629 lines
20 KiB
C++
629 lines
20 KiB
C++
/**
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* @file export_idf.cpp
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*/
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/*
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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) 2013 Cirilo Bernardo
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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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#include <list>
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#include <wxPcbStruct.h>
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#include <macros.h>
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#include <pcbnew.h>
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#include <class_board.h>
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#include <class_module.h>
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#include <class_edge_mod.h>
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#include <idf_parser.h>
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#include <3d_cache/3d_info.h>
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#include <build_version.h>
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#include "project.h"
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#include "kiway.h"
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#include "3d_cache/3d_cache.h"
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#include "3d_cache/3d_filename_resolver.h"
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#ifndef PCBNEW
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#define PCBNEW // needed to define the right value of Millimeter2iu(x)
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#endif
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#include <convert_to_biu.h> // to define Millimeter2iu(x)
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// assumed default graphical line thickness: == 0.1mm
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#define LINE_WIDTH (Millimeter2iu( 0.1 ))
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static S3D_FILENAME_RESOLVER* resolver;
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/**
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* Function idf_export_outline
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* retrieves line segment information from the edge layer and compiles
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* the data into a form which can be output as an IDFv3 compliant
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* BOARD_OUTLINE section.
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*/
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static void idf_export_outline( BOARD* aPcb, IDF3_BOARD& aIDFBoard )
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{
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double scale = aIDFBoard.GetUserScale();
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DRAWSEGMENT* graphic; // KiCad graphical item
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IDF_POINT sp, ep; // start and end points from KiCad item
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std::list< IDF_SEGMENT* > lines; // IDF intermediate form of KiCad graphical item
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IDF_OUTLINE* outline = NULL; // graphical items forming an outline or cutout
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// NOTE: IMPLEMENTATION
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// If/when component cutouts are allowed, we must implement them separately. Cutouts
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// must be added to the board outline section and not to the Other Outline section.
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// The module cutouts should be handled via the idf_export_module() routine.
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double offX, offY;
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aIDFBoard.GetUserOffset( offX, offY );
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// Retrieve segments and arcs from the board
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for( auto item : aPcb->Drawings() )
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{
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if( item->Type() != PCB_LINE_T || item->GetLayer() != Edge_Cuts )
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continue;
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graphic = (DRAWSEGMENT*) item;
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switch( graphic->GetShape() )
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{
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case S_SEGMENT:
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{
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if( ( graphic->GetStart().x == graphic->GetEnd().x )
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&& ( graphic->GetStart().y == graphic->GetEnd().y ) )
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break;
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sp.x = graphic->GetStart().x * scale + offX;
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sp.y = -graphic->GetStart().y * scale + offY;
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ep.x = graphic->GetEnd().x * scale + offX;
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ep.y = -graphic->GetEnd().y * scale + offY;
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IDF_SEGMENT* seg = new IDF_SEGMENT( sp, ep );
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if( seg )
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lines.push_back( seg );
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}
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break;
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case S_ARC:
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{
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if( ( graphic->GetCenter().x == graphic->GetArcStart().x )
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&& ( graphic->GetCenter().y == graphic->GetArcStart().y ) )
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break;
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sp.x = graphic->GetCenter().x * scale + offX;
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sp.y = -graphic->GetCenter().y * scale + offY;
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ep.x = graphic->GetArcStart().x * scale + offX;
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ep.y = -graphic->GetArcStart().y * scale + offY;
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IDF_SEGMENT* seg = new IDF_SEGMENT( sp, ep, -graphic->GetAngle() / 10.0, true );
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if( seg )
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lines.push_back( seg );
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}
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break;
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case S_CIRCLE:
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{
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if( graphic->GetRadius() == 0 )
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break;
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sp.x = graphic->GetCenter().x * scale + offX;
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sp.y = -graphic->GetCenter().y * scale + offY;
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ep.x = sp.x - graphic->GetRadius() * scale;
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ep.y = sp.y;
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// Circles must always have an angle of +360 deg. to appease
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// quirky MCAD implementations of IDF.
