kicad/eeschema/sch_plugins/eagle/sch_eagle_plugin.cpp

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/*
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* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2017 CERN
* Copyright (C) 2017-2022 Kicad Developers, see AUTHORS.txt for contributors.
*
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* @author Alejandro García Montoro <alejandro.garciamontoro@gmail.com>
* @author Maciej Suminski <maciej.suminski@cern.ch>
* @author Russell Oliver <roliver8143@gmail.com>
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*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 3
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* 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, see <http://www.gnu.org/licenses/>.
*/
#include <sch_plugins/eagle/sch_eagle_plugin.h>
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#include <locale_io.h>
#include <properties.h>
#include <algorithm>
#include <memory>
#include <wx/filename.h>
#include <wx/tokenzr.h>
#include <wx/wfstream.h>
#include <wx/xml/xml.h>
#include <symbol_library.h>
#include <plugins/eagle/eagle_parser.h>
#include <string_utils.h>
#include <gr_text.h>
#include <lib_shape.h>
#include <lib_id.h>
#include <lib_item.h>
#include <lib_pin.h>
#include <lib_text.h>
#include <project.h>
#include <sch_bus_entry.h>
#include <sch_symbol.h>
#include <project/net_settings.h>
#include <sch_edit_frame.h>
#include <sch_junction.h>
#include <sch_plugins/legacy/sch_legacy_plugin.h>
#include <sch_marker.h>
#include <sch_screen.h>
#include <sch_sheet.h>
#include <sch_sheet_path.h>
#include <sch_label.h>
#include <schematic.h>
#include <symbol_lib_table.h>
#include <wildcards_and_files_ext.h>
#include <progress_reporter.h>
// Eagle schematic axes are aligned with x increasing left to right and Y increasing bottom to top
// KiCad schematic axes are aligned with x increasing left to right and Y increasing top to bottom.
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using namespace std;
/**
* Map of EAGLE pin type values to KiCad pin type values
*/
static const std::map<wxString, ELECTRICAL_PINTYPE> pinDirectionsMap = {
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{ wxT( "sup" ), ELECTRICAL_PINTYPE::PT_POWER_IN },
{ wxT( "pas" ), ELECTRICAL_PINTYPE::PT_PASSIVE },
{ wxT( "out" ), ELECTRICAL_PINTYPE::PT_OUTPUT },
{ wxT( "in" ), ELECTRICAL_PINTYPE::PT_INPUT },
{ wxT( "nc" ), ELECTRICAL_PINTYPE::PT_NC },
{ wxT( "io" ), ELECTRICAL_PINTYPE::PT_BIDI },
{ wxT( "oc" ), ELECTRICAL_PINTYPE::PT_OPENCOLLECTOR },
{ wxT( "hiz" ), ELECTRICAL_PINTYPE::PT_TRISTATE },
{ wxT( "pwr" ), ELECTRICAL_PINTYPE::PT_POWER_IN },
};
/**
* Provide an easy access to the children of an XML node via their names.
*
* @param aCurrentNode is a pointer to a wxXmlNode, whose children will be mapped.
* @param aName the name of the specific child names to be counted.
* @return number of children with the give node name.
*/
static int countChildren( wxXmlNode* aCurrentNode, const wxString& aName )
{
// Map node_name -> node_pointer
int count = 0;
// Loop through all children counting them if they match the given name
aCurrentNode = aCurrentNode->GetChildren();
while( aCurrentNode )
{
if( aCurrentNode->GetName() == aName )
count++;
// Get next child
aCurrentNode = aCurrentNode->GetNext();
}
return count;
}
///< Compute a bounding box for all items in a schematic sheet
static EDA_RECT getSheetBbox( SCH_SHEET* aSheet )
{
EDA_RECT bbox;
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for( SCH_ITEM* item : aSheet->GetScreen()->Items() )
bbox.Merge( item->GetBoundingBox() );
return bbox;
}
///< Extract the net name part from a pin name (e.g. return 'GND' for pin named 'GND@2')
static inline wxString extractNetName( const wxString& aPinName )
{
return aPinName.BeforeFirst( '@' );
}
wxString SCH_EAGLE_PLUGIN::getLibName()
{
if( m_libName.IsEmpty() )
{
// Try to come up with a meaningful name
m_libName = m_schematic->Prj().GetProjectName();
if( m_libName.IsEmpty() )
{
wxFileName fn( m_rootSheet->GetFileName() );
m_libName = fn.GetName();
}
if( m_libName.IsEmpty() )
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m_libName = wxT( "noname" );
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m_libName += wxT( "-eagle-import" );
m_libName = LIB_ID::FixIllegalChars( m_libName, true );
}
return m_libName;
}
wxFileName SCH_EAGLE_PLUGIN::getLibFileName()
{
wxFileName fn( m_schematic->Prj().GetProjectPath(), getLibName(), KiCadSymbolLibFileExtension );
return fn;
}
void SCH_EAGLE_PLUGIN::loadLayerDefs( wxXmlNode* aLayers )
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{
std::vector<ELAYER> eagleLayers;
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// Get the first layer and iterate
wxXmlNode* layerNode = aLayers->GetChildren();
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while( layerNode )
{
ELAYER elayer( layerNode );
eagleLayers.push_back( elayer );
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layerNode = layerNode->GetNext();
}
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// match layers based on their names
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for( const ELAYER& elayer : eagleLayers )
{
/**
* Layers in KiCad schematics are not actually layers, but abstract groups mainly used to
* decide item colors.
*
* <layers>
* <layer number="90" name="Modules" color="5" fill="1" visible="yes" active="yes"/>
* <layer number="91" name="Nets" color="2" fill="1" visible="yes" active="yes"/>
* <layer number="92" name="Busses" color="1" fill="1" visible="yes" active="yes"/>
* <layer number="93" name="Pins" color="2" fill="1" visible="no" active="yes"/>
* <layer number="94" name="Symbols" color="4" fill="1" visible="yes" active="yes"/>
* <layer number="95" name="Names" color="7" fill="1" visible="yes" active="yes"/>
* <layer number="96" name="Values" color="7" fill="1" visible="yes" active="yes"/>
* <layer number="97" name="Info" color="7" fill="1" visible="yes" active="yes"/>
* <layer number="98" name="Guide" color="6" fill="1" visible="yes" active="yes"/>
* </layers>
*/
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if( elayer.name == wxT( "Nets" ) )
{
m_layerMap[elayer.number] = LAYER_WIRE;
}
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else if( elayer.name == wxT( "Info" ) || elayer.name == wxT( "Guide" ) )
{
m_layerMap[elayer.number] = LAYER_NOTES;
}
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else if( elayer.name == wxT( "Busses" ) )
{
m_layerMap[elayer.number] = LAYER_BUS;
}
}
}
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SCH_LAYER_ID SCH_EAGLE_PLUGIN::kiCadLayer( int aEagleLayer )
{
auto it = m_layerMap.find( aEagleLayer );
return it == m_layerMap.end() ? LAYER_NOTES : it->second;
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}
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// Return the KiCad symbol orientation based on eagle rotation degrees.
static SYMBOL_ORIENTATION_T kiCadComponentRotation( float eagleDegrees )
{
int roti = int( eagleDegrees );
switch( roti )
{
default:
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wxASSERT_MSG( false, wxString::Format( wxT( "Unhandled orientation (%d degrees)" ), roti ) );
KI_FALLTHROUGH;
case 0:
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return SYM_ORIENT_0;
case 90:
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return SYM_ORIENT_90;
case 180:
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return SYM_ORIENT_180;
case 270:
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return SYM_ORIENT_270;
}
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return SYM_ORIENT_0;
}
// Calculate text alignment based on the given Eagle text alignment parameters.
static void eagleToKicadAlignment( EDA_TEXT* aText, int aEagleAlignment, int aRelDegress,
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bool aMirror, bool aSpin, int aAbsDegress )
{
int align = aEagleAlignment;
if( aRelDegress == 90 )
{
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aText->SetTextAngle( ANGLE_VERTICAL );
}
else if( aRelDegress == 180 )
align = -align;
else if( aRelDegress == 270 )
{
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aText->SetTextAngle( ANGLE_VERTICAL );
align = -align;
}
if( aMirror == true )
{
if( aAbsDegress == 90 || aAbsDegress == 270 )
{
if( align == ETEXT::BOTTOM_RIGHT )
align = ETEXT::TOP_RIGHT;
else if( align == ETEXT::BOTTOM_LEFT )
align = ETEXT::TOP_LEFT;
else if( align == ETEXT::TOP_LEFT )
align = ETEXT::BOTTOM_LEFT;
else if( align == ETEXT::TOP_RIGHT )
align = ETEXT::BOTTOM_RIGHT;
}
else if( aAbsDegress == 0 || aAbsDegress == 180 )
{
if( align == ETEXT::BOTTOM_RIGHT )
align = ETEXT::BOTTOM_LEFT;
else if( align == ETEXT::BOTTOM_LEFT )
align = ETEXT::BOTTOM_RIGHT;
else if( align == ETEXT::TOP_LEFT )
align = ETEXT::TOP_RIGHT;
else if( align == ETEXT::TOP_RIGHT )
align = ETEXT::TOP_LEFT;
else if( align == ETEXT::CENTER_LEFT )
align = ETEXT::CENTER_RIGHT;
else if( align == ETEXT::CENTER_RIGHT )
align = ETEXT::CENTER_LEFT;
}
}
switch( align )
{
case ETEXT::CENTER:
aText->SetHorizJustify( GR_TEXT_H_ALIGN_CENTER );
aText->SetVertJustify( GR_TEXT_V_ALIGN_CENTER );
break;
case ETEXT::CENTER_LEFT:
aText->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );
aText->SetVertJustify( GR_TEXT_V_ALIGN_CENTER );
break;
case ETEXT::CENTER_RIGHT:
aText->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT );
aText->SetVertJustify( GR_TEXT_V_ALIGN_CENTER );
break;
case ETEXT::TOP_CENTER:
aText->SetHorizJustify( GR_TEXT_H_ALIGN_CENTER );
aText->SetVertJustify( GR_TEXT_V_ALIGN_TOP );
break;
case ETEXT::TOP_LEFT:
aText->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );
aText->SetVertJustify( GR_TEXT_V_ALIGN_TOP );
break;
case ETEXT::TOP_RIGHT:
aText->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT );
aText->SetVertJustify( GR_TEXT_V_ALIGN_TOP );
break;
case ETEXT::BOTTOM_CENTER:
aText->SetHorizJustify( GR_TEXT_H_ALIGN_CENTER );
aText->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );
break;
case ETEXT::BOTTOM_LEFT:
aText->SetHorizJustify( GR_TEXT_H_ALIGN_LEFT );
aText->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );
break;
case ETEXT::BOTTOM_RIGHT:
aText->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT );
aText->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );
break;
default:
aText->SetHorizJustify( GR_TEXT_H_ALIGN_RIGHT );
aText->SetVertJustify( GR_TEXT_V_ALIGN_BOTTOM );
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break;
}
}
SCH_EAGLE_PLUGIN::SCH_EAGLE_PLUGIN() :
m_progressReporter( nullptr ),
m_doneCount( 0 ),
m_lastProgressCount( 0 ),
m_totalCount( 0 )
{
m_rootSheet = nullptr;
m_currentSheet = nullptr;
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m_schematic = nullptr;
m_reporter = &WXLOG_REPORTER::GetInstance();
}
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SCH_EAGLE_PLUGIN::~SCH_EAGLE_PLUGIN()
{
}
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const wxString SCH_EAGLE_PLUGIN::GetName() const
{
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return wxT( "EAGLE" );
}
const wxString SCH_EAGLE_PLUGIN::GetFileExtension() const
{
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return wxT( "sch" );
}
const wxString SCH_EAGLE_PLUGIN::GetLibraryFileExtension() const
{
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return wxT( "lbr" );
}
int SCH_EAGLE_PLUGIN::GetModifyHash() const
{
return 0;
}
void SCH_EAGLE_PLUGIN::checkpoint()
{
const unsigned PROGRESS_DELTA = 5;
if( m_progressReporter )
{
if( ++m_doneCount > m_lastProgressCount + PROGRESS_DELTA )
{
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m_progressReporter->SetCurrentProgress( ( (double) m_doneCount )
/ std::max( 1U, m_totalCount ) );
if( !m_progressReporter->KeepRefreshing() )
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THROW_IO_ERROR( ( "Open canceled by user." ) );
m_lastProgressCount = m_doneCount;
}
}
}
SCH_SHEET* SCH_EAGLE_PLUGIN::Load( const wxString& aFileName, SCHEMATIC* aSchematic,
SCH_SHEET* aAppendToMe, const PROPERTIES* aProperties )
{
wxASSERT( !aFileName || aSchematic != nullptr );
LOCALE_IO toggle; // toggles on, then off, the C locale.
