kicad/pcbnew/plugins/altium/altium_pcb.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2019-2020 Thomas Pointhuber <thomas.pointhuber@gmx.at>
* Copyright (C) 2021 KiCad Developers, see AUTHORS.txt for contributors.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include "altium_pcb.h"
#include "altium_parser_pcb.h"
#include "plugins/altium/altium_parser.h"
#include <plugins/altium/altium_parser_utils.h>
#include <board.h>
#include <board_design_settings.h>
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#include <pcb_dimension.h>
#include <pad.h>
#include <pcb_shape.h>
#include <pcb_text.h>
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#include <pcb_track.h>
#include <string_utils.h>
#include <fp_shape.h>
#include <fp_text.h>
#include <zone.h>
#include <board_stackup_manager/stackup_predefined_prms.h>
#include <compoundfilereader.h>
#include <convert_basic_shapes_to_polygon.h>
#include <project.h>
#include <trigo.h>
#include <utf.h>
#include <wx/docview.h>
#include <wx/log.h>
#include <wx/mstream.h>
#include <wx/wfstream.h>
#include <wx/zstream.h>
#include <progress_reporter.h>
void ParseAltiumPcb( BOARD* aBoard, const wxString& aFileName, PROGRESS_REPORTER* aProgressReporter,
const std::map<ALTIUM_PCB_DIR, std::string>& aFileMapping )
{
// Open file
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FILE* fp = wxFopen( aFileName, wxT( "rb" ) );
if( fp == nullptr )
{
wxLogError( _( "Cannot open file '%s'." ), aFileName );
return;
}
fseek( fp, 0, SEEK_END );
long len = ftell( fp );
if( len < 0 )
{
fclose( fp );
THROW_IO_ERROR( _( "Error reading file: cannot determine length." ) );
}
std::unique_ptr<unsigned char[]> buffer( new unsigned char[len] );
fseek( fp, 0, SEEK_SET );
size_t bytesRead = fread( buffer.get(), sizeof( unsigned char ), len, fp );
fclose( fp );
if( static_cast<size_t>( len ) != bytesRead )
{
THROW_IO_ERROR( _( "Error reading file." ) );
}
try
{
CFB::CompoundFileReader reader( buffer.get(), bytesRead );
// Parse File
ALTIUM_PCB pcb( aBoard, aProgressReporter );
pcb.Parse( reader, aFileMapping );
}
catch( CFB::CFBException& exception )
{
THROW_IO_ERROR( exception.what() );
}
}
bool IsAltiumLayerCopper( ALTIUM_LAYER aLayer )
{
return aLayer >= ALTIUM_LAYER::TOP_LAYER && aLayer <= ALTIUM_LAYER::BOTTOM_LAYER;
}
bool IsAltiumLayerAPlane( ALTIUM_LAYER aLayer )
{
return aLayer >= ALTIUM_LAYER::INTERNAL_PLANE_1 && aLayer <= ALTIUM_LAYER::INTERNAL_PLANE_16;
}
PCB_SHAPE* ALTIUM_PCB::HelperCreateAndAddShape( uint16_t aComponent )
{
if( aComponent == ALTIUM_COMPONENT_NONE )
{
PCB_SHAPE* shape = new PCB_SHAPE( m_board );
m_board->Add( shape, ADD_MODE::APPEND );
return shape;
}
else
{
if( m_components.size() <= aComponent )
{
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THROW_IO_ERROR( wxString::Format( wxT( "Component creator tries to access component "
"id %d of %d existing components" ),
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aComponent,
m_components.size() ) );
}
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FOOTPRINT* footprint = m_components.at( aComponent );
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PCB_SHAPE* fpShape = new FP_SHAPE( footprint );
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footprint->Add( fpShape, ADD_MODE::APPEND );
return fpShape;
}
}
void ALTIUM_PCB::HelperShapeSetLocalCoord( PCB_SHAPE* aShape, uint16_t aComponent )
{
if( aComponent != ALTIUM_COMPONENT_NONE )
{
FP_SHAPE* fpShape = dynamic_cast<FP_SHAPE*>( aShape );
if( fpShape )
{
fpShape->SetLocalCoord();
// TODO: SetLocalCoord() does not update the polygon shape!
// This workaround converts the poly shape into the local coordinates
SHAPE_POLY_SET& polyShape = fpShape->GetPolyShape();
if( !polyShape.IsEmpty() )
{
FOOTPRINT* fp = m_components.at( aComponent );
polyShape.Move( -fp->GetPosition() );
polyShape.Rotate( -fp->GetOrientationRadians() );
}
}
}
}
void HelperShapeLineChainFromAltiumVertices( SHAPE_LINE_CHAIN& aLine,
const std::vector<ALTIUM_VERTICE>& aVertices )
{
for( const ALTIUM_VERTICE& vertex : aVertices )
{
if( vertex.isRound )
{
double angle = NormalizeAngleDegreesPos( vertex.endangle - vertex.startangle );
double startradiant = DEG2RAD( vertex.startangle );
double endradiant = DEG2RAD( vertex.endangle );
wxPoint arcStartOffset = wxPoint( KiROUND( std::cos( startradiant ) * vertex.radius ),
-KiROUND( std::sin( startradiant ) * vertex.radius ) );
wxPoint arcEndOffset = wxPoint( KiROUND( std::cos( endradiant ) * vertex.radius ),
-KiROUND( std::sin( endradiant ) * vertex.radius ) );
wxPoint arcStart = vertex.center + arcStartOffset;
wxPoint arcEnd = vertex.center + arcEndOffset;
if( GetLineLength( arcStart, vertex.position )
< GetLineLength( arcEnd, vertex.position ) )
{
aLine.Append( SHAPE_ARC( vertex.center, arcStart, -angle ) );
}
else
{
aLine.Append( SHAPE_ARC( vertex.center, arcEnd, angle ) );
}
}
else
{
aLine.Append( vertex.position );
}
}
aLine.SetClosed( true );
}
PCB_LAYER_ID ALTIUM_PCB::GetKicadLayer( ALTIUM_LAYER aAltiumLayer ) const
{
auto override = m_layermap.find( aAltiumLayer );
if( override != m_layermap.end() )
{
return override->second;
}
switch( aAltiumLayer )
{
case ALTIUM_LAYER::UNKNOWN: return UNDEFINED_LAYER;
case ALTIUM_LAYER::TOP_LAYER: return F_Cu;
case ALTIUM_LAYER::MID_LAYER_1: return In1_Cu;
case ALTIUM_LAYER::MID_LAYER_2: return In2_Cu;
case ALTIUM_LAYER::MID_LAYER_3: return In3_Cu;
case ALTIUM_LAYER::MID_LAYER_4: return In4_Cu;
case ALTIUM_LAYER::MID_LAYER_5: return In5_Cu;
case ALTIUM_LAYER::MID_LAYER_6: return In6_Cu;
case ALTIUM_LAYER::MID_LAYER_7: return In7_Cu;
case ALTIUM_LAYER::MID_LAYER_8: return In8_Cu;
case ALTIUM_LAYER::MID_LAYER_9: return In9_Cu;
case ALTIUM_LAYER::MID_LAYER_10: return In10_Cu;
case ALTIUM_LAYER::MID_LAYER_11: return In11_Cu;
case ALTIUM_LAYER::MID_LAYER_12: return In12_Cu;
case ALTIUM_LAYER::MID_LAYER_13: return In13_Cu;
case ALTIUM_LAYER::MID_LAYER_14: return In14_Cu;
case ALTIUM_LAYER::MID_LAYER_15: return In15_Cu;
case ALTIUM_LAYER::MID_LAYER_16: return In16_Cu;
case ALTIUM_LAYER::MID_LAYER_17: return In17_Cu;
case ALTIUM_LAYER::MID_LAYER_18: return In18_Cu;
case ALTIUM_LAYER::MID_LAYER_19: return In19_Cu;
case ALTIUM_LAYER::MID_LAYER_20: return In20_Cu;
case ALTIUM_LAYER::MID_LAYER_21: return In21_Cu;
case ALTIUM_LAYER::MID_LAYER_22: return In22_Cu;
case ALTIUM_LAYER::MID_LAYER_23: return In23_Cu;
case ALTIUM_LAYER::MID_LAYER_24: return In24_Cu;
case ALTIUM_LAYER::MID_LAYER_25: return In25_Cu;
case ALTIUM_LAYER::MID_LAYER_26: return In26_Cu;
case ALTIUM_LAYER::MID_LAYER_27: return In27_Cu;
case ALTIUM_LAYER::MID_LAYER_28: return In28_Cu;
case ALTIUM_LAYER::MID_LAYER_29: return In29_Cu;
case ALTIUM_LAYER::MID_LAYER_30: return In30_Cu;
case ALTIUM_LAYER::BOTTOM_LAYER: return B_Cu;
case ALTIUM_LAYER::TOP_OVERLAY: return F_SilkS;
case ALTIUM_LAYER::BOTTOM_OVERLAY: return B_SilkS;
case ALTIUM_LAYER::TOP_PASTE: return F_Paste;
case ALTIUM_LAYER::BOTTOM_PASTE: return B_Paste;
case ALTIUM_LAYER::TOP_SOLDER: return F_Mask;
case ALTIUM_LAYER::BOTTOM_SOLDER: return B_Mask;
case ALTIUM_LAYER::INTERNAL_PLANE_1: return UNDEFINED_LAYER;
case ALTIUM_LAYER::INTERNAL_PLANE_2: return UNDEFINED_LAYER;
case ALTIUM_LAYER::INTERNAL_PLANE_3: return UNDEFINED_LAYER;
case ALTIUM_LAYER::INTERNAL_PLANE_4: return UNDEFINED_LAYER;
case ALTIUM_LAYER::INTERNAL_PLANE_5: return UNDEFINED_LAYER;
case ALTIUM_LAYER::INTERNAL_PLANE_6: return UNDEFINED_LAYER;
case ALTIUM_LAYER::INTERNAL_PLANE_7: return UNDEFINED_LAYER;
case ALTIUM_LAYER::INTERNAL_PLANE_8: return UNDEFINED_LAYER;
case ALTIUM_LAYER::INTERNAL_PLANE_9: return UNDEFINED_LAYER;
case ALTIUM_LAYER::INTERNAL_PLANE_10: return UNDEFINED_LAYER;
case ALTIUM_LAYER::INTERNAL_PLANE_11: return UNDEFINED_LAYER;
case ALTIUM_LAYER::INTERNAL_PLANE_12: return UNDEFINED_LAYER;
case ALTIUM_LAYER::INTERNAL_PLANE_13: return UNDEFINED_LAYER;
case ALTIUM_LAYER::INTERNAL_PLANE_14: return UNDEFINED_LAYER;
case ALTIUM_LAYER::INTERNAL_PLANE_15: return UNDEFINED_LAYER;
case ALTIUM_LAYER::INTERNAL_PLANE_16: return UNDEFINED_LAYER;
case ALTIUM_LAYER::DRILL_GUIDE: return Dwgs_User;
case ALTIUM_LAYER::KEEP_OUT_LAYER: return Margin;
case ALTIUM_LAYER::MECHANICAL_1: return User_1; //Edge_Cuts;
case ALTIUM_LAYER::MECHANICAL_2: return User_2;
case ALTIUM_LAYER::MECHANICAL_3: return User_3;
case ALTIUM_LAYER::MECHANICAL_4: return User_4;
case ALTIUM_LAYER::MECHANICAL_5: return User_5;
case ALTIUM_LAYER::MECHANICAL_6: return User_6;
case ALTIUM_LAYER::MECHANICAL_7: return User_7;
case ALTIUM_LAYER::MECHANICAL_8: return User_8;
case ALTIUM_LAYER::MECHANICAL_9: return User_9;
case ALTIUM_LAYER::MECHANICAL_10: return Dwgs_User;
case ALTIUM_LAYER::MECHANICAL_11: return Eco2_User; //Eco1 is used for unknown elements
case ALTIUM_LAYER::MECHANICAL_12: return F_Fab;
case ALTIUM_LAYER::MECHANICAL_13: return B_Fab; // Don't use courtyard layers for other purposes
case ALTIUM_LAYER::MECHANICAL_14: return UNDEFINED_LAYER;
case ALTIUM_LAYER::MECHANICAL_15: return UNDEFINED_LAYER;
case ALTIUM_LAYER::MECHANICAL_16: return UNDEFINED_LAYER;
case ALTIUM_LAYER::DRILL_DRAWING: return Dwgs_User;
case ALTIUM_LAYER::MULTI_LAYER: return UNDEFINED_LAYER;
case ALTIUM_LAYER::CONNECTIONS: return UNDEFINED_LAYER;
case ALTIUM_LAYER::BACKGROUND: return UNDEFINED_LAYER;
case ALTIUM_LAYER::DRC_ERROR_MARKERS: return UNDEFINED_LAYER;
case ALTIUM_LAYER::SELECTIONS: return UNDEFINED_LAYER;
case ALTIUM_LAYER::VISIBLE_GRID_1: return UNDEFINED_LAYER;
case ALTIUM_LAYER::VISIBLE_GRID_2: return UNDEFINED_LAYER;
case ALTIUM_LAYER::PAD_HOLES: return UNDEFINED_LAYER;
case ALTIUM_LAYER::VIA_HOLES: return UNDEFINED_LAYER;
default: return UNDEFINED_LAYER;
}
}
ALTIUM_PCB::ALTIUM_PCB( BOARD* aBoard, PROGRESS_REPORTER* aProgressReporter )
{
m_board = aBoard;
m_progressReporter = aProgressReporter;
m_doneCount = 0;
m_lastProgressCount = 0;
m_totalCount = 0;
m_num_nets = 0;
m_highest_pour_index = 0;
}
ALTIUM_PCB::~ALTIUM_PCB()
{
}
void ALTIUM_PCB::checkpoint()
{
const unsigned PROGRESS_DELTA = 250;
if( m_progressReporter )
{
if( ++m_doneCount > m_lastProgressCount + PROGRESS_DELTA )
{
m_progressReporter->SetCurrentProgress( ( (double) m_doneCount )
/ std::max( 1U, m_totalCount ) );
if( !m_progressReporter->KeepRefreshing() )
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THROW_IO_ERROR( _( "Open cancelled by user." ) );
m_lastProgressCount = m_doneCount;
}
}
}
void ALTIUM_PCB::Parse( const CFB::CompoundFileReader& aReader,
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const std::map<ALTIUM_PCB_DIR, std::string>& aFileMapping )
{
// this vector simply declares in which order which functions to call.
