public override NonNullable <string> OnSourceFile(NonNullable <string> f)
            {
                var dir      = Path.GetDirectoryName(f.Value);
                var fileName = Path.GetFileNameWithoutExtension(f.Value);

                return(NonNullable <string> .New(Path.Combine(dir, fileName + ".qs")));
            }
        /// <summary>
        /// Returns the names of all namespaces that have been opened without an alias and are visible from the given
        /// position in the file. Returns an empty enumerator if the position is invalid.
        /// </summary>
        /// <exception cref="ArgumentNullException">Thrown when any argument is null.</exception>
        /// <exception cref="ArgumentException">Thrown when the position is invalid.</exception>
        private static IEnumerable <string> GetOpenNamespaces(
            FileContentManager file, CompilationUnit compilation, Position position)
        {
            if (file == null)
            {
                throw new ArgumentNullException(nameof(file));
            }
            if (compilation == null)
            {
                throw new ArgumentNullException(nameof(compilation));
            }
            if (!Utils.IsValidPosition(position))
            {
                throw new ArgumentException(nameof(position));
            }

            var @namespace = file.TryGetNamespaceAt(position);

            if (@namespace == null || !compilation.GlobalSymbols.NamespaceExists(NonNullable <string> .New(@namespace)))
            {
                return(Array.Empty <string>());
            }
            return(compilation
                   .GetOpenDirectives(NonNullable <string> .New(@namespace))[file.FileName]
                   .Where(open => open.Item2 == null) // Only include open directives without an alias.
                   .Select(open => open.Item1.Value)
                   .Concat(new[] { @namespace }));
        }
Esempio n. 3
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            static ArgDeclType BuildArgument(string name, ResolvedType t)
            {
                var validName = QsLocalSymbol.NewValidName(NonNullable <string> .New(name));
                var info      = new InferredExpressionInformation(false, false);

                return(new ArgDeclType(validName, t, info, QsNullable <Tuple <int, int> > .Null, EmptyRange));
            }
        /// <summary>
        /// Resolves the namespace alias and returns its full namespace name. If the alias couldn't be resolved, returns
        /// the alias unchanged.
        /// </summary>
        /// <exception cref="ArgumentNullException">Thrown when any argument is null.</exception>
        /// <exception cref="ArgumentException">Thrown when the position is invalid.</exception>
        private static string ResolveNamespaceAlias(
            FileContentManager file, CompilationUnit compilation, Position position, string alias)
        {
            if (file == null)
            {
                throw new ArgumentNullException(nameof(file));
            }
            if (compilation == null)
            {
                throw new ArgumentNullException(nameof(compilation));
            }
            if (!Utils.IsValidPosition(position))
            {
                throw new ArgumentException(nameof(position));
            }
            if (alias == null)
            {
                throw new ArgumentNullException(nameof(alias));
            }

            var nsName = file.TryGetNamespaceAt(position);

            if (nsName == null || !compilation.GlobalSymbols.NamespaceExists(NonNullable <string> .New(nsName)))
            {
                return(alias);
            }
            return(compilation.GlobalSymbols.TryResolveNamespaceAlias(
                       NonNullable <string> .New(alias), NonNullable <string> .New(nsName), file.FileName) ?? alias);
        }
Esempio n. 5
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 /// <summary>
 /// Given the argument tuple of a specialization, returns the argument tuple for its controlled version.
 /// Returns null if the given argument tuple is null.
 /// </summary>
 private static QsTuple <LocalVariableDeclaration <QsLocalSymbol> > ControlledArg(QsTuple <LocalVariableDeclaration <QsLocalSymbol> > arg) =>
 arg != null
     ? SyntaxGenerator.WithControlQubits(arg,
                                         QsNullable <Tuple <int, int> > .Null,
                                         QsLocalSymbol.NewValidName(NonNullable <string> .New(InternalUse.ControlQubitsName)),
                                         QsNullable <Tuple <QsPositionInfo, QsPositionInfo> > .Null)
     : null;
Esempio n. 6
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            public override QsTypeKind onTypeParameter(QsTypeParameter tp)
            {
                this.CodeOutput.onTypeParameter(tp);
                var tpName = NonNullable <string> .New(this.CodeOutput.Output ?? "");

                this.OnIdentifier?.Invoke(Identifier.NewLocalVariable(tpName), tp.Range);
                return(QsTypeKind.NewTypeParameter(tp));
            }
Esempio n. 7
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        /// <summary>
        /// Builds the corresponding .net core assembly from the code in the given files.
        /// </summary>
        public AssemblyInfo BuildFiles(string[] files, CompilerMetadata metadatas, QSharpLogger logger, string dllName)
        {
            var syntaxTree = BuildQsSyntaxTree(files, metadatas.QsMetadatas, logger);

            Uri FileUri(string f) => CompilationUnitManager.TryGetUri(NonNullable <string> .New(f), out var uri) ? uri : null;

            var assembly = BuildAssembly(files.Select(FileUri).ToArray(), syntaxTree, metadatas.RoslynMetadatas, logger, dllName);

            return(assembly);
        }
Esempio n. 8
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        /// <summary>
        /// Returns all namespaces in which a callable with the name of the symbol at the given position in the given file belongs to.
        /// Returns an empty collection if any of the arguments is null or if no unqualified symbol exists at that location.
        /// Returns the name of the identifier as out parameter if an unqualified symbol exists at that location.
        /// </summary>
        private static IEnumerable <NonNullable <string> > NamespaceSuggestionsForIdAtPosition
            (this FileContentManager file, Position pos, CompilationUnit compilation, out string idName)
        {
            var variables = file?.TryGetQsSymbolInfo(pos, true, out CodeFragment _)?.UsedVariables;

            idName = variables != null && variables.Any() ? variables.Single().Symbol.AsDeclarationName(null) : null;
            return(idName != null && compilation != null
                ? compilation.GlobalSymbols.NamespacesContainingCallable(NonNullable <string> .New(idName))
                : ImmutableArray <NonNullable <string> > .Empty);
        }
Esempio n. 9
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        /// <summary>
        /// Returns the position and the kind of the closest specialization preceding the given position,
        /// and the name of the callable it belongs to as well as its position as Nullable.
        /// Returns null if the given file or position is null, or if no preceding callable can be found (e.g. because the callable name is invalid).
        /// If a callable name but no specializations (preceding or otherwise) within that callable can be found,
        /// assumes that the correct specialization is an auto-inserted default body,
        /// and returns QsBody as well as the start position of the callable declaration along with the callable name and its position.
        /// If a callable name as well as existing specializations can be found, but no specialization precedes the given position,
        /// returns null for the specialization kind as well as for its position.
        /// </summary>
        public static ((NonNullable <string>, Position), (QsSpecializationKind, Position))? TryGetClosestSpecialization(this FileContentManager file, Position pos)
        {
            QsSpecializationKind GetSpecializationKind(CodeFragment fragment)
            {
                var specDecl = fragment.Kind.DeclaredSpecialization();