m_filename = aFileName;
m_schematic = aSchematic;
if( m_progressReporter )
{
m_progressReporter->Report( wxString::Format( _( "Loading %s..." ), aFileName ) );
if( !m_progressReporter->KeepRefreshing() )
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THROW_IO_ERROR( ( "Open canceled by user." ) );
}
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// Load the document
wxXmlDocument xmlDocument;
wxFFileInputStream stream( m_filename.GetFullPath() );
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if( !stream.IsOk() || !xmlDocument.Load( stream ) )
{
THROW_IO_ERROR( wxString::Format( _( "Unable to read file '%s'." ),
m_filename.GetFullPath() ) );
}
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// Delete on exception, if I own m_rootSheet, according to aAppendToMe
unique_ptr<SCH_SHEET> deleter( aAppendToMe ? nullptr : m_rootSheet );
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wxFileName newFilename( m_filename );
newFilename.SetExt( KiCadSchematicFileExtension );
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if( aAppendToMe )
{
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wxCHECK_MSG( aSchematic->IsValid(), nullptr,
wxT( "Can't append to a schematic with no root!" ) );
m_rootSheet = &aSchematic->Root();
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}
else
{
m_rootSheet = new SCH_SHEET( aSchematic );
m_rootSheet->SetFileName( newFilename.GetFullPath() );
aSchematic->SetRoot( m_rootSheet );
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}
if( !m_rootSheet->GetScreen() )
{
SCH_SCREEN* screen = new SCH_SCREEN( m_schematic );
screen->SetFileName( newFilename.GetFullPath() );
m_rootSheet->SetScreen( screen );
}
SYMBOL_LIB_TABLE* libTable = m_schematic->Prj().SchSymbolLibTable();
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wxCHECK_MSG( libTable, nullptr, wxT( "Could not load symbol lib table." ) );
m_pi.set( SCH_IO_MGR::FindPlugin( SCH_IO_MGR::SCH_KICAD ) );
m_properties = std::make_unique<PROPERTIES>();
( *m_properties )[SCH_LEGACY_PLUGIN::PropBuffering] = "";
/// @note No check is being done here to see if the existing symbol library exists so this
/// will overwrite the existing one.
if( !libTable->HasLibrary( getLibName() ) )
{
// Create a new empty symbol library.
m_pi->CreateSymbolLib( getLibFileName().GetFullPath() );
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wxString libTableUri = wxT( "${KIPRJMOD}/" ) + getLibFileName().GetFullName();
// Add the new library to the project symbol library table.
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libTable->InsertRow( new SYMBOL_LIB_TABLE_ROW( getLibName(), libTableUri, wxT( "KiCad" ) ) );
// Save project symbol library table.
wxFileName fn( m_schematic->Prj().GetProjectPath(),
SYMBOL_LIB_TABLE::GetSymbolLibTableFileName() );
// So output formatter goes out of scope and closes the file before reloading.
{
FILE_OUTPUTFORMATTER formatter( fn.GetFullPath() );
libTable->Format( &formatter, 0 );
}
// Reload the symbol library table.
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m_schematic->Prj().SetElem( PROJECT::ELEM_SYMBOL_LIB_TABLE, nullptr );
m_schematic->Prj().SchSymbolLibTable();
}
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// Retrieve the root as current node
wxXmlNode* currentNode = xmlDocument.GetRoot();
// If the attribute is found, store the Eagle version;
// otherwise, store the dummy "0.0" version.
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m_version = currentNode->GetAttribute( wxT( "version" ), wxT( "0.0" ) );
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// Map all children into a readable dictionary
NODE_MAP children = MapChildren( currentNode );
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// Load drawing
loadDrawing( children["drawing"] );
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m_pi->SaveLibrary( getLibFileName().GetFullPath() );
SCH_SCREENS allSheets( m_rootSheet );
allSheets.UpdateSymbolLinks(); // Update all symbol library links for all sheets.
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return m_rootSheet;
}
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void SCH_EAGLE_PLUGIN::loadDrawing( wxXmlNode* aDrawingNode )
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{
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// Map all children into a readable dictionary
NODE_MAP drawingChildren = MapChildren( aDrawingNode );
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// Board nodes should not appear in .sch files
// wxXmlNode* board = drawingChildren["board"]
// wxXmlNode* grid = drawingChildren["grid"]
auto layers = drawingChildren["layers"];
if( layers )
loadLayerDefs( layers );
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// wxXmlNode* library = drawingChildren["library"]
// wxXmlNode* settings = drawingChildren["settings"]
// Load schematic
auto schematic = drawingChildren["schematic"];
if( schematic )
loadSchematic( schematic );
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}
void SCH_EAGLE_PLUGIN::countNets( wxXmlNode* aSchematicNode )
{
// Map all children into a readable dictionary
NODE_MAP schematicChildren = MapChildren( aSchematicNode );
// Loop through all the sheets
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wxXmlNode* sheetNode = getChildrenNodes( schematicChildren, wxT( "sheets" ) );
while( sheetNode )
{
NODE_MAP sheetChildren = MapChildren( sheetNode );
// Loop through all nets
// From the DTD: "Net is an electrical connection in a schematic."
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wxXmlNode* netNode = getChildrenNodes( sheetChildren, wxT( "nets" ) );
while( netNode )
{
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wxString netName = netNode->GetAttribute( wxT( "name" ) );
if( m_netCounts.count( netName ) )
m_netCounts[netName] = m_netCounts[netName] + 1;
else
m_netCounts[netName] = 1;
// Get next net
netNode = netNode->GetNext();
}
sheetNode = sheetNode->GetNext();
}
}
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void SCH_EAGLE_PLUGIN::loadSchematic( wxXmlNode* aSchematicNode )
{
// Map all children into a readable dictionary
NODE_MAP schematicChildren = MapChildren( aSchematicNode );
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wxXmlNode* partNode = getChildrenNodes( schematicChildren, wxT( "parts" ) );
wxXmlNode* libraryNode = getChildrenNodes( schematicChildren, wxT( "libraries" ) );
wxXmlNode* sheetNode = getChildrenNodes( schematicChildren, wxT( "sheets" ) );
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if( !sheetNode )
return;
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auto count_nodes =
[]( wxXmlNode* aNode ) -> unsigned
{
unsigned count = 0;
while( aNode )
{
count++;
aNode = aNode->GetNext();
}
return count;
};
if( m_progressReporter )
{
m_totalCount = 0;
m_doneCount = 0;
m_totalCount += count_nodes( partNode );
while( libraryNode )
{
NODE_MAP libraryChildren = MapChildren( libraryNode );
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wxXmlNode* devicesetNode = getChildrenNodes( libraryChildren, wxT( "devicesets" ) );
while( devicesetNode )
{
NODE_MAP deviceSetChildren = MapChildren( devicesetNode );
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wxXmlNode* deviceNode = getChildrenNodes( deviceSetChildren, wxT( "devices" ) );
wxXmlNode* gateNode = getChildrenNodes( deviceSetChildren, wxT( "gates" ) );
m_totalCount += count_nodes( deviceNode ) * count_nodes( gateNode );
devicesetNode = devicesetNode->GetNext();
}
libraryNode = libraryNode->GetNext();
}
// Rewind
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libraryNode = getChildrenNodes( schematicChildren, wxT( "libraries" ) );
while( sheetNode )
{
NODE_MAP sheetChildren = MapChildren( sheetNode );
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m_totalCount += count_nodes( getChildrenNodes( sheetChildren, wxT( "instances" ) ) );
m_totalCount += count_nodes( getChildrenNodes( sheetChildren, wxT( "busses" ) ) );
m_totalCount += count_nodes( getChildrenNodes( sheetChildren, wxT( "nets" ) ) );
m_totalCount += count_nodes( getChildrenNodes( sheetChildren, wxT( "plain" ) ) );
sheetNode = sheetNode->GetNext();
}
// Rewind
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sheetNode = getChildrenNodes( schematicChildren, wxT( "sheets" ) );
}
while( partNode )
{
checkpoint();
std::unique_ptr<EPART> epart = std::make_unique<EPART>( partNode );
// N.B. Eagle parts are case-insensitive in matching but we keep the display case
m_partlist[epart->name.Upper()] = std::move( epart );
partNode = partNode->GetNext();
}
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if( libraryNode )
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{
while( libraryNode )
{
// Read the library name
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wxString libName = libraryNode->GetAttribute( wxT( "name" ) );
EAGLE_LIBRARY* elib = &m_eagleLibs[libName];
elib->name = libName;
loadLibrary( libraryNode, &m_eagleLibs[libName] );
libraryNode = libraryNode->GetNext();
}
m_pi->SaveLibrary( getLibFileName().GetFullPath() );
}
// find all nets and count how many sheets they appear on.
// local labels will be used for nets found only on that sheet.
countNets( aSchematicNode );
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// Loop through all the sheets
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int sheet_count = countChildren( sheetNode->GetParent(), wxT( "sheet" ) );
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// If eagle schematic has multiple sheets then create corresponding subsheets on the root sheet
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if( sheet_count > 1 )
{
int x, y, i;
i = 2;
x = 1;
y = 1;
SCH_SHEET_PATH rootsheetpath;
rootsheetpath.push_back( m_rootSheet );
m_rootSheet->AddInstance( rootsheetpath );
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m_rootSheet->SetPageNumber( rootsheetpath, wxT( "1" ) );
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while( sheetNode )
{
VECTOR2I pos = VECTOR2I( x * Mils2iu( 1000 ), y * Mils2iu( 1000 ) );
std::unique_ptr<SCH_SHEET> sheet = std::make_unique<SCH_SHEET>( m_rootSheet, pos );
SCH_SCREEN* screen = new SCH_SCREEN( m_schematic );
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wxString pageNo = wxString::Format( wxT( "%d" ), i );
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sheet->SetScreen( screen );
sheet->GetScreen()->SetFileName( sheet->GetFileName() );
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m_currentSheet = sheet.get();
loadSheet( sheetNode, i );
m_rootSheet->GetScreen()->Append( sheet.release() );
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SCH_SHEET_PATH sheetpath;
m_rootSheet->LocatePathOfScreen( m_currentSheet->GetScreen(), &sheetpath );
m_currentSheet->AddInstance( sheetpath );
m_currentSheet->SetPageNumber( sheetpath, pageNo );
m_rootSheet->AddInstance( sheetpath );
m_rootSheet->SetPageNumber( sheetpath, pageNo );
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sheetNode = sheetNode->GetNext();
x += 2;
if( x > 10 ) // start next row
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{
x = 1;
y += 2;
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}
i++;
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}
}
else
{
while( sheetNode )
{
m_currentSheet = m_rootSheet;
loadSheet( sheetNode, 0 );
sheetNode = sheetNode->GetNext();
SCH_SHEET_PATH rootPath;
rootPath.push_back( m_rootSheet );
m_rootSheet->AddInstance( rootPath );
m_rootSheet->SetPageNumber( rootPath, wxT( "1" ) );
}
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}
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// Handle the missing symbol units that need to be instantiated
// to create the missing implicit connections
// Calculate the already placed items bounding box and the page size to determine
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// placement for the new symbols
wxSize pageSizeIU = m_rootSheet->GetScreen()->GetPageSettings().GetSizeIU( IU_PER_MILS );
EDA_RECT sheetBbox = getSheetBbox( m_rootSheet );
VECTOR2I newCmpPosition( sheetBbox.GetLeft(), sheetBbox.GetBottom() );
int maxY = sheetBbox.GetY();
SCH_SHEET_PATH sheetpath;
m_rootSheet->LocatePathOfScreen( m_rootSheet->GetScreen(), &sheetpath );
for( auto& cmp : m_missingCmps )
{
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const SCH_SYMBOL* origSymbol = cmp.second.cmp;
for( auto unitEntry : cmp.second.units )
{
if( unitEntry.second == false )
continue; // unit has been already processed
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// Instantiate the missing symbol unit
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int unit = unitEntry.first;
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const wxString reference = origSymbol->GetField( REFERENCE_FIELD )->GetText();
std::unique_ptr<SCH_SYMBOL> symbol( (SCH_SYMBOL*) origSymbol->Duplicate() );
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symbol->SetUnitSelection( &sheetpath, unit );
symbol->SetUnit( unit );
symbol->SetOrientation( 0 );
symbol->AddHierarchicalReference( sheetpath.Path(), reference, unit );
// Calculate the placement position
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EDA_RECT cmpBbox = symbol->GetBoundingBox();
int posY = newCmpPosition.y + cmpBbox.GetHeight();
symbol->SetPosition( VECTOR2I( newCmpPosition.x, posY ) );
newCmpPosition.x += cmpBbox.GetWidth();
maxY = std::max( maxY, posY );
if( newCmpPosition.x >= pageSizeIU.GetWidth() ) // reached the page boundary?
