#region License Information
/* HeuristicLab
* Copyright (C) 2002-2012 Heuristic and Evolutionary Algorithms Laboratory (HEAL)
*
* This file is part of HeuristicLab.
*
* HeuristicLab is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* HeuristicLab is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with HeuristicLab. If not, see .
*/
#endregion
using System;
using System.Collections;
using System.Collections.Generic;
using System.Drawing;
using System.Linq;
using System.Windows.Forms;
using HeuristicLab.Collections;
using HeuristicLab.Common;
using HeuristicLab.Core;
using HeuristicLab.Core.Views;
using HeuristicLab.MainForm;
using HeuristicLab.PluginInfrastructure;
namespace HeuristicLab.Optimization.Views {
public sealed partial class ExperimentTreeView : ItemView {
private TypeSelectorDialog typeSelectorDialog;
private Dictionary> treeNodeTagMapping;
public ExperimentTreeView() {
InitializeComponent();
treeNodeTagMapping = new Dictionary>();
}
protected override void Dispose(bool disposing) {
if (disposing) {
if (typeSelectorDialog != null) typeSelectorDialog.Dispose();
if (components != null) components.Dispose();
}
base.Dispose(disposing);
}
#region necessary code to handle dock correctly regarding the expanded nodes
bool[] expandendedState;
protected override void OnHandleCreated(EventArgs e) {
base.OnHandleCreated(e);
if (expandendedState == null) return;
var nodes = IterateTreeNodes().ToList();
for (int i = 0; i < nodes.Count; i++)
if (expandendedState[i]) nodes[i].Expand();
}
protected override void OnHandleDestroyed(EventArgs e) {
base.OnHandleDestroyed(e);
var nodes = IterateTreeNodes().ToList();
expandendedState = new bool[nodes.Count];
for (int i = 0; i < nodes.Count; i++)
expandendedState[i] = nodes[i].IsExpanded;
}
#endregion
public new Experiment Content {
get { return (Experiment)base.Content; }
set { base.Content = value; }
}
#region events registration
protected override void RegisterContentEvents() {
base.RegisterContentEvents();
Content.ExecutionStateChanged += new EventHandler(Content_ExecutionStateChanged);
Content.Optimizers.ItemsAdded += new CollectionItemsChangedEventHandler>(Optimizers_ItemsAdded);
Content.Optimizers.ItemsMoved += new CollectionItemsChangedEventHandler>(Optimizers_ItemsMoved);
Content.Optimizers.ItemsRemoved += new CollectionItemsChangedEventHandler>(Optimizers_ItemsRemoved);
Content.Optimizers.ItemsReplaced += new CollectionItemsChangedEventHandler>(Optimizers_ItemsReplaced);
Content.Optimizers.CollectionReset += new CollectionItemsChangedEventHandler>(Optimizers_CollectionReset);
}
protected override void DeregisterContentEvents() {
Content.ExecutionStateChanged -= new EventHandler(Content_ExecutionStateChanged);
Content.Optimizers.ItemsAdded -= new CollectionItemsChangedEventHandler>(Optimizers_ItemsAdded);
Content.Optimizers.ItemsMoved -= new CollectionItemsChangedEventHandler>(Optimizers_ItemsMoved);
Content.Optimizers.ItemsRemoved -= new CollectionItemsChangedEventHandler>(Optimizers_ItemsRemoved);
Content.Optimizers.ItemsReplaced -= new CollectionItemsChangedEventHandler>(Optimizers_ItemsReplaced);
Content.Optimizers.CollectionReset -= new CollectionItemsChangedEventHandler>(Optimizers_CollectionReset);
foreach (var optimizer in treeNodeTagMapping.Keys)
DeregisterNamedItemEvents(optimizer);
base.DeregisterContentEvents();
}
private void RegisterNamedItemEvents(INamedItem namedItem) {
namedItem.ToStringChanged += new EventHandler(namedItem_ToStringChanged);
namedItem.ItemImageChanged += new EventHandler(namedItem_ItemImageChanged);
var algorithm = namedItem as IAlgorithm;
var batchRun = namedItem as BatchRun;
var experiment = namedItem as Experiment;
if (algorithm != null) {
algorithm.Prepared += new EventHandler(algorithm_Prepared);
algorithm.ProblemChanged += new EventHandler(algorithm_ProblemChanged);
} else if (batchRun != null) {
batchRun.OptimizerChanged += new EventHandler(batchRun_OptimizerChanged);
} else if (experiment != null) {
experiment.Optimizers.ItemsAdded += new CollectionItemsChangedEventHandler>(Optimizers_ItemsAdded);