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IDF_SEGMENT* seg = new IDF_SEGMENT( sp, ep, 360.0, true );
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if( seg )
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lines.push_back( seg );
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}
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break;
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default:
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break;
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}
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}
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// if there is no outline then use the bounding box
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if( lines.empty() )
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{
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goto UseBoundingBox;
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}
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// get the board outline and write it out
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// note: we do not use a try/catch block here since we intend
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// to simply ignore unclosed loops and continue processing
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// until we're out of segments to process
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outline = new IDF_OUTLINE;
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IDF3::GetOutline( lines, *outline );
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if( outline->empty() )
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goto UseBoundingBox;
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aIDFBoard.AddBoardOutline( outline );
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outline = NULL;
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// get all cutouts and write them out
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while( !lines.empty() )
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{
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if( !outline )
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outline = new IDF_OUTLINE;
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IDF3::GetOutline( lines, *outline );
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if( outline->empty() )
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{
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outline->Clear();
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continue;
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}
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aIDFBoard.AddBoardOutline( outline );
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outline = NULL;
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}
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return;
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UseBoundingBox:
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// clean up if necessary
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while( !lines.empty() )
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{
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delete lines.front();
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lines.pop_front();
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}
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if( outline )
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outline->Clear();
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else
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outline = new IDF_OUTLINE;
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// fetch a rectangular bounding box for the board;
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// there is always some uncertainty in the board dimensions
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// computed via ComputeBoundingBox() since this depends on the
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// individual module entities.
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EDA_RECT bbbox = aPcb->GetBoardEdgesBoundingBox();
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// convert to mm and compensate for an assumed LINE_WIDTH line thickness
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double x = ( bbbox.GetOrigin().x + LINE_WIDTH / 2 ) * scale + offX;
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double y = ( bbbox.GetOrigin().y + LINE_WIDTH / 2 ) * scale + offY;
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double dx = ( bbbox.GetSize().x - LINE_WIDTH ) * scale;
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double dy = ( bbbox.GetSize().y - LINE_WIDTH ) * scale;
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double px[4], py[4];
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px[0] = x;
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py[0] = y;
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px[1] = x;
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py[1] = y + dy;
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px[2] = x + dx;
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py[2] = y + dy;
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px[3] = x + dx;
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py[3] = y;
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IDF_POINT p1, p2;
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p1.x = px[3];
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p1.y = py[3];
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p2.x = px[0];
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p2.y = py[0];
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outline->push( new IDF_SEGMENT( p1, p2 ) );
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for( int i = 1; i < 4; ++i )
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{
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p1.x = px[i - 1];
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p1.y = py[i - 1];
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p2.x = px[i];
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p2.y = py[i];
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outline->push( new IDF_SEGMENT( p1, p2 ) );
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}
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aIDFBoard.AddBoardOutline( outline );
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}
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/**
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* Function idf_export_module
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* retrieves information from all board modules, adds drill holes to
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* the DRILLED_HOLES or BOARD_OUTLINE section as appropriate,
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* compiles data for the PLACEMENT section and compiles data for
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* the library ELECTRICAL section.
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*/
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static void idf_export_module( BOARD* aPcb, MODULE* aModule,
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IDF3_BOARD& aIDFBoard )
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{
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// Reference Designator
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std::string crefdes = TO_UTF8( aModule->GetReference() );
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if( crefdes.empty() || !crefdes.compare( "~" ) )
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{
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std::string cvalue = TO_UTF8( aModule->GetValue() );
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// if both the RefDes and Value are empty or set to '~' the board owns the part,
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// otherwise associated parts of the module must be marked NOREFDES.