newCmpPosition = VECTOR2I( sheetBbox.GetLeft(), maxY ); // then start a new row
// Add the global net labels to recreate the implicit connections
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addImplicitConnections( symbol.get(), m_rootSheet->GetScreen(), false );
m_rootSheet->GetScreen()->Append( symbol.release() );
}
}
m_missingCmps.clear();
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}
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void SCH_EAGLE_PLUGIN::loadSheet( wxXmlNode* aSheetNode, int aSheetIndex )
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{
// Map all children into a readable dictionary
NODE_MAP sheetChildren = MapChildren( aSheetNode );
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// Get description node
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wxXmlNode* descriptionNode = getChildrenNodes( sheetChildren, wxT( "description" ) );
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wxString des;
std::string filename;
SCH_FIELD& sheetNameField = m_currentSheet->GetFields()[SHEETNAME];
SCH_FIELD& filenameField = m_currentSheet->GetFields()[SHEETFILENAME];
if( descriptionNode )
{
des = descriptionNode->GetContent();
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des.Replace( wxT( "\n" ), wxT( "_" ), true );
sheetNameField.SetText( des );
filename = des.ToStdString();
}
else
{
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filename = wxString::Format( wxT( "%s_%d" ), m_filename.GetName(), aSheetIndex );
sheetNameField.SetText( filename );
}
ReplaceIllegalFileNameChars( &filename );
replace( filename.begin(), filename.end(), ' ', '_' );
wxFileName fn( m_filename );
fn.SetName( filename );
fn.SetExt( KiCadSchematicFileExtension );
filenameField.SetText( fn.GetFullName() );
m_currentSheet->GetScreen()->SetFileName( fn.GetFullPath() );
m_currentSheet->AutoplaceFields( m_currentSheet->GetScreen(), true );
// Loop through all of the symbol instances.
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wxXmlNode* instanceNode = getChildrenNodes( sheetChildren, wxT( "instances" ) );
while( instanceNode )
{
checkpoint();
loadInstance( instanceNode );
instanceNode = instanceNode->GetNext();
}
// Loop through all buses
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// From the DTD: "Buses receive names which determine which signals they include.
// A bus is a drawing object. It does not create any electrical connections.
// These are always created by means of the nets and their names."
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wxXmlNode* busNode = getChildrenNodes( sheetChildren, wxT( "busses" ) );
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while( busNode )
{
checkpoint();
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// Get the bus name
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wxString busName = translateEagleBusName( busNode->GetAttribute( wxT( "name" ) ) );
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// Load segments of this bus
loadSegments( busNode, busName, wxString() );
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// Get next bus
busNode = busNode->GetNext();
}
// Loop through all nets
// From the DTD: "Net is an electrical connection in a schematic."
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wxXmlNode* netNode = getChildrenNodes( sheetChildren, wxT( "nets" ) );
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while( netNode )
{
checkpoint();
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// Get the net name and class
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wxString netName = netNode->GetAttribute( wxT( "name" ) );
wxString netClass = netNode->GetAttribute( wxT( "class" ) );
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// Load segments of this net
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loadSegments( netNode, netName, netClass );
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// Get next net
netNode = netNode->GetNext();
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}
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adjustNetLabels(); // needs to be called before addBusEntries()
addBusEntries();
/* moduleinst is a design block definition and is an EagleCad 8 feature,
*
* // Loop through all moduleinsts
* wxXmlNode* moduleinstNode = getChildrenNodes( sheetChildren, "moduleinsts" );
*
* while( moduleinstNode )
* {
* loadModuleinst( moduleinstNode );
* moduleinstNode = moduleinstNode->GetNext();
* }
*/
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wxXmlNode* plainNode = getChildrenNodes( sheetChildren, wxT( "plain" ) );
while( plainNode )
{
checkpoint();
wxString nodeName = plainNode->GetName();
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if( nodeName == wxT( "text" ) )
{
m_currentSheet->GetScreen()->Append( loadPlainText( plainNode ) );
}
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else if( nodeName == wxT( "wire" ) )
{
m_currentSheet->GetScreen()->Append( loadWire( plainNode ) );
}
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else if( nodeName == wxT( "frame" ) )
{
std::vector<SCH_LINE*> lines;
loadFrame( plainNode, lines );
for( SCH_LINE* line : lines )
m_currentSheet->GetScreen()->Append( line );
}
plainNode = plainNode->GetNext();
}
// Calculate the new sheet size.
EDA_RECT sheetBoundingBox = getSheetBbox( m_currentSheet );
VECTOR2I targetSheetSize = sheetBoundingBox.GetSize();
targetSheetSize += VECTOR2I( Mils2iu( 1500 ), Mils2iu( 1500 ) );
// Get current Eeschema sheet size.
wxSize pageSizeIU = m_currentSheet->GetScreen()->GetPageSettings().GetSizeIU( IU_PER_MILS );
PAGE_INFO pageInfo = m_currentSheet->GetScreen()->GetPageSettings();
// Increase if necessary
if( pageSizeIU.x < targetSheetSize.x )
pageInfo.SetWidthMils( Iu2Mils( targetSheetSize.x ) );
if( pageSizeIU.y < targetSheetSize.y )
pageInfo.SetHeightMils( Iu2Mils( targetSheetSize.y ) );
// Set the new sheet size.
m_currentSheet->GetScreen()->SetPageSettings( pageInfo );
pageSizeIU = m_currentSheet->GetScreen()->GetPageSettings().GetSizeIU( IU_PER_MILS );
VECTOR2I sheetcentre( pageSizeIU.x / 2, pageSizeIU.y / 2 );
VECTOR2I itemsCentre = sheetBoundingBox.Centre();
// round the translation to nearest 100mil to place it on the grid.
VECTOR2I translation = sheetcentre - itemsCentre;
translation.x = translation.x - translation.x % Mils2iu( 100 );
translation.y = translation.y - translation.y % Mils2iu( 100 );
// Add global net labels for the named power input pins in this sheet
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for( SCH_ITEM* item : m_currentSheet->GetScreen()->Items().OfType( SCH_SYMBOL_T ) )
{
SCH_SYMBOL* symbol = static_cast<SCH_SYMBOL*>( item );
addImplicitConnections( symbol, m_currentSheet->GetScreen(), true );
}
m_connPoints.clear();
// Translate the items.
std::vector<SCH_ITEM*> allItems;
std::copy( m_currentSheet->GetScreen()->Items().begin(),
m_currentSheet->GetScreen()->Items().end(), std::back_inserter( allItems ) );
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for( SCH_ITEM* item : allItems )
{
item->SetPosition( item->GetPosition() + translation );
item->ClearFlags();
m_currentSheet->GetScreen()->Update( item );
}
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}
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void SCH_EAGLE_PLUGIN::loadFrame( wxXmlNode* aFrameNode, std::vector<SCH_LINE*>& aLines )
{
EFRAME eframe( aFrameNode );
VECTOR2I corner1( eframe.x1.ToSchUnits(), -eframe.y1.ToSchUnits() );
VECTOR2I corner3( eframe.x2.ToSchUnits(), -eframe.y2.ToSchUnits() );
VECTOR2I corner2( corner3.x, corner1.y );
VECTOR2I corner4( corner1.x, corner3.y );
SCH_LINE* line = new SCH_LINE();
line->SetLineStyle( PLOT_DASH_TYPE::SOLID );
line->SetStartPoint( corner1 );
line->SetEndPoint( corner2 );
aLines.push_back( line );
line = new SCH_LINE();
line->SetLineStyle( PLOT_DASH_TYPE::SOLID );
line->SetStartPoint( corner2 );
line->SetEndPoint( corner3 );
aLines.push_back( line );
line = new SCH_LINE();
line->SetLineStyle( PLOT_DASH_TYPE::SOLID );
line->SetStartPoint( corner3 );
line->SetEndPoint( corner4 );
aLines.push_back( line );
line = new SCH_LINE();
line->SetLineStyle( PLOT_DASH_TYPE::SOLID );
line->SetStartPoint( corner4 );
line->SetEndPoint( corner1 );
aLines.push_back( line );
}
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void SCH_EAGLE_PLUGIN::loadSegments( wxXmlNode* aSegmentsNode, const wxString& netName,
const wxString& aNetClass )
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{
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// Loop through all segments
wxXmlNode* currentSegment = aSegmentsNode->GetChildren();
SCH_SCREEN* screen = m_currentSheet->GetScreen();
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int segmentCount = countChildren( aSegmentsNode, wxT( "segment" ) );
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// wxCHECK( screen, [>void<] );
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while( currentSegment )
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{
bool labelled = false; // has a label been added to this continuously connected segment
NODE_MAP segmentChildren = MapChildren( currentSegment );
SCH_LINE* firstWire = nullptr;
m_segments.emplace_back();
SEG_DESC& segDesc = m_segments.back();
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// Loop through all segment children
wxXmlNode* segmentAttribute = currentSegment->GetChildren();
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while( segmentAttribute )
{
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if( segmentAttribute->GetName() == wxT( "wire" ) )
{
SCH_LINE* wire = loadWire( segmentAttribute );
if( !firstWire )
firstWire = wire;
// Test for intersections with other wires
SEG thisWire( wire->GetStartPoint(), wire->GetEndPoint() );
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for( SEG_DESC& desc : m_segments )
{
if( !desc.labels.empty() && desc.labels.front()->GetText() == netName )
continue; // no point in saving intersections of the same net
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for( const SEG& seg : desc.segs )
{
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OPT_VECTOR2I intersection = thisWire.Intersect( seg, true );
if( intersection )
m_wireIntersections.push_back( *intersection );
}
}
segDesc.segs.push_back( thisWire );
screen->Append( wire );
}
segmentAttribute = segmentAttribute->GetNext();
}
segmentAttribute = currentSegment->GetChildren();
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while( segmentAttribute )
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{
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wxString nodeName = segmentAttribute->GetName();
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if( nodeName == wxT( "junction" ) )
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{
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screen->Append( loadJunction( segmentAttribute ) );
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}
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else if( nodeName == wxT( "label" ) )
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{
SCH_TEXT* label = loadLabel( segmentAttribute, netName );
screen->Append( label );
wxASSERT( segDesc.labels.empty()
|| segDesc.labels.front()->GetText() == label->GetText() );
segDesc.labels.push_back( label );
labelled = true;
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}
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else if( nodeName == wxT( "pinref" ) )
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{
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segmentAttribute->GetAttribute( wxT( "gate" ) ); // REQUIRED
wxString part = segmentAttribute->GetAttribute( wxT( "part" ) ); // REQUIRED
wxString pin = segmentAttribute->GetAttribute( wxT( "pin" ) ); // REQUIRED
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auto powerPort = m_powerPorts.find( wxT( "#" ) + part );
if( powerPort != m_powerPorts.end()
&& powerPort->second == EscapeString( pin, CTX_NETNAME ) )
{
labelled = true;
}
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}
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else if( nodeName == wxT( "wire" ) )
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{
// already handled;
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}
else // DEFAULT
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{
// THROW_IO_ERROR( wxString::Format( _( "XML node '%s' unknown" ), nodeName ) );
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}
// Get next segment attribute
segmentAttribute = segmentAttribute->GetNext();
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}
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// Add a small label to the net segment if it hasn't been labeled already or is not
// connect to a power symbol with a pin on the same net. This preserves the named net
// feature of Eagle schematics.
