public void TestConstructorNoItems() { TargetResult result = new TargetResult(new TaskItem[] { }, TestUtilities.GetStopWithErrorResult()); Assert.Equal(0, result.Items.Length); Assert.Null(result.Exception); Assert.Equal(TargetResultCode.Failure, result.ResultCode); }
public void TestConstructorNullItems() { Assert.Throws<ArgumentNullException>(() => { TargetResult result = new TargetResult(null, TestUtilities.GetStopWithErrorResult()); } ); }
public void TestConstructorWithItems() { TaskItem item = new TaskItem("foo", "bar.proj"); TargetResult result = new TargetResult(new TaskItem[] { item }, TestUtilities.GetStopWithErrorResult()); Assert.Equal(1, result.Items.Length); Assert.Equal(item.ItemSpec, result.Items[0].ItemSpec); Assert.Equal(TargetResultCode.Failure, result.ResultCode); }
public void TestConstructorWithException() { TaskItem item = new TaskItem("foo", "bar.proj"); TargetResult result = new TargetResult(new TaskItem[] { item }, TestUtilities.GetStopWithErrorResult(new ArgumentException())); Assert.Equal(1, result.Items.Length); Assert.NotNull(result.Exception); Assert.Equal(typeof(ArgumentException), result.Exception.GetType()); Assert.Equal(TargetResultCode.Failure, result.ResultCode); }
/// <summary> /// Clear cached files from disk. /// </summary> internal void ClearCachedFiles() { string resultsDirectory = TargetResult.GetCacheDirectory(_configurationId, "None" /*Does not matter because we just need the directory name not the file*/); if (Directory.Exists(resultsDirectory)) { FileUtilities.DeleteDirectoryNoThrow(resultsDirectory, true /*recursive*/); } }
/// <summary> /// Adds the results for the specified target to this result collection. /// </summary> /// <param name="target">The target to which these results apply.</param> /// <param name="result">The results for the target.</param> public void AddResultsForTarget(string target, TargetResult result) { ErrorUtilities.VerifyThrowArgumentNull(target, "target"); ErrorUtilities.VerifyThrowArgumentNull(result, "result"); if (_resultsByTarget.ContainsKey(target)) { ErrorUtilities.VerifyThrow(_resultsByTarget[target].ResultCode == TargetResultCode.Skipped, "Items already exist for target {0}.", target); } _resultsByTarget[target] = result; }
public void TestMergeResultsBad2() { BuildResult result = new BuildResult(1); result["foo"] = new TargetResult(new BuildItem[0] { }, BuildResultCode.Success); BuildResult result2 = new BuildResult(1); result2["foo"] = new TargetResult(new BuildItem[0] { }, BuildResultCode.Success); result.MergeResults(result2); }
public void TestConstructorWithExceptionNull() { TaskItem item = new TaskItem("foo", "bar.proj"); TargetResult result = new TargetResult(new TaskItem[] { item }, TestUtilities.GetStopWithErrorResult()); Assert.AreEqual(1, result.Items.Length); Assert.IsNull(result.Exception); Assert.AreEqual(TargetResultCode.Failure, result.ResultCode); }
public void AddResultsForTarget (string target, TargetResult result) { ResultsByTarget.Add (target, result); }
// FIXME: Exception should be caught at caller site. bool DoBuildTarget (ProjectTargetInstance target, TargetResult targetResult, InternalBuildArguments args) { var request = submission.BuildRequest; // Here we check cancellation (only after TargetStarted event). if (args.CheckCancel ()) { targetResult.Failure (new BuildAbortedException ("Build has canceled")); return false; } try { foreach (var child in target.Children) { // Evaluate additional target properties var tp = child as ProjectPropertyGroupTaskInstance; if (tp != null) { if (!args.Project.EvaluateCondition (tp.Condition)) continue; foreach (var p in tp.Properties) { if (!args.Project.EvaluateCondition (p.Condition)) continue; var value = args.Project.ExpandString (p.Value); project.SetProperty (p.Name, value); } continue; } var ii = child as ProjectItemGroupTaskInstance; if (ii != null) { if (!args.Project.EvaluateCondition (ii.Condition)) continue; foreach (var item in ii.Items) { if (!args.Project.EvaluateCondition (item.Condition)) continue; project.AddItem (item.ItemType, project.ExpandString (item.Include)); } continue; } var task = child as ProjectTaskInstance; if (task != null) { current_task = task; if (!args.Project.EvaluateCondition (task.Condition)) { LogMessageEvent (new BuildMessageEventArgs (string.Format ("Task '{0}' was skipped because condition '{1}' wasn't met.", task.Name, task.Condition), null, null, MessageImportance.Low)); continue; } if (!RunBuildTask (target, task, targetResult, args)) return false; continue; } var onError = child as ProjectOnErrorInstance; if (onError != null) continue; // evaluated under catch clause. throw new NotSupportedException (string.Format ("Unexpected Target element children \"{0}\"", child.GetType ())); } } catch (Exception ex) { // fallback task specified by OnError element foreach (var c in target.Children.OfType<ProjectOnErrorInstance> ()) { if (!args.Project.EvaluateCondition (c.Condition)) continue; foreach (var fallbackTarget in project.ExpandString (c.ExecuteTargets).Split (';')) BuildTargetByName (fallbackTarget, args); } int line = target.Location != null ? target.Location.Line : 0; int col = target.Location != null ? target.Location.Column : 0; LogErrorEvent (new BuildErrorEventArgs (null, null, target.FullPath, line, col, 0, 0, ex.Message, null, null)); targetResult.Failure (ex); return false; } return true; }
public void AddTargetResult (string targetName, TargetResult targetResult) { if (!Result.HasResultsForTarget (targetName)) Result.AddResultsForTarget (targetName, targetResult); }
/// <summary> /// When a target build fails, we don't just stop building that target; we also pop all of the other dependency targets of its /// parent target off the stack. Extract that logic into a standalone method so that it can be used when dealing with targets that /// are skipped-unsuccessful as well as first-time failures. /// </summary> private void PopDependencyTargetsOnTargetFailure(TargetEntry topEntry, TargetResult targetResult, ref bool stopProcessingStack) { if (targetResult.WorkUnitResult.ActionCode == WorkUnitActionCode.Stop) { // Pop down to our parent, since any other dependencies our parent had should no longer // execute. If we encounter an error target on the way down, also stop since the failure // of one error target in a set declared in OnError should not cause the others to stop running. while ((!_targetsToBuild.IsEmpty) && (_targetsToBuild.Peek() != topEntry.ParentEntry) && !_targetsToBuild.Peek().ErrorTarget) { TargetEntry entry = _targetsToBuild.Pop(); entry.LeaveLegacyCallTargetScopes(); // This target is no longer actively building (if it was). _requestEntry.RequestConfiguration.ActivelyBuildingTargets.Remove(topEntry.Name); // If we come across an entry which requires us to stop processing (for instance, an aftertarget of the original // CallTarget target) then we need to use that flag, not the one from the top entry. if (entry.StopProcessingOnCompletion) { stopProcessingStack = true; } } // Mark our parent for error execution if (topEntry.ParentEntry != null && topEntry.ParentEntry.State != TargetEntryState.Completed) { topEntry.ParentEntry.MarkForError(); } } }
public void AddResultsForTarget(string target, TargetResult result) { ResultsByTarget.Add(target, result); }
/// <summary> /// Generate results for the targets requested to be built. Using the TestDataProvider also simulate any /// P2P callbacks on the first target. In order to test the cancels there is also functionality to allow the /// target execution to wait on a cancel event before exiting /// </summary> private BuildResult GenerateResults(string[] targetNames) { bool simulatedResults = false; BuildResult result = new BuildResult(_requestEntry.Request); foreach (string target in targetNames) { if (!simulatedResults) { SimulateCallBacks(); simulatedResults = true; } // Wait for this to be cancelled if (_testDefinition.WaitForCancel) { _cancellationToken.WaitHandle.WaitOne(); _buildDone.Set(); throw new BuildAbortedException(); } if (_testDefinition.ExecutionTime > 0) { Thread.Sleep(_testDefinition.ExecutionTime); } TaskItem[] items = new TaskItem[] { new TaskItem("itemValue", _requestEntry.RequestConfiguration.ProjectFullPath) }; TargetResult targetResult = new TargetResult(items, TestUtilities.GetSuccessResult()); result.AddResultsForTarget(target, targetResult); } _buildDone.Set(); return result; }
