public override void GetDefinitionsRecursive(NativeTypeDefinitionSet set, NativeTypeDefinition parentDef) { foreach (NativeField nf in fields) { DefinedNativeType def_type = nf.Type as DefinedNativeType; if (def_type != null) { if (!set.Contains(def_type.Definition)) { set.Add(def_type.Definition); def_type.Definition.GetDefinitionsRecursive(set, def_type.Definition); } if (parentDef != null) { set.AddDependency(parentDef, def_type.Definition); } } } }
private static void LayoutUnmanagedPrintoutTest() { string file_name = "_test.cpp"; Console.WriteLine("running ValueTypeUnmanagedPrintoutTest..."); // we'll generate a C++ source file with all the unmanaged structures // - it should compile // - the C++ sizeof operator should return the intended size // - the C++ offsetof macro should return the same offsets as Marshal.OffsetOf Console.WriteLine(" generating definitions..."); using (var printer = new TextWriterCodePrinter(new StreamWriter(file_name))) { // prepare a memory printer to print main to var main_printer = new CodeMemoryPrinter(); main_printer.PrintLn(OutputType.Other, "#define VERIFY(cond) if (!(cond)) printf(\"* \\\"%s\\\" violated\\n\", #cond)"); main_printer.PrintLn(OutputType.Other, "int main()"); main_printer.Print(OutputType.Other, "{"); main_printer.Indent(); main_printer.PrintLn(); var log_printer = new LogMemoryPrinter(); printer.PrintLn(OutputType.Other, "#include <stddef.h>"); printer.PrintLn(OutputType.Other, "#include <stdio.h>"); printer.PrintLn(OutputType.Other, "#include <windows.h>"); printer.PrintLn(OutputType.Other, "#include <oaidl.h>"); printer.PrintLn(); int counter = 0; foreach (string assemblyString in testAssemblies) { Assembly assembly = Assembly.Load(assemblyString); foreach (Type type in assembly.GetTypes()) { if (!type.IsAutoClass) { int size_reported_by_clr; try { // will fail when CLR thinks the type has no layout size_reported_by_clr = Marshal.SizeOf(type); } catch (Exception) { continue; } MarshalFlags flags = MarshalFlags.AnsiStrings | MarshalFlags.StructField; if (runningOn64Bit) flags |= MarshalFlags.Platform64Bit; NativeType native_type = NativeType.FromClrType(type, flags); DefinedNativeType def_native_type = native_type as DefinedNativeType; if (def_native_type != null) { // dump the "closure" of this definition to a namespace string ns_name = String.Format("_CLR_{0}", counter++); printer.PrintLn(OutputType.Other, "namespace " + ns_name); printer.Print(OutputType.Other, "{"); printer.Indent(); printer.PrintLn(); var set = new NativeTypeDefinitionSet(); set.Add(def_native_type.Definition); def_native_type.Definition.GetDefinitionsRecursive(set, def_native_type.Definition); // enumerate the closure (will respect dependencies and return definitions // in a correct order introducing forward declarations if necessary) foreach (NativeTypeDefinition def in set) { def.PrintTo(printer, log_printer, //PrintFlags.UsePlainC | PrintFlags.UseDefinedComInterfaces | PrintFlags.MangleEnumFields); printer.PrintLn(); printer.PrintLn(); } printer.Unindent(); printer.PrintLn(); printer.PrintLn(OutputType.Other, "};"); // add tests to main() main_printer.PrintLn(OutputType.Other, String.Format( "VERIFY(sizeof({0}::{1}) == {2});", ns_name, def_native_type.Definition.Name, size_reported_by_clr)); StructureDefinition struct_def = def_native_type.Definition as StructureDefinition; if (struct_def != null) { for (int i = 0; i < struct_def.FieldCount; i++) { NativeField nf = struct_def.GetField(i); int offset; try { offset = (int)Marshal.OffsetOf(type, nf.Name); } catch (Exception) { continue; } // if we think we know the offset of this field, we will verify it main_printer.PrintLn(OutputType.Other, String.Format( "VERIFY(offsetof({0}::{1}, {2}) == {3});", ns_name, def_native_type.Definition.Name, nf.Name, offset)); } } } } } } main_printer.Print(OutputType.Other, "return 0;"); main_printer.Unindent(); main_printer.PrintLn(); main_printer.PrintLn(OutputType.Other, "}"); main_printer.ReplayTo(printer); } Console.WriteLine(" compiling the generated file..."); //TODO need to change path var start_info = new ProcessStartInfo( @"c:\Program Files (x86)\Microsoft Visual Studio 8\VC\bin\cl.exe", "/DUNICODE " + file_name); start_info.WorkingDirectory = Directory.GetCurrentDirectory(); start_info.UseShellExecute = false; start_info.CreateNoWindow = true; start_info.RedirectStandardOutput = true; Process cl_proc = Process.Start(start_info); cl_proc.WaitForExit(); Console.WriteLine(cl_proc.StandardOutput.ReadToEnd()); Console.WriteLine(" running the generated executable..."); start_info.FileName = Path.ChangeExtension(file_name, ".exe"); start_info.Arguments = String.Empty; Process tst_proc = Process.Start(start_info); tst_proc.WaitForExit(); Console.WriteLine(tst_proc.StandardOutput.ReadToEnd()); }