                if (specDecl.IsNull)
                {
                    return(null);
                }
                var((kind, gen), typeArgs) = specDecl.Item;  // note: if we want to support type specializations we need to compute the signature of the spec to find the right one
                return(kind);
            }

            if (file == null || pos == null || !Utils.IsValidPosition(pos, file))
            {
                return(null);
            }
            file.SyncRoot.EnterReadLock();
            try
            {
                var declarations  = file.CallableDeclarationTokens();
                var precedingDecl = declarations.TakeWhile(tIndex => tIndex.GetFragment().GetRange().Start.IsSmallerThan(pos));
                if (!precedingDecl.Any())
                {
                    return(null);
                }

                var closestCallable  = precedingDecl.Last();
                var callablePosition = closestCallable.GetFragment().GetRange().Start;
                var callableName     = closestCallable.GetFragment().Kind.DeclaredCallableName(null);
                if (callableName == null)
                {
                    return(null);
                }

                var specializations = FileHeader.FilterCallableSpecializations(closestCallable.GetChildren(deep: false).Select(tIndex => tIndex.GetFragment()));
                var precedingSpec   = specializations.TakeWhile(fragment => fragment.GetRange().Start.IsSmallerThan(pos));
                var lastPreceding   = precedingSpec.Any() ? precedingSpec.Last() : null;

                if (specializations.Any() && lastPreceding == null)
                {
                    // the given position is within a callable declaration
                    return((NonNullable <string> .New(callableName), callablePosition), (null, null));
                }
                return(lastPreceding == null
                    ? ((NonNullable <string> .New(callableName), callablePosition), (QsSpecializationKind.QsBody, callablePosition))
                    : ((NonNullable <string> .New(callableName), callablePosition), (GetSpecializationKind(lastPreceding), lastPreceding.GetRange().Start)));
            }
            finally
            {
                file.SyncRoot.ExitReadLock();
            }
        }
Esempio n. 10
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        /// <summary>
        /// If the given uri corresponds to a C# project file,
        /// determines if the project is consistent with a recognized Q# project using the ProjectLoader.
        /// Returns the project information containing the outputPath of the project
        /// along with the Q# source files as well as all project and dll references as out parameter if it is.
        /// Returns null if it isn't, or if the project file itself has been listed as to be ignored.
        /// Calls SendTelemetry with suitable data if the project is a recognized Q# project.
        /// </summary>
        internal bool QsProjectLoader(Uri projectFile, out ProjectInformation info)
        {
            info = null;
            if (projectFile == null || !ValidFileUri(projectFile) || IgnoreFile(projectFile))
            {
                return(false);
            }
            var projectInstance = this.ProjectLoader.TryGetQsProjectInstance(projectFile.LocalPath, out var telemetryProps);

            if (projectInstance == null)
            {
                return(false);
            }

            var outputDir  = projectInstance.GetPropertyValue("OutputPath");
            var targetFile = projectInstance.GetPropertyValue("TargetFileName");
            var outputPath = Path.Combine(projectInstance.Directory, outputDir, targetFile);

            var executionTarget      = projectInstance.GetPropertyValue("ResolvedQsharpExecutionTarget");
            var resRuntimeCapability = projectInstance.GetPropertyValue("ResolvedRuntimeCapabilities");
            var runtimeCapabilities  = Enum.TryParse(resRuntimeCapability, out AssemblyConstants.RuntimeCapabilities capability)
                ? capability
                : AssemblyConstants.RuntimeCapabilities.Unknown;

            var sourceFiles       = GetItemsByType(projectInstance, "QsharpCompile");
            var csharpFiles       = GetItemsByType(projectInstance, "Compile").Where(file => !file.EndsWith(".g.cs"));
            var projectReferences = GetItemsByType(projectInstance, "ProjectReference");
            var references        = GetItemsByType(projectInstance, "Reference");

            var version          = projectInstance.GetPropertyValue("QsharpLangVersion");
            var isExecutable     = "QsharpExe".Equals(projectInstance.GetPropertyValue("ResolvedQsharpOutputType"), StringComparison.InvariantCultureIgnoreCase);
            var loadTestNames    = "true".Equals(projectInstance.GetPropertyValue("ExposeReferencesViaTestNames"), StringComparison.InvariantCultureIgnoreCase);
            var defaultSimulator = projectInstance.GetPropertyValue("DefaultSimulator")?.Trim();

            var telemetryMeas = new Dictionary <string, int>();

            telemetryMeas["sources"]           = sourceFiles.Count();
            telemetryMeas["csharpfiles"]       = csharpFiles.Count();
            telemetryProps["defaultSimulator"] = defaultSimulator;
            this.SendTelemetry("project-load", telemetryProps, telemetryMeas); // does not send anything unless the corresponding flag is defined upon compilation
            info = new ProjectInformation(
                version,
                outputPath,
                runtimeCapabilities,
                isExecutable,
                NonNullable <string> .New(string.IsNullOrWhiteSpace(executionTarget) ? "Unspecified" : executionTarget),
                loadTestNames,
                sourceFiles,
                projectReferences,
                references);
            return(true);
        }
Esempio n. 11
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        /// <summary>
        /// Returns all namespaces in which a type with the name of the symbol at the given position in the given file belongs to.
        /// Returns an empty collection if any of the arguments is null or if no unqualified symbol exists at that location.
        /// Returns the name of the type as out parameter if an unqualified symbol exists at that location.
        /// </summary>
        private static IEnumerable <NonNullable <string> > NamespaceSuggestionsForTypeAtPosition
            (this FileContentManager file, Position pos, CompilationUnit compilation, out string typeName)
        {
            var types = file?.TryGetQsSymbolInfo(pos, true, out CodeFragment _)?.UsedTypes;

            typeName = types != null && types.Any() &&
                       types.Single().Type is QsTypeKind <QsType, QsSymbol, QsSymbol, Characteristics> .UserDefinedType udt
                ? udt.Item.Symbol.AsDeclarationName(null) : null;

