internal static ProtoCore.Core DebugRunnerRunOnly(string code) { ProtoCore.Core core; DebugRunner fsr; ProtoScript.Config.RunConfiguration runnerConfig; string testPath = @"..\..\..\Scripts\Debugger\"; // Specify some of the requirements of IDE. var options = new ProtoCore.Options(); options.ExecutionMode = ProtoCore.ExecutionMode.Serial; options.SuppressBuildOutput = false; core = new ProtoCore.Core(options); core.Executives.Add(ProtoCore.Language.kAssociative, new ProtoAssociative.Executive(core)); core.Executives.Add(ProtoCore.Language.kImperative, new ProtoImperative.Executive(core)); runnerConfig = new ProtoScript.Config.RunConfiguration(); runnerConfig.IsParrallel = false; fsr = new DebugRunner(core); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); CLRModuleType.ClearTypes(); //Run fsr.PreStart(code, runnerConfig); DebugRunner.VMState vms = null; vms = fsr.Run(); return(core); }
public override void Setup() { // Specify some of the requirements of IDE. fsr = new DebugRunner(core); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); CLRModuleType.ClearTypes(); }
private void SetupCommonRunner(bool inDebugMode) { var options = new ProtoCore.Options(); options.Verbose = GetDisplayOutput(); options.ExecutionMode = ProtoCore.ExecutionMode.Serial; options.SuppressBuildOutput = false; options.IDEDebugMode = inDebugMode; AppendSearchPaths(options); this.core = new ProtoCore.Core(options); this.core.CurrentDSFileName = options.RootModulePathName; this.core.Executives.Add(ProtoCore.Language.kAssociative, new ProtoAssociative.Executive(this.core)); this.core.Executives.Add(ProtoCore.Language.kImperative, new ProtoImperative.Executive(this.core)); // Get configuration from host app var configurations = Solution.Current.ExecutionSession.HostApplication.Configurations; if (configurations != null) { foreach (var item in configurations) { this.core.Configurations[item.Key] = item.Value; } } IOutputStream messageList = Solution.Current.GetMessage(false); this.core.RuntimeStatus.MessageHandler = messageList; workerParams.RegularRunMirror = null; DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); asynchronousExecution = Solution.Current.Asynchronous; }
internal static ProtoCore.Core TestRunnerRunOnly(string code) { ProtoCore.Core core; ProtoScript.Runners.ProtoScriptTestRunner fsr = new ProtoScriptTestRunner(); ProtoScript.Config.RunConfiguration runnerConfig; // Specify some of the requirements of IDE. var options = new ProtoCore.Options(); options.ExecutionMode = ProtoCore.ExecutionMode.Serial; options.SuppressBuildOutput = false; string testPath = @"..\..\..\test\Engine\ProtoTest\ImportFiles\"; options.IncludeDirectories.Add(testPath); core = new ProtoCore.Core(options); core.Executives.Add(ProtoCore.Language.kAssociative, new ProtoAssociative.Executive(core)); core.Executives.Add(ProtoCore.Language.kImperative, new ProtoImperative.Executive(core)); runnerConfig = new ProtoScript.Config.RunConfiguration(); runnerConfig.IsParrallel = false; fsr = new ProtoScriptTestRunner(); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); CLRModuleType.ClearTypes(); //Run fsr.Execute(code, core); return(core); }
internal static ProtoCore.Core DebugRunnerRunOnly(string code, out RuntimeCore runtimeCore) { ProtoCore.Core core; DebugRunner fsr; // Specify some of the requirements of IDE. var options = new ProtoCore.Options(); options.ExecutionMode = ProtoCore.ExecutionMode.Serial; options.GCTempVarsOnDebug = false; string testPath = @"..\..\..\test\Engine\ProtoTest\ImportFiles\"; options.IncludeDirectories.Add(testPath); core = new ProtoCore.Core(options); core.Compilers.Add(ProtoCore.Language.Associative, new ProtoAssociative.Compiler(core)); core.Compilers.Add(ProtoCore.Language.Imperative, new ProtoImperative.Compiler(core)); fsr = new DebugRunner(core); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); CLRModuleType.ClearTypes(); //Run fsr.PreStart(code); DebugRunner.VMState vms = null; vms = fsr.Run(); runtimeCore = fsr.runtimeCore; return(core); }