const std::vector<std::tuple<bool, ALTIUM_PCB_DIR, PARSE_FUNCTION_POINTER_fp>> parserOrder = {
{ true, ALTIUM_PCB_DIR::FILE_HEADER,
[this]( auto aReader, auto fileHeader )
{
this->ParseFileHeader( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::BOARD6,
[this]( auto aReader, auto fileHeader )
{
this->ParseBoard6Data( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::COMPONENTS6,
[this]( auto aReader, auto fileHeader )
{
this->ParseComponents6Data( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::MODELS,
[this, aFileMapping]( auto aReader, auto fileHeader )
{
wxString dir( aFileMapping.at( ALTIUM_PCB_DIR::MODELS ) );
this->ParseModelsData( aReader, fileHeader, dir );
} },
{ true, ALTIUM_PCB_DIR::COMPONENTBODIES6,
[this]( auto aReader, auto fileHeader )
{
this->ParseComponentsBodies6Data( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::NETS6,
[this]( auto aReader, auto fileHeader )
{
this->ParseNets6Data( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::CLASSES6,
[this]( auto aReader, auto fileHeader )
{
this->ParseClasses6Data( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::RULES6,
[this]( auto aReader, auto fileHeader )
{
this->ParseRules6Data( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::DIMENSIONS6,
[this]( auto aReader, auto fileHeader )
{
this->ParseDimensions6Data( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::POLYGONS6,
[this]( auto aReader, auto fileHeader )
{
this->ParsePolygons6Data( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::ARCS6,
[this]( auto aReader, auto fileHeader )
{
this->ParseArcs6Data( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::PADS6,
[this]( auto aReader, auto fileHeader )
{
this->ParsePads6Data( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::VIAS6,
[this]( auto aReader, auto fileHeader )
{
this->ParseVias6Data( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::TRACKS6,
[this]( auto aReader, auto fileHeader )
{
this->ParseTracks6Data( aReader, fileHeader );
} },
{ false, ALTIUM_PCB_DIR::WIDESTRINGS6,
[this]( auto aReader, auto fileHeader )
{
this->ParseWideStrings6Data( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::TEXTS6,
[this]( auto aReader, auto fileHeader )
{
this->ParseTexts6Data( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::FILLS6,
[this]( auto aReader, auto fileHeader )
{
this->ParseFills6Data( aReader, fileHeader );
} },
{ false, ALTIUM_PCB_DIR::BOARDREGIONS,
[this]( auto aReader, auto fileHeader )
{
this->ParseBoardRegionsData( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::SHAPEBASEDREGIONS6,
[this]( auto aReader, auto fileHeader )
{
this->ParseShapeBasedRegions6Data( aReader, fileHeader );
} },
{ true, ALTIUM_PCB_DIR::REGIONS6,
[this]( auto aReader, auto fileHeader )
{
this->ParseRegions6Data( aReader, fileHeader );
} }
};
if( m_progressReporter != nullptr )
{
// Count number of records we will read for the progress reporter
for( const std::tuple<bool, ALTIUM_PCB_DIR, PARSE_FUNCTION_POINTER_fp>& cur : parserOrder )
{
bool isRequired;
ALTIUM_PCB_DIR directory;
PARSE_FUNCTION_POINTER_fp fp;
std::tie( isRequired, directory, fp ) = cur;
if( directory == ALTIUM_PCB_DIR::FILE_HEADER )
{
continue;
}
const auto& mappedDirectory = aFileMapping.find( directory );
if( mappedDirectory == aFileMapping.end() )
{
continue;
}
std::string mappedFile = mappedDirectory->second + "Header";
const CFB::COMPOUND_FILE_ENTRY* file = FindStream( aReader, mappedFile.c_str() );
if( file == nullptr )
{
continue;
}
ALTIUM_PARSER reader( aReader, file );
uint32_t numOfRecords = reader.Read<uint32_t>();
if( reader.HasParsingError() )
{
wxLogError( _( "'%s' was not parsed correctly." ), mappedFile );
continue;
}
m_totalCount += numOfRecords;
if( reader.GetRemainingBytes() != 0 )
{
wxLogError( _( "'%s' was not fully parsed." ), mappedFile );
continue;
}
}
}
// Parse data in specified order
for( const std::tuple<bool, ALTIUM_PCB_DIR, PARSE_FUNCTION_POINTER_fp>& cur : parserOrder )
{
bool isRequired;
ALTIUM_PCB_DIR directory;
PARSE_FUNCTION_POINTER_fp fp;
std::tie( isRequired, directory, fp ) = cur;
const auto& mappedDirectory = aFileMapping.find( directory );
if( mappedDirectory == aFileMapping.end() )
{
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wxASSERT_MSG( !isRequired, wxString::Format( wxT( "Altium Directory of kind %d was "
"expected, but no mapping is "
"present in the code" ),
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directory ) );
continue;
}
std::string mappedFile = mappedDirectory->second;
if( directory != ALTIUM_PCB_DIR::FILE_HEADER )
mappedFile += "Data";
const CFB::COMPOUND_FILE_ENTRY* file = FindStream( aReader, mappedFile.c_str() );
if( file != nullptr )
fp( aReader, file );
else if( isRequired )
wxLogError( _( "File not found: '%s'." ), mappedFile );
}
// fixup zone priorities since Altium stores them in the opposite order
for( ZONE* zone : m_polygons )
{
if( !zone )
continue;
// Altium "fills" - not poured in Altium
if( zone->GetPriority() == 1000 )
{
// Unlikely, but you never know
if( m_highest_pour_index >= 1000 )
zone->SetPriority( m_highest_pour_index + 1 );
continue;
}
int priority = m_highest_pour_index - zone->GetPriority();
zone->SetPriority( priority >= 0 ? priority : 0 );
}
// change priority of outer zone to zero
for( std::pair<const ALTIUM_LAYER, ZONE*>& zone : m_outer_plane )
zone.second->SetPriority( 0 );
// Altium doesn't appear to store either the dimension value nor the dimensioned object in
// the dimension record. (Yes, there is a REFERENCE0OBJECTID, but it doesn't point to the
// dimensioned object.) We attempt to plug this gap by finding a colocated arc or circle
// and using its radius. If there are more than one such arcs/circles, well, :shrug:.
for( PCB_DIMENSION_BASE* dim : m_radialDimensions )
{
int radius = 0;
for( BOARD_ITEM* item : m_board->Drawings() )
{
if( item->Type() != PCB_SHAPE_T )
continue;
PCB_SHAPE* shape = static_cast<PCB_SHAPE*>( item );
if( shape->GetShape() != SHAPE_T::ARC && shape->GetShape() != SHAPE_T::CIRCLE )
continue;
if( shape->GetPosition() == dim->GetPosition() )
{
radius = shape->GetRadius();
break;
}
}
if( radius == 0 )
{
for( PCB_TRACK* track : m_board->Tracks() )
{
if( track->Type() != PCB_ARC_T )
continue;
PCB_ARC* arc = static_cast<PCB_ARC*>( track );
if( arc->GetCenter() == dim->GetPosition() )
{
radius = arc->GetRadius();
break;
}
}
}
// Force a measured value, calculate the value text, and then stick it into the override
// text (since leaders don't have calculated text).
dim->SetMeasuredValue( radius );
dim->SetText( dim->GetPrefix() + dim->GetValueText() + dim->GetSuffix() );
dim->SetPrefix( wxEmptyString );
dim->SetSuffix( wxEmptyString );
// Move the leader line start to the radius point
VECTOR2I radialLine = dim->GetEnd() - dim->GetStart();
radialLine = radialLine.Resize( radius );
dim->SetStart( dim->GetStart() + (wxPoint) radialLine );
}
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// center board
EDA_RECT bbbox = m_board->GetBoardEdgesBoundingBox();
int w = m_board->GetPageSettings().GetWidthIU();
int h = m_board->GetPageSettings().GetHeightIU();
int desired_x = ( w - bbbox.GetWidth() ) / 2;
int desired_y = ( h - bbbox.GetHeight() ) / 2;
wxPoint movementVector( desired_x - bbbox.GetX(), desired_y - bbbox.GetY() );
m_board->Move( movementVector );
BOARD_DESIGN_SETTINGS& bds = m_board->GetDesignSettings();
bds.SetAuxOrigin( bds.GetAuxOrigin() + movementVector );
bds.SetGridOrigin( bds.GetGridOrigin() + movementVector );
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m_board->SetModified();
}
int ALTIUM_PCB::GetNetCode( uint16_t aId ) const
{
if( aId == ALTIUM_NET_UNCONNECTED )
{
return NETINFO_LIST::UNCONNECTED;
}
else if( m_num_nets < aId )
{
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THROW_IO_ERROR( wxString::Format( wxT( "Netcode with id %d does not exist. Only %d nets "
"are known" ),
aId, m_num_nets ) );
}
else
{
return aId + 1;
}
}
const ARULE6* ALTIUM_PCB::GetRule( ALTIUM_RULE_KIND aKind, const wxString& aName ) const
{
const auto rules = m_rules.find( aKind );
if( rules == m_rules.end() )
{
return nullptr;
}
for( const ARULE6& rule : rules->second )
{
if( rule.name == aName )
{
return &rule;
}
}
return nullptr;
}
const ARULE6* ALTIUM_PCB::GetRuleDefault( ALTIUM_RULE_KIND aKind ) const
{
const auto rules = m_rules.find( aKind );
if( rules == m_rules.end() )
{
return nullptr;
}
for( const ARULE6& rule : rules->second )
{
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if( rule.scope1expr == wxT( "All" ) && rule.scope2expr == wxT( "All" ) )
{
return &rule;
}
}
return nullptr;
}
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void ALTIUM_PCB::ParseFileHeader( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
ALTIUM_PARSER reader( aReader, aEntry );
reader.ReadAndSetSubrecordLength();
wxString header = reader.ReadWxString();
//std::cout << "HEADER: " << header << std::endl; // tells me: PCB 5.0 Binary File
//reader.SkipSubrecord();
// TODO: does not seem to work all the time at the moment
//if( reader.GetRemainingBytes() != 0 )
//{
// THROW_IO_ERROR( "FileHeader stream is not fully parsed" );
//}
}
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void ALTIUM_PCB::ParseBoard6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
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m_progressReporter->Report( _( "Loading board data..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
checkpoint();
ABOARD6 elem( reader );
if( reader.GetRemainingBytes() != 0 )
{
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THROW_IO_ERROR( wxT( "Board6 stream is not fully parsed" ) );
}
m_board->GetDesignSettings().SetAuxOrigin( elem.sheetpos );
m_board->GetDesignSettings().SetGridOrigin( elem.sheetpos );
// read layercount from stackup, because LAYERSETSCOUNT is not always correct?!
