompilerTrace = compilerTrace; CompilerOptions = compilerOptions; Counters = new Counters(); CompilationScheduler = compilationScheduler; PlugSystem = new PlugSystem(); Linker = linker; if (Linker == null) { Linker = compilerOptions.LinkerFactory(); Linker.Initialize(compilerOptions.BaseAddress, architecture.Endianness, architecture.ElfMachineType); } // Create new dictionary IntrinsicTypes = new Dictionary<string, Type>(); // Get all the classes that implement the IIntrinsicInternalMethod interface IEnumerable<Type> types = AppDomain.CurrentDomain.GetAssemblies() .SelectMany(s => s.GetTypes()) .Where(p => typeof(IIntrinsicInternalMethod).IsAssignableFrom(p) && p.IsClass); // Iterate through all the found types foreach (var t in types) { // Now get all the ReplacementTarget attributes var attributes = (ReplacementTargetAttribute[])t.GetCustomAttributes(typeof(ReplacementTargetAttribute), true); for (int i = 0; i < attributes.Length; i++) { // Finally add the dictionary entry mapping the target string and the type IntrinsicTypes.Add(attributes[i].Target, t); } } PlatformInternalRuntimeType = GetPlatformInternalRuntimeType(); }
/// <summary> /// Initializes a new compiler instance. /// </summary> /// <param name="architecture">The compiler target architecture.</param> /// <param name="typeSystem">The type system.</param> /// <param name="typeLayout">The type layout.</param> /// <param name="compilationScheduler">The compilation scheduler.</param> /// <param name="internalTrace">The internal trace.</param> /// <param name="compilerOptions">The compiler options.</param> protected BaseCompiler(BaseArchitecture architecture, TypeSystem typeSystem, MosaTypeLayout typeLayout, ICompilationScheduler compilationScheduler, IInternalTrace internalTrace, ILinker linker, CompilerOptions compilerOptions) { if (architecture == null) throw new ArgumentNullException(@"Architecture"); Pipeline = new CompilerPipeline(); Architecture = architecture; TypeSystem = typeSystem; TypeLayout = typeLayout; InternalTrace = internalTrace; CompilerOptions = compilerOptions; Counters = new Counters(); CompilationScheduler = compilationScheduler; PlugSystem = new PlugSystem(); Linker = linker; if (Linker == null) { Linker = compilerOptions.LinkerFactory(); Linker.Initialize(compilerOptions.OutputFile, architecture.Endianness, architecture.ElfMachineType); } }
public void Initialize(MosaCompiler compiler) { if (compiler == null) throw new ArgumentNullException(@"compiler"); Compiler = compiler; Architecture = Compiler.CompilerOptions.Architecture; TypeSystem = Compiler.TypeSystem; TypeLayout = Compiler.TypeLayout; CompilerTrace = Compiler.CompilerTrace; CompilerOptions = Compiler.CompilerOptions; CompilationScheduler = Compiler.CompilationScheduler; Linker = compiler.Linker; PreCompilePipeline = new CompilerPipeline(); PostCompilePipeline = new CompilerPipeline(); GlobalCounters = new Counters(); PlugSystem = new PlugSystem(); CompilerData = new CompilerData(); // Create new dictionary IntrinsicTypes = new Dictionary<string, Type>(); foreach (var type in Assembly.GetExecutingAssembly().GetTypes()) { if (type.IsClass && typeof(IIntrinsicInternalMethod).IsAssignableFrom(type)) { // Now get all the ReplacementTarget attributes var attributes = (ReplacementTargetAttribute[])type.GetCustomAttributes(typeof(ReplacementTargetAttribute), true); for (int i = 0; i < attributes.Length; i++) { // Finally add the dictionary entry mapping the target string and the type IntrinsicTypes.Add(attributes[i].Target, type); } } } PlatformInternalRuntimeType = GetPlatformInternalRuntimeType(); InternalRuntimeType = GeInternalRuntimeType(); // Extended Setup ExtendCompilerSetup(); // Build the default pre-compiler pipeline Architecture.ExtendPreCompilerPipeline(PreCompilePipeline); // Build the default post-compiler pipeline Architecture.ExtendPostCompilerPipeline(PostCompilePipeline); }
public void Initialize(MosaCompiler compiler) { if (compiler == null) throw new ArgumentNullException(@"compiler"); Compiler = compiler; Architecture = Compiler.CompilerOptions.Architecture; TypeSystem = Compiler.TypeSystem; TypeLayout = Compiler.TypeLayout; CompilerTrace = Compiler.CompilerTrace; CompilerOptions = Compiler.CompilerOptions; CompilationScheduler = Compiler.CompilationScheduler; Linker = compiler.Linker; PreCompilePipeline = new CompilerPipeline(); PostCompilePipeline = new CompilerPipeline(); Counters = new Counters(); PlugSystem = new PlugSystem(); CompilerData = new CompilerData(this); // Create new dictionary IntrinsicTypes = new Dictionary<string, Type>(); // Get all the classes that implement the IIntrinsicInternalMethod interface IEnumerable<Type> types = AppDomain.CurrentDomain.GetAssemblies() .SelectMany(s => s.GetTypes()) .Where(p => typeof(IIntrinsicInternalMethod).IsAssignableFrom(p) && p.IsClass); // Iterate through all the found types foreach (var t in types) { // Now get all the ReplacementTarget attributes var attributes = (ReplacementTargetAttribute[])t.GetCustomAttributes(typeof(ReplacementTargetAttribute), true); for (int i = 0; i < attributes.Length; i++) { // Finally add the dictionary entry mapping the target string and the type IntrinsicTypes.Add(attributes[i].Target, t); } } PlatformInternalRuntimeType = GetPlatformInternalRuntimeType(); // Extended Setup ExtendCompilerSetup(); // Build the default pre-compiler pipeline Architecture.ExtendPreCompilerPipeline(this.PreCompilePipeline); // Build the default post-compiler pipeline Architecture.ExtendPostCompilerPipeline(this.PostCompilePipeline); }
/// <summary> /// Initializes a new compiler instance. /// </summary> /// <param name="architecture">The compiler target architecture.</param> /// <param name="typeSystem">The type system.</param> /// <param name="typeLayout">The type layout.</param> /// <param name="compilationScheduler">The compilation scheduler.</param> /// <param name="internalTrace">The internal trace.</param> /// <param name="compilerOptions">The compiler options.</param> protected BaseCompiler(IArchitecture architecture, ITypeSystem typeSystem, ITypeLayout typeLayout, ICompilationScheduler compilationScheduler, IInternalTrace internalTrace, CompilerOptions compilerOptions) { if (architecture == null) throw new ArgumentNullException(@"architecture"); this.pipeline = new CompilerPipeline(); this.architecture = architecture; this.typeSystem = typeSystem; this.typeLayout = typeLayout; this.internalTrace = internalTrace; this.compilerOptions = compilerOptions; this.genericTypePatcher = new GenericTypePatcher(typeSystem); this.counters = new Counters(); this.compilationScheduler = compilationScheduler; this.linker = compilerOptions.Linker; this.plugSystem = new PlugSystem(); }
/// <summary> /// Updates the counter. /// </summary> /// <param name="name">The name.</param> /// <param name="count">The count.</param> protected void UpdateCounter(string name, int count) { Counters.UpdateCounter(name, count); }