            return(typeName != null && compilation != null
                ? compilation.GlobalSymbols.NamespacesContainingType(NonNullable <string> .New(typeName))
                : ImmutableArray <NonNullable <string> > .Empty);
        }
Esempio n. 12
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        public async Task <ExecutionResult> RunAsync(string input, IChannel channel)
        {
            var(name, args) = ParseInput(input);
            var symbol = SymbolResolver.Resolve(name) as IQSharpSymbol;

            if (symbol == null)
            {
                throw new InvalidOperationException($"Invalid operation name: {name}");
            }
            var snippetsWithNoOverlap = this.Snippets.Items.Where(s => s.Elements.Select(IQSharp.Extensions.ToFullName).Contains(Snippets.SNIPPETS_NAMESPACE + "." + symbol.Name));
            var files = new List <Uri>();

            files.Add(snippetsWithNoOverlap.FirstOrDefault().Uri);
            var l = snippetsWithNoOverlap.FirstOrDefault().Elements;

            Console.WriteLine(l.Count());
            foreach (var s in l)
            {
                Console.WriteLine(s.ToFullName());

                //AssemblyInfo = Compiler.BuildFiles(files, GlobalReferences.CompilerMetadata, logger, CacheDll);
            }
            var qsNamespace = new QsCompiler.SyntaxTree.QsNamespace(NonNullable <string> .New(Snippets.SNIPPETS_NAMESPACE), ImmutableArray.Create(l), null);
            var logger      = new QSharpLogger(Logger);
            var newAssembly = CompilerService.BuildAssembly(files.ToArray(), new[] { qsNamespace }, GlobalReferences.CompilerMetadata.RoslynMetadatas, logger, Path.Combine(Path.GetTempPath(), "__snippets__.dll"));

            Assembly.LoadFrom(newAssembly.Location);
            symbol = SymbolResolver.Resolve(name) as IQSharpSymbol;
            if (symbol == null)
            {
                throw new InvalidOperationException($"Invalid operation name: {name}");
            }

            var aSCIICircuitizer = new ASCIICircuitizer();
            var qsim             = new CircuitizerSimulator(aSCIICircuitizer);

            qsim.DisableLogToConsole();
            qsim.OnLog += channel.Stdout;

            var value = await symbol.Operation.RunAsync(qsim, args);

            var result = qsim.Render();
            // TODO : currently we are ignoring the Render result from qsim and rendering a local file instead.
            var imageHtml = new ImageDataWrapper
            {
                imageFileName = @"C:\Users\angarg\Pictures\bad_status.PNG"
            };

            //return imageHtml.ToExecutionResult();
            return(result.ToExecutionResult());
        }
Esempio n. 13
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        /// <summary>
        /// Compiles the given Q# code and returns the list of elements found in it.
        /// The compiler does this on a best effort, so it will return the elements even if the compilation fails.
        /// </summary>
        public IEnumerable <QsNamespaceElement> IdentifyElements(string source)
        {
            var uri = new Uri(Path.GetFullPath("__CODE_SNIPPET__.qs"));
            var ns  = NonNullable <string> .New(Snippets.SNIPPETS_NAMESPACE);

            var sources = new Dictionary <Uri, string>()
            {
                { uri, $"namespace {ns.Value} {{ {source} }}" }
            }.ToImmutableDictionary();
            var loadOptions = new CompilationLoader.Configuration();
            var loaded      = new CompilationLoader(_ => sources, _ => QsReferences.Empty, loadOptions);

            return(loaded.VerifiedCompilation?.SyntaxTree[ns].Elements);
        }
Esempio n. 14
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        public IEnumerable <QsNamespaceElement> IdentifyElements(string source)
        {
            var loader = CreateTemporaryLoader(source);

            if (loader.VerifiedCompilation == null)
            {
                return(ImmutableArray <QsNamespaceElement> .Empty);
            }
            var ns = NonNullable <string> .New(Snippets.SNIPPETS_NAMESPACE);

            return(loader.VerifiedCompilation.SyntaxTree.TryGetValue(ns, out var tree)
                   ? tree.Elements
                   : ImmutableArray <QsNamespaceElement> .Empty);
        }
Esempio n. 15
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        // external routines for context verification

        /// <summary>
        /// Given the line number of the lines that contain tokens that (possibly) have been modified,
        /// checks which callable declaration they can potentially belong to and returns the fully qualified name of those callables.
        /// Throws an ArgumentNullException if the given file or the collection of changed lines is null.
        /// </summary>
        internal static IEnumerable <(Range, QsQualifiedName)> CallablesWithContentModifications(this FileContentManager file, IEnumerable <int> changedLines)
        {
            if (file == null)
            {
                throw new ArgumentNullException(nameof(file));
            }
            if (changedLines == null)
            {
                throw new ArgumentNullException(nameof(changedLines));
            }

            var lastInFile = file.LastToken()?.GetFragment()?.GetRange()?.End ?? file.End();
            var callables  = file.GetCallableDeclarations().Select(tuple => // these are sorted according to their line number
            {
                var ns = file.TryGetNamespaceAt(tuple.Item2.Start);
                QsCompilerError.Verify(ns != null, "namespace for callable declaration should not be null"); // invalid namespace names default to an unknown namespace name, but remain included in the compilation
                return(tuple.Item2.Start, new QsQualifiedName(NonNullable <string> .New(ns), tuple.Item1));
            }).ToList();

            // NOTE: The range of modifications that has to trigger an update of the syntax tree for a callable
            // does need to go up to and include modifications to the line containing the next callable!
            // Otherwise inserting a callable declaration in the middle of an existing callable does not trigger the right behavior!
            (Range, QsQualifiedName) TypeCheckingRange((Position, QsQualifiedName) lastPreceding, IEnumerable <(Position, QsQualifiedName)> next)
            {
                var callableStart = lastPreceding.Item1;
                var callableEnd   = next.Any() ? next.First().Item1 : lastInFile;

                return(new Range {
                    Start = callableStart, End = callableEnd
                }, lastPreceding.Item2);
            }

            foreach (var lineNr in changedLines)
            {
                bool precedes((Position, QsQualifiedName) tuple) => tuple.Item1.Line < lineNr;

                var preceding = callables.TakeWhile(precedes);
                var following = callables.SkipWhile(precedes);