public void TestTranslationNoException() { TaskItem item = new TaskItem("foo", "bar.proj"); item.SetMetadata("a", "b"); TargetResult result = new TargetResult(new TaskItem[] { item }, TestUtilities.GetStopWithErrorResult()); ((INodePacketTranslatable)result).Translate(TranslationHelpers.GetWriteTranslator()); TargetResult deserializedResult = TargetResult.FactoryForDeserialization(TranslationHelpers.GetReadTranslator()); Assert.Equal(result.ResultCode, deserializedResult.ResultCode); Assert.True(TranslationHelpers.CompareCollections(result.Items, deserializedResult.Items, TaskItemComparer.Instance)); Assert.True(TranslationHelpers.CompareExceptions(result.Exception, deserializedResult.Exception)); }
/// <summary> /// Invokes the specified targets using Dev9 behavior. /// </summary> /// <param name="targets">The targets to build.</param> /// <param name="continueOnError">True to continue building the remaining targets if one fails.</param> /// <returns>The results for each target.</returns> /// <remarks> /// Dev9 behavior refers to the following: /// 1. The changes made during the calling target up to this point are NOT visible to this target. /// 2. The changes made by this target are NOT visible to the calling target. /// 3. Changes made by the calling target OVERRIDE changes made by this target. /// </remarks> async Task<ITargetResult[]> ITargetBuilderCallback.LegacyCallTarget(string[] targets, bool continueOnError, ElementLocation taskLocation) { List<TargetSpecification> targetToPush = new List<TargetSpecification>(); ITargetResult[] results = new TargetResult[targets.Length]; bool originalLegacyCallTargetContinueOnError = _legacyCallTargetContinueOnError; _legacyCallTargetContinueOnError = _legacyCallTargetContinueOnError || continueOnError; // Our lookup is the one used at the beginning of the calling target. Lookup callTargetLookup = _baseLookup; // We now record this lookup in the calling target's entry so that it may // leave the scope just before it commits its own changes to the base lookup. TargetEntry currentTargetEntry = _targetsToBuild.Peek(); currentTargetEntry.EnterLegacyCallTargetScope(callTargetLookup); ITaskBuilder taskBuilder = _componentHost.GetComponent(BuildComponentType.TaskBuilder) as ITaskBuilder; try { // Flag set to true if one of the targets we call fails. bool errorResult = false; // Now walk through the list of targets, invoking each one. for (int i = 0; i < targets.Length; i++) { if (_cancellationToken.IsCancellationRequested || errorResult) { results[i] = new TargetResult(new TaskItem[] { }, new WorkUnitResult(WorkUnitResultCode.Skipped, WorkUnitActionCode.Continue, null)); } else { targetToPush.Clear(); targetToPush.Add(new TargetSpecification(targets[i], taskLocation)); // We push the targets one at a time to emulate the original CallTarget behavior. bool pushed = await PushTargets(targetToPush, currentTargetEntry, callTargetLookup, false, true, TargetPushType.Normal); ErrorUtilities.VerifyThrow(pushed, "Failed to push any targets onto the stack. Target: {0} Current Target: {1}", targets[i], currentTargetEntry.Target.Name); await ProcessTargetStack(taskBuilder); if (!_cancellationToken.IsCancellationRequested) { results[i] = _buildResult[targets[i]]; if (results[i].ResultCode == TargetResultCode.Failure) { errorResult = true; } } else { results[i] = new TargetResult(new TaskItem[] { }, new WorkUnitResult(WorkUnitResultCode.Skipped, WorkUnitActionCode.Continue, null)); } } } } finally { // Restore the state of the TargetBuilder to that it was prior to the CallTarget call. // Any targets we have pushed on at this point we need to get rid of since we aren't going to process them. // If there were normal task errors, standard error handling semantics would have taken care of them. // If there was an exception, such as a circular dependency error, items may still be on the stack so we must clear them. while (!Object.ReferenceEquals(_targetsToBuild.Peek(), currentTargetEntry)) { _targetsToBuild.Pop(); } _legacyCallTargetContinueOnError = originalLegacyCallTargetContinueOnError; ((IBuildComponent)taskBuilder).ShutdownComponent(); } return results; }
