kicad/pcbnew/pad.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2018 Jean-Pierre Charras, jp.charras at wanadoo.fr
* Copyright (C) 2012 SoftPLC Corporation, Dick Hollenbeck <dick@softplc.com>
* Copyright (C) 1992-2020 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 <base_units.h>
#include <bitmaps.h>
#include <core/mirror.h>
#include <math/util.h> // for KiROUND
#include <eda_draw_frame.h>
#include <geometry/shape_circle.h>
#include <geometry/shape_segment.h>
#include <geometry/shape_simple.h>
#include <geometry/shape_rect.h>
#include <geometry/shape_compound.h>
#include <kicad_string.h>
#include <i18n_utility.h>
#include <view/view.h>
#include <board.h>
#include <footprint.h>
#include <pcb_shape.h>
#include <connectivity/connectivity_data.h>
#include <convert_to_biu.h>
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#include <convert_basic_shapes_to_polygon.h>
#include <widgets/msgpanel.h>
#include <pcb_painter.h>
#include <memory>
using KIGFX::PCB_PAINTER;
using KIGFX::PCB_RENDER_SETTINGS;
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PAD::PAD( FOOTPRINT* parent ) :
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BOARD_CONNECTED_ITEM( parent, PCB_PAD_T )
{
m_size.x = m_size.y = Mils2iu( 60 ); // Default pad size 60 mils.
m_drill.x = m_drill.y = Mils2iu( 30 ); // Default drill size 30 mils.
m_orient = 0; // Pad rotation in 1/10 degrees.
m_lengthPadToDie = 0;
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if( m_parent && m_parent->Type() == PCB_FOOTPRINT_T )
{
m_pos = GetParent()->GetPosition();
}
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SetShape( PAD_SHAPE::CIRCLE ); // Default pad shape is PAD_CIRCLE.
SetAnchorPadShape( PAD_SHAPE::CIRCLE ); // Default shape for custom shaped pads
// is PAD_CIRCLE.
SetDrillShape( PAD_DRILL_SHAPE_CIRCLE ); // Default pad drill shape is a circle.
m_attribute = PAD_ATTRIB::PTH; // Default pad type is plated through hole
SetProperty( PAD_PROP::NONE ); // no special fabrication property
m_localClearance = 0;
m_localSolderMaskMargin = 0;
m_localSolderPasteMargin = 0;
m_localSolderPasteMarginRatio = 0.0;
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// Parameters for round rect only:
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m_roundedCornerScale = 0.25; // from IPC-7351C standard
// Parameters for chamfered rect only:
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m_chamferScale = 0.2; // Size of chamfer: ratio of smallest of X,Y size
m_chamferPositions = RECT_NO_CHAMFER; // No chamfered corner
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m_zoneConnection = ZONE_CONNECTION::INHERITED; // Use parent setting by default
m_thermalWidth = 0; // Use parent setting by default
m_thermalGap = 0; // Use parent setting by default
m_customShapeClearanceArea = CUST_PAD_SHAPE_IN_ZONE_OUTLINE;
// Set layers mask to default for a standard thru hole pad.
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m_layerMask = PTHMask();
SetSubRatsnest( 0 ); // used in ratsnest calculations
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SetDirty();
m_effectiveBoundingRadius = 0;
m_removeUnconnectedLayer = false;
m_keepTopBottomLayer = true;
}
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PAD::PAD( const PAD& aOther ) :
BOARD_CONNECTED_ITEM( aOther.GetParent(), PCB_PAD_T )
{
BOARD_CONNECTED_ITEM::operator=( aOther );
ImportSettingsFrom( aOther );
SetPadToDieLength( aOther.GetPadToDieLength() );
SetPosition( aOther.GetPosition() );
SetPos0( aOther.GetPos0() );
SetName( aOther.GetName() );
SetPinFunction( aOther.GetPinFunction() );
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SetSubRatsnest( aOther.GetSubRatsnest() );
m_effectiveBoundingRadius = aOther.m_effectiveBoundingRadius;
m_removeUnconnectedLayer = aOther.m_removeUnconnectedLayer;
m_keepTopBottomLayer = aOther.m_keepTopBottomLayer;
const_cast<KIID&>( m_Uuid ) = aOther.m_Uuid;
}
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PAD& PAD::operator=( const PAD &aOther )
{
BOARD_CONNECTED_ITEM::operator=( aOther );
ImportSettingsFrom( aOther );
SetPadToDieLength( aOther.GetPadToDieLength() );
SetPosition( aOther.GetPosition() );
SetPos0( aOther.GetPos0() );
SetName( aOther.GetName() );
SetPinFunction( aOther.GetPinFunction() );
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SetSubRatsnest( aOther.GetSubRatsnest() );
m_effectiveBoundingRadius = aOther.m_effectiveBoundingRadius;
m_removeUnconnectedLayer = aOther.m_removeUnconnectedLayer;
m_keepTopBottomLayer = aOther.m_keepTopBottomLayer;
return *this;
}
bool PAD::IsLocked() const
{
if( GetParent() && static_cast<FOOTPRINT*>( GetParent() )->IsLocked() )
return true;
return BOARD_ITEM::IsLocked();
};
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LSET PAD::PTHMask()
{
static LSET saved = LSET::AllCuMask() | LSET( 2, F_Mask, B_Mask );
return saved;
}
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LSET PAD::SMDMask()
{
static LSET saved( 3, F_Cu, F_Paste, F_Mask );
return saved;
}
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LSET PAD::ConnSMDMask()
{
static LSET saved( 2, F_Cu, F_Mask );
return saved;
}
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LSET PAD::UnplatedHoleMask()
{
static LSET saved = LSET( 4, F_Cu, B_Cu, F_Mask, B_Mask );
return saved;
}
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LSET PAD::ApertureMask()
{
static LSET saved( 1, F_Paste );
return saved;
}
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bool PAD::IsFlipped() const
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{
if( GetParent() && GetParent()->GetLayer() == B_Cu )
return true;
return false;
}
bool PAD::FlashLayer( LSET aLayers ) const
{
for( auto layer : aLayers.Seq() )
{
if( FlashLayer( layer ) )
return true;
}
return false;
}
bool PAD::FlashLayer( int aLayer ) const
{
std::vector<KICAD_T> types
{ PCB_TRACE_T, PCB_ARC_T, PCB_VIA_T, PCB_PAD_T, PCB_ZONE_T, PCB_FP_ZONE_T };
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// Return the "normal" shape if the caller doesn't specify a particular layer
if( aLayer == UNDEFINED_LAYER )
return true;
BOARD* board = GetBoard();
if( !board )
return false;
/// We don't remove the copper from non-PTH pads
if( GetAttribute() != PAD_ATTRIB::PTH )
return IsOnLayer( static_cast<PCB_LAYER_ID>( aLayer ) );
/// Heatsink pads always get copper
if( GetProperty() == PAD_PROP::HEATSINK )
return IsOnLayer( static_cast<PCB_LAYER_ID>( aLayer ) );
if( !m_removeUnconnectedLayer )
return IsOnLayer( static_cast<PCB_LAYER_ID>( aLayer ) );
/// Plated through hole pads need copper on the top/bottom layers for proper soldering
/// Unless the user has removed them in the pad dialog
if( m_keepTopBottomLayer && ( aLayer == F_Cu || aLayer == B_Cu ) )
return IsOnLayer( static_cast<PCB_LAYER_ID>( aLayer ) );
return board->GetConnectivity()->IsConnectedOnLayer( this, static_cast<int>( aLayer ), types );
}
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int PAD::GetRoundRectCornerRadius() const
{
return KiROUND( std::min( m_size.x, m_size.y ) * m_roundedCornerScale );
}
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void PAD::SetRoundRectCornerRadius( double aRadius )
{
int min_r = std::min( m_size.x, m_size.y );
if( min_r > 0 )
SetRoundRectRadiusRatio( aRadius / min_r );
}
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void PAD::SetRoundRectRadiusRatio( double aRadiusScale )
{
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m_roundedCornerScale = std::max( 0.0, std::min( aRadiusScale, 0.5 ) );
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SetDirty();
}
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void PAD::SetChamferRectRatio( double aChamferScale )
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{
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m_chamferScale = std::max( 0.0, std::min( aChamferScale, 0.5 ) );
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SetDirty();
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}
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const std::shared_ptr<SHAPE_POLY_SET>& PAD::GetEffectivePolygon() const
{
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if( m_polyDirty )
BuildEffectivePolygon();
return m_effectivePolygon;
}
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std::shared_ptr<SHAPE> PAD::GetEffectiveShape( PCB_LAYER_ID aLayer ) const
{
if( m_shapesDirty )
BuildEffectiveShapes( aLayer );
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return m_effectiveShape;
}
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const SHAPE_SEGMENT* PAD::GetEffectiveHoleShape() const
{
if( m_shapesDirty )
BuildEffectiveShapes( UNDEFINED_LAYER );
return m_effectiveHoleShape.get();
}
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int PAD::GetBoundingRadius() const
{
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if( m_polyDirty )
BuildEffectivePolygon();
return m_effectiveBoundingRadius;
}
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void PAD::BuildEffectiveShapes( PCB_LAYER_ID aLayer ) const
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{
std::lock_guard<std::mutex> RAII_lock( m_shapesBuildingLock );
// If we had to wait for the lock then we were probably waiting for someone else to
// finish rebuilding the shapes. So check to see if they're clean now.