experiment.Optimizers.ItemsMoved += new CollectionItemsChangedEventHandler>(Optimizers_ItemsMoved);
experiment.Optimizers.ItemsRemoved += new CollectionItemsChangedEventHandler>(Optimizers_ItemsRemoved);
experiment.Optimizers.ItemsReplaced += new CollectionItemsChangedEventHandler>(Optimizers_ItemsReplaced);
experiment.Optimizers.CollectionReset += new CollectionItemsChangedEventHandler>(Optimizers_CollectionReset);
}
}
private void DeregisterNamedItemEvents(INamedItem namedItem) {
namedItem.ToStringChanged -= new EventHandler(namedItem_ToStringChanged);
namedItem.ItemImageChanged -= new EventHandler(namedItem_ItemImageChanged);
var algorithm = namedItem as IAlgorithm;
var batchRun = namedItem as BatchRun;
var experiment = namedItem as Experiment;
if (algorithm != null) {
algorithm.Prepared -= new EventHandler(algorithm_Prepared);
algorithm.ProblemChanged -= new EventHandler(algorithm_ProblemChanged);
} else if (batchRun != null) {
batchRun.OptimizerChanged -= new EventHandler(batchRun_OptimizerChanged);
} else if (experiment != null) {
experiment.Optimizers.ItemsAdded -= new CollectionItemsChangedEventHandler>(Optimizers_ItemsAdded);
experiment.Optimizers.ItemsMoved -= new CollectionItemsChangedEventHandler>(Optimizers_ItemsMoved);
experiment.Optimizers.ItemsRemoved -= new CollectionItemsChangedEventHandler>(Optimizers_ItemsRemoved);
experiment.Optimizers.ItemsReplaced -= new CollectionItemsChangedEventHandler>(Optimizers_ItemsReplaced);
experiment.Optimizers.CollectionReset -= new CollectionItemsChangedEventHandler>(Optimizers_CollectionReset);
}
}
#endregion
protected override void OnContentChanged() {
base.OnContentChanged();
if (Content == null) {
treeView.Nodes.Clear();
} else {
UpdateOptimizerTreeView();
treeView.ExpandAll();
}
}
#region content events
private void Content_ExecutionStateChanged(object sender, EventArgs e) {
if (InvokeRequired) {
Invoke((Action)Content_ExecutionStateChanged, sender, e);
return;
}
SetEnabledStateOfControls();
}
private void algorithm_Prepared(object sender, EventArgs e) {
var algorithm = (IAlgorithm)sender;
foreach (TreeNode node in treeNodeTagMapping[algorithm]) {
TreeNode resultsNode = node.Nodes.OfType().Where(x => x.Tag is ResultCollection).Single();
if (detailsViewHost.Content == resultsNode.Tag)
detailsViewHost.Content = algorithm.Results;
resultsNode.Tag = algorithm.Results;
}
}
private void algorithm_ProblemChanged(object sender, EventArgs e) {
if (InvokeRequired) {
Invoke((Action)algorithm_ProblemChanged, sender, e);
return;
}
var algorithm = (IAlgorithm)sender;
foreach (TreeNode node in treeNodeTagMapping[algorithm]) {
foreach (TreeNode childNode in node.Nodes.OfType().ToList()) {
DisposeTreeNode(childNode);
childNode.Remove();
}
List nodes;
foreach (TreeNode childNode in CreateAlgorithmChildNodes(algorithm)) {
node.Nodes.Add(childNode);
NamedItem namedItem = childNode.Tag as NamedItem;
if (namedItem != null) {
if (!treeNodeTagMapping.TryGetValue(namedItem, out nodes)) {
nodes = new List();
treeNodeTagMapping.Add(namedItem, nodes);
RegisterNamedItemEvents(namedItem);
}
nodes.Add(childNode);
}
}
node.Expand();
}
RebuildImageList();
UpdateDetailsViewHost();
}
private void batchRun_OptimizerChanged(object sender, EventArgs e) {
if (InvokeRequired) {
Invoke((Action)batchRun_OptimizerChanged, sender, e);
return;
}
var batchRun = (BatchRun)sender;
foreach (TreeNode node in treeNodeTagMapping[batchRun]) {
foreach (TreeNode childNode in node.Nodes.OfType().ToList()) {
DisposeTreeNode(childNode);
childNode.Remove();
}
if (batchRun.Optimizer != null) {
UpdateChildTreeNodes(node.Nodes, batchRun);
node.Expand();
}
}
RebuildImageList();
UpdateDetailsViewHost();
}
private void Optimizers_ItemsAdded(object sender, CollectionItemsChangedEventArgs> e) {
if (InvokeRequired) {
Invoke((Action>>)Optimizers_ItemsAdded, sender, e);
return;
}
var optimizerList = (OptimizerList)sender;
IEnumerable parentNodes;
if (optimizerList == Content.Optimizers) parentNodes = new List() { treeView.Nodes };
