/* * 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) 2013 Dick Hollenbeck, dick@softplc.com * Copyright (C) 2008-2013 Wayne Stambaugh * Copyright (C) 1992-2024 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 */ #include #include #include #include #include #include #include #include #include // for enum RECT_CHAMFER_POSITIONS definition #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // for pad property feature management #include int DIALOG_PAD_PROPERTIES::m_page = 0; // remember the last open page during session // list of pad shapes, ordered like the pad shape wxChoice in dialog. static PAD_SHAPE code_shape[] = { PAD_SHAPE::CIRCLE, PAD_SHAPE::OVAL, PAD_SHAPE::RECTANGLE, PAD_SHAPE::TRAPEZOID, PAD_SHAPE::ROUNDRECT, PAD_SHAPE::CHAMFERED_RECT, PAD_SHAPE::CHAMFERED_RECT, // choice = CHOICE_SHAPE_CHAMFERED_ROUNDED_RECT PAD_SHAPE::CUSTOM, // choice = CHOICE_SHAPE_CUSTOM_CIRC_ANCHOR PAD_SHAPE::CUSTOM // choice = PAD_SHAPE::CUSTOM_RECT_ANCHOR }; // the ordered index of the pad shape wxChoice in dialog. // keep it consistent with code_shape[] and dialog strings enum CODE_CHOICE { CHOICE_SHAPE_CIRCLE = 0, CHOICE_SHAPE_OVAL, CHOICE_SHAPE_RECT, CHOICE_SHAPE_TRAPEZOID, CHOICE_SHAPE_ROUNDRECT, CHOICE_SHAPE_CHAMFERED_RECT, CHOICE_SHAPE_CHAMFERED_ROUNDED_RECT, CHOICE_SHAPE_CUSTOM_CIRC_ANCHOR, CHOICE_SHAPE_CUSTOM_RECT_ANCHOR }; static PAD_ATTRIB code_type[] = { PAD_ATTRIB::PTH, PAD_ATTRIB::SMD, PAD_ATTRIB::CONN, PAD_ATTRIB::NPTH, PAD_ATTRIB::SMD // Aperture pad :type SMD with no copper layers, // only on tech layers (usually only on paste layer }; // These define have the same value as the m_PadType wxChoice GetSelected() return value #define PTH_DLG_TYPE 0 #define SMD_DLG_TYPE 1 #define CONN_DLG_TYPE 2 #define NPTH_DLG_TYPE 3 #define APERTURE_DLG_TYPE 4 /** * @brief Returns true if the pad's rounding ratio is valid (i.e. the pad * has a shape where that is meaningful) */ static bool PadHasMeaningfulRoundingRadius( const PAD& aPad ) { const PAD_SHAPE shape = aPad.GetShape(); return shape == PAD_SHAPE::ROUNDRECT || shape == PAD_SHAPE::CHAMFERED_RECT; } /** * @brief Get a sensible default for a rounded rectangle pad's rounding ratio * * According to IPC-7351C, this is 25%, or 0.25mm, whichever is smaller */ static double GetDefaultIpcRoundingRatio( const PAD& aPad ) { const double defaultProportion = 0.25; const double minimumSizeIU = pcbIUScale.mmToIU( 0.25 ); const int padMinSizeIU = std::min( aPad.GetSizeX(), aPad.GetSizeY() ); const double defaultRadiusIU = std::min( minimumSizeIU, padMinSizeIU * defaultProportion ); // Convert back to a ratio return defaultRadiusIU / padMinSizeIU; } void PCB_BASE_FRAME::ShowPadPropertiesDialog( PAD* aPad ) { DIALOG_PAD_PROPERTIES dlg( this, aPad ); // QuasiModal required for NET_SELECTOR dlg.ShowQuasiModal(); } DIALOG_PAD_PROPERTIES::DIALOG_PAD_PROPERTIES( PCB_BASE_FRAME* aParent, PAD* aPad ) : DIALOG_PAD_PROPERTIES_BASE( aParent ), m_parent( aParent ), m_canUpdate( false ), m_posX( aParent, m_posXLabel, m_posXCtrl, m_posXUnits ), m_posY( aParent, m_posYLabel, m_posYCtrl, m_posYUnits ), m_sizeX( aParent, m_sizeXLabel, m_sizeXCtrl, m_sizeXUnits ), m_sizeY( aParent, m_sizeYLabel, m_sizeYCtrl, m_sizeYUnits ), m_offsetX( aParent, m_offsetXLabel, m_offsetXCtrl, m_offsetXUnits ), m_offsetY( aParent, m_offsetYLabel, m_offsetYCtrl, m_offsetYUnits ), m_padToDie( aParent, m_padToDieLabel, m_padToDieCtrl, m_padToDieUnits ), m_trapDelta( aParent, m_trapDeltaLabel, m_trapDeltaCtrl, m_trapDeltaUnits ), m_cornerRadius( aParent, m_cornerRadiusLabel, m_cornerRadiusCtrl, m_cornerRadiusUnits ), m_cornerRatio( aParent, m_cornerRatioLabel, m_cornerRatioCtrl, m_cornerRatioUnits ), m_chamferRatio( aParent, m_chamferRatioLabel, m_chamferRatioCtrl, m_chamferRatioUnits ), m_mixedCornerRatio( aParent, m_mixedCornerRatioLabel, m_mixedCornerRatioCtrl, m_mixedCornerRatioUnits ), m_mixedChamferRatio( aParent, m_mixedChamferRatioLabel, m_mixedChamferRatioCtrl, m_mixedChamferRatioUnits ), m_holeX( aParent, m_holeXLabel, m_holeXCtrl, m_holeXUnits ), m_holeY( aParent, m_holeYLabel, m_holeYCtrl, m_holeYUnits ), m_clearance( aParent, m_clearanceLabel, m_clearanceCtrl, m_clearanceUnits ), m_maskMargin( aParent, m_maskMarginLabel, m_maskMarginCtrl, m_maskMarginUnits ), m_pasteMargin( aParent, m_pasteMarginLabel, m_pasteMarginCtrl, m_pasteMarginUnits ), m_pasteMarginRatio( aParent, m_pasteMarginRatioLabel, m_pasteMarginRatioCtrl, m_pasteMarginRatioUnits ), m_thermalGap( aParent, m_thermalGapLabel, m_thermalGapCtrl, m_thermalGapUnits ), m_spokeWidth( aParent, m_spokeWidthLabel, m_spokeWidthCtrl, m_spokeWidthUnits ), m_spokeAngle( aParent, m_spokeAngleLabel, m_spokeAngleCtrl, m_spokeAngleUnits ), m_pad_orientation( aParent, m_PadOrientText, m_cb_padrotation, m_orientationUnits ), m_teardropMaxLenSetting( aParent, m_stMaxLen, m_tcTdMaxLen, m_stMaxLenUnits ), m_teardropMaxHeightSetting( aParent, m_stTdMaxSize, m_tcMaxHeight, m_stMaxHeightUnits ) { SetName( PAD_PROPERTIES_DLG_NAME ); m_isFpEditor = dynamic_cast( aParent ) != nullptr; m_currentPad = aPad; // aPad can be NULL, if the dialog is called // from the footprint editor to set default pad setup m_board = m_parent->GetBoard(); // Configure display origin transforms m_posX.SetCoordType( ORIGIN_TRANSFORMS::ABS_X_COORD ); m_posY.SetCoordType( ORIGIN_TRANSFORMS::ABS_Y_COORD ); m_padNetSelector->SetBoard( m_board ); m_padNetSelector->SetNetInfo( &m_board->GetNetInfo() ); m_cbShowPadOutline->SetValue( m_sketchPreview ); m_FlippedWarningIcon->SetBitmap( KiBitmapBundle( BITMAPS::dialog_warning ) ); m_nonCopperWarningIcon->SetBitmap( KiBitmapBundle( BITMAPS::dialog_warning ) ); m_legacyTeardropsIcon->SetBitmap( KiBitmapBundle( BITMAPS::dialog_warning ) ); m_masterPad = m_parent->GetDesignSettings().m_Pad_Master.get(); m_previewPad = new PAD( (FOOTPRINT*) nullptr ); if( aPad ) { SetTitle( _( "Pad Properties" ) ); *m_previewPad = *aPad; m_previewPad->GetTeardropParams() = aPad->GetTeardropParams(); m_previewPad->ClearFlags( SELECTED|BRIGHTENED ); } else { SetTitle( _( "Default Pad Properties for Add Pad Tool" ) ); *m_previewPad = *m_masterPad; m_previewPad->GetTeardropParams() = m_masterPad->GetTeardropParams(); } // Pads have a hardcoded internal rounding ratio which is 0.25 by default, even if // they're not a rounded shape. This makes it hard to detect an intentional 0.25 // ratio, or one that's only there because it's the PAD default. // Zero it out here to mark that we should recompute a better ratio if the user // selects a pad shape which would need a default rounding ratio computed for it if( !PadHasMeaningfulRoundingRadius( *m_previewPad ) ) m_previewPad->SetRoundRectRadiusRatio( 0.0 ); if( m_isFpEditor ) { m_padNetLabel->Show( false ); m_padNetSelector->Show( false ); } m_FlippedWarningSizer->Show( false ); // Pad needs to have a parent for painting; use the parent board for its design settings if( !m_previewPad->GetParent() ) m_previewPad->SetParent( m_board ); m_cornerRatio.SetUnits( EDA_UNITS::PERCENT ); m_chamferRatio.SetUnits( EDA_UNITS::PERCENT ); m_mixedCornerRatio.SetUnits( EDA_UNITS::PERCENT ); m_mixedChamferRatio.SetUnits( EDA_UNITS::PERCENT ); m_pad_orientation.SetUnits( EDA_UNITS::DEGREES ); m_pad_orientation.SetPrecision( 3 ); m_spokeAngle.SetUnits( EDA_UNITS::DEGREES ); m_spokeAngle.SetPrecision( 3 ); m_pasteMargin.SetNegativeZero(); m_pasteMarginRatio.SetUnits( EDA_UNITS::PERCENT ); m_pasteMarginRatio.SetNegativeZero(); initValues(); wxFont infoFont = KIUI::GetInfoFont( this ); m_copperLayersLabel->SetFont( infoFont ); m_techLayersLabel->SetFont( infoFont ); m_parentInfo->SetFont( infoFont ); m_teardropShapeLabel->SetFont( infoFont ); infoFont.SetStyle( wxFONTSTYLE_ITALIC ); m_nonCopperNote->SetFont( infoFont ); m_staticTextInfoPaste->SetFont( infoFont ); updateHoleControls(); updatePadSizeControls(); // Usually, TransferDataToWindow is called by OnInitDialog // calling it here fixes all widget sizes so FinishDialogSettings can safely fix minsizes TransferDataToWindow(); // Initialize canvas to be able to display the dummy pad: prepareCanvas(); m_notebook->SetSelection( m_page ); switch( m_page ) { case 0: SetInitialFocus( m_padNumCtrl ); break; case 1: SetInitialFocus( m_thermalGapCtrl ); break; case 2: SetInitialFocus( m_clearanceCtrl ); break; } SetInitialFocus( m_padNumCtrl ); SetupStandardButtons(); m_canUpdate = true; m_padNetSelector->Connect( NET_SELECTED, wxCommandEventHandler( DIALOG_PAD_PROPERTIES::OnValuesChanged ), nullptr, this ); if( m_padType->GetSelection() != PTH_DLG_TYPE && m_padType->GetSelection() != NPTH_DLG_TYPE ) { m_gbSizerHole->Show( false ); m_staticline6->Show( false ); } // Now all widgets have the size fixed, call FinishDialogSettings finishDialogSettings(); // Update widgets wxUpdateUIEvent dummyUI; OnUpdateUI( dummyUI ); // Post a dummy size event to force the pad preview panel to update the // view: actual size, best zoom ... after the frame is shown PostSizeEvent(); } DIALOG_PAD_PROPERTIES::~DIALOG_PAD_PROPERTIES() { m_padNetSelector->Disconnect( NET_SELECTED, wxCommandEventHandler( DIALOG_PAD_PROPERTIES::OnValuesChanged ), nullptr, this ); m_page = m_notebook->GetSelection(); // Remove the preview pad from the group of the actual pad before deletion if( m_previewPad ) m_previewPad->SetParentGroup( nullptr ); delete m_previewPad; delete m_axisOrigin; } // Store the pad draw option during a session. bool DIALOG_PAD_PROPERTIES::m_sketchPreview = false; void DIALOG_PAD_PROPERTIES::OnInitDialog( wxInitDialogEvent& event ) { m_selectedColor = COLOR4D( 1.0, 1.0, 1.0, 0.7 ); // Needed on some WM to be sure the pad is redrawn according to the final size // of the canvas, with the right zoom factor redraw(); } void DIALOG_PAD_PROPERTIES::OnCancel( wxCommandEvent& event ) { // Mandatory to avoid m_panelShowPadGal trying to draw something // in a non valid context during closing process: m_padPreviewGAL->StopDrawing(); // Now call default handler for wxID_CANCEL command event event.Skip(); } void DIALOG_PAD_PROPERTIES::prepareCanvas() { GAL_DISPLAY_OPTIONS_IMPL opts = m_parent->GetGalDisplayOptions(); COLOR_SETTINGS* colorSettings = m_parent->GetColorSettings(); opts.m_forceDisplayCursor = false; // Initialize the canvas to display the pad m_padPreviewGAL = new PCB_DRAW_PANEL_GAL( m_boardViewPanel, -1, wxDefaultPosition, wxDefaultSize, opts, m_parent->GetCanvas()->GetBackend() ); m_padPreviewSizer->Add( m_padPreviewGAL, 12, wxEXPAND | wxALL, 5 ); // Show the X and Y axis. It is useful because pad shape can have an offset // or be a complex shape. m_axisOrigin = new KIGFX::ORIGIN_VIEWITEM( colorSettings->GetColor( LAYER_GRID ), KIGFX::ORIGIN_VIEWITEM::CROSS, 100000, VECTOR2D( m_previewPad->GetPosition() ) ); m_axisOrigin->SetDrawAtZero( true ); m_padPreviewGAL->UpdateColors(); m_padPreviewGAL->SetStealsFocus( false ); m_padPreviewGAL->ShowScrollbars( wxSHOW_SB_NEVER, wxSHOW_SB_NEVER ); KIGFX::VIEW_CONTROLS* parentViewControls = m_parent->GetCanvas()->GetViewControls(); m_padPreviewGAL->GetViewControls()->ApplySettings( parentViewControls->GetSettings() ); m_padPreviewGAL->Show(); KIGFX::VIEW* view = m_padPreviewGAL->GetView(); // fix the pad render mode (filled/not filled) auto settings = static_cast( view->GetPainter()->GetSettings() ); settings->m_ForcePadSketchModeOn = m_cbShowPadOutline->IsChecked(); settings->SetHighContrast( false ); settings->m_ContrastModeDisplay = HIGH_CONTRAST_MODE::NORMAL; // gives a non null grid size (0.001mm) because GAL layer does not like a 0 size grid: double gridsize = 0.001 * pcbIUScale.IU_PER_MM; view->GetGAL()->SetGridSize( VECTOR2D( gridsize, gridsize ) ); // And do not show the grid: view->GetGAL()->SetGridVisibility( false ); view->GetGAL()->SetAxesEnabled( false ); view->Add( m_previewPad ); view->Add( m_axisOrigin ); m_padPreviewGAL->StartDrawing(); Connect( wxEVT_SIZE, wxSizeEventHandler( DIALOG_PAD_PROPERTIES::OnResize ) ); } void DIALOG_PAD_PROPERTIES::updateRoundRectCornerValues() { // Note: use ChangeValue() to avoid generating a wxEVT_TEXT event m_cornerRadius.ChangeValue( m_previewPad->GetRoundRectCornerRadius() ); m_cornerRatio.ChangeDoubleValue( m_previewPad->GetRoundRectRadiusRatio() * 100.0 ); m_mixedCornerRatio.ChangeDoubleValue( m_previewPad->GetRoundRectRadiusRatio() * 100.0 ); m_chamferRatio.ChangeDoubleValue( m_previewPad->GetChamferRectRatio() * 100.0 ); m_mixedChamferRatio.ChangeDoubleValue( m_previewPad->GetChamferRectRatio() * 100.0 ); } void DIALOG_PAD_PROPERTIES::onCornerRadiusChange( wxCommandEvent& event ) { if( m_previewPad->GetShape() != PAD_SHAPE::ROUNDRECT && m_previewPad->GetShape() != PAD_SHAPE::CHAMFERED_RECT ) { return; } if( m_cornerRadius.GetValue() < 0 ) m_cornerRadiusCtrl->ChangeValue( "0" ); if( transferDataToPad( m_previewPad ) ) { m_previewPad->SetRoundRectCornerRadius( m_cornerRadius.GetValue() ); m_cornerRatio.ChangeDoubleValue( m_previewPad->GetRoundRectRadiusRatio() * 100.0 ); m_mixedCornerRatio.ChangeDoubleValue( m_previewPad->GetRoundRectRadiusRatio() * 100.0 ); redraw(); } } void DIALOG_PAD_PROPERTIES::onCornerSizePercentChange( wxCommandEvent& event ) { if( m_previewPad->GetShape() != PAD_SHAPE::ROUNDRECT && m_previewPad->GetShape() != PAD_SHAPE::CHAMFERED_RECT ) { return; } wxObject* ctrl = event.GetEventObject(); wxString value = event.GetString(); bool changed = false; if( ctrl == m_cornerRatioCtrl || ctrl == m_mixedCornerRatioCtrl ) { double ratioPercent; if( value.ToDouble( &ratioPercent ) ) { // Clamp ratioPercent to acceptable value (0.0 to 50.0) if( ratioPercent < 0.0 ) { m_cornerRatio.SetDoubleValue( 0.0 ); m_mixedCornerRatio.SetDoubleValue( 0.0 ); } else if( ratioPercent > 50.0 ) { m_cornerRatio.SetDoubleValue( 50.0 ); m_mixedCornerRatio.SetDoubleValue( 50.0 ); } if( ctrl == m_cornerRatioCtrl ) m_mixedCornerRatioCtrl->ChangeValue( value ); else m_cornerRatioCtrl->ChangeValue( value ); changed = true; } } else if( ctrl == m_chamferRatioCtrl || ctrl == m_mixedChamferRatioCtrl ) { double ratioPercent; if( value.ToDouble( &ratioPercent ) ) { // Clamp ratioPercent to acceptable value (0.0 to 50.0) if( ratioPercent < 0.0 ) { m_chamferRatio.SetDoubleValue( 0.0 ); m_mixedChamferRatio.SetDoubleValue( 0.0 ); } else if( ratioPercent > 50.0 ) { m_chamferRatio.SetDoubleValue( 50.0 ); m_mixedChamferRatio.SetDoubleValue( 50.0 ); } if( ctrl == m_chamferRatioCtrl ) m_mixedChamferRatioCtrl->ChangeValue( value ); else m_chamferRatioCtrl->ChangeValue( value ); changed = true; } } if( changed && transferDataToPad( m_previewPad ) ) m_cornerRadius.ChangeValue( m_previewPad->GetRoundRectCornerRadius() ); redraw(); } void DIALOG_PAD_PROPERTIES::initValues() { wxString msg; // Disable pad net name wxTextCtrl if the caller is the footprint editor // because nets are living only in the board managed by the board editor m_canEditNetName = m_parent->IsType( FRAME_PCB_EDITOR ); m_layerFrontAdhesive->SetLabel( m_board->GetLayerName( F_Adhes ) ); m_layerBackAdhesive->SetLabel( m_board->GetLayerName( B_Adhes ) ); m_layerFrontPaste->SetLabel( m_board->GetLayerName( F_Paste ) ); m_layerBackPaste->SetLabel( m_board->GetLayerName( B_Paste ) ); m_layerFrontSilk->SetLabel( m_board->GetLayerName( F_SilkS ) ); m_layerBackSilk->SetLabel( m_board->GetLayerName( B_SilkS ) ); m_layerFrontMask->SetLabel( m_board->GetLayerName( F_Mask ) ); m_layerBackMask->SetLabel( m_board->GetLayerName( B_Mask ) ); m_layerECO1->SetLabel( m_board->GetLayerName( Eco1_User ) ); m_layerECO2->SetLabel( m_board->GetLayerName( Eco2_User ) ); m_layerUserDwgs->SetLabel( m_board->GetLayerName( Dwgs_User ) ); if( m_currentPad ) { if( FOOTPRINT* footprint = m_currentPad->GetParentFootprint() ) { VECTOR2I relPos = m_currentPad->GetFPRelativePosition(); if( footprint->IsFlipped() ) { // flip pad (up/down) around its position m_previewPad->Flip( m_previewPad->GetPosition(), false ); relPos.y = - relPos.y; } m_previewPad->SetPosition( relPos ); m_previewPad->SetOrientation( m_currentPad->GetFPRelativeOrientation() ); // Display parent footprint info msg.Printf( _("Footprint %s (%s), %s, rotated %g deg"), footprint->Reference().GetShownText( false ), footprint->Value().GetShownText( false ), footprint->IsFlipped() ? _( "back side (mirrored)" ) : _( "front side" ), footprint->GetOrientation().AsDegrees() ); m_FlippedWarningSizer->Show( footprint->IsFlipped() ); m_parentInfo->SetLabel( msg ); } m_padNumCtrl->SetValue( m_previewPad->GetNumber() ); } else { PAD_TOOL* padTool = m_parent->GetToolManager()->GetTool(); m_padNumCtrl->SetValue( padTool->GetLastPadNumber() ); if( m_isFpEditor ) { switch( m_board->Footprints()[0]->GetAttributes() ) { case FOOTPRINT_ATTR_T::FP_THROUGH_HOLE: m_previewPad->SetAttribute( PAD_ATTRIB::PTH ); if( m_previewPad->GetDrillSizeX() == 0 ) m_board->GetDesignSettings().SetDefaultMasterPad(); break; case FOOTPRINT_ATTR_T::FP_SMD: m_previewPad->SetAttribute( PAD_ATTRIB::SMD ); break; } } } m_primitives = m_previewPad->GetPrimitives(); m_padNetSelector->SetSelectedNetcode( m_previewPad->GetNetCode() ); // Display current pad parameters units: m_posX.ChangeValue( m_previewPad->GetPosition().x ); m_posY.ChangeValue( m_previewPad->GetPosition().y ); m_holeX.ChangeValue( m_previewPad->GetDrillSize().x ); m_holeY.ChangeValue( m_previewPad->GetDrillSize().y ); m_sizeX.ChangeValue( m_previewPad->GetSize().x ); m_sizeY.ChangeValue( m_previewPad->GetSize().y ); m_offsetShapeOpt->SetValue( m_previewPad->GetOffset() != VECTOR2I() ); m_offsetX.ChangeValue( m_previewPad->GetOffset().x ); m_offsetY.ChangeValue( m_previewPad->GetOffset().y ); if( m_previewPad->GetDelta().x ) { m_trapDelta.ChangeValue( m_previewPad->GetDelta().x ); m_trapAxisCtrl->SetSelection( 0 ); } else { m_trapDelta.ChangeValue( m_previewPad->GetDelta().y ); m_trapAxisCtrl->SetSelection( 1 ); } // Store the initial thermal spoke angle to restore it, because some initializations // can change this value (mainly after m_PadShapeSelector initializations) EDA_ANGLE spokeInitialAngle = m_previewPad->GetThermalSpokeAngle(); m_padToDieOpt->SetValue( m_previewPad->GetPadToDieLength() != 0 ); m_padToDie.ChangeValue( m_previewPad->GetPadToDieLength() ); if( m_previewPad->GetLocalClearance().has_value() ) m_clearance.ChangeValue( m_previewPad->GetLocalClearance().value() ); else m_clearance.ChangeValue( wxEmptyString ); if( m_previewPad->GetLocalSolderMaskMargin().has_value() ) m_maskMargin.ChangeValue( m_previewPad->GetLocalSolderMaskMargin().value() ); else m_maskMargin.ChangeValue( wxEmptyString ); if( m_previewPad->GetLocalSolderPasteMargin().has_value() ) m_pasteMargin.ChangeValue( m_previewPad->GetLocalSolderPasteMargin().value() ); else m_pasteMargin.ChangeValue( wxEmptyString ); if( m_previewPad->GetLocalSolderPasteMarginRatio().has_value() ) m_pasteMarginRatio.ChangeDoubleValue( m_previewPad->GetLocalSolderPasteMarginRatio().value() * 100.0 ); else m_pasteMarginRatio.ChangeValue( wxEmptyString ); m_spokeWidth.ChangeValue( m_previewPad->GetThermalSpokeWidth() ); m_spokeAngle.ChangeAngleValue( m_previewPad->GetThermalSpokeAngle() ); m_thermalGap.ChangeValue( m_previewPad->GetThermalGap() ); m_pad_orientation.ChangeAngleValue( m_previewPad->GetOrientation() ); m_cbTeardrops->SetValue( m_previewPad->GetTeardropParams().m_Enabled ); m_cbTeardropsUseNextTrack->SetValue( m_previewPad->GetTeardropParams().m_AllowUseTwoTracks ); m_cbPreferZoneConnection->SetValue( !m_previewPad->GetTeardropParams().m_TdOnPadsInZones ); m_teardropMaxLenSetting.SetValue( m_previewPad->GetTeardropParams().m_TdMaxLen ); m_teardropMaxHeightSetting.SetValue( m_previewPad->GetTeardropParams().m_TdMaxWidth ); m_spTeardropLenPercent->SetValue( m_previewPad->GetTeardropParams().m_BestLengthRatio *100 ); m_spTeardropSizePercent->SetValue( m_previewPad->GetTeardropParams().m_BestWidthRatio *100 ); m_spTeardropHDPercent->SetValue( m_previewPad->GetTeardropParams().m_WidthtoSizeFilterRatio*100 ); m_curvedEdges->SetValue( m_previewPad->GetTeardropParams().IsCurved() ); if( m_curvedEdges->GetValue() ) m_curvePointsCtrl->SetValue( m_previewPad->GetTeardropParams().m_CurveSegCount ); else m_curvePointsCtrl->SetValue( 5 ); switch( m_previewPad->GetLocalZoneConnection() ) { default: case ZONE_CONNECTION::INHERITED: m_ZoneConnectionChoice->SetSelection( 0 ); break; case ZONE_CONNECTION::FULL: m_ZoneConnectionChoice->SetSelection( 1 ); break; case ZONE_CONNECTION::THERMAL: m_ZoneConnectionChoice->SetSelection( 2 ); break; case ZONE_CONNECTION::NONE: m_ZoneConnectionChoice->SetSelection( 3 ); break; } if( m_previewPad->GetCustomShapeInZoneOpt() == CUST_PAD_SHAPE_IN_ZONE_CONVEXHULL ) m_ZoneCustomPadShape->SetSelection( 1 ); else m_ZoneCustomPadShape->SetSelection( 0 ); switch( m_previewPad->GetShape() ) { default: case PAD_SHAPE::CIRCLE: m_PadShapeSelector->SetSelection( CHOICE_SHAPE_CIRCLE ); break; case PAD_SHAPE::OVAL: m_PadShapeSelector->SetSelection( CHOICE_SHAPE_OVAL ); break; case PAD_SHAPE::RECTANGLE: m_PadShapeSelector->SetSelection( CHOICE_SHAPE_RECT ); break; case PAD_SHAPE::TRAPEZOID: m_PadShapeSelector->SetSelection( CHOICE_SHAPE_TRAPEZOID ); break; case PAD_SHAPE::ROUNDRECT: m_PadShapeSelector->SetSelection( CHOICE_SHAPE_ROUNDRECT ); break; case PAD_SHAPE::CHAMFERED_RECT: if( m_previewPad->GetRoundRectRadiusRatio() > 0.0 ) m_PadShapeSelector->SetSelection( CHOICE_SHAPE_CHAMFERED_ROUNDED_RECT ); else m_PadShapeSelector->SetSelection( CHOICE_SHAPE_CHAMFERED_RECT ); break; case PAD_SHAPE::CUSTOM: if( m_previewPad->GetAnchorPadShape() == PAD_SHAPE::RECTANGLE ) m_PadShapeSelector->SetSelection( CHOICE_SHAPE_CUSTOM_RECT_ANCHOR ); else m_PadShapeSelector->SetSelection( CHOICE_SHAPE_CUSTOM_CIRC_ANCHOR ); break; } m_cbTopLeft->SetValue( m_previewPad->GetChamferPositions() & RECT_CHAMFER_TOP_LEFT ); m_cbTopLeft1->SetValue( m_previewPad->GetChamferPositions() & RECT_CHAMFER_TOP_LEFT ); m_cbTopRight->SetValue( m_previewPad->GetChamferPositions() & RECT_CHAMFER_TOP_RIGHT ); m_cbTopRight1->SetValue( m_previewPad->GetChamferPositions() & RECT_CHAMFER_TOP_RIGHT ); m_cbBottomLeft->SetValue( m_previewPad->GetChamferPositions() & RECT_CHAMFER_BOTTOM_LEFT ); m_cbBottomLeft1->SetValue( m_previewPad->GetChamferPositions() & RECT_CHAMFER_BOTTOM_LEFT ); m_cbBottomRight->SetValue( m_previewPad->GetChamferPositions() & RECT_CHAMFER_BOTTOM_RIGHT ); m_cbBottomRight1->SetValue( m_previewPad->GetChamferPositions() & RECT_CHAMFER_BOTTOM_RIGHT ); updateRoundRectCornerValues(); // Type of pad selection bool aperture = m_previewPad->GetAttribute() == PAD_ATTRIB::SMD && m_previewPad->IsAperturePad(); if( aperture ) { m_padType->SetSelection( APERTURE_DLG_TYPE ); } else { switch( m_previewPad->GetAttribute() ) { case PAD_ATTRIB::PTH: m_padType->SetSelection( PTH_DLG_TYPE ); break; case PAD_ATTRIB::SMD: m_padType->SetSelection( SMD_DLG_TYPE ); break; case PAD_ATTRIB::CONN: m_padType->SetSelection( CONN_DLG_TYPE ); break; case PAD_ATTRIB::NPTH: m_padType->SetSelection( NPTH_DLG_TYPE ); break; } } switch( m_previewPad->GetProperty() ) { case PAD_PROP::NONE: m_choiceFabProperty->SetSelection( 0 ); break; case PAD_PROP::BGA: m_choiceFabProperty->SetSelection( 1 ); break; case PAD_PROP::FIDUCIAL_LOCAL: m_choiceFabProperty->SetSelection( 2 ); break; case PAD_PROP::FIDUCIAL_GLBL: m_choiceFabProperty->SetSelection( 3 ); break; case PAD_PROP::TESTPOINT: m_choiceFabProperty->SetSelection( 4 ); break; case PAD_PROP::HEATSINK: m_choiceFabProperty->SetSelection( 5 ); break; case PAD_PROP::CASTELLATED: m_choiceFabProperty->SetSelection( 