if( !m_shapesDirty )
return;
BOARD* board = GetBoard();
int maxError = board ? board->GetDesignSettings().m_MaxError : ARC_HIGH_DEF;
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m_effectiveShape = std::make_shared<SHAPE_COMPOUND>();
m_effectiveHoleShape = nullptr;
auto add = [this]( SHAPE* aShape )
{
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m_effectiveShape->AddShape( aShape );
};
wxPoint shapePos = ShapePos(); // Fetch only once; rotation involves trig
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PAD_SHAPE effectiveShape = GetShape();
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if( GetShape() == PAD_SHAPE::CUSTOM )
effectiveShape = GetAnchorPadShape();
switch( effectiveShape )
{
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case PAD_SHAPE::CIRCLE:
add( new SHAPE_CIRCLE( shapePos, m_size.x / 2 ) );
break;
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case PAD_SHAPE::OVAL:
if( m_size.x == m_size.y ) // the oval pad is in fact a circle
add( new SHAPE_CIRCLE( shapePos, m_size.x / 2 ) );
else
{
wxSize half_size = m_size / 2;
int half_width = std::min( half_size.x, half_size.y );
wxPoint half_len( half_size.x - half_width, half_size.y - half_width );
RotatePoint( &half_len, m_orient );
add( new SHAPE_SEGMENT( shapePos - half_len, shapePos + half_len, half_width * 2 ) );
}
break;
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case PAD_SHAPE::RECT:
case PAD_SHAPE::TRAPEZOID:
case PAD_SHAPE::ROUNDRECT:
{
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int r = ( effectiveShape == PAD_SHAPE::ROUNDRECT ) ? GetRoundRectCornerRadius() : 0;
wxPoint half_size( m_size.x / 2, m_size.y / 2 );
wxSize trap_delta( 0, 0 );
if( r )
{
half_size -= wxPoint( r, r );
// Avoid degenerated shapes (0 length segments) that always create issues
// For roundrect pad very near a circle, use only a circle
const int min_len = Millimeter2iu( 0.0001);
if( half_size.x < min_len && half_size.y < min_len )
{
add( new SHAPE_CIRCLE( shapePos, r ) );
break;
}
}
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else if( effectiveShape == PAD_SHAPE::TRAPEZOID )
{
trap_delta = m_deltaSize / 2;
}
SHAPE_LINE_CHAIN corners;
corners.Append( -half_size.x - trap_delta.y, half_size.y + trap_delta.x );
corners.Append( half_size.x + trap_delta.y, half_size.y - trap_delta.x );
corners.Append( half_size.x - trap_delta.y, -half_size.y + trap_delta.x );
corners.Append( -half_size.x + trap_delta.y, -half_size.y - trap_delta.x );
corners.Rotate( -DECIDEG2RAD( m_orient ) );
corners.Move( shapePos );
// GAL renders rectangles faster than 4-point polygons so it's worth checking if our
// body shape is a rectangle.
if( corners.PointCount() == 4
&&
( ( corners.CPoint( 0 ).y == corners.CPoint( 1 ).y
&& corners.CPoint( 1 ).x == corners.CPoint( 2 ).x
&& corners.CPoint( 2 ).y == corners.CPoint( 3 ).y
&& corners.CPoint( 3 ).x == corners.CPoint( 0 ).x )
||
( corners.CPoint( 0 ).x == corners.CPoint( 1 ).x
&& corners.CPoint( 1 ).y == corners.CPoint( 2 ).y
&& corners.CPoint( 2 ).x == corners.CPoint( 3 ).x
&& corners.CPoint( 3 ).y == corners.CPoint( 0 ).y )
)
)
{
int width = std::abs( corners.CPoint( 2 ).x - corners.CPoint( 0 ).x );
int height = std::abs( corners.CPoint( 2 ).y - corners.CPoint( 0 ).y );
VECTOR2I pos( std::min( corners.CPoint( 2 ).x, corners.CPoint( 0 ).x ),
std::min( corners.CPoint( 2 ).y, corners.CPoint( 0 ).y ) );
add( new SHAPE_RECT( pos, width, height ) );
}
else
{
add( new SHAPE_SIMPLE( corners ) );
}
if( r )
{
add( new SHAPE_SEGMENT( corners.CPoint( 0 ), corners.CPoint( 1 ), r * 2 ) );
add( new SHAPE_SEGMENT( corners.CPoint( 1 ), corners.CPoint( 2 ), r * 2 ) );
add( new SHAPE_SEGMENT( corners.CPoint( 2 ), corners.CPoint( 3 ), r * 2 ) );
add( new SHAPE_SEGMENT( corners.CPoint( 3 ), corners.CPoint( 0 ), r * 2 ) );
}
}
break;
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case PAD_SHAPE::CHAMFERED_RECT:
{
SHAPE_POLY_SET outline;
TransformRoundChamferedRectToPolygon( outline, shapePos, GetSize(), m_orient,
GetRoundRectCornerRadius(), GetChamferRectRatio(),
GetChamferPositions(), maxError, ERROR_INSIDE );
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add( new SHAPE_SIMPLE( outline.COutline( 0 ) ) );
}
break;
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default:
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wxFAIL_MSG( "PAD::buildEffectiveShapes: Unsupported pad shape: "
+ PAD_SHAPE_T_asString( effectiveShape ) );
break;
}
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if( GetShape() == PAD_SHAPE::CUSTOM )
{
for( const std::shared_ptr<PCB_SHAPE>& primitive : m_editPrimitives )
{
for( SHAPE* shape : primitive->MakeEffectiveShapes() )
{
shape->Rotate( -DECIDEG2RAD( m_orient ) );
shape->Move( shapePos );
add( shape );
}
}
}
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BOX2I bbox = m_effectiveShape->BBox();
m_effectiveBoundingBox = EDA_RECT( (wxPoint) bbox.GetPosition(),
wxSize( bbox.GetWidth(), bbox.GetHeight() ) );
// Hole shape
//
wxSize half_size = m_drill / 2;
int half_width = std::min( half_size.x, half_size.y );
wxPoint half_len( half_size.x - half_width, half_size.y - half_width );
RotatePoint( &half_len, m_orient );
m_effectiveHoleShape = std::make_shared<SHAPE_SEGMENT>( m_pos - half_len, m_pos + half_len,
half_width * 2 );
// All done
//
m_shapesDirty = false;
}
void PAD::BuildEffectivePolygon() const
{
std::lock_guard<std::mutex> RAII_lock( m_polyBuildingLock );
// If we had to wait for the lock then we were probably waiting for someone else to
// finish rebuilding the shapes. So check to see if they're clean now.
if( !m_polyDirty )
return;
BOARD* board = GetBoard();
int maxError = board ? board->GetDesignSettings().m_MaxError : ARC_HIGH_DEF;
// Polygon
//
m_effectivePolygon = std::make_shared<SHAPE_POLY_SET>();
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TransformShapeWithClearanceToPolygon( *m_effectivePolygon, UNDEFINED_LAYER, 0, maxError,
ERROR_INSIDE );
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// Bounding radius
//
// PADSTACKS TODO: these will both need to cycle through all layers to get the largest
// values....
