/// <summary> /// /// </summary> /// <param name="e">The <see cref="T:System.Windows.Forms.MouseEventArgs"/> instance containing the event data.</param> public void MouseUp(MouseEventArgs e) { if (IsActive) { DeactivateTool(); //whatever comes hereafter, a compund command is the most economic approach CompoundCommand package = new CompoundCommand(this.Controller); //let's see if the connection endpoints hit other connectors //note that the following can be done because the actual connection has not been created yet //otherwise the search would find the endpoints of the newly created connection, which //would create a loop and a stack overflow! IConnector startConnector = Selection.FindConnectorAt(initialPoint); IConnector endConnector = Selection.FindConnectorAt(e.Location); #region Create the new connection Connection cn = new Connection(this.initialPoint, e.Location, this.Controller.Model); AddConnectionCommand newcon = new AddConnectionCommand(this.Controller, cn); package.Commands.Add(newcon); #endregion #region Initial attachment? if (startConnector != null) { BindConnectorsCommand bindStart = new BindConnectorsCommand(this.Controller, startConnector, cn.From); package.Commands.Add(bindStart); } #endregion #region Final attachment? if (endConnector != null) { BindConnectorsCommand bindEnd = new BindConnectorsCommand(this.Controller, endConnector, cn.To); package.Commands.Add(bindEnd); } #endregion package.Text = "New connection"; this.Controller.UndoManager.AddUndoCommand(package); //do it all package.Redo(); //reset highlight of the found connector if (foundConnector != null) { foundConnector.Hovered = false; } //drop the painted ghost Controller.View.ResetGhost(); //release other tools this.UnsuspendTools(); } }
/// <summary> /// When an entity is moved there are various possibilities: /// <list type="bullet"> /// <item> /// <term>a connector is moved</term> /// <description>in this case the moved connector can only be part of a onnection because moving shape-connectors is not allowed unless by means of the <see cref="ConnectorMoverTool"/>. /// If a connector attached to a connection is moved we have the following fork: /// <list type="bullet"> /// <item>the connector was attached</item> /// <description>the connector has a parent and needs to be detached before being moved and eventually attached to another connector</description> /// <item>the connector is moved</item> /// <description>this is a standard motion and is similar for any <see cref="IDiagramEntity"/> /// </description> /// <item>the connector ends up somewhere near another connector and will become attached to it</item> /// <description>the connector in the proximity of the moved connector will become the parent of it. Note that we previously detached any binding and that a connector can have only one parent.</description> /// </list> /// </description> /// </item> /// <item>an entity is moved</item> /// <description>the normal <see cref="MoveCommand"/> can be used</description> /// <item>a set of entities is moved</item> /// <description>we need to create a bundle to package the entities and then use the <see cref="MoveCommand"/></description> /// </list> /// Several important remarks are in order here: /// <list type="bullet"> /// <item>a connector can have only one parent</item> /// <item>we need to package a move action in a command but this command needs NOT to be performed (i.e. call the Redo() method) because the motion already occured through the MouseMove handler. Because of this situation we cannot perform a Redo() on the full package since it would move the entities twice. Hence, commands are execute just after their creation (except for the move). /// <item>when the stack of actions are undone the stack has to be reverted</item> /// </item> /// <item>whatever the situation is, the most economical way to code the different cases is by means of a <see cref="CompoundCommand"/> object</item> /// </list> /// </summary> /// <param name="e">The <see cref="T:System.Windows.Forms.MouseEventArgs"/> instance containing the event data.</param> public void MouseUp(MouseEventArgs e) { if(IsActive) { DeactivateTool(); //creation of the total undoredo package CompoundCommand package = new CompoundCommand(this.Controller); string message = string.Empty; //notice that the connector can only be a connection connector because of the MouseDown check above if(connectorMove) { #region We are moving a connection-connector #region Is the connector attached? //detach only if there is a parent different than a connection; the join of a chained connection is allowed to move if( Selection.Connector.AttachedTo != null && !typeof(IConnection).IsInstanceOfType(Selection.Connector.AttachedTo)) { DetachConnectorCommand detach = new DetachConnectorCommand(this.Controller, Selection.Connector.AttachedTo, Selection.Connector); detach.Redo(); package.Commands.Add(detach); } #endregion #region The moving part //a bundle might look like overkill here but it makes the coding model uniform Bundle bundle = new Bundle(Controller.Model); bundle.Entities.Add(Selection.Connector); MoveCommand move = new MoveCommand(this.Controller, bundle, new Point(lastPoint.X - initialPoint.X, lastPoint.Y - initialPoint.Y)); //no Redo() necessary here! package.Commands.Add(move); #endregion #region The re-attachment near another connector //let's see if the connection endpoints hit other connectors (different than the selected one!) //define a predicate delegate to filter things out otherwise the hit will return the moved connector