else {
Experiment experiment = treeNodeTagMapping.Keys.OfType().Where(exp => exp.Optimizers == optimizerList).First();
parentNodes = treeNodeTagMapping[experiment].Select(node => node.Nodes);
}
foreach (TreeNodeCollection parentNode in parentNodes) {
foreach (var childOptimizer in e.Items) {
TreeNode childNode = CreateTreeNode(childOptimizer.Value);
UpdateChildTreeNodes(childNode.Nodes, childOptimizer.Value);
parentNode.Insert(childOptimizer.Index, childNode);
childNode.ExpandAll();
if (childNode.Parent != null) childNode.Parent.ExpandAll();
}
}
RebuildImageList();
}
private void Optimizers_ItemsMoved(object sender, CollectionItemsChangedEventArgs> e) {
if (InvokeRequired) {
Invoke((Action>>)Optimizers_ItemsMoved, sender, e);
return;
}
var optimizerList = (OptimizerList)sender;
IEnumerable parentNodes;
if (optimizerList == Content.Optimizers) parentNodes = new List() { treeView.Nodes };
else {
Experiment experiment = treeNodeTagMapping.Keys.OfType().Where(exp => exp.Optimizers == optimizerList).First();
parentNodes = treeNodeTagMapping[experiment].Select(node => node.Nodes);
}
foreach (TreeNodeCollection parentNode in parentNodes) {
var backup = parentNode.OfType().ToList();
foreach (var indexedItem in e.Items) {
var node = backup.Where(n => n.Tag == indexedItem.Value).First();
node.Remove();
parentNode.Insert(indexedItem.Index, node);
}
}
}
private void Optimizers_ItemsRemoved(object sender, CollectionItemsChangedEventArgs> e) {
if (InvokeRequired) {
Invoke((Action>>)Optimizers_ItemsRemoved, sender, e);
return;
}
var optimizerList = (OptimizerList)sender;
IEnumerable parentNodes;
if (optimizerList == Content.Optimizers) parentNodes = new List() { treeView.Nodes };
else {
Experiment experiment = treeNodeTagMapping.Keys.OfType().Where(exp => exp.Optimizers == optimizerList).First();
parentNodes = treeNodeTagMapping[experiment].Select(node => node.Nodes);
}
foreach (TreeNodeCollection parentNode in parentNodes) {
foreach (var childOptimizer in e.Items) {
TreeNode childNode = parentNode[childOptimizer.Index];
DisposeTreeNode(childNode);
childNode.Remove();
}
}
RebuildImageList();
UpdateDetailsViewHost();
}
private void Optimizers_ItemsReplaced(object sender, CollectionItemsChangedEventArgs> e) {
if (InvokeRequired) {
Invoke((Action>>)Optimizers_ItemsReplaced, sender, e);
return;
}
var optimizerList = (OptimizerList)sender;
IEnumerable parentNodes;
if (optimizerList == Content.Optimizers) parentNodes = new List() { treeView.Nodes };
else {
Experiment experiment = treeNodeTagMapping.Keys.OfType().Where(exp => exp.Optimizers == optimizerList).First();
parentNodes = treeNodeTagMapping[experiment].Select(node => node.Nodes);
}
foreach (TreeNodeCollection parentNode in parentNodes) {
foreach (var childOptimizer in e.OldItems) {
TreeNode childNode = parentNode.Cast().Where(n => n.Tag == childOptimizer.Value && n.Index == childOptimizer.Index).First();
DisposeTreeNode(childNode);
childNode.Remove();
}
foreach (var childOptimizer in e.Items) {
TreeNode childNode = CreateTreeNode(childOptimizer.Value);
UpdateChildTreeNodes(childNode.Nodes, childOptimizer.Value);
parentNode.Insert(childOptimizer.Index, childNode);
}
}
RebuildImageList();
UpdateDetailsViewHost();
}
private void Optimizers_CollectionReset(object sender, CollectionItemsChangedEventArgs> e) {
if (InvokeRequired) {
Invoke((Action>>)Optimizers_CollectionReset, sender, e);
return;
}
var optimizerList = (OptimizerList)sender;
IEnumerable parentNodes;
if (optimizerList == Content.Optimizers) parentNodes = new List() { treeView.Nodes };
else {
Experiment experiment = treeNodeTagMapping.Keys.OfType().Where(exp => exp.Optimizers == optimizerList).First();
parentNodes = treeNodeTagMapping[experiment].Select(node => node.Nodes);
}
foreach (TreeNodeCollection parentNode in parentNodes) {
foreach (var childOptimizer in e.OldItems) {
TreeNode childNode = parentNode.Cast().Where(n => n.Tag == childOptimizer.Value && n.Index == childOptimizer.Index).First();
DisposeTreeNode(childNode);
childNode.Remove();
}