//
m_effectiveBoundingRadius = 0;
for( int cnt = 0; cnt < m_effectivePolygon->OutlineCount(); ++cnt )
{
const SHAPE_LINE_CHAIN& poly = m_effectivePolygon->COutline( cnt );
for( int ii = 0; ii < poly.PointCount(); ++ii )
{
int dist = KiROUND( ( poly.CPoint( ii ) - m_pos ).EuclideanNorm() );
m_effectiveBoundingRadius = std::max( m_effectiveBoundingRadius, dist );
}
}
// All done
//
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m_polyDirty = false;
}
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const EDA_RECT PAD::GetBoundingBox() const
{
if( m_shapesDirty )
BuildEffectiveShapes( UNDEFINED_LAYER );
return m_effectiveBoundingBox;
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}
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void PAD::SetDrawCoord()
{
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FOOTPRINT* parentFootprint = static_cast<FOOTPRINT*>( m_parent );
m_pos = m_pos0;
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if( parentFootprint == NULL )
return;
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double angle = parentFootprint->GetOrientation();
RotatePoint( &m_pos.x, &m_pos.y, angle );
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m_pos += parentFootprint->GetPosition();
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SetDirty();
}
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void PAD::SetLocalCoord()
{
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FOOTPRINT* parentFootprint = static_cast<FOOTPRINT*>( m_parent );
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if( parentFootprint == NULL )
{
m_pos0 = m_pos;
return;
}
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m_pos0 = m_pos - parentFootprint->GetPosition();
RotatePoint( &m_pos0.x, &m_pos0.y, -parentFootprint->GetOrientation() );
}
void PAD::SetAttribute( PAD_ATTRIB aAttribute )
{
m_attribute = aAttribute;
if( aAttribute == PAD_ATTRIB::SMD )
m_drill = wxSize( 0, 0 );
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SetDirty();
}
void PAD::SetProperty( PAD_PROP aProperty )
{
m_property = aProperty;
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SetDirty();
}
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void PAD::SetOrientation( double aAngle )
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{
NORMALIZE_ANGLE_POS( aAngle );
m_orient = aAngle;
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SetDirty();
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}
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void PAD::Flip( const wxPoint& aCentre, bool aFlipLeftRight )
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{
if( aFlipLeftRight )
{
MIRROR( m_pos.x, aCentre.x );
MIRROR( m_pos0.x, 0 );
MIRROR( m_offset.x, 0 );
MIRROR( m_deltaSize.x, 0 );
}
else
{
MIRROR( m_pos.y, aCentre.y );
MIRROR( m_pos0.y, 0 );
MIRROR( m_offset.y, 0 );
MIRROR( m_deltaSize.y, 0 );
}
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SetOrientation( -GetOrientation() );
auto mirrorBitFlags = []( int& aBitfield, int a, int b )
{
bool temp = aBitfield & a;
if( aBitfield & b )
aBitfield |= a;
else
aBitfield &= ~a;
if( temp )
aBitfield |= b;
else
aBitfield &= ~b;
};
if( aFlipLeftRight )
{
mirrorBitFlags( m_chamferPositions, RECT_CHAMFER_TOP_LEFT, RECT_CHAMFER_TOP_RIGHT );
mirrorBitFlags( m_chamferPositions, RECT_CHAMFER_BOTTOM_LEFT, RECT_CHAMFER_BOTTOM_RIGHT );
}
else
{
mirrorBitFlags( m_chamferPositions, RECT_CHAMFER_TOP_LEFT, RECT_CHAMFER_BOTTOM_LEFT );
mirrorBitFlags( m_chamferPositions, RECT_CHAMFER_TOP_RIGHT, RECT_CHAMFER_BOTTOM_RIGHT );
}
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// flip pads layers
// PADS items are currently on all copper layers, or
// currently, only on Front or Back layers.
// So the copper layers count is not taken in account
SetLayerSet( FlipLayerMask( m_layerMask ) );
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// Flip the basic shapes, in custom pads
FlipPrimitives( aFlipLeftRight );
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SetDirty();
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}
// Flip (mirror) the basic shapes (primitives), in custom pads
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void PAD::FlipPrimitives( bool aFlipLeftRight )
{
for( std::shared_ptr<PCB_SHAPE>& primitive : m_editPrimitives )
primitive->Flip( wxPoint( 0, 0 ), aFlipLeftRight );
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SetDirty();
}
// Returns the position of the pad.
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wxPoint PAD::ShapePos() const
{
if( m_offset.x == 0 && m_offset.y == 0 )
return m_pos;
wxPoint loc_offset = m_offset;
RotatePoint( &loc_offset, m_orient );
wxPoint shape_pos = m_pos + loc_offset;
return shape_pos;
}
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int PAD::GetLocalClearanceOverrides( wxString* aSource ) const
{
// A pad can have specific clearance that overrides its NETCLASS clearance value
if( GetLocalClearance() )
return GetLocalClearance( aSource );
// A footprint can have a specific clearance value
if( GetParent() && GetParent()->GetLocalClearance() )
return GetParent()->GetLocalClearance( aSource );
return 0;
}
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int PAD::GetLocalClearance( wxString* aSource ) const
{
if( aSource )
*aSource = wxString::Format( _( "pad %s" ), GetName() );
return m_localClearance;
}
// Mask margins handling:
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int PAD::GetSolderMaskMargin() const
{
// The pad inherits the margin only to calculate a default shape,
// therefore only if it is also a copper layer
// Pads defined only on mask layers (and perhaps on other tech layers) use the shape
// defined by the pad settings only
bool isOnCopperLayer = ( m_layerMask & LSET::AllCuMask() ).any();
if( !isOnCopperLayer )
return 0;
int margin = m_localSolderMaskMargin;
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FOOTPRINT* parentFootprint = GetParent();
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if( parentFootprint )
{
if( margin == 0 )
{
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if( parentFootprint->GetLocalSolderMaskMargin() )
margin = parentFootprint->GetLocalSolderMaskMargin();
}
if( margin == 0 )
{
BOARD* brd = GetBoard();
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if( brd )
2019-01-18 03:17:34 +00:00
margin = brd->GetDesignSettings().m_SolderMaskMargin;
}
}
// ensure mask have a size always >= 0
if( margin < 0 )
{
int minsize = -std::min( m_size.x, m_size.y ) / 2;
if( margin < minsize )
margin = minsize;
}
return margin;
}
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wxSize PAD::GetSolderPasteMargin() const
{
// The pad inherits the margin only to calculate a default shape,
// therefore only if it is also a copper layer.