which would results //in a stack overflow later on Predicate<IConnector> predicate = delegate(IConnector conn) { //whatever, except itself and any children of the moved connector //since this would entail a child becoming a parent! if(conn.Hit(e.Location) && conn != Selection.Connector && !Selection.Connector.AttachedConnectors.Contains(conn)) return true; return false; }; //find it! IConnector parentConnector = Selection.FindConnector(predicate); if(parentConnector != null) //aha, there's an attachment { BindConnectorsCommand binder = new BindConnectorsCommand(this.Controller, parentConnector, Selection.Connector); package.Commands.Add(binder); binder.Redo(); //this one is necessary since the redo cannot be performed on the whole compound command } #endregion message = "Connector move"; #endregion } else { #region We are moving entities other than a connector Bundle bundle = new Bundle(Controller.Model); bundle.Entities.AddRange(Selection.SelectedItems); MoveCommand cmd = new MoveCommand(this.Controller, bundle, new Point(lastPoint.X - initialPoint.X, lastPoint.Y - initialPoint.Y)); package.Commands.Add(cmd); //not necessary to perform the Redo action of the command since the mouse-move already moved the bundle! #endregion message = "Entities move"; } //reset the hovered connector, if any if (hoveredConnector != null) hoveredConnector.Hovered = false; package.Text = message; //whatever the content of the package we add it to the undo history this.Controller.UndoManager.AddUndoCommand(package); //show the tracker again this.Controller.View.ShowTracker(); } }
/// <summary> /// When an entity is moved there are various possibilities: /// <list type="bullet"> /// <item> /// <term>a connector is moved</term> /// <description>in this case the moved connector can only be part of a onnection because moving shape-connectors is not allowed unless by means of the <see cref="ConnectorMoverTool"/>. /// If a connector attached to a connection is moved we have the following fork: /// <list type="bullet"> /// <item>the connector was attached</item> /// <description>the connector has a parent and needs to be detached before being moved and eventually attached to another connector</description> /// <item>the connector is moved</item> /// <description>this is a standard motion and is similar for any <see cref="IDiagramEntity"/> /// </description> /// <item>the connector ends up somewhere near another connector and will become attached to it</item> /// <description>the connector in the proximity of the moved connector will become the parent of it. Note that we previously detached any binding and that a connector can have only one parent.</description> /// </list> /// </description> /// </item> /// <item>an entity is moved</item> /// <description>the normal <see cref="MoveCommand"/> can be used</description> /// <item>a set of entities is moved</item> /// <description>we need to create a bundle to package the entities and then use the <see cref="MoveCommand"/></description> /// </list> /// Several important remarks are in order here: /// <list type="bullet"> /// <item>a connector can have only one parent</item> /// <item>we need to package a move action in a command but this command needs NOT to be performed (i.e. call the Redo() method) because the motion already occured through the MouseMove handler. Because of this situation we cannot perform a Redo() on the full package since it would move the entities twice. Hence, commands are execute just after their creation (except for the move). /// <item>when the stack of actions are undone the stack has to be reverted</item> /// </item> /// <item>whatever the situation is, the most economical way to code the different cases is by means of a <see cref="CompoundCommand"/> object</item> /// </list> /// </summary> /// <param name="e">The <see cref="T:System.Windows.Forms.MouseEventArgs"/> instance containing the event data.</param> public void MouseUp(MouseEventArgs e) { if (IsActive) { DeactivateTool(); //creation of the total undoredo package CompoundCommand package = new CompoundCommand(this.Controller); string message = string.Empty; //notice that the connector can only be a connection connector because of the MouseDown check above if (connectorMove) { #region We are moving a connection-connector #region Is the connector attached? //detach only if there is a parent different than a connection; the join of a chained connection is allowed to move if (Selection.Connector.AttachedTo != null && !typeof(IConnection).IsInstanceOfType(Selection.Connector.AttachedTo)) { DetachConnectorCommand detach = new DetachConnectorCommand(this.Controller, Selection.Connector.AttachedTo, Selection.Connector); detach.Redo(); package.Commands.Add(detach); } #endregion #region The moving part //a bundle might look like overkill here but it makes the coding model uniform Bundle bundle = new Bundle(Controller.Model); bundle.Entities.Add(Selection.Connector); MoveCommand move = new MoveCommand(this.Controller, bundle, new Point(lastPoint.X - initialPoint.X, lastPoint.Y - initialPoint.Y)); //no Redo() necessary here! package.Commands.Add(move); #endregion #region The re-attachment near another connector //let's see if the connection endpoints hit other connectors (different than the selected one!) //define a predicate delegate to filter things out otherwise the hit will return the moved connector which would results //in a stack overflow later on Predicate <IConnector> predicate = delegate(IConnector conn) { //whatever, except itself and any children of the