foreach (var childOptimizer in e.Items) {
TreeNode childNode = CreateTreeNode(childOptimizer.Value);
UpdateChildTreeNodes(childNode.Nodes, childOptimizer.Value);
parentNode.Insert(childOptimizer.Index, childNode);
}
}
RebuildImageList();
UpdateDetailsViewHost();
}
private void namedItem_ToStringChanged(object sender, EventArgs e) {
if (InvokeRequired) {
Invoke((Action)namedItem_ToStringChanged, sender, e);
return;
}
var namedItem = (INamedItem)sender;
foreach (TreeNode node in treeNodeTagMapping[namedItem])
node.Text = namedItem.ToString();
}
private void namedItem_ItemImageChanged(object sender, EventArgs e) {
if (InvokeRequired) {
Invoke((Action)namedItem_ItemImageChanged, sender, e);
return;
}
INamedItem namedItem = (INamedItem)sender;
foreach (TreeNode node in treeNodeTagMapping[namedItem]) {
treeView.ImageList.Images[node.ImageIndex] = namedItem.ItemImage;
node.ImageIndex = node.ImageIndex;
}
SetEnabledStateOfControls();
}
#endregion
protected override void PropagateStateChanges(Control control, Type type, System.Reflection.PropertyInfo propertyInfo) {
return;
}
protected override void SetEnabledStateOfControls() {
base.SetEnabledStateOfControls();
IOptimizer optimizer = null;
IAlgorithm algorithm = null;
BatchRun batchRun = null;
Experiment experiment = null;
IOptimizer parentOptimizer = null;
Experiment parentExperiment = null;
if (treeView.SelectedNode != null) {
optimizer = treeView.SelectedNode.Tag as IOptimizer;
algorithm = optimizer as IAlgorithm;
batchRun = optimizer as BatchRun;
experiment = optimizer as Experiment;
if (treeView.SelectedNode.Parent != null) parentOptimizer = treeView.SelectedNode.Parent.Tag as IOptimizer;
else parentOptimizer = Content;
parentExperiment = parentOptimizer as Experiment;
}
treeView.Enabled = Content != null;
if (parentOptimizer != null) {
detailsViewHost.ReadOnly = parentOptimizer.ExecutionState == ExecutionState.Started;
detailsViewHost.Locked = parentOptimizer.ExecutionState == ExecutionState.Started;
}
addButton.Enabled = Content != null && !Locked && !ReadOnly &&
(treeView.SelectedNode == null || experiment != null || batchRun != null || algorithm != null);
moveUpButton.Enabled = Content != null && !Locked && !ReadOnly &&
treeView.SelectedNode != null && treeView.SelectedNode.PrevNode != null && parentExperiment != null;
moveDownButton.Enabled = Content != null && !Locked && !ReadOnly &&
treeView.SelectedNode != null && treeView.SelectedNode.NextNode != null && parentExperiment != null;
removeButton.Enabled = Content != null && !Locked && !ReadOnly && optimizer != null;
}
private void UpdateOptimizerTreeView() {
treeView.Nodes.Clear();
UpdateChildTreeNodes(treeView.Nodes, Content);
RebuildImageList();
}
private void UpdateChildTreeNodes(TreeNodeCollection collection, IOptimizer optimizer) {
var batchRun = optimizer as BatchRun;
var experiment = optimizer as Experiment;
if (batchRun != null && batchRun.Optimizer != null) UpdateChildTreeNodes(collection, new List() { batchRun.Optimizer });
else if (experiment != null) UpdateChildTreeNodes(collection, experiment.Optimizers);
}
private void UpdateChildTreeNodes(TreeNodeCollection collection, IEnumerable optimizers) {
foreach (IOptimizer optimizer in optimizers) {
var node = CreateTreeNode(optimizer);
collection.Add(node);
UpdateChildTreeNodes(node.Nodes, optimizer);
}
}
#region drag & drop
private void optimizerTreeView_ItemDrag(object sender, ItemDragEventArgs e) {
if (Locked) return;
TreeNode selectedNode = (TreeNode)e.Item;
var item = (IItem)selectedNode.Tag;
if (item == null) return;
DataObject data = new DataObject();
data.SetData(HeuristicLab.Common.Constants.DragDropDataFormat, item);
validDragOperation = true;
if (ReadOnly || !(item is IOptimizer)) {
DoDragDrop(data, DragDropEffects.Copy | DragDropEffects.Link);
} else {
DragDropEffects result = DoDragDrop(data, DragDropEffects.Copy | DragDropEffects.Link | DragDropEffects.Move);
if ((result & DragDropEffects.Move) == DragDropEffects.Move) {
var optimizer = (IOptimizer)item;
if (selectedNode.Parent == null) Content.Optimizers.Remove(optimizer);