internal static ProtoCore.Core TestRunnerRunOnly(string code, out RuntimeCore runtimeCore) { ProtoCore.Core core; ProtoScript.Runners.ProtoScriptRunner fsr = new ProtoScriptRunner(); // Specify some of the requirements of IDE. var options = new ProtoCore.Options(); options.ExecutionMode = ProtoCore.ExecutionMode.Serial; string testPath = @"..\..\..\test\Engine\ProtoTest\ImportFiles\"; options.IncludeDirectories.Add(testPath); core = new ProtoCore.Core(options); core.Compilers.Add(ProtoCore.Language.Associative, new ProtoAssociative.Compiler(core)); core.Compilers.Add(ProtoCore.Language.Imperative, new ProtoImperative.Compiler(core)); fsr = new ProtoScriptRunner(); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); CLRModuleType.ClearTypes(); //Run runtimeCore = fsr.Execute(code, core); return(core); }
public override void Setup() { base.Setup(); runner = new DebugRunner(core); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); CLRModuleType.ClearTypes(); }
public void Setup() { core = new ProtoCore.Core(new ProtoCore.Options()); core.Executives.Add(ProtoCore.Language.kAssociative, new ProtoAssociative.Executive(core)); core.Executives.Add(ProtoCore.Language.kImperative, new ProtoImperative.Executive(core)); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); DLLFFIHandler.Register(FFILanguage.CPlusPlus, new PInvokeModuleHelper()); }
internal static ProtoCore.Core TestRunnerRunOnly(string includePath, string code, Dictionary <int, List <string> > map, string geometryFactory, string persistentManager, out ExecutionMirror mirror) { ProtoCore.Core core; ProtoScript.Runners.ProtoScriptTestRunner fsr = new ProtoScriptTestRunner(); ProtoScript.Config.RunConfiguration runnerConfig; // Specify some of the requirements of IDE. var options = new ProtoCore.Options(); options.ExecutionMode = ProtoCore.ExecutionMode.Serial; options.SuppressBuildOutput = false; options.WatchTestMode = true; // Cyclic dependency threshold is lowered from the default (2000) // as this causes the test framework to be painfully slow options.kDynamicCycleThreshold = 5; // Pass the absolute path so that imported filepaths can be resolved // in "FileUtils.GetDSFullPathName()" includePath = Path.GetDirectoryName(includePath); options.IncludeDirectories.Add(includePath); //StreamWriter sw = File.CreateText(executionLogFilePath); TextOutputStream fs = new TextOutputStream(map); core = new ProtoCore.Core(options); core.Configurations.Add(ConfigurationKeys.GeometryXmlProperties, true); //core.Configurations.Add(ConfigurationKeys.GeometryFactory, geometryFactory); //core.Configurations.Add(ConfigurationKeys.PersistentManager, persistentManager); // By specifying this option we inject a mock Executive ('InjectionExecutive') // that prints stackvalues at every assignment statement // by overriding the POP_handler instruction - pratapa //core.ExecutiveProvider = new InjectionExecutiveProvider(); core.BuildStatus.MessageHandler = fs; core.Compilers.Add(ProtoCore.Language.kAssociative, new ProtoAssociative.Compiler(core)); core.Compilers.Add(ProtoCore.Language.kImperative, new ProtoImperative.Compiler(core)); runnerConfig = new ProtoScript.Config.RunConfiguration(); runnerConfig.IsParrallel = false; DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); //Run mirror = fsr.Execute(code, core); //sw.Close(); return(core); }
public override void Setup() { // Specify some of the requirements of IDE. runnerConfig = new ProtoScript.Config.RunConfiguration(); runnerConfig.IsParrallel = false; fsr = new DebugRunner(core); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); CLRModuleType.ClearTypes(); }
public override void Setup() { base.Setup(); runconfig = new ProtoScript.Config.RunConfiguration(); runconfig.IsParrallel = false; runner = new DebugRunner(core); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); CLRModuleType.ClearTypes(); }
/// <summary> /// Creates a default core /// </summary> /// <returns>ProtoCore.Core</returns> private static Core CreateCore() { DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); CLRModuleType.ClearTypes(); var core = new Core(new Options()); core.Compilers.Add(Language.Associative, new ProtoAssociative.Compiler(core)); core.ParsingMode = ParseMode.AllowNonAssignment; return(core); }