size_t layercount = 0;
for( size_t i = static_cast<size_t>( ALTIUM_LAYER::TOP_LAYER );
i < elem.stackup.size() && i != 0; i = elem.stackup[i - 1].nextId, layercount++ )
;
size_t kicadLayercount = ( layercount % 2 == 0 ) ? layercount : layercount + 1;
m_board->SetCopperLayerCount( kicadLayercount );
BOARD_DESIGN_SETTINGS& designSettings = m_board->GetDesignSettings();
BOARD_STACKUP& stackup = designSettings.GetStackupDescriptor();
// create board stackup
stackup.RemoveAll(); // Just to be sure
stackup.BuildDefaultStackupList( &designSettings, layercount );
auto it = stackup.GetList().begin();
// find first copper layer
for( ; it != stackup.GetList().end() && ( *it )->GetType() != BS_ITEM_TYPE_COPPER; ++it )
;
auto curLayer = static_cast<int>( F_Cu );
for( size_t altiumLayerId = static_cast<size_t>( ALTIUM_LAYER::TOP_LAYER );
altiumLayerId < elem.stackup.size() && altiumLayerId != 0;
altiumLayerId = elem.stackup[altiumLayerId - 1].nextId )
{
// array starts with 0, but stackup with 1
ABOARD6_LAYER_STACKUP& layer = elem.stackup.at( altiumLayerId - 1 );
// handle unused layer in case of odd layercount
if( layer.nextId == 0 && layercount != kicadLayercount )
{
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m_board->SetLayerName( ( *it )->GetBrdLayerId(), wxT( "[unused]" ) );
if( ( *it )->GetType() != BS_ITEM_TYPE_COPPER )
{
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THROW_IO_ERROR( wxT( "Board6 stream, unexpected item while parsing stackup" ) );
}
( *it )->SetThickness( 0 );
++it;
if( ( *it )->GetType() != BS_ITEM_TYPE_DIELECTRIC )
{
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THROW_IO_ERROR( wxT( "Board6 stream, unexpected item while parsing stackup" ) );
}
( *it )->SetThickness( 0, 0 );
( *it )->SetThicknessLocked( true, 0 );
++it;
}
m_layermap.insert( { static_cast<ALTIUM_LAYER>( altiumLayerId ),
static_cast<PCB_LAYER_ID>( curLayer++ ) } );
if( ( *it )->GetType() != BS_ITEM_TYPE_COPPER )
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THROW_IO_ERROR( wxT( "Board6 stream, unexpected item while parsing stackup" ) );
( *it )->SetThickness( layer.copperthick );
ALTIUM_LAYER alayer = static_cast<ALTIUM_LAYER>( altiumLayerId );
PCB_LAYER_ID klayer = ( *it )->GetBrdLayerId();
m_board->SetLayerName( klayer, layer.name );
if( layer.copperthick == 0 )
{
m_board->SetLayerType( klayer, LAYER_T::LT_JUMPER ); // used for things like wirebonding
}
else if( IsAltiumLayerAPlane( alayer ) )
{
m_board->SetLayerType( klayer, LAYER_T::LT_POWER );
}
if( klayer == B_Cu )
{
if( layer.nextId != 0 )
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THROW_IO_ERROR( wxT( "Board6 stream, unexpected id while parsing last stackup layer" ) );
// overwrite entry from internal -> bottom
m_layermap[alayer] = B_Cu;
break;
}
++it;
if( ( *it )->GetType() != BS_ITEM_TYPE_DIELECTRIC )
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THROW_IO_ERROR( wxT( "Board6 stream, unexpected item while parsing stackup" ) );
( *it )->SetThickness( layer.dielectricthick, 0 );
( *it )->SetMaterial( layer.dielectricmaterial.empty() ?
NotSpecifiedPrm() :
wxString( layer.dielectricmaterial ) );
( *it )->SetEpsilonR( layer.dielectricconst, 0 );
++it;
}
// Set name of all non-cu layers
for( size_t altiumLayerId = static_cast<size_t>( ALTIUM_LAYER::TOP_OVERLAY );
altiumLayerId <= static_cast<size_t>( ALTIUM_LAYER::BOTTOM_SOLDER ); altiumLayerId++ )
{
// array starts with 0, but stackup with 1
ABOARD6_LAYER_STACKUP& layer = elem.stackup.at( altiumLayerId - 1 );
ALTIUM_LAYER alayer = static_cast<ALTIUM_LAYER>( altiumLayerId );
PCB_LAYER_ID klayer = GetKicadLayer( alayer );
m_board->SetLayerName( klayer, layer.name );
}
for( size_t altiumLayerId = static_cast<size_t>( ALTIUM_LAYER::MECHANICAL_1 );
altiumLayerId <= static_cast<size_t>( ALTIUM_LAYER::MECHANICAL_16 ); altiumLayerId++ )
{
// array starts with 0, but stackup with 1
ABOARD6_LAYER_STACKUP& layer = elem.stackup.at( altiumLayerId - 1 );
ALTIUM_LAYER alayer = static_cast<ALTIUM_LAYER>( altiumLayerId );
PCB_LAYER_ID klayer = GetKicadLayer( alayer );
m_board->SetLayerName( klayer, layer.name );
}
HelperCreateBoardOutline( elem.board_vertices );
}
void ALTIUM_PCB::HelperCreateBoardOutline( const std::vector<ALTIUM_VERTICE>& aVertices )
{
SHAPE_LINE_CHAIN lineChain;
HelperShapeLineChainFromAltiumVertices( lineChain, aVertices );
for( int i = 0; i <= lineChain.PointCount() && i != -1; i = lineChain.NextShape( i ) )
{
if( lineChain.IsArcStart( i ) )
{
const SHAPE_ARC& currentArc = lineChain.Arc( lineChain.ArcIndex( i ) );
int nextShape = lineChain.NextShape( i );
bool isLastShape = nextShape < 0;
PCB_SHAPE* shape = new PCB_SHAPE( m_board, SHAPE_T::ARC );
m_board->Add( shape, ADD_MODE::APPEND );
shape->SetWidth( m_board->GetDesignSettings().GetLineThickness( Edge_Cuts ) );
shape->SetLayer( Edge_Cuts );
shape->SetArcGeometry( (wxPoint) currentArc.GetP0(), (wxPoint) currentArc.GetArcMid(),
(wxPoint) currentArc.GetP1() );
}
else
{
const SEG& seg = lineChain.Segment( i );
PCB_SHAPE* shape = new PCB_SHAPE( m_board, SHAPE_T::SEGMENT );
m_board->Add( shape, ADD_MODE::APPEND );
shape->SetWidth( m_board->GetDesignSettings().GetLineThickness( Edge_Cuts ) );
shape->SetLayer( Edge_Cuts );
shape->SetStart( (wxPoint) seg.A );
shape->SetEnd( (wxPoint) seg.B );
}
}
}
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void ALTIUM_PCB::ParseClasses6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
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m_progressReporter->Report( _( "Loading netclasses..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
ACLASS6 elem( reader );
if( elem.kind == ALTIUM_CLASS_KIND::NET_CLASS )
{
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NETCLASSPTR nc = std::make_shared<NETCLASS>( elem.name );
for( const auto& name : elem.names )
{
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// TODO: it seems it can happen that we have names not attached to any net.
nc->Add( name );
}
if( !m_board->GetDesignSettings().GetNetClasses().Add( nc ) )
{
// Name conflict, this is likely a bad board file.
// unique_ptr will delete nc on this code path
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THROW_IO_ERROR( wxString::Format( _( "Duplicate netclass name '%s'." ), elem.name ) );
}
}
}
if( reader.GetRemainingBytes() != 0 )
{
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THROW_IO_ERROR( wxT( "Classes6 stream is not fully parsed" ) );
}
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m_board->m_LegacyNetclassesLoaded = true;
}
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void ALTIUM_PCB::ParseComponents6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
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m_progressReporter->Report( _( "Loading components..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
uint16_t componentId = 0;
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
ACOMPONENT6 elem( reader );
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FOOTPRINT* footprint = new FOOTPRINT( m_board );
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m_board->Add( footprint, ADD_MODE::APPEND );
m_components.emplace_back( footprint );
LIB_ID fpID = AltiumToKiCadLibID( elem.sourcefootprintlibrary, elem.pattern );
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footprint->SetFPID( fpID );
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footprint->SetPosition( elem.position );
footprint->SetOrientationDegrees( elem.rotation );
// KiCad netlisting requires parts to have non-digit + digit annotation.
// If the reference begins with a number, we prepend 'UNK' (unknown) for the source designator
wxString reference = elem.sourcedesignator;
if( reference.find_first_not_of( "0123456789" ) == wxString::npos )
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reference.Prepend( wxT( "UNK" ) );
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footprint->SetReference( reference );
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footprint->SetLocked( elem.locked );
footprint->Reference().SetVisible( elem.nameon );
footprint->Value().SetVisible( elem.commenton );
footprint->SetLayer( elem.layer == ALTIUM_LAYER::TOP_LAYER ? F_Cu : B_Cu );
componentId++;
}
if( reader.GetRemainingBytes() != 0 )
{
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THROW_IO_ERROR( wxT( "Components6 stream is not fully parsed" ) );
}
}
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void ALTIUM_PCB::ParseComponentsBodies6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
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m_progressReporter->Report( _( "Loading component 3D models..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
ACOMPONENTBODY6 elem( reader ); // TODO: implement
if( elem.component == ALTIUM_COMPONENT_NONE )
continue; // TODO: we do not support components for the board yet
if( m_components.size() <= elem.component )
{
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THROW_IO_ERROR( wxString::Format( wxT( "ComponentsBodies6 stream tries to access "
"component id %d of %d existing components" ),
elem.component,
m_components.size() ) );
}
if( !elem.modelIsEmbedded )
continue;
auto modelTuple = m_models.find( elem.modelId );
if( modelTuple == m_models.end() )
{
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THROW_IO_ERROR( wxString::Format( wxT( "ComponentsBodies6 stream tries to access "
"model id %s which does not exist" ),
elem.modelId ) );
}
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FOOTPRINT* footprint = m_components.at( elem.component );
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const wxPoint& fpPosition = footprint->GetPosition();
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FP_3DMODEL modelSettings;
modelSettings.m_Filename = modelTuple->second;
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modelSettings.m_Offset.x = Iu2Millimeter((int) elem.modelPosition.x - fpPosition.x );
modelSettings.m_Offset.y = -Iu2Millimeter((int) elem.modelPosition.y - fpPosition.y );
modelSettings.m_Offset.z = Iu2Millimeter( (int) elem.modelPosition.z );
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double orientation = footprint->GetOrientation();
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if( footprint->IsFlipped() )
{
modelSettings.m_Offset.y = -modelSettings.m_Offset.y;
orientation = -orientation;
}
RotatePoint( &modelSettings.m_Offset.x, &modelSettings.m_Offset.y, orientation );
modelSettings.m_Rotation.x = NormalizeAngleDegrees( -elem.modelRotation.x, -180, 180 );
modelSettings.m_Rotation.y = NormalizeAngleDegrees( -elem.modelRotation.y, -180, 180 );
modelSettings.m_Rotation.z = NormalizeAngleDegrees( -elem.modelRotation.z
+ elem.rotation
+ orientation / 10, -180, 180 );
modelSettings.m_Opacity = elem.bodyOpacity;
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footprint->Models().push_back( modelSettings );
}
if( reader.GetRemainingBytes() != 0 )
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THROW_IO_ERROR( wxT( "ComponentsBodies6 stream is not fully parsed" ) );
}
void ALTIUM_PCB::HelperParseDimensions6Linear( const ADIMENSION6& aElem )
{
if( aElem.referencePoint.size() != 2 )
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THROW_IO_ERROR( wxT( "Incorrect number of reference points for linear dimension object" ) );
PCB_LAYER_ID klayer = GetKicadLayer( aElem.layer );
if( klayer == UNDEFINED_LAYER )
{
wxLogWarning( _( "Dimension found on an Altium layer (%d) with no KiCad equivalent. "
"It has been moved to KiCad layer Eco1_User." ),
aElem.layer );
klayer = Eco1_User;
}
wxPoint referencePoint0 = aElem.referencePoint.at( 0 );
wxPoint referencePoint1 = aElem.referencePoint.at( 1 );
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PCB_DIM_ALIGNED* dimension = new PCB_DIM_ALIGNED( m_board );
m_board->Add( dimension, ADD_MODE::APPEND );
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dimension->SetPrecision( aElem.textprecision );
dimension->SetLayer( klayer );
dimension->SetStart( referencePoint0 );
if( referencePoint0 != aElem.xy1 )
{
/**
* Basically REFERENCE0POINT and REFERENCE1POINT are the two end points of the dimension.