else {
var parentOptimizer = (IOptimizer)selectedNode.Parent.Tag;
var parentBatchRun = parentOptimizer as BatchRun;
var parentExperiment = parentOptimizer as Experiment;
if (parentBatchRun != null) parentBatchRun.Optimizer = null;
else if (parentExperiment != null) parentExperiment.Optimizers.Remove(optimizer);
else throw new NotSupportedException("Handling for specific type not implemented" + parentOptimizer.GetType());
}
}
}
}
private bool validDragOperation = false;
private void optimizerTreeView_DragEnter(object sender, DragEventArgs e) {
validDragOperation = false;
if (!ReadOnly) {
var data = e.Data.GetData(HeuristicLab.Common.Constants.DragDropDataFormat);
if (data is IOptimizer) validDragOperation = true;
else if (data is IProblem) validDragOperation = true;
else if (data is IEnumerable) {
IEnumerable items = (IEnumerable)data;
validDragOperation = true;
foreach (object item in items)
validDragOperation = validDragOperation && (item is IOptimizer);
}
}
}
private void optimizerTreeView_DragOver(object sender, DragEventArgs e) {
e.Effect = DragDropEffects.None;
if (!validDragOperation) return;
Point coordinates = treeView.PointToClient(new Point(e.X, e.Y));
TreeNode node = treeView.GetNodeAt(coordinates);
Experiment experiment = null;
BatchRun batchRun = null;
Algorithm algorithm = null;
if (node == null) experiment = Content;
else {
experiment = node.Tag as Experiment;
batchRun = node.Tag as BatchRun;
algorithm = node.Tag as Algorithm;
}
if (batchRun == null && experiment == null && algorithm == null) return;
var data = e.Data.GetData(HeuristicLab.Common.Constants.DragDropDataFormat);
if (algorithm != null) {
var problem = data as IProblem;
if (problem == null) return;
if (!algorithm.ProblemType.IsAssignableFrom(problem.GetType())) return;
} else if (batchRun != null) {
var optimizer = data as IOptimizer;
if (optimizer == null) return;
if (batchRun == optimizer) return;
if (optimizer.NestedOptimizers.Contains(batchRun)) return;
} //do not allow recursive nesting of contents
else if (experiment != null) {
var optimizer = data as IOptimizer;
IEnumerable optimizers = null;
var enumerable = data as IEnumerable;
if (enumerable != null) optimizers = enumerable.Cast();
if (experiment == optimizer) return;
if (optimizer != null && optimizer.NestedOptimizers.Contains(experiment)) return;
if (optimizers != null && optimizers.Any(x => x.NestedOptimizers.Contains(experiment))) return;
}
if ((e.KeyState & 32) == 32 && e.AllowedEffect.HasFlag(DragDropEffects.Link)) e.Effect = DragDropEffects.Link; // ALT key
else if ((e.KeyState & 4) == 4 && e.AllowedEffect.HasFlag(DragDropEffects.Move)) e.Effect = DragDropEffects.Move; // SHIFT key
else if (e.AllowedEffect.HasFlag(DragDropEffects.Copy)) e.Effect = DragDropEffects.Copy;
else if (e.AllowedEffect.HasFlag(DragDropEffects.Move)) e.Effect = DragDropEffects.Move;
else if (e.AllowedEffect.HasFlag(DragDropEffects.Link)) e.Effect = DragDropEffects.Link;
}
private void optimizerTreeView_DragDrop(object sender, DragEventArgs e) {
Point coordinates = treeView.PointToClient(new Point(e.X, e.Y));
TreeNode node = treeView.GetNodeAt(coordinates);
Algorithm algorithm = null;
BatchRun batchRun = null;
Experiment experiment = null;
if (node == null) experiment = Content;
else {
algorithm = node.Tag as Algorithm;
batchRun = node.Tag as BatchRun;
experiment = node.Tag as Experiment;
}
var data = e.Data.GetData(HeuristicLab.Common.Constants.DragDropDataFormat);
if (data is IProblem) {
var problem = (IProblem)data;
if (e.Effect.HasFlag(DragDropEffects.Copy)) problem = (IProblem)problem.Clone();
algorithm.Problem = problem;
} else if (data is IOptimizer) {
IOptimizer optimizer = (IOptimizer)data;
if (e.Effect.HasFlag(DragDropEffects.Copy)) optimizer = (IOptimizer)optimizer.Clone();
if (batchRun != null) batchRun.Optimizer = optimizer;
else if (experiment != null) experiment.Optimizers.Add(optimizer);
else throw new NotSupportedException("Handling for specific type not implemented" + node.Tag.GetType());