internal void TestRunnerRunOnly(string includePath, string code, Dictionary <int, List <string> > map /*, string executionLogFilePath*/) { ProtoScript.Runners.ProtoScriptTestRunner fsr = new ProtoScriptTestRunner(); ProtoScript.Config.RunConfiguration runnerConfig; // Specify some of the requirements of IDE. core.Options.ExecutionMode = ProtoCore.ExecutionMode.Serial; core.Options.SuppressBuildOutput = false; core.Options.WatchTestMode = true; core.Options.GCTempVarsOnDebug = false; // Cyclic dependency threshold is lowered from the default (2000) // as this causes the test framework to be painfully slow core.Options.kDynamicCycleThreshold = 5; // Pass the absolute path so that imported filepaths can be resolved // in "FileUtils.GetDSFullPathName()" if (!String.IsNullOrEmpty(includePath)) { includePath = Path.GetDirectoryName(includePath); core.Options.IncludeDirectories.Add(includePath); } //StreamWriter sw = File.CreateText(executionLogFilePath); TextOutputStream fs = new TextOutputStream(map); // By specifying this option we inject a mock Executive ('InjectionExecutive') // that prints stackvalues at every assignment statement // by overriding the POP_handler instruction - pratapa core.ExecutiveProvider = new InjectionExecutiveProvider(); core.BuildStatus.MessageHandler = fs; core.RuntimeStatus.MessageHandler = fs; core.Executives.Add(ProtoCore.Language.kAssociative, new ProtoAssociative.Executive(core)); core.Executives.Add(ProtoCore.Language.kImperative, new ProtoImperative.Executive(core)); runnerConfig = new ProtoScript.Config.RunConfiguration(); runnerConfig.IsParrallel = false; DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); //Run Mirror = fsr.Execute(code, core); //sw.Close(); core.Cleanup(); }
public void Setup() { var options = new ProtoCore.Options(); options.ExecutionMode = ProtoCore.ExecutionMode.Serial; options.SuppressBuildOutput = false; core_ = new ProtoCore.Core(options); core_.Executives.Add(ProtoCore.Language.kAssociative, new ProtoAssociative.Executive(core_)); core_.Executives.Add(ProtoCore.Language.kImperative, new ProtoImperative.Executive(core_)); runconfig_ = new ProtoScript.Config.RunConfiguration(); runconfig_.IsParrallel = false; runner_ = new DebugRunner(core_); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); CLRModuleType.ClearTypes(); }
public void Setup() { // Specify some of the requirements of IDE. var options = new ProtoCore.Options(); options.ExecutionMode = ProtoCore.ExecutionMode.Serial; options.SuppressBuildOutput = false; core = new ProtoCore.Core(options); core.Executives.Add(ProtoCore.Language.kAssociative, new ProtoAssociative.Executive(core)); core.Executives.Add(ProtoCore.Language.kImperative, new ProtoImperative.Executive(core)); runnerConfig = new ProtoScript.Config.RunConfiguration(); runnerConfig.IsParrallel = false; fsr = new DebugRunner(core); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); CLRModuleType.ClearTypes(); }
internal static ProtoCore.Core DebugRunnerStepOver(string code, out RuntimeCore runtimeCore) { //Internal setup ProtoCore.Core core; DebugRunner fsr; ProtoScript.Config.RunConfiguration runnerConfig; // Specify some of the requirements of IDE. var options = new ProtoCore.Options(); options.ExecutionMode = ProtoCore.ExecutionMode.Serial; options.SuppressBuildOutput = false; options.GCTempVarsOnDebug = false; string testPath = @"..\..\..\test\Engine\ProtoTest\ImportFiles\"; options.IncludeDirectories.Add(testPath); core = new ProtoCore.Core(options); core.Compilers.Add(ProtoCore.Language.kAssociative, new ProtoAssociative.Compiler(core)); core.Compilers.Add(ProtoCore.Language.kImperative, new ProtoImperative.Compiler(core)); runnerConfig = new ProtoScript.Config.RunConfiguration(); runnerConfig.IsParrallel = false; fsr = new DebugRunner(core); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); CLRModuleType.ClearTypes(); //Run fsr.PreStart(code, runnerConfig); DebugRunner.VMState vms = null; while (!fsr.isEnded) { vms = fsr.StepOver(); } runtimeCore = fsr.runtimeCore; return(core); }
