/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2019 Jean-Pierre Charras jp.charras at wanadoo.fr * Copyright (C) 1992-2023 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 3 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 */ /* * Edit properties of Lines, Circles, Arcs and Polygons for PCBNew and Footprint Editor */ #include #include #include #include #include #include #include #include #include #include #include #include #include class DIALOG_SHAPE_PROPERTIES : public DIALOG_SHAPE_PROPERTIES_BASE { public: DIALOG_SHAPE_PROPERTIES( PCB_BASE_EDIT_FRAME* aParent, PCB_SHAPE* aShape ); ~DIALOG_SHAPE_PROPERTIES() {}; private: bool TransferDataToWindow() override; bool TransferDataFromWindow() override; void onFilledCheckbox( wxCommandEvent& event ) override; void onLayerSelection( wxCommandEvent& event ) override; bool Validate() override; // Show/hide the widgets used in net selection (shown only for copper layers) void showHideNetInfo() { m_netSelector->Show( m_item->IsOnCopperLayer() ); m_netLabel->Show( m_item->IsOnCopperLayer() ); } private: PCB_BASE_EDIT_FRAME* m_parent; PCB_SHAPE* m_item; UNIT_BINDER m_startX, m_startY; UNIT_BINDER m_endX, m_endY; UNIT_BINDER m_thickness; UNIT_BINDER m_segmentLength; UNIT_BINDER m_segmentAngle; UNIT_BINDER m_angle; UNIT_BINDER m_rectangleHeight; UNIT_BINDER m_rectangleWidth; UNIT_BINDER m_bezierCtrl1X, m_bezierCtrl1Y; UNIT_BINDER m_bezierCtrl2X, m_bezierCtrl2Y; bool m_flipStartEnd; }; DIALOG_SHAPE_PROPERTIES::DIALOG_SHAPE_PROPERTIES( PCB_BASE_EDIT_FRAME* aParent, PCB_SHAPE* aShape ): DIALOG_SHAPE_PROPERTIES_BASE( aParent ), m_parent( aParent ), m_item( aShape ), m_startX( aParent, m_startXLabel, m_startXCtrl, m_startXUnits ), m_startY( aParent, m_startYLabel, m_startYCtrl, m_startYUnits ), m_endX( aParent, m_endXLabel, m_endXCtrl, m_endXUnits ), m_endY( aParent, m_endYLabel, m_endYCtrl, m_endYUnits ), m_thickness( aParent, m_thicknessLabel, m_thicknessCtrl, m_thicknessUnits ), m_segmentLength( aParent, m_segmentLengthLabel, m_segmentLengthCtrl, m_segmentLengthUnits ), m_segmentAngle( aParent, m_segmentAngleLabel, m_segmentAngleCtrl, m_segmentAngleUnits ), m_angle( aParent, m_angleLabel, m_angleCtrl, m_angleUnits ), m_rectangleHeight( aParent, m_rectangleHeightLabel, m_rectangleHeightCtrl, m_rectangleHeightUnits ), m_rectangleWidth( aParent, m_rectangleWidthLabel, m_rectangleWidthCtrl, m_rectangleWidthUnits ), m_bezierCtrl1X( aParent, m_BezierPointC1XLabel, m_BezierC1X_Ctrl, m_BezierPointC1XUnit ), m_bezierCtrl1Y( aParent, m_BezierPointC1YLabel, m_BezierC1Y_Ctrl, m_BezierPointC1YUnit ), m_bezierCtrl2X( aParent, m_BezierPointC2XLabel, m_BezierC2X_Ctrl, m_BezierPointC2XUnit ), m_bezierCtrl2Y( aParent, m_BezierPointC2YLabel, m_BezierC2Y_Ctrl, m_BezierPointC2YUnit ), m_flipStartEnd( false ) { SetTitle( wxString::Format( GetTitle(), m_item->GetFriendlyName() ) ); m_hash_key = TO_UTF8( GetTitle() ); // Configure display origin transforms m_startX.SetCoordType( ORIGIN_TRANSFORMS::ABS_X_COORD ); m_startY.SetCoordType( ORIGIN_TRANSFORMS::ABS_Y_COORD ); m_endX.SetCoordType( ORIGIN_TRANSFORMS::ABS_X_COORD ); m_endY.SetCoordType( ORIGIN_TRANSFORMS::ABS_Y_COORD ); m_bezierCtrl1X.SetCoordType( ORIGIN_TRANSFORMS::ABS_X_COORD ); m_bezierCtrl1Y.SetCoordType( ORIGIN_TRANSFORMS::ABS_Y_COORD ); m_bezierCtrl2X.SetCoordType( ORIGIN_TRANSFORMS::ABS_X_COORD ); m_bezierCtrl2Y.SetCoordType( ORIGIN_TRANSFORMS::ABS_Y_COORD ); m_segmentAngle.SetUnits( EDA_UNITS::DEGREES ); m_segmentAngle.SetPrecision( 4 ); m_angle.SetUnits( EDA_UNITS::DEGREES ); // Do not allow locking items in the footprint editor m_locked->Show( dynamic_cast( aParent ) != nullptr ); // Configure the layers list selector if( m_parent->GetFrameType() == FRAME_FOOTPRINT_EDITOR ) { LSET forbiddenLayers = LSET::ForbiddenFootprintLayers(); // If someone went to the trouble of setting the layer in a text editor, then there's // very little sense in nagging them about it. forbiddenLayers.set( m_item->GetLayer(), false ); m_LayerSelectionCtrl->SetNotAllowedLayerSet( forbiddenLayers ); } for( const std::pair& typeEntry : lineTypeNames ) m_lineStyleCombo->Append( typeEntry.second.name, KiBitmap( typeEntry.second.bitmap ) ); m_lineStyleCombo->Append( DEFAULT_STYLE ); m_LayerSelectionCtrl->SetLayersHotkeys( false ); m_LayerSelectionCtrl->SetBoardFrame( m_parent ); m_LayerSelectionCtrl->Resync(); m_netSelector->SetBoard( aParent->GetBoard() ); m_netSelector->SetNetInfo( &aParent->GetBoard()->GetNetInfo() ); int net = aShape->GetNetCode(); if( net >= 0 ) { m_netSelector->SetSelectedNetcode( net ); } else { m_netSelector->SetIndeterminateString( INDETERMINATE_STATE ); m_netSelector->SetIndeterminate(); } if( m_item->GetShape() == SHAPE_T::POLY ) m_sizerStartEnd->Show( false ); // Only a Bezeier curve has control points. So do not show these parameters for other shapes if( m_item->GetShape() != SHAPE_T::BEZIER ) m_sizerBezier->Show( false ); // Only a segment has this format if( m_item->GetShape() != SHAPE_T::SEGMENT ) { m_segmentLength.Show( false ); m_segmentAngle.Show( false ); } if( m_item->GetShape() != SHAPE_T::RECTANGLE ) { m_rectangleHeight.Show( false ); m_rectangleWidth.Show( false ); } // Only an arc has a angle parameter. So do not show this parameter for other shapes if( m_item->GetShape() != SHAPE_T::ARC ) m_angle.Show( false ); if( m_item->GetShape() == SHAPE_T::ARC || m_item->GetShape() == SHAPE_T::SEGMENT ) m_filledCtrl->Show( false ); // Change texts for circles: if( m_item->GetShape() == SHAPE_T::CIRCLE ) { m_startPointLabel->SetLabel( _( "Center Point" ) ); m_endPointLabel->SetLabel( _( "Radius" ) ); m_endXLabel->Show( false ); m_endX.SetCoordType( ORIGIN_TRANSFORMS::NOT_A_COORD ); m_endY.Show( false ); } showHideNetInfo(); SetInitialFocus( m_startXCtrl ); SetupStandardButtons(); // Now all widgets have the size fixed, call FinishDialogSettings finishDialogSettings(); Layout(); } void PCB_BASE_EDIT_FRAME::ShowGraphicItemPropertiesDialog( PCB_SHAPE* aShape ) { wxCHECK_RET( aShape, wxT( "ShowGraphicItemPropertiesDialog() error: NULL item" ) ); DIALOG_SHAPE_PROPERTIES dlg( this, aShape ); if( dlg.ShowQuasiModal() == wxID_OK ) { if( aShape->IsOnLayer( GetActiveLayer() ) ) { DRAWING_TOOL* drawingTool = m_toolManager->GetTool(); drawingTool->SetStroke( aShape->GetStroke(), GetActiveLayer() ); } } } void DIALOG_SHAPE_PROPERTIES::onLayerSelection( wxCommandEvent& event ) { if( m_LayerSelectionCtrl->GetLayerSelection() >= 0 ) { m_item->SetLayer( ToLAYER_ID( m_LayerSelectionCtrl->GetLayerSelection() ) ); showHideNetInfo(); } } void DIALOG_SHAPE_PROPERTIES::onFilledCheckbox( wxCommandEvent& event ) { if( m_filledCtrl->GetValue() ) { m_lineStyleCombo->SetSelection( 0 ); m_lineStyleLabel->Enable( false ); m_lineStyleCombo->Enable( false ); } else { PLOT_DASH_TYPE style = m_item->GetStroke().GetPlotStyle(); if( style == PLOT_DASH_TYPE::DEFAULT ) style = PLOT_DASH_TYPE::SOLID; if( (int) style < (int) lineTypeNames.size() ) m_lineStyleCombo->SetSelection( (int) style ); m_lineStyleLabel->Enable( true ); m_lineStyleCombo->Enable( true ); } } bool DIALOG_SHAPE_PROPERTIES::TransferDataToWindow() { if( !m_item ) return false; if( m_item->GetShape() == SHAPE_T::ARC ) m_angle.SetAngleValue( m_item->GetArcAngle() ); if( m_item->GetShape() == SHAPE_T::RECTANGLE ) { m_rectangleHeight.SetValue( m_item->GetRectangleHeight() ); m_rectangleWidth.SetValue( m_item->GetRectangleWidth() ); } if( m_item->GetShape() == SHAPE_T::SEGMENT ) { if( m_item->GetStart().x == m_item->GetEnd().x ) m_flipStartEnd = m_item->GetStart().y > m_item->GetEnd().y; else m_flipStartEnd = m_item->GetStart().x > m_item->GetEnd().x; m_segmentLength.SetValue( KiROUND( m_item->GetLength() ) ); m_segmentAngle.SetAngleValue( m_item->GetSegmentAngle() ); } if( m_flipStartEnd && m_item->GetShape() != SHAPE_T::ARC ) { m_startX.SetValue( m_item->GetEnd().x ); m_startY.SetValue( m_item->GetEnd().y ); } else { m_startX.SetValue( m_item->GetStart().x ); m_startY.SetValue( m_item->GetStart().y ); } if( m_item->GetShape() == SHAPE_T::CIRCLE ) { m_endX.SetValue( m_item->GetRadius() ); } else if( m_flipStartEnd && m_item->GetShape() != SHAPE_T::ARC ) { m_endX.SetValue( m_item->GetStart().x ); m_endY.SetValue( m_item->GetStart().y ); } else { m_endX.SetValue( m_item->GetEnd().x ); m_endY.SetValue( m_item->GetEnd().y ); } if( m_item->GetShape() == SHAPE_T::BEZIER ) { m_bezierCtrl1X.SetValue( m_item->GetBezierC1().x ); m_bezierCtrl1Y.SetValue( m_item->GetBezierC1().y ); m_bezierCtrl2X.SetValue( m_item->GetBezierC2().x ); m_bezierCtrl2Y.SetValue( m_item->GetBezierC2().y ); } m_filledCtrl->SetValue( m_item->IsFilled() ); m_locked->SetValue( m_item->IsLocked() ); m_thickness.SetValue( m_item->GetStroke().GetWidth() ); int style = static_cast( m_item->GetStroke().GetPlotStyle() ); if( style == -1 ) m_lineStyleCombo->SetStringSelection( DEFAULT_STYLE ); else if( style < (int) lineTypeNames.size() ) m_lineStyleCombo->SetSelection( style ); else wxFAIL_MSG( "Line type not found in the type lookup map" ); m_LayerSelectionCtrl->SetLayerSelection( m_item->GetLayer() ); return DIALOG_SHAPE_PROPERTIES_BASE::TransferDataToWindow(); } bool DIALOG_SHAPE_PROPERTIES::TransferDataFromWindow() { if( !DIALOG_SHAPE_PROPERTIES_BASE::TransferDataFromWindow() ) return false; if( !m_item ) return true; int layer = m_LayerSelectionCtrl->GetLayerSelection(); VECTOR2I begin_point = m_item->GetStart(); VECTOR2I end_point = m_item->GetEnd(); int segment_length = 0; EDA_ANGLE segment_angle = EDA_ANGLE( 0, RADIANS_T ); int rectangle_height = 0; int rectangle_width = 0; BOARD_COMMIT commit( m_parent ); commit.Modify( m_item ); if( m_item->GetShape() == SHAPE_T::SEGMENT ) { segment_length = KiROUND( m_item->GetLength() ); segment_angle = m_item->GetSegmentAngle().Round( 3 ); } if( m_item->GetShape() == SHAPE_T::RECTANGLE ) { rectangle_height = m_item->GetRectangleHeight(); rectangle_width = m_item->GetRectangleWidth(); } if( m_flipStartEnd && m_item->GetShape() != SHAPE_T::ARC ) { m_item->SetEndX( m_startX.GetIntValue() ); m_item->SetEndY( m_startY.GetIntValue() ); } else { m_item->SetStartX( m_startX.GetIntValue() ); m_item->SetStartY( m_startY.GetIntValue() ); } if( m_item->GetShape() == SHAPE_T::CIRCLE ) { m_item->SetEnd( m_item->GetStart() + VECTOR2I( m_endX.GetIntValue(), 0 ) ); } else if( m_flipStartEnd && m_item->GetShape() != SHAPE_T::ARC ) { m_item->SetStartX( m_endX.GetIntValue() ); m_item->SetStartY( m_endY.GetIntValue() ); } else { m_item->SetEndX( m_endX.GetIntValue() ); m_item->SetEndY( m_endY.GetIntValue() ); } if( m_item->GetShape() == SHAPE_T::SEGMENT ) { bool change_begin = ( begin_point != m_item->GetStart() ); bool change_end = ( end_point != m_item->GetEnd() ); bool change_length = ( segment_length != m_segmentLength.GetValue() ); EDA_ANGLE difference = std::abs( segment_angle - m_segmentAngle.GetAngleValue() ); bool change_angle = ( difference >= EDA_ANGLE( 0.00049, DEGREES_T ) ); if( !( change_begin && change_end ) ) { segment_length = m_segmentLength.GetIntValue(); segment_angle = m_segmentAngle.GetAngleValue().Round( 3 ); if( change_length || change_angle ) { if( change_end ) { m_item->SetStartX( m_item->GetEndX() - KiROUND( segment_length * segment_angle.Cos() ) ); m_item->SetStartY( m_item->GetEndY() + KiROUND( segment_length * segment_angle.Sin() ) ); } else { m_item->SetEndX( m_item->GetStartX() + KiROUND( segment_length * segment_angle.Cos() ) ); m_item->SetEndY( m_item->GetStartY() - KiROUND( segment_length * segment_angle.Sin() ) ); } } } if( change_length ) m_item->SetLength( m_segmentLength.GetIntValue() ); else m_item->SetLength( m_item->GetLength() ); if( change_angle ) m_item->SetSegmentAngle( m_segmentAngle.GetAngleValue().Round( 3 ) ); else m_item->SetSegmentAngle( m_item->GetSegmentAngle().Round( 3 ) ); } if( m_item->GetShape() == SHAPE_T::RECTANGLE ) { bool change_begin = ( begin_point != m_item->GetStart() ); bool change_end = ( end_point != m_item->GetEnd() ); bool change_height = ( rectangle_height != m_rectangleHeight.GetValue() ); bool change_width = ( rectangle_width != m_rectangleWidth.GetValue() ); if( !( change_begin && change_end ) ) { rectangle_height = m_rectangleHeight.GetIntValue(); rectangle_width = m_rectangleWidth.GetIntValue(); if( change_height || change_width ) { if( change_end ) { m_item->SetStartX( m_item->GetEndX() - rectangle_width ); m_item->SetStartY( m_item->GetEndY() - rectangle_height ); } else { m_item->SetEndX( m_item->GetStartX() + rectangle_width ); m_item->SetEndY( m_item->GetStartY() + rectangle_height ); } } } m_item->SetRectangle( m_rectangleHeight.GetValue(), m_rectangleWidth.GetValue() ); } // For Bezier curve: Set the two control points if( m_item->GetShape() == SHAPE_T::BEZIER ) { m_item->SetBezierC1( VECTOR2I( m_bezierCtrl1X.GetIntValue(), m_bezierCtrl1Y.GetIntValue() ) ); m_item->SetBezierC2( VECTOR2I( m_bezierCtrl2X.GetIntValue(), m_bezierCtrl2Y.GetIntValue() ) ); } if( m_item->GetShape() == SHAPE_T::ARC ) { VECTOR2D c = CalcArcCenter( m_item->GetStart(), m_item->GetEnd(), m_angle.GetAngleValue() ); m_item->SetCenter( c ); } bool wasLocked = m_item->IsLocked(); m_item->SetFilled( m_filledCtrl->GetValue() ); m_item->SetLocked( m_locked->GetValue() ); STROKE_PARAMS