1042 lines
23 KiB
C++
1042 lines
23 KiB
C++
/*
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* This program source code file is part of KiCad, a free EDA CAD application.
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*
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* Copyright (C) 2012 SoftPLC Corporation, Dick Hollenbeck <dick@softplc.com>
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* Copyright (C) 2012-2016 KiCad Developers, see AUTHORS.txt for contributors.
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* Copyright (C) 2017 CERN
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* @author Alejandro García Montoro <alejandro.garciamontoro@gmail.com>
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, you may find one here:
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* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
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* or you may search the http://www.gnu.org website for the version 2 license,
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* or you may write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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#ifndef _EAGLE_PARSER_H_
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#define _EAGLE_PARSER_H_
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#include <errno.h>
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#include <unordered_map>
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#include <wx/xml/xml.h>
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#include <wx/string.h>
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#include <wx/filename.h>
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#include <layers_id_colors_and_visibility.h>
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#include <convert_to_biu.h>
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#include <macros.h>
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#include <trigo.h>
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#include <kicad_string.h>
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#include <common.h>
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class MODULE;
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struct EINSTANCE;
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struct EPART;
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struct ETEXT;
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typedef std::unordered_map<wxString, wxXmlNode*> NODE_MAP;
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typedef std::map<wxString, MODULE*> MODULE_MAP;
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typedef std::map<wxString, EINSTANCE*> EINSTANCE_MAP;
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typedef std::map<wxString, std::unique_ptr<EPART>> EPART_MAP;
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///> Translates Eagle special characters to their counterparts in KiCad.
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wxString escapeName( const wxString& aNetName );
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static inline wxXmlNode* getChildrenNodes( NODE_MAP& aMap, const wxString& aName )
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{
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auto it = aMap.find( aName );
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return it == aMap.end() ? nullptr : it->second->GetChildren();
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}
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/**
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* Class XML_PARSER_ERROR
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* implements a simple wrapper around runtime_error to isolate the errors thrown by the
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* Eagle XML parser.
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*/
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struct XML_PARSER_ERROR : std::runtime_error
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{
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/**
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* Constructor XML_PARSER_ERROR
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* build an XML error by just calling its parent class constructor, std::runtime_error, with
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* the passed message.
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* @param aMessage is an explanatory error message.
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*/
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XML_PARSER_ERROR( const wxString& aMessage ) noexcept :
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std::runtime_error( "XML parser failed - " + aMessage.ToStdString() )
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{}
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};
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/// segment (element) of our XPATH into the Eagle XML document tree in PTREE form.
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struct TRIPLET
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{
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const char* element;
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const char* attribute;
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const char* value;
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TRIPLET( const char* aElement, const char* aAttribute = "", const char* aValue = "" ) :
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element( aElement ),
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attribute( aAttribute ),
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value( aValue )
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{}
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};
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/**
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* Class XPATH
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* keeps track of what we are working on within a PTREE.
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* Then if an exception is thrown, the place within the tree that gave us
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* grief can be reported almost accurately. To minimally impact
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* speed, merely assign const char* pointers during the tree walking
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* expedition. The const char* pointers must be to C strings residing either in
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* the data or code segment (i.e. "compiled in") or within the XML document, but
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* not on the stack, since the stack is unwound during the throwing of the
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* exception. The XML document will not immediately vanish since we capture
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* the xpath (using function Contents()) before the XML document tree (PTREE)
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* is destroyed.
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*/
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class XPATH
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{
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std::vector<TRIPLET> p;
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public:
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void push( const char* aPathSegment, const char* aAttribute="" )
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{
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p.push_back( TRIPLET( aPathSegment, aAttribute ) );
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}
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void clear() { p.clear(); }
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void pop() { p.pop_back(); }
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/// modify the last path node's value
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void Value( const char* aValue )
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{
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p.back().value = aValue;
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}
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/// modify the last path node's attribute
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void Attribute( const char* aAttribute )
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{
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p.back().attribute = aAttribute;
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}
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/// return the contents of the XPATH as a single string
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wxString Contents()
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{
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typedef std::vector<TRIPLET>::const_iterator CITER_TRIPLET;
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wxString ret;
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for( CITER_TRIPLET it = p.begin(); it != p.end(); ++it )
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{
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if( it != p.begin() )
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ret += '.';
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ret += it->element;
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if( it->attribute[0] && it->value[0] )
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{
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ret += '[';
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ret += it->attribute;
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ret += '=';
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ret += it->value;
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ret += ']';
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}
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}
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return ret;
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}
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};
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/**
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* Function Convert
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* converts a wxString to a generic type T.