* XY1 is the position of the arrow above REFERENCE0POINT. those three points are not
* necessarily in 90degree angle, but KiCad requires this to show the correct measurements.
*
* Therefore, we take the vector of REFERENCE0POINT -> XY1, calculate the normal, and
* intersect it with REFERENCE1POINT pointing the same direction as REFERENCE0POINT -> XY1.
* This should give us a valid measurement point where we can place the drawsegment.
*/
wxPoint direction = aElem.xy1 - referencePoint0;
wxPoint directionNormalVector = wxPoint( -direction.y, direction.x );
SEG segm1( referencePoint0, referencePoint0 + directionNormalVector );
SEG segm2( referencePoint1, referencePoint1 + direction );
wxPoint intersection( segm1.Intersect( segm2, true, true ).get() );
dimension->SetEnd( intersection );
int height = static_cast<int>( EuclideanNorm( direction ) );
if( direction.x <= 0 && direction.y <= 0 ) // TODO: I suspect this is not always correct
height = -height;
dimension->SetHeight( height );
}
else
{
dimension->SetEnd( referencePoint1 );
}
dimension->SetLineThickness( aElem.linewidth );
dimension->SetPrefix( aElem.textprefix );
// Suffix normally holds the units
dimension->SetUnitsFormat( aElem.textsuffix.IsEmpty() ? DIM_UNITS_FORMAT::NO_SUFFIX
: DIM_UNITS_FORMAT::BARE_SUFFIX );
2020-04-14 12:25:00 +00:00
dimension->Text().SetTextThickness( aElem.textlinewidth );
dimension->Text().SetTextSize( wxSize( aElem.textheight, aElem.textheight ) );
dimension->Text().SetBold( aElem.textbold );
dimension->Text().SetItalic( aElem.textitalic );
switch( aElem.textunit )
{
case ALTIUM_UNIT::INCHES:
dimension->SetUnits( EDA_UNITS::INCHES );
break;
case ALTIUM_UNIT::MILS:
dimension->SetUnits( EDA_UNITS::MILS );
break;
case ALTIUM_UNIT::MILLIMETERS:
case ALTIUM_UNIT::CENTIMETER:
dimension->SetUnits( EDA_UNITS::MILLIMETRES );
break;
default:
break;
}
}
void ALTIUM_PCB::HelperParseDimensions6Radial(const ADIMENSION6 &aElem)
{
if( aElem.referencePoint.size() < 2 )
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THROW_IO_ERROR( wxT( "Not enough reference points for radial dimension object" ) );
PCB_LAYER_ID klayer = GetKicadLayer( aElem.layer );
if( klayer == UNDEFINED_LAYER )
{
wxLogWarning( _( "Dimension found on an Altium layer (%d) with no KiCad equivalent. "
"It has been moved to KiCad layer Eco1_User." ),
aElem.layer );
klayer = Eco1_User;
}
wxPoint referencePoint0 = aElem.referencePoint.at( 0 );
wxPoint referencePoint1 = aElem.referencePoint.at( 1 );
//
// We don't have radial dimensions yet so fake it with a leader:
PCB_DIM_LEADER* dimension = new PCB_DIM_LEADER( m_board );
m_board->Add( dimension, ADD_MODE::APPEND );
m_radialDimensions.push_back( dimension );
dimension->SetPrecision( aElem.textprecision );
dimension->SetLayer( klayer );
dimension->SetStart( referencePoint0 );
dimension->SetEnd( aElem.xy1 );
dimension->SetLineThickness( aElem.linewidth );
dimension->SetPrefix( aElem.textprefix );
// Suffix normally holds the units
dimension->SetUnitsFormat( aElem.textsuffix.IsEmpty() ? DIM_UNITS_FORMAT::NO_SUFFIX
: DIM_UNITS_FORMAT::BARE_SUFFIX );
switch( aElem.textunit )
{
case ALTIUM_UNIT::INCHES:
dimension->SetUnits( EDA_UNITS::INCHES );
break;
case ALTIUM_UNIT::MILS:
dimension->SetUnits( EDA_UNITS::MILS );
break;
case ALTIUM_UNIT::MILLIMETERS:
case ALTIUM_UNIT::CENTIMETER:
dimension->SetUnits( EDA_UNITS::MILLIMETRES );
break;
default:
break;
}
if( aElem.textPoint.empty() )
{
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wxLogError( wxT( "No text position present for leader dimension object" ) );
return;
}
dimension->Text().SetPosition( aElem.textPoint.at( 0 ) );
dimension->Text().SetTextThickness( aElem.textlinewidth );
dimension->Text().SetTextSize( wxSize( aElem.textheight, aElem.textheight ) );
dimension->Text().SetBold( aElem.textbold );
dimension->Text().SetItalic( aElem.textitalic );
dimension->Text().SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_BOTTOM );
dimension->Text().SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_LEFT );
int yAdjust = dimension->Text().GetCenter().y - dimension->Text().GetPosition().y;
dimension->Text().Move( wxPoint( 0, yAdjust + aElem.textgap ) );
dimension->Text().SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_CENTER );
}
void ALTIUM_PCB::HelperParseDimensions6Leader( const ADIMENSION6& aElem )
{
PCB_LAYER_ID klayer = GetKicadLayer( aElem.layer );
if( klayer == UNDEFINED_LAYER )
{
wxLogWarning( _( "Dimension found on an Altium layer (%d) with no KiCad equivalent. "
"It has been moved to KiCad layer Eco1_User." ),
aElem.layer );
klayer = Eco1_User;
}
if( !aElem.referencePoint.empty() )
{
wxPoint referencePoint0 = aElem.referencePoint.at( 0 );
// line
wxPoint last = referencePoint0;
for( size_t i = 1; i < aElem.referencePoint.size(); i++ )
{
PCB_SHAPE* shape = new PCB_SHAPE( m_board, SHAPE_T::SEGMENT );
m_board->Add( shape, ADD_MODE::APPEND );
shape->SetLayer( klayer );
shape->SetWidth( aElem.linewidth );
shape->SetStart( last );
shape->SetEnd( aElem.referencePoint.at( i ) );
last = aElem.referencePoint.at( i );
}
// arrow
if( aElem.referencePoint.size() >= 2 )
{
wxPoint dirVec = aElem.referencePoint.at( 1 ) - referencePoint0;
if( dirVec.x != 0 || dirVec.y != 0 )
{
double scaling = EuclideanNorm( dirVec ) / aElem.arrowsize;
wxPoint arrVec =
wxPoint( KiROUND( dirVec.x / scaling ), KiROUND( dirVec.y / scaling ) );
RotatePoint( &arrVec, 200. );
PCB_SHAPE* shape1 = new PCB_SHAPE( m_board, SHAPE_T::SEGMENT );
m_board->Add( shape1, ADD_MODE::APPEND );
shape1->SetLayer( klayer );
shape1->SetWidth( aElem.linewidth );
shape1->SetStart( referencePoint0 );
shape1->SetEnd( referencePoint0 + arrVec );
RotatePoint( &arrVec, -400. );
PCB_SHAPE* shape2 = new PCB_SHAPE( m_board, SHAPE_T::SEGMENT );
m_board->Add( shape2, ADD_MODE::APPEND );
shape2->SetLayer( klayer );
shape2->SetWidth( aElem.linewidth );
shape2->SetStart( referencePoint0 );
shape2->SetEnd( referencePoint0 + arrVec );
}
}
}
if( aElem.textPoint.empty() )
{
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wxLogError( wxT( "No text position present for leader dimension object" ) );
return;
}
PCB_TEXT* text = new PCB_TEXT( m_board );
m_board->Add( text, ADD_MODE::APPEND );
text->SetText( aElem.textformat );
text->SetPosition( aElem.textPoint.at( 0 ) );
text->SetLayer( klayer );
text->SetTextSize( wxSize( aElem.textheight, aElem.textheight ) ); // TODO: parse text width
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text->SetTextThickness( aElem.textlinewidth );
text->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_LEFT );
text->SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_BOTTOM );
}
void ALTIUM_PCB::HelperParseDimensions6Datum( const ADIMENSION6& aElem )
{
PCB_LAYER_ID klayer = GetKicadLayer( aElem.layer );
if( klayer == UNDEFINED_LAYER )
{
wxLogWarning( _( "Dimension found on an Altium layer (%d) with no KiCad equivalent. "
"It has been moved to KiCad layer Eco1_User." ),
aElem.layer );
klayer = Eco1_User;
}
for( size_t i = 0; i < aElem.referencePoint.size(); i++ )
{
PCB_SHAPE* shape = new PCB_SHAPE( m_board, SHAPE_T::SEGMENT );
m_board->Add( shape, ADD_MODE::APPEND );
shape->SetLayer( klayer );
shape->SetWidth( aElem.linewidth );
shape->SetStart( aElem.referencePoint.at( i ) );
// shape->SetEnd( /* TODO: seems to be based on TEXTY */ );
}
}
void ALTIUM_PCB::HelperParseDimensions6Center( const ADIMENSION6& aElem )
{
PCB_LAYER_ID klayer = GetKicadLayer( aElem.layer );
if( klayer == UNDEFINED_LAYER )
{
wxLogWarning( _( "Dimension found on an Altium layer (%d) with no KiCad equivalent. "
"It has been moved to KiCad layer Eco1_User." ),
aElem.layer );
klayer = Eco1_User;
}
wxPoint vec = wxPoint( 0, aElem.height / 2 );
RotatePoint( &vec, aElem.angle * 10. );
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PCB_DIM_CENTER* dimension = new PCB_DIM_CENTER( m_board );
m_board->Add( dimension, ADD_MODE::APPEND );
dimension->SetLayer( klayer );
dimension->SetLineThickness( aElem.linewidth );
dimension->SetStart( aElem.xy1 );
dimension->SetEnd( aElem.xy1 + vec );
}
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void ALTIUM_PCB::ParseDimensions6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
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m_progressReporter->Report( _( "Loading dimension drawings..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
ADIMENSION6 elem( reader );
switch( elem.kind )
{
case ALTIUM_DIMENSION_KIND::LINEAR:
HelperParseDimensions6Linear( elem );
break;
case ALTIUM_DIMENSION_KIND::RADIAL:
HelperParseDimensions6Radial( elem );
break;
case ALTIUM_DIMENSION_KIND::LEADER:
HelperParseDimensions6Leader( elem );
break;
case ALTIUM_DIMENSION_KIND::DATUM:
wxLogError( _( "Ignored dimension of kind %d (not yet supported)." ), elem.kind );
// HelperParseDimensions6Datum( elem );
break;
case ALTIUM_DIMENSION_KIND::CENTER:
HelperParseDimensions6Center( elem );
break;
default:
wxLogError( _( "Ignored dimension of kind %d (not yet supported)." ), elem.kind );
break;
}
}
if( reader.GetRemainingBytes() != 0 )
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THROW_IO_ERROR( wxT( "Dimensions6 stream is not fully parsed" ) );
}
void ALTIUM_PCB::ParseModelsData( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry, const wxString& aRootDir )
{
if( m_progressReporter )
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m_progressReporter->Report( _( "Loading 3D models..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
if( reader.GetRemainingBytes() == 0 )
return;
wxString projectPath = wxPathOnly( m_board->GetFileName() );
// TODO: set KIPRJMOD always after import (not only when loading project)?
wxSetEnv( PROJECT_VAR_NAME, projectPath );
// TODO: make this path configurable?