// Pads defined only on mask layers (and perhaps on other tech layers) use the shape
// defined by the pad settings only
bool isOnCopperLayer = ( m_layerMask & LSET::AllCuMask() ).any();
if( !isOnCopperLayer )
return wxSize( 0, 0 );
int margin = m_localSolderPasteMargin;
double mratio = m_localSolderPasteMarginRatio;
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FOOTPRINT* parentFootprint = GetParent();
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if( parentFootprint )
{
if( margin == 0 )
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margin = parentFootprint->GetLocalSolderPasteMargin();
auto brd = GetBoard();
if( margin == 0 && brd )
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margin = brd->GetDesignSettings().m_SolderPasteMargin;
if( mratio == 0.0 )
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mratio = parentFootprint->GetLocalSolderPasteMarginRatio();
if( mratio == 0.0 && brd )
{
mratio = brd->GetDesignSettings().m_SolderPasteMarginRatio;
}
}
wxSize pad_margin;
pad_margin.x = margin + KiROUND( m_size.x * mratio );
pad_margin.y = margin + KiROUND( m_size.y * mratio );
// ensure mask have a size always >= 0
if( pad_margin.x < -m_size.x / 2 )
pad_margin.x = -m_size.x / 2;
if( pad_margin.y < -m_size.y / 2 )
pad_margin.y = -m_size.y / 2;
return pad_margin;
}
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ZONE_CONNECTION PAD::GetEffectiveZoneConnection( wxString* aSource ) const
{
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FOOTPRINT* parentFootprint = GetParent();
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if( m_zoneConnection == ZONE_CONNECTION::INHERITED && parentFootprint )
{
if( aSource )
*aSource = _( "parent footprint" );
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return parentFootprint->GetZoneConnection();
}
else
{
if( aSource )
*aSource = _( "pad" );
return m_zoneConnection;
}
}
2020-11-12 22:30:02 +00:00
int PAD::GetEffectiveThermalSpokeWidth( wxString* aSource ) const
{
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FOOTPRINT* parentFootprint = GetParent();
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if( m_thermalWidth == 0 && parentFootprint )
{
if( aSource )
*aSource = _( "parent footprint" );
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return parentFootprint->GetThermalWidth();
}
if( aSource )
*aSource = _( "pad" );
return m_thermalWidth;
}
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int PAD::GetEffectiveThermalGap( wxString* aSource ) const
{
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FOOTPRINT* parentFootprint = GetParent();
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if( m_thermalGap == 0 && parentFootprint )
{
if( aSource )
*aSource = _( "parent footprint" );
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return parentFootprint->GetThermalGap();
}
if( aSource )
*aSource = _( "pad" );
return m_thermalGap;
}
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void PAD::GetMsgPanelInfo( EDA_DRAW_FRAME* aFrame, std::vector<MSG_PANEL_ITEM>& aList )
{
EDA_UNITS units = aFrame->GetUserUnits();
wxString msg;
FOOTPRINT* parentFootprint = static_cast<FOOTPRINT*>( m_parent );
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if( parentFootprint )
aList.emplace_back( _( "Footprint" ), parentFootprint->GetReference() );
aList.emplace_back( _( "Pad" ), m_name );
if( !GetPinFunction().IsEmpty() )
aList.emplace_back( _( "Pin Name" ), GetPinFunction() );
if( !GetPinType().IsEmpty() )
aList.emplace_back( _( "Pin Type" ), GetPinType() );
aList.emplace_back( _( "Net" ), UnescapeString( GetNetname() ) );
aList.emplace_back( _( "NetClass" ), UnescapeString( GetNetClass()->GetName() ) );
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if( IsLocked() )
aList.emplace_back( _( "Status" ), _( "Locked" ) );
if( GetAttribute() == PAD_ATTRIB::SMD || GetAttribute() == PAD_ATTRIB::CONN )
aList.emplace_back( _( "Layer" ), layerMaskDescribe() );
// Show the pad shape, attribute and property
wxString props = ShowPadAttr();
if( GetProperty() != PAD_PROP::NONE )
props += ',';
switch( GetProperty() )
{
case PAD_PROP::NONE: break;
case PAD_PROP::BGA: props += _("BGA" ); break;
case PAD_PROP::FIDUCIAL_GLBL: props += _("Fiducial global" ); break;
case PAD_PROP::FIDUCIAL_LOCAL: props += _("Fiducial local" ); break;
case PAD_PROP::TESTPOINT: props += _("Test point" ); break;
case PAD_PROP::HEATSINK: props += _("Heat sink" ); break;
case PAD_PROP::CASTELLATED: props += _("Castellated" ); break;
}
aList.emplace_back( ShowPadShape(), props );
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if( ( GetShape() == PAD_SHAPE::CIRCLE || GetShape() == PAD_SHAPE::OVAL ) && m_size.x == m_size.y )
{
aList.emplace_back( _( "Diameter" ), MessageTextFromValue( units, m_size.x ) );
}
else
{
aList.emplace_back( _( "Width" ), MessageTextFromValue( units, m_size.x ) );
aList.emplace_back( _( "Height" ), MessageTextFromValue( units, m_size.y ) );
}
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double fp_orient_degrees = parentFootprint ? parentFootprint->GetOrientationDegrees() : 0;
double pad_orient_degrees = GetOrientationDegrees() - fp_orient_degrees;
pad_orient_degrees = NormalizeAngleDegrees( pad_orient_degrees, -180.0, +180.0 );
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if( fp_orient_degrees != 0.0 )
msg.Printf( wxT( "%g(+ %g)" ), pad_orient_degrees, fp_orient_degrees );
else
msg.Printf( wxT( "%g" ), GetOrientationDegrees() );
aList.emplace_back( _( "Rotation" ), msg );
if( GetPadToDieLength() )
{
msg = MessageTextFromValue(units, GetPadToDieLength() );
aList.emplace_back( _( "Length in Package" ), msg );
}
if( m_drill.x > 0 || m_drill.y > 0 )
{
if( GetDrillShape() == PAD_DRILL_SHAPE_CIRCLE )
{
aList.emplace_back( _( "Hole" ),
wxString::Format( "%s",
MessageTextFromValue( units, m_drill.x ) ) );
}
else
{
aList.emplace_back( _( "Hole X / Y" ),
wxString::Format( "%s / %s",
MessageTextFromValue( units, m_drill.x ),
MessageTextFromValue( units, m_drill.y ) ) );
}
}
wxString source;
int clearance = GetOwnClearance( GetLayer(), &source );
aList.emplace_back( wxString::Format( _( "Min Clearance: %s" ),
MessageTextFromValue( units, clearance ) ),
wxString::Format( _( "(from %s)" ), source ) );
#if 0
// useful for debug only
aList.emplace_back( "UUID", m_Uuid.AsString() );
#endif
}
2007-08-08 03:50:44 +00:00
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bool PAD::HitTest( const wxPoint& aPosition, int aAccuracy ) const
2007-08-08 03:50:44 +00:00
{
VECTOR2I delta = aPosition - GetPosition();
int boundingRadius = GetBoundingRadius() + aAccuracy;
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if( delta.SquaredEuclideanNorm() > SEG::Square( boundingRadius ) )
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return false;
return GetEffectivePolygon()->Contains( aPosition, -1, aAccuracy );
2007-08-08 03:50:44 +00:00
}
2017-05-10 09:40:49 +00:00
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bool PAD::HitTest( const EDA_RECT& aRect, bool aContained, int aAccuracy ) const
2017-04-22 06:49:15 +00:00
{
auto getArea = []( const SHAPE_POLY_SET& aPoly ) -> double
{
return aPoly.OutlineCount() ? aPoly.COutline( 0 ).Area() : 0;
};
2017-04-22 06:49:15 +00:00
EDA_RECT arect = aRect;
arect.Normalize();
arect.Inflate( aAccuracy );
EDA_RECT bbox = GetBoundingBox();
2017-04-22 06:49:15 +00:00
if( !arect.Intersects( bbox ) )
return false;
// This covers total containment for all test cases
if( arect.Contains( bbox ) )
return true;
2017-04-22 06:49:15 +00:00
SHAPE_POLY_SET selRect;
selRect.NewOutline();
selRect.Append( arect.GetOrigin() );
selRect.Append( VECTOR2I( arect.GetRight(), arect.GetTop() ) );
selRect.Append( VECTOR2I( arect.GetRight(), arect.GetBottom() ) );
selRect.Append( VECTOR2I( arect.GetLeft(), arect.GetBottom() ) );
2017-04-26 09:05:44 +00:00
selRect.BooleanIntersection( *GetEffectivePolygon(), SHAPE_POLY_SET::PM_FAST );
2017-04-26 09:05:44 +00:00
double padArea = getArea( *GetEffectivePolygon() );
double intersection = getArea( selRect );
2017-04-26 09:05:44 +00:00
if( intersection > ( padArea * 0.99 ) )
return true;
else
return !aContained && intersection > 0;
2017-04-22 06:49:15 +00:00
}
2007-08-08 03:50:44 +00:00
2020-11-12 22:30:02 +00:00
int PAD::Compare( const PAD* padref, const PAD* padcmp )
2008-01-24 21:50:12 +00:00
{
int diff;
2008-01-24 21:50:12 +00:00
2021-05-01 12:22:35 +00:00
if( ( diff = static_cast<int>( padref->GetShape() ) - static_cast<int>( padcmp->GetShape() ) ) != 0 )
2008-01-24 21:50:12 +00:00
return diff;
if( ( diff = padref->GetDrillShape() - padcmp->GetDrillShape() ) != 0)
2008-01-24 21:50:12 +00:00
return diff;
if( ( diff = padref->m_drill.x - padcmp->m_drill.x ) != 0 )
2008-01-24 21:50:12 +00:00
return diff;
if( ( diff = padref->m_drill.y - padcmp->m_drill.y ) != 0 )
2008-01-24 21:50:12 +00:00
return diff;
if( ( diff = padref->m_size.x - padcmp->m_size.x ) != 0 )
2008-01-24 21:50:12 +00:00
return diff;
if( ( diff = padref->m_size.y - padcmp->m_size.y ) != 0 )
2008-01-24 21:50:12 +00:00
return diff;
if( ( diff = padref->m_offset.x - padcmp->m_offset.x ) != 0 )
2011-12-02 15:09:57 +00:00
return diff;
if( ( diff = padref->m_offset.y - padcmp->m_offset.y ) != 0 )
2011-12-02 15:09:57 +00:00
return diff;
if( ( diff = padref->m_deltaSize.x - padcmp->m_deltaSize.x ) != 0 )
2011-12-02 15:09:57 +00:00
return diff;
if( ( diff = padref->m_deltaSize.y - padcmp->m_deltaSize.y ) != 0 )
2008-01-24 21:50:12 +00:00
return diff;
2016-04-06 18:15:49 +00:00
// TODO: test custom shapes
2011-12-02 16:55:31 +00:00
// Dick: specctra_export needs this
// Lorenzo: gencad also needs it to implement padstacks!