stroke = m_item->GetStroke(); stroke.SetWidth( m_thickness.GetIntValue() ); auto it = lineTypeNames.begin(); std::advance( it, m_lineStyleCombo->GetSelection() ); if( it == lineTypeNames.end() ) stroke.SetPlotStyle( PLOT_DASH_TYPE::DEFAULT ); else stroke.SetPlotStyle( it->first ); m_item->SetStroke( stroke ); m_item->SetLayer( ToLAYER_ID( layer ) ); m_item->RebuildBezierToSegmentsPointsList( m_item->GetWidth() ); if( m_item->IsOnCopperLayer() ) m_item->SetNetCode( m_netSelector->GetSelectedNetcode() ); else m_item->SetNetCode( -1 ); commit.Push( _( "Modify drawing properties" ) ); // Notify clients which treat locked and unlocked items differently (ie: POINT_EDITOR) if( wasLocked != m_item->IsLocked() ) m_parent->GetToolManager()->PostEvent( EVENTS::SelectedEvent ); return true; } bool DIALOG_SHAPE_PROPERTIES::Validate() { wxArrayString errors; if( !DIALOG_SHAPE_PROPERTIES_BASE::Validate() ) return false; // Type specific checks. switch( m_item->GetShape() ) { case SHAPE_T::ARC: // Check angle of arc. if( m_angle.GetAngleValue() == ANGLE_0 ) errors.Add( _( "Arc angle cannot be zero." ) ); if( m_startX.GetValue() == m_endX.GetValue() && m_startY.GetValue() == m_endY.GetValue() ) { errors.Add( wxString::Format( _( "Invalid Arc with radius %f and angle %f." ), 0.0, m_angle.GetDoubleValue() ) ); } else { VECTOR2D start( m_startX.GetIntValue(), m_startY.GetIntValue() ); VECTOR2D end( m_endX.GetIntValue(), m_endY.GetIntValue() ); VECTOR2D center = CalcArcCenter( start, end, m_angle.GetAngleValue() ); double radius = ( center - start ).EuclideanNorm(); double max_offset = std::max( std::abs( center.x ) + radius, std::abs( center.y ) + radius ); if( max_offset >= ( std::numeric_limits::max() / 2.0 ) || center == start || center == end ) { errors.Add( wxString::Format( _( "Invalid Arc with radius %f and angle %f." ), radius, m_angle.GetDoubleValue() ) ); } } if( m_thickness.GetValue() <= 0 ) errors.Add( _( "Line width must be greater than zero." ) ); break; case SHAPE_T::CIRCLE: // Check radius. if( m_endX.GetValue() <= 0 ) errors.Add( _( "Radius must be greater than zero." ) ); if( !m_filledCtrl->GetValue() && m_thickness.GetValue() <= 0 ) errors.Add( _( "Line width must be greater than zero for an unfilled circle." ) ); break; case SHAPE_T::RECTANGLE: // Check for null rect. if( m_startX.GetValue() == m_endX.GetValue() && m_startY.GetValue() == m_endY.GetValue() ) errors.Add( _( "Rectangle cannot be empty." ) ); if( !m_filledCtrl->GetValue() && m_thickness.GetValue() <= 0 ) errors.Add( _( "Line width must be greater than zero for an unfilled rectangle." ) ); break; case SHAPE_T::POLY: if( !m_filledCtrl->GetValue() && m_thickness.GetValue() <= 0 ) errors.Add( _( "Line width must be greater than zero for an unfilled polygon." ) ); break; case SHAPE_T::SEGMENT: if( m_thickness.GetValue() <= 0 ) errors.Add( _( "Line width must be greater than zero." ) ); break; case SHAPE_T::BEZIER: if( !m_filledCtrl->GetValue() && m_thickness.GetValue() <= 0 ) errors.Add( _( "Line width must be greater than zero for an unfilled curve." ) ); break; default: UNIMPLEMENTED_FOR( m_item->SHAPE_T_asString() ); break; } if( errors.GetCount() ) { HTML_MESSAGE_BOX dlg( this, _( "Error List" ) ); dlg.ListSet( errors ); dlg.ShowModal(); } return errors.GetCount() == 0; }