Exemplo n.º 1
0
        private static async Task <DocumentAnalysisResults> AnalyzeDocumentAsync(
            Project oldProject,
            Document newDocument,
            ActiveStatementsMap activeStatementMap   = null,
            EditAndContinueCapabilities capabilities = EditAndContinueTestHelpers.Net5RuntimeCapabilities)
        {
            var analyzer             = new CSharpEditAndContinueAnalyzer();
            var baseActiveStatements = AsyncLazy.Create(activeStatementMap ?? ActiveStatementsMap.Empty);
            var lazyCapabilities     = AsyncLazy.Create(capabilities);

            return(await analyzer.AnalyzeDocumentAsync(oldProject, baseActiveStatements, newDocument, ImmutableArray <LinePositionSpan> .Empty, lazyCapabilities, CancellationToken.None));
        }
        public async Task GetValueAsync()
        {
            var count = 0;
            var lazy  = AsyncLazy.Create(async() =>
            {
                Interlocked.Increment(ref count);
                await Task.Yield();
                return(1);
            });

            var a     = lazy.GetValueAsync();
            var value = await lazy.GetValueAsync();

            Assert.AreEqual(1, value);
            Assert.AreEqual(1, count);
        }
Exemplo n.º 3
0
        private static async Task <ImmutableArray <Project> > GetDependentProjectsWorkerAsync(
            Solution solution, ISymbol symbol, CancellationToken cancellationToken)
        {
            cancellationToken.ThrowIfCancellationRequested();

            var symbolOrigination = GetSymbolOrigination(solution, symbol, cancellationToken);

            // If we can't find where the symbol came from, we can't determine what projects to search for references to it.
            if (symbolOrigination.assembly == null)
            {
                return(ImmutableArray <Project> .Empty);
            }

            // 1) Compute all the dependent projects (submission + non-submission) and their InternalsVisibleTo semantics to the definition project.

            var visibility = symbol.GetResultantVisibility();

            if (visibility == SymbolVisibility.Private)
            {
                // For private symbols, we only need the current project (and related submissions).  No need to cache
                // that, just simply compute and return the result.
                return(GetProjects(solution, await ComputeDependentProjectsAsync(solution, symbolOrigination, visibility, cancellationToken).ConfigureAwait(false)));
            }

            // Otherwise, for non-private symbols, we cache the dependent projects for non-private symbols to speed up
            // future calls.
            var dependentProjectsMap = s_dependentProjectsCache.GetValue(solution, _ => new DependentProjectMap());

            var asyncLazy = dependentProjectsMap.GetOrAdd(
                new DefinitionProject(symbolOrigination.sourceProject?.Id, symbolOrigination.assembly.Name.ToLower()),
                _ => AsyncLazy.Create(c => ComputeDependentProjectsAsync(solution, symbolOrigination, visibility, c), cacheResult: true));
            var dependentProjects = await asyncLazy.GetValueAsync(cancellationToken).ConfigureAwait(false);

            // 2) Filter the above computed dependent projects based on symbol visibility.
            return(GetProjects(solution, visibility == SymbolVisibility.Internal
                ? dependentProjects.WhereAsArray(dp => dp.HasInternalsAccess)
                : dependentProjects));
        }
 // Extract a local function to avoid creating a closure for code path of cache hit.
 static AsyncLazy <SyntaxContext> GetLazySyntaxContextWithSpeculativeModel(Document document, SharedSyntaxContextsWithSpeculativeModel self)
 {
     return(self._cache.GetOrAdd(document, d => AsyncLazy.Create(cancellationToken
                                                                 => CompletionHelper.CreateSyntaxContextWithExistingSpeculativeModelAsync(d, self._position, cancellationToken), cacheResult: true)));
 }