#if __cplusplus >= 201103L
long long d = padref->m_layerMask.to_ullong() - padcmp->m_layerMask.to_ullong();
if( d < 0 )
return -1;
else if( d > 0 )
return 1;
2008-01-24 21:50:12 +00:00
return 0;
#else
// these strings are not typically constructed, since we don't get here often.
std::string s1 = padref->m_layerMask.to_string();
std::string s2 = padcmp->m_layerMask.to_string();
return s1.compare( s2 );
#endif
2008-01-24 21:50:12 +00:00
}
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void PAD::Rotate( const wxPoint& aRotCentre, double aAngle )
2014-07-09 11:50:27 +00:00
{
RotatePoint( &m_pos, aRotCentre, aAngle );
m_orient = NormalizeAngle360Min( m_orient + aAngle );
SetLocalCoord();
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SetDirty();
2014-07-09 11:50:27 +00:00
}
2020-11-12 22:30:02 +00:00
wxString PAD::ShowPadShape() const
2008-01-24 21:50:12 +00:00
{
switch( GetShape() )
2008-01-24 21:50:12 +00:00
{
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case PAD_SHAPE::CIRCLE: return _( "Circle" );
case PAD_SHAPE::OVAL: return _( "Oval" );
case PAD_SHAPE::RECT: return _( "Rect" );
case PAD_SHAPE::TRAPEZOID: return _( "Trap" );
case PAD_SHAPE::ROUNDRECT: return _( "Roundrect" );
case PAD_SHAPE::CHAMFERED_RECT: return _( "Chamferedrect" );
case PAD_SHAPE::CUSTOM: return _( "CustomShape" );
default: return wxT( "???" );
2008-01-24 21:50:12 +00:00
}
}
2020-11-12 22:30:02 +00:00
wxString PAD::ShowPadAttr() const
2008-01-24 21:50:12 +00:00
{
2012-02-19 04:02:19 +00:00
switch( GetAttribute() )
2008-01-24 21:50:12 +00:00
{
case PAD_ATTRIB::PTH: return _( "PTH" );
case PAD_ATTRIB::SMD: return _( "SMD" );
case PAD_ATTRIB::CONN: return _( "Conn" );
case PAD_ATTRIB::NPTH: return _( "NPTH" );
2020-09-30 15:38:35 +00:00
default: return wxT( "???" );
2008-01-24 21:50:12 +00:00
}
}
2020-11-12 22:30:02 +00:00
wxString PAD::GetSelectMenuText( EDA_UNITS aUnits ) const
{
if( GetName().IsEmpty() )
{
if( GetAttribute() == PAD_ATTRIB::SMD || GetAttribute() == PAD_ATTRIB::CONN )
{
return wxString::Format( _( "Pad of %s on %s" ),
GetParent()->GetReference(),
layerMaskDescribe() );
}
else
{
return wxString::Format( _( "Through hole pad of %s" ),
GetParent()->GetReference() );
}
}
else
{
if( GetAttribute() == PAD_ATTRIB::SMD || GetAttribute() == PAD_ATTRIB::CONN )
{
return wxString::Format( _( "Pad %s of %s on %s" ),
GetName(),
GetParent()->GetReference(),
layerMaskDescribe() );
}
else
{
return wxString::Format( _( "Through hole pad %s of %s" ),
GetName(),
GetParent()->GetReference() );
}
}
}
BITMAPS PAD::GetMenuImage() const
{
return BITMAPS::pad;
}
2020-11-12 22:30:02 +00:00
EDA_ITEM* PAD::Clone() const
{
2020-11-12 22:30:02 +00:00
return new PAD( *this );
}
2020-11-12 22:30:02 +00:00
void PAD::ViewGetLayers( int aLayers[], int& aCount ) const
Introduction of Graphics Abstraction Layer based rendering for pcbnew. New classes: - VIEW - represents view that is seen by user, takes care of layer ordering & visibility and how it is displayed (which location, how much zoomed, etc.) - VIEW_ITEM - Base class for every item that can be displayed on VIEW (the biggest change is that now it may be necessary to override ViewBBox & ViewGetLayers method for derived classes). - EDA_DRAW_PANEL_GAL - Inherits after EDA_DRAW_PANEL, displays VIEW output, right now it is not editable (in opposite to usual EDA_DRAW_PANEL). - GAL/OPENGL_GAL/CAIRO_GAL - Base Graphics Abstraction Layer class + two different flavours (Cairo is not fully supported yet), that offers methods to draw primitives using different libraries. - WX_VIEW_CONTROLS - Controller for VIEW, handles user events, allows zooming, panning, etc. - PAINTER/PCB_PAINTER - Classes that uses GAL interface to draw items (as you may have already guessed - PCB_PAINTER is a class for drawing PCB specific object, PAINTER is an abstract class). Its methods are invoked by VIEW, when an item has to be drawn. To display a new type of item - you need to implement draw(ITEM_TYPE*) method that draws it using GAL methods. - STROKE_FONT - Implements stroke font drawing using GAL methods. Most important changes to Kicad original code: * EDA_ITEM now inherits from VIEW_ITEM, which is a base class for all drawable objects. * EDA_DRAW_FRAME contains both usual EDA_DRAW_PANEL and new EDA_DRAW_PANEL_GAL, that can be switched anytime. * There are some new layers for displaying multilayer pads, vias & pads holes (these are not shown yet on the right sidebar in pcbnew) * Display order of layers is different than in previous versions (if you are curious - you may check m_galLayerOrder@pcbnew/basepcbframe.cpp). Preserving usual order would result in not very natural display, such as showing silkscreen texts on the bottom. * Introduced new hotkey (Alt+F12) and new menu option (View->Switch canvas) for switching canvas during runtime. * Some of classes (mostly derived from BOARD_ITEM) now includes ViewBBox & ViewGetLayers methods. * Removed tools/class_painter.h, as now it is extended and included in source code. Build changes: * GAL-based rendering option is turned on by a new compilation CMake option KICAD_GAL. * When compiling with CMake option KICAD_GAL=ON, GLEW and Cairo libraries are required. * GAL-related code is compiled into a static library (common/libgal). * Build with KICAD_GAL=OFF should not need any new libraries and should come out as a standard version of Kicad Currently most of items in pcbnew can be displayed using OpenGL (to be done are DIMENSIONS and MARKERS). More details about GAL can be found in: http://www.ohwr.org/attachments/1884/view-spec.pdf
2013-04-02 06:54:03 +00:00
{
2013-07-08 09:30:50 +00:00
aCount = 0;
// These 2 types of pads contain a hole
if( m_attribute == PAD_ATTRIB::PTH )
{
aLayers[aCount++] = LAYER_PAD_PLATEDHOLES;
aLayers[aCount++] = LAYER_PAD_HOLEWALLS;
}
if( m_attribute == PAD_ATTRIB::NPTH )
aLayers[aCount++] = LAYER_NON_PLATEDHOLES;
2013-07-26 16:15:11 +00:00
if( IsOnLayer( F_Cu ) && IsOnLayer( B_Cu ) )
Introduction of Graphics Abstraction Layer based rendering for pcbnew. New classes: - VIEW - represents view that is seen by user, takes care of layer ordering & visibility and how it is displayed (which location, how much zoomed, etc.) - VIEW_ITEM - Base class for every item that can be displayed on VIEW (the biggest change is that now it may be necessary to override ViewBBox & ViewGetLayers method for derived classes). - EDA_DRAW_PANEL_GAL - Inherits after EDA_DRAW_PANEL, displays VIEW output, right now it is not editable (in opposite to usual EDA_DRAW_PANEL). - GAL/OPENGL_GAL/CAIRO_GAL - Base Graphics Abstraction Layer class + two different flavours (Cairo is not fully supported yet), that offers methods to draw primitives using different libraries. - WX_VIEW_CONTROLS - Controller for VIEW, handles user events, allows zooming, panning, etc. - PAINTER/PCB_PAINTER - Classes that uses GAL interface to draw items (as you may have already guessed - PCB_PAINTER is a class for drawing PCB specific object, PAINTER is an abstract class). Its methods are invoked by VIEW, when an item has to be drawn. To display a new type of item - you need to implement draw(ITEM_TYPE*) method that draws it using GAL methods. - STROKE_FONT - Implements stroke font drawing using GAL methods. Most important changes to Kicad original code: * EDA_ITEM now inherits from VIEW_ITEM, which is a base class for all drawable