} else if (data is IEnumerable) {
IEnumerable optimizers = ((IEnumerable)data).Cast();
if (e.Effect.HasFlag(DragDropEffects.Copy)) {
Cloner cloner = new Cloner();
optimizers = optimizers.Select(o => cloner.Clone(o));
}
if (experiment != null) experiment.Optimizers.AddRange(optimizers);
else throw new NotSupportedException("Handling for specific type not implemented" + node.Tag.GetType());
}
}
#endregion
#region control events
private void treeView_NodeMouseDoubleClick(object sender, TreeNodeMouseClickEventArgs e) {
if (rightClickOccured) return;
if (e.X < e.Node.Bounds.Left - treeView.ImageList.Images[e.Node.ImageIndex].Width || e.X > e.Node.Bounds.Right) return;
e.Node.Toggle();
IContent optimizer = (IContent)e.Node.Tag;
MainFormManager.MainForm.ShowContent(optimizer);
}
private void treeview_NodeMouseClick(object sender, TreeNodeMouseClickEventArgs e) {
if (e.X < e.Node.Bounds.Left - treeView.ImageList.Images[e.Node.ImageIndex].Width || e.X > e.Node.Bounds.Right) return;
treeView.SelectedNode = e.Node;
detailsViewHost.Content = (IContent)e.Node.Tag;
SetEnabledStateOfControls();
}
private void treeView_MouseDown(object sender, MouseEventArgs e) {
// enables deselection of treeNodes
if (e.Button != MouseButtons.Right) rightClickOccured = false;
if (treeView.SelectedNode == null) return;
Point coordinates = new Point(e.X, e.Y);
TreeNode node = treeView.GetNodeAt(coordinates);
if (node == null || coordinates.X < node.Bounds.Left - treeView.ImageList.Images[node.ImageIndex].Width || coordinates.X > node.Bounds.Right) {
treeView.SelectedNode = null;
detailsViewHost.Content = null;
SetEnabledStateOfControls();
}
}
private void treeView_KeyDown(object sender, KeyEventArgs e) {
if (Locked || ReadOnly) return;
if (treeView.SelectedNode == null) return;
if (!(treeView.SelectedNode.Tag is INamedItem)) return;
var treeNode = treeView.SelectedNode;
var namedItem = (NamedItem)treeNode.Tag;
var optimizer = namedItem as IOptimizer;
if (e.KeyCode == Keys.F2 && !treeNode.IsEditing) {
treeNode.BeginEdit();
return;
}
if (e.KeyCode == Keys.Delete && optimizer != null) {
if (treeNode.Parent == null)
Content.Optimizers.Remove(optimizer);
else {
var batchRun = treeNode.Parent.Tag as BatchRun;
var experiment = treeNode.Parent.Tag as Experiment;
if (batchRun != null) batchRun.Optimizer = null;
else if (experiment != null) experiment.Optimizers.Remove(optimizer);
else throw new NotSupportedException("Handling for specific type not implemented" + treeView.SelectedNode.Tag.GetType());
}
SetEnabledStateOfControls();
UpdateDetailsViewHost();
RebuildImageList();
}
}
private void treeView_AfterSelect(object sender, TreeViewEventArgs e) {
if (e.Action == TreeViewAction.ByKeyboard) {
UpdateDetailsViewHost();
//NOTE: necessary because algorithm view steals the focus
treeView.Focus();
}
}
private bool rightClickOccured = true;
private TreeNode toolStripMenuNode = null;
private void treeView_RightClick(object sender, EventArgs e) {
rightClickOccured = true;
Point coordinates = treeView.PointToClient(Cursor.Position);
toolStripMenuNode = treeView.GetNodeAt(coordinates);
if (toolStripMenuNode != null && coordinates.X >= toolStripMenuNode.Bounds.Left && coordinates.X <= toolStripMenuNode.Bounds.Right) {
treeView.SelectedNode = toolStripMenuNode;
detailsViewHost.Content = (IContent)toolStripMenuNode.Tag;
SetEnabledStateOfControls();
ExpandToolStripMenuItem.Enabled = !toolStripMenuNode.IsExpanded && toolStripMenuNode.Nodes.Count > 0;
ExpandToolStripMenuItem.Visible = !toolStripMenuNode.IsExpanded && toolStripMenuNode.Nodes.Count > 0;
CollapseToolStripMenuItem.Enabled = toolStripMenuNode.IsExpanded;
CollapseToolStripMenuItem.Visible = toolStripMenuNode.IsExpanded;
EditNodeLabelToolStripMenuItem.Enabled = !Locked && !ReadOnly && toolStripMenuNode.Tag != null && toolStripMenuNode.Tag is INamedItem && ((INamedItem)toolStripMenuNode.Tag).CanChangeName;
EditNodeLabelToolStripMenuItem.Visible = !Locked && !ReadOnly && toolStripMenuNode.Tag != null && toolStripMenuNode.Tag is INamedItem && ((INamedItem)toolStripMenuNode.Tag).CanChangeName;