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* @param aValue is a wxString containing the value that will be converted to type T.
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* @throw XML_PARSER_ERROR - an exception is thrown if the parsing fails or if the conversion to
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* type T is unknown.
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*/
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template<typename T>
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T Convert( const wxString& aValue )
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{
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throw XML_PARSER_ERROR( "Conversion failed. Unknown type." );
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}
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template <>
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wxString Convert<wxString>( const wxString& aValue );
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/**
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* Class OPTIONAL_XML_ATTRIBUTE
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* models an optional XML attribute.
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* This was implemented as an alternative to OPT. This class should be replaced with a
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* simple typedef per type using std::optional when C++17 is published.
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*/
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template <typename T>
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class OPTIONAL_XML_ATTRIBUTE
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{
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private:
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/// A boolean indicating if the data is present or not.
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bool m_isAvailable;
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/// The actual data if m_isAvailable is true; otherwise, garbage.
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T m_data;
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public:
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/**
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* Constructor OPTIONAL_XML_ATTRIBUTE
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* construct a default OPTIONAL_XML_ATTRIBUTE, whose data is not available.
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*/
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OPTIONAL_XML_ATTRIBUTE() :
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m_isAvailable( false ),
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m_data( T() )
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{}
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/**
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* Constructor OPTIONAL_XML_ATTRIBUTE
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* @param aData is a wxString containing the value that should be converted to type T. If
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* aData is empty, the attribute is understood as unavailable; otherwise, the
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* conversion to T is tried.
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*/
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OPTIONAL_XML_ATTRIBUTE( const wxString& aData )
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{
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m_isAvailable = !aData.IsEmpty();
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if( m_isAvailable )
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Set( aData );
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}
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/**
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* Constructor OPTIONAL_XML_ATTRIBUTE
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* @param aData is the value of the XML attribute. If this constructor is called, the
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* attribute is available.
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*/
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template<typename V = T>
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OPTIONAL_XML_ATTRIBUTE( T aData ) :
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m_isAvailable( true ),
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m_data( aData )
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{}
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/**
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* Operator bool
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* @return bool - the availability of the attribute.
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*/
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operator bool() const
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{
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return m_isAvailable;
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}
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/**
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* Assignment operator
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* to a string (optionally) containing the data.
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* @param aData is a wxString that should be converted to T. If the string is empty, the
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* attribute is set to unavailable.
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*/
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OPTIONAL_XML_ATTRIBUTE<T>& operator =( const wxString& aData )
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{
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m_isAvailable = !aData.IsEmpty();
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if( m_isAvailable )
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Set( aData );
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return *this;
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}
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/**
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* Assignment operator
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* to an object of the base type containing the data.
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* @param aData is the actual value of the attribute. Calling this assignment, the attribute
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* is automatically made available.
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*/
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OPTIONAL_XML_ATTRIBUTE<T>& operator =( T aData )
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{
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m_data = aData;
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m_isAvailable = true;
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return *this;
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}
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/**
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* Equal operator
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* to an object of the base type.
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* @param aOther is the object of the base type that should be compared with this one.
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*/
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bool operator ==( const T& aOther ) const
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{
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return m_isAvailable && ( aOther == m_data );
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}
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/**
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* Function Set
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* tries to convert a string to the base type.
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* @param aString is the string that will be converted to the base type.
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*/
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void Set( const wxString& aString )
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{
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m_data = Convert<T>( aString );
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m_isAvailable = !aString.IsEmpty();
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}
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/**
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* Function Get
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* returns a reference to the value of the attribute assuming it is available.
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* @return T& - the value of the attribute.
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*/
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T& Get()
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{
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assert( m_isAvailable );
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return m_data;
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}
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/**
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* Function CGet
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* returns a constant reference to the value of the attribute assuming it is available.