if( !labelled && firstWire )
{
std::unique_ptr<SCH_TEXT> label;
// Add a global label if the net appears on more than one Eagle sheet
if( m_netCounts[netName.ToStdString()] > 1 )
label.reset( new SCH_GLOBALLABEL );
else if( segmentCount > 1 )
label.reset( new SCH_LABEL );
if( label )
{
label->SetPosition( firstWire->GetStartPoint() );
label->SetText( escapeName( netName ) );
label->SetTextSize( wxSize( Mils2iu( 40 ), Mils2iu( 40 ) ) );
if( firstWire->GetEndPoint().x > firstWire->GetStartPoint().x )
label->SetTextSpinStyle( TEXT_SPIN_STYLE::LEFT );
else
label->SetTextSpinStyle( TEXT_SPIN_STYLE::RIGHT );
screen->Append( label.release() );
}
}
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currentSegment = currentSegment->GetNext();
}
}
SCH_LINE* SCH_EAGLE_PLUGIN::loadWire( wxXmlNode* aWireNode )
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{
std::unique_ptr<SCH_LINE> wire = std::make_unique<SCH_LINE>();
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EWIRE ewire = EWIRE( aWireNode );
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wire->SetLayer( kiCadLayer( ewire.layer ) );
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VECTOR2I begin, end;
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begin.x = ewire.x1.ToSchUnits();
begin.y = -ewire.y1.ToSchUnits();
end.x = ewire.x2.ToSchUnits();
end.y = -ewire.y2.ToSchUnits();
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wire->SetStartPoint( begin );
wire->SetEndPoint( end );
m_connPoints[begin].emplace( wire.get() );
m_connPoints[end].emplace( wire.get() );
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return wire.release();
}
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SCH_JUNCTION* SCH_EAGLE_PLUGIN::loadJunction( wxXmlNode* aJunction )
{
std::unique_ptr<SCH_JUNCTION> junction = std::make_unique<SCH_JUNCTION>();
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EJUNCTION ejunction = EJUNCTION( aJunction );
VECTOR2I pos( ejunction.x.ToSchUnits(), -ejunction.y.ToSchUnits() );
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junction->SetPosition( pos );
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return junction.release();
}
SCH_TEXT* SCH_EAGLE_PLUGIN::loadLabel( wxXmlNode* aLabelNode, const wxString& aNetName )
{
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ELABEL elabel = ELABEL( aLabelNode, aNetName );
VECTOR2I elabelpos( elabel.x.ToSchUnits(), -elabel.y.ToSchUnits() );
// Determine if the label is local or global depending on
// the number of sheets the net appears in
bool global = m_netCounts[aNetName] > 1;
std::unique_ptr<SCH_TEXT> label;
wxSize textSize = wxSize( KiROUND( elabel.size.ToSchUnits() * 0.7 ),
KiROUND( elabel.size.ToSchUnits() * 0.7 ) );
if( global )
label = std::make_unique<SCH_GLOBALLABEL>();
else
label = std::make_unique<SCH_LABEL>();
label->SetPosition( elabelpos );
label->SetText( escapeName( elabel.netname ) );
label->SetTextSize( textSize );
label->SetTextSpinStyle( TEXT_SPIN_STYLE::RIGHT );
if( elabel.rot )
{
for( int i = 0; i < KiROUND( elabel.rot->degrees / 90 ) %4; ++i )
label->Rotate90( false );
if( elabel.rot->mirror )
label->MirrorSpinStyle( false );
}
return label.release();
}
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std::pair<VECTOR2I, const SEG*>
SCH_EAGLE_PLUGIN::findNearestLinePoint( const VECTOR2I& aPoint,
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const std::vector<SEG>& aLines ) const
{
VECTOR2I nearestPoint;
const SEG* nearestLine = nullptr;
float d, mindistance = std::numeric_limits<float>::max();
// Find the nearest start, middle or end of a line from the list of lines.
for( const SEG& line : aLines )
{
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VECTOR2I testpoint = line.A;
d = sqrt( abs( ( ( aPoint.x - testpoint.x ) ^ 2 ) + ( ( aPoint.y - testpoint.y ) ^ 2 ) ) );
if( d < mindistance )
{
mindistance = d;
nearestPoint = testpoint;
nearestLine = &line;
}
testpoint = line.Center();
d = sqrt( abs( ( ( aPoint.x - testpoint.x ) ^ 2 ) + ( ( aPoint.y - testpoint.y ) ^ 2 ) ) );
if( d < mindistance )
{
mindistance = d;
nearestPoint = testpoint;
nearestLine = &line;
}
testpoint = line.B;
d = sqrt( abs( ( ( aPoint.x - testpoint.x ) ^ 2 ) + ( ( aPoint.y - testpoint.y ) ^ 2 ) ) );
if( d < mindistance )
{
mindistance = d;
nearestPoint = testpoint;
nearestLine = &line;
}
}
return std::make_pair( nearestPoint, nearestLine );
}
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void SCH_EAGLE_PLUGIN::loadInstance( wxXmlNode* aInstanceNode )
{
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EINSTANCE einstance = EINSTANCE( aInstanceNode );
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SCH_SCREEN* screen = m_currentSheet->GetScreen();
// Find the part in the list for the sheet.
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// Assign the symbol its value from the part entry
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// Calculate the unit number from the gate entry of the instance
// Assign the LIB_ID from device set and device names
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auto part_it = m_partlist.find( einstance.part.Upper() );
if( part_it == m_partlist.end() )
{
m_reporter->Report( wxString::Format( _( "Error parsing Eagle file. Could not find '%s' "
"instance but it is referenced in the schematic." ),
einstance.part ),
RPT_SEVERITY_ERROR );
return;
}
EPART* epart = part_it->second.get();
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wxString libraryname = epart->library;
wxString gatename = epart->deviceset + epart->device + einstance.gate;
wxString symbolname = wxString( epart->deviceset + epart->device );
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symbolname.Replace( wxT( "*" ), wxEmptyString );
wxString kisymbolname = EscapeString( symbolname, CTX_LIBID );
int unit = m_eagleLibs[libraryname].GateUnit[gatename];
wxString package;
EAGLE_LIBRARY* elib = &m_eagleLibs[libraryname];
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auto p = elib->package.find( kisymbolname );
if( p != elib->package.end() )
package = p->second;
LIB_SYMBOL* part = m_pi->LoadSymbol( getLibFileName().GetFullPath(), kisymbolname,
m_properties.get() );
if( !part )
{
m_reporter->Report( wxString::Format( _( "Could not find '%s' in the imported library." ),
UnescapeString( kisymbolname ) ),
RPT_SEVERITY_ERROR );
return;
}
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LIB_ID libId( getLibName(), kisymbolname );
std::unique_ptr<SCH_SYMBOL> symbol = std::make_unique<SCH_SYMBOL>();
symbol->SetLibId( libId );
symbol->SetUnit( unit );
symbol->SetPosition( VECTOR2I( einstance.x.ToSchUnits(), -einstance.y.ToSchUnits() ) );
// assume that footprint library is identical to project name
wxString packageString = m_schematic->Prj().GetProjectName() + wxT( ":" ) + package;
symbol->GetField( FOOTPRINT_FIELD )->SetText( packageString );
if( einstance.rot )
{
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symbol->SetOrientation( kiCadComponentRotation( einstance.rot->degrees ) );
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if( einstance.rot->mirror )
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symbol->MirrorHorizontally( einstance.x.ToSchUnits() );
}
std::vector<LIB_FIELD*> partFields;
part->GetFields( partFields );
for( const LIB_FIELD* field : partFields )
{
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symbol->GetFieldById( field->GetId() )->ImportValues( *field );
symbol->GetFieldById( field->GetId() )->SetTextPos( (VECTOR2I)symbol->GetPosition()
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+ field->GetTextPos() );
}
// If there is no footprint assigned, then prepend the reference value
// with a hash character to mute netlist updater complaints
wxString reference = package.IsEmpty() ? '#' + einstance.part : einstance.part;
// reference must end with a number but EAGLE does not enforce this
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if( reference.find_last_not_of( wxT( "0123456789" ) ) == (reference.Length()-1) )
reference.Append( wxT( "0" ) );
// EAGLE allows references to be single digits. This breaks KiCad netlisting, which requires
// parts to have non-digit + digit annotation. If the reference begins with a number,
// we prepend 'UNK' (unknown) for the symbol designator
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if( reference.find_first_not_of( wxT( "0123456789" ) ) != 0 )
reference.Prepend( wxT( "UNK" ) );
// EAGLE allows designator to start with # but that is used in KiCad
// for symbols which do not have a footprint
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if( einstance.part.find_first_not_of( wxT( "#" ) ) != 0 )
reference.Prepend( wxT( "UNK" ) );
SCH_SHEET_PATH sheetpath;
m_rootSheet->LocatePathOfScreen( screen, &sheetpath );
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wxString current_sheetpath = sheetpath.PathAsString() + symbol->m_Uuid.AsString();
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symbol->GetField( REFERENCE_FIELD )->SetText( reference );
symbol->AddHierarchicalReference( current_sheetpath, reference, unit );
if( epart->value )
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symbol->GetField( VALUE_FIELD )->SetText( *epart->value );
else
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symbol->GetField( VALUE_FIELD )->SetText( kisymbolname );
// Set the visibility of fields.
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symbol->GetField( REFERENCE_FIELD )->SetVisible(
part->GetFieldById( REFERENCE_FIELD )->IsVisible() );
symbol->GetField( VALUE_FIELD )->SetVisible( part->GetFieldById( VALUE_FIELD )->IsVisible() );
for( const auto& a : epart->attribute )
{
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SCH_FIELD* field = symbol->AddField( *symbol->GetField( VALUE_FIELD ) );
field->SetName( a.first );
field->SetText( a.second );
field->SetVisible( false );
}
for( const auto& a : epart->variant )
{
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SCH_FIELD* field = symbol->AddField( *symbol->GetField( VALUE_FIELD ) );
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field->SetName( wxT( "VARIANT_" ) + a.first );
field->SetText( a.second );
field->SetVisible( false );
}
bool valueAttributeFound = false;
bool nameAttributeFound = false;
wxXmlNode* attributeNode = aInstanceNode->GetChildren();
// Parse attributes for the instance
while( attributeNode )
{
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if( attributeNode->GetName() == wxT( "attribute" ) )
{
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EATTR attr = EATTR( attributeNode );
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SCH_FIELD* field = nullptr;
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if( attr.name.Lower() == wxT( "name" ) )
{
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field = symbol->GetField( REFERENCE_FIELD );
nameAttributeFound = true;
}
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else if( attr.name.Lower() == wxT( "value" ) )
{
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field = symbol->GetField( VALUE_FIELD );
valueAttributeFound = true;
}
else
{
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field = symbol->FindField( attr.name );
if( field )
field->SetVisible( false );
}
if( field )
{
field->SetPosition( VECTOR2I( attr.x->ToSchUnits(), -attr.y->ToSchUnits() ) );
int align = attr.align ? *attr.align : ETEXT::BOTTOM_LEFT;
int absdegrees = attr.rot ? attr.rot->degrees : 0;
bool mirror = attr.rot ? attr.rot->mirror : false;
if( einstance.rot && einstance.rot->mirror )
mirror = !mirror;
bool spin = attr.rot ? attr.rot->spin : false;
if( attr.display == EATTR::Off || attr.display == EATTR::NAME )
field->SetVisible( false );
int rotation = einstance.rot ? einstance.rot->degrees : 0;
int reldegrees = ( absdegrees - rotation + 360.0 );
reldegrees %= 360;
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eagleToKicadAlignment( (EDA_TEXT*) field, align, reldegrees, mirror, spin,
absdegrees );
}
}
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else if( attributeNode->GetName() == wxT( "variant" ) )
{
wxString variant, value;
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if( attributeNode->GetAttribute( wxT( "name" ), &variant )
&& attributeNode->GetAttribute( wxT( "value" ), &value ) )
{
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SCH_FIELD* field = symbol->AddField( *symbol->GetField( VALUE_FIELD ) );
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field->SetName( wxT( "VARIANT_" ) + variant );
field->SetText( value );
field->SetVisible( false );
}
}
attributeNode = attributeNode->GetNext();
}
if( einstance.smashed && einstance.smashed.Get() )
{
if( !valueAttributeFound )
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symbol->GetField( VALUE_FIELD )->SetVisible( false );
if( !nameAttributeFound )
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symbol->GetField( REFERENCE_FIELD )->SetVisible( false );
}
// Save the pin positions
SYMBOL_LIB_TABLE& schLibTable = *m_schematic->Prj().SchSymbolLibTable();
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LIB_SYMBOL* libSymbol = schLibTable.LoadSymbol( symbol->GetLibId() );
Make the new schematic and symbol library file formats the default. This is a very large and potentially disruptive change so this will be an unusually long and detailed commit message. The new file formats are now the default in both the schematic and symbol library editors. Existing symbol libraries will be saved in their current format until new features are added to library symbols. Once this happens, both the legacy schematic and symbol file formats will be no longer be savable and existing libraries will have to be converted. Saving to the legacy file formats is still available for round robin testing and should not be used for normal editing. When loading the legacy schematic file, it is imperative that the schematic library symbols are rescued and/or remapped to valid library identifiers. Otherwise, there will be no way to link to the original library symbol and the user will be required manually set the library identifier. The cached symbol will be saved in the schematic file so the last library symbol in the cache will still be used but there will be no way to update it from the original library. The next save after loading a legacy schematic file will be converted to the s-expression file format. Schematics with hierarchical sheets will automatically have all sheet file name extensions changed to .kicad_sym and saved to the new format as well. Appending schematics requires that the schematic to append has already been converted to the new file format. This is required to ensure that library symbols are guaranteed to be valid for the appended schematic. The schematic symbol library symbol link resolution has been moved out of the SCH_COMPONENT object and move into the SCH_SCREEN object that owns the symbol. This was done to ensure that there is a single place where the library symbol links get resolved rather than the dozen or so different code paths that previously existed. It also removes the necessity of the SCH_COMPONENT object of requiring any knowledge of the symbol library table and/or the cache library. When opening an s-expression schematic, the legacy cache library is not loaded so any library symbols not rescued cannot be loaded. Broken library symbol links will have to be manually resolved by adding the cache library to the symbol library table and changing the links in the schematic symbol. Now that the library symbols are embedded in the schematic file, the SCH_SCREEN object maintains the list of library symbols for the schematic automatically. No external manipulation of this library cache should ever occur. ADDED: S-expression schematic and symbol library file formats.
