488 lines
16 KiB
C++
488 lines
16 KiB
C++
/**
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* @file gen_drill_report_files.cpp
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* @brief Functions to create report and map files for EXCELLON drill files.
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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) 1992-2012 Jean_Pierre Charras <jp.charras at wanadoo.fr>
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* Copyright (C) 1992-2012 KiCad Developers, see change_log.txt for contributors.
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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 <fctsys.h>
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#include <common.h>
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#include <plot_common.h>
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#include <base_struct.h>
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#include <drawtxt.h>
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#include <confirm.h>
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#include <kicad_string.h>
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#include <class_board.h>
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#include <pcbnew.h>
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#include <pcbplot.h>
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#include <gendrill_Excellon_writer.h>
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/* Conversion utilities - these will be used often in there... */
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inline double diameter_in_inches( double ius )
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{
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return ius * 0.001 / IU_PER_MILS;
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}
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inline double diameter_in_mm( double ius )
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{
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return ius / IU_PER_MM;
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}
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/* Creates a hole map of the board in HPGL, POSTSCRIPT or other supported formats
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* Each hole size has a the drill mark symbol (circle, cross X, cross + ...) up to
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* PLOTTER::MARKER_COUNT different values.
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* If more than PLOTTER::MARKER_COUNT different values,
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* these other vaules share the same mark
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*/
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bool EXCELLON_WRITER::GenDrillMapFile( const wxString& aFullFileName,
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const PAGE_INFO& aSheet,
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PlotFormat aFormat )
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{
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double scale = 1.0;
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wxPoint offset;
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PLOTTER* plotter = NULL;
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PCB_PLOT_PARAMS plot_opts; // starts plotting with default options
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LOCALE_IO toggle; // use standard C notation for float numbers
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// Calculate dimensions and center of PCB
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EDA_RECT bbbox = m_pcb->ComputeBoundingBox( true );
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// Calculate the scale for the format type, scale 1 in HPGL, drawing on
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// an A4 sheet in PS, + text description of symbols
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switch( aFormat )
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{
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case PLOT_FORMAT_GERBER:
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offset = GetOffset();
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plotter = new GERBER_PLOTTER();
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plotter->SetViewport( offset, IU_PER_DECIMILS, scale, false );
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break;
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case PLOT_FORMAT_HPGL: // Scale for HPGL format.
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{
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HPGL_PLOTTER* hpgl_plotter = new HPGL_PLOTTER;
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plotter = hpgl_plotter;
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hpgl_plotter->SetPenNumber( plot_opts.GetHPGLPenNum() );
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hpgl_plotter->SetPenSpeed( plot_opts.GetHPGLPenSpeed() );
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hpgl_plotter->SetPenOverlap( 0 );
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plotter->SetPageSettings( aSheet );
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plotter->SetViewport( offset, IU_PER_DECIMILS, scale, false );
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}
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break;
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default:
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wxASSERT( false );
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// fall through
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case PLOT_FORMAT_PDF:
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case PLOT_FORMAT_POST:
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{
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PAGE_INFO pageA4( wxT( "A4" ) );
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wxSize pageSizeIU = pageA4.GetSizeIU();
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// Reserve a margin around the page.
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int margin = (int) (20 * IU_PER_MM );
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// Calculate a scaling factor to print the board on the sheet
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double Xscale = (double) ( pageSizeIU.x - ( 2 * margin ) ) / bbbox.GetWidth();
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// We should print the list of drill sizes, so reserve room for it
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// 60% height for board 40% height for list
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int ypagesize_for_board = (int) (pageSizeIU.y * 0.6);
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double Yscale = (double) ( ypagesize_for_board - margin ) / bbbox.GetHeight();
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scale = std::min( Xscale, Yscale );
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// Experience shows the scale should not to large, because texts
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// create problem (can be to big or too small).