private ProtoCore.Core SetupTestCore() { testCore = new ProtoCore.Core(new ProtoCore.Options()); testCore.Configurations.Add(ConfigurationKeys.GeometryFactory, "DSGeometry.dll"); testCore.Configurations.Add(ConfigurationKeys.PersistentManager, "DSGeometry.dll"); testCore.Executives.Add(ProtoCore.Language.kAssociative, new ProtoAssociative.Executive(testCore)); testCore.Executives.Add(ProtoCore.Language.kImperative, new ProtoImperative.Executive(testCore)); // this setting is to fix the random failure of replication test case testCore.Options.ExecutionMode = ProtoCore.ExecutionMode.Serial; testCore.Options.Verbose = true; // testCore.Options.kDynamicCycleThreshold = 5; //FFI registration and cleanup DLLFFIHandler.Register(FFILanguage.CPlusPlus, new ProtoFFI.PInvokeModuleHelper()); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); CLRModuleType.ClearTypes(); mErrorMessage = string.Empty; if (cfgImport) { testImport = cfgImport; } else { testImport = false; } Console.WriteLine("CONFIG:\t" + cfgImport); Console.WriteLine("CONFIG:\t" + cfgDebug); if (cfgDebug) { testImport = cfgDebug; } else { testDebug = false; } return(testCore); }
internal static void DebugRunnerStepIn(string includePath, string code, /*string logFile*/ Dictionary <int, List <string> > map, bool watchNestedMode = false) { //Internal setup ProtoCore.Core core; DebugRunner fsr; ProtoScript.Config.RunConfiguration runnerConfig; // Specify some of the requirements of IDE. var options = new ProtoCore.Options(); options.ExecutionMode = ProtoCore.ExecutionMode.Serial; options.SuppressBuildOutput = false; options.GCTempVarsOnDebug = false; // Cyclic dependency threshold is lowered from the default (2000) // as this causes the test framework to be painfully slow options.kDynamicCycleThreshold = 5; // Pass the absolute path so that imported filepaths can be resolved // in "FileUtils.GetDSFullPathName()" if (!String.IsNullOrEmpty(includePath)) { includePath = Path.GetDirectoryName(includePath); options.IncludeDirectories.Add(includePath); } core = new ProtoCore.Core(options); // Use the InjectionExecutive to overload POP and POPM // as we still need the symbol names and line nos. in debug mode for comparisons core.ExecutiveProvider = new InjectionExecutiveProvider(); core.Executives.Add(ProtoCore.Language.kAssociative, new ProtoAssociative.Executive(core)); core.Executives.Add(ProtoCore.Language.kImperative, new ProtoImperative.Executive(core)); runnerConfig = new ProtoScript.Config.RunConfiguration(); runnerConfig.IsParrallel = false; fsr = new DebugRunner(core); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); //Run fsr.PreStart(code, runnerConfig); //StreamReader log = new StreamReader(logFile); //bool isPrevBreakAtPop = false; int lineAtPrevBreak = -1; string symbolName = null; DebugRunner.VMState vms = null; while (!fsr.isEnded) { vms = fsr.LastState; OpCode opCode = OpCode.NONE; DebugInfo debug = null; if (vms != null) { // check if previous break is a POP // if so, get the line no. and LHS opCode = fsr.CurrentInstruction.opCode; debug = fsr.CurrentInstruction.debug; if (opCode == ProtoCore.DSASM.OpCode.POP) { //isPrevBreakAtPop = true; lineAtPrevBreak = vms.ExecutionCursor.StartInclusive.LineNo; } } DebugRunner.VMState currentVms = fsr.Step(); //if (isPrevBreakAtPop) if (debug != null) { // Do not do the verification for imported DS files, for which the FilePath is non null if (debug.Location.StartInclusive.SourceLocation.FilePath == null) { if (opCode == ProtoCore.DSASM.OpCode.POP) { VerifyWatch_Run(lineAtPrevBreak, core.DebugProps.CurrentSymbolName, core, map, watchNestedMode); } // if previous breakpoint was at a CALLR else if (opCode == ProtoCore.DSASM.OpCode.CALLR) { if (core.DebugProps.IsPopmCall) { int ci = (int)currentVms.mirror.MirrorTarget.rmem.GetAtRelative(ProtoCore.DSASM.StackFrame.kFrameIndexClass).opdata; VerifyWatch_Run(InjectionExecutive.callrLineNo, core.DebugProps.CurrentSymbolName, core, map, watchNestedMode, ci); } } } } //isPrevBreakAtPop = false; } core.Cleanup(); }
/// <summary> /// Import a library (if it hasn't been imported yet). /// </summary> /// <param name="library"></param> public bool ImportLibrary(string library) { if (null == library) { throw new ArgumentNullException(); } if (!library.EndsWith(".dll", StringComparison.InvariantCultureIgnoreCase) && !library.EndsWith(".ds", StringComparison.InvariantCultureIgnoreCase)) { string errorMessage = Properties.Resources.InvalidLibraryFormat; OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, errorMessage)); return(false); } if (importedFunctionGroups.ContainsKey(library)) { string errorMessage = string.Format(Properties.Resources.LibraryHasBeenLoaded, library); OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, errorMessage)); return(false); } if (!pathManager.ResolveLibraryPath(ref library)) { string errorMessage = string.Format(Properties.Resources.LibraryPathCannotBeFound, library); OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, errorMessage)); return(false); } OnLibraryLoading(new LibraryLoadingEventArgs(library)); try { DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); var functionTable = LibraryManagementCore.CodeBlockList[0].procedureTable; var classTable = LibraryManagementCore.ClassTable; int functionNumber = functionTable.procList.Count; int classNumber = classTable.ClassNodes.Count; CompilerUtils.TryLoadAssemblyIntoCore(LibraryManagementCore, library); if (LibraryManagementCore.BuildStatus.ErrorCount > 0) { string errorMessage = string.Format(Properties.Resources.LibraryBuildError, library); Log(errorMessage, WarningLevel.Moderate); foreach (ErrorEntry error in LibraryManagementCore.BuildStatus.Errors) { Log(error.Message, WarningLevel.Moderate); errorMessage += error.Message + "\n"; } OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, errorMessage)); return(false); } LoadLibraryMigrations(library); var loadedClasses = classTable.ClassNodes.Skip(classNumber); foreach (var classNode in loadedClasses) { ImportClass(library, classNode); } var loadedFunctions = functionTable.procList.Skip(functionNumber); foreach (var globalFunction in loadedFunctions) { ImportProcedure(library, globalFunction); } } catch (Exception e) { OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, e.Message)); return(false); } OnLibraryLoaded(new LibraryLoadedEventArgs(library)); // After a library is loaded, update the library core data with the liveRunner core data UpdateLibraryCoreData(); return(true); }
/// <summary> /// Import a library (if it hasn't been imported yet). /// </summary> /// <param name="library">The library to be loaded</param> /// <param name="isExplicitlyImportedLib">Indicates if the library has been imported using the "File | ImportLibrary" command</param> internal bool ImportLibrary(string library, bool isExplicitlyImportedLib = false) { if (null == library) { throw new ArgumentNullException(); } if (!library.EndsWith(".dll", StringComparison.InvariantCultureIgnoreCase) && !library.EndsWith(".ds", StringComparison.InvariantCultureIgnoreCase)) { string errorMessage = Properties.Resources.InvalidLibraryFormat; OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, errorMessage)); return(false); } if (importedFunctionGroups.ContainsKey(library)) { string errorMessage = string.Format(Properties.Resources.LibraryHasBeenLoaded, library); OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, errorMessage)); return(false); } // Copy the library path so that the path can be reported in the case of a failure // to resolve the library path. If there is a failure "library" is set to null. string path = library; if (!pathManager.ResolveLibraryPath(ref library)) { string errorMessage = string.Format(Properties.Resources.LibraryPathCannotBeFound, path); // In the case that a library was explicitly imported using the "File|Import Library" command // set the load failed args to not throw an exception if the load fails. This can happen after using // File|Import Library and then moving or deleting the library. OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(path, errorMessage, throwOnFailure: !isExplicitlyImportedLib)); return(false); } OnLibraryLoading(new LibraryLoadingEventArgs(library)); try { DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); var functionTable = LibraryManagementCore.CodeBlockList[0].procedureTable; var classTable = LibraryManagementCore.ClassTable; int functionNumber = functionTable.Procedures.Count; int classNumber = classTable.ClassNodes.Count; CompilerUtils.TryLoadAssemblyIntoCore(LibraryManagementCore, library); if (LibraryManagementCore.BuildStatus.ErrorCount > 0) { string errorMessage = string.Format(Properties.Resources.LibraryBuildError, library); Log(errorMessage, WarningLevel.Moderate); foreach (ErrorEntry error in LibraryManagementCore.BuildStatus.Errors) { Log(error.Message, WarningLevel.Moderate); errorMessage += error.Message + "\n"; } throw new Exception(errorMessage); } LoadLibraryMigrations(library); var loadedClasses = classTable.ClassNodes.Skip(classNumber); foreach (var classNode in loadedClasses) { ImportClass(library, classNode); } var loadedFunctions = functionTable.Procedures.Skip(functionNumber); foreach (var globalFunction in loadedFunctions) { ImportProcedure(library, globalFunction); } } catch (Exception e) { OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, e.Message, throwOnFailure: !isExplicitlyImportedLib)); return(false); } OnLibraryLoaded(new LibraryLoadedEventArgs(library)); // After a library is loaded, update the library core data with the liveRunner core data UpdateLibraryCoreData(); return(true); }
