/// <summary> /// Instanciate a new pattern matching building block. /// </summary> /// <param name="numberOfInputs">The count of input neurons.</param> /// <param name="numberOfClasses">The count of output neurons.</param> /// <param name="config">The configuration instance (to replace the default).</param> public Controler(int numberOfInputs, int numberOfClasses, ConfigNode config) { config.AttatchToHost(this); _patterns = new PatternSet(numberOfClasses); _outputTraining = new double[numberOfClasses]; _inputPattern = new double[numberOfInputs]; //BuildNetwork(true); }
internal ManagedCodePatterns(ManagedCodeConventions conventions) { AnyTargettedFile = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { new PatternDefinition("{any}/{tfm}/{any?}", table: DotnetAnyTable), new PatternDefinition("runtimes/{rid}/{any}/{tfm}/{any?}", table: DotnetAnyTable), }, pathPatterns: new PatternDefinition[] { new PatternDefinition("{any}/{tfm}/{any?}", table: DotnetAnyTable), new PatternDefinition("runtimes/{rid}/{any}/{tfm}/{any?}", table: DotnetAnyTable), }); RuntimeAssemblies = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { new PatternDefinition("runtimes/{rid}/lib/{tfm}/{any?}", table: DotnetAnyTable), new PatternDefinition("lib/{tfm}/{any?}", table: DotnetAnyTable), new PatternDefinition("lib/{assembly?}", table: DotnetAnyTable, defaults: NetTFMTable) }, pathPatterns: new PatternDefinition[] { new PatternDefinition("runtimes/{rid}/lib/{tfm}/{assembly}", table: DotnetAnyTable), new PatternDefinition("lib/{tfm}/{assembly}", table: DotnetAnyTable), new PatternDefinition("lib/{assembly}", table: DotnetAnyTable, defaults: NetTFMTable) }); CompileRefAssemblies = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { new PatternDefinition("ref/{tfm}/{any?}", table: DotnetAnyTable), }, pathPatterns: new PatternDefinition[] { new PatternDefinition("ref/{tfm}/{assembly}", table: DotnetAnyTable), }); CompileLibAssemblies = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { new PatternDefinition("lib/{tfm}/{any?}", table: DotnetAnyTable), new PatternDefinition("lib/{assembly?}", table: DotnetAnyTable, defaults: NetTFMTable) }, pathPatterns: new PatternDefinition[] { new PatternDefinition("lib/{tfm}/{assembly}", table: DotnetAnyTable), new PatternDefinition("lib/{assembly}", table: DotnetAnyTable, defaults: NetTFMTable) }); NativeLibraries = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { new PatternDefinition("runtimes/{rid}/nativeassets/{tfm}/{any?}", table: DotnetAnyTable), new PatternDefinition("runtimes/{rid}/native/{any?}", table: null, defaults: DefaultTfmAny) }, pathPatterns: new PatternDefinition[] { new PatternDefinition("runtimes/{rid}/nativeassets/{tfm}/{any}", table: DotnetAnyTable), new PatternDefinition("runtimes/{rid}/native/{any}", table: null, defaults: DefaultTfmAny) }); ResourceAssemblies = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { new PatternDefinition("runtimes/{rid}/lib/{tfm}/{locale?}/{any?}", table: DotnetAnyTable), new PatternDefinition("lib/{tfm}/{locale?}/{any?}", table: DotnetAnyTable), }, pathPatterns: new PatternDefinition[] { new PatternDefinition("runtimes/{rid}/lib/{tfm}/{locale}/{satelliteAssembly}", table: DotnetAnyTable), new PatternDefinition("lib/{tfm}/{locale}/{satelliteAssembly}", table: DotnetAnyTable), }); MSBuildFiles = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { new PatternDefinition("build/{tfm}/{msbuild?}", table: DotnetAnyTable), new PatternDefinition("build/{msbuild?}", table: null, defaults: DefaultTfmAny) }, pathPatterns: new PatternDefinition[] { new PatternDefinition("build/{tfm}/{msbuild}", table: DotnetAnyTable), new PatternDefinition("build/{msbuild}", table: null, defaults: DefaultTfmAny) }); MSBuildMultiTargetingFiles = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { new PatternDefinition("buildMultiTargeting/{msbuild?