/*************************************************************************** * Copyright (C) 2003-2005 by David Saxton * * david@bluehaze.org * * * * This program 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 2 of the License, or * * (at your option) any later version. * ***************************************************************************/ #ifndef CONNECTOR_H #define CONNECTOR_H #include #include #include class Cell; class ConnectorData; class ConnectorLine; class ConRouter; class CNItem; class ICNDocument; class Node; class NodeGroup; class Wire; typedef TQValueList ConnectorLineList; typedef TQValueList TQPointList; typedef TQValueVector > WireVector; /** @short Represents a connection between two Nodes on a ICNDocument @author David Saxton */ class Connector : public TQObject, public TQCanvasPolygon { Q_OBJECT TQ_OBJECT public: Connector( Node * startNode, Node * endNode, ICNDocument *_ICNDocument, TQString *id = 0L ); ~Connector(); virtual int rtti() const; /** * Node at start of connector (which refers to this as the output connector) */ Node * startNode() const { return m_startNode; } /** * Node at end of connector (which refers to this as the input connector) */ Node * endNode() const { return m_endNode; } /** * @returns connector data describing this connector */ ConnectorData connectorData() const; /** * Restore the state of the connector (route, etc) from the saved data */ void restoreFromConnectorData( const ConnectorData &connectorData ); /** * If selected, will be drawn in a different colour */ virtual void setSelected( bool yes ); /** * Connected id */ TQString id() const { return m_id; } /** * Update the list of lines and connetion-points that the connector uses for * drawing. */ void updateDrawList(); /** * Tells the connector that it is under the control of a NodeGroup. When * the connector is under the control of a NodeGroup, all requests for * connection rerouting will be passed onto that NodeGroup */ void setNodeGroup( NodeGroup *nodeGroup ) { p_nodeGroup = nodeGroup; } /** * Returns the NodeGroup that the connector is under the control of (if any) */ NodeGroup *nodeGroup() const { return p_nodeGroup; } /** * ICNDocument needs to know what 'cells' a connector is present in, * so that connection mapping can be done to avoid connectors. * This function will add the hit penalty to the cells pointed to * by ICNDocument::cells() */ void updateConnectorPoints( bool add ); /** * Sets the canvas points that the connector should route itself along. * This is used for manual routing. The cells points are absolute positions * (unlike the points stored internally in this class, which are the cell poisition * @param setManual if true then the connector will change to a manual route one * @param checkEndPoints if true then will check to see if the end points are at the nodes, and adds them if not */ void setRoutePoints( TQPointList pointList, bool setManual, bool checkEndPoints = false ); /** * Call this function (e.g. when moving a CNItem connected to the connector) * to make the connector partially hidden - probably grayed out - if semiHidden * is true. */ void setSemiHidden( bool semiHidden ); /** * Sets the container tqparent (i.e. the container of the tqparent item) */ void setParentContainer( const TQString &cnItemId ); /** * Returns a pointer to the tqparent item container */ CNItem *tqparentContainer() const { return p_parentContainer; } /** * @returns whether the points have been set by the user manually defining them */ bool usesManualPoints() const { return b_manualPoints; } /** * Returns two sets of points (in canvas-reference) that define the connector * from start to finish, when it is split at the given point (in canvas-reference) */ TQValueList splitConnectorPoints( const TQPoint &pos ) const; /** * @returns pointer to ICNDocument that this connector is a member of */ ICNDocument *icnDocument() const { return p_icnDocument; } /** * Looks at the set of canvas points and tries to determine whether they are * in the reverse order from start to end node */ bool pointsAreReverse( const TQPointList &pointList ) const; /** * Returns the points, given in canvas-reference, in order of start node to * end node if reverse is false * @param reverse whether or not to reverse the points from start node to end node */ TQPointList connectorPoints( bool reverse = false ) const; /** * Reroute the connector. Note that if this connector is controlled by a * NodeGroup, it will do nothing (other than print out a warning) */ void rerouteConnector(); /** * Translates the route by the given amoumt. No checking is done to see if * the translation is useful, etc. */ void translateRoute( int dx, int dy ); virtual void setVisible( bool yes ); WireVector wires() const { return m_wires; } unsigned numWires() const { return m_wires.size(); } Wire * wire( unsigned num = 0 ) const { return (num < m_wires.size()) ? m_wires[num] : 0l; } signals: void removed( Connector *connector ); void selected( bool yes ); void numWiresChanged( unsigned newNum ); public slots: void removeConnector( Node* = 0L ); /** * Takes the minimum pin count of the start and end nodes, and creates a * connector for each pin up to that minimum. */ void syncWiresWithNodes(); protected: void updateConnectorLines(); bool m_bIsSyncingWires; bool b_semiHidden; TQGuardedPtr m_startNode; TQGuardedPtr m_endNode; NodeGroup *p_nodeGroup; CNItem *p_parentContainer; ICNDocument *p_icnDocument; ConRouter *m_conRouter; TQString m_id; ConnectorLineList m_connectorLineList; TQRect m_oldBoundRect; WireVector m_wires; bool b_deleted; bool b_manualPoints; bool b_pointsAdded; }; typedef TQValueList > ConnectorList; //BEGIN ConnectorLine things class ConnectorLine : public TQObject, public TQCanvasLine { public: ConnectorLine( Connector *connector ); Connector *tqparent() const { return p_connector; } virtual int rtti() const; protected: Connector *p_connector; }; //END ConnectorLine things #endif