kicad/eeschema/sch_item.h

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2004 Jean-Pierre Charras, jaen-pierre.charras@gipsa-lab.inpg.com
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* Copyright (C) 2004-2021 KiCad Developers, see AUTHORS.txt for contributors.
*
* 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.
*
* This program 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 this program; if not, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
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#ifndef SCH_ITEM_H
#define SCH_ITEM_H
#include <unordered_map>
#include <map>
#include <set>
#include <eda_item.h>
#include <plotters/plotter.h>
#include <default_values.h>
#include <sch_sheet_path.h>
#include <netclass.h>
class CONNECTION_GRAPH;
class SCH_CONNECTION;
class SCH_SHEET_PATH;
class SCHEMATIC;
class LINE_READER;
class SCH_EDIT_FRAME;
class wxFindReplaceData;
class PLOTTER;
class NETLIST_OBJECT;
class NETLIST_OBJECT_LIST;
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using KIGFX::RENDER_SETTINGS;
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enum FIELDS_AUTOPLACED
{
FIELDS_AUTOPLACED_NO = 0,
FIELDS_AUTOPLACED_AUTO,
FIELDS_AUTOPLACED_MANUAL
};
enum DANGLING_END_T
{
UNKNOWN = 0,
WIRE_END,
BUS_END,
JUNCTION_END,
PIN_END,
LABEL_END,
BUS_ENTRY_END,
WIRE_ENTRY_END,
SHEET_LABEL_END,
NO_CONNECT_END,
};
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/**
* Helper class used to store the state of schematic items that can be connected to
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* other schematic items.
*/
class DANGLING_END_ITEM
{
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public:
DANGLING_END_ITEM( DANGLING_END_T aType, EDA_ITEM* aItem, const VECTOR2I& aPosition )
{
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m_item = aItem;
m_type = aType;
m_pos = aPosition;
m_parent = aItem;
}
DANGLING_END_ITEM( DANGLING_END_T aType, EDA_ITEM* aItem, const VECTOR2I& aPosition,
const EDA_ITEM* aParent )
{
m_item = aItem;
m_type = aType;
m_pos = aPosition;
m_parent = aParent;
}
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bool operator==( const DANGLING_END_ITEM& aB ) const
{
return GetItem() == aB.GetItem()
&& GetPosition() == aB.GetPosition()
&& GetType() == aB.GetType()
&& GetParent() == aB.GetParent();
}
bool operator!=( const DANGLING_END_ITEM& aB ) const
{
return GetItem() != aB.GetItem()
|| GetPosition() != aB.GetPosition()
|| GetType() != aB.GetType()
|| GetParent() != aB.GetParent();;
}
bool operator<( const DANGLING_END_ITEM& rhs ) const
{
return( m_pos.x < rhs.m_pos.x || ( m_pos.x == rhs.m_pos.x && m_pos.y < rhs.m_pos.y )
|| ( m_pos == rhs.m_pos && m_item < rhs.m_item ) );
}
VECTOR2I GetPosition() const { return m_pos; }
EDA_ITEM* GetItem() const { return m_item; }
const EDA_ITEM* GetParent() const { return m_parent; }
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DANGLING_END_T GetType() const { return m_type; }
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private:
EDA_ITEM* m_item; /// A pointer to the connectable object.
VECTOR2I m_pos; /// The position of the connection point.
DANGLING_END_T m_type; /// The type of connection of #m_item.
const EDA_ITEM* m_parent; /// A pointer to the parent object (in the case of pins)
};
typedef std::vector<SCH_ITEM*> SCH_ITEM_SET;
/**
* Base class for any item which can be embedded within the #SCHEMATIC container class,
* and therefore instances of derived classes should only be found in EESCHEMA or other
* programs that use class SCHEMATIC and its contents.
*
* The corresponding class in Pcbnew is #BOARD_ITEM.