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const wxString altiumModelDir = wxT( "ALTIUM_EMBEDDED_MODELS" );
wxFileName altiumModelsPath = wxFileName::DirName( projectPath );
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wxString kicadModelPrefix = wxT( "${KIPRJMOD}/" ) + altiumModelDir + wxT( "/" );
if( !altiumModelsPath.AppendDir( altiumModelDir ) )
{
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THROW_IO_ERROR( wxT( "Cannot construct directory path for step models" ) );
}
// Create dir if it does not exist
if( !altiumModelsPath.DirExists() )
{
if( !altiumModelsPath.Mkdir() )
{
wxLogError( _( "Failed to create folder '%s'." ) + wxS( " " )
+ _( "No 3D-models will be imported." ),
altiumModelsPath.GetFullPath() );
return;
}
}
int idx = 0;
wxString invalidChars = wxFileName::GetForbiddenChars();
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
AMODEL elem( reader );
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wxString stepPath = wxString::Format( aRootDir + wxT( "%d" ), idx );
bool validName = !elem.name.IsEmpty() && elem.name.IsAscii() &&
wxString::npos == elem.name.find_first_of( invalidChars );
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wxString storageName = !validName ? wxString::Format( wxT( "model_%d" ), idx )
: elem.name;
wxFileName storagePath( altiumModelsPath.GetPath(), storageName );
idx++;
const CFB::COMPOUND_FILE_ENTRY* stepEntry = FindStream( aReader, stepPath.c_str() );
if( stepEntry == nullptr )
{
wxLogError( _( "File not found: '%s'. 3D-model not imported." ), stepPath );
continue;
}
size_t stepSize = static_cast<size_t>( stepEntry->size );
std::unique_ptr<char[]> stepContent( new char[stepSize] );
// read file into buffer
aReader.ReadFile( stepEntry, 0, stepContent.get(), stepSize );
if( !storagePath.IsDirWritable() )
{
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wxLogError( _( "Insufficient permissions to save file '%s'." ),
storagePath.GetFullPath() );
continue;
}
wxMemoryInputStream stepStream( stepContent.get(), stepSize );
wxZlibInputStream zlibInputStream( stepStream );
wxFFileOutputStream outputStream( storagePath.GetFullPath() );
outputStream.Write( zlibInputStream );
outputStream.Close();
m_models.insert( { elem.id, kicadModelPrefix + storageName } );
}
if( reader.GetRemainingBytes() != 0 )
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THROW_IO_ERROR( wxT( "Models stream is not fully parsed" ) );
}
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void ALTIUM_PCB::ParseNets6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
m_progressReporter->Report( _( "Loading nets..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
wxASSERT( m_num_nets == 0 );
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
ANET6 elem( reader );
m_board->Add( new NETINFO_ITEM( m_board, elem.name, ++m_num_nets ), ADD_MODE::APPEND );
}
if( reader.GetRemainingBytes() != 0 )
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THROW_IO_ERROR( wxT( "Nets6 stream is not fully parsed" ) );
}
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void ALTIUM_PCB::ParsePolygons6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
m_progressReporter->Report( _( "Loading polygons..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
APOLYGON6 elem( reader );
PCB_LAYER_ID klayer = GetKicadLayer( elem.layer );
if( klayer == UNDEFINED_LAYER )
{
wxLogWarning( _( "Polygon found on an Altium layer (%d) with no KiCad equivalent. "
"It has been moved to KiCad layer Eco1_User." ),
elem.layer );
klayer = Eco1_User;
}
SHAPE_LINE_CHAIN linechain;
HelperShapeLineChainFromAltiumVertices( linechain, elem.vertices );
if( linechain.PointCount() < 2 )
{
// We have found multiple Altium files with polygon records containing nothing but two
// coincident vertices. These polygons do not appear when opening the file in Altium.
// https://gitlab.com/kicad/code/kicad/-/issues/8183
//
// wxLogError( _( "Polygon has only %d point extracted from %ld vertices. At least 2 "
// "points are required." ),
// linechain.PointCount(),
// elem.vertices.size() );
m_polygons.emplace_back( nullptr );
continue;
}
ZONE* zone = new ZONE( m_board );
m_board->Add( zone, ADD_MODE::APPEND );
m_polygons.emplace_back( zone );
zone->SetFillVersion( 6 );
zone->SetNetCode( GetNetCode( elem.net ) );
zone->SetLayer( klayer );
zone->SetPosition( elem.vertices.at( 0 ).position );
zone->SetLocked( elem.locked );
zone->SetPriority( elem.pourindex > 0 ? elem.pourindex : 0 );
zone->Outline()->AddOutline( linechain );
if( elem.pourindex > m_highest_pour_index )
m_highest_pour_index = elem.pourindex;
// TODO: more flexible rule parsing
const ARULE6* clearanceRule = GetRuleDefault( ALTIUM_RULE_KIND::PLANE_CLEARANCE );
if( clearanceRule != nullptr )
zone->SetLocalClearance( clearanceRule->planeclearanceClearance );
const ARULE6* polygonConnectRule = GetRuleDefault( ALTIUM_RULE_KIND::POLYGON_CONNECT );
if( polygonConnectRule != nullptr )
{
switch( polygonConnectRule->polygonconnectStyle )
{
case ALTIUM_CONNECT_STYLE::DIRECT:
zone->SetPadConnection( ZONE_CONNECTION::FULL );
break;
case ALTIUM_CONNECT_STYLE::NONE:
zone->SetPadConnection( ZONE_CONNECTION::NONE );
break;
default:
case ALTIUM_CONNECT_STYLE::RELIEF:
zone->SetPadConnection( ZONE_CONNECTION::THERMAL );
break;
}
// TODO: correct variables?
zone->SetThermalReliefSpokeWidth(
polygonConnectRule->polygonconnectReliefconductorwidth );
zone->SetThermalReliefGap( polygonConnectRule->polygonconnectAirgapwidth );
if( polygonConnectRule->polygonconnectReliefconductorwidth < zone->GetMinThickness() )
zone->SetMinThickness( polygonConnectRule->polygonconnectReliefconductorwidth );
}
if( IsAltiumLayerAPlane( elem.layer ) )
{
// outer zone will be set to priority 0 later.
zone->SetPriority( 1 );
// check if this is the outer zone by simply comparing the BBOX
const auto& outer_plane = m_outer_plane.find( elem.layer );
if( outer_plane == m_outer_plane.end()
|| zone->GetBoundingBox().Contains( outer_plane->second->GetBoundingBox() ) )
{
m_outer_plane[elem.layer] = zone;
}
}
if( elem.hatchstyle != ALTIUM_POLYGON_HATCHSTYLE::SOLID
&& elem.hatchstyle != ALTIUM_POLYGON_HATCHSTYLE::UNKNOWN )
{
zone->SetFillMode( ZONE_FILL_MODE::HATCH_PATTERN );
zone->SetHatchThickness( elem.trackwidth );
if( elem.hatchstyle == ALTIUM_POLYGON_HATCHSTYLE::NONE )
{
// use a small hack to get us only an outline (hopefully)
const EDA_RECT& bbox = zone->GetBoundingBox();
zone->SetHatchGap( std::max( bbox.GetHeight(), bbox.GetWidth() ) );
}
else
{
zone->SetHatchGap( elem.gridsize - elem.trackwidth );
}
zone->SetHatchOrientation( elem.hatchstyle == ALTIUM_POLYGON_HATCHSTYLE::DEGREE_45 ? 45 : 0 );
}
zone->SetBorderDisplayStyle( ZONE_BORDER_DISPLAY_STYLE::DIAGONAL_EDGE,
ZONE::GetDefaultHatchPitch(), true );
}
if( reader.GetRemainingBytes() != 0 )
{
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THROW_IO_ERROR( wxT( "Polygons6 stream is not fully parsed" ) );
}
}
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void ALTIUM_PCB::ParseRules6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
m_progressReporter->Report( _( "Loading rules..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
ARULE6 elem( reader );
m_rules[elem.kind].emplace_back( elem );
}
// sort rules by priority
for( auto&& val : m_rules )
{
std::sort( val.second.begin(), val.second.end(),
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[]( const auto& lhs, const auto& rhs )
{
return lhs.priority < rhs.priority;
} );
}
if( reader.GetRemainingBytes() != 0 )
{
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THROW_IO_ERROR( wxT( "Rules6 stream is not fully parsed" ) );
}
}
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void ALTIUM_PCB::ParseBoardRegionsData( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
m_progressReporter->Report( _( "Loading board regions..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
AREGION6 elem( reader, false );
// TODO: implement?
}
if( reader.GetRemainingBytes() != 0 )
{
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THROW_IO_ERROR( wxT( "BoardRegions stream is not fully parsed" ) );
}
}
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void ALTIUM_PCB::ParseShapeBasedRegions6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
m_progressReporter->Report( _( "Loading zones..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
AREGION6 elem( reader, true );
if( elem.kind == ALTIUM_REGION_KIND::BOARD_CUTOUT )
{
HelperCreateBoardOutline( elem.outline );
}
else if( elem.kind == ALTIUM_REGION_KIND::POLYGON_CUTOUT || elem.is_keepout )
{
SHAPE_LINE_CHAIN linechain;
HelperShapeLineChainFromAltiumVertices( linechain, elem.outline );
if( linechain.PointCount() < 2 )
{
// We have found multiple Altium files with polygon records containing nothing but
// two coincident vertices. These polygons do not appear when opening the file in
// Altium. https://gitlab.com/kicad/code/kicad/-/issues/8183
//
// wxLogError( _( "ShapeBasedRegion has only %d point extracted from %ld vertices. "
// "At least 2 points are required." ),
// linechain.PointCount(),
// elem.outline.size() );
continue;
}
ZONE* zone = new ZONE( m_board );
m_board->Add( zone, ADD_MODE::APPEND );
zone->SetFillVersion( 6 );
zone->SetIsRuleArea( true );
zone->SetDoNotAllowTracks( false );
zone->SetDoNotAllowVias( false );
zone->SetDoNotAllowPads( false );
zone->SetDoNotAllowFootprints( false );
zone->SetDoNotAllowCopperPour( true );
zone->SetPosition( elem.outline.at( 0 ).position );
zone->Outline()->AddOutline( linechain );
if( elem.layer == ALTIUM_LAYER::MULTI_LAYER )
{
zone->SetLayer( F_Cu );
zone->SetLayerSet( LSET::AllCuMask() );
}
else
{
PCB_LAYER_ID klayer = GetKicadLayer( elem.layer );
if( klayer == UNDEFINED_LAYER )
{
wxLogWarning( _( "Zone found on an Altium layer (%d) with no KiCad equivalent. "
"It has been moved to KiCad layer Eco1_User." ),
elem.layer );
klayer = Eco1_User;
}
zone->SetLayer( klayer );
}
zone->SetBorderDisplayStyle( ZONE_BORDER_DISPLAY_STYLE::DIAGONAL_EDGE,
ZONE::GetDefaultHatchPitch(), true );
}
else if( elem.kind == ALTIUM_REGION_KIND::COPPER )
{
if( elem.subpolyindex == ALTIUM_POLYGON_NONE )
{
PCB_LAYER_ID klayer = GetKicadLayer( elem.layer );
if( klayer == UNDEFINED_LAYER )
{
wxLogWarning( _( "Polygon found on an Altium layer (%d) with no KiCad equivalent. "
"It has been moved to KiCad layer Eco1_User." ),
elem.layer );
klayer = Eco1_User;
}
SHAPE_LINE_CHAIN linechain;
HelperShapeLineChainFromAltiumVertices( linechain, elem.outline );
if( linechain.PointCount() < 2 )
{
// We have found multiple Altium files with polygon records containing nothing
// but two coincident vertices. These polygons do not appear when opening the
// file in Altium. https://gitlab.com/kicad/code/kicad/-/issues/8183
//
// wxLogError( _( "Polygon has only %d point extracted from %ld vertices. At "
// "least 2 points are required." ),
// linechain.PointCount(),
// elem.outline.size() );
continue;
}
PCB_SHAPE* shape = new PCB_SHAPE( m_board, SHAPE_T::POLY );
m_board->Add( shape, ADD_MODE::APPEND );
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shape->SetFilled( true );
shape->SetLayer( klayer );
shape->SetWidth( 0 );
shape->SetPolyShape( linechain );
}
}
else
{
wxLogError( _( "Ignored polygon shape of kind %d (not yet supported)." ), elem.kind );
}
}
if( reader.GetRemainingBytes() != 0 )
{
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THROW_IO_ERROR( wxT( "ShapeBasedRegions6 stream is not fully parsed" ) );
}
}
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void ALTIUM_PCB::ParseRegions6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
m_progressReporter->Report( _( "Loading zone fills..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
for( ZONE* zone : m_polygons )
{
if( zone )
zone->UnFill(); // just to be sure
}
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
AREGION6 elem( reader, false );
if( elem.subpolyindex != ALTIUM_POLYGON_NONE )
{
if( m_polygons.size() <= elem.subpolyindex )
{
THROW_IO_ERROR( wxString::Format( "Region stream tries to access polygon id %d "
"of %d existing polygons.",
elem.subpolyindex,
m_polygons.size() ) );
}
ZONE *zone = m_polygons.at( elem.subpolyindex );
if( zone == nullptr )
{
continue; // we know the zone id, but because we do not know the layer we did not add it!
}
PCB_LAYER_ID klayer = GetKicadLayer( elem.layer );
if( klayer == UNDEFINED_LAYER )
{
continue; // Just skip it for now. Users can fill it themselves.