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wxCHECK( libSymbol, /*void*/ );
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symbol->SetLibSymbol( new LIB_SYMBOL( *libSymbol ) );
Make the new schematic and symbol library file formats the default. This is a very large and potentially disruptive change so this will be an unusually long and detailed commit message. The new file formats are now the default in both the schematic and symbol library editors. Existing symbol libraries will be saved in their current format until new features are added to library symbols. Once this happens, both the legacy schematic and symbol file formats will be no longer be savable and existing libraries will have to be converted. Saving to the legacy file formats is still available for round robin testing and should not be used for normal editing. When loading the legacy schematic file, it is imperative that the schematic library symbols are rescued and/or remapped to valid library identifiers. Otherwise, there will be no way to link to the original library symbol and the user will be required manually set the library identifier. The cached symbol will be saved in the schematic file so the last library symbol in the cache will still be used but there will be no way to update it from the original library. The next save after loading a legacy schematic file will be converted to the s-expression file format. Schematics with hierarchical sheets will automatically have all sheet file name extensions changed to .kicad_sym and saved to the new format as well. Appending schematics requires that the schematic to append has already been converted to the new file format. This is required to ensure that library symbols are guaranteed to be valid for the appended schematic. The schematic symbol library symbol link resolution has been moved out of the SCH_COMPONENT object and move into the SCH_SCREEN object that owns the symbol. This was done to ensure that there is a single place where the library symbol links get resolved rather than the dozen or so different code paths that previously existed. It also removes the necessity of the SCH_COMPONENT object of requiring any knowledge of the symbol library table and/or the cache library. When opening an s-expression schematic, the legacy cache library is not loaded so any library symbols not rescued cannot be loaded. Broken library symbol links will have to be manually resolved by adding the cache library to the symbol library table and changing the links in the schematic symbol. Now that the library symbols are embedded in the schematic file, the SCH_SCREEN object maintains the list of library symbols for the schematic automatically. No external manipulation of this library cache should ever occur. ADDED: S-expression schematic and symbol library file formats.
2020-04-16 16:43:50 +00:00
std::vector<LIB_PIN*> pins;
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symbol->GetLibPins( pins );
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for( const LIB_PIN* pin : pins )
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m_connPoints[symbol->GetPinPhysicalPosition( pin )].emplace( pin );
if( part->IsPower() )
m_powerPorts[ reference ] = symbol->GetField( VALUE_FIELD )->GetText();
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symbol->ClearFlags();
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screen->Append( symbol.release() );
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}
EAGLE_LIBRARY* SCH_EAGLE_PLUGIN::loadLibrary( wxXmlNode* aLibraryNode,
EAGLE_LIBRARY* aEagleLibrary )
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{
NODE_MAP libraryChildren = MapChildren( aLibraryNode );
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// Loop through the symbols and load each of them
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wxXmlNode* symbolNode = getChildrenNodes( libraryChildren, wxT( "symbols" ) );
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while( symbolNode )
{
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wxString symbolName = symbolNode->GetAttribute( wxT( "name" ) );
aEagleLibrary->SymbolNodes[symbolName] = symbolNode;
symbolNode = symbolNode->GetNext();
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}
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// Loop through the device sets and load each of them
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wxXmlNode* devicesetNode = getChildrenNodes( libraryChildren, wxT( "devicesets" ) );
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while( devicesetNode )
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{
// Get Device set information
EDEVICE_SET edeviceset = EDEVICE_SET( devicesetNode );
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wxString prefix = edeviceset.prefix ? edeviceset.prefix.Get() : wxT( "" );
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NODE_MAP deviceSetChildren = MapChildren( devicesetNode );
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wxXmlNode* deviceNode = getChildrenNodes( deviceSetChildren, wxT( "devices" ) );
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// For each device in the device set:
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while( deviceNode )
{
// Get device information
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EDEVICE edevice = EDEVICE( deviceNode );
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// Create symbol name from deviceset and device names.
wxString symbolName = edeviceset.name + edevice.name;
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symbolName.Replace( wxT( "*" ), wxEmptyString );
wxASSERT( !symbolName.IsEmpty() );
symbolName = EscapeString( symbolName, CTX_LIBID );
if( edevice.package )
aEagleLibrary->package[symbolName] = edevice.package.Get();
// Create KiCad symbol.
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std::unique_ptr<LIB_SYMBOL> libSymbol = std::make_unique<LIB_SYMBOL>( symbolName );
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// Process each gate in the deviceset for this device.
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wxXmlNode* gateNode = getChildrenNodes( deviceSetChildren, wxT( "gates" ) );
int gates_count = countChildren( deviceSetChildren["gates"], wxT( "gate" ) );
libSymbol->SetUnitCount( gates_count );
libSymbol->LockUnits( true );
LIB_FIELD* reference = libSymbol->GetFieldById( REFERENCE_FIELD );
if( prefix.length() == 0 )
{
reference->SetVisible( false );
}
else
{
// If there is no footprint assigned, then prepend the reference value
// with a hash character to mute netlist updater complaints
reference->SetText( edevice.package ? prefix : '#' + prefix );
}
int gateindex = 1;
bool ispower = false;
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while( gateNode )
{
checkpoint();
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EGATE egate = EGATE( gateNode );
aEagleLibrary->GateUnit[edeviceset.name + edevice.name + egate.name] = gateindex;
ispower = loadSymbol( aEagleLibrary->SymbolNodes[egate.symbol], libSymbol, &edevice,
gateindex, egate.name );
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gateindex++;
gateNode = gateNode->GetNext();
} // gateNode
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libSymbol->SetUnitCount( gates_count );
if( gates_count == 1 && ispower )
libSymbol->SetPower();
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// assume that footprint library is identical to project name
wxString packageString = m_schematic->Prj().GetProjectName() + wxT( ":" ) + aEagleLibrary->package[symbolName];
libSymbol->GetFootprintField().SetText( packageString );
wxString name = libSymbol->GetName();
libSymbol->SetName( name );
m_pi->SaveSymbol( getLibFileName().GetFullPath(), new LIB_SYMBOL( *libSymbol.get() ),
m_properties.get() );
aEagleLibrary->KiCadSymbols.insert( name, libSymbol.release() );
deviceNode = deviceNode->GetNext();
} // devicenode
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devicesetNode = devicesetNode->GetNext();
} // devicesetNode
return aEagleLibrary;
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}
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bool SCH_EAGLE_PLUGIN::loadSymbol( wxXmlNode* aSymbolNode, std::unique_ptr<LIB_SYMBOL>& aSymbol,
EDEVICE* aDevice, int aGateNumber, const wxString& aGateName )
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{
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wxString symbolName = aSymbolNode->GetAttribute( wxT( "name" ) );
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std::vector<LIB_ITEM*> items;
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wxXmlNode* currentNode = aSymbolNode->GetChildren();
bool foundName = false;
bool foundValue = false;
bool ispower = false;
int pincount = 0;
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while( currentNode )
{
wxString nodeName = currentNode->GetName();
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if( nodeName == wxT( "circle" ) )
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{
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aSymbol->AddDrawItem( loadSymbolCircle( aSymbol, currentNode, aGateNumber ) );
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}
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else if( nodeName == wxT( "pin" ) )
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{
EPIN ePin = EPIN( currentNode );
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std::unique_ptr<LIB_PIN> pin( loadPin( aSymbol, currentNode, &ePin, aGateNumber ) );
pincount++;
pin->SetType( ELECTRICAL_PINTYPE::PT_BIDI );
if( ePin.direction )
{
for( const auto& pinDir : pinDirectionsMap )
{
if( ePin.direction->Lower() == pinDir.first )
{
pin->SetType( pinDir.second );
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if( pinDir.first == wxT( "sup" ) ) // power supply symbol
ispower = true;
break;
}
}
}
if( aDevice->connects.size() != 0 )
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{
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for( const ECONNECT& connect : aDevice->connects )
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{
if( connect.gate == aGateName && pin->GetName() == connect.pin )
{
wxArrayString pads = wxSplit( wxString( connect.pad ), ' ' );
pin->SetUnit( aGateNumber );
pin->SetName( escapeName( pin->GetName() ) );
if( pads.GetCount() > 1 )
{
pin->SetNumberTextSize( 0 );
}
for( unsigned i = 0; i < pads.GetCount(); i++ )
{
LIB_PIN* apin = new LIB_PIN( *pin );
wxString padname( pads[i] );
apin->SetNumber( padname );
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aSymbol->AddDrawItem( apin );
}
break;
}
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}
}
else
{
pin->SetUnit( aGateNumber );
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pin->SetNumber( wxString::Format( wxT( "%i" ), pincount ) );
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aSymbol->AddDrawItem( pin.release() );
}
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}
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else if( nodeName == wxT( "polygon" ) )
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{
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aSymbol->AddDrawItem( loadSymbolPolyLine( aSymbol, currentNode, aGateNumber ) );
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}
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else if( nodeName == wxT( "rectangle" ) )
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{
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aSymbol->AddDrawItem( loadSymbolRectangle( aSymbol, currentNode, aGateNumber ) );
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}
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else if( nodeName == wxT( "text" ) )
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{
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std::unique_ptr<LIB_TEXT> libtext( loadSymbolText( aSymbol, currentNode,
aGateNumber ) );
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if( libtext->GetText().Upper() == wxT( ">NAME" ) )
{
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LIB_FIELD* field = aSymbol->GetFieldById( REFERENCE_FIELD );
loadFieldAttributes( field, libtext.get() );
foundName = true;
}
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else if( libtext->GetText().Upper() == wxT( ">VALUE" ) )
{
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LIB_FIELD* field = aSymbol->GetFieldById( VALUE_FIELD );
loadFieldAttributes( field, libtext.get() );
foundValue = true;
}
else
{
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aSymbol->AddDrawItem( libtext.release() );
}
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}
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else if( nodeName == wxT( "wire" ) )
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{
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aSymbol->AddDrawItem( loadSymbolWire( aSymbol, currentNode, aGateNumber ) );
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}
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else if( nodeName == wxT( "frame" ) )
{
std::vector<LIB_ITEM*> frameItems;
loadFrame( currentNode, frameItems );
for( LIB_ITEM* item : frameItems )
{
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item->SetParent( aSymbol.get() );
item->SetUnit( aGateNumber );
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aSymbol->AddDrawItem( item );
}
}
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/*
* else if( nodeName == "description" )
* {
* }
* else if( nodeName == "dimension" )
* {
* }
*/
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currentNode = currentNode->GetNext();
}
if( foundName == false )
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aSymbol->GetFieldById( REFERENCE_FIELD )->SetVisible( false );
if( foundValue == false )
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aSymbol->GetFieldById( VALUE_FIELD )->SetVisible( false );
return pincount == 1 ? ispower : false;
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}
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LIB_SHAPE* SCH_EAGLE_PLUGIN::loadSymbolCircle( std::unique_ptr<LIB_SYMBOL>& aSymbol,
wxXmlNode* aCircleNode, int aGateNumber )
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{
// Parse the circle properties
ECIRCLE c( aCircleNode );
LIB_SHAPE* circle = new LIB_SHAPE( aSymbol.get(), SHAPE_T::CIRCLE );
VECTOR2I center( c.x.ToSchUnits(), c.y.ToSchUnits() );
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circle->SetPosition( center );
circle->SetEnd( VECTOR2I( center.x + c.radius.ToSchUnits(), center.y ) );
circle->SetStroke( STROKE_PARAMS( c.width.ToSchUnits(), PLOT_DASH_TYPE::SOLID ) );
circle->SetUnit( aGateNumber );
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return circle;
}
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LIB_SHAPE* SCH_EAGLE_PLUGIN::loadSymbolRectangle( std::unique_ptr<LIB_SYMBOL>& aSymbol,
wxXmlNode* aRectNode, int aGateNumber )
{
ERECT rect( aRectNode );
LIB_SHAPE* rectangle = new LIB_SHAPE( aSymbol.get(), SHAPE_T::RECT );
rectangle->SetPosition( VECTOR2I( rect.x1.ToSchUnits(), rect.y1.ToSchUnits() ) );
rectangle->SetEnd( VECTOR2I( rect.x2.ToSchUnits(), rect.y2.ToSchUnits() ) );
if( rect.rot )
{
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VECTOR2I pos( rectangle->GetPosition() );
VECTOR2I end( rectangle->GetEnd() );
VECTOR2I center( rectangle->GetCenter() );
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RotatePoint( pos, center, EDA_ANGLE( rect.rot->degrees, DEGREES_T ) );
RotatePoint( end, center, EDA_ANGLE( rect.rot->degrees, DEGREES_T ) );
rectangle->SetPosition( pos );
rectangle->SetEnd( end );
}
rectangle->SetUnit( aGateNumber );
// Eagle rectangles are filled by definition.