public static void Main(string[] args) { System.Diagnostics.Stopwatch sw = new System.Diagnostics.Stopwatch(); sw.Start(); var opts = new Options(); if (args.Length == 0) { opts.WebRunner = false; } else { opts.WebRunner = true; } opts.ExecutionMode = ExecutionMode.Serial; ProtoCore.Core core = new Core(opts); core.Executives.Add(ProtoCore.Language.kAssociative, new ProtoAssociative.Executive(core)); core.Executives.Add(ProtoCore.Language.kImperative, new ProtoImperative.Executive(core)); if (!opts.WebRunner) { ProtoScriptTestRunner runner = new ProtoScriptTestRunner(); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); ExecutionMirror mirror = runner.LoadAndExecute(@"..\..\..\Scripts\defectverify.ds", core); string str = mirror.GetCoreDump(); //Console.WriteLine(str); } else //if (arg) { // @TODO(Gemeng): Do set "core.ExecutionLog" to some file :) ProtoScriptWebRunner runner = new ProtoScriptWebRunner(); DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); ExecutionMirror mirror = runner.LoadAndExecute(args[0], core); if (null != mirror) { string str = mirror.GetCoreDump(); // core.coreDumpWriter.WriteLine(str); } // @TODO(Gemeng): 'coreDumpWriter' has been removed, instead of // doing that we should create an output file stream here with a // file name, and then write the "str" content into it. // // core.coreDumpWriter.Close(); } //runner.LoadAndExecute(@"..\..\..\Scripts\array.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\arrayargs.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\class.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\class2.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\class3.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\class4.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\class5.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\class6.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\class7.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\class8.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\class9.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\class10.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\demo.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\expr.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\fusionarray.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\replication.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\simple.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\simple2.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\functionoverload.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\classfunctionoverload.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\inheritance.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\inheritance2.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\update.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\null.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\forloop.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\blockassign_imperative.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\blockassign_associative.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\test.ds", core); //runner.LoadAndExecute(@"..\..\..\Scripts\importtest.ds", core); //ExecutionMirror mirror = null; //string str = mirror.GetCoreDump(); long ms = sw.ElapsedMilliseconds; sw.Stop(); if (!opts.WebRunner) { Console.WriteLine(ms); Console.ReadLine(); } }