}
SHAPE_LINE_CHAIN linechain;
for( const ALTIUM_VERTICE& vertice : elem.outline )
{
linechain.Append( vertice.position );
}
linechain.Append( elem.outline.at( 0 ).position );
linechain.SetClosed( true );
SHAPE_POLY_SET rawPolys;
rawPolys.AddOutline( linechain );
for( const std::vector<ALTIUM_VERTICE>& hole : elem.holes )
{
SHAPE_LINE_CHAIN hole_linechain;
for( const ALTIUM_VERTICE& vertice : hole )
{
hole_linechain.Append( vertice.position );
}
hole_linechain.Append( hole.at( 0 ).position );
hole_linechain.SetClosed( true );
rawPolys.AddHole( hole_linechain );
}
if( zone->GetFilledPolysUseThickness() )
rawPolys.Deflate( zone->GetMinThickness() / 2, 32 );
if( zone->HasFilledPolysForLayer( klayer ) )
rawPolys.BooleanAdd( zone->RawPolysList( klayer ),
SHAPE_POLY_SET::PM_STRICTLY_SIMPLE );
SHAPE_POLY_SET finalPolys = rawPolys;
finalPolys.Fracture( SHAPE_POLY_SET::PM_STRICTLY_SIMPLE );
zone->SetRawPolysList( klayer, rawPolys );
zone->SetFilledPolysList( klayer, finalPolys );
zone->SetIsFilled( true );
zone->SetNeedRefill( false );
}
}
if( reader.GetRemainingBytes() != 0 )
{
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THROW_IO_ERROR( wxT( "Regions6 stream is not fully parsed" ) );
}
}
void ALTIUM_PCB::ParseArcs6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
m_progressReporter->Report( _( "Loading arcs..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
AARC6 elem( reader );
if( elem.is_polygonoutline || elem.subpolyindex != ALTIUM_POLYGON_NONE )
continue;
// element in plane is in fact substracted from the plane. Should be already done by Altium?
//if( IsAltiumLayerAPlane( elem.layer ) )
// continue;
PCB_LAYER_ID klayer = GetKicadLayer( elem.layer );
if( elem.is_keepout || IsAltiumLayerAPlane( elem.layer ) )
{
PCB_SHAPE shape( nullptr ); // just a helper to get the graphic
shape.SetWidth( elem.width );
if( elem.startangle == 0. && elem.endangle == 360. )
{ // TODO: other variants to define circle?
shape.SetShape( SHAPE_T::CIRCLE );
shape.SetStart( elem.center );
shape.SetEnd( elem.center - wxPoint( 0, elem.radius ) );
}
else
{
shape.SetShape( SHAPE_T::ARC );
double includedAngle = elem.endangle - elem.startangle;
double startradiant = DEG2RAD( elem.startangle );
wxPoint arcStartOffset = wxPoint( KiROUND( std::cos( startradiant ) * elem.radius ),
-KiROUND( std::sin( startradiant ) * elem.radius ) );
shape.SetCenter( elem.center );
shape.SetStart( elem.center + arcStartOffset );
shape.SetArcAngleAndEnd( -NormalizeAngleDegreesPos( includedAngle ) * 10.0, true );
}
ZONE* zone = new ZONE( m_board );
m_board->Add( zone, ADD_MODE::APPEND );
zone->SetFillVersion( 6 );
zone->SetIsRuleArea( true );
zone->SetDoNotAllowTracks( false );
zone->SetDoNotAllowVias( false );
zone->SetDoNotAllowPads( false );
zone->SetDoNotAllowFootprints( false );
zone->SetDoNotAllowCopperPour( true );
if( elem.layer == ALTIUM_LAYER::MULTI_LAYER )
{
zone->SetLayer( F_Cu );
zone->SetLayerSet( LSET::AllCuMask() );
}
else
{
PCB_LAYER_ID klayer = GetKicadLayer( elem.layer );
if( klayer == UNDEFINED_LAYER )
{
wxLogWarning( _( "Arc keepout found on an Altium layer (%d) with no KiCad "
"equivalent. It has been moved to KiCad layer Eco1_User." ),
elem.layer );
klayer = Eco1_User;
}
zone->SetLayer( klayer );
}
shape.TransformShapeWithClearanceToPolygon( *zone->Outline(), klayer, 0, ARC_HIGH_DEF,
ERROR_INSIDE );
zone->Outline()->Simplify( SHAPE_POLY_SET::PM_STRICTLY_SIMPLE ); // the outline is not a single polygon!
zone->SetBorderDisplayStyle( ZONE_BORDER_DISPLAY_STYLE::DIAGONAL_EDGE,
ZONE::GetDefaultHatchPitch(), true );
continue;
}
if( klayer == UNDEFINED_LAYER )
{
wxLogWarning( _( "Arc found on an Altium layer (%d) with no KiCad equivalent. "
"It has been moved to KiCad layer Eco1_User." ),
elem.layer );
klayer = Eco1_User;
}
if( klayer >= F_Cu && klayer <= B_Cu )
{
double angle = -NormalizeAngleDegreesPos( elem.endangle - elem.startangle );
double startradiant = DEG2RAD( elem.startangle );
wxPoint arcStartOffset = wxPoint( KiROUND( std::cos( startradiant ) * elem.radius ),
-KiROUND( std::sin( startradiant ) * elem.radius ) );
arcStartOffset += elem.center;
// If it's a circle then add two 180-degree arcs
if( elem.startangle == 0. && elem.endangle == 360. )
angle = 180.;
SHAPE_ARC shapeArc( elem.center, arcStartOffset, angle, elem.width );
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PCB_ARC* arc = new PCB_ARC( m_board, &shapeArc );
m_board->Add( arc, ADD_MODE::APPEND );
arc->SetWidth( elem.width );
arc->SetLayer( klayer );
arc->SetNetCode( GetNetCode( elem.net ) );
// Add second 180-degree arc for a circle
if( elem.startangle == 0. && elem.endangle == 360. )
{
shapeArc = SHAPE_ARC( elem.center, arcStartOffset, -angle, elem.width );
arc = new PCB_ARC( m_board, &shapeArc );
m_board->Add( arc, ADD_MODE::APPEND );
arc->SetWidth( elem.width );
arc->SetLayer( klayer );
arc->SetNetCode( GetNetCode( elem.net ) );
}
}
else
{
PCB_SHAPE* shape = HelperCreateAndAddShape( elem.component );
shape->SetWidth( elem.width );
shape->SetLayer( klayer );
if( elem.startangle == 0. && elem.endangle == 360. )
{ // TODO: other variants to define circle?
shape->SetShape( SHAPE_T::CIRCLE );
shape->SetStart( elem.center );
shape->SetEnd( elem.center - wxPoint( 0, elem.radius ) );
}
else
{
shape->SetShape( SHAPE_T::ARC );
double includedAngle = elem.endangle - elem.startangle;
double startradiant = DEG2RAD( elem.startangle );
wxPoint arcStartOffset = wxPoint( KiROUND( std::cos( startradiant ) * elem.radius ),
-KiROUND( std::sin( startradiant ) * elem.radius ) );
shape->SetCenter( elem.center );
shape->SetStart( elem.center + arcStartOffset );
shape->SetArcAngleAndEnd( -NormalizeAngleDegreesPos( includedAngle ) * 10.0, true );
}
HelperShapeSetLocalCoord( shape, elem.component );
}
}
if( reader.GetRemainingBytes() != 0 )
{
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THROW_IO_ERROR( wxT( "Arcs6 stream is not fully parsed" ) );
}
}
void ALTIUM_PCB::ParsePads6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
m_progressReporter->Report( _( "Loading pads..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
APAD6 elem( reader );
// It is possible to place altium pads on non-copper layers -> we need to interpolate them using drawings!
if( !IsAltiumLayerCopper( elem.layer ) && !IsAltiumLayerAPlane( elem.layer )
&& elem.layer != ALTIUM_LAYER::MULTI_LAYER )
{
HelperParsePad6NonCopper( elem );
continue;
}
// Create Pad
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FOOTPRINT* footprint = nullptr;
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if( elem.component == ALTIUM_COMPONENT_NONE )
{
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footprint = new FOOTPRINT( m_board ); // We cannot add a pad directly into the PCB
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m_board->Add( footprint, ADD_MODE::APPEND );
footprint->SetPosition( elem.position );
}
else
{
if( m_components.size() <= elem.component )
{
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THROW_IO_ERROR( wxString::Format( wxT( "Pads6 stream tries to access component id "
"%d of %d existing components" ),
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elem.component,
m_components.size() ) );
}
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footprint = m_components.at( elem.component );
}
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PAD* pad = new PAD( footprint );
footprint->Add( pad, ADD_MODE::APPEND );
pad->SetNumber( elem.name );
pad->SetNetCode( GetNetCode( elem.net ) );
pad->SetLocked( elem.is_locked );
pad->SetPosition( elem.position );
pad->SetOrientationDegrees( elem.direction );
pad->SetLocalCoord();
pad->SetSize( elem.topsize );
if( elem.holesize == 0 )
{
pad->SetAttribute( PAD_ATTRIB::SMD );
}
else
{
if( elem.layer != ALTIUM_LAYER::MULTI_LAYER )
{
// TODO: I assume other values are possible as well?