rectangle->SetFillMode( FILL_T::FILLED_SHAPE );
return rectangle;
}
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LIB_ITEM* SCH_EAGLE_PLUGIN::loadSymbolWire( std::unique_ptr<LIB_SYMBOL>& aSymbol,
wxXmlNode* aWireNode, int aGateNumber )
{
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EWIRE ewire = EWIRE( aWireNode );
VECTOR2I begin, end;
begin.x = ewire.x1.ToSchUnits();
begin.y = ewire.y1.ToSchUnits();
end.x = ewire.x2.ToSchUnits();
end.y = ewire.y2.ToSchUnits();
if( begin == end )
return nullptr;
// if the wire is an arc
if( ewire.curve )
{
LIB_SHAPE* arc = new LIB_SHAPE( aSymbol.get(), SHAPE_T::ARC );
VECTOR2I center = ConvertArcCenter( begin, end, *ewire.curve * -1 );
double radius = sqrt( abs( ( ( center.x - begin.x ) * ( center.x - begin.x ) )
+ ( ( center.y - begin.y ) * ( center.y - begin.y ) ) ) )
* 2;
// this emulates the filled semicircles created by a thick arc with flat ends caps.
if( ewire.width.ToSchUnits() * 2 > radius )
{
VECTOR2I centerStartVector = begin - center;
VECTOR2I centerEndVector = end - center;
centerStartVector.x = centerStartVector.x * ewire.width.ToSchUnits() * 2 / radius;
centerStartVector.y = centerStartVector.y * ewire.width.ToSchUnits() * 2 / radius;
centerEndVector.x = centerEndVector.x * ewire.width.ToSchUnits() * 2 / radius;
centerEndVector.y = centerEndVector.y * ewire.width.ToSchUnits() * 2 / radius;
begin = center + centerStartVector;
end = center + centerEndVector;
radius = sqrt( abs( ( ( center.x - begin.x ) * ( center.x - begin.x ) )
+ ( ( center.y - begin.y ) * ( center.y - begin.y ) ) ) )
* 2;
arc->SetStroke( STROKE_PARAMS( 1, PLOT_DASH_TYPE::SOLID ) );
arc->SetFillMode( FILL_T::FILLED_SHAPE );
}
else
{
arc->SetStroke( STROKE_PARAMS( ewire.width.ToSchUnits(), PLOT_DASH_TYPE::SOLID ) );
}
arc->SetArcGeometry( begin, CalcArcMid( begin, end, center ), end );
arc->SetUnit( aGateNumber );
return arc;
}
else
{
LIB_SHAPE* poly = new LIB_SHAPE( aSymbol.get(), SHAPE_T::POLY );
poly->AddPoint( begin );
poly->AddPoint( end );
poly->SetUnit( aGateNumber );
poly->SetStroke( STROKE_PARAMS( ewire.width.ToSchUnits(), PLOT_DASH_TYPE::SOLID ) );
return poly;
}
}
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LIB_SHAPE* SCH_EAGLE_PLUGIN::loadSymbolPolyLine( std::unique_ptr<LIB_SYMBOL>& aSymbol,
wxXmlNode* aPolygonNode, int aGateNumber )
{
LIB_SHAPE* poly = new LIB_SHAPE( aSymbol.get(), SHAPE_T::POLY );
EPOLYGON epoly( aPolygonNode );
wxXmlNode* vertex = aPolygonNode->GetChildren();
VECTOR2I pt;
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while( vertex )
{
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if( vertex->GetName() == wxT( "vertex" ) ) // skip <xmlattr> node
{
EVERTEX evertex( vertex );
pt = VECTOR2I( evertex.x.ToSchUnits(), evertex.y.ToSchUnits() );
poly->AddPoint( pt );
}
vertex = vertex->GetNext();
}
poly->SetFillMode( FILL_T::FILLED_SHAPE );
poly->SetUnit( aGateNumber );
return poly;
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}
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LIB_PIN* SCH_EAGLE_PLUGIN::loadPin( std::unique_ptr<LIB_SYMBOL>& aSymbol, wxXmlNode* aPin,
EPIN* aEPin, int aGateNumber )
{
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std::unique_ptr<LIB_PIN> pin = std::make_unique<LIB_PIN>( aSymbol.get() );
pin->SetPosition( VECTOR2I( aEPin->x.ToSchUnits(), aEPin->y.ToSchUnits() ) );
pin->SetName( aEPin->name );
pin->SetUnit( aGateNumber );
int roti = aEPin->rot ? aEPin->rot->degrees : 0;
switch( roti )
{
case 0: pin->SetOrientation( 'R' ); break;
case 90: pin->SetOrientation( 'U' ); break;
case 180: pin->SetOrientation( 'L' ); break;
case 270: pin->SetOrientation( 'D' ); break;
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default: wxFAIL_MSG( wxString::Format( wxT( "Unhandled orientation (%d degrees)." ), roti ) );
}
pin->SetLength( Mils2iu( 300 ) ); // Default pin length when not defined.
if( aEPin->length )
{
wxString length = aEPin->length.Get();
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if( length == wxT( "short" ) )
pin->SetLength( Mils2iu( 100 ) );
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else if( length == wxT( "middle" ) )
pin->SetLength( Mils2iu( 200 ) );
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else if( length == wxT( "long" ) )
pin->SetLength( Mils2iu( 300 ) );
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else if( length == wxT( "point" ) )
pin->SetLength( Mils2iu( 0 ) );
}
// emulate the visibility of pin elements
if( aEPin->visible )
{
wxString visible = aEPin->visible.Get();
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if( visible == wxT( "off" ) )
{
pin->SetNameTextSize( 0 );
pin->SetNumberTextSize( 0 );
}
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else if( visible == wxT( "pad" ) )
{
pin->SetNameTextSize( 0 );
}
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else if( visible == wxT( "pin" ) )
{
pin->SetNumberTextSize( 0 );
}
/*
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* else if( visible == wxT( "both" ) )
* {
* }
*/
}
if( aEPin->function )
{
wxString function = aEPin->function.Get();
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if( function == wxT( "dot" ) )
pin->SetShape( GRAPHIC_PINSHAPE::INVERTED );
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else if( function == wxT( "clk" ) )
pin->SetShape( GRAPHIC_PINSHAPE::CLOCK );
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else if( function == wxT( "dotclk" ) )
pin->SetShape( GRAPHIC_PINSHAPE::INVERTED_CLOCK );
}
return pin.release();
}
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LIB_TEXT* SCH_EAGLE_PLUGIN::loadSymbolText( std::unique_ptr<LIB_SYMBOL>& aSymbol,
wxXmlNode* aLibText, int aGateNumber )
{
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std::unique_ptr<LIB_TEXT> libtext = std::make_unique<LIB_TEXT>( aSymbol.get() );
ETEXT etext( aLibText );
libtext->SetUnit( aGateNumber );
libtext->SetPosition( VECTOR2I( etext.x.ToSchUnits(), etext.y.ToSchUnits() ) );
// Eagle supports multiple line text in library symbols. Legacy library symbol text cannot
// contain CRs or LFs.
//
// @todo Split this into multiple text objects and offset the Y position so that it looks
// more like the original Eagle schematic.