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* @return const T& - the value of the attribute.
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*/
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const T& CGet() const
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{
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assert( m_isAvailable );
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return m_data;
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}
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/**
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* Operator *
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* returns a reference to the value of the attribute assuming it is available.
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* @return T& - the value of the attribute.
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*/
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T& operator*()
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{
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return Get();
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}
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/**
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* Operator *
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* returns a constant reference to the value of the attribute assuming it is available.
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* @return const T& - the value of the attribute.
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*/
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const T& operator*() const
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{
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return CGet();
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}
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/**
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* Operator ->
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* returns a pointer to the value of the attribute assuming it is available.
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* @return T* - the value of the attribute.
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*/
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T* operator->()
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{
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return &Get();
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}
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/**
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* Operator ->
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* returns a constant pointer to the value of the attribute assuming it is available.
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* @return const T* - the value of the attribute.
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*/
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const T* operator->() const
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{
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return &CGet();
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}
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};
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/**
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* Function MapChildren
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* provides an easy access to the children of an XML node via their names.
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* @param currentNode is a pointer to a wxXmlNode, whose children will be mapped.
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* @return NODE_MAP - a map linking the name of each children to the children itself (via a
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* wxXmlNode*)
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*/
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NODE_MAP MapChildren( wxXmlNode* aCurrentNode );
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///> Make a unique time stamp
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timestamp_t EagleTimeStamp( wxXmlNode* aTree );
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///> Computes module timestamp basing on its name, value and unit
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timestamp_t EagleModuleTstamp( const wxString& aName, const wxString& aValue, int aUnit );
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///> Convert an Eagle curve end to a KiCad center for S_ARC
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wxPoint ConvertArcCenter( const wxPoint& aStart, const wxPoint& aEnd, double aAngle );
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// Pre-declare for typedefs
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struct EROT;
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struct ECOORD;
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typedef OPTIONAL_XML_ATTRIBUTE<wxString> opt_wxString;
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typedef OPTIONAL_XML_ATTRIBUTE<int> opt_int;
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typedef OPTIONAL_XML_ATTRIBUTE<double> opt_double;
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typedef OPTIONAL_XML_ATTRIBUTE<bool> opt_bool;
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typedef OPTIONAL_XML_ATTRIBUTE<EROT> opt_erot;
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typedef OPTIONAL_XML_ATTRIBUTE<ECOORD> opt_ecoord;
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// All of the 'E'STRUCTS below merely hold Eagle XML information verbatim, in binary.
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// For maintenance and troubleshooting purposes, it was thought that we'd need to
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// separate the conversion process into distinct steps. There is no intent to have KiCad
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// forms of information in these 'E'STRUCTS. They are only binary forms
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// of the Eagle information in the corresponding Eagle XML nodes.
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// Eagle coordinates
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struct ECOORD
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{
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enum EAGLE_UNIT
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{
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EU_NM, ///< nanometers
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EU_MM, ///< millimeters
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EU_INCH, ///< inches
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EU_MIL, ///< mils/thous
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};
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///> Value expressed in nanometers
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long long int value;
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///> Unit used for the value field
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static constexpr EAGLE_UNIT ECOORD_UNIT = EU_NM;
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ECOORD()
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: value( 0 )
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{
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}
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ECOORD( int aValue, enum EAGLE_UNIT aUnit )
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: value( ConvertToNm( aValue, aUnit ) )
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{
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}
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ECOORD( const wxString& aValue, enum EAGLE_UNIT aUnit );
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int ToMils() const
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{
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return value / 25400;
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}
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int ToNanoMeters() const
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{
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return value;
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}
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float ToMm() const
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{
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return value / 1000000.0;
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}
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int ToSchUnits() const { return ToMils(); }
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int ToPcbUnits() const { return ToNanoMeters(); }
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ECOORD operator+( const ECOORD& aOther ) const
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{
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return ECOORD( value + aOther.value, ECOORD_UNIT );
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}
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ECOORD operator-( const ECOORD& aOther ) const
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{
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return ECOORD( value - aOther.value, ECOORD_UNIT );
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}
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bool operator==( const ECOORD& aOther ) const
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{
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return value == aOther.value;
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}
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///> Converts a size expressed in a certain unit to nanometers.