6 ); break; } // Ensure the pad property is compatible with the pad type if( m_previewPad->GetAttribute() == PAD_ATTRIB::NPTH ) { m_choiceFabProperty->SetSelection( 0 ); m_choiceFabProperty->Enable( false ); } if( m_previewPad->GetDrillShape() != PAD_DRILL_SHAPE_OBLONG ) m_holeShapeCtrl->SetSelection( 0 ); else m_holeShapeCtrl->SetSelection( 1 ); updatePadLayersList( m_previewPad->GetLayerSet(), m_previewPad->GetRemoveUnconnected(), m_previewPad->GetKeepTopBottom() ); // Update some dialog widgets state (Enable/disable options): wxCommandEvent cmd_event; OnPadShapeSelection( cmd_event ); OnOffsetCheckbox( cmd_event ); // Restore thermal spoke angle to its initial value, because it can be modified // by the call to OnPadShapeSelection() m_previewPad->SetThermalSpokeAngle( spokeInitialAngle ); m_spokeAngle.SetAngleValue( m_previewPad->GetThermalSpokeAngle() ); } void DIALOG_PAD_PROPERTIES::OnResize( wxSizeEvent& event ) { redraw(); event.Skip(); } void DIALOG_PAD_PROPERTIES::onChangePadMode( wxCommandEvent& event ) { m_sketchPreview = m_cbShowPadOutline->GetValue(); KIGFX::VIEW* view = m_padPreviewGAL->GetView(); // fix the pad render mode (filled/not filled) auto settings = static_cast( view->GetPainter()->GetSettings() ); settings->m_ForcePadSketchModeOn = m_cbShowPadOutline->IsChecked(); settings->SetHighContrast( false ); settings->m_ContrastModeDisplay = HIGH_CONTRAST_MODE::NORMAL; redraw(); } void DIALOG_PAD_PROPERTIES::OnPadShapeSelection( wxCommandEvent& event ) { switch( m_PadShapeSelector->GetSelection() ) { case CHOICE_SHAPE_CIRCLE: case CHOICE_SHAPE_OVAL: case CHOICE_SHAPE_RECT: m_shapePropsBook->SetSelection( 0 ); break; case CHOICE_SHAPE_TRAPEZOID: m_shapePropsBook->SetSelection( 1 ); break; case CHOICE_SHAPE_ROUNDRECT: { m_shapePropsBook->SetSelection( 2 ); // Reasonable defaults if( m_previewPad->GetRoundRectRadiusRatio() == 0.0 ) m_cornerRatio.ChangeDoubleValue( GetDefaultIpcRoundingRatio( *m_previewPad ) * 100 ); break; } case CHOICE_SHAPE_CHAMFERED_RECT: m_shapePropsBook->SetSelection( 3 ); // Reasonable default if( m_previewPad->GetChamferRectRatio() == 0.0 ) m_previewPad->SetChamferRectRatio( 0.2 ); // Ensure the displayed value is up to date: m_chamferRatio.ChangeDoubleValue( m_previewPad->GetChamferRectRatio() * 100.0 ); // A reasonable default is one corner chamfered (usual for some SMD pads). if( !m_cbTopLeft->GetValue() && !m_cbTopRight->GetValue() && !m_cbBottomLeft->GetValue() && !m_cbBottomRight->GetValue() ) { m_cbTopLeft->SetValue( true ); m_cbTopRight->SetValue( false ); m_cbBottomLeft->SetValue( false ); m_cbBottomRight->SetValue( false ); } break; case CHOICE_SHAPE_CHAMFERED_ROUNDED_RECT: m_shapePropsBook->SetSelection( 4 ); // Reasonable defaults if( m_previewPad->GetRoundRectRadiusRatio() == 0.0 && m_previewPad->GetChamferRectRatio() == 0.0 ) { m_previewPad->SetRoundRectRadiusRatio( GetDefaultIpcRoundingRatio( *m_previewPad ) ); m_previewPad->SetChamferRectRatio( 0.2 ); } // Ensure the displayed values are up to date: m_mixedChamferRatio.ChangeDoubleValue( m_previewPad->GetChamferRectRatio() * 100.0 ); m_mixedCornerRatio.ChangeDoubleValue( m_previewPad->GetRoundRectRadiusRatio() * 100.0 ); break; case CHOICE_SHAPE_CUSTOM_CIRC_ANCHOR: // PAD_SHAPE::CUSTOM, circular anchor case CHOICE_SHAPE_CUSTOM_RECT_ANCHOR: // PAD_SHAPE::CUSTOM, rect anchor m_shapePropsBook->SetSelection( 0 ); break; } // Note: must do this before enabling/disabling m_sizeY as we're using that as a flag to see // what the last shape was. if( m_PadShapeSelector->GetSelection() == CHOICE_SHAPE_CIRCLE ) { if( m_sizeYCtrl->IsEnabled() && m_spokeAngle.GetAngleValue() == ANGLE_90 ) m_spokeAngle.SetAngleValue( ANGLE_45 ); } else { if( !m_sizeYCtrl->IsEnabled() && m_spokeAngle.GetAngleValue() == ANGLE_45 ) m_spokeAngle.SetAngleValue( ANGLE_90 ); } // Readjust props book size wxSize size = m_shapePropsBook->GetSize(); size.y = m_shapePropsBook->GetPage( m_shapePropsBook->GetSelection() )->GetBestSize().y; m_shapePropsBook->SetMaxSize( size ); m_sizeY.Enable( m_PadShapeSelector->GetSelection() != CHOICE_SHAPE_CIRCLE && m_PadShapeSelector->GetSelection() != CHOICE_SHAPE_CUSTOM_CIRC_ANCHOR ); m_offsetShapeOpt->Enable( m_PadShapeSelector->GetSelection() != CHOICE_SHAPE_CIRCLE ); if( !m_offsetShapeOpt->IsEnabled() ) m_offsetShapeOpt->SetValue( false ); // Show/hide controls depending on m_offsetShapeOpt being enabled m_offsetCtrls->Show( m_offsetShapeOpt->GetValue() ); m_offsetShapeOptLabel->Show( m_offsetShapeOpt->GetValue() ); if( transferDataToPad( m_previewPad ) ) updateRoundRectCornerValues(); for( size_t i = 0; i < m_notebook->GetPageCount(); ++i ) m_notebook->GetPage( i )->Layout(); // Resize the dialog if its height is too small to show all widgets: if( m_MainSizer->GetSize().y < m_MainSizer->GetMinSize().y ) m_MainSizer->SetSizeHints( this ); updatePadSizeControls(); redraw(); } void DIALOG_PAD_PROPERTIES::OnDrillShapeSelected( wxCommandEvent& event ) { transferDataToPad( m_previewPad ); updateHoleControls(); redraw(); } void DIALOG_PAD_PROPERTIES::PadOrientEvent( wxCommandEvent& event ) { transferDataToPad( m_previewPad ); redraw(); } void DIALOG_PAD_PROPERTIES::UpdateLayersDropdown() { m_rbCopperLayersSel->Clear(); switch( m_padType->GetSelection() ) { case PTH_DLG_TYPE: m_rbCopperLayersSel->Append( _( "All copper layers" ) ); m_rbCopperLayersSel->Append( wxString::Format( _( "%s, %s and connected layers" ), m_board->GetLayerName( F_Cu ), m_board->GetLayerName( B_Cu ) ) ); m_rbCopperLayersSel->Append( _( "Connected layers only" ) ); m_rbCopperLayersSel->Append( _( "None" ) ); break; case NPTH_DLG_TYPE: m_rbCopperLayersSel->Append( wxString::Format( _( "%s and %s" ), m_board->GetLayerName( F_Cu ), m_board->GetLayerName( B_Cu ) ) ); m_rbCopperLayersSel->Append( m_board->GetLayerName( F_Cu ) ); m_rbCopperLayersSel->Append( m_board->GetLayerName( B_Cu ) ); m_rbCopperLayersSel->Append( _( "None" ) ); break; case SMD_DLG_TYPE: case CONN_DLG_TYPE: m_rbCopperLayersSel->Append( m_board->GetLayerName( F_Cu ) ); m_rbCopperLayersSel->Append( m_board->GetLayerName( B_Cu ) ); break; case APERTURE_DLG_TYPE: m_rbCopperLayersSel->Append( _( "None" ) ); break; } } void DIALOG_PAD_PROPERTIES::PadTypeSelected( wxCommandEvent& event ) { bool hasHole = true; bool hasConnection = true; bool hasProperty = true; switch( m_padType->GetSelection() ) { case PTH_DLG_TYPE: hasHole = true; hasConnection = true; hasProperty = true; break; case SMD_DLG_TYPE: hasHole = false; hasConnection = true; hasProperty = true; break; case CONN_DLG_TYPE: hasHole = false; hasConnection = true; hasProperty = true; break; case NPTH_DLG_TYPE: hasHole = true; hasConnection = false; hasProperty = false; break; case APERTURE_DLG_TYPE: hasHole = false; hasConnection = false; hasProperty = true; break; } // Update Layers dropdown list and selects the "best" layer set for the new pad type: updatePadLayersList( {}, m_previewPad->GetRemoveUnconnected(), m_previewPad->GetKeepTopBottom() ); m_gbSizerHole->Show( hasHole ); m_staticline6->Show( hasHole ); if( !hasHole ) { m_holeX.ChangeValue( 0 ); m_holeY.ChangeValue( 0 ); } else if( m_holeX.GetValue() == 0 ) { if( m_currentPad ) { m_holeX.ChangeValue( m_currentPad->GetDrillSize().x ); m_holeY.ChangeValue( m_currentPad->GetDrillSize().y ); } else { m_holeX.ChangeValue( pcbIUScale.mmToIU( DEFAULT_PAD_DRILL_DIAMETER_MM ) ); } } if( !hasConnection ) { m_padNumCtrl->ChangeValue( wxEmptyString ); m_padNetSelector->SetSelectedNetcode( 0 ); m_padToDieOpt->SetValue( false ); } else if( m_padNumCtrl->GetValue().IsEmpty() && m_currentPad ) { m_padNumCtrl->ChangeValue( m_currentPad->GetNumber() ); m_padNetSelector->SetSelectedNetcode( m_currentPad->GetNetCode() ); } if( !hasProperty ) m_choiceFabProperty->SetSelection( 0 ); m_choiceFabProperty->Enable( hasProperty ); transferDataToPad( m_previewPad ); // Layout adjustment is needed if the hole details got shown/hidden m_LeftBoxSizer->Layout(); redraw(); } void DIALOG_PAD_PROPERTIES::OnUpdateUI( wxUpdateUIEvent& event ) { bool hasHole = true; bool hasConnection = true; switch( m_padType->GetSelection() ) { case PTH_DLG_TYPE: /* PTH */ hasHole = true; hasConnection = true; break; case SMD_DLG_TYPE: /* SMD */ hasHole = false; hasConnection = true; break; case CONN_DLG_TYPE: /* CONN */ hasHole = false; hasConnection = true; break; case NPTH_DLG_TYPE: /* NPTH */ hasHole = true; hasConnection = false; break; case APERTURE_DLG_TYPE: /* Aperture */ hasHole = false; hasConnection = false; break; } // Enable/disable hole controls m_holeShapeLabel->Enable( hasHole ); m_holeShapeCtrl->Enable( hasHole ); m_holeX.Enable( hasHole ); m_holeY.Enable( hasHole && m_holeShapeCtrl->GetSelection() == CHOICE_SHAPE_OVAL ); // Enable/disable number and net m_padNumLabel->Enable( hasConnection ); m_padNumCtrl->Enable( hasConnection ); if( m_padNetLabel->IsShown() ) { m_padNetLabel->Enable( hasConnection && m_canEditNetName && m_currentPad ); m_padNetSelector->Enable( hasConnection && m_canEditNetName && m_currentPad ); } // Enable/disable pad length-to-die m_padToDieOpt->Enable( hasConnection ); if( !m_padToDieOpt->IsEnabled() ) m_padToDieOpt->SetValue( false ); // We can show/hide this here because it doesn't require the layout to be refreshed. // All the others have to be done in their event handlers because doing a layout here // causes infinite looping on MSW. m_padToDie.Show( m_padToDieOpt->GetValue() ); // Enable/disable Copper Layers control m_rbCopperLayersSel->Enable( m_padType->GetSelection() != APERTURE_DLG_TYPE ); LSET cu_set = m_previewPad->GetLayerSet() & LSET::AllCuMask(); switch( m_padType->GetSelection() ) { case PTH_DLG_TYPE: if( !cu_set.any() ) m_stackupImagesBook->SetSelection( 3 ); else if( !m_previewPad->GetRemoveUnconnected() ) m_stackupImagesBook->SetSelection( 0 ); else if( m_previewPad->GetKeepTopBottom() ) m_stackupImagesBook->SetSelection( 1 ); else m_stackupImagesBook->SetSelection( 2 ); break; case NPTH_DLG_TYPE: if( cu_set.test( F_Cu ) && cu_set.test( B_Cu ) ) m_stackupImagesBook->SetSelection( 4 ); else if( cu_set.test( F_Cu ) ) m_stackupImagesBook->SetSelection( 5 ); else if( cu_set.test( B_Cu ) ) m_stackupImagesBook->SetSelection( 6 ); else m_stackupImagesBook->SetSelection( 7 ); break; case SMD_DLG_TYPE: case CONN_DLG_TYPE: case APERTURE_DLG_TYPE: m_stackupImagesBook->ChangeSelection( 3 ); break; } m_legacyTeardropsWarning->Show( m_board->LegacyTeardrops() ); } void DIALOG_PAD_PROPERTIES::onTeardropsUpdateUi( wxUpdateUIEvent& event ) { event.Enable( !m_board->LegacyTeardrops() ); } void DIALOG_PAD_PROPERTIES::onTeardropCurvePointsUpdateUi( wxUpdateUIEvent& event ) { event.Enable( !m_board->LegacyTeardrops() && m_curvedEdges->GetValue() ); } void DIALOG_PAD_PROPERTIES::OnUpdateUINonCopperWarning( wxUpdateUIEvent& event ) { bool isOnCopperLayer = ( m_previewPad->GetLayerSet() & LSET::AllCuMask() ).any(); m_nonCopperWarningBook->ChangeSelection( isOnCopperLayer ? 0 : 1 ); } void DIALOG_PAD_PROPERTIES::updatePadLayersList( LSET layer_mask, bool remove_unconnected, bool keep_top_bottom ) { UpdateLayersDropdown(); switch( m_padType->GetSelection() ) { case PTH_DLG_TYPE: if( !layer_mask.any() ) layer_mask = PAD::PTHMask(); if( !( layer_mask & LSET::AllCuMask() ).any() ) m_rbCopperLayersSel->SetSelection( 3 ); else if( !remove_unconnected ) m_rbCopperLayersSel->SetSelection( 0 ); else if( keep_top_bottom ) m_rbCopperLayersSel->SetSelection( 1 ); else m_rbCopperLayersSel->SetSelection( 2 ); break; case SMD_DLG_TYPE: if( !layer_mask.any() ) layer_mask = PAD::SMDMask(); if( layer_mask.test( F_Cu ) ) m_rbCopperLayersSel->SetSelection( 0 ); else m_rbCopperLayersSel->SetSelection( 1 ); break; case CONN_DLG_TYPE: if( !layer_mask.any() ) layer_mask = PAD::ConnSMDMask(); if( layer_mask.test( F_Cu ) ) m_rbCopperLayersSel->SetSelection( 0 ); else m_rbCopperLayersSel->SetSelection( 1 ); break; case NPTH_DLG_TYPE: if( !layer_mask.any() ) layer_mask = PAD::UnplatedHoleMask(); if( layer_mask.test( F_Cu ) && layer_mask.test( B_Cu ) ) m_rbCopperLayersSel->SetSelection( 0 ); else if( layer_mask.test( F_Cu ) ) m_rbCopperLayersSel->SetSelection( 1 ); else if( layer_mask.test( B_Cu ) ) m_rbCopperLayersSel->SetSelection( 2 ); else m_rbCopperLayersSel->SetSelection( 3 ); break; case APERTURE_DLG_TYPE: if( !layer_mask.any() ) layer_mask = PAD::ApertureMask(); m_rbCopperLayersSel->SetSelection( 0 ); break; } m_layerFrontAdhesive->SetValue( layer_mask[F_Adhes] ); m_layerBackAdhesive->SetValue( layer_mask[B_Adhes] ); m_layerFrontPaste->SetValue( layer_mask[F_Paste] ); m_layerBackPaste->SetValue( layer_mask[B_Paste] ); m_layerFrontSilk->SetValue( layer_mask[F_SilkS] ); m_layerBackSilk->SetValue( layer_mask[B_SilkS] ); m_layerFrontMask->SetValue( layer_mask[F_Mask] ); m_layerBackMask->SetValue( layer_mask[B_Mask] ); m_layerECO1->SetValue( layer_mask[Eco1_User] ); m_layerECO2->SetValue( layer_mask[Eco2_User] ); m_layerUserDwgs->SetValue( layer_mask[Dwgs_User] ); } bool DIALOG_PAD_PROPERTIES::Show( bool aShow ) { bool retVal = DIALOG_SHIM::Show( aShow ); if( aShow ) { // It *should* work to set the stackup bitmap in the constructor, but it doesn't. // wxWidgets needs to have these set when the panel is visible for some reason. // https://gitlab.com/kicad/code/kicad/-/issues/5534 m_stackupImage0->SetBitmap( KiBitmapBundle( BITMAPS::pads_reset_unused ) ); m_stackupImage1->SetBitmap( KiBitmapBundle( BITMAPS::pads_remove_unused_keep_bottom ) ); m_stackupImage2->SetBitmap( KiBitmapBundle( BITMAPS::pads_remove_unused ) ); m_stackupImage4->SetBitmap( KiBitmapBundle( BITMAPS::pads_npth_top_bottom ) ); m_stackupImage5->SetBitmap( KiBitmapBundle( BITMAPS::pads_npth_top ) ); m_stackupImage6->SetBitmap( KiBitmapBundle( BITMAPS::pads_npth_bottom ) ); m_stackupImage7->SetBitmap( KiBitmapBundle( BITMAPS::pads_npth ) ); Layout(); } return retVal; } void DIALOG_PAD_PROPERTIES::OnSetCopperLayers( wxCommandEvent& event ) { transferDataToPad( m_previewPad ); redraw(); } void DIALOG_PAD_PROPERTIES::OnSetLayers( wxCommandEvent& event ) { transferDataToPad( m_previewPad ); redraw(); } bool DIALOG_PAD_PROPERTIES::padValuesOK() { bool error = !transferDataToPad( m_previewPad ); wxArrayString error_msgs; wxArrayString warning_msgs; VECTOR2I pad_size = m_previewPad->GetSize(); VECTOR2I drill_size = m_previewPad->GetDrillSize(); if( m_previewPad->GetShape() == PAD_SHAPE::CUSTOM ) { pad_size = m_previewPad->GetBoundingBox().GetSize(); } else if( m_previewPad->GetShape() == PAD_SHAPE::CIRCLE ) { if( pad_size.x <= 0 ) error_msgs.Add( _( "Error: Pad must have a positive size." ) ); } else { if( pad_size.x <= 0 || pad_size.y <= 0 ) error_msgs.Add( _( "Error: Pad must have a positive size." ) ); } // Test hole against pad shape if( m_previewPad->IsOnCopperLayer() && m_previewPad->GetDrillSize().x > 0 ) { int maxError = m_board->GetDesignSettings().m_MaxError; SHAPE_POLY_SET padOutline; m_previewPad->TransformShapeToPolygon( padOutline, UNDEFINED_LAYER, 0, maxError, ERROR_INSIDE ); if( !padOutline.Collide( m_previewPad->GetPosition() ) ) { warning_msgs.Add( _( "Warning: Pad hole not inside pad shape." ) ); } else if( m_previewPad->GetAttribute() == PAD_ATTRIB::PTH ) { std::shared_ptr slot = m_previewPad->GetEffectiveHoleShape(); SHAPE_POLY_SET slotOutline; TransformOvalToPolygon( slotOutline, slot->GetSeg().A, slot->GetSeg().B, slot->GetWidth(), maxError, ERROR_INSIDE ); padOutline.BooleanSubtract( slotOutline, SHAPE_POLY_SET::PM_FAST ); if( padOutline.IsEmpty() ) warning_msgs.Add( _( "Warning: Pad hole will leave no copper." ) ); } } if( m_previewPad->GetLocalClearance().value_or( 0 ) < 0 ) warning_msgs.Add( _( "Warning: Negative local clearance values will have no effect." ) ); // Some pads need a negative solder mask clearance (mainly for BGA with small pads) // However the negative solder mask clearance must not create negative mask size // Therefore test for minimal acceptable negative value std::optional solderMaskMargin = m_previewPad->GetLocalSolderMaskMargin(); if( solderMaskMargin.has_value() && solderMaskMargin.value() < 0 ) { int absMargin = abs( solderMaskMargin.value() ); if( m_previewPad->GetShape() == PAD_SHAPE::CUSTOM ) { for( const std::shared_ptr& shape : m_previewPad->GetPrimitives() ) { BOX2I shapeBBox = shape->GetBoundingBox(); if( absMargin > shapeBBox.GetWidth() || absMargin > shapeBBox.GetHeight() ) { warning_msgs.Add( _( "Warning: Negative solder mask clearances larger than " "some shape primitives. Results may be surprising." ) ); break; } } } else if( absMargin > pad_size.x || absMargin > pad_size.y ) { warning_msgs.Add( _( "Warning: Negative solder mask clearance larger than pad. No " "solder mask will be generated." ) ); } } // Some pads need a positive solder paste clearance (mainly for BGA with small pads) // However, a positive value can create issues if the resulting shape is too big. // (like a solder paste creating a solder paste area on a neighbor pad or on the solder mask) // So we could ask for user to confirm the choice // For now we just check for disappearing paste wxSize paste_size; int paste_margin = m_previewPad->GetLocalSolderPasteMargin().value_or( 0 ); double paste_ratio = m_previewPad->GetLocalSolderPasteMarginRatio().value_or( 0 ); paste_size.x = pad_size.x + paste_margin + KiROUND( pad_size.x * paste_ratio ); paste_size.y = pad_size.y + paste_margin + KiROUND( pad_size.y * paste_ratio ); if( paste_size.x <= 0 || paste_size.y <= 0 ) { warning_msgs.Add( _( "Warning: Negative solder paste margins larger than pad. No solder " "paste mask will be generated." ) ); } LSET padlayers_mask = m_previewPad->GetLayerSet(); if( padlayers_mask == 0 ) error_msgs.Add( _( "Error: pad has no layer." ) ); if( !padlayers_mask[F_Cu] && !padlayers_mask[B_Cu] ) { if( ( drill_size.x || drill_size.y ) && m_previewPad->GetAttribute() != PAD_ATTRIB::NPTH ) { warning_msgs.Add( _( "Warning: Plated through holes should normally have a copper pad " "on at least one layer." ) ); } } if( error ) error_msgs.Add( _( "Error: Trapazoid delta is too large." ) ); switch( m_previewPad->GetAttribute() ) { case PAD_ATTRIB::NPTH: // Not plated, but through hole, a hole is expected case PAD_ATTRIB::PTH: // Pad through hole, a hole is also expected if( drill_size.x <= 0 || ( drill_size.y <= 0 && m_previewPad->GetDrillShape() == PAD_DRILL_SHAPE_OBLONG ) ) { error_msgs.Add( _( "Error: Through hole pad has no hole." ) ); } break; case PAD_ATTRIB::CONN: // Connector pads are smd pads, just they do not have solder paste. if( padlayers_mask[B_Paste] || padlayers_mask[F_Paste] ) { warning_msgs.Add( _( "Warning: Connector pads normally have no solder paste. Use a " "SMD pad instead." ) ); } KI_FALLTHROUGH; case PAD_ATTRIB::SMD: // SMD and Connector pads (One external copper layer only) { if( drill_size.x > 0 || drill_size.y > 0 ) { error_msgs.Add( _( "Error: SMD pad has a hole." ) ); } LSET innerlayers_mask = padlayers_mask & LSET::InternalCuMask(); if( ( padlayers_mask[F_Cu] && padlayers_mask[B_Cu] ) || innerlayers_mask.count() != 0 ) warning_msgs.Add( _( "Warning: SMD pad has no outer layers." ) ); } break; } if( ( m_previewPad->GetProperty() == PAD_PROP::FIDUCIAL_GLBL || m_previewPad->GetProperty() == PAD_PROP::FIDUCIAL_LOCAL ) && m_previewPad->GetAttribute() == PAD_ATTRIB::NPTH ) { warning_msgs.Add( _( "Warning: Fiducial property makes no sense on NPTH pads." ) ); } if( m_previewPad->GetProperty() == PAD_PROP::TESTPOINT && m_previewPad->GetAttribute() == PAD_ATTRIB::NPTH ) { warning_msgs.Add( _( "Warning: Testpoint property makes no sense on NPTH pads." ) ); } if( m_previewPad->GetProperty() == PAD_PROP::HEATSINK && m_previewPad->GetAttribute() == PAD_ATTRIB::NPTH ) { warning_msgs.Add( _( "Warning: Heatsink property makes no sense of NPTH pads." ) ); } if( m_previewPad->GetProperty() == PAD_PROP::CASTELLATED && m_previewPad->GetAttribute() != PAD_ATTRIB::PTH ) { warning_msgs.Add( _( "Warning: Castellated property is for PTH pads." ) ); } if( m_previewPad->GetProperty() == PAD_PROP::BGA && m_previewPad->GetAttribute() != PAD_ATTRIB::SMD ) { warning_msgs.Add( _( "Warning: BGA property is for SMD pads." ) ); } if( m_previewPad->GetShape() == PAD_SHAPE::ROUNDRECT || m_previewPad->GetShape() == PAD_SHAPE::CHAMFERED_RECT ) { wxASSERT( m_cornerRatio.GetDoubleValue() == m_mixedCornerRatio.GetDoubleValue() ); if( m_cornerRatio.GetDoubleValue() < 0.0 ) error_msgs.Add( _( "Error: Negative corner size." ) ); else if( m_cornerRatio.GetDoubleValue() > 50.0 ) warning_msgs.Add( _( "Warning: Corner size will make pad circular." ) ); } // PADSTACKS TODO: this will need to check each layer in the pad... if( m_previewPad->GetShape() == PAD_SHAPE::CUSTOM ) { SHAPE_POLY_SET mergedPolygon; m_previewPad->MergePrimitivesAsPolygon( &mergedPolygon ); if( mergedPolygon.OutlineCount() > 1 ) error_msgs.Add( _( "Error: Custom pad shape must resolve to a single polygon." ) ); } if( error_msgs.GetCount() || warning_msgs.GetCount() ) { wxString title = error_msgs.GetCount() ? _( "Pad Properties Errors" ) : _( "Pad Properties Warnings" ); HTML_MESSAGE_BOX dlg( this, title ); wxArrayString msgs = error_msgs; for( const wxString& msg : warning_msgs ) msgs.Add( msg ); dlg.ListSet( msgs ); dlg.ShowModal(); } return error_msgs.GetCount() == 0; } void DIALOG_PAD_PROPERTIES::redraw() { if( !m_canUpdate ) return; KIGFX::VIEW* view = m_padPreviewGAL->GetView(); KIGFX::PCB_PAINTER* painter = static_cast( view->GetPainter() ); KIGFX::PCB_RENDER_SETTINGS* settings = painter->GetSettings(); m_padPreviewGAL->StopDrawing(); // The layer used to place primitive items selected when editing custom pad shapes // we use here a layer never used in a pad: #define SELECTED_ITEMS_LAYER Dwgs_User view->SetTopLayer( SELECTED_ITEMS_LAYER ); settings->SetLayerColor( SELECTED_ITEMS_LAYER, m_selectedColor ); m_axisOrigin->SetPosition( m_previewPad->GetPosition() ); view->Update( m_previewPad ); // delete previous items if highlight list while( m_highlight.size() ) { delete m_highlight.back(); // the dtor also removes item from view m_highlight.pop_back(); } BOX2I bbox = m_previewPad->ViewBBox(); if( bbox.GetSize().x > 0 && bbox.GetSize().y > 0 ) { // The origin always goes in the middle of the canvas; we want offsetting the pad // shape to move the pad, not the hole bbox.Move( -m_previewPad->GetPosition() ); int maxXExtent = std::max( abs( bbox.GetLeft() ), abs( bbox.GetRight() ) ); int maxYExtent = std::max( abs( bbox.GetTop() ), abs( bbox.GetBottom() ) ); // Don't blow up the GAL on too-large numbers if( maxXExtent > INT_MAX / 4 ) maxXExtent = INT_MAX / 4; if( maxYExtent > INT_MAX / 4 ) maxYExtent = INT_MAX / 4; BOX2D viewBox( m_previewPad->GetPosition(), {0, 0} ); BOX2D canvasBox( m_previewPad->GetPosition(), {0, 0} ); viewBox.Inflate( maxXExtent * 1.4, maxYExtent * 1.4 ); // add a margin canvasBox.Inflate( maxXExtent * 2.0, maxYExtent * 2.0 ); view->SetBoundary( canvasBox ); // Autozoom view->SetViewport( viewBox ); m_padPreviewGAL->StartDrawing(); m_padPreviewGAL->Refresh(); } } bool DIALOG_PAD_PROPERTIES::TransferDataToWindow() { if( !wxDialog::TransferDataToWindow() ) return false; if( !m_panelGeneral->TransferDataToWindow() ) return false; if( !m_localSettingsPanel->TransferDataToWindow() ) return false; return true; } bool DIALOG_PAD_PROPERTIES::TransferDataFromWindow() { BOARD_COMMIT commit( m_parent ); if( !wxDialog::TransferDataFromWindow() ) return false; if( !m_panelGeneral->TransferDataFromWindow() ) return