if (contextMenuStrip.Items.Cast().Any(item => item.Enabled))
contextMenuStrip.Show(Cursor.Position);
}
}
private void treeView_BeforeLabelEdit(object sender, NodeLabelEditEventArgs e) {
if (Locked) e.CancelEdit = true;
if (ReadOnly) e.CancelEdit = true;
if (e.Node.Tag == null) e.CancelEdit = true;
var namedItem = e.Node.Tag as INamedItem;
if (namedItem == null) e.CancelEdit = true;
else if (!namedItem.CanChangeName) e.CancelEdit = true;
}
private void treeView_AfterLabelEdit(object sender, NodeLabelEditEventArgs e) {
if (e.Label == null) return;
e.Node.EndEdit(false);
var namedItem = (INamedItem)e.Node.Tag;
namedItem.Name = e.Label;
}
private void ExpandToolStripMenuItem_Click(object sender, EventArgs e) {
if (toolStripMenuNode != null) toolStripMenuNode.ExpandAll();
}
private void CollapseToolStripMenuItem_Click(object sender, EventArgs e) {
if (toolStripMenuNode != null) toolStripMenuNode.Collapse();
}
private void EditNodeLabelToolStripMenuItem_Click(object sender, EventArgs e) {
if (toolStripMenuNode != null) {
if (!toolStripMenuNode.IsEditing) toolStripMenuNode.BeginEdit();
}
}
private void addButton_Click(object sender, System.EventArgs e) {
if (typeSelectorDialog == null) typeSelectorDialog = new TypeSelectorDialog();
IAlgorithm algorithm = null;
if (treeView.SelectedNode != null && (treeView.SelectedNode.Tag is IAlgorithm))
algorithm = (IAlgorithm)treeView.SelectedNode.Tag;
if (algorithm == null) {
typeSelectorDialog.Caption = "Select Optimizer";
typeSelectorDialog.TypeSelector.Caption = "Available Optimizers";
typeSelectorDialog.TypeSelector.Configure(typeof(IOptimizer), false, true);
} else {
typeSelectorDialog.Caption = "Select Problem";
typeSelectorDialog.TypeSelector.Caption = "Available Problems";
typeSelectorDialog.TypeSelector.Configure(algorithm.ProblemType, false, true);
}
if (typeSelectorDialog.ShowDialog(this) == DialogResult.OK) {
try {
if (algorithm == null) {
IOptimizer optimizer = (IOptimizer)typeSelectorDialog.TypeSelector.CreateInstanceOfSelectedType();
if (treeView.SelectedNode == null) Content.Optimizers.Add(optimizer);
else {
var batchRun = treeView.SelectedNode.Tag as BatchRun;
var experiment = treeView.SelectedNode.Tag as Experiment;
if (batchRun != null) batchRun.Optimizer = optimizer;
else if (experiment != null) experiment.Optimizers.Add(optimizer);
else throw new NotSupportedException("Handling for specific type not implemented" + treeView.SelectedNode.Tag.GetType());
}
} else {
IProblem problem = (IProblem)typeSelectorDialog.TypeSelector.CreateInstanceOfSelectedType();
algorithm.Problem = problem;
}
} catch (Exception ex) {
ErrorHandling.ShowErrorDialog(this, ex);
}
}
}
private void moveUpButton_Click(object sender, EventArgs e) {
var optimizer = (IOptimizer)treeView.SelectedNode.Tag;
Experiment experiment = null;
if (treeView.SelectedNode.Parent == null) experiment = Content;
else experiment = (Experiment)treeView.SelectedNode.Parent.Tag;
var selectedNode = treeView.SelectedNode;
int index = treeView.SelectedNode.Index;
experiment.Optimizers.Reverse(index - 1, 2);
treeView.SelectedNode = selectedNode;
SetEnabledStateOfControls();
}
private void moveDownButton_Click(object sender, EventArgs e) {
var optimizer = (IOptimizer)treeView.SelectedNode.Tag;
Experiment experiment = null;
if (treeView.SelectedNode.Parent == null) experiment = Content;
else experiment = (Experiment)treeView.SelectedNode.Parent.Tag;
var selectedNode = treeView.SelectedNode;
int index = treeView.SelectedNode.Index;
experiment.Optimizers.Reverse(index, 2);
treeView.SelectedNode = selectedNode;
SetEnabledStateOfControls();
}
private void removeButton_Click(object sender, EventArgs e) {
var treeNode = treeView.SelectedNode;
var optimizer = treeNode.Tag as IOptimizer;
if (treeNode.Parent == null)
Content.Optimizers.Remove(optimizer);
else {
var batchRun = treeNode.Parent.Tag as BatchRun;
var experiment = treeNode.Parent.Tag as Experiment;
if (batchRun != null) batchRun.Optimizer = null;
else if (experiment != null) experiment.Optimizers.Remove(optimizer);