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static long long int ConvertToNm( int aValue, enum EAGLE_UNIT aUnit );
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};
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/// Eagle net
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struct ENET
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{
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int netcode;
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wxString netname;
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ENET( int aNetCode, const wxString& aNetName ) :
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netcode( aNetCode ),
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netname( aNetName )
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{}
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ENET() :
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netcode( 0 )
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{}
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};
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/// Eagle rotation
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struct EROT
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{
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bool mirror;
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bool spin;
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double degrees;
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EROT() :
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mirror( false ),
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spin( false ),
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degrees( 0 )
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{}
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EROT( double aDegrees ) :
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mirror( false ),
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spin( false ),
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degrees( aDegrees )
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{}
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};
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/// Eagle wire
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struct EWIRE
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{
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ECOORD x1;
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ECOORD y1;
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ECOORD x2;
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ECOORD y2;
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ECOORD width;
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LAYER_NUM layer;
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// for style: (continuous | longdash | shortdash | dashdot)
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enum {
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CONTINUOUS,
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LONGDASH,
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SHORTDASH,
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DASHDOT,
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};
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opt_int style;
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opt_double curve; ///< range is -359.9..359.9
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// for cap: (flat | round)
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enum {
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FLAT,
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ROUND,
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};
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opt_int cap;
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EWIRE( wxXmlNode* aWire );
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};
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/// Eagle Junction
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struct EJUNCTION
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{
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ECOORD x;
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ECOORD y;
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EJUNCTION( wxXmlNode* aJunction);
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};
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|
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/// Eagle label
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struct ELABEL
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{
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ECOORD x;
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ECOORD y;
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ECOORD size;
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LAYER_NUM layer;
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opt_erot rot;
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opt_wxString xref;
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wxString netname;
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ELABEL( wxXmlNode* aLabel, const wxString& aNetName );
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};
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|
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/// Eagle via
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struct EVIA
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{
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ECOORD x;
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ECOORD y;
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int layer_front_most; /// < extent
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int layer_back_most; /// < inclusive
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ECOORD drill;
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opt_ecoord diam;
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opt_wxString shape;
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EVIA( wxXmlNode* aVia );
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};
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|
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/// Eagle circle
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struct ECIRCLE
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{
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ECOORD x;
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ECOORD y;
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ECOORD radius;
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ECOORD width;
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LAYER_NUM layer;
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ECIRCLE( wxXmlNode* aCircle );
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};
|
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|
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|
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/// Eagle XML rectangle in binary
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|
struct ERECT
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{
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ECOORD x1;
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ECOORD y1;
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ECOORD x2;
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ECOORD y2;
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int layer;
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opt_erot rot;
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ERECT( wxXmlNode* aRect );
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};
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/**
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* Class EATTR
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* parses an Eagle "attribute" XML element. Note that an attribute element
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* is different than an XML element attribute. The attribute element is a
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* full XML node in and of itself, and has attributes of its own. Blame Eagle.