objects. * EDA_DRAW_FRAME contains both usual EDA_DRAW_PANEL and new EDA_DRAW_PANEL_GAL, that can be switched anytime. * There are some new layers for displaying multilayer pads, vias & pads holes (these are not shown yet on the right sidebar in pcbnew) * Display order of layers is different than in previous versions (if you are curious - you may check m_galLayerOrder@pcbnew/basepcbframe.cpp). Preserving usual order would result in not very natural display, such as showing silkscreen texts on the bottom. * Introduced new hotkey (Alt+F12) and new menu option (View->Switch canvas) for switching canvas during runtime. * Some of classes (mostly derived from BOARD_ITEM) now includes ViewBBox & ViewGetLayers methods. * Removed tools/class_painter.h, as now it is extended and included in source code. Build changes: * GAL-based rendering option is turned on by a new compilation CMake option KICAD_GAL. * When compiling with CMake option KICAD_GAL=ON, GLEW and Cairo libraries are required. * GAL-related code is compiled into a static library (common/libgal). * Build with KICAD_GAL=OFF should not need any new libraries and should come out as a standard version of Kicad Currently most of items in pcbnew can be displayed using OpenGL (to be done are DIMENSIONS and MARKERS). More details about GAL can be found in: http://www.ohwr.org/attachments/1884/view-spec.pdf
2013-04-02 06:54:03 +00:00
{
// Multi layer pad
aLayers[aCount++] = LAYER_PADS_TH;
aLayers[aCount++] = LAYER_PAD_NETNAMES;
Introduction of Graphics Abstraction Layer based rendering for pcbnew. New classes: - VIEW - represents view that is seen by user, takes care of layer ordering & visibility and how it is displayed (which location, how much zoomed, etc.) - VIEW_ITEM - Base class for every item that can be displayed on VIEW (the biggest change is that now it may be necessary to override ViewBBox & ViewGetLayers method for derived classes). - EDA_DRAW_PANEL_GAL - Inherits after EDA_DRAW_PANEL, displays VIEW output, right now it is not editable (in opposite to usual EDA_DRAW_PANEL). - GAL/OPENGL_GAL/CAIRO_GAL - Base Graphics Abstraction Layer class + two different flavours (Cairo is not fully supported yet), that offers methods to draw primitives using different libraries. - WX_VIEW_CONTROLS - Controller for VIEW, handles user events, allows zooming, panning, etc. - PAINTER/PCB_PAINTER - Classes that uses GAL interface to draw items (as you may have already guessed - PCB_PAINTER is a class for drawing PCB specific object, PAINTER is an abstract class). Its methods are invoked by VIEW, when an item has to be drawn. To display a new type of item - you need to implement draw(ITEM_TYPE*) method that draws it using GAL methods. - STROKE_FONT - Implements stroke font drawing using GAL methods. Most important changes to Kicad original code: * EDA_ITEM now inherits from VIEW_ITEM, which is a base class for all drawable objects. * EDA_DRAW_FRAME contains both usual EDA_DRAW_PANEL and new EDA_DRAW_PANEL_GAL, that can be switched anytime. * There are some new layers for displaying multilayer pads, vias & pads holes (these are not shown yet on the right sidebar in pcbnew) * Display order of layers is different than in previous versions (if you are curious - you may check m_galLayerOrder@pcbnew/basepcbframe.cpp). Preserving usual order would result in not very natural display, such as showing silkscreen texts on the bottom. * Introduced new hotkey (Alt+F12) and new menu option (View->Switch canvas) for switching canvas during runtime. * Some of classes (mostly derived from BOARD_ITEM) now includes ViewBBox & ViewGetLayers methods. * Removed tools/class_painter.h, as now it is extended and included in source code. Build changes: * GAL-based rendering option is turned on by a new compilation CMake option KICAD_GAL. * When compiling with CMake option KICAD_GAL=ON, GLEW and Cairo libraries are required. * GAL-related code is compiled into a static library (common/libgal). * Build with KICAD_GAL=OFF should not need any new libraries and should come out as a standard version of Kicad Currently most of items in pcbnew can be displayed using OpenGL (to be done are DIMENSIONS and MARKERS). More details about GAL can be found in: http://www.ohwr.org/attachments/1884/view-spec.pdf
2013-04-02 06:54:03 +00:00
}
else if( IsOnLayer( F_Cu ) )
Introduction of Graphics Abstraction Layer based rendering for pcbnew. New classes: - VIEW - represents view that is seen by user, takes care of layer ordering & visibility and how it is displayed (which location, how much zoomed, etc.) - VIEW_ITEM - Base class for every item that can be displayed on VIEW (the biggest change is that now it may be necessary to override ViewBBox & ViewGetLayers method for derived classes). - EDA_DRAW_PANEL_GAL - Inherits after EDA_DRAW_PANEL, displays VIEW output, right now it is not editable (in opposite to usual EDA_DRAW_PANEL). - GAL/OPENGL_GAL/CAIRO_GAL - Base Graphics Abstraction Layer class + two different flavours (Cairo is not fully supported yet), that offers methods to draw primitives using different libraries. - WX_VIEW_CONTROLS - Controller for VIEW, handles user events, allows zooming, panning, etc. - PAINTER/PCB_PAINTER - Classes that uses GAL interface to draw items (as you may have already guessed - PCB_PAINTER is a class for drawing PCB specific object, PAINTER is an abstract class). Its methods are invoked by VIEW, when an item has to be drawn. To display a new type of item - you need to implement draw(ITEM_TYPE*) method that draws it using GAL methods. - STROKE_FONT - Implements stroke font drawing using GAL methods. Most important changes to Kicad original code: * EDA_ITEM now inherits from VIEW_ITEM, which is a base class for all drawable objects. * EDA_DRAW_FRAME contains both usual EDA_DRAW_PANEL and new EDA_DRAW_PANEL_GAL, that can be switched anytime. * There are some new layers for displaying multilayer pads, vias & pads holes (these are not shown yet on the right sidebar in pcbnew) * Display order of layers is different than in previous versions (if you are curious - you may check m_galLayerOrder@pcbnew/basepcbframe.cpp). Preserving usual order would result in not very natural display, such as showing silkscreen texts on the bottom. * Introduced new hotkey (Alt+F12) and new menu option (View->Switch canvas) for switching canvas during runtime. * Some of classes (mostly derived from BOARD_ITEM) now includes ViewBBox & ViewGetLayers methods. * Removed tools/class_painter.h, as now it is extended and included in source code. Build changes: * GAL-based rendering option is turned on by a new compilation CMake option KICAD_GAL. * When compiling with CMake option KICAD_GAL=ON, GLEW and Cairo libraries are required. * GAL-related code is compiled into a static library (common/libgal). * Build with KICAD_GAL=OFF should not need any new libraries and should come out as a standard version of Kicad Currently most of items in pcbnew can be displayed using OpenGL (to be done are DIMENSIONS and MARKERS). More details about GAL can be found in: http://www.ohwr.org/attachments/1884/view-spec.pdf
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{
aLayers[aCount++] = LAYER_PAD_FR;
// Is this a PTH pad that has only front copper? If so, we need to also display the
// net name on the PTH netname layer so that it isn't blocked by the drill hole.