moved connector //since this would entail a child becoming a parent! if (conn.Hit(e.Location) && conn != Selection.Connector && !Selection.Connector.AttachedConnectors.Contains(conn)) { return(true); } return(false); }; //find it! IConnector parentConnector = Selection.FindConnector(predicate); if (parentConnector != null) //aha, there's an attachment { BindConnectorsCommand binder = new BindConnectorsCommand(this.Controller, parentConnector, Selection.Connector); package.Commands.Add(binder); binder.Redo(); //this one is necessary since the redo cannot be performed on the whole compound command } #endregion message = "Connector move"; #endregion } else { #region We are moving entities other than a connector Bundle bundle = new Bundle(Controller.Model); bundle.Entities.AddRange(Selection.SelectedItems); MoveCommand cmd = new MoveCommand(this.Controller, bundle, new Point(lastPoint.X - initialPoint.X, lastPoint.Y - initialPoint.Y)); package.Commands.Add(cmd); //not necessary to perform the Redo action of the command since the mouse-move already moved the bundle! #endregion message = "Entities move"; } //reset the hovered connector, if any if (hoveredConnector != null) { hoveredConnector.Hovered = false; } package.Text = message; //whatever the content of the package we add it to the undo history this.Controller.UndoManager.AddUndoCommand(package); //show the tracker again this.Controller.View.ShowTracker(); } }
/// <summary> /// /// </summary> /// <param name="e">The <see cref="T:System.Windows.Forms.MouseEventArgs"/> instance containing the event data.</param> public void MouseUp(MouseEventArgs e) { if (IsActive) { // First, make sure the initial point is far enough away from // the final point to make a connection. int maxX = Math.Abs(Math.Max(initialPoint.X, e.Location.X)); int maxY = Math.Abs(Math.Max(initialPoint.Y, e.Location.Y)); if (!(maxX > ConnectionBase.MinLength) || !(maxY > ConnectionBase.MinLength)) { return; } //whatever comes hereafter, a compund command is the most economic approach CompoundCommand package = new CompoundCommand(this.Controller); //let's see if the connection endpoints hit other connectors //note that the following can be done because the actual connection has not been created yet //otherwise the search would find the endpoints of the newly created connection, which //would create a loop and a stack overflow! IConnector startConnector = this.Controller.Model.Selection.FindConnectorAt(initialPoint); IConnector endConnector = this.Controller.Model.Selection.FindConnectorAt(e.Location); #region Create the new connection Connection cn = new Connection(this.initialPoint, e.Location, this.Controller.Model); AddConnectionCommand newcon = new AddConnectionCommand(this.Controller, cn); #endregion #region Initial attachment? if (startConnector != null) { BindConnectorsCommand bindStart = new BindConnectorsCommand(this.Controller, startConnector, cn.From); package.Commands.Add(bindStart); } #endregion #region Final attachment? if (endConnector != null) { BindConnectorsCommand bindEnd = new BindConnectorsCommand(this.Controller, endConnector, cn.To); package.Commands.Add(bindEnd); } #endregion package.Text = "New connection"; package.Commands.Add(newcon); this.Controller.UndoManager.AddUndoCommand(package); //do it all package.Redo(); //reset highlight of the found connector if (foundConnector != null) foundConnector.Hovered = false; //drop the painted ghost Controller.View.ResetGhost(); this.doDraw = false; } }
/// <summary> /// /// </summary> /// <param name="e">The <see cref="T:System.Windows.Forms.MouseEventArgs"/> instance containing the event data.</param> public void MouseUp(MouseEventArgs e) { if (IsActive) { // First, make sure the initial point is far enough away from // the final point to make a connection. int maxX = Math.Abs(Math.Max(initialPoint.X, e.Location.X)); int maxY = Math.Abs(Math.Max(initialPoint.Y, e.Location.Y)); if (!(maxX > ConnectionBase.MinLength) || !(maxY > ConnectionBase.MinLength)) { return; } //whatever comes hereafter, a compund command is the most economic approach CompoundCommand package = new CompoundCommand(this.Controller); //let's see if the connection endpoints hit other connectors //note that the following can be done because the actual connection has not been created yet //otherwise the search would find the endpoints of the newly created connection, which //would create a loop and a stack overflow! IConnector startConnector = this.Controller.Model.Selection.FindConnectorAt(initialPoint); IConnector endConnector = this.Controller.Model.Selection.FindConnectorAt(e.Location); #region Create the new connection Connection cn = new Connection(this.initialPoint, e.Location, this.Controller.Model); AddConnectionCommand newcon = new AddConnectionCommand(this.Controller, cn); #endregion #region Initial attachment? if (startConnector != null) { BindConnectorsCommand bindStart = new BindConnectorsCommand(this.Controller, startConnector, cn.From); package.Commands.Add(bindStart); } #endregion #region Final attachment? if (endConnector != null) { BindConnectorsCommand bindEnd = new BindConnectorsCommand(this.Controller, endConnector, cn.To); package.Commands.Add(bindEnd); } #endregion package.Text = "New connection"; package.Commands.Add(newcon); this.Controller.UndoManager.AddUndoCommand(package); //do it all package.Redo(); //reset highlight of the found connector if (foundConnector != null) { foundConnector.Hovered = false; } //drop the painted ghost Controller.View.ResetGhost(); this.doDraw = false; } }