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if( cvalue.empty() || !cvalue.compare( "~" ) )
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crefdes = "BOARD";
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else
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crefdes = "NOREFDES";
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}
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// TODO: If module cutouts are supported we must add code here
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// for( EDA_ITEM* item = aModule->GraphicalItems(); item != NULL; item = item->Next() )
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// {
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// if( ( item->Type() != PCB_MODULE_EDGE_T )
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// || (item->GetLayer() != Edge_Cuts ) ) continue;
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// code to export cutouts
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// }
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// Export pads
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double drill, x, y;
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double scale = aIDFBoard.GetUserScale();
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IDF3::KEY_PLATING kplate;
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std::string pintype;
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std::string tstr;
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double dx, dy;
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aIDFBoard.GetUserOffset( dx, dy );
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for( D_PAD* pad = aModule->PadsList(); pad; pad = pad->Next() )
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{
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drill = (double) pad->GetDrillSize().x * scale;
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x = pad->GetPosition().x * scale + dx;
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y = -pad->GetPosition().y * scale + dy;
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// Export the hole on the edge layer
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if( drill > 0.0 )
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{
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// plating
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if( pad->GetAttribute() == PAD_ATTRIB_HOLE_NOT_PLATED )
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kplate = IDF3::NPTH;
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else
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kplate = IDF3::PTH;
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// hole type
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tstr = TO_UTF8( pad->GetPadName() );
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if( tstr.empty() || !tstr.compare( "0" ) || !tstr.compare( "~" )
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|| ( kplate == IDF3::NPTH )
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||( pad->GetDrillShape() == PAD_DRILL_SHAPE_OBLONG ) )
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pintype = "MTG";
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else
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pintype = "PIN";
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// fields:
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// 1. hole dia. : float
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// 2. X coord : float
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// 3. Y coord : float
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// 4. plating : PTH | NPTH
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// 5. Assoc. part : BOARD | NOREFDES | PANEL | {"refdes"}
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// 6. type : PIN | VIA | MTG | TOOL | { "other" }
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// 7. owner : MCAD | ECAD | UNOWNED
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if( ( pad->GetDrillShape() == PAD_DRILL_SHAPE_OBLONG )
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&& ( pad->GetDrillSize().x != pad->GetDrillSize().y ) )
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{
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// NOTE: IDF does not have direct support for slots;
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// slots are implemented as a board cutout and we
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// cannot represent plating or reference designators
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double dlength = pad->GetDrillSize().y * scale;
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// NOTE: The orientation of modules and pads have
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// the opposite sense due to KiCad drawing on a
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// screen with a LH coordinate system
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double angle = pad->GetOrientation() / 10.0;
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// NOTE: Since this code assumes the scenario where
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// GetDrillSize().y is the length but idf_parser.cpp
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// assumes a length along the X axis, the orientation
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// must be shifted +90 deg when GetDrillSize().y is
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// the major axis.
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if( dlength < drill )
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{
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std::swap( drill, dlength );
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}
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else
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{
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angle += 90.0;
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}
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// NOTE: KiCad measures a slot's length from end to end
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// rather than between the centers of the arcs
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dlength -= drill;
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aIDFBoard.AddSlot( drill, dlength, angle, x, y );
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}
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else
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{
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IDF_DRILL_DATA *dp = new IDF_DRILL_DATA( drill, x, y, kplate, crefdes,
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pintype, IDF3::ECAD );
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if( !aIDFBoard.AddDrill( dp ) )
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{
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delete dp;
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std::ostringstream ostr;
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ostr << __FILE__ << ":" << __LINE__ << ":" << __FUNCTION__;
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ostr << "(): could not add drill";
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throw std::runtime_error( ostr.str() );
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}
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}
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}
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}
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// add any valid models to the library item list
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std::string refdes;
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IDF3_COMPONENT* comp = NULL;
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std::list<S3D_INFO>::const_iterator sM = aModule->Models().begin();
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std::list<S3D_INFO>::const_iterator eM = aModule->Models().end();
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wxFileName idfFile;
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wxString idfExt;
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while( sM != eM )
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{
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idfFile.Assign( resolver->ResolvePath( sM->m_Filename ) );
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idfExt = idfFile.GetExt();
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if( idfExt.Cmp( wxT( "idf" ) ) && idfExt.Cmp( wxT( "IDF" ) ) )
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{
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++sM;
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continue;
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}
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if( refdes.empty() )
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{
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refdes = TO_UTF8( aModule->GetReference() );
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// NOREFDES cannot be used or else the software gets confused
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// when writing out the placement data due to conflicting
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// placement and layer specifications; to work around this we
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// create a (hopefully) unique refdes for our exported part.