*/
class SCH_ITEM : public EDA_ITEM
{
public:
SCH_ITEM( EDA_ITEM* aParent, KICAD_T aType );
SCH_ITEM( const SCH_ITEM& aItem );
SCH_ITEM& operator=( const SCH_ITEM& aPin );
virtual ~SCH_ITEM();
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virtual wxString GetClass() const override
{
return wxT( "SCH_ITEM" );
}
bool IsType( const std::vector<KICAD_T>& aScanTypes ) const override
{
if( EDA_ITEM::IsType( aScanTypes ) )
return true;
for( KICAD_T scanType : aScanTypes )
{
if( scanType == SCH_ITEM_LOCATE_WIRE_T && m_layer == LAYER_WIRE )
return true;
if ( scanType == SCH_ITEM_LOCATE_BUS_T && m_layer == LAYER_BUS )
return true;
if ( scanType == SCH_ITEM_LOCATE_GRAPHIC_LINE_T
&& Type() == SCH_LINE_T && m_layer == LAYER_NOTES )
{
return true;
}
}
return false;
}
/**
* Swap the internal data structures \a aItem with the schematic item.
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* Obviously, aItem must have the same type than me.
* @param aItem The item to swap the data structures with.
*/
virtual void SwapData( SCH_ITEM* aItem );
/**
* Routine to create a new copy of given item.
* The new object is not put in draw list (not linked).
*
* @param doClone (default = false) indicates unique values (such as timestamp and
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* sheet name) should be duplicated. Use only for undo/redo operations.
*/
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SCH_ITEM* Duplicate( bool doClone = false ) const;
/**
* @return true for items which are moved with the anchor point at mouse cursor
* and false for items moved with no reference to anchor
* Usually return true for small items (labels, junctions) and false for
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* items which can be large (hierarchical sheets, symbols)
*/
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virtual bool IsMovableFromAnchorPoint() const { return true; }
VECTOR2I& GetStoredPos() { return m_storedPos; }
void SetStoredPos( const VECTOR2I& aPos ) { m_storedPos = aPos; }
/**
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* Searches the item hierarchy to find a SCHEMATIC.
*
* Every SCH_ITEM that lives on a SCH_SCREEN should be parented to either that screen
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* or another SCH_ITEM on the same screen (for example, pins to their symbols).
*
* Every SCH_SCREEN should be parented to the SCHEMATIC.
*
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* @note This hierarchy is not the same as the sheet hierarchy!
*
* @return the parent schematic this item lives on, or nullptr.
*/
SCHEMATIC* Schematic() const;
/**
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* @return true if the object is locked, else false.
*/
virtual bool IsLocked() const { return false; }
/**
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* Set the 'lock' status to \a aLocked for of this item.
*/
virtual void SetLocked( bool aLocked ) {}
/**
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* Allow items to support hypertext actions when hovered/clicked.
*/
virtual bool IsHypertext() const { return false; }
virtual void DoHypertextAction( EDA_DRAW_FRAME* aFrame ) const { }
/**
* Return the layer this item is on.
*/
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SCH_LAYER_ID GetLayer() const { return m_layer; }
/**
* Set the layer this item is on.
*
* @param aLayer The layer number.
*/
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void SetLayer( SCH_LAYER_ID aLayer ) { m_layer = aLayer; }
/**
* Return the layers the item is drawn on (which may be more than its "home" layer)
*/
void ViewGetLayers( int aLayers[], int& aCount ) const override;
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/**
* @return the size of the "pen" that be used to draw or plot this item
*/
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virtual int GetPenWidth() const { return 0; }
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const wxString& GetDefaultFont() const;
bool RenderAsBitmap( double aWorldScale ) const override;
/**
* Print a schematic item.
*
* Each schematic item should have its own method
*
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* @param aOffset is the drawing offset (usually {0,0} but can be different when moving an
* object).
*/
virtual void Print( const RENDER_SETTINGS* aSettings, const VECTOR2I& aOffset ) = 0;
/**
* Move the item by \a aMoveVector to a new position.