false; if( !m_localSettingsPanel->TransferDataFromWindow() ) return false; if( !padValuesOK() ) return false; if( !transferDataToPad( m_masterPad ) ) return false; PAD_TOOL* padTool = m_parent->GetToolManager()->GetTool(); padTool->SetLastPadNumber( m_masterPad->GetNumber() ); // m_masterPad is a pattern: ensure there is no net for this pad: m_masterPad->SetNetCode( NETINFO_LIST::UNCONNECTED ); if( !m_currentPad ) // Set current Pad parameters return true; commit.Modify( m_currentPad ); // Update values m_currentPad->SetShape( m_masterPad->GetShape() ); m_currentPad->SetAttribute( m_masterPad->GetAttribute() ); m_currentPad->SetFPRelativeOrientation( m_masterPad->GetOrientation() ); m_currentPad->SetSize( m_masterPad->GetSize() ); VECTOR2I size = m_masterPad->GetDelta(); m_currentPad->SetDelta( size ); m_currentPad->SetDrillSize( m_masterPad->GetDrillSize() ); m_currentPad->SetDrillShape( m_masterPad->GetDrillShape() ); VECTOR2I offset = m_masterPad->GetOffset(); m_currentPad->SetOffset( offset ); m_currentPad->SetPadToDieLength( m_masterPad->GetPadToDieLength() ); if( m_masterPad->GetShape() != PAD_SHAPE::CUSTOM ) m_masterPad->DeletePrimitivesList(); m_currentPad->SetAnchorPadShape( m_masterPad->GetAnchorPadShape() ); m_currentPad->ReplacePrimitives( m_masterPad->GetPrimitives() ); m_currentPad->SetLayerSet( m_masterPad->GetLayerSet() ); m_currentPad->SetRemoveUnconnected( m_masterPad->GetRemoveUnconnected() ); m_currentPad->SetKeepTopBottom( m_masterPad->GetKeepTopBottom() ); m_currentPad->SetNumber( m_masterPad->GetNumber() ); int padNetcode = NETINFO_LIST::UNCONNECTED; // For PAD_ATTRIB::NPTH, ensure there is no net name selected if( m_masterPad->GetAttribute() != PAD_ATTRIB::NPTH ) padNetcode = m_padNetSelector->GetSelectedNetcode(); m_currentPad->SetNetCode( padNetcode ); m_currentPad->SetLocalClearance( m_masterPad->GetLocalClearance() ); m_currentPad->SetLocalSolderMaskMargin( m_masterPad->GetLocalSolderMaskMargin() ); m_currentPad->SetLocalSolderPasteMargin( m_masterPad->GetLocalSolderPasteMargin() ); m_currentPad->SetLocalSolderPasteMarginRatio( m_masterPad->GetLocalSolderPasteMarginRatio() ); m_currentPad->SetThermalSpokeWidth( m_masterPad->GetThermalSpokeWidth() ); m_currentPad->SetThermalSpokeAngle( m_masterPad->GetThermalSpokeAngle() ); m_currentPad->SetThermalGap( m_masterPad->GetThermalGap() ); m_currentPad->SetRoundRectRadiusRatio( m_masterPad->GetRoundRectRadiusRatio() ); m_currentPad->SetChamferRectRatio( m_masterPad->GetChamferRectRatio() ); m_currentPad->SetChamferPositions( m_masterPad->GetChamferPositions() ); m_currentPad->SetLocalZoneConnection( m_masterPad->GetLocalZoneConnection() ); m_currentPad->GetTeardropParams() = m_masterPad->GetTeardropParams(); // rounded rect pads with radius ratio = 0 are in fact rect pads. // So set the right shape (and perhaps issues with a radius = 0) if( m_currentPad->GetShape() == PAD_SHAPE::ROUNDRECT && m_currentPad->GetRoundRectRadiusRatio() == 0.0 ) { m_currentPad->SetShape( PAD_SHAPE::RECTANGLE ); } // Set the fabrication property: m_currentPad->SetProperty( getSelectedProperty() ); // define the way the clearance area is defined in zones m_currentPad->SetCustomShapeInZoneOpt( m_masterPad->GetCustomShapeInZoneOpt() ); VECTOR2I relPos = m_masterPad->GetPosition(); if( m_currentPad->GetParentFootprint() && m_currentPad->GetParentFootprint()->IsFlipped() ) { // flip pad (up/down) around its position m_currentPad->Flip( m_currentPad->GetPosition(), false ); relPos.y = -relPos.y; } // Must be done after flipping m_currentPad->SetFPRelativePosition( relPos ); m_parent->SetMsgPanel( m_currentPad ); // redraw the area where the pad was m_parent->GetCanvas()->Refresh(); commit.Push( _( "Edit Pad Properties" ) ); return true; } PAD_PROP DIALOG_PAD_PROPERTIES::getSelectedProperty() { PAD_PROP prop = PAD_PROP::NONE; switch( m_choiceFabProperty->GetSelection() ) { case 0: prop = PAD_PROP::NONE; break; case 1: prop = PAD_PROP::BGA; break; case 2: prop = PAD_PROP::FIDUCIAL_LOCAL; break; case 3: prop = PAD_PROP::FIDUCIAL_GLBL; break; case 4: prop = PAD_PROP::TESTPOINT; break; case 5: prop = PAD_PROP::HEATSINK; break; case 6: prop = PAD_PROP::CASTELLATED; break; } return prop; } void DIALOG_PAD_PROPERTIES::updateHoleControls() { if( m_holeShapeCtrl->GetSelection() == CHOICE_SHAPE_CIRCLE ) { m_holeXLabel->SetLabel( _( "Diameter:" ) ); m_holeY.Show( false ); } else { m_holeXLabel->SetLabel( _( "Hole size X:" ) ); m_holeY.Show( true ); } m_holeXLabel->GetParent()->Layout(); } void DIALOG_PAD_PROPERTIES::updatePadSizeControls() { if( m_PadShapeSelector->GetSelection() == CHOICE_SHAPE_CIRCLE || m_PadShapeSelector->GetSelection() == CHOICE_SHAPE_CUSTOM_CIRC_ANCHOR ) { m_sizeXLabel->SetLabel( _( "Diameter:" ) ); m_sizeY.Show( false ); m_bitmapTeardrop->SetBitmap( KiBitmapBundle( BITMAPS::teardrop_sizes ) ); m_minTrackWidthHint->SetLabel( _( "d" ) ); m_stLenPercentHint->SetLabel( _( "d" ) ); m_stWidthPercentHint->SetLabel( _( "d" ) ); } else { m_sizeXLabel->SetLabel( _( "Pad size X:" ) ); m_sizeY.Show( true ); m_bitmapTeardrop->SetBitmap( KiBitmapBundle( BITMAPS::teardrop_rect_sizes ) ); m_minTrackWidthHint->SetLabel( _( "w" ) ); m_stLenPercentHint->SetLabel( _( "w" ) ); m_stWidthPercentHint->SetLabel( _( "w" ) ); } m_sizeXLabel->GetParent()->Layout(); resetSize(); Layout(); m_MainSizer->Fit( this ); } bool DIALOG_PAD_PROPERTIES::transferDataToPad( PAD* aPad ) { if( !Validate() ) return false; if( !m_panelGeneral->Validate() ) return false; if( !m_localSettingsPanel->Validate() ) return false; if( !m_spokeWidth.Validate( 0, INT_MAX ) ) return false; aPad->SetAttribute( code_type[m_padType->GetSelection()] ); aPad->SetShape( code_shape[m_PadShapeSelector->GetSelection()] ); if( m_PadShapeSelector->GetSelection() == CHOICE_SHAPE_CUSTOM_RECT_ANCHOR ) aPad->SetAnchorPadShape( PAD_SHAPE::RECTANGLE ); else aPad->SetAnchorPadShape( PAD_SHAPE::CIRCLE ); if( aPad->GetShape() == PAD_SHAPE::CUSTOM ) aPad->ReplacePrimitives( m_primitives ); aPad->GetTeardropParams().m_Enabled = m_cbTeardrops->GetValue(); aPad->GetTeardropParams().m_AllowUseTwoTracks = m_cbTeardropsUseNextTrack->GetValue(); aPad->GetTeardropParams().m_TdOnPadsInZones = !m_cbPreferZoneConnection->GetValue(); aPad->GetTeardropParams().m_TdMaxLen = m_teardropMaxLenSetting.GetIntValue(); aPad->GetTeardropParams().m_TdMaxWidth = m_teardropMaxHeightSetting.GetIntValue(); aPad->GetTeardropParams().m_BestLengthRatio = m_spTeardropLenPercent->GetValue() / 100; aPad->GetTeardropParams().m_BestWidthRatio = m_spTeardropSizePercent->GetValue() / 100; if( m_curvedEdges->GetValue() ) aPad->GetTeardropParams().m_CurveSegCount = m_curvePointsCtrl->GetValue(); else aPad->GetTeardropParams().m_CurveSegCount = 0; aPad->GetTeardropParams().m_WidthtoSizeFilterRatio = m_spTeardropHDPercent->GetValue() / 100; // Read pad clearances values: if( m_clearance.IsNull() ) aPad->SetLocalClearance( {} ); else aPad->SetLocalClearance( m_clearance.GetIntValue() ); if( m_maskMargin.IsNull() ) aPad->SetLocalSolderMaskMargin( {} ); else aPad->SetLocalSolderMaskMargin( m_maskMargin.GetIntValue() ); if( m_pasteMargin.IsNull() ) aPad->SetLocalSolderPasteMargin( {} ); else aPad->SetLocalSolderPasteMargin( m_pasteMargin.GetIntValue() ); if( m_pasteMarginRatio.IsNull() ) aPad->SetLocalSolderPasteMarginRatio( {} ); else aPad->SetLocalSolderPasteMarginRatio( m_pasteMarginRatio.GetDoubleValue() / 100.0 ); aPad->SetThermalSpokeWidth( m_spokeWidth.GetIntValue() ); aPad->SetThermalSpokeAngle( m_spokeAngle.GetAngleValue() ); aPad->SetThermalGap( m_thermalGap.GetIntValue() ); // And rotation aPad->SetOrientation( m_pad_orientation.GetAngleValue() ); switch( m_ZoneConnectionChoice->GetSelection() ) { default: case 0: aPad->SetLocalZoneConnection( ZONE_CONNECTION::INHERITED ); break; case 1: aPad->SetLocalZoneConnection( ZONE_CONNECTION::FULL ); break; case 2: aPad->SetLocalZoneConnection( ZONE_CONNECTION::THERMAL ); break; case 3: aPad->SetLocalZoneConnection( ZONE_CONNECTION::NONE ); break; } aPad->SetPosition( VECTOR2I( m_posX.GetIntValue(), m_posY.GetIntValue() ) ); if( m_holeShapeCtrl->GetSelection() == CHOICE_SHAPE_CIRCLE ) { aPad->SetDrillShape( PAD_DRILL_SHAPE_CIRCLE ); aPad->SetDrillSize( VECTOR2I( m_holeX.GetIntValue(), m_holeX.GetIntValue() ) ); } else { aPad->SetDrillShape( PAD_DRILL_SHAPE_OBLONG ); aPad->SetDrillSize( VECTOR2I( m_holeX.GetIntValue(), m_holeY.GetIntValue() ) ); } if( aPad->GetShape() == PAD_SHAPE::CIRCLE ) aPad->SetSize( VECTOR2I( m_sizeX.GetIntValue(), m_sizeX.GetIntValue() ) ); else aPad->SetSize( VECTOR2I( m_sizeX.GetIntValue(), m_sizeY.GetIntValue() ) ); // For a trapezoid, test delta value (be sure delta is not too large for pad size) // remember DeltaSize.x is the Y size variation bool error = false; VECTOR2I delta( 0, 0 ); if( aPad->GetShape() == PAD_SHAPE::TRAPEZOID ) { // For a trapezoid, only one of delta.x or delta.y is not 0, depending on axis. if( m_trapAxisCtrl->GetSelection() == 0 ) delta.x = m_trapDelta.GetIntValue(); else delta.y = m_trapDelta.GetIntValue(); if( delta.x < 0 && delta.x < -aPad->GetSize().y ) { delta.x = -aPad->GetSize().y + 2; error = true; } if( delta.x > 0 && delta.x > aPad->GetSize().y ) { delta.x = aPad->GetSize().y - 2; error = true; } if( delta.y < 0 && delta.y < -aPad->GetSize().x ) { delta.y = -aPad->GetSize().x + 2; error = true; } if( delta.y > 0 && delta.y > aPad->GetSize().x ) { delta.y = aPad->GetSize().x - 2; error = true; } } aPad->SetDelta( delta ); if( m_offsetShapeOpt->GetValue() ) aPad->SetOffset( VECTOR2I( m_offsetX.GetIntValue(), m_offsetY.GetIntValue() ) ); else aPad->SetOffset( VECTOR2I() ); // Read pad length die if( m_padToDieOpt->GetValue() ) aPad->SetPadToDieLength( m_padToDie.GetIntValue() ); else aPad->SetPadToDieLength( 0 ); aPad->SetNumber( m_padNumCtrl->GetValue() ); aPad->SetNetCode( m_padNetSelector->GetSelectedNetcode() ); int chamfers = 0; if( m_PadShapeSelector->GetSelection() == CHOICE_SHAPE_CHAMFERED_RECT ) { if( m_cbTopLeft->GetValue() ) chamfers |= RECT_CHAMFER_TOP_LEFT; if( m_cbTopRight->GetValue() ) chamfers |= RECT_CHAMFER_TOP_RIGHT; if( m_cbBottomLeft->GetValue() ) chamfers |= RECT_CHAMFER_BOTTOM_LEFT; if( m_cbBottomRight->GetValue() ) chamfers |= RECT_CHAMFER_BOTTOM_RIGHT; } else if( m_PadShapeSelector->GetSelection() == CHOICE_SHAPE_CHAMFERED_ROUNDED_RECT ) { if( m_cbTopLeft1->GetValue() ) chamfers |= RECT_CHAMFER_TOP_LEFT; if( m_cbTopRight1->GetValue() ) chamfers |= RECT_CHAMFER_TOP_RIGHT; if( m_cbBottomLeft1->GetValue() ) chamfers |= RECT_CHAMFER_BOTTOM_LEFT; if( m_cbBottomRight1->GetValue() ) chamfers |= RECT_CHAMFER_BOTTOM_RIGHT; } aPad->SetChamferPositions( chamfers ); if( aPad->GetShape() == PAD_SHAPE::CUSTOM ) { // The pad custom has a "anchor pad" (a basic shape: round or rect pad) // that is the minimal area of this pad, and is useful to ensure a hole // diameter is acceptable, and is used in Gerber files as flashed area // reference if( aPad->GetAnchorPadShape() == PAD_SHAPE::CIRCLE ) aPad->SetSize( VECTOR2I( m_sizeX.GetIntValue(), m_sizeX.GetIntValue() ) ); } // Define the way the clearance area is defined in zones. Since all non-custom pad // shapes are convex to begin with, this really only makes any difference for custom // pad shapes. aPad->SetCustomShapeInZoneOpt( m_ZoneCustomPadShape->GetSelection() == 0 ? CUST_PAD_SHAPE_IN_ZONE_OUTLINE : CUST_PAD_SHAPE_IN_ZONE_CONVEXHULL ); switch( aPad->GetAttribute() ) { case PAD_ATTRIB::PTH: break; case PAD_ATTRIB::CONN: case PAD_ATTRIB::SMD: // SMD and PAD_ATTRIB::CONN has no hole. // basically, SMD and PAD_ATTRIB::CONN are same type of pads // PAD_ATTRIB::CONN has just a default non technical layers that differs from SMD // and are intended to be used in virtual edge board connectors // However we can accept a non null offset, // mainly to allow complex pads build from a set of basic pad shapes aPad->SetDrillSize( VECTOR2I( 0, 0 ) ); break; case PAD_ATTRIB::NPTH: // Mechanical purpose only: // no net name, no pad name allowed aPad->SetNumber( wxEmptyString ); aPad->SetNetCode( NETINFO_LIST::UNCONNECTED ); break; default: wxFAIL_MSG( wxT( "DIALOG_PAD_PROPERTIES::transferDataToPad: unknown pad type" ) ); break; } if( aPad->GetShape() == PAD_SHAPE::ROUNDRECT ) { aPad->SetRoundRectRadiusRatio( m_cornerRatio.GetDoubleValue() / 100.0 ); } else if( aPad->GetShape() == PAD_SHAPE::CHAMFERED_RECT ) { if( m_PadShapeSelector->GetSelection() == CHOICE_SHAPE_CHAMFERED_ROUNDED_RECT ) { aPad->SetChamferRectRatio( m_mixedChamferRatio.GetDoubleValue() / 100.0 ); aPad->SetRoundRectRadiusRatio( m_mixedCornerRatio.GetDoubleValue() / 100.0 ); } else // Choice is CHOICE_SHAPE_CHAMFERED_RECT, no rounded corner { aPad->SetChamferRectRatio( m_chamferRatio.GetDoubleValue() / 100.0 ); aPad->SetRoundRectRadiusRatio( 0 ); } } aPad->SetProperty( getSelectedProperty() ); LSET padLayerMask = LSET(); int copperLayersChoice = m_rbCopperLayersSel->GetSelection(); aPad->SetRemoveUnconnected( false ); aPad->SetKeepTopBottom( false ); switch( m_padType->GetSelection() ) { case PTH_DLG_TYPE: switch( copperLayersChoice ) { case 0: // All copper layers padLayerMask |= LSET::AllCuMask(); break; case 1: // Front, back and connected padLayerMask |= LSET::AllCuMask(); aPad->SetRemoveUnconnected( true ); aPad->SetKeepTopBottom( true ); break; case 2: // Connected only padLayerMask |= LSET::AllCuMask(); aPad->SetRemoveUnconnected( true ); break; case 3: // No copper layers break; } break; case NPTH_DLG_TYPE: switch( copperLayersChoice ) { case 0: padLayerMask.set( F_Cu ).set( B_Cu ); break; case 1: padLayerMask.set( F_Cu ); break; case 2: padLayerMask.set( B_Cu ); break; default: break; } break; case SMD_DLG_TYPE: case CONN_DLG_TYPE: switch( copperLayersChoice ) { case 0: padLayerMask.set( F_Cu ); break; case 1: padLayerMask.set( B_Cu ); break; } break; case APERTURE_DLG_TYPE: // no copper layers break; } if( m_layerFrontAdhesive->GetValue() ) padLayerMask.set( F_Adhes ); if( m_layerBackAdhesive->GetValue() ) padLayerMask.set( B_Adhes ); if( m_layerFrontPaste->GetValue() ) padLayerMask.set( F_Paste ); if( m_layerBackPaste->GetValue() ) padLayerMask.set( B_Paste ); if( m_layerFrontSilk->GetValue() ) padLayerMask.set( F_SilkS ); if( m_layerBackSilk->GetValue() ) padLayerMask.set( B_SilkS ); if( m_layerFrontMask->GetValue() ) padLayerMask.set( F_Mask ); if( m_layerBackMask->GetValue() ) padLayerMask.set( B_Mask ); if( m_layerECO1->GetValue() ) padLayerMask.set( Eco1_User ); if( m_layerECO2->GetValue() ) padLayerMask.set( Eco2_User ); if( m_layerUserDwgs->GetValue() ) padLayerMask.set( Dwgs_User ); aPad->SetLayerSet( padLayerMask ); return !error; } void DIALOG_PAD_PROPERTIES::OnOffsetCheckbox( wxCommandEvent& event ) { if( m_offsetShapeOpt->GetValue() ) { m_offsetX.SetValue( m_previewPad->GetOffset().x ); m_offsetY.SetValue( m_previewPad->GetOffset().y ); } // Show/hide controls depending on m_offsetShapeOpt being enabled m_offsetCtrls->Show( m_offsetShapeOpt->GetValue() ); m_offsetShapeOptLabel->Show( m_offsetShapeOpt->GetValue() ); for( size_t i = 0; i < m_notebook->GetPageCount(); ++i ) m_notebook->GetPage( i )->Layout(); OnValuesChanged( event ); } void DIALOG_PAD_PROPERTIES::OnPadToDieCheckbox( wxCommandEvent& event ) { if( m_padToDieOpt->GetValue() && m_currentPad ) m_padToDie.SetValue( m_currentPad->GetPadToDieLength() ); OnValuesChanged( event ); } void DIALOG_PAD_PROPERTIES::OnValuesChanged( wxCommandEvent& event ) { if( m_canUpdate ) { if( !transferDataToPad( m_previewPad ) ) return; // If the pad size has changed, update the displayed values for rounded rect pads. updateRoundRectCornerValues(); redraw(); } }