                if (preceding.Any())
                {
                    yield return(TypeCheckingRange(preceding.Last(), following));
                }
                if (following.Any() && following.First().Item1.Line == lineNr)
                {
                    yield return(TypeCheckingRange(following.First(), following.Skip(1)));
                }
            }
        }
Esempio n. 16
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        /// <summary>
        /// Compiles the given Q# code and returns the list of elements found in it.
        /// The compiler does this on a best effort, so it will return the elements even if the compilation fails.
        /// </summary>
        public IEnumerable <QsCompiler.SyntaxTree.QsNamespaceElement> IdentifyElements(string source)
        {
            var ns = NonNullable <string> .New(Snippets.SNIPPETS_NAMESPACE);

            var logger = new QSharpLogger(null);

            var sources = new Dictionary <Uri, string>()
            {
                { new Uri($"file:///temp"), $"namespace {ns.Value} {{ {source} }}" }
            }.ToImmutableDictionary();
            var references = QsReferences.Empty;

            var loadOptions = new QsCompiler.CompilationLoader.Configuration(); // do not generate functor support
            var loaded      = new QsCompiler.CompilationLoader(_ => sources, _ => references, loadOptions, logger);

            return(loaded.VerifiedCompilation?.SyntaxTree[ns].Elements);
        }
Esempio n. 17
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        private FileContentManager InitializeFileManager(IEnumerable <string> examples, QsCompilation compilation, string nsName = null)
        {
            var(pre, post) = ($"namespace {nsName ?? DefaultNamespaceName}{{ {Environment.NewLine}", $"{Environment.NewLine}}}");
            var openDirs = String.Join(Environment.NewLine,
                                       OpenedForTesting
                                       .Where(nsName => ContainsNamespace(compilation, nsName))
                                       .Select(nsName => $"open {nsName};"));

            string WrapInNamespace(string example) => pre + openDirs + example + post;

            examples = examples.Where(ex => !String.IsNullOrWhiteSpace(ex));
            var sourceCode = String.Join(Environment.NewLine, examples.Select(WrapInNamespace));

            var sourceName = NonNullable <string> .New(Path.GetFullPath($"{nsName}{CodeSource}"));

            return(CompilationUnitManager.TryGetUri(sourceName, out var sourceUri)
                ? CompilationUnitManager.InitializeFileManager(sourceUri, sourceCode)
                : null);
        }
        /// <summary>
        /// Returns documentation for the callable (if kind is Function or Constructor) or type (if kind is Struct) in
        /// the compilation unit with the given qualified name. Returns null if no documentation is available or the
        /// completion item data is missing properties.
        /// </summary>
        /// <exception cref="ArgumentNullException">Thrown when any argument is null.</exception>
        private static string TryGetDocumentation(
            CompilationUnit compilation, CompletionItemData data, CompletionItemKind kind, bool useMarkdown)
        {
            if (compilation == null)
            {
                throw new ArgumentNullException(nameof(compilation));
            }
            if (data == null)
            {
                throw new ArgumentNullException(nameof(data));
            }
            if (data.QualifiedName == null ||
                data.SourceFile == null ||
                !compilation.GlobalSymbols.NamespaceExists(data.QualifiedName.Namespace))
            {
                return(null);
            }

            switch (kind)
            {
            case CompletionItemKind.Function:
            case CompletionItemKind.Constructor:
                var callable = compilation.GlobalSymbols.TryGetCallable(
                    data.QualifiedName, data.QualifiedName.Namespace, NonNullable <string> .New(data.SourceFile));
                if (callable.IsNull)
                {
                    return(null);
                }
                var signature     = callable.Item.PrintSignature();
                var documentation = callable.Item.Documentation.PrintSummary(useMarkdown);
                return(signature.Trim() + "\n\n" + documentation.Trim());

            case CompletionItemKind.Struct:
                var type =
                    compilation.GlobalSymbols.TryGetType(
                        data.QualifiedName, data.QualifiedName.Namespace, NonNullable <string> .New(data.SourceFile))
                    .Item;
                return(type?.Documentation.PrintSummary(useMarkdown).Trim());

            default:
                return(null);
            }
        }
        /// <summary>
        /// Returns completions for namespace aliases with the given prefix that are visible at the given position in
        /// the file.
        /// <para/>
        /// Note: a dot will be added after the given prefix if it is not the empty string, and doesn't already end with
        /// a dot.
        /// </summary>
        /// <exception cref="ArgumentNullException">Thrown when any argument is null.</exception>
        /// <exception cref="ArgumentException">Thrown when the position is invalid.</exception>
        private static IEnumerable <CompletionItem> GetNamespaceAliasCompletions(
            FileContentManager file, CompilationUnit compilation, Position position, string prefix = "")
        {
            if (file == null)
            {
                throw new ArgumentNullException(nameof(file));
            }
            if (compilation == null)
            {
                throw new ArgumentNullException(nameof(compilation));
            }
            if (!Utils.IsValidPosition(position))
            {
                throw new ArgumentException(nameof(position));
            }
            if (prefix == null)
            {
                throw new ArgumentNullException(nameof(prefix));
            }

            if (prefix.Length != 0 && !prefix.EndsWith("."))
            {
                prefix += ".";
            }
            var @namespace = file.TryGetNamespaceAt(position);

            if (@namespace == null || !compilation.GlobalSymbols.NamespaceExists(NonNullable <string> .New(@namespace)))
            {
                return(Array.Empty <CompletionItem>());
            }
            return(compilation
                   .GetOpenDirectives(NonNullable <string> .New(@namespace))[file.FileName]
                   .Where(open => open.Item2 != null && open.Item2.StartsWith(prefix))
                   .GroupBy(open => NextNamespacePart(open.Item2, prefix.Length))
                   .Select(open => new CompletionItem()
            {
                Label = open.Key,
                Kind = CompletionItemKind.Module,
                Detail = open.Count() == 1 && prefix + open.Key == open.Single().Item2
                        ? open.Single().Item1.Value
                        : prefix + open.Key
            }));
        }
        public bool Transformation(QsCompilation compilation, out QsCompilation transformed)
        {
            var context = CodegenContext.Create(compilation, _assemblyConstants);
            var sources = GetSourceFiles.Apply(compilation.Namespaces);

            foreach (var source in sources.Where(s => !s.Value.EndsWith(".dll", StringComparison.OrdinalIgnoreCase)))
            {
                var content = SimulationCode.generate(source, context);
                GeneratedFiles.Add(source.Value, content);
            }

            if (!compilation.EntryPoints.IsEmpty)
            {
                var callable = context.allCallables.First(c => c.Key == compilation.EntryPoints.First()).Value;
                var content  = EntryPoint.generate(context, callable);
                NonNullable <string> entryPointName = NonNullable <string> .New(callable.SourceFile.Value + ".EntryPoint");