}", table: null, defaults: DefaultTfmAny), // deprecated new PatternDefinition("buildCrossTargeting/{msbuild?}", table: null, defaults: DefaultTfmAny) }, pathPatterns: new PatternDefinition[] { new PatternDefinition("buildMultiTargeting/{msbuild}", table: null, defaults: DefaultTfmAny), // deprecated new PatternDefinition("buildCrossTargeting/{msbuild}", table: null, defaults: DefaultTfmAny) }); ContentFiles = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { new PatternDefinition("contentFiles/{codeLanguage}/{tfm}/{any?}"), }, pathPatterns: new PatternDefinition[] { new PatternDefinition("contentFiles/{codeLanguage}/{tfm}/{any?}"), }); ToolsAssemblies = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { new PatternDefinition("tools/{tfm}/{rid}/{any?}", table: AnyTable), }, pathPatterns: new PatternDefinition[] { new PatternDefinition("tools/{tfm}/{rid}/{any?}", table: AnyTable), }); EmbedAssemblies = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { new PatternDefinition("embed/{tfm}/{any?}", table: DotnetAnyTable), }, pathPatterns: new PatternDefinition[] { new PatternDefinition("embed/{tfm}/{assembly}", table: DotnetAnyTable), }); MSBuildTransitiveFiles = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { new PatternDefinition("buildTransitive/{tfm}/{msbuild?}", table: DotnetAnyTable), new PatternDefinition("buildTransitive/{msbuild?}", table: null, defaults: DefaultTfmAny) }, pathPatterns: new PatternDefinition[] { new PatternDefinition("buildTransitive/{tfm}/{msbuild}", table: DotnetAnyTable), new PatternDefinition("buildTransitive/{msbuild}", table: null, defaults: DefaultTfmAny) }); }
protected override void ExecuteTask() { string dir = SolutionDir.FullName; string repositoryPath = GetRepositoryPathFromSolution(dir); if (Feed == null) { Feed = "https://www.nuget.org/api/v2/"; } _fileSystem = new PhysicalFileSystem(dir); RepositoryFactory = new PackageRepositoryFactory(); SourceProvider = new PackageSourceProvider(new Settings(_fileSystem)); var repo = RepositoryFactory.CreateRepository(Feed); Log(Level.Debug, "Repo: {0}, Count: {1}", repo.Source, repo.GetPackages().Count()); var fw = VersionUtility.ParseFrameworkName(Framework); List <string> files = new List <string>(), references = new List <string>(); foreach (var deps in Dependencies) { foreach (var dep in deps.Dependencies) { var package = repo.FindPackage(dep.Id, dep.VersionSpec, !String.IsNullOrWhiteSpace(dep.VersionSpec.MinVersion.SpecialVersion), false); if (package == null) { package = repo.FindPackage(dep.Id, dep.VersionSpec, true, false); } if (package == null) { package = repo.FindPackage(dep.Id, dep.VersionSpec, true, true); } if (package == null) { throw new BuildException(String.Format("Can't find package {0} with min version {1}", dep.Id, dep.MinVersion), Location); } string pkgPath = Path.Combine(repositoryPath, package.Id + "." + package.Version); var package_files = package.GetLibFiles().ToList(); IEnumerable <IPackageFile> compatible_files; Log(Level.Debug, "Found package {0} with {1} file(s) - {2}", package.Id, package_files.Count, package.GetType()); if (!VersionUtility.TryGetCompatibleItems(fw, package_files, out compatible_files)) { throw new BuildException("Couldn't get compatible files."); } foreach (var f in compatible_files) { var extension = Path.GetExtension(f.Path); var path = Path.Combine(pkgPath, f.Path); if (File.Exists(path)) { break; } if (!Directory.Exists(Path.GetDirectoryName(path))) { Directory.CreateDirectory(Path.GetDirectoryName(path)); } using (var fileStream = new FileStream(path, FileMode.Create, FileAccess.Write, FileShare.Read)) { using (var stream = f.GetStream()) { stream.CopyTo(fileStream); fileStream.Flush(); fileStream.Dispose(); } } Log(Level.Debug, " - Found compatible file {1} ({0}) - {2}", f.Path, f.EffectivePath, path); if (extension == ".dll" || extension == ".exe") { references.Add(path); } files.Add(path); } } } if (FilesId != null) { PatternSet ps = new PatternSet(); ps.Include.AddRange(files.Select(MakePattern).ToArray()); Project.DataTypeReferences.Add(FilesId, ps); } if (ReferencesId != null) { PatternSet ps = new PatternSet(); ps.Include.AddRange(references.Select(MakePattern).ToArray()); Project.DataTypeReferences.Add(ReferencesId, ps); } Log(Level.Info, "Found {0} file(s) and {1} reference(s)", files.Count, references.Count); }
internal static void GetContentForPattern(ContentItemCollection collection, PatternSet pattern, IList <ContentItemGroup> itemGroups) { collection.PopulateItemGroups(pattern, itemGroups); }
/// <summary> /// Instanciate a new pattern matching building block. /// </summary> /// <param name="numberOfInputs">The count of input neurons.</param> /// <param name="numberOfClasses">The count of output neurons.</param> /// <param name="builder">A network structure builder (to replace the default).</param> public Controler(int numberOfInputs, int numberOfClasses, INetworkStructureBuilder builder) { ConfigNode.AttachRootNodeToHost(this); _patterns = new PatternSet(numberOfClasses); _outputTraining = new double[numberOfClasses]; _inputPattern = new double[numberOfInputs]; _builder = builder; //BuildNetwork(true); }
internal ManagedCodePatterns(ManagedCodeConventions conventions) { RuntimeAssemblies = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { "runtimes/{rid}/lib/{tfm}/{any?}", "lib/{tfm}/{any?}", new PatternDefinition("lib/{assembly?}", defaults: new Dictionary <string, object> { { "tfm", new NuGetFramework(FrameworkConstants.FrameworkIdentifiers.Net, FrameworkConstants.EmptyVersion) } }) }, pathPatterns: new PatternDefinition[] { "runtimes/{rid}/lib/{tfm}/{assembly}", "lib/{tfm}/{assembly}", new PatternDefinition("lib/{assembly}", defaults: new Dictionary <string, object> { { "tfm", new NuGetFramework(FrameworkConstants.FrameworkIdentifiers.Net, FrameworkConstants.EmptyVersion) } }) }); CompileAssemblies = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { "ref/{tfm}/{any?}", }, pathPatterns: new PatternDefinition[] { "ref/{tfm}/{assembly}", }); NativeLibraries = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { "runtimes/{rid}/native/{any?}", "native/{any?}", }, pathPatterns: new PatternDefinition[] { "runtimes/{rid}/native/{any}", "native/{any}", }); ResourceAssemblies = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { "runtimes/{rid}/lib/{tfm}/{locale?}/{any?}", "lib/{tfm}/{locale?}/{any?}" }, pathPatterns: new PatternDefinition[] { "runtimes/{rid}/lib/{tfm}/{locale}/{resources}", "lib/{tfm}/{locale}/{resources}" }); MSBuildFiles = new PatternSet( conventions.Properties, groupPatterns: new PatternDefinition[] { "build/{tfm}/{any?}", new PatternDefinition("build/{any?}", defaults: new Dictionary <string, object> { { "tfm", new NuGetFramework(FrameworkConstants.FrameworkIdentifiers.Net, FrameworkConstants.EmptyVersion) } }) }, pathPatterns: new PatternDefinition[] { "build/{tfm}/{msbuild}", new PatternDefinition("build/{msbuild}", defaults: new Dictionary <string, object> { { "tfm", new NuGetFramework(FrameworkConstants.FrameworkIdentifiers.Net, FrameworkConstants.EmptyVersion) } }) }); }
private static IEnumerable <ContentItemGroup> GetContentForPattern(ContentItemCollection collection, PatternSet pattern) { return(collection.FindItemGroups(pattern)); }
void Hamming(PatternSet ps, double[] vector) { }
void Habb(PatternSet ps, double[] vector) { }