else throw new NotSupportedException("Handling for specific type not implemented" + treeView.SelectedNode.Tag.GetType());
}
SetEnabledStateOfControls();
UpdateDetailsViewHost();
RebuildImageList();
}
private void showDetailsCheckBox_CheckedChanged(object sender, System.EventArgs e) {
if (showDetailsCheckBox.Checked) {
splitContainer.Panel2Collapsed = false;
detailsGroupBox.Enabled = treeView.SelectedNode != null;
detailsViewHost.Content = treeView.SelectedNode != null ? (IContent)treeView.SelectedNode.Tag : null;
} else {
splitContainer.Panel2Collapsed = true;
detailsViewHost.Content = null;
}
}
#endregion
#region helpers
private void UpdateDetailsViewHost() {
if (treeView.SelectedNode != null)
detailsViewHost.Content = (IContent)treeView.SelectedNode.Tag;
else
detailsViewHost.Content = null;
}
private TreeNode CreateTreeNode(IOptimizer optimizer) {
TreeNode node = new TreeNode(optimizer.ToString());
node.Tag = optimizer;
var algorithm = optimizer as IAlgorithm;
if (algorithm != null) {
foreach (TreeNode childNode in CreateAlgorithmChildNodes(algorithm))
node.Nodes.Add(childNode);
}
List nodes;
if (!treeNodeTagMapping.TryGetValue(optimizer, out nodes)) {
nodes = new List();
treeNodeTagMapping.Add(optimizer, nodes);
RegisterNamedItemEvents(optimizer);
}
nodes.Add(node);
foreach (TreeNode childNode in node.Nodes) {
NamedItem namedItem = childNode.Tag as NamedItem;
if (namedItem != null) {
if (!treeNodeTagMapping.TryGetValue(namedItem, out nodes)) {
nodes = new List();
treeNodeTagMapping.Add(namedItem, nodes);
RegisterNamedItemEvents(namedItem);
}
nodes.Add(childNode);
}
}
return node;
}
private IEnumerable CreateAlgorithmChildNodes(IAlgorithm algorithm) {
TreeNode problemNode;
if (algorithm.Problem != null) {
problemNode = new TreeNode(algorithm.Problem.Name);
problemNode.Tag = algorithm.Problem;
} else {
problemNode = new TreeNode("No Problem");
problemNode.Tag = null;
}
TreeNode parametersNode = new TreeNode("Parameters");
parametersNode.Tag = algorithm.Parameters;
TreeNode resultsNode = new TreeNode("Results");
resultsNode.Tag = algorithm.Results;
yield return problemNode;
yield return parametersNode;
yield return resultsNode;
}
private void DisposeTreeNode(TreeNode node) {
var namedItem = node.Tag as INamedItem;
if (namedItem == null) return;
List nodes;
if (!treeNodeTagMapping.TryGetValue(namedItem, out nodes))
throw new ArgumentException();
nodes.Remove(node);
if (nodes.Count == 0) {
treeNodeTagMapping.Remove(namedItem);
DeregisterNamedItemEvents(namedItem);
}
}
private IEnumerable IterateTreeNodes(TreeNode node = null) {
TreeNodeCollection nodes;
if (node == null)
nodes = treeView.Nodes;
else {
nodes = node.Nodes;
yield return node;
}
foreach (var childNode in nodes.OfType())
foreach (var n in IterateTreeNodes(childNode))
yield return n;
}
private void RebuildImageList() {
if (InvokeRequired) {
Invoke((Action)RebuildImageList);
return;
}
treeView.BeginUpdate();
treeView.ImageList.Images.Clear();
var topLevelNodes = treeView.Nodes.OfType().ToArray();
var nodes = IterateTreeNodes().ToList();
var selectedNode = treeView.SelectedNode;
treeView.Nodes.Clear();
foreach (TreeNode treeNode in nodes) {
var item = (IItem)treeNode.Tag;
treeView.ImageList.Images.Add(item == null ? HeuristicLab.Common.Resources.VSImageLibrary.Nothing : item.ItemImage);
treeNode.ImageIndex = treeView.ImageList.Images.Count - 1;
treeNode.SelectedImageIndex = treeNode.ImageIndex;
}
treeView.Nodes.AddRange(topLevelNodes);
treeView.SelectedNode = selectedNode;
treeView.EndUpdate();
}
#endregion
public sealed class CustomTreeView : System.Windows.Forms.TreeView {
protected override void WndProc(ref System.Windows.Forms.Message m) {
const int WM_RBUTTONDOWN = 0x204;
if (m.Msg == WM_RBUTTONDOWN) {
//Raise your custom event right click event to prevent node highlighting
OnRightClick();
return;
}
base.WndProc(ref m);
}
public event EventHandler RightClick;
private void OnRightClick() {
var handler = RightClick;
if (handler != null) RightClick(this, EventArgs.Empty);
}
}
}
}