                GeneratedFiles.Add(entryPointName.Value, content);
            }

            transformed = compilation;
            return(true);
        }
Esempio n. 21
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        /// <summary>
        /// Builds the corresponding .net core assembly from the Q# syntax tree.
        /// </summary>
        private AssemblyInfo BuildAssembly(ImmutableDictionary <Uri, string> sources, CompilerMetadata metadata, QSharpLogger logger, string dllName)
        {
            logger.LogDebug($"Compiling the following Q# files: {string.Join(",", sources.Keys.Select(f => f.LocalPath))}");

            var qsCompilation = this.UpdateCompilation(sources, metadata.QsMetadatas, logger);

            if (logger.HasErrors)
            {
                return(null);
            }

            try
            {
                // Generate C# simulation code from Q# syntax tree and convert it into C# syntax trees:
                var trees = new List <SyntaxTree>();
                NonNullable <string> GetFileId(Uri uri) => CompilationUnitManager.TryGetFileId(uri, out var id) ? id : NonNullable <string> .New(uri.AbsolutePath);

                foreach (var file in sources.Keys)
                {
                    var sourceFile = GetFileId(file);
                    var code       = SimulationCode.generate(sourceFile, CodegenContext.Create(qsCompilation.Namespaces));
                    var tree       = CSharpSyntaxTree.ParseText(code, encoding: UTF8Encoding.UTF8);
                    trees.Add(tree);
                    logger.LogDebug($"Generated the following C# code for {sourceFile.Value}:\n=============\n{code}\n=============\n");
                }

                // Compile the C# syntax trees:
                var options = new CSharpCompilationOptions(OutputKind.DynamicallyLinkedLibrary, optimizationLevel: OptimizationLevel.Debug);

                var compilation = CSharpCompilation.Create(
                    Path.GetFileNameWithoutExtension(dllName),
                    trees,
                    metadata.RoslynMetadatas,
                    options);

                // Generate the assembly from the C# compilation:
                using (var ms = new MemoryStream())
                    using (var bsonStream = new MemoryStream())
                    {
                        using var writer = new BsonDataWriter(bsonStream)
                              {
                                  CloseOutput = false
                              };
                        var fromSources = qsCompilation.Namespaces.Select(ns => FilterBySourceFile.Apply(ns, s => s.Value.EndsWith(".qs")));
                        Json.Serializer.Serialize(writer, new QsCompilation(fromSources.ToImmutableArray(), qsCompilation.EntryPoints));

                        var resourceDescription = new ResourceDescription
                                                  (
                            resourceName: QsCompiler.ReservedKeywords.DotnetCoreDll.ResourceName,
                            dataProvider: () => new MemoryStream(bsonStream.ToArray()),
                            isPublic: true
                                                  );


                        var result = compilation.Emit(ms, manifestResources: new[] { resourceDescription });

                        if (!result.Success)
                        {
                            IEnumerable <Diagnostic> failures = result.Diagnostics.Where(diagnostic =>
                                                                                         diagnostic.IsWarningAsError ||
                                                                                         diagnostic.Severity == DiagnosticSeverity.Error);

                            logger.LogError("IQS000", "Could not compile Roslyn dll from working folder.");

                            foreach (Diagnostic diagnostic in failures)
                            {
                                logger.LogError(diagnostic.Id, diagnostic.GetMessage());
                            }

                            return(null);
                        }
                        else
                        {
                            logger.LogDebug($"Assembly successfully generated. Caching at {dllName}.");
                            var data = ms.ToArray();

                            try
                            {
                                File.WriteAllBytes(dllName, data);
                            }
                            catch (Exception e)
                            {
                                logger.LogError("IQS001", $"Unable to save assembly cache: {e.Message}.");
                            }

                            return(new AssemblyInfo(Assembly.Load(data), dllName, fromSources.ToArray()));
                        }
                    }
            }
            catch (Exception e)
            {
                logger.LogError("IQS002", $"Unexpected error compiling assembly: {e.Message}.");
                return(null);
            }
        }
Esempio n. 22
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        public void ExcludeInaccessible()
        {
            var elements =
                new[] { AccessModifier.DefaultAccess, AccessModifier.Internal }
            .SelectMany(access =>
            {
                var source = NonNullable <string> .New("Tests.qs");
                var unit   = ResolvedType.New(QsType.UnitType);

                var signature = new ResolvedSignature(
                    Array.Empty <QsLocalSymbol>().ToImmutableArray(),
                    unit,
                    unit,
                    CallableInformation.NoInformation);
                var argumentTuple = QsTuple <ArgDeclType> .NewQsTuple(ImmutableArray.Create <QsTuple <ArgDeclType> >());
                var callable      = new QsCallable(
                    kind: QsCallableKind.Operation,
                    fullName: MakeFullName(access + "Operation"),
                    attributes: ImmutableArray <QsDeclarationAttribute> .Empty,
                    modifiers: new Modifiers(access),
                    sourceFile: source,
                    location: ZeroLocation,
                    signature: signature,
                    argumentTuple: argumentTuple,
                    specializations: ImmutableArray.Create <QsSpecialization>(),
                    documentation: ImmutableArray.Create <string>(),
                    comments: QsComments.Empty);

                var typeItems = QsTuple <QsTypeItem> .NewQsTuple(
                    ImmutableArray.Create(QsTuple <QsTypeItem> .NewQsTupleItem(QsTypeItem.NewAnonymous(unit))));
                var type = new QsCustomType(
                    fullName: MakeFullName(access + "Type"),
                    attributes: ImmutableArray <QsDeclarationAttribute> .Empty,
                    modifiers: new Modifiers(access),
                    sourceFile: source,
                    location: ZeroLocation,
                    type: unit,
                    typeItems: typeItems,
                    documentation: ImmutableArray.Create <string>(),
                    comments: QsComments.Empty);
                return(new[]
                {
                    QsNamespaceElement.NewQsCallable(callable),
                    QsNamespaceElement.NewQsCustomType(type)
                });
            });
            var emptyLookup = Array.Empty <ImmutableArray <string> >().ToLookup(x => NonNullable <string> .New(""));
            var ns          = new QsNamespace(CanonName, elements.ToImmutableArray(), emptyLookup);
            var docNs       = new DocNamespace(ns);
            var stream      = new MemoryStream();

            docNs.WriteToStream(stream, null);

            var expected = @"### YamlMime:QSharpNamespace
# This file is automatically generated.
# Please do not modify this file manually, or your changes may be lost when
# documentation is rebuilt.