wxLogError( _( "Footprint %s pad %s is not marked as multilayer, but is a TH pad." ),
footprint->GetReference(),
elem.name );
}
pad->SetAttribute( elem.plated ? PAD_ATTRIB::PTH :
PAD_ATTRIB::NPTH );
if( !elem.sizeAndShape || elem.sizeAndShape->holeshape == ALTIUM_PAD_HOLE_SHAPE::ROUND )
{
pad->SetDrillShape( PAD_DRILL_SHAPE_T::PAD_DRILL_SHAPE_CIRCLE );
pad->SetDrillSize( wxSize( elem.holesize, elem.holesize ) );
}
else
{
switch( elem.sizeAndShape->holeshape )
{
case ALTIUM_PAD_HOLE_SHAPE::ROUND:
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wxFAIL_MSG( wxT( "Round holes are handled before the switch" ) );
break;
case ALTIUM_PAD_HOLE_SHAPE::SQUARE:
wxLogWarning( _( "Footprint %s pad %s has a square hole (not yet supported)." ),
footprint->GetReference(),
elem.name );
pad->SetDrillShape( PAD_DRILL_SHAPE_T::PAD_DRILL_SHAPE_CIRCLE );
pad->SetDrillSize( wxSize( elem.holesize, elem.holesize ) ); // Workaround
// TODO: elem.sizeAndShape->slotsize was 0 in testfile. Either use holesize in this case or rect holes have a different id
break;
case ALTIUM_PAD_HOLE_SHAPE::SLOT:
{
pad->SetDrillShape( PAD_DRILL_SHAPE_T::PAD_DRILL_SHAPE_OBLONG );
double normalizedSlotrotation =
NormalizeAngleDegreesPos( elem.sizeAndShape->slotrotation );
if( normalizedSlotrotation == 0. || normalizedSlotrotation == 180. )
{
pad->SetDrillSize( wxSize( elem.sizeAndShape->slotsize, elem.holesize ) );
}
else
{
if( normalizedSlotrotation != 90. && normalizedSlotrotation != 270. )
{
wxLogWarning( _( "Footprint %s pad %s has a hole-rotation of %f "
"degrees. KiCad only supports 90 degree rotations." ),
footprint->GetReference(),
elem.name,
normalizedSlotrotation );
}
pad->SetDrillSize( wxSize( elem.holesize, elem.sizeAndShape->slotsize ) );
}
}
break;
default:
case ALTIUM_PAD_HOLE_SHAPE::UNKNOWN:
wxLogError( _( "Footprint %s pad %s uses a hole of unknown kind %d." ),
footprint->GetReference(),
elem.name,
elem.sizeAndShape->holeshape );
pad->SetDrillShape( PAD_DRILL_SHAPE_T::PAD_DRILL_SHAPE_CIRCLE );
pad->SetDrillSize( wxSize( elem.holesize, elem.holesize ) ); // Workaround
break;
}
}
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if( elem.sizeAndShape )
{
pad->SetOffset( elem.sizeAndShape->holeoffset[0] );
}
}
if( elem.padmode != ALTIUM_PAD_MODE::SIMPLE )
{
wxLogError( _( "Footprint %s pad %s uses a complex pad stack (not yet supported.)" ),
footprint->GetReference(),
elem.name );
}
switch( elem.topshape )
{
case ALTIUM_PAD_SHAPE::RECT:
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pad->SetShape( PAD_SHAPE::RECT );
break;
case ALTIUM_PAD_SHAPE::CIRCLE:
if( elem.sizeAndShape
&& elem.sizeAndShape->alt_shape[0] == ALTIUM_PAD_SHAPE_ALT::ROUNDRECT )
{
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pad->SetShape( PAD_SHAPE::ROUNDRECT ); // 100 = round, 0 = rectangular
double ratio = elem.sizeAndShape->cornerradius[0] / 200.;
pad->SetRoundRectRadiusRatio( ratio );
}
else if( elem.topsize.x == elem.topsize.y )
{
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pad->SetShape( PAD_SHAPE::CIRCLE );
}
else
{
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pad->SetShape( PAD_SHAPE::OVAL );
}
break;
case ALTIUM_PAD_SHAPE::OCTAGONAL:
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pad->SetShape( PAD_SHAPE::CHAMFERED_RECT );
pad->SetChamferPositions( RECT_CHAMFER_ALL );
pad->SetChamferRectRatio( 0.25 );
break;
case ALTIUM_PAD_SHAPE::UNKNOWN:
default:
wxLogError( _( "Footprint %s pad %s uses an unknown pad-shape." ),
footprint->GetReference(),
elem.name );
break;
}
switch( elem.layer )
{
case ALTIUM_LAYER::TOP_LAYER:
pad->SetLayer( F_Cu );
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pad->SetLayerSet( PAD::SMDMask() );
break;
case ALTIUM_LAYER::BOTTOM_LAYER:
pad->SetLayer( B_Cu );
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pad->SetLayerSet( FlipLayerMask( PAD::SMDMask() ) );
break;
case ALTIUM_LAYER::MULTI_LAYER:
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pad->SetLayerSet( elem.plated ? PAD::PTHMask() : PAD::UnplatedHoleMask() );
break;
default:
PCB_LAYER_ID klayer = GetKicadLayer( elem.layer );
pad->SetLayer( klayer );
pad->SetLayerSet( LSET( 1, klayer ) );
break;
}
if( elem.pastemaskexpansionmode == ALTIUM_PAD_RULE::MANUAL )
{
pad->SetLocalSolderPasteMargin( elem.pastemaskexpansionmanual );
}
if( elem.soldermaskexpansionmode == ALTIUM_PAD_RULE::MANUAL )
{
pad->SetLocalSolderMaskMargin( elem.soldermaskexpansionmanual );
}
if( elem.is_tent_top )
{
pad->SetLayerSet( pad->GetLayerSet().reset( F_Mask ) );
}
if( elem.is_tent_bottom )
{
pad->SetLayerSet( pad->GetLayerSet().reset( B_Mask ) );
}
}
if( reader.GetRemainingBytes() != 0 )
{
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THROW_IO_ERROR( wxT( "Pads6 stream is not fully parsed" ) );
}
}
void ALTIUM_PCB::HelperParsePad6NonCopper( const APAD6& aElem )
{
PCB_LAYER_ID klayer = GetKicadLayer( aElem.layer );
if( klayer == UNDEFINED_LAYER )
{
wxLogWarning( _( "Non-copper pad %s found on an Altium layer (%d) with no KiCad equivalent. "
"It has been moved to KiCad layer Eco1_User." ),
aElem.name,
aElem.layer );
klayer = Eco1_User;
}
if( aElem.net != ALTIUM_NET_UNCONNECTED )
{
wxLogError( _( "Non-copper pad %s is connected to a net, which is not supported." ),
aElem.name );
}
if( aElem.holesize != 0 )
{
wxLogError( _( "Non-copper pad %s has a hole, which is not supported." ), aElem.name );
}
if( aElem.padmode != ALTIUM_PAD_MODE::SIMPLE )
{
wxLogWarning( _( "Non-copper pad %s has a complex pad stack (not yet supported)." ),
aElem.name );
}
switch( aElem.topshape )
{
case ALTIUM_PAD_SHAPE::RECT:
{
// filled rect
PCB_SHAPE* shape = HelperCreateAndAddShape( aElem.component );
shape->SetShape( SHAPE_T::POLY );
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shape->SetFilled( true );
shape->SetLayer( klayer );
shape->SetWidth( 0 );
shape->SetPolyPoints( { aElem.position + wxPoint( aElem.topsize.x / 2, aElem.topsize.y / 2 ),
aElem.position + wxPoint( aElem.topsize.x / 2, -aElem.topsize.y / 2 ),
aElem.position + wxPoint( -aElem.topsize.x / 2, -aElem.topsize.y / 2 ),
aElem.position + wxPoint( -aElem.topsize.x / 2, aElem.topsize.y / 2 ) } );
if( aElem.direction != 0 )
shape->Rotate( aElem.position, aElem.direction * 10 );
HelperShapeSetLocalCoord( shape, aElem.component );
}
break;
case ALTIUM_PAD_SHAPE::CIRCLE:
if( aElem.sizeAndShape
&& aElem.sizeAndShape->alt_shape[0] == ALTIUM_PAD_SHAPE_ALT::ROUNDRECT )
{
// filled roundrect
int cornerradius = aElem.sizeAndShape->cornerradius[0];
int offset = ( std::min( aElem.topsize.x, aElem.topsize.y ) * cornerradius ) / 200;
PCB_SHAPE* shape = HelperCreateAndAddShape( aElem.component );
shape->SetLayer( klayer );
shape->SetWidth( offset * 2 );
if( cornerradius < 100 )
{
int offsetX = aElem.topsize.x / 2 - offset;
int offsetY = aElem.topsize.y / 2 - offset;
wxPoint p11 = aElem.position + wxPoint( offsetX, offsetY );
wxPoint p12 = aElem.position + wxPoint( offsetX, -offsetY );
wxPoint p22 = aElem.position + wxPoint( -offsetX, -offsetY );
wxPoint p21 = aElem.position + wxPoint( -offsetX, offsetY );
shape->SetShape( SHAPE_T::POLY );
shape->SetFilled( true );
shape->SetPolyPoints( { p11, p12, p22, p21 } );
}
else if( aElem.topsize.x == aElem.topsize.y )
{
// circle
shape->SetShape( SHAPE_T::CIRCLE );
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shape->SetFilled( true );
shape->SetStart( aElem.position );
shape->SetEnd( aElem.position - wxPoint( 0, aElem.topsize.x / 4 ) );
shape->SetWidth( aElem.topsize.x / 2 );
}
else if( aElem.topsize.x < aElem.topsize.y )
{
// short vertical line
shape->SetShape( SHAPE_T::SEGMENT );
wxPoint pointOffset( 0, ( aElem.topsize.y - aElem.topsize.x ) / 2 );
shape->SetStart( aElem.position + pointOffset );
shape->SetEnd( aElem.position - pointOffset );
}
else
{
// short horizontal line
shape->SetShape( SHAPE_T::SEGMENT );
wxPoint pointOffset( ( aElem.topsize.x - aElem.topsize.y ) / 2, 0 );
shape->SetStart( aElem.position + pointOffset );
shape->SetEnd( aElem.position - pointOffset );
}
if( aElem.direction != 0 )
shape->Rotate( aElem.position, aElem.direction * 10 );
HelperShapeSetLocalCoord( shape, aElem.component );
}
else if( aElem.topsize.x == aElem.topsize.y )
{
// filled circle
PCB_SHAPE* shape = HelperCreateAndAddShape( aElem.component );
shape->SetShape( SHAPE_T::CIRCLE );
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shape->SetFilled( true );
shape->SetLayer( klayer );
shape->SetStart( aElem.position );
shape->SetEnd( aElem.position - wxPoint( 0, aElem.topsize.x / 4 ) );
shape->SetWidth( aElem.topsize.x / 2 );
HelperShapeSetLocalCoord( shape, aElem.component );
}
else
{
// short line
PCB_SHAPE* shape = HelperCreateAndAddShape( aElem.component );
shape->SetShape( SHAPE_T::SEGMENT );
shape->SetLayer( klayer );
shape->SetWidth( std::min( aElem.topsize.x, aElem.topsize.y ) );
if( aElem.topsize.x < aElem.topsize.y )
{
wxPoint offset( 0, ( aElem.topsize.y - aElem.topsize.x ) / 2 );
shape->SetStart( aElem.position + offset );
shape->SetEnd( aElem.position - offset );
}
else
{
wxPoint offset( ( aElem.topsize.x - aElem.topsize.y ) / 2, 0 );
shape->SetStart( aElem.position + offset );
shape->SetEnd( aElem.position - offset );
}
if( aElem.direction != 0 )
shape->Rotate( aElem.position, aElem.direction * 10. );
HelperShapeSetLocalCoord( shape, aElem.component );
}
break;
case ALTIUM_PAD_SHAPE::OCTAGONAL:
{
// filled octagon
PCB_SHAPE* shape = HelperCreateAndAddShape( aElem.component );
shape->SetShape( SHAPE_T::POLY );
2020-11-14 01:16:02 +00:00
shape->SetFilled( true );
shape->SetLayer( klayer );
shape->SetWidth( 0 );
wxPoint p11 = aElem.position + wxPoint( aElem.topsize.x / 2, aElem.topsize.y / 2 );
wxPoint p12 = aElem.position + wxPoint( aElem.topsize.x / 2, -aElem.topsize.y / 2 );
wxPoint p22 = aElem.position + wxPoint( -aElem.topsize.x / 2, -aElem.topsize.y / 2 );
wxPoint p21 = aElem.position + wxPoint( -aElem.topsize.x / 2, aElem.topsize.y / 2 );
int chamfer = std::min( aElem.topsize.x, aElem.topsize.y ) / 4;
wxPoint chamferX( chamfer, 0 );
wxPoint chamferY( 0, chamfer );
shape->SetPolyPoints( { p11 - chamferX, p11 - chamferY, p12 + chamferY, p12 - chamferX,
p22 + chamferX, p22 + chamferY, p21 - chamferY, p21 + chamferX } );
if( aElem.direction != 0. )
shape->Rotate( aElem.position, aElem.direction * 10 );
HelperShapeSetLocalCoord( shape, aElem.component );
}
break;
case ALTIUM_PAD_SHAPE::UNKNOWN:
default:
wxLogError( _( "Non-copper pad %s uses an unknown pad-shape." ), aElem.name );
break;
}
}
void ALTIUM_PCB::ParseVias6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
m_progressReporter->Report( _( "Loading vias..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
AVIA6 elem( reader );
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PCB_VIA* via = new PCB_VIA( m_board );
m_board->Add( via, ADD_MODE::APPEND );
via->SetPosition( elem.position );
via->SetWidth( elem.diameter );
via->SetDrill( elem.holesize );
via->SetNetCode( GetNetCode( elem.net ) );
via->SetLocked( elem.is_locked );
bool start_layer_outside = elem.layer_start == ALTIUM_LAYER::TOP_LAYER
|| elem.layer_start == ALTIUM_LAYER::BOTTOM_LAYER;
bool end_layer_outside = elem.layer_end == ALTIUM_LAYER::TOP_LAYER
|| elem.layer_end == ALTIUM_LAYER::BOTTOM_LAYER;
if( start_layer_outside && end_layer_outside )
{
via->SetViaType( VIATYPE::THROUGH );
}
else if( ( !start_layer_outside ) && ( !end_layer_outside ) )
{
via->SetViaType( VIATYPE::BLIND_BURIED );
}
else
{
via->SetViaType( VIATYPE::MICROVIA ); // TODO: always a microvia?
}
PCB_LAYER_ID start_klayer = GetKicadLayer( elem.layer_start );
PCB_LAYER_ID end_klayer = GetKicadLayer( elem.layer_end );
if( !IsCopperLayer( start_klayer ) || !IsCopperLayer( end_klayer ) )
{
wxLogError( _( "Via from layer %d to %d uses a non-copper layer, which is not "
"supported." ),
elem.layer_start,
elem.layer_end );
continue; // just assume through-hole instead.
}
// we need VIATYPE set!
via->SetLayerPair( start_klayer, end_klayer );
}
if( reader.GetRemainingBytes() != 0 )
{
2022-02-05 02:06:25 +00:00
THROW_IO_ERROR( wxT( "Vias6 stream is not fully parsed" ) );
}
}
void ALTIUM_PCB::ParseTracks6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
m_progressReporter->Report( _( "Loading tracks..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
ATRACK6 elem( reader );
if( elem.is_polygonoutline || elem.subpolyindex != ALTIUM_POLYGON_NONE )
continue;
// element in plane is in fact substracted from the plane. Already done by Altium?