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*/
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struct EATTR
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{
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wxString name;
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opt_wxString value;
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opt_ecoord x;
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opt_ecoord y;
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opt_ecoord size;
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opt_int layer;
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opt_double ratio;
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opt_erot rot;
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enum { // for 'display'
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Off,
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VALUE,
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NAME,
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BOTH,
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};
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opt_int display;
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opt_int align;
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EATTR( wxXmlNode* aTree );
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EATTR() {}
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};
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/// Eagle dimension element
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struct EDIMENSION
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{
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ECOORD x1;
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ECOORD y1;
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ECOORD x2;
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ECOORD y2;
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ECOORD x3;
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ECOORD y3;
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int layer;
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opt_wxString dimensionType;
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EDIMENSION( wxXmlNode* aDimension );
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};
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/// Eagle text element
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struct ETEXT
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{
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wxString text;
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ECOORD x;
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ECOORD y;
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ECOORD size;
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int layer;
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opt_wxString font;
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opt_double ratio;
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opt_erot rot;
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enum { // for align
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CENTER,
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CENTER_LEFT,
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TOP_CENTER,
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TOP_LEFT,
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TOP_RIGHT,
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// opposites are -1 x above, used by code tricks in here
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CENTER_RIGHT = -CENTER_LEFT,
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BOTTOM_CENTER = -TOP_CENTER,
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BOTTOM_LEFT = -TOP_RIGHT,
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BOTTOM_RIGHT = -TOP_LEFT,
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};
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opt_int align;
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ETEXT( wxXmlNode* aText );
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/// Calculate text size based on font type and size
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wxSize ConvertSize() const;
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};
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/// Structure holding common properties for through-hole and SMD pads
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struct EPAD_COMMON
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{
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wxString name;
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ECOORD x, y;
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opt_erot rot;
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opt_bool stop;
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opt_bool thermals;
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EPAD_COMMON( wxXmlNode* aPad );
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};
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/// Eagle thru hole pad
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struct EPAD : public EPAD_COMMON
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{
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ECOORD drill;
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opt_ecoord diameter;
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// for shape: (square | round | octagon | long | offset)
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enum {
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SQUARE,
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ROUND,
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OCTAGON,
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LONG,
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OFFSET,
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};
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opt_int shape;
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opt_bool first;
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EPAD( wxXmlNode* aPad );
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};
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/// Eagle SMD pad
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struct ESMD : public EPAD_COMMON
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{
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ECOORD dx;
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ECOORD dy;
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int layer;
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opt_int roundness;
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opt_bool cream;
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ESMD( wxXmlNode* aSMD );
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};
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/// Eagle pin element
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struct EPIN
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{
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wxString name;
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ECOORD x;
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ECOORD y;
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opt_wxString visible;
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opt_wxString length;
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opt_wxString direction;
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opt_wxString function;
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opt_int swaplevel;
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opt_erot rot;
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EPIN( wxXmlNode* aPin );
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};
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/// Eagle vertex
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struct EVERTEX
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{
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ECOORD x;
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ECOORD y;
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opt_double curve; ///< range is -359.9..359.9
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EVERTEX( wxXmlNode* aVertex );
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};
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/// Eagle polygon, without vertices which are parsed as needed
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struct EPOLYGON
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{
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ECOORD width;
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int layer;
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opt_ecoord spacing;
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// KiCad priority is opposite of Eagle rank, that is:
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// - Eagle Low rank drawn first
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// - KiCad high priority drawn first
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// So since Eagle has an upper limit we define this, used for the cases
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// where no rank is specified.
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static const int max_priority = 6;
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enum { // for pour
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SOLID,
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HATCH,
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CUTOUT,
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};
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int pour;
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opt_ecoord isolate;
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opt_bool orphans;
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opt_bool thermals;
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opt_int rank;
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EPOLYGON( wxXmlNode* aPolygon );
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};
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/// Eagle hole element
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struct EHOLE
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{
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ECOORD x;
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ECOORD y;
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ECOORD drill;
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EHOLE( wxXmlNode* aHole );
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};
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/// Eagle element element
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struct EELEMENT
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{
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wxString name;
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wxString library;
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wxString package;
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wxString value;
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ECOORD x;
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ECOORD y;
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opt_bool locked;
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opt_bool smashed;
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opt_erot rot;
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EELEMENT( wxXmlNode* aElement );
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};
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struct ELAYER
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{
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int number;
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wxString name;
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int color;
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int fill;
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opt_bool visible;
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opt_bool active;
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ELAYER( wxXmlNode* aLayer );
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};
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struct EAGLE_LAYER
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{
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enum
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{
