コード例 #1
0
ファイル: FProperties.cs プロジェクト: alexfordc/Au
    async void _ConvertTypeLibrary(object tlDef, object button)
    {
        string comDll = null;

        switch (tlDef)
        {
        case string path:
            comDll = path;
            break;

        case _RegTypelib r:
            //can be several locales
            var aloc  = new List <string>();           //registry keys like "0" or "409"
            var aloc2 = new List <string>();           //locale names for display in the list dialog
            using (var verKey = Registry.ClassesRoot.OpenSubKey($@"TypeLib\{r.guid}\{r.version}")) {
                foreach (var s1 in verKey.GetSubKeyNames())
                {
                    int lcid = s1.ToInt(0, out int iEnd, STIFlags.IsHexWithout0x);
                    if (iEnd != s1.Length)
                    {
                        continue;                                       //"FLAGS" etc; must be hex number without 0x
                    }
                    aloc.Add(s1);
                    var s2 = "Neutral";
                    if (lcid > 0)
                    {
                        try { s2 = new CultureInfo(lcid).DisplayName; } catch { s2 = s1; }
                    }
                    aloc2.Add(s2);
                }
            }
            string locale;
            if (aloc.Count == 1)
            {
                locale = aloc[0];
            }
            else
            {
                int i = ADialog.ShowList(aloc2, "Locale", owner: this);
                if (i == 0)
                {
                    return;
                }
                locale = aloc[i - 1];
            }
            comDll = r.GetPath(locale);
            if (comDll == null || !AFile.ExistsAsFile(comDll))
            {
                ADialog.ShowError(comDll == null ? "Failed to get file path." : "File does not exist.", owner: this);
                return;
            }
            break;
        }

        await Task.Run(() => {
            this.Enabled = false;
            AOutput.Write($"Converting COM type library to .NET assembly.");
            try {
                if (_convertedDir == null)
                {
                    _convertedDir = AFolders.Workspace + @".interop\";
                    AFile.CreateDirectory(_convertedDir);
                }
                List <string> converted  = new List <string>();
                Action <string> callback = s => {
                    AOutput.Write(s);
                    if (s.Starts("Converted: "))
                    {
                        s.RegexMatch(@"""(.+?)"".$", 1, out s);
                        converted.Add(s);
                    }
                };
                int rr = AExec.RunConsole(callback, AFolders.ThisAppBS + "Au.Net45.exe", $"/typelib \"{_convertedDir}|{comDll}\"", encoding: Encoding.UTF8);
                if (rr == 0)
                {
                    foreach (var v in converted)
                    {
                        if (!_meta.com.Contains(v))
                        {
                            _meta.com.Add(v);
                        }
                    }
                    AOutput.Write(@"<>Converted and saved in <link>%AFolders.Workspace%\.interop<>.");
                    _Added(button, _meta.com);
                }
            }
            catch (Exception ex) { ADialog.ShowError("Failed to convert type library", ex.ToStringWithoutStack(), owner: this); }
            this.Enabled = true;
        });
    }
コード例 #2
0
        static bool _Compile(bool forRun, FileNode f, out CompResults r, FileNode projFolder)
        {
            var p1 = APerf.Create();

            r = new CompResults();

            var m = new MetaComments();

            if (!m.Parse(f, projFolder, EMPFlags.PrintErrors))
            {
                return(false);
            }
            var err = m.Errors;

            p1.Next('m');

            bool needOutputFiles = m.Role != ERole.classFile;

            //if for run, don't compile if f role is classFile
            if (forRun && !needOutputFiles)
            {
                r.role = ERole.classFile;
                return(false);
            }

            XCompiled cache = XCompiled.OfCollection(f.Model);
            string    outPath = null, outFile = null, fileName = null;

            if (needOutputFiles)
            {
                if (m.OutputPath != null)
                {
                    outPath  = m.OutputPath;
                    fileName = m.Name + ".dll";
                }
                else
                {
                    outPath  = cache.CacheDirectory;
                    fileName = f.IdString;
                }
                outFile = outPath + "\\" + fileName;
                AFile.CreateDirectory(outPath);
            }

            if (m.PreBuild.f != null && !_RunPrePostBuildScript(false, m, outFile))
            {
                return(false);
            }

            var po    = m.CreateParseOptions();
            var trees = new CSharpSyntaxTree[m.CodeFiles.Count];

            for (int i = 0; i < trees.Length; i++)
            {
                var f1 = m.CodeFiles[i];
                trees[i] = CSharpSyntaxTree.ParseText(f1.code, po, f1.f.FilePath, Encoding.UTF8) as CSharpSyntaxTree;
                //info: file path is used later in several places: in compilation error messages, run time stack traces (from PDB), Visual Studio debugger, etc.
                //	Our AOutputServer.SetNotifications callback will convert file/line info to links. It supports compilation errors and run time stack traces.
            }
            //p1.Next('t');

            string asmName = m.Name;

            if (m.Role == ERole.editorExtension)
            {
                asmName = asmName + "|" + (++c_versionCounter).ToString();                                             //AssemblyLoadContext.Default cannot load multiple assemblies with same name
            }
            var compilation = CSharpCompilation.Create(asmName, trees, m.References.Refs, m.CreateCompilationOptions());