wxString text = aLibText->GetNodeContent();
std::replace( text.begin(), text.end(), '\n', '_' );
std::replace( text.begin(), text.end(), '\r', '_' );
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libtext->SetText( text.IsEmpty() ? wxT( "~" ) : text );
loadTextAttributes( libtext.get(), etext );
return libtext.release();
}
void SCH_EAGLE_PLUGIN::loadFrame( wxXmlNode* aFrameNode, std::vector<LIB_ITEM*>& aItems )
{
EFRAME eframe( aFrameNode );
int xMin = eframe.x1.ToSchUnits();
int xMax = eframe.x2.ToSchUnits();
int yMin = eframe.y1.ToSchUnits();
int yMax = eframe.y2.ToSchUnits();
if( xMin > xMax )
std::swap( xMin, xMax );
if( yMin > yMax )
std::swap( yMin, yMax );
LIB_SHAPE* lines = new LIB_SHAPE( nullptr, SHAPE_T::POLY );
lines->AddPoint( VECTOR2I( xMin, yMin ) );
lines->AddPoint( VECTOR2I( xMax, yMin ) );
lines->AddPoint( VECTOR2I( xMax, yMax ) );
lines->AddPoint( VECTOR2I( xMin, yMax ) );
lines->AddPoint( VECTOR2I( xMin, yMin ) );
aItems.push_back( lines );
if( !eframe.border_left )
{
lines = new LIB_SHAPE( nullptr, SHAPE_T::POLY );
lines->AddPoint( VECTOR2I( xMin + Mils2iu( 150 ), yMin + Mils2iu( 150 ) ) );
lines->AddPoint( VECTOR2I( xMin + Mils2iu( 150 ), yMax - Mils2iu( 150 ) ) );
aItems.push_back( lines );
int i;
int height = yMax - yMin;
int x1 = xMin;
int x2 = x1 + Mils2iu( 150 );
int legendPosX = xMin + Mils2iu( 75 );
double rowSpacing = height / double( eframe.rows );
double legendPosY = yMax - ( rowSpacing / 2 );
for( i = 1; i < eframe.rows; i++ )
{
int newY = KiROUND( yMin + ( rowSpacing * (double) i ) );
lines = new LIB_SHAPE( nullptr, SHAPE_T::POLY );
lines->AddPoint( VECTOR2I( x1, newY ) );
lines->AddPoint( VECTOR2I( x2, newY ) );
aItems.push_back( lines );
}
char legendChar = 'A';
for( i = 0; i < eframe.rows; i++ )
{
LIB_TEXT* legendText = new LIB_TEXT( nullptr );
legendText->SetPosition( VECTOR2I( legendPosX, KiROUND( legendPosY ) ) );
legendText->SetText( wxString( legendChar ) );
legendText->SetTextSize( wxSize( Mils2iu( 90 ), Mils2iu( 100 ) ) );
aItems.push_back( legendText );
legendChar++;
legendPosY -= rowSpacing;
}
}
if( !eframe.border_right )
{
lines = new LIB_SHAPE( nullptr, SHAPE_T::POLY );
lines->AddPoint( VECTOR2I( xMax - Mils2iu( 150 ), yMin + Mils2iu( 150 ) ) );
lines->AddPoint( VECTOR2I( xMax - Mils2iu( 150 ), yMax - Mils2iu( 150 ) ) );
aItems.push_back( lines );
int i;
int height = yMax - yMin;
int x1 = xMax - Mils2iu( 150 );
int x2 = xMax;
int legendPosX = xMax - Mils2iu( 75 );
double rowSpacing = height / double( eframe.rows );
double legendPosY = yMax - ( rowSpacing / 2 );
for( i = 1; i < eframe.rows; i++ )
{
int newY = KiROUND( yMin + ( rowSpacing * (double) i ) );
lines = new LIB_SHAPE( nullptr, SHAPE_T::POLY );
lines->AddPoint( VECTOR2I( x1, newY ) );
lines->AddPoint( VECTOR2I( x2, newY ) );
aItems.push_back( lines );
}
char legendChar = 'A';
for( i = 0; i < eframe.rows; i++ )
{
LIB_TEXT* legendText = new LIB_TEXT( nullptr );
legendText->SetPosition( VECTOR2I( legendPosX, KiROUND( legendPosY ) ) );
legendText->SetText( wxString( legendChar ) );
legendText->SetTextSize( wxSize( Mils2iu( 90 ), Mils2iu( 100 ) ) );
aItems.push_back( legendText );
legendChar++;
legendPosY -= rowSpacing;
}
}
if( !eframe.border_top )
{
lines = new LIB_SHAPE( nullptr, SHAPE_T::POLY );
lines->AddPoint( VECTOR2I( xMax - Mils2iu( 150 ), yMax - Mils2iu( 150 ) ) );
lines->AddPoint( VECTOR2I( xMin + Mils2iu( 150 ), yMax - Mils2iu( 150 ) ) );
aItems.push_back( lines );
int i;
int width = xMax - xMin;
int y1 = yMin;
int y2 = yMin + Mils2iu( 150 );
int legendPosY = yMax - Mils2iu( 75 );
double columnSpacing = width / double( eframe.columns );
double legendPosX = xMin + ( columnSpacing / 2 );
for( i = 1; i < eframe.columns; i++ )
{
int newX = KiROUND( xMin + ( columnSpacing * (double) i ) );
lines = new LIB_SHAPE( nullptr, SHAPE_T::POLY );
lines->AddPoint( VECTOR2I( newX, y1 ) );
lines->AddPoint( VECTOR2I( newX, y2 ) );
aItems.push_back( lines );
}
char legendChar = '1';
for( i = 0; i < eframe.columns; i++ )
{
LIB_TEXT* legendText = new LIB_TEXT( nullptr );
legendText->SetPosition( VECTOR2I( KiROUND( legendPosX ), legendPosY ) );
legendText->SetText( wxString( legendChar ) );
legendText->SetTextSize( wxSize( Mils2iu( 90 ), Mils2iu( 100 ) ) );
aItems.push_back( legendText );
legendChar++;
legendPosX += columnSpacing;
}
}
if( !eframe.border_bottom )
{
lines = new LIB_SHAPE( nullptr, SHAPE_T::POLY );
lines->AddPoint( VECTOR2I( xMax - Mils2iu( 150 ), yMin + Mils2iu( 150 ) ) );
lines->AddPoint( VECTOR2I( xMin + Mils2iu( 150 ), yMin + Mils2iu( 150 ) ) );
aItems.push_back( lines );
int i;
int width = xMax - xMin;
int y1 = yMax - Mils2iu( 150 );
int y2 = yMax;
int legendPosY = yMin + Mils2iu( 75 );
double columnSpacing = width / double( eframe.columns );
double legendPosX = xMin + ( columnSpacing / 2 );
for( i = 1; i < eframe.columns; i++ )
{
int newX = KiROUND( xMin + ( columnSpacing * (double) i ) );
lines = new LIB_SHAPE( nullptr, SHAPE_T::POLY );
lines->AddPoint( VECTOR2I( newX, y1 ) );
lines->AddPoint( VECTOR2I( newX, y2 ) );
aItems.push_back( lines );
}
char legendChar = '1';
for( i = 0; i < eframe.columns; i++ )
{
LIB_TEXT* legendText = new LIB_TEXT( nullptr );
legendText->SetPosition( VECTOR2I( KiROUND( legendPosX ), legendPosY ) );
legendText->SetText( wxString( legendChar ) );
legendText->SetTextSize( wxSize( Mils2iu( 90 ), Mils2iu( 100 ) ) );
aItems.push_back( legendText );
legendChar++;
legendPosX += columnSpacing;
}
}
}
SCH_TEXT* SCH_EAGLE_PLUGIN::loadPlainText( wxXmlNode* aSchText )
{
std::unique_ptr<SCH_TEXT> schtext = std::make_unique<SCH_TEXT>();
ETEXT etext = ETEXT( aSchText );
const wxString& thetext = aSchText->GetNodeContent();
wxString adjustedText;
wxStringTokenizer tokenizer( thetext, "\r\n" );
// Strip the whitespace from both ends of each line.
while( tokenizer.HasMoreTokens() )
{
wxString tmp = tokenizer.GetNextToken().Trim();
tmp = tmp.Trim( false );
if( tokenizer.HasMoreTokens() )
tmp += wxT( "\n" );
adjustedText += tmp;
}
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schtext->SetText( adjustedText.IsEmpty() ? wxT( "\" \"" ) : escapeName( adjustedText ) );
schtext->SetPosition( VECTOR2I( etext.x.ToSchUnits(), -etext.y.ToSchUnits() ) );
loadTextAttributes( schtext.get(), etext );
schtext->SetItalic( false );
return schtext.release();
}
void SCH_EAGLE_PLUGIN::loadTextAttributes( EDA_TEXT* aText, const ETEXT& aAttribs ) const
{
aText->SetTextSize( aAttribs.ConvertSize() );
if( aAttribs.ratio )
{
if( aAttribs.ratio.CGet() > 12 )
{
aText->SetBold( true );
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aText->SetTextThickness( GetPenSizeForBold( aText->GetTextWidth() ) );
}
}
int align = aAttribs.align ? *aAttribs.align : ETEXT::BOTTOM_LEFT;
int degrees = aAttribs.rot ? aAttribs.rot->degrees : 0;
bool mirror = aAttribs.rot ? aAttribs.rot->mirror : false;
bool spin = aAttribs.rot ? aAttribs.rot->spin : false;
eagleToKicadAlignment( aText, align, degrees, mirror, spin, 0 );
}
void SCH_EAGLE_PLUGIN::loadFieldAttributes( LIB_FIELD* aField, const LIB_TEXT* aText ) const
{
aField->SetTextPos( aText->GetPosition() );
aField->SetTextSize( aText->GetTextSize() );
aField->SetTextAngle( aText->GetTextAngle() );
aField->SetBold( aText->IsBold() );
aField->SetVertJustify( aText->GetVertJustify() );
aField->SetHorizJustify( aText->GetHorizJustify() );
aField->SetVisible( true );
}
void SCH_EAGLE_PLUGIN::adjustNetLabels()
{
// Eagle supports detached labels, so a label does not need to be placed on a wire
// to be associated with it. KiCad needs to move them, so the labels actually touch the
// corresponding wires.
// Sort the intersection points to speed up the search process
std::sort( m_wireIntersections.begin(), m_wireIntersections.end() );
auto onIntersection =
[&]( const VECTOR2I& aPos )
{
return std::binary_search( m_wireIntersections.begin(),
m_wireIntersections.end(), aPos );
};
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for( SEG_DESC& segDesc : m_segments )
{
for( SCH_TEXT* label : segDesc.labels )
{
VECTOR2I labelPos( label->GetPosition() );
const SEG* segAttached = segDesc.LabelAttached( label );
if( segAttached && !onIntersection( labelPos ) )
continue; // label is placed correctly
// Move the label to the nearest wire
if( !segAttached )
{
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std::tie( labelPos, segAttached ) = findNearestLinePoint( label->GetPosition(),
segDesc.segs );
if( !segAttached ) // we cannot do anything
continue;
}
// Create a vector pointing in the direction of the wire, 50 mils long
VECTOR2I wireDirection( segAttached->B - segAttached->A );
wireDirection = wireDirection.Resize( Mils2iu( 50 ) );
const VECTOR2I origPos( labelPos );
// Flags determining the search direction
bool checkPositive = true, checkNegative = true, move = false;
int trial = 0;
// Be sure the label is not placed on a wire intersection
while( ( !move || onIntersection( labelPos ) ) && ( checkPositive || checkNegative ) )
{
move = false;
// Move along the attached wire to find the new label position
if( trial % 2 == 1 )
{
labelPos = VECTOR2I( origPos + wireDirection * trial / 2 );
move = checkPositive = segAttached->Contains( labelPos );
}
else
{
labelPos = VECTOR2I( origPos - wireDirection * trial / 2 );
move = checkNegative = segAttached->Contains( labelPos );
}
++trial;
}
if( move )
label->SetPosition( VECTOR2I( labelPos ) );
}
}
m_segments.clear();
m_wireIntersections.clear();
}
bool SCH_EAGLE_PLUGIN::CheckHeader( const wxString& aFileName )
{
// Open file and check first line
wxTextFile tempFile;
tempFile.Open( aFileName );
wxString firstline;
// read the first line
firstline = tempFile.GetFirstLine();
wxString secondline = tempFile.GetNextLine();
wxString thirdline = tempFile.GetNextLine();
tempFile.Close();
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return firstline.StartsWith( wxT( "<?xml" ) )
&& secondline.StartsWith( wxT( "<!DOCTYPE eagle SYSTEM" ) )
&& thirdline.StartsWith( wxT( "<eagle version" ) );
}
void SCH_EAGLE_PLUGIN::moveLabels( SCH_LINE* aWire, const VECTOR2I& aNewEndPoint )
{
SCH_SCREEN* screen = m_currentSheet->GetScreen();
for( SCH_ITEM* item : screen->Items().Overlapping( aWire->GetBoundingBox() ) )
{
if( !item->IsType( { SCH_LABEL_LOCATE_ANY_T } ) )
continue;
if( TestSegmentHit( item->GetPosition(), aWire->GetStartPoint(), aWire->GetEndPoint(), 0 ) )
item->SetPosition( aNewEndPoint );
}
}
void SCH_EAGLE_PLUGIN::addBusEntries()
{
// Add bus entry symbols
// TODO: Cleanup this function and break into pieces
// for each wire segment, compare each end with all busses.
// If the wire end is found to end on a bus segment, place a bus entry symbol.