if( m_attribute == PAD_ATTRIB::PTH )
aLayers[aCount++] = LAYER_PAD_NETNAMES;
else
aLayers[aCount++] = LAYER_PAD_FR_NETNAMES;
}
else if( IsOnLayer( B_Cu ) )
{
aLayers[aCount++] = LAYER_PAD_BK;
// Is this a PTH pad that has only back copper? If so, we need to also display the
// net name on the PTH netname layer so that it isn't blocked by the drill hole.
if( m_attribute == PAD_ATTRIB::PTH )
aLayers[aCount++] = LAYER_PAD_NETNAMES;
else
aLayers[aCount++] = LAYER_PAD_BK_NETNAMES;
}
else
{
// Internal layers only. (Not yet supported in GUI, but is being used by Python
// footprint generators and will be needed anyway once pad stacks are supported.)
for ( int internal = In1_Cu; internal < In30_Cu; ++internal )
{
if( IsOnLayer( (PCB_LAYER_ID) internal ) )
aLayers[aCount++] = internal;
}
}
// Check non-copper layers. This list should include all the layers that the
// footprint editor allows a pad to be placed on.
static const PCB_LAYER_ID layers_mech[] = { F_Mask, B_Mask, F_Paste, B_Paste,
F_Adhes, B_Adhes, F_SilkS, B_SilkS, Dwgs_User, Eco1_User, Eco2_User };
for( PCB_LAYER_ID each_layer : layers_mech )
{
if( IsOnLayer( each_layer ) )
aLayers[aCount++] = each_layer;
}
#ifdef __WXDEBUG__
if( aCount == 0 ) // Should not occur
{
wxString msg;
msg.Printf( wxT( "footprint %s, pad %s: could not find valid layer for pad" ),
GetParent() ? GetParent()->GetReference() : "<null>",
GetName().IsEmpty() ? "(unnamed)" : GetName() );
wxLogWarning( msg );
}
#endif
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}
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double PAD::ViewGetLOD( int aLayer, KIGFX::VIEW* aView ) const
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{
constexpr double HIDE = std::numeric_limits<double>::max();
PCB_PAINTER* painter = static_cast<PCB_PAINTER*>( aView->GetPainter() );
PCB_RENDER_SETTINGS* renderSettings = painter->GetSettings();
BOARD* board = GetBoard();
LSET visible = LSET::AllLayersMask();
// Meta control for hiding all pads
if( !aView->IsLayerVisible( LAYER_PADS ) )
return HIDE;
// Handle board visibility (unless printing)
if( board && !aView->GetPrintMode() )
visible = board->GetVisibleLayers() & board->GetEnabledLayers();
// Handle Render tab switches
if( ( GetAttribute() == PAD_ATTRIB::PTH || GetAttribute() == PAD_ATTRIB::NPTH )
&& !aView->IsLayerVisible( LAYER_PADS_TH ) )
{
return HIDE;
}
if( !IsFlipped() && !aView->IsLayerVisible( LAYER_MOD_FR ) )
return HIDE;
if( IsFlipped() && !aView->IsLayerVisible( LAYER_MOD_BK ) )
return HIDE;
if( IsFrontLayer( (PCB_LAYER_ID) aLayer ) && !aView->IsLayerVisible( LAYER_PAD_FR ) )
return HIDE;
if( IsBackLayer( (PCB_LAYER_ID) aLayer ) && !aView->IsLayerVisible( LAYER_PAD_BK ) )
return HIDE;
if( aLayer == LAYER_PADS_TH )
{
if( !FlashLayer( visible ) )
return HIDE;
}
else if( IsHoleLayer( aLayer ) )
{
if( !( visible & LSET::PhysicalLayersMask() ).any() )
return HIDE;
}
else if( IsNetnameLayer( aLayer ) )
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{
if( renderSettings->GetHighContrast() )
{
// Hide netnames unless pad is flashed to a high-contrast layer
if( !FlashLayer( renderSettings->GetPrimaryHighContrastLayer() ) )
return HIDE;
}
else
{
// Hide netnames unless pad is flashed to a visible layer
if( !FlashLayer( visible ) )
return HIDE;
}
// Netnames will be shown only if zoom is appropriate
int divisor = std::min( GetBoundingBox().GetWidth(), GetBoundingBox().GetHeight() );
// Pad sizes can be zero briefly when someone is typing a number like "0.5"
// in the pad properties dialog
if( divisor == 0 )
return HIDE;
return ( double ) Millimeter2iu( 5 ) / divisor;
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}
if( aLayer == LAYER_PADS_TH
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&& GetShape() != PAD_SHAPE::CUSTOM
&& GetSizeX() <= GetDrillSizeX()
&& GetSizeY() <= GetDrillSizeY() )
{
// Don't tweak the drawing code with a degenerate pad
return HIDE;
}
// Passed all tests; show.
return 0.0;
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}
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const BOX2I PAD::ViewBBox() const
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{
// Bounding box includes soldermask too. Remember mask and/or paste
// margins can be < 0
int solderMaskMargin = std::max( GetSolderMaskMargin(), 0 );
VECTOR2I solderPasteMargin = VECTOR2D( GetSolderPasteMargin() );
EDA_RECT bbox = GetBoundingBox();
// get the biggest possible clearance
int clearance = 0;
for( PCB_LAYER_ID layer : GetLayerSet().Seq() )
clearance = std::max( clearance, GetOwnClearance( layer ) );
// Look for the biggest possible bounding box
int xMargin = std::max( solderMaskMargin, solderPasteMargin.x ) + clearance;
int yMargin = std::max( solderMaskMargin, solderPasteMargin.y ) + clearance;
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return BOX2I( VECTOR2I( bbox.GetOrigin() ) - VECTOR2I( xMargin, yMargin ),
VECTOR2I( bbox.GetSize() ) + VECTOR2I( 2 * xMargin, 2 * yMargin ) );
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}
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FOOTPRINT* PAD::GetParent() const
{
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return dynamic_cast<FOOTPRINT*>( m_parent );
}
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void PAD::ImportSettingsFrom( const PAD& aMasterPad )
{
SetShape( aMasterPad.GetShape() );
SetLayerSet( aMasterPad.GetLayerSet() );
SetAttribute( aMasterPad.GetAttribute() );
SetProperty( aMasterPad.GetProperty() );
// I am not sure the m_LengthPadToDie must be imported, because this is
// a parameter really specific to a given pad (JPC).
// So this is currently non imported
#if 0
SetPadToDieLength( aMasterPad.GetPadToDieLength() );
#endif
// The pad orientation, for historical reasons is the
// pad rotation + parent rotation.