uid: microsoft.quantum.canon
name: Microsoft.Quantum.Canon
operations:
- uid: microsoft.quantum.canon.defaultaccessoperation
  summary: ''
newtypes:
- uid: microsoft.quantum.canon.defaultaccesstype
  summary: ''
...
";
            var actual   = Encoding.UTF8.GetString(stream.ToArray());

            Assert.Equal(expected, actual);
        }
Esempio n. 23
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 /// <summary>
 /// Builds a string literal with the given content that can be used as argument to a Q# attribute.
 /// The value of the string literal is set to the empty string if the given content is null.
 /// </summary>
 public static TypedExpression StringArgument(string content) =>
 SyntaxGenerator.StringLiteral(NonNullable <string> .New(content ?? ""), ImmutableArray <TypedExpression> .Empty);
Esempio n. 24
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        public void ParseUdt()
        {
            string[] comments =
            {
                "# Summary",
                "Represents a single primitive term in the set of all dynamical generators, e.g.",
                "Hermitian operators, for which there exists a map from that generator",
                "to time-evolution by that that generator, through \"EvolutionSet\".",
                "",
                "# Description",
                "The first element",
                "(Int[], Double[]) is indexes that single term -- For instance, the Pauli string",
                "XXY with coefficient 0.5 would be indexed by ([1,1,2], [0.5]). Alternatively,",
                "Hamiltonians parameterized by a continuous variable, such as X cos φ + Y sin φ,",
                "might for instance be represented by ([], [φ]). The second",
                "element indexes the subsystem on which the generator acts on.",
                "",
                "# Remarks",
                "> [!WARNING]",
                "> The interpretation of an `GeneratorIndex` is not defined except",
                "> with reference to a particular set of generators.",
                "",
                "# Example",
                "Using  <xref:microsoft.quantum.canon.paulievolutionset>, the operator",
                "$\\pi X_2 X_5 Y_9$ is represented as:",
                "```qsharp",
                "let index = GeneratorIndex(([1; 1; 2], [PI()]), [2; 5; 9]);",
                "```",
                "",
                "# See Also",
                "- @\"microsoft.quantum.canon.paulievolutionset\"",
                "- @\"microsoft.quantum.canon.evolutionset\""
            };
            string expected = @"### YamlMime:QSharpType
uid: microsoft.quantum.canon.generatorindex
name: GeneratorIndex
type: newtype
namespace: Microsoft.Quantum.Canon
summary: |-
  Represents a single primitive term in the set of all dynamical generators, e.g.
  Hermitian operators, for which there exists a map from that generator
  to time-evolution by that that generator, through ""EvolutionSet"".

  The first element
  (Int[], Double[]) is indexes that single term -- For instance, the Pauli string
  XXY with coefficient 0.5 would be indexed by ([1,1,2], [0.5]). Alternatively,
  Hamiltonians parameterized by a continuous variable, such as X cos φ + Y sin φ,
  might for instance be represented by ([], [φ]). The second
  element indexes the subsystem on which the generator acts on.
remarks: |-
  > [!WARNING]
  > The interpretation of an `GeneratorIndex` is not defined except
  > with reference to a particular set of generators.

  ### Examples
  Using  <xref:microsoft.quantum.canon.paulievolutionset>, the operator
  $\pi X_2 X_5 Y_9$ is represented as:

  ```qsharp
  let index = GeneratorIndex(([1; 1; 2], [PI()]), [2; 5; 9]);
  ```
syntax: newtype GeneratorIndex = ((Int[], Double[]), Int[]);
seeAlso:
- microsoft.quantum.canon.paulievolutionset
- microsoft.quantum.canon.evolutionset
...
";
            var    intArrayType = ResolvedType.New(QsType.NewArrayType(ResolvedType.New(QsType.Int)));
            var    doubleArrayType = ResolvedType.New(QsType.NewArrayType(ResolvedType.New(QsType.Double)));
            var    innerTuple = new ResolvedType[] { intArrayType, doubleArrayType }.ToImmutableArray();
            var    innerTupleType = ResolvedType.New(QsType.NewTupleType(innerTuple));
            var    baseTuple = new ResolvedType[] { innerTupleType, intArrayType }.ToImmutableArray();
            var    baseType      = ResolvedType.New(QsType.NewTupleType(baseTuple));
            var    anonymousItem = QsTuple <QsTypeItem> .NewQsTupleItem(QsTypeItem.NewAnonymous(baseType));

            var typeItems = QsTuple <QsTypeItem> .NewQsTuple(ImmutableArray.Create(anonymousItem));

            var generatorIndexType = new QsCustomType(MakeFullName("GeneratorIndex"),
                                                      ImmutableArray <QsDeclarationAttribute> .Empty,
                                                      NonNullable <string> .New("GeneratorRepresentation.qs"),
                                                      ZeroLocation,
                                                      baseType,
                                                      typeItems,
                                                      comments.ToImmutableArray(),
                                                      QsComments.Empty);
            var udt = new DocUdt("Microsoft.Quantum.Canon", generatorIndexType);

            var stream = new StringWriter();

            udt.WriteToFile(stream);
            var s = stream.ToString();

            Assert.Equal(expected, s);
        }
Esempio n. 25
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 private QsQualifiedName MakeFullName(string name)
 {
     return(new QsQualifiedName(CanonName, NonNullable <string> .New(name)));
 }
Esempio n. 26
0
        public void ParseOp()
        {
            ArgDeclType BuildArgument(string name, ResolvedType t)
            {
                var validName = QsLocalSymbol.NewValidName(NonNullable <string> .New(name));
                var info      = new InferredExpressionInformation(false, false);

                return(new ArgDeclType(validName, t, info, QsNullable <Tuple <int, int> > .Null, EmptyRange));
            }