private static void LayoutUnmanagedPrintoutTest() { string file_name = "_test.cpp"; Console.WriteLine("running ValueTypeUnmanagedPrintoutTest..."); // we'll generate a C++ source file with all the unmanaged structures // - it should compile // - the C++ sizeof operator should return the intended size // - the C++ offsetof macro should return the same offsets as Marshal.OffsetOf Console.WriteLine(" generating definitions..."); using (TextWriterCodePrinter printer = new TextWriterCodePrinter(new StreamWriter(file_name))) { // prepare a memory printer to print main to CodeMemoryPrinter main_printer = new CodeMemoryPrinter(); main_printer.PrintLn(OutputType.Other, "#define VERIFY(cond) if (!(cond)) printf(\"* \\\"%s\\\" violated\\n\", #cond)"); main_printer.PrintLn(OutputType.Other, "int main()"); main_printer.Print(OutputType.Other, "{"); main_printer.Indent(); main_printer.PrintLn(); LogMemoryPrinter log_printer = new LogMemoryPrinter(); printer.PrintLn(OutputType.Other, "#include <stddef.h>"); printer.PrintLn(OutputType.Other, "#include <stdio.h>"); printer.PrintLn(OutputType.Other, "#include <windows.h>"); printer.PrintLn(OutputType.Other, "#include <oaidl.h>"); printer.PrintLn(); int counter = 0; foreach (string assemblyString in testAssemblies) { Assembly assembly = Assembly.Load(assemblyString); foreach (Type type in assembly.GetTypes()) { if (!type.IsAutoClass) { int size_reported_by_clr; try { // will fail when CLR thinks the type has no layout size_reported_by_clr = Marshal.SizeOf(type); } catch (Exception) { continue; } MarshalFlags flags = MarshalFlags.AnsiStrings | MarshalFlags.StructField; if (runningOn64Bit) { flags |= MarshalFlags.Platform64Bit; } NativeType native_type = NativeType.FromClrType(type, flags); DefinedNativeType def_native_type = native_type as DefinedNativeType; if (def_native_type != null) { // dump the "closure" of this definition to a namespace string ns_name = String.Format("_CLR_{0}", counter++); printer.PrintLn(OutputType.Other, "namespace " + ns_name); printer.Print(OutputType.Other, "{"); printer.Indent(); printer.PrintLn(); NativeTypeDefinitionSet set = new NativeTypeDefinitionSet(); set.Add(def_native_type.Definition); def_native_type.Definition.GetDefinitionsRecursive(set, def_native_type.Definition); // enumerate the closure (will respect dependencies and return definitions // in a correct order introducing forward declarations if necessary) foreach (NativeTypeDefinition def in set) { def.PrintTo(printer, log_printer, //PrintFlags.UsePlainC | PrintFlags.UseDefinedComInterfaces | PrintFlags.MangleEnumFields); printer.PrintLn(); printer.PrintLn(); } printer.Unindent(); printer.PrintLn(); printer.PrintLn(OutputType.Other, "};"); // add tests to main() main_printer.PrintLn(OutputType.Other, String.Format( "VERIFY(sizeof({0}::{1}) == {2});", ns_name, def_native_type.Definition.Name, size_reported_by_clr)); StructureDefinition struct_def = def_native_type.Definition as StructureDefinition; if (struct_def != null) { for (int i = 0; i < struct_def.FieldCount; i++) { NativeField nf = struct_def.GetField(i); int offset; try { offset = (int)Marshal.OffsetOf(type, nf.Name); } catch (Exception) { continue; } // if we think we know the offset of this field, we will verify it main_printer.PrintLn(OutputType.Other, String.Format( "VERIFY(offsetof({0}::{1}, {2}) == {3});", ns_name, def_native_type.Definition.Name, nf.Name, offset)); } } } } } } main_printer.Print(OutputType.Other, "return 0;"); main_printer.Unindent(); main_printer.PrintLn(); main_printer.PrintLn(OutputType.Other, "}"); main_printer.ReplayTo(printer); } Console.WriteLine(" compiling the generated file..."); ProcessStartInfo start_info = new ProcessStartInfo( @"c:\Program Files (x86)\Microsoft Visual Studio 8\VC\bin\cl.exe", "/DUNICODE " + file_name); start_info.WorkingDirectory = Directory.GetCurrentDirectory(); start_info.UseShellExecute = false; start_info.CreateNoWindow = true; start_info.RedirectStandardOutput = true; Process cl_proc = Process.Start(start_info); cl_proc.WaitForExit(); Console.WriteLine(cl_proc.StandardOutput.ReadToEnd()); Console.WriteLine(" running the generated executable..."); start_info.FileName = Path.ChangeExtension(file_name, ".exe"); start_info.Arguments = String.Empty; Process tst_proc = Process.Start(start_info); tst_proc.WaitForExit(); Console.WriteLine(tst_proc.StandardOutput.ReadToEnd()); }