//if( IsAltiumLayerAPlane( elem.layer ) )
// continue;
PCB_LAYER_ID klayer = GetKicadLayer( elem.layer );
if( elem.is_keepout || IsAltiumLayerAPlane( elem.layer ) )
{
PCB_SHAPE shape( nullptr, SHAPE_T::SEGMENT );
shape.SetStart( elem.start );
shape.SetEnd( elem.end );
shape.SetWidth( elem.width );
ZONE* zone = new ZONE( m_board );
m_board->Add( zone, ADD_MODE::APPEND );
zone->SetFillVersion( 6 );
zone->SetIsRuleArea( true );
zone->SetDoNotAllowTracks( false );
zone->SetDoNotAllowVias( false );
zone->SetDoNotAllowPads( false );
zone->SetDoNotAllowFootprints( false );
zone->SetDoNotAllowCopperPour( true );
if( elem.layer == ALTIUM_LAYER::MULTI_LAYER )
{
zone->SetLayer( F_Cu );
zone->SetLayerSet( LSET::AllCuMask() );
}
else
{
PCB_LAYER_ID klayer = GetKicadLayer( elem.layer );
if( klayer == UNDEFINED_LAYER )
{
wxLogWarning( _( "Track keepout found on an Altium layer (%d) with no KiCad "
"equivalent. It has been moved to KiCad layer Eco1_User." ),
elem.layer );
klayer = Eco1_User;
}
zone->SetLayer( klayer );
}
shape.TransformShapeWithClearanceToPolygon( *zone->Outline(), klayer, 0, ARC_HIGH_DEF,
ERROR_INSIDE );
zone->SetBorderDisplayStyle( ZONE_BORDER_DISPLAY_STYLE::DIAGONAL_EDGE,
ZONE::GetDefaultHatchPitch(), true );
continue;
}
if( klayer == UNDEFINED_LAYER )
{
wxLogWarning( _( "Track found on an Altium layer (%d) with no KiCad equivalent. "
"It has been moved to KiCad layer Eco1_User." ),
elem.layer );
klayer = Eco1_User;
}
if( klayer >= F_Cu && klayer <= B_Cu )
{
2021-06-11 21:07:02 +00:00
PCB_TRACK* track = new PCB_TRACK( m_board );
m_board->Add( track, ADD_MODE::APPEND );
track->SetStart( elem.start );
track->SetEnd( elem.end );
track->SetWidth( elem.width );
track->SetLayer( klayer );
track->SetNetCode( GetNetCode( elem.net ) );
}
else
{
PCB_SHAPE* shape = HelperCreateAndAddShape( elem.component );
shape->SetShape( SHAPE_T::SEGMENT );
shape->SetStart( elem.start );
shape->SetEnd( elem.end );
shape->SetWidth( elem.width );
shape->SetLayer( klayer );
HelperShapeSetLocalCoord( shape, elem.component );
}
reader.SkipSubrecord();
}
if( reader.GetRemainingBytes() != 0 )
{
2022-02-05 02:06:25 +00:00
THROW_IO_ERROR( wxT( "Tracks6 stream is not fully parsed" ) );
}
}
void ALTIUM_PCB::ParseWideStrings6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
m_progressReporter->Report( _( "Loading unicode strings..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
m_unicodeStrings = reader.ReadWideStringTable();
if( reader.GetRemainingBytes() != 0 )
2022-02-05 02:06:25 +00:00
THROW_IO_ERROR( wxT( "WideStrings6 stream is not fully parsed" ) );
}
2020-11-13 15:15:52 +00:00
void ALTIUM_PCB::ParseTexts6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
m_progressReporter->Report( _( "Loading text..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
ATEXT6 elem( reader, m_unicodeStrings );
if( elem.fonttype == ALTIUM_TEXT_TYPE::BARCODE )
{
wxLogError( _( "Ignored barcode on Altium layer %d (not yet supported)." ),
elem.layer );
continue;
}
// TODO: better approach to select if item belongs to a FOOTPRINT
EDA_TEXT* tx = nullptr;
BOARD_ITEM* itm = nullptr;
if( elem.component == ALTIUM_COMPONENT_NONE )
{
PCB_TEXT* pcbText = new PCB_TEXT( m_board );
tx = pcbText;
itm = pcbText;
m_board->Add( pcbText, ADD_MODE::APPEND );
}
else
{
if( m_components.size() <= elem.component )
{
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THROW_IO_ERROR( wxString::Format( wxT( "Texts6 stream tries to access component "
"id %d of %d existing components" ),
2020-11-13 11:17:15 +00:00
elem.component,
m_components.size() ) );
}
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FOOTPRINT* footprint = m_components.at( elem.component );
FP_TEXT* fpText;
if( elem.isDesignator )
{
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fpText = &footprint->Reference();
}
else if( elem.isComment )
{
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fpText = &footprint->Value();
}
else
{
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fpText = new FP_TEXT( footprint );
footprint->Add( fpText, ADD_MODE::APPEND );
}
fpText->SetKeepUpright( false );
tx = fpText;
itm = fpText;
}
wxString trimmedText = elem.text.Trim();
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if( !elem.isDesignator && trimmedText.CmpNoCase( wxT( ".Designator" ) ) == 0 )
{
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tx->SetText( wxT( "${REFERENCE}" ) );
}
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else if( !elem.isComment && trimmedText.CmpNoCase( wxT( ".Comment" ) ) == 0 )
{
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tx->SetText( wxT( "${VALUE}" ) );
}
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else if( trimmedText.CmpNoCase( wxT( ".Layer_Name" ) ) == 0 )
{
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tx->SetText( wxT( "${LAYER}" ) );
}
else
{
tx->SetText( elem.text );
}
itm->SetPosition( elem.position );
tx->SetTextAngle( elem.rotation * 10. );
if( elem.component != ALTIUM_COMPONENT_NONE )
{
FP_TEXT* fpText = dynamic_cast<FP_TEXT*>( tx );
if( fpText )
{
FOOTPRINT* parentFootprint = static_cast<FOOTPRINT*>( fpText->GetParent() );
double orientation = parentFootprint->GetOrientation();
fpText->SetTextAngle( fpText->GetTextAngle() - orientation );
fpText->SetLocalCoord();
}
}
PCB_LAYER_ID klayer = GetKicadLayer( elem.layer );
if( klayer == UNDEFINED_LAYER )
{
wxLogWarning( _( "Text found on an Altium layer (%d) with no KiCad equivalent. "
"It has been moved to KiCad layer Eco1_User." ),
elem.layer );
klayer = Eco1_User;
}
itm->SetLayer( klayer );
if( elem.fonttype == ALTIUM_TEXT_TYPE::TRUETYPE )
{
// TODO: why is this required? Somehow, truetype size is calculated differently
tx->SetTextSize( wxSize( elem.height / 2, elem.height / 2 ) );
}
else
{
tx->SetTextSize( wxSize( elem.height, elem.height ) ); // TODO: parse text width
}
2020-04-14 12:25:00 +00:00
tx->SetTextThickness( elem.strokewidth );
tx->SetBold( elem.isBold );
tx->SetItalic( elem.isItalic );
tx->SetMirrored( elem.isMirrored );
if( elem.isDesignator || elem.isComment ) // That's just a bold assumption
{
tx->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_LEFT );
tx->SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_BOTTOM );
}
else
{
switch( elem.textposition )
{
case ALTIUM_TEXT_POSITION::LEFT_TOP:
case ALTIUM_TEXT_POSITION::LEFT_CENTER:
case ALTIUM_TEXT_POSITION::LEFT_BOTTOM:
tx->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_LEFT );
break;
case ALTIUM_TEXT_POSITION::CENTER_TOP:
case ALTIUM_TEXT_POSITION::CENTER_CENTER:
case ALTIUM_TEXT_POSITION::CENTER_BOTTOM:
tx->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_CENTER );
break;
case ALTIUM_TEXT_POSITION::RIGHT_TOP:
case ALTIUM_TEXT_POSITION::RIGHT_CENTER:
case ALTIUM_TEXT_POSITION::RIGHT_BOTTOM:
tx->SetHorizJustify( EDA_TEXT_HJUSTIFY_T::GR_TEXT_HJUSTIFY_RIGHT );
break;
default:
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wxLogError( wxT( "Unexpected horizontal Text Position. This should never happen." ) );
break;
}
switch( elem.textposition )
{
case ALTIUM_TEXT_POSITION::LEFT_TOP:
case ALTIUM_TEXT_POSITION::CENTER_TOP:
case ALTIUM_TEXT_POSITION::RIGHT_TOP:
tx->SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_TOP );
break;
case ALTIUM_TEXT_POSITION::LEFT_CENTER:
case ALTIUM_TEXT_POSITION::CENTER_CENTER:
case ALTIUM_TEXT_POSITION::RIGHT_CENTER:
tx->SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_CENTER );
break;
case ALTIUM_TEXT_POSITION::LEFT_BOTTOM:
case ALTIUM_TEXT_POSITION::CENTER_BOTTOM:
case ALTIUM_TEXT_POSITION::RIGHT_BOTTOM:
tx->SetVertJustify( EDA_TEXT_VJUSTIFY_T::GR_TEXT_VJUSTIFY_BOTTOM );
break;
default:
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wxLogError( wxT( "Unexpected vertical text position. This should never happen." ) );
break;
}
}
}
if( reader.GetRemainingBytes() != 0 )
{
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THROW_IO_ERROR( wxT( "Texts6 stream is not fully parsed" ) );
}
}
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void ALTIUM_PCB::ParseFills6Data( const CFB::CompoundFileReader& aReader,
const CFB::COMPOUND_FILE_ENTRY* aEntry )
{
if( m_progressReporter )
m_progressReporter->Report( _( "Loading rectangles..." ) );
ALTIUM_PARSER reader( aReader, aEntry );
while( reader.GetRemainingBytes() >= 4 /* TODO: use Header section of file */ )
{
checkpoint();
AFILL6 elem( reader );
wxPoint p11( elem.pos1.x, elem.pos1.y );
wxPoint p12( elem.pos1.x, elem.pos2.y );
wxPoint p22( elem.pos2.x, elem.pos2.y );
wxPoint p21( elem.pos2.x, elem.pos1.y );
wxPoint center( ( elem.pos1.x + elem.pos2.x ) / 2, ( elem.pos1.y + elem.pos2.y ) / 2 );
PCB_LAYER_ID klayer = GetKicadLayer( elem.layer );
if( klayer == UNDEFINED_LAYER )
{
wxLogWarning( _( "Fill found on an Altium layer (%d) with no KiCad equivalent. "
"It has been moved to KiCad layer Eco1_User." ),
elem.layer );
klayer = Eco1_User;
}
if( elem.is_keepout || elem.net != ALTIUM_NET_UNCONNECTED )
{
ZONE* zone = new ZONE( m_board );
m_board->Add( zone, ADD_MODE::APPEND );
zone->SetFillVersion( 6 );
zone->SetNetCode( GetNetCode( elem.net ) );
zone->SetLayer( klayer );
zone->SetPosition( elem.pos1 );
zone->SetPriority( 1000 );
const int outlineIdx = -1; // this is the id of the copper zone main outline
zone->AppendCorner( p11, outlineIdx );
zone->AppendCorner( p12, outlineIdx );
zone->AppendCorner( p22, outlineIdx );
zone->AppendCorner( p21, outlineIdx );
// should be correct?
zone->SetLocalClearance( 0 );
zone->SetPadConnection( ZONE_CONNECTION::FULL );
if( elem.is_keepout )
{
zone->SetIsRuleArea( true );
zone->SetDoNotAllowTracks( false );
zone->SetDoNotAllowVias( false );
zone->SetDoNotAllowPads( false );
zone->SetDoNotAllowFootprints( false );
zone->SetDoNotAllowCopperPour( true );
}
if( elem.rotation != 0. )
zone->Rotate( center, elem.rotation * 10 );
zone->SetBorderDisplayStyle( ZONE_BORDER_DISPLAY_STYLE::DIAGONAL_EDGE,
ZONE::GetDefaultHatchPitch(), true );
}
else
{
PCB_SHAPE* shape = new PCB_SHAPE( m_board, SHAPE_T::POLY );
m_board->Add( shape, ADD_MODE::APPEND );
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shape->SetFilled( true );
shape->SetLayer( klayer );
shape->SetWidth( 0 );
shape->SetPolyPoints( { p11, p12, p22, p21 } );
if( elem.rotation != 0. )
shape->Rotate( center, elem.rotation * 10 );
}
}
if( reader.GetRemainingBytes() != 0 )
{
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THROW_IO_ERROR( wxT( "Fills6 stream is not fully parsed" ) );
}
}