*/
virtual void Move( const VECTOR2I& aMoveVector ) = 0;
/**
* Mirror item horizontally about \a aCenter.
*/
virtual void MirrorHorizontally( int aCenter ) = 0;
/**
* Mirror item vertically about \a aCenter.
*/
virtual void MirrorVertically( int aCenter ) = 0;
/**
* Rotate the item around \a aCenter 90 degrees in the clockwise direction.
*/
virtual void Rotate( const VECTOR2I& aCenter ) = 0;
/**
* Add the schematic item end points to \a aItemList if the item has end points.
*
* The default version doesn't do anything since many of the schematic object cannot
* be tested for dangling ends. If you add a new schematic item that can have a
* dangling end ( no connect ), override this method to provide the correct end
* points.
*
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* @param aItemList is the list of DANGLING_END_ITEMS to add to.
*/
virtual void GetEndPoints( std::vector< DANGLING_END_ITEM >& aItemList ) {}
/**
* Test the schematic item to \a aItemList to check if it's dangling state has changed.
*
* Note that the return value only true when the state of the test has changed. Use
* the IsDangling() method to get the current dangling state of the item. Some of
* the schematic objects cannot be tested for a dangling state, the default method
* always returns false. Only override the method if the item can be tested for a
* dangling state.
*
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* If aSheet is passed a non-null pointer to a SCH_SHEET_PATH, the overridden method can
* optionally use it to update sheet-local connectivity information
*
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* @param aItemList is the list of items to test item against.
* @param aSheet is the sheet path to update connections for.
* @return True if the dangling state has changed from it's current setting.
*/
virtual bool UpdateDanglingState( std::vector<DANGLING_END_ITEM>& aItemList,
const SCH_SHEET_PATH* aPath = nullptr )
{
return false;
}
virtual bool IsDangling() const { return false; }
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virtual bool CanConnect( const SCH_ITEM* aItem ) const { return m_layer == aItem->GetLayer(); }
/**
* @return true if the schematic item can connect to another schematic item.
*/
virtual bool IsConnectable() const { return false; }
/**
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* @return true if the given point can start drawing (usually means the anchor is
* unused/free/dangling).
*/
virtual bool IsPointClickableAnchor( const VECTOR2I& aPos ) const { return false; }
/**
* Add all the connection points for this item to \a aPoints.
*
* Not all schematic items have connection points so the default method does nothing.
*
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* @param aPoints is the list of connection points to add to.
*/
virtual std::vector<VECTOR2I> GetConnectionPoints() const { return {}; }
/**
* Clears all of the connection items from the list.
*
* The vector release method is used to prevent the item pointers from being deleted.
* Do not use the vector erase method on the connection list.
*/
void ClearConnections() { m_connections.clear(); }
/**
* Test the item to see if it is connected to \a aPoint.
*
* @param aPoint is a reference to a VECTOR2I object containing the coordinates to test.
* @return True if connection to \a aPoint exists.
*/
bool IsConnected( const VECTOR2I& aPoint ) const;
/**
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* Retrieve the connection associated with this object in the given sheet.
*
* @note The returned value can be nullptr.
*/
SCH_CONNECTION* Connection( const SCH_SHEET_PATH* aSheet = nullptr ) const;
/**
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* Retrieve the set of items connected to this item on the given sheet.
*/
SCH_ITEM_SET& ConnectedItems( const SCH_SHEET_PATH& aPath );
/**
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* Add a connection link between this item and another.
*/
void AddConnectionTo( const SCH_SHEET_PATH& aPath, SCH_ITEM* aItem );
/**
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* Create a new connection object associated with this object.
*
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* @param aPath is the sheet path to initialize.
*/
SCH_CONNECTION* InitializeConnection( const SCH_SHEET_PATH& aPath, CONNECTION_GRAPH* aGraph );
SCH_CONNECTION* GetOrInitConnection( const SCH_SHEET_PATH& aPath, CONNECTION_GRAPH* aGraph );
/**
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* Return true if this item should propagate connection info to \a aItem.