            string[] comments =
            {
                "# Summary",
                "Convenience function that performs state preparation by applying a ",
                "`statePrepUnitary` on the input state, followed by adiabatic state ",
                "preparation using a `adiabaticUnitary`, and finally phase estimation ",
                "with respect to `qpeUnitary`on the resulting state using a ",
                "`phaseEstAlgorithm`.",
                "",
                "# Input",
                "## statePrepUnitary",
                "An oracle representing state preparation for the initial dynamical",
                "generator.",
                "## adiabaticUnitary",
                "An oracle representing the adiabatic evolution algorithm to be used",
                "to implement the sweeps to the final state of the algorithm.",
                "## qpeUnitary",
                "An oracle representing a unitary operator $U$ representing evolution",
                "for time $\\delta t$ under a dynamical generator with ground state",
                "$\\ket{\\phi}$ and ground state energy $E = \\phi\\\\,\\delta t$.",
                "## phaseEstAlgorithm",
                "An operation that performs phase estimation on a given unitary operation.",
                "See [iterative phase estimation](/quantum/libraries/characterization#iterative-phase-estimation)",
                "for more details.",
                "## qubits",
                "A register of qubits to be used to perform the simulation.",
                "",
                "# Output",
                "An estimate $\\hat{\\phi}$ of the ground state energy $\\phi$",
                "of the generator represented by $U$."
            };
            string expected = @"### YamlMime:QSharpType
uid: microsoft.quantum.canon.adiabaticstateenergyunitary
name: AdiabaticStateEnergyUnitary
type: operation
namespace: Microsoft.Quantum.Canon
summary: |-
  Convenience function that performs state preparation by applying a
  `statePrepUnitary` on the input state, followed by adiabatic state
  preparation using a `adiabaticUnitary`, and finally phase estimation
  with respect to `qpeUnitary`on the resulting state using a
  `phaseEstAlgorithm`.
syntax: 'operation AdiabaticStateEnergyUnitary (statePrepUnitary : (Qubit[] => Unit), adiabaticUnitary : (Qubit[] => Unit), qpeUnitary : (Qubit[] => Unit is Adj + Ctl), phaseEstAlgorithm : ((Microsoft.Quantum.Canon.DiscreteOracle, Qubit[]) => Double), qubits : Qubit[]) : Double'
input:
  content: '(statePrepUnitary : (Qubit[] => Unit), adiabaticUnitary : (Qubit[] => Unit), qpeUnitary : (Qubit[] => Unit is Adj + Ctl), phaseEstAlgorithm : ((Microsoft.Quantum.Canon.DiscreteOracle, Qubit[]) => Double), qubits : Qubit[])'
  types:
  - name: statePrepUnitary
    summary: |-
      An oracle representing state preparation for the initial dynamical
      generator.
    isOperation: true
    input:
      types:
      - isArray: true
        isPrimitive: true
        uid: Qubit
    output:
      types:
      - isPrimitive: true
        uid: Unit
  - name: adiabaticUnitary
    summary: |-
      An oracle representing the adiabatic evolution algorithm to be used
      to implement the sweeps to the final state of the algorithm.
    isOperation: true
    input:
      types:
      - isArray: true
        isPrimitive: true
        uid: Qubit
    output:
      types:
      - isPrimitive: true
        uid: Unit
  - name: qpeUnitary
    summary: |-
      An oracle representing a unitary operator $U$ representing evolution
      for time $\delta t$ under a dynamical generator with ground state
      $\ket{\phi}$ and ground state energy $E = \phi\\,\delta t$.
    isOperation: true
    input:
      types:
      - isArray: true
        isPrimitive: true
        uid: Qubit
    output:
      types:
      - isPrimitive: true
        uid: Unit
    functors:
    - Adjoint
    - Controlled
  - name: phaseEstAlgorithm
    summary: |-
      An operation that performs phase estimation on a given unitary operation.
      See [iterative phase estimation](/quantum/libraries/characterization#iterative-phase-estimation)
      for more details.
    isOperation: true
    input:
      types:
      - uid: microsoft.quantum.canon.discreteoracle
      - isArray: true
        isPrimitive: true
        uid: Qubit
    output:
      types:
      - isPrimitive: true
        uid: Double
  - name: qubits
    summary: A register of qubits to be used to perform the simulation.
    isArray: true
    isPrimitive: true
    uid: Qubit
output:
  content: Double
  types:
  - summary: |-
      An estimate $\hat{\phi}$ of the ground state energy $\phi$
      of the generator represented by $U$.
    isPrimitive: true
    uid: Double
...
";

            var qubitArrayType = ResolvedType.New(QsType.NewArrayType(ResolvedType.New(QsType.Qubit)));
            var unitType       = ResolvedType.New(QsType.UnitType);
            var doubleType     = ResolvedType.New(QsType.Double);
            var oracleType     = ResolvedType.New(QsType.NewUserDefinedType(new UserDefinedType(CanonName,
                                                                                                NonNullable <string> .New("DiscreteOracle"),
                                                                                                QsNullable <Tuple <QsPositionInfo, QsPositionInfo> > .Null)));
            var noInfo = CallableInformation.NoInformation;
            var acFunctors = ResolvedCharacteristics.FromProperties(new[] { OpProperty.Adjointable, OpProperty.Controllable });
            var acInfo = new CallableInformation(acFunctors, InferredCallableInformation.NoInformation);
            var qubitToUnitOp = ResolvedType.New(QsType.NewOperation(new SigTypeTuple(qubitArrayType, unitType), noInfo));
            var qubitToUnitOpAC = ResolvedType.New(QsType.NewOperation(new SigTypeTuple(qubitArrayType, unitType), acInfo));
            var phaseEstArgs = new ResolvedType[] { oracleType, qubitArrayType }.ToImmutableArray();
            var phaseEstArgTuple = ResolvedType.New(QsType.NewTupleType(phaseEstArgs));
            var phaseEstOp       = ResolvedType.New(QsType.NewOperation(new SigTypeTuple(phaseEstArgTuple, doubleType), noInfo));

            var typeParams = new QsLocalSymbol[] { }.ToImmutableArray();
            var argTypes = new ResolvedType[] { qubitToUnitOp, qubitToUnitOp, qubitToUnitOpAC, phaseEstOp, qubitArrayType }.ToImmutableArray();
            var argTupleType = ResolvedType.New(QsType.NewTupleType(argTypes));
            var signature    = new ResolvedSignature(typeParams, argTupleType, doubleType, noInfo);

            var args = new List <ArgDeclType> {
                BuildArgument("statePrepUnitary", qubitToUnitOp),
                BuildArgument("adiabaticUnitary", qubitToUnitOp),
                BuildArgument("qpeUnitary", qubitToUnitOpAC),
                BuildArgument("phaseEstAlgorithm", phaseEstOp),
                BuildArgument("qubits", qubitArrayType)
            }
            .ConvertAll(arg => QsTuple <ArgDeclType> .NewQsTupleItem(arg))
            .ToImmutableArray();
            var argTuple = QsTuple <ArgDeclType> .NewQsTuple(args);

            var specs = new QsSpecialization[] { }.ToImmutableArray();

            var qsCallable = new QsCallable(QsCallableKind.Operation,
                                            MakeFullName("AdiabaticStateEnergyUnitary"),
                                            ImmutableArray <QsDeclarationAttribute> .Empty,
                                            NonNullable <string> .New("Techniques.qs"),
                                            ZeroLocation,
                                            signature,
                                            argTuple,
                                            specs,
                                            comments.ToImmutableArray(),
                                            QsComments.Empty);
            var callable = new DocCallable("Microsoft.Quantum.Canon", qsCallable);

            var stream = new StringWriter();

            callable.WriteToFile(stream);
            var s = stream.ToString();