bool DoBuildTarget (ProjectTargetInstance target, TargetResult targetResult, InternalBuildArguments args) { var request = submission.BuildRequest; // Here we check cancellation (only after TargetStarted event). if (args.CheckCancel ()) { targetResult.Failure (new BuildAbortedException ("Build has canceled")); return false; } var propsToRestore = new Dictionary<string,string> (); var itemsToRemove = new List<ProjectItemInstance> (); try { // Evaluate additional target properties foreach (var c in target.Children.OfType<ProjectPropertyGroupTaskInstance> ()) { if (!args.Project.EvaluateCondition (c.Condition)) continue; foreach (var p in c.Properties) { if (!args.Project.EvaluateCondition (p.Condition)) continue; var value = args.Project.ExpandString (p.Value); propsToRestore.Add (p.Name, project.GetPropertyValue (value)); project.SetProperty (p.Name, value); } } // Evaluate additional target items foreach (var c in target.Children.OfType<ProjectItemGroupTaskInstance> ()) { if (!args.Project.EvaluateCondition (c.Condition)) continue; foreach (var item in c.Items) { if (!args.Project.EvaluateCondition (item.Condition)) continue; Func<string,ProjectItemInstance> creator = i => new ProjectItemInstance (project, item.ItemType, item.Metadata.Select (m => new KeyValuePair<string,string> (m.Name, m.Value)), i); foreach (var ti in project.GetAllItems (item.Include, item.Exclude, creator, creator, s => s == item.ItemType, (ti, s) => ti.SetMetadata ("RecurseDir", s))) itemsToRemove.Add (ti); } } foreach (var c in target.Children.OfType<ProjectOnErrorInstance> ()) { if (!args.Project.EvaluateCondition (c.Condition)) continue; throw new NotImplementedException (); } // run tasks foreach (var ti in target.Children.OfType<ProjectTaskInstance> ()) { current_task = ti; if (!args.Project.EvaluateCondition (ti.Condition)) { LogMessageEvent (new BuildMessageEventArgs (string.Format ("Task '{0}' was skipped because condition '{1}' wasn't met.", ti.Name, ti.Condition), null, null, MessageImportance.Low)); continue; } if (!RunBuildTask (target, ti, targetResult, args)) return false; } } finally { // restore temporary property state to the original state. foreach (var p in propsToRestore) { if (p.Value == string.Empty) project.RemoveProperty (p.Key); else project.SetProperty (p.Key, p.Value); } foreach (var item in itemsToRemove) project.RemoveItem (item); } return true; }
/// <summary> /// Checks if the target results are as expected. /// </summary> private void InternalValidateTargetEndResult(TargetResult targetResult, TargetResultCode expectedResultCode, string[] items) { int foundCount = 0; Assert.AreEqual(expectedResultCode, targetResult.ResultCode, "Expected result is not the same as the received result"); if (items != null) { foreach (string item in items) { bool foundItemValue = false; foreach (ITaskItem i in targetResult.Items) { if (item == i.ItemSpec) { foundItemValue = true; foundCount++; break; } } Assert.IsTrue(foundItemValue, "Item not found in result"); } Assert.IsTrue(foundCount == items.Length, "Total items expected was not the same as what was received."); } }
bool BuildTargetByName (string targetName, InternalBuildArguments args) { var request = submission.BuildRequest; var parameters = submission.BuildManager.OngoingBuildParameters; ProjectTargetInstance target; TargetResult dummyResult; if (args.Result.ResultsByTarget.TryGetValue (targetName, out dummyResult) && dummyResult.ResultCode == TargetResultCode.Success) { LogMessageEvent (new BuildMessageEventArgs (string.Format ("Target '{0}' was skipped because it was already built successfully.", targetName), null, null, MessageImportance.Low)); return true; // do not add result. } var targetResult = new TargetResult (); // null key is allowed and regarded as blind success(!) (as long as it could retrieve target) if (!request.ProjectInstance.Targets.TryGetValue (targetName, out target)) // FIXME: from MSBuild.exe it is given MSB4057. Can we assign a number too? throw new InvalidOperationException (string.Format ("target '{0}' was not found in project '{1}'", targetName, project.FullPath)); else if (!args.Project.EvaluateCondition (target.Condition)) { LogMessageEvent (new BuildMessageEventArgs (string.Format ("Target '{0}' was skipped because condition '{1}' was not met.", target.Name, target.Condition), null, null, MessageImportance.Low)); targetResult.Skip (); } else { // process DependsOnTargets first. foreach (var dep in project.ExpandString (target.DependsOnTargets).Split (';').Select (s => s.Trim ()).Where (s => !string.IsNullOrEmpty (s))) { LogMessageEvent (new BuildMessageEventArgs (string.Format ("Target '{0}' depends on '{1}'.", target.Name, dep), null, null, MessageImportance.Low)); if (!BuildTargetByName (dep, args)) { LogMessageEvent (new BuildMessageEventArgs (string.Format ("Quit target '{0}', as dependency target '{1}' has failed.", target.Name, dep), null, null, MessageImportance.Low)); return false; } } Func<string,ITaskItem> creator = s => new TargetOutputTaskItem () { ItemSpec = s }; event_source.FireTargetStarted (this, new TargetStartedEventArgs ("Target Started", null, target.Name, project.FullPath, target.FullPath)); try { // FIXME: examine in which scenario Inputs/Outputs inconsistency results in errors. Now it rather prevents csproj build. /*if (!string.IsNullOrEmpty (target.Inputs) != !string.IsNullOrEmpty (target.Outputs)) { targetResult.Failure (new InvalidProjectFileException (target.Location, null, string.Format ("Target {0} has mismatching Inputs and Outputs specification. When one is specified, another one has to be specified too.", targetName), null, null, null)); } else*/ { bool skip = false; if (!string.IsNullOrEmpty (target.Inputs)) { var inputs = args.Project.GetAllItems (target.Inputs, string.Empty, creator, creator, s => true, (t, s) => { }); if (!inputs.Any ()) { LogMessageEvent (new BuildMessageEventArgs (string.Format ("Target '{0}' was skipped because there is no input.", target.Name), null, null, MessageImportance.Low)); skip = true; } else { var outputs = args.Project.GetAllItems (target.Outputs, string.Empty, creator, creator, s => true, (t, s) => { }); var needsUpdates = GetOlderOutputsThanInputs (inputs, outputs).FirstOrDefault (); if (needsUpdates != null) LogMessageEvent (new BuildMessageEventArgs (string.Format ("Target '{0}' needs to be built because new output {1} is needed.", target.Name, needsUpdates.ItemSpec), null, null, MessageImportance.Low)); else { LogMessageEvent (new BuildMessageEventArgs (string.Format ("Target '{0}' was skipped because all the outputs are newer than all the inputs.", target.Name), null, null, MessageImportance.Low)); skip = true; } } } if (skip) { targetResult.Skip (); } else { if (DoBuildTarget (target, targetResult, args)) { var items = args.Project.GetAllItems (target.Outputs, string.Empty, creator, creator, s => true, (t, s) => { }); targetResult.Success (items); } } } } finally { event_source.FireTargetFinished (this, new TargetFinishedEventArgs ("Target Finished", null, targetName, project.FullPath, target.FullPath, targetResult.ResultCode != TargetResultCode.Failure)); } } args.AddTargetResult (targetName, targetResult); return targetResult.ResultCode != TargetResultCode.Failure; }
public void AddResultsForTarget (string target, TargetResult result) { throw new NotImplementedException (); }
bool RunBuildTask (ProjectTargetInstance target, ProjectTaskInstance taskInstance, TargetResult targetResult, InternalBuildArguments args) { var request = submission.BuildRequest; var host = request.HostServices == null ? null : request.HostServices.GetHostObject (request.ProjectFullPath, target.Name, taskInstance.Name); // Create Task instance. var factoryIdentityParameters = new Dictionary<string,string> (); #if NET_4_5 factoryIdentityParameters ["MSBuildRuntime"] = taskInstance.MSBuildRuntime; factoryIdentityParameters ["MSBuildArchitecture"] = taskInstance.MSBuildArchitecture; #endif var task = args.BuildTaskFactory.CreateTask (taskInstance.Name, factoryIdentityParameters, this); if (task == null) throw new InvalidOperationException (string.Format ("TaskFactory {0} returned null Task", args.BuildTaskFactory)); LogMessageEvent (new BuildMessageEventArgs (string.Format ("Using task {0} from {1}", taskInstance.Name, task.GetType ()), null, null, MessageImportance.Low)); task.HostObject = host; task.BuildEngine = this; // Prepare task parameters. var evaluator = new ExpressionEvaluator (project); var evaluatedTaskParams = taskInstance.Parameters.Select (p => new KeyValuePair<string,string> (p.Key, project.ExpandString (evaluator, p.Value))); var requiredProps = task.GetType ().GetProperties () .Where (p => p.CanWrite && p.GetCustomAttributes (typeof (RequiredAttribute), true).Any ()); var missings = requiredProps.Where (p => !evaluatedTaskParams.Any (tp => tp.Key.Equals (p.Name, StringComparison.OrdinalIgnoreCase))); if (missings.Any ()) throw new InvalidOperationException (string.Format ("Task {0} of type {1} is used without specifying mandatory property: {2}", taskInstance.Name, task.GetType (), string.Join (", ", missings.Select (p => p.Name).ToArray ()))); foreach (var p in evaluatedTaskParams) { switch (p.Key.ToLower ()) { case "condition": case "continueonerror": continue; } var prop = task.GetType ().GetProperty (p.Key); if (prop == null) throw new InvalidOperationException (string.Format ("Task {0} does not have property {1}", taskInstance.Name, p.Key)); if (!prop.CanWrite) throw new InvalidOperationException (string.Format ("Task {0} has property {1} but it is read-only.", taskInstance.Name, p.Key)); if (string.IsNullOrEmpty (p.Value) && !requiredProps.Contains (prop)) continue; try { prop.SetValue (task, ConvertTo (p.Value, prop.PropertyType, evaluator), null); } catch (Exception ex) { throw new InvalidOperationException (string.Format ("Failed to convert '{0}' for property '{1}' of type {2}", p.Value, prop.Name, prop.PropertyType), ex); } } // Do execute task. bool taskSuccess = false; event_source.FireTaskStarted (this, new TaskStartedEventArgs ("Task Started", null, project.FullPath, taskInstance.FullPath, taskInstance.Name)); try { taskSuccess = task.Execute (); if (!taskSuccess) { targetResult.Failure (null); if (!ContinueOnError) { return false; } } else { // Evaluate task output properties and items. foreach (var to in taskInstance.Outputs) { if (!project.EvaluateCondition (to.Condition)) continue; var toItem = to as ProjectTaskOutputItemInstance; var toProp = to as ProjectTaskOutputPropertyInstance; string taskParameter = toItem != null ? toItem.TaskParameter : toProp.TaskParameter; var pi = task.GetType ().GetProperty (taskParameter); if (pi == null) throw new InvalidOperationException (string.Format ("Task {0} does not have property {1} specified as TaskParameter", taskInstance.Name, toItem.TaskParameter)); if (!pi.CanRead) throw new InvalidOperationException (string.Format ("Task {0} has property {1} specified as TaskParameter, but it is write-only", taskInstance.Name, toItem.TaskParameter)); var value = pi.GetValue (task, null); var valueString = ConvertFrom (value); if (toItem != null) { LogMessageEvent (new BuildMessageEventArgs (string.Format ("Output Item {0} from TaskParameter {1}: {2}", toItem.ItemType, toItem.TaskParameter, valueString), null, null, MessageImportance.Low)); Action<ITaskItem> addItem = i => { var metadata = new ArrayList (i.MetadataNames).ToArray ().Cast<string> ().Select (n => new KeyValuePair<string,string> (n, i.GetMetadata (n))); args.Project.AddItem (toItem.ItemType, i.ItemSpec, metadata); }; var taskItemArray = value as ITaskItem []; if (taskItemArray != null) { foreach (var ti in taskItemArray) addItem (ti); } else { var taskItem = value as ITaskItem; if (taskItem != null) addItem (taskItem); else foreach (var item in valueString.Split (';')) args.Project.AddItem (toItem.ItemType, item); } } else { LogMessageEvent (new BuildMessageEventArgs (string.Format ("Output Property {0} from TaskParameter {1}: {2}", toProp.PropertyName, toProp.TaskParameter, valueString), null, null, MessageImportance.Low)); args.Project.SetProperty (toProp.PropertyName, valueString); } } } } finally { event_source.FireTaskFinished (this, new TaskFinishedEventArgs ("Task Finished", null, project.FullPath, taskInstance.FullPath, taskInstance.Name, taskSuccess)); } return true; }
/// <summary> /// Constructor allows you to set all the elements of the object /// </summary> public TargetDefinition(string name, string inputs, string outputs, string condition, string dependsOnTargets, XmlDocument projectXmlDoc) { _name = name; _inputs = inputs; _outputs = outputs; _condition = condition; _dependsOnTargets = dependsOnTargets; _tasks = new Dictionary<string, TaskDefinition>(); _result = null; _targetXmlElement = projectXmlDoc.CreateElement("Target", @"http://schemas.microsoft.com/developer/msbuild/2003"); GenerateTargetElementXml(); }
public void AddResultsForTarget(string target, TargetResult result) { throw new NotImplementedException(); }
public void TestConstructorNullItems() { TargetResult result = new TargetResult(null, TestUtilities.GetStopWithErrorResult()); }