std::vector<SCH_LINE*> buses;
std::vector<SCH_LINE*> wires;
for( SCH_ITEM* ii : m_currentSheet->GetScreen()->Items().OfType( SCH_LINE_T ) )
{
SCH_LINE* line = static_cast<SCH_LINE*>( ii );
if( line->IsBus() )
buses.push_back( line );
else if( line->IsWire() )
wires.push_back( line );
}
for( SCH_LINE* wire : wires )
{
VECTOR2I wireStart = wire->GetStartPoint();
VECTOR2I wireEnd = wire->GetEndPoint();
for( SCH_LINE* bus : buses )
{
VECTOR2I busStart = bus->GetStartPoint();
VECTOR2I busEnd = bus->GetEndPoint();
auto entrySize =
[]( int signX, int signY ) -> VECTOR2I
{
return VECTOR2I( Mils2iu( DEFAULT_SCH_ENTRY_SIZE ) * signX,
Mils2iu( DEFAULT_SCH_ENTRY_SIZE ) * signY );
};
auto testBusHit =
[&]( const VECTOR2I& aPt ) -> bool
{
return TestSegmentHit( aPt, busStart, busEnd, 0 );
};
if( wireStart.y == wireEnd.y && busStart.x == busEnd.x )
{
// Horizontal wire and vertical bus
if( testBusHit( wireStart ) )
{
// Wire start is on the vertical bus
if( wireEnd.x < busStart.x )
{
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/* the end of the wire is to the left of the bus
*
*
*
*/
VECTOR2I p = wireStart + entrySize( -1, 0 );
if( testBusHit( wireStart + entrySize( 0, -1 ) ) )
{
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/* there is room above the wire for the bus entry
*
* _____/
*
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 1 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetStartPoint( p );
}
else if( testBusHit( wireStart + entrySize( 0, 1 ) ) )
{
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/* there is room below the wire for the bus entry
* _____
* \
*
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 2 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetStartPoint( p );
}
else
{
auto ercItem = ERC_ITEM::Create( ERCE_BUS_ENTRY_NEEDED );
SCH_MARKER* marker = new SCH_MARKER( ercItem, wireStart );
m_currentSheet->GetScreen()->Append( marker );
}
}
else
{
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/* the wire end is to the right of the bus
*
*
*
*/
VECTOR2I p = wireStart + entrySize( 1, 0 );
if( testBusHit( wireStart + entrySize( 0, -1 ) ) )
{
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/* There is room above the wire for the bus entry
*
* \_____
*
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p , 4 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetStartPoint( p );
}
else if( testBusHit( wireStart + entrySize( 0, 1 ) ) )
{
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/* There is room below the wire for the bus entry
* _____
* /
*
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 3 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetStartPoint( p );
}
else
{
auto ercItem = ERC_ITEM::Create( ERCE_BUS_ENTRY_NEEDED );
SCH_MARKER* marker = new SCH_MARKER( ercItem, wireStart );
m_currentSheet->GetScreen()->Append( marker );
}
}
break;
}
else if( testBusHit( wireEnd ) )
{
// Wire end is on the vertical bus
if( wireStart.x < busStart.x )
{
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/* start of the wire is to the left of the bus
*
*
*
*/
VECTOR2I p = wireEnd + entrySize( -1, 0 );
if( testBusHit( wireEnd + entrySize( 0, -1 ) ) )
{
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/* there is room above the wire for the bus entry
*
* _____/
*
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 1 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetEndPoint( p );
}
else if( testBusHit( wireEnd + entrySize( 0, -1 ) ) )
{
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/* there is room below the wire for the bus entry
* _____
* \
*
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 2 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, wireEnd + entrySize( -1, 0 ) );
wire->SetEndPoint( wireEnd + entrySize( -1, 0 ) );
}
else
{
auto ercItem = ERC_ITEM::Create( ERCE_BUS_ENTRY_NEEDED );
SCH_MARKER* marker = new SCH_MARKER( ercItem, wireEnd );
m_currentSheet->GetScreen()->Append( marker );
}
}
else
{
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/* the start of the wire is to the right of the bus
*
*
*
*/
VECTOR2I p = wireEnd + entrySize( 1, 0 );
if( testBusHit( wireEnd + entrySize( 0, -1 ) ) )
{
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/* There is room above the wire for the bus entry
*
* \_____
*
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 4 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetEndPoint( p );
}
else if( testBusHit( wireEnd + entrySize( 0, 1 ) ) )
{
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/* There is room below the wire for the bus entry
* _____
* /
*
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 3 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetEndPoint( p );
}
else
{
auto ercItem = ERC_ITEM::Create( ERCE_BUS_ENTRY_NEEDED );
SCH_MARKER* marker = new SCH_MARKER( ercItem, wireEnd );
m_currentSheet->GetScreen()->Append( marker );
}
}
break;
}
}
else if( wireStart.x == wireEnd.x && busStart.y == busEnd.y )
{
// Vertical wire and horizontal bus
if( testBusHit( wireStart ) )
{
// Wire start is on the bus
if( wireEnd.y < busStart.y )
{
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/* the end of the wire is above the bus
* |
* |
* |
* =======
*/
VECTOR2I p = wireStart + entrySize( 0, -1 );
if( testBusHit( wireStart + entrySize( -1, 0 ) ) )
{
/* there is room to the left of the wire for the bus entry
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* |
* |
* /
* =======
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 3 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetStartPoint( p );
}
else if( testBusHit( wireStart + entrySize( 1, 0 ) ) )
{
/* there is room to the right of the wire for the bus entry
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* |
* |
* \
* =======
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 2 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetStartPoint( p );
}
else
{
auto ercItem = ERC_ITEM::Create( ERCE_BUS_ENTRY_NEEDED );
SCH_MARKER* marker = new SCH_MARKER( ercItem, wireStart );
m_currentSheet->GetScreen()->Append( marker );
}
}
else
{
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/* wire end is below the bus
* =======
* |
* |
* |
*/
VECTOR2I p = wireStart + entrySize( 0, 1 );
if( testBusHit( wireStart + entrySize( -1, 0 ) ) )
{
/* there is room to the left of the wire for the bus entry
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* =======
* \
* |
* |
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 4 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetStartPoint( p );
}
else if( testBusHit( wireStart + entrySize( 1, 0 ) ) )
{
/* there is room to the right of the wire for the bus entry
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* =======
* /
* |
* |
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 1 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetStartPoint( p );
}
else
{
auto ercItem = ERC_ITEM::Create( ERCE_BUS_ENTRY_NEEDED );
SCH_MARKER* marker = new SCH_MARKER( ercItem, wireStart );
m_currentSheet->GetScreen()->Append( marker );
}
}
break;
}
else if( testBusHit( wireEnd ) )
{
// Wire end is on the bus
if( wireStart.y < busStart.y )
{
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/* the start of the wire is above the bus
* |
* |
* |
* =======
*/
VECTOR2I p = wireEnd + entrySize( 0, -1 );
if( testBusHit( wireEnd + entrySize( -1, 0 ) ) )
{
/* there is room to the left of the wire for the bus entry
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* |
* |
* /
* =======
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 3 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetEndPoint( p );
}
else if( testBusHit( wireEnd + entrySize( 1, 0 ) ) )
{
/* there is room to the right of the wire for the bus entry
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* |
* |
* \
* =======
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 2 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetEndPoint( p );
}
else
{
auto ercItem = ERC_ITEM::Create( ERCE_BUS_ENTRY_NEEDED );
SCH_MARKER* marker = new SCH_MARKER( ercItem, wireEnd );
m_currentSheet->GetScreen()->Append( marker );
}
}
else
{
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/* wire start is below the bus
* =======
* |
* |
* |
*/
VECTOR2I p = wireEnd + entrySize( 0, 1 );
if( testBusHit( wireEnd + entrySize( -1, 0 ) ) )
{
/* there is room to the left of the wire for the bus entry
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* =======
* \
* |
* |
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 4 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetEndPoint( p );
}
else if( testBusHit( wireEnd + entrySize( 1, 0 ) ) )
{
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/* there is room to the right of the wire for the bus entry
* =======
* /
* |
* |
*/
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 1 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetEndPoint( p );
}
else
{
auto ercItem = ERC_ITEM::Create( ERCE_BUS_ENTRY_NEEDED );
SCH_MARKER* marker = new SCH_MARKER( ercItem, wireEnd );
m_currentSheet->GetScreen()->Append( marker );
}
}
break;
}
}
else
{
// Wire isn't horizontal or vertical
if( testBusHit( wireStart ) )
{
VECTOR2I wirevector = wireStart - wireEnd;
if( wirevector.x > 0 )
{
if( wirevector.y > 0 )
{
VECTOR2I p = wireStart + entrySize( -1, -1 );
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 2 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetStartPoint( p );
}
else
{
VECTOR2I p = wireStart + entrySize( -1, 1 );
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 1 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetStartPoint( p );
}
}
else
{
if( wirevector.y > 0 )
{
VECTOR2I p = wireStart + entrySize( 1, -1 );
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 3 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetStartPoint( p );
}
else
{
VECTOR2I p = wireStart + entrySize( 1, 1 );
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 4 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetStartPoint( p );
}
}
break;
}
else if( testBusHit( wireEnd ) )
{
VECTOR2I wirevector = wireStart - wireEnd;
if( wirevector.x > 0 )
{
if( wirevector.y > 0 )
{
VECTOR2I p = wireEnd + entrySize( 1, 1 );
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 4 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetEndPoint( p );
}
else
{
VECTOR2I p = wireEnd + entrySize( 1, -1 );
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 3 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetEndPoint( p );
}
}
else
{
if( wirevector.y > 0 )
{
VECTOR2I p = wireEnd + entrySize( -1, 1 );
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 1 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetEndPoint( p );
}
else
{
VECTOR2I p = wireEnd + entrySize( -1, -1 );
SCH_BUS_WIRE_ENTRY* busEntry = new SCH_BUS_WIRE_ENTRY( p, 2 );
busEntry->SetFlags( IS_NEW );
m_currentSheet->GetScreen()->Append( busEntry );
moveLabels( wire, p );
wire->SetEndPoint( p );
}
}
break;
}
}
}
}
}
const SEG* SCH_EAGLE_PLUGIN::SEG_DESC::LabelAttached( const SCH_TEXT* aLabel ) const
{
VECTOR2I labelPos( aLabel->GetPosition() );
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for( const SEG& seg : segs )
{
if( seg.Contains( labelPos ) )
return &seg;
}
return nullptr;
}
// TODO could be used to place junctions, instead of IsJunctionNeeded()
// (see SCH_EDIT_FRAME::importFile())
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bool SCH_EAGLE_PLUGIN::checkConnections( const SCH_SYMBOL* aSymbol, const LIB_PIN* aPin ) const
{
VECTOR2I pinPosition = aSymbol->GetPinPhysicalPosition( aPin );
auto pointIt = m_connPoints.find( pinPosition );
if( pointIt == m_connPoints.end() )
return false;
const auto& items = pointIt->second;
wxASSERT( items.find( aPin ) != items.end() );
return items.size() > 1;
}
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void SCH_EAGLE_PLUGIN::addImplicitConnections( SCH_SYMBOL* aSymbol, SCH_SCREEN* aScreen,
bool aUpdateSet )
{
wxCHECK( aSymbol->GetLibSymbolRef(), /*void*/ );
// Normally power parts also have power input pins,
// but they already force net names on the attached wires
if( aSymbol->GetLibSymbolRef()->IsPower() )
return;
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int unit = aSymbol->GetUnit();
const wxString reference = aSymbol->GetField( REFERENCE_FIELD )->GetText();
std::vector<LIB_PIN*> pins;
aSymbol->GetLibSymbolRef()->GetPins( pins );
std::set<int> missingUnits;
// Search all units for pins creating implicit connections
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for( const LIB_PIN* pin : pins )
{
if( pin->GetType() == ELECTRICAL_PINTYPE::PT_POWER_IN )
{
bool pinInUnit = !unit || pin->GetUnit() == unit; // pin belongs to the tested unit
// Create a global net label only if there are no other wires/pins attached
if( pinInUnit )
{
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if( !checkConnections( aSymbol, pin ) )
{
// Create a net label to force the net name on the pin
SCH_GLOBALLABEL* netLabel = new SCH_GLOBALLABEL;
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netLabel->SetPosition( aSymbol->GetPinPhysicalPosition( pin ) );
netLabel->SetText( extractNetName( pin->GetName() ) );
netLabel->SetTextSize( wxSize( Mils2iu( 40 ), Mils2iu( 40 ) ) );
switch( pin->GetOrientation() )
{
case PIN_LEFT: netLabel->SetTextSpinStyle( TEXT_SPIN_STYLE::RIGHT ); break;
case PIN_RIGHT: netLabel->SetTextSpinStyle( TEXT_SPIN_STYLE::LEFT ); break;
case PIN_UP: netLabel->SetTextSpinStyle( TEXT_SPIN_STYLE::UP ); break;
case PIN_DOWN: netLabel->SetTextSpinStyle( TEXT_SPIN_STYLE::BOTTOM ); break;
}
aScreen->Append( netLabel );
}
}
else if( aUpdateSet )
{
// Found a pin creating implicit connection information in another unit.
// Such units will be instantiated if they do not appear in another sheet and
// processed later.
wxASSERT( pin->GetUnit() );
missingUnits.insert( pin->GetUnit() );
}
}
}
if( aUpdateSet && aSymbol->GetLibSymbolRef()->GetUnitCount() > 1 )
{
auto cmpIt = m_missingCmps.find( reference );
// The first unit found has always already been processed.
if( cmpIt == m_missingCmps.end() )
{
EAGLE_MISSING_CMP& entry = m_missingCmps[reference];
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entry.cmp = aSymbol;
entry.units.emplace( unit, false );
}
else
{
// Set the flag indicating this unit has been processed.
cmpIt->second.units[unit] = false;
}
if( !missingUnits.empty() ) // Save the units that need later processing
{
EAGLE_MISSING_CMP& entry = m_missingCmps[reference];
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entry.cmp = aSymbol;
// Add units that haven't already been processed.
for( int i : missingUnits )
{
if( entry.units.find( i ) != entry.units.end() )
entry.units.emplace( i, true );
}
}
}
}
wxString SCH_EAGLE_PLUGIN::translateEagleBusName( const wxString& aEagleName ) const
{
if( NET_SETTINGS::ParseBusVector( aEagleName, nullptr, nullptr ) )
return aEagleName;
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wxString ret = wxT( "{" );
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wxStringTokenizer tokenizer( aEagleName, wxT( "," ) );
while( tokenizer.HasMoreTokens() )
{
wxString member = tokenizer.GetNextToken();
// In Eagle, overbar text is automatically stopped at the end of the net name, even when
// that net name is part of a bus definition. In KiCad, we don't (currently) do that, so
// if there is an odd number of overbar markers in this net name, we need to append one
// to close it out before appending the space.
if( member.Freq( '!' ) % 2 > 0 )
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member << wxT( "!" );
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ret << member << wxS( " " );
}
ret.Trim( true );
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ret << wxT( "}" );
return ret;
}