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if( refdes.empty() || !refdes.compare( "~" ) )
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refdes = aIDFBoard.GetNewRefDes();
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}
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IDF3_COMP_OUTLINE* outline;
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outline = aIDFBoard.GetComponentOutline( idfFile.GetFullPath() );
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if( !outline )
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throw( std::runtime_error( aIDFBoard.GetError() ) );
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double rotz = aModule->GetOrientation()/10.0;
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double locx = sM->m_Offset.x * 25.4; // part offsets are in inches
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double locy = sM->m_Offset.y * 25.4;
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double locz = sM->m_Offset.z * 25.4;
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double lrot = sM->m_Rotation.z;
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bool top = ( aModule->GetLayer() == B_Cu ) ? false : true;
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if( top )
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{
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locy = -locy;
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RotatePoint( &locx, &locy, aModule->GetOrientation() );
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locy = -locy;
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}
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if( !top )
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{
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lrot = -lrot;
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RotatePoint( &locx, &locy, aModule->GetOrientation() );
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locy = -locy;
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rotz = 180.0 - rotz;
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if( rotz >= 360.0 )
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while( rotz >= 360.0 ) rotz -= 360.0;
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if( rotz <= -360.0 )
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while( rotz <= -360.0 ) rotz += 360.0;
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}
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if( comp == NULL )
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comp = aIDFBoard.FindComponent( refdes );
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if( comp == NULL )
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{
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comp = new IDF3_COMPONENT( &aIDFBoard );
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if( comp == NULL )
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throw( std::runtime_error( aIDFBoard.GetError() ) );
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comp->SetRefDes( refdes );
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if( top )
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comp->SetPosition( aModule->GetPosition().x * scale + dx,
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-aModule->GetPosition().y * scale + dy,
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rotz, IDF3::LYR_TOP );
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else
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comp->SetPosition( aModule->GetPosition().x * scale + dx,
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-aModule->GetPosition().y * scale + dy,
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rotz, IDF3::LYR_BOTTOM );
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comp->SetPlacement( IDF3::PS_ECAD );
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aIDFBoard.AddComponent( comp );
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}
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else
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{
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double refX, refY, refA;
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IDF3::IDF_LAYER side;
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if( ! comp->GetPosition( refX, refY, refA, side ) )
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{
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// place the item
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if( top )
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comp->SetPosition( aModule->GetPosition().x * scale + dx,
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-aModule->GetPosition().y * scale + dy,
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rotz, IDF3::LYR_TOP );
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else
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comp->SetPosition( aModule->GetPosition().x * scale + dx,
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-aModule->GetPosition().y * scale + dy,
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rotz, IDF3::LYR_BOTTOM );
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comp->SetPlacement( IDF3::PS_ECAD );
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}
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else
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{
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// check that the retrieved component matches this one
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refX = refX - ( aModule->GetPosition().x * scale + dx );
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refY = refY - ( -aModule->GetPosition().y * scale + dy );
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refA = refA - rotz;
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refA *= refA;
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refX *= refX;
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refY *= refY;
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refX += refY;
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// conditions: same side, X,Y coordinates within 10 microns,
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// angle within 0.01 degree
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if( ( top && side == IDF3::LYR_BOTTOM ) || ( !top && side == IDF3::LYR_TOP )
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|| ( refA > 0.0001 ) || ( refX > 0.0001 ) )
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{
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comp->GetPosition( refX, refY, refA, side );
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std::ostringstream ostr;
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ostr << "* " << __FILE__ << ":" << __LINE__ << ":" << __FUNCTION__ << "():\n";
|
|
ostr << "* conflicting Reference Designator '" << refdes << "'\n";
|
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ostr << "* X loc: " << (aModule->GetPosition().x * scale + dx);
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ostr << " vs. " << refX << "\n";
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ostr << "* Y loc: " << (-aModule->GetPosition().y * scale + dy);
|
|
ostr << " vs. " << refY << "\n";
|
|
ostr << "* angle: " << rotz;
|
|
ostr << " vs. " << refA << "\n";
|
|
|
|
if( top )
|
|
ostr << "* TOP vs. ";
|
|
else
|
|
ostr << "* BOTTOM vs. ";
|
|
|
|
if( side == IDF3::LYR_TOP )
|
|
ostr << "TOP";
|
|
else
|
|
ostr << "BOTTOM";
|
|
|
|
throw( std::runtime_error( ostr.str() ) );
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
// create the local data ...