/// <summary> /// Import a library (if it hasn't been imported yet). /// </summary> /// <param name="library"></param> public void ImportLibrary(string library, ILogger logger) { if (null == library) { throw new ArgumentNullException(); } if (!library.EndsWith(".dll", StringComparison.InvariantCultureIgnoreCase) && !library.EndsWith(".ds", StringComparison.InvariantCultureIgnoreCase)) { const string errorMessage = "Invalid library format."; OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, errorMessage)); return; } if (importedFunctionGroups.ContainsKey(library)) { string errorMessage = string.Format("Library {0} has been loaded.", library); OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, errorMessage)); return; } if (!DynamoPathManager.Instance.ResolveLibraryPath(ref library)) { string errorMessage = string.Format("Cannot find library path: {0}.", library); OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, errorMessage)); return; } OnLibraryLoading(new LibraryLoadingEventArgs(library)); try { int globalFunctionNumber = GraphUtilities.GetGlobalMethods(string.Empty).Count; DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); IList <ClassNode> importedClasses = GraphUtilities.GetClassesForAssembly(library); if (GraphUtilities.BuildStatus.ErrorCount > 0) { string errorMessage = string.Format("Build error for library: {0}", library); logger.LogWarning(errorMessage, WarningLevel.Moderate); foreach (ErrorEntry error in GraphUtilities.BuildStatus.Errors) { logger.LogWarning(error.Message, WarningLevel.Moderate); errorMessage += error.Message + "\n"; } OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, errorMessage)); return; } foreach (ClassNode classNode in importedClasses) { ImportClass(library, classNode); } // GraphUtilities.GetGlobalMethods() ignores input and just // return all global functions. The workaround is to get // new global functions after importing this assembly. List <ProcedureNode> globalFunctions = GraphUtilities.GetGlobalMethods(string.Empty); for (int i = globalFunctionNumber; i < globalFunctions.Count; ++i) { ImportProcedure(library, globalFunctions[i]); } } catch (Exception e) { OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, e.Message)); return; } OnLibraryLoaded(new LibraryLoadedEventArgs(library)); }
/// <summary> /// Import a library (if it hasn't been imported yet). /// </summary> /// <param name="library"></param> public void ImportLibrary(string library, ILogger logger) { if (null == library) { throw new ArgumentNullException(); } if (!library.EndsWith(".dll", StringComparison.InvariantCultureIgnoreCase) && !library.EndsWith(".ds", StringComparison.InvariantCultureIgnoreCase)) { const string errorMessage = "Invalid library format."; OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, errorMessage)); return; } if (importedFunctionGroups.ContainsKey(library)) { string errorMessage = string.Format("Library {0} has been loaded.", library); OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, errorMessage)); return; } if (!DynamoPathManager.Instance.ResolveLibraryPath(ref library)) { string errorMessage = string.Format("Cannot find library path: {0}.", library); OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, errorMessage)); return; } OnLibraryLoading(new LibraryLoadingEventArgs(library)); try { DLLFFIHandler.Register(FFILanguage.CSharp, new CSModuleHelper()); var functionTable = libraryManagementCore.CodeBlockList[0].procedureTable; var classTable = libraryManagementCore.ClassTable; int functionNumber = functionTable.procList.Count; int classNumber = classTable.ClassNodes.Count; CompilerUtils.TryLoadAssemblyIntoCore(libraryManagementCore, library); if (libraryManagementCore.BuildStatus.ErrorCount > 0) { string errorMessage = string.Format("Build error for library: {0}", library); logger.LogWarning(errorMessage, WarningLevel.Moderate); foreach (ErrorEntry error in libraryManagementCore.BuildStatus.Errors) { logger.LogWarning(error.Message, WarningLevel.Moderate); errorMessage += error.Message + "\n"; } OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, errorMessage)); return; } var loadedClasses = classTable.ClassNodes.Skip(classNumber); foreach (var classNode in loadedClasses) { ImportClass(library, classNode); } var loadedFunctions = functionTable.procList.Skip(functionNumber); foreach (var globalFunction in loadedFunctions) { ImportProcedure(library, globalFunction); } } catch (Exception e) { OnLibraryLoadFailed(new LibraryLoadFailedEventArgs(library, e.Message)); return; } OnLibraryLoaded(new LibraryLoadedEventArgs(library)); }