// So we have to manage this parent rotation
double pad_rot = aMasterPad.GetOrientation();
if( aMasterPad.GetParent() )
pad_rot -= aMasterPad.GetParent()->GetOrientation();
if( GetParent() )
pad_rot += GetParent()->GetOrientation();
SetOrientation( pad_rot );
SetSize( aMasterPad.GetSize() );
SetDelta( wxSize( 0, 0 ) );
SetOffset( aMasterPad.GetOffset() );
SetDrillSize( aMasterPad.GetDrillSize() );
SetDrillShape( aMasterPad.GetDrillShape() );
SetRoundRectRadiusRatio( aMasterPad.GetRoundRectRadiusRatio() );
SetChamferRectRatio( aMasterPad.GetChamferRectRatio() );
SetChamferPositions( aMasterPad.GetChamferPositions() );
switch( aMasterPad.GetShape() )
{
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case PAD_SHAPE::TRAPEZOID:
SetDelta( aMasterPad.GetDelta() );
break;
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case PAD_SHAPE::CIRCLE:
// ensure size.y == size.x
SetSize( wxSize( GetSize().x, GetSize().x ) );
break;
default:
;
}
switch( aMasterPad.GetAttribute() )
{
case PAD_ATTRIB::SMD:
case PAD_ATTRIB::CONN:
// These pads do not have hole (they are expected to be only on one
// external copper layer)
SetDrillSize( wxSize( 0, 0 ) );
break;
default:
;
}
// copy also local settings:
SetLocalClearance( aMasterPad.GetLocalClearance() );
SetLocalSolderMaskMargin( aMasterPad.GetLocalSolderMaskMargin() );
SetLocalSolderPasteMargin( aMasterPad.GetLocalSolderPasteMargin() );
SetLocalSolderPasteMarginRatio( aMasterPad.GetLocalSolderPasteMarginRatio() );
SetZoneConnection( aMasterPad.GetEffectiveZoneConnection() );
SetThermalSpokeWidth( aMasterPad.GetThermalSpokeWidth() );
SetThermalGap( aMasterPad.GetThermalGap() );
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SetCustomShapeInZoneOpt( aMasterPad.GetCustomShapeInZoneOpt() );
// Add or remove custom pad shapes:
ReplacePrimitives( aMasterPad.GetPrimitives() );
SetAnchorPadShape( aMasterPad.GetAnchorPadShape() );
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SetDirty();
}
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void PAD::SwapData( BOARD_ITEM* aImage )
{
assert( aImage->Type() == PCB_PAD_T );
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std::swap( *((FOOTPRINT*) this), *((FOOTPRINT*) aImage) );
}
static struct PAD_DESC
{
PAD_DESC()
{
ENUM_MAP<PAD_ATTRIB>::Instance()
.Map( PAD_ATTRIB::PTH, _HKI( "Through-hole" ) )
.Map( PAD_ATTRIB::SMD, _HKI( "SMD" ) )
.Map( PAD_ATTRIB::CONN, _HKI( "Edge connector" ) )
.Map( PAD_ATTRIB::NPTH, _HKI( "NPTH, mechanical" ) );
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ENUM_MAP<PAD_SHAPE>::Instance()
.Map( PAD_SHAPE::CIRCLE, _HKI( "Circle" ) )
.Map( PAD_SHAPE::RECT, _HKI( "Rectangle" ) )
.Map( PAD_SHAPE::OVAL, _HKI( "Oval" ) )
.Map( PAD_SHAPE::TRAPEZOID, _HKI( "Trapezoid" ) )
.Map( PAD_SHAPE::ROUNDRECT, _HKI( "Rounded rectangle" ) )
.Map( PAD_SHAPE::CHAMFERED_RECT, _HKI( "Chamfered rectangle" ) )
.Map( PAD_SHAPE::CUSTOM, _HKI( "Custom" ) );
ENUM_MAP<PAD_PROP>::Instance()
.Map( PAD_PROP::NONE, _HKI( "None" ) )
.Map( PAD_PROP::BGA, _HKI( "BGA pad" ) )
.Map( PAD_PROP::FIDUCIAL_GLBL, _HKI( "Fiducial, global to board" ) )
.Map( PAD_PROP::FIDUCIAL_LOCAL, _HKI( "Fiducial, local to footprint" ) )
.Map( PAD_PROP::TESTPOINT, _HKI( "Test point pad" ) )
.Map( PAD_PROP::HEATSINK, _HKI( "Heatsink pad" ) )
.Map( PAD_PROP::CASTELLATED, _HKI( "Castellated pad" ) );
PROPERTY_MANAGER& propMgr = PROPERTY_MANAGER::Instance();
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REGISTER_TYPE( PAD );
propMgr.InheritsAfter( TYPE_HASH( PAD ), TYPE_HASH( BOARD_CONNECTED_ITEM ) );
auto padType = new PROPERTY_ENUM<PAD, PAD_ATTRIB>( _HKI( "Pad Type" ),
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&PAD::SetAttribute, &PAD::GetAttribute );
propMgr.AddProperty( padType );
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auto shape = new PROPERTY_ENUM<PAD, PAD_SHAPE>( _HKI( "Shape" ),
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&PAD::SetShape, &PAD::GetShape );
propMgr.AddProperty( shape );
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propMgr.AddProperty( new PROPERTY<PAD, wxString>( _HKI( "Pad Number" ),
&PAD::SetName, &PAD::GetName ) );
propMgr.AddProperty( new PROPERTY<PAD, wxString>( _HKI( "Pin Name" ),
&PAD::SetPinFunction, &PAD::GetPinFunction ) );
propMgr.AddProperty( new PROPERTY<PAD, wxString>( _HKI( "Pin Type" ),
&PAD::SetPinType, &PAD::GetPinType ) );
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propMgr.AddProperty( new PROPERTY<PAD, double>( _HKI( "Orientation" ),
&PAD::SetOrientationDegrees, &PAD::GetOrientationDegrees,
PROPERTY_DISPLAY::DEGREE ) );
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propMgr.AddProperty( new PROPERTY<PAD, int>( _HKI( "Size X" ),
&PAD::SetSizeX, &PAD::GetSizeX,
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PROPERTY_DISPLAY::DISTANCE ) );
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propMgr.AddProperty( new PROPERTY<PAD, int>( _HKI( "Size Y" ),
&PAD::SetSizeY, &PAD::GetSizeY,
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PROPERTY_DISPLAY::DISTANCE ) );
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propMgr.AddProperty( new PROPERTY<PAD, int>( _HKI( "Hole Size X" ),
&PAD::SetDrillSizeX, &PAD::GetDrillSizeX,
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PROPERTY_DISPLAY::DISTANCE ) );
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propMgr.AddProperty( new PROPERTY<PAD, int>( _HKI( "Hole Size Y" ),
&PAD::SetDrillSizeY, &PAD::GetDrillSizeY,
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PROPERTY_DISPLAY::DISTANCE ) );
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propMgr.AddProperty( new PROPERTY<PAD, int>( _HKI( "Pad To Die Length" ),
&PAD::SetPadToDieLength, &PAD::GetPadToDieLength,
PROPERTY_DISPLAY::DISTANCE ) );
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propMgr.AddProperty( new PROPERTY<PAD, int>( _HKI( "Local Soldermask Margin" ),
&PAD::SetLocalSolderMaskMargin, &PAD::GetLocalSolderMaskMargin,
PROPERTY_DISPLAY::DISTANCE ) );
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propMgr.AddProperty( new PROPERTY<PAD, int>( _HKI( "Local Solderpaste Margin" ),
&PAD::SetLocalSolderPasteMargin, &PAD::GetLocalSolderPasteMargin,
PROPERTY_DISPLAY::DISTANCE ) );
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propMgr.AddProperty( new PROPERTY<PAD, double>( _HKI( "Local Solderpaste Margin Ratio" ),
&PAD::SetLocalSolderPasteMarginRatio, &PAD::GetLocalSolderPasteMarginRatio ) );
propMgr.AddProperty( new PROPERTY<PAD, int>( _HKI( "Thermal Relief Spoke Width" ),
&PAD::SetThermalSpokeWidth, &PAD::GetThermalSpokeWidth,
PROPERTY_DISPLAY::DISTANCE ) );
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propMgr.AddProperty( new PROPERTY<PAD, int>( _HKI( "Thermal Relief" ),
&PAD::SetThermalGap, &PAD::GetThermalGap,
PROPERTY_DISPLAY::DISTANCE ) );
propMgr.AddProperty( new PROPERTY_ENUM<PAD, PAD_PROP>( _HKI( "Fabrication Property" ),
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&PAD::SetProperty, &PAD::GetProperty ) );
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auto roundRadiusRatio = new PROPERTY<PAD, double>( _HKI( "Round Radius Ratio" ),
&PAD::SetRoundRectRadiusRatio, &PAD::GetRoundRectRadiusRatio );
roundRadiusRatio->SetAvailableFunc(
[=]( INSPECTABLE* aItem ) -> bool
{
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return aItem->Get( shape ) == static_cast<int>( PAD_SHAPE::ROUNDRECT );
} );
propMgr.AddProperty( roundRadiusRatio );
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propMgr.AddProperty( new PROPERTY<PAD, int>( _HKI( "Local Clearance" ),
&PAD::SetLocalClearance, &PAD::GetLocalClearance,
PROPERTY_DISPLAY::DISTANCE ) );
propMgr.AddProperty( new PROPERTY<PAD, wxString>( _HKI( "Parent" ),
NO_SETTER( PAD, wxString ), &PAD::GetParentAsString ) );
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// TODO delta, dirill shape offset, layerset, zone connection
}
} _PAD_DESC;
ENUM_TO_WXANY( PAD_ATTRIB );
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ENUM_TO_WXANY( PAD_SHAPE );
ENUM_TO_WXANY( PAD_PROP );