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TOP = 1,
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ROUTE2 = 2,
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ROUTE3 = 3,
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ROUTE4 = 4,
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ROUTE5 = 5,
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ROUTE6 = 6,
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ROUTE7 = 7,
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ROUTE8 = 8,
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ROUTE9 = 9,
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ROUTE10 = 10,
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ROUTE11 = 11,
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ROUTE12 = 12,
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ROUTE13 = 13,
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ROUTE14 = 14,
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ROUTE15 = 15,
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BOTTOM = 16,
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PADS = 17,
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VIAS = 18,
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UNROUTED = 19,
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DIMENSION = 20,
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TPLACE = 21,
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BPLACE = 22,
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TORIGINS = 23,
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BORIGINS = 24,
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TNAMES = 25,
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BNAMES = 26,
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TVALUES = 27,
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BVALUES = 28,
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TSTOP = 29,
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BSTOP = 30,
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TCREAM = 31,
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BCREAM = 32,
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TFINISH = 33,
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BFINISH = 34,
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TGLUE = 35,
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BGLUE = 36,
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TTEST = 37,
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BTEST = 38,
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TKEEPOUT = 39,
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BKEEPOUT = 40,
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TRESTRICT = 41,
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BRESTRICT = 42,
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VRESTRICT = 43,
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DRILLS = 44,
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HOLES = 45,
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MILLING = 46,
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MEASURES = 47,
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DOCUMENT = 48,
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REFERENCELC = 49,
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REFERENCELS = 50,
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TDOCU = 51,
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BDOCU = 52,
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NETS = 91,
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BUSSES = 92,
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PINS = 93,
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SYMBOLS = 94,
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NAMES = 95,
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VALUES = 96,
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INFO = 97,
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GUIDE = 98,
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USERLAYER1 = 160,
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USERLAYER2 = 161
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};
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};
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struct EPART
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{
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/*
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* <!ELEMENT part (attribute*, variant*)>
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* <!ATTLIST part
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* name %String; #REQUIRED
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* library %String; #REQUIRED
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* deviceset %String; #REQUIRED
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* device %String; #REQUIRED
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* technology %String; ""
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* value %String; #IMPLIED
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* >
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*/
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wxString name;
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wxString library;
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wxString deviceset;
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wxString device;
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opt_wxString technology;
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opt_wxString value;
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EPART( wxXmlNode* aPart );
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};
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struct EINSTANCE
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{
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/*
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* <!ELEMENT instance (attribute)*>
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* <!ATTLIST instance
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* part %String; #REQUIRED
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* gate %String; #REQUIRED
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* x %Coord; #REQUIRED
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* y %Coord; #REQUIRED
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* smashed %Bool; "no"
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* rot %Rotation; "R0"
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* >
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*/
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wxString part;
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wxString gate;
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ECOORD x;
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ECOORD y;
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opt_bool smashed;
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opt_erot rot;
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EINSTANCE( wxXmlNode* aInstance );
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};
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struct EGATE
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{
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/*
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* <!ELEMENT gate EMPTY>
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* <!ATTLIST gate
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* name %String; #REQUIRED
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* symbol %String; #REQUIRED
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* x %Coord; #REQUIRED
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* y %Coord; #REQUIRED
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* addlevel %GateAddLevel; "next"
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* swaplevel %Int; "0"
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* >
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*/
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wxString name;
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wxString symbol;
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ECOORD x;
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ECOORD y;
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opt_int addlevel;
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opt_int swaplevel;
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enum
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{
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MUST,
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CAN,
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NEXT,
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REQUEST,
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ALWAYS
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};
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EGATE( wxXmlNode* aGate );
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};
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struct ECONNECT
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{
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/*
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* <!ELEMENT connect EMPTY>
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* <!ATTLIST connect
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* gate %String; #REQUIRED
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* pin %String; #REQUIRED
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* pad %String; #REQUIRED
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* route %ContactRoute; "all"
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* >
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*/
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wxString gate;
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wxString pin;
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wxString pad;
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//int contactroute; // TODO
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ECONNECT( wxXmlNode* aConnect );
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};
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struct EDEVICE
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{
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/*
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<!ELEMENT device (connects?, technologies?)>
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<!ATTLIST device
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name %String; ""
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package %String; #IMPLIED
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>
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*/
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wxString name;
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opt_wxString package;
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std::vector<ECONNECT> connects;
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EDEVICE( wxXmlNode* aDevice );
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};
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struct EDEVICE_SET
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{
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/*
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<!ELEMENT deviceset (description?, gates, devices)>
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<!ATTLIST deviceset
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name %String; #REQUIRED
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prefix %String; ""
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uservalue %Bool; "no"
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>
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*/
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wxString name;
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opt_wxString prefix;
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opt_bool uservalue;
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//std::vector<EDEVICE> devices;
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//std::vector<EGATE> gates;
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EDEVICE_SET( wxXmlNode* aDeviceSet );
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};
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#endif // _EAGLE_PARSER_H_
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