            //p1.Next('c');

#if PDB
            string pdbFile = null;
#endif
            MemoryStream          pdbStream = null;
            string                xdFile    = null;
            Stream                xdStream  = null;
            Stream                resNat    = null;
            ResourceDescription[] resMan    = null;
            EmitOptions           eOpt      = null;

            if (needOutputFiles)
            {
                _AddAttributes(ref compilation, needVersionEtc: m.Role == ERole.miniProgram || m.Role == ERole.exeProgram);

                //create debug info always. It is used for run-time error links.
#if PDB
                pdbStream = new MemoryStream();
                if (m.OutputPath != null)
                {
                    pdbFile = Path.ChangeExtension(outFile, "pdb");
                    eOpt    = new EmitOptions(debugInformationFormat: DebugInformationFormat.Pdb, pdbFilePath: pdbFile);
                    //eOpt = new EmitOptions(debugInformationFormat: DebugInformationFormat.PortablePdb, pdbFilePath: pdbFile); //smaller, but not all tools support it
                }
                else
                {
                    //eOpt = new EmitOptions(debugInformationFormat: DebugInformationFormat.Embedded); //no, it is difficult to extract, because we load assembly from byte[] to avoid locking. We instead append portable PDB stream to the assembly stream.
                    eOpt = new EmitOptions(debugInformationFormat: DebugInformationFormat.PortablePdb);
                    //adds < 1 KB; almost the same compiling speed. Separate pdb file is 14 KB; 2 times slower compiling, slower loading.
                }
#else
                if (m.OutputPath != null)
                {
                    //we don't use classic pdb file becouse of this error after switching to .NET Core:
                    //	Unexpected error writing debug information -- 'The version of Windows PDB writer is older than required: 'diasymreader.dll''
                    eOpt = new EmitOptions(debugInformationFormat: DebugInformationFormat.Embedded);
                }
                else
                {
                    pdbStream = new MemoryStream();
                    //eOpt = new EmitOptions(debugInformationFormat: DebugInformationFormat.Embedded); //no, it is difficult to extract, because we load assembly from byte[] to avoid locking. We instead append portable PDB stream to the assembly stream.
                    eOpt = new EmitOptions(debugInformationFormat: DebugInformationFormat.PortablePdb);
                    //adds < 1 KB; almost the same compiling speed. Separate pdb file is 14 KB; 2 times slower compiling, slower loading.
                }
#endif

                if (m.XmlDocFile != null)
                {
                    xdStream = AFile.WaitIfLocked(() => File.Create(xdFile = APath.Normalize(m.XmlDocFile, outPath)));
                }

                resMan = _CreateManagedResources(m);
                if (err.ErrorCount != 0)
                {
                    err.PrintAll(); return(false);
                }

                if (m.Role == ERole.exeProgram || m.Role == ERole.classLibrary)
                {
                    resNat = _CreateNativeResources(m, compilation);
                }
                if (err.ErrorCount != 0)
                {
                    err.PrintAll(); return(false);
                }

                //EmbeddedText.FromX //it seems we can embed source code in PDB. Not tested.
            }

            //p1.Next();
            var asmStream  = new MemoryStream(8000);
            var emitResult = compilation.Emit(asmStream, pdbStream, xdStream, resNat, resMan, eOpt);

            if (needOutputFiles)
            {
                xdStream?.Dispose();
                resNat?.Dispose();                 //info: compiler disposes resMan
            }
            //p1.Next('e');

            var diag = emitResult.Diagnostics;
            if (!diag.IsEmpty)
            {
                foreach (var d in diag)
                {
                    if (d.Severity == DiagnosticSeverity.Hidden)
                    {
                        continue;
                    }
                    err.AddErrorOrWarning(d, f);
                    if (d.Severity == DiagnosticSeverity.Error && d.Id == "CS0009")
                    {
                        MetaReferences.RemoveBadReference(d.GetMessage());
                    }
                }
                err.PrintAll();
            }
            if (!emitResult.Success)
            {
                if (needOutputFiles)
                {
                    AFile.Delete(outFile);
#if PDB
                    if (pdbFile != null)
                    {
                        AFile.Delete(pdbFile);
                    }
#endif
                    if (xdFile != null)
                    {
                        AFile.Delete(xdFile);
                    }
                }
                return(false);
            }

            if (needOutputFiles)
            {
                //If there is no [STAThread], will need MTA thread.
                if (m.Role == ERole.miniProgram || m.Role == ERole.exeProgram)
                {
                    bool hasSTAThread = compilation.GetEntryPoint(default)?.GetAttributes().Any(o => o.ToString() == "System.STAThreadAttribute") ?? false;