*/
virtual bool ConnectionPropagatesTo( const EDA_ITEM* aItem ) const { return true; }
bool IsConnectivityDirty() const { return m_connectivity_dirty; }
void SetConnectivityDirty( bool aDirty = true ) { m_connectivity_dirty = aDirty; }
virtual void SetLastResolvedState( const SCH_ITEM* aItem ) { }
std::shared_ptr<NETCLASS> GetEffectiveNetClass( const SCH_SHEET_PATH* aSheet = nullptr ) const;
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/**
* Return whether the fields have been automatically placed.
*/
FIELDS_AUTOPLACED GetFieldsAutoplaced() const { return m_fieldsAutoplaced; }
void SetFieldsAutoplaced() { m_fieldsAutoplaced = FIELDS_AUTOPLACED_AUTO; }
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void ClearFieldsAutoplaced() { m_fieldsAutoplaced = FIELDS_AUTOPLACED_NO; }
/**
* Autoplace fields only if correct to do so automatically.
*
* Fields that have been moved by hand are not automatically placed.
*
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* @param aScreen is the SCH_SCREEN associated with the current instance of the symbol.
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*/
void AutoAutoplaceFields( SCH_SCREEN* aScreen )
{
if( GetFieldsAutoplaced() )
AutoplaceFields( aScreen, GetFieldsAutoplaced() == FIELDS_AUTOPLACED_MANUAL );
}
virtual void AutoplaceFields( SCH_SCREEN* aScreen, bool aManual ) { }
virtual void RunOnChildren( const std::function<void( SCH_ITEM* )>& aFunction ) { }
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virtual void ClearCaches();
/**
* Check if this schematic item has line stoke properties.
*
* @see #STROKE_PARAMS
*
* @return true if this schematic item support line stroke properties. Otherwise, false.
*/
virtual bool HasLineStroke() const { return false; }
virtual STROKE_PARAMS GetStroke() const { wxCHECK( false, STROKE_PARAMS() ); }
virtual void SetStroke( const STROKE_PARAMS& aStroke ) { wxCHECK( false, /* void */ ); }
/**
* Plot the schematic item to \a aPlotter.
*
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* @param aPlotter is the #PLOTTER object to plot to.
* @param aBackground a poor-man's Z-order. The routine will get called twice, first with
* aBackground true and then with aBackground false.
*/
virtual void Plot( PLOTTER* aPlotter, bool aBackground ) const;
virtual bool operator <( const SCH_ITEM& aItem ) const;
private:
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friend class CONNECTION_GRAPH;
/**
* Provide the object specific test to see if it is connected to \a aPosition.
*
* @note Override this function if the derived object can be connect to another
* object such as a wire, bus, or junction. Do not override this function
* for objects that cannot have connections. The default will always return
* false. This functions is call through the public function IsConnected()
* which performs tests common to all schematic items before calling the
* item specific connection testing.
*
* @param aPosition is a reference to a VECTOR2I object containing the test position.
* @return True if connection to \a aPosition exists.
*/
virtual bool doIsConnected( const VECTOR2I& aPosition ) const { return false; }
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protected:
SCH_LAYER_ID m_layer;
EDA_ITEMS m_connections; // List of items connected to this item.
FIELDS_AUTOPLACED m_fieldsAutoplaced; // indicates status of field autoplacement
VECTOR2I m_storedPos; // a temporary variable used in some move commands
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// to store a initial pos of the item or mouse cursor
/// Store pointers to other items that are connected to this one, per sheet.
std::map<SCH_SHEET_PATH, SCH_ITEM_SET, SHEET_PATH_CMP> m_connected_items;
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/// Store connectivity information, per sheet.
std::unordered_map<SCH_SHEET_PATH, SCH_CONNECTION*> m_connection_map;
bool m_connectivity_dirty;
};
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#endif /* SCH_ITEM_H */