|
|
IDF3_COMP_OUTLINE_DATA* data = new IDF3_COMP_OUTLINE_DATA( comp, outline );
|
|
|
|
data->SetOffsets( locx, locy, locz, lrot );
|
|
comp->AddOutlineData( data );
|
|
++sM;
|
|
}
|
|
|
|
return;
|
|
}
|
|
|
|
|
|
/**
|
|
* Function Export_IDF3
|
|
* generates IDFv3 compliant board (*.emn) and library (*.emp)
|
|
* files representing the user's PCB design.
|
|
*/
|
|
bool PCB_EDIT_FRAME::Export_IDF3( BOARD* aPcb, const wxString& aFullFileName,
|
|
bool aUseThou, double aXRef, double aYRef )
|
|
{
|
|
IDF3_BOARD idfBoard( IDF3::CAD_ELEC );
|
|
|
|
// Switch the locale to standard C (needed to print floating point numbers)
|
|
LOCALE_IO toggle;
|
|
|
|
resolver = Prj().Get3DCacheManager()->GetResolver();
|
|
|
|
bool ok = true;
|
|
double scale = MM_PER_IU; // we must scale internal units to mm for IDF
|
|
IDF3::IDF_UNIT idfUnit;
|
|
|
|
if( aUseThou )
|
|
{
|
|
idfUnit = IDF3::UNIT_THOU;
|
|
idfBoard.SetUserPrecision( 1 );
|
|
}
|
|
else
|
|
{
|
|
idfUnit = IDF3::UNIT_MM;
|
|
idfBoard.SetUserPrecision( 5 );
|
|
}
|
|
|
|
wxFileName brdName = aPcb->GetFileName();
|
|
|
|
idfBoard.SetUserScale( scale );
|
|
idfBoard.SetBoardThickness( aPcb->GetDesignSettings().GetBoardThickness() * scale );
|
|
idfBoard.SetBoardName( TO_UTF8( brdName.GetFullName() ) );
|
|
idfBoard.SetBoardVersion( 0 );
|
|
idfBoard.SetLibraryVersion( 0 );
|
|
|
|
std::ostringstream ostr;
|
|
ostr << "KiCad " << TO_UTF8( GetBuildVersion() );
|
|
idfBoard.SetIDFSource( ostr.str() );
|
|
|
|
try
|
|
{
|
|
// set up the board reference point
|
|
idfBoard.SetUserOffset( -aXRef, aYRef );
|
|
|
|
// Export the board outline
|
|
idf_export_outline( aPcb, idfBoard );
|
|
|
|
// Output the drill holes and module (library) data.
|
|
for( MODULE* module = aPcb->m_Modules; module != 0; module = module->Next() )
|
|
idf_export_module( aPcb, module, idfBoard );
|
|
|
|
if( !idfBoard.WriteFile( aFullFileName, idfUnit, false ) )
|
|
{
|
|
wxString msg;
|
|
msg << _( "IDF Export Failed:\n" ) << FROM_UTF8( idfBoard.GetError().c_str() );
|
|
wxMessageBox( msg );
|
|
|
|
ok = false;
|
|
}
|
|
}
|
|
catch( const IO_ERROR& ioe )
|
|
{
|
|
wxString msg;
|
|
msg << _( "IDF Export Failed:\n" ) << ioe.What();
|
|
wxMessageBox( msg );
|
|
|
|
ok = false;
|
|
}
|
|
catch( const std::exception& e )
|
|
{
|
|
wxString msg;
|
|
msg << _( "IDF Export Failed:\n" ) << FROM_UTF8( e.what() );
|
|
wxMessageBox( msg );
|
|
ok = false;
|
|
}
|
|
|
|
return ok;
|
|
}
|