            Assert.Equal(expected, s);
        }
Esempio n. 27
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 NonNullable <string> SourceOr(NonNullable <string> origSource) => NonNullable <string> .New(source ?? origSource.Value);
Esempio n. 28
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        /// <summary>
        /// Builds the corresponding .net core assembly from the Q# syntax tree.
        /// </summary>
        private static AssemblyInfo BuildAssembly(Uri[] fileNames, QsCompiler.SyntaxTree.QsNamespace[] syntaxTree, IEnumerable <MetadataReference> references, QSharpLogger logger, string targetDll)
        {
            if (logger.HasErrors)
            {
                return(null);
            }

            logger.LogDebug($"Compiling the following Q# files: {string.Join(",", fileNames.Select(f => f.LocalPath))}");

            try
            {
                // Generate C# simulation code from Q# syntax tree and convert it into C# syntax trees:
                var trees = new List <SyntaxTree>();
                NonNullable <string> GetFileId(Uri uri) => CompilationUnitManager.TryGetFileId(uri, out var id) ? id : NonNullable <string> .New(uri.AbsolutePath);

                foreach (var file in fileNames)
                {
                    var sourceFile = GetFileId(file);
                    var code       = SimulationCode.generate(sourceFile, syntaxTree);
                    var tree       = CSharpSyntaxTree.ParseText(code, encoding: UTF8Encoding.UTF8);
                    trees.Add(tree);
                    logger.LogDebug($"Generated the following C# code for {sourceFile.Value}:\n=============\n{code}\n=============\n");
                }

                // Compile the C# syntax trees:
                var options = new CSharpCompilationOptions(OutputKind.DynamicallyLinkedLibrary, optimizationLevel: OptimizationLevel.Debug);

                var compilation = CSharpCompilation.Create(
                    Path.GetFileNameWithoutExtension(targetDll),
                    trees,
                    references,
                    options);

                // Generate the assembly from the C# compilation:
                using (var ms = new MemoryStream())
                {
                    EmitResult result = compilation.Emit(ms);

                    if (!result.Success)
                    {
                        IEnumerable <Diagnostic> failures = result.Diagnostics.Where(diagnostic =>
                                                                                     diagnostic.IsWarningAsError ||
                                                                                     diagnostic.Severity == DiagnosticSeverity.Error);

                        logger.LogError("IQS000", "Could not compile Roslyn dll from working folder.");

                        foreach (Diagnostic diagnostic in failures)
                        {
                            logger.LogError(diagnostic.Id, diagnostic.GetMessage());
                        }

                        return(null);
                    }
                    else
                    {
                        logger.LogDebug($"Assembly successfully generated. Caching at {targetDll}.");
                        var data = ms.ToArray();

                        try
                        {
                            File.WriteAllBytes(targetDll, data);
                        }
                        catch (Exception e)
                        {
                            logger.LogError("IQS001", $"Unable to save assembly cache: {e.Message}.");
                        }

                        return(new AssemblyInfo(Assembly.Load(data), targetDll, syntaxTree));
                    }
                }
            }
            catch (Exception e)
            {
                logger.LogError("IQS002", $"Unexpected error compiling assembly: {e.Message}.");
                return(null);
            }
        }
Esempio n. 29
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        private static Identifier GetConcreteIdentifier(
            Response currentResponse,
            Stack <Request> requests,
            List <Response> responses,
            Identifier.GlobalCallable globalCallable,
            ImmutableConcretion types)
        {
            QsQualifiedName concreteName = globalCallable.Item;

            var typesHashSet = ImmutableHashSet <KeyValuePair <Tuple <QsQualifiedName, NonNullable <string> >, ResolvedType> > .Empty;

            if (types != null && !types.IsEmpty)
            {
                typesHashSet = types.ToImmutableHashSet();
            }

            string name = null;

            // Check for recursive call
            if (currentResponse.OriginalName.Equals(globalCallable.Item) &&
                typesHashSet.SetEquals(currentResponse.TypeResolutions))
            {
                name = currentResponse.ConcreteCallable.FullName.Name.Value;
            }

            // Search requests for identifier
            if (name == null)
            {
                name = requests
                       .Where(req =>
                              req.OriginalName.Equals(globalCallable.Item) &&
                              typesHashSet.SetEquals(req.TypeResolutions))
                       .Select(req => req.ConcreteName.Name.Value)
                       .FirstOrDefault();
            }

            // Search responses for identifier
            if (name == null)
            {
                name = responses
                       .Where(res =>
                              res.OriginalName.Equals(globalCallable.Item) &&
                              typesHashSet.SetEquals(res.TypeResolutions))
                       .Select(res => res.ConcreteCallable.FullName.Name.Value)
                       .FirstOrDefault();
            }

            // If identifier can't be found, make a new request
            if (name == null)
            {
                // If this is not a generic, do not change the name
                if (!typesHashSet.IsEmpty)
                {
                    // Create new name
                    concreteName = UniqueVariableNames.PrependGuid(globalCallable.Item);
                }

                requests.Push(new Request()
                {
                    OriginalName    = globalCallable.Item,
                    TypeResolutions = types,
                    ConcreteName    = concreteName
                });
            }
            else
            {
                // If the identifier was found, update with the name
                concreteName = new QsQualifiedName(globalCallable.Item.Namespace, NonNullable <string> .New(name));
            }

            return(Identifier.NewGlobalCallable(concreteName));
        }
Esempio n. 30
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 internal static QsQualifiedName MakeFullName(string name)
 {
     return(new QsQualifiedName(CanonName, NonNullable <string> .New(name)));
 }