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// So the scale is clipped at 3.0;
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scale = std::min( scale, 3.0 );
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offset.x = (int) ( (double) bbbox.Centre().x - ( pageSizeIU.x / 2.0 ) / scale );
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offset.y = (int) ( (double) bbbox.Centre().y -
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( ypagesize_for_board / 2.0 ) / scale );
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if( aFormat == PLOT_FORMAT_PDF )
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plotter = new PDF_PLOTTER;
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else
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plotter = new PS_PLOTTER;
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plotter->SetPageSettings( pageA4 );
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plotter->SetViewport( offset, IU_PER_DECIMILS, scale, false );
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}
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break;
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case PLOT_FORMAT_DXF:
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{
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DXF_PLOTTER* dxf_plotter = new DXF_PLOTTER;
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plotter = dxf_plotter;
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plotter->SetPageSettings( aSheet );
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plotter->SetViewport( offset, IU_PER_DECIMILS, scale, false );
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}
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break;
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case PLOT_FORMAT_SVG:
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{
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SVG_PLOTTER* svg_plotter = new SVG_PLOTTER;
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plotter = svg_plotter;
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plotter->SetPageSettings( aSheet );
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plotter->SetViewport( offset, IU_PER_DECIMILS, scale, false );
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}
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break;
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}
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plotter->SetCreator( wxT( "PCBNEW" ) );
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plotter->SetDefaultLineWidth( 5 * IU_PER_MILS );
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plotter->SetColorMode( false );
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if( ! plotter->OpenFile( aFullFileName ) )
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{
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delete plotter;
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return false;
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}
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plotter->StartPlot();
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// Draw items on edge layer (not all, only items useful for drill map
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BRDITEMS_PLOTTER itemplotter( plotter, m_pcb, plot_opts );
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itemplotter.SetLayerMask( EDGE_LAYER );
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for( EDA_ITEM* PtStruct = m_pcb->m_Drawings; PtStruct != NULL; PtStruct = PtStruct->Next() )
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{
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switch( PtStruct->Type() )
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{
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case PCB_LINE_T:
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itemplotter.PlotDrawSegment( (DRAWSEGMENT*) PtStruct );
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break;
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case PCB_TEXT_T:
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itemplotter.PlotTextePcb( (TEXTE_PCB*) PtStruct );
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break;
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case PCB_DIMENSION_T:
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case PCB_TARGET_T:
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case PCB_MARKER_T: // do not draw
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default:
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break;
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}
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}
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int x, y;
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int plotX, plotY, TextWidth;
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int intervalle = 0;
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char line[1024];
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wxString msg;
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int textmarginaftersymbol = (int) (2 * IU_PER_MM);
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// Set Drill Symbols width
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plotter->SetDefaultLineWidth( 0.2 * IU_PER_MM / scale );
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plotter->SetCurrentLineWidth( -1 );
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// Plot board outlines and drill map
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PlotDrillMarks( plotter );
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// Print a list of symbols used.
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int charSize = 3 * IU_PER_MM; // text size in IUs
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double charScale = 1.0 / scale; // real scale will be 1/scale,
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// because the global plot scale is scale
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TextWidth = (int) ( (charSize * charScale) / 10 ); // Set text width (thickness)
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intervalle = (int) ( charSize * charScale ) + TextWidth;
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// Trace information.
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plotX = (int) ( (double) bbbox.GetX() + textmarginaftersymbol * charScale );
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plotY = bbbox.GetBottom() + intervalle;
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// Plot title "Info"
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wxString Text = wxT( "Drill Map:" );
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plotter->Text( wxPoint( plotX, plotY ), UNSPECIFIED_COLOR, Text, 0,
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wxSize( (int) ( charSize * charScale ),
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(int) ( charSize * charScale ) ),
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GR_TEXT_HJUSTIFY_LEFT, GR_TEXT_VJUSTIFY_CENTER,
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TextWidth, false, false );
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for( unsigned ii = 0; ii < m_toolListBuffer.size(); ii++ )
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{
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int plot_diam;
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if( m_toolListBuffer[ii].m_TotalCount == 0 )
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continue;
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plotY += intervalle;
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plot_diam = (int) m_toolListBuffer[ii].m_Diameter;
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x = (int) ( (double) plotX - textmarginaftersymbol * charScale
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- (double) plot_diam / 2.0 );
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y = (int) ( (double) plotY + (double) charSize * charScale );
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plotter->Marker( wxPoint( x, y ), plot_diam, ii );
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// List the diameter of each drill in mm and inches.
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sprintf( line, "%2.2fmm / %2.3f\" ",
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diameter_in_mm( m_toolListBuffer[ii].m_Diameter ),
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diameter_in_inches( m_toolListBuffer[ii].m_Diameter ) );
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msg = FROM_UTF8( line );
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// Now list how many holes and ovals are associated with each drill.
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if( ( m_toolListBuffer[ii].m_TotalCount == 1 )
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&& ( m_toolListBuffer[ii].m_OvalCount == 0 ) )
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sprintf( line, "(1 hole)" );
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else if( m_toolListBuffer[ii].m_TotalCount == 1 ) // && ( m_toolListBuffer[ii]m_OvalCount == 1 )
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sprintf( line, "(1 slot)" );
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else if( m_toolListBuffer[ii].m_OvalCount == 0 )
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sprintf( line, "(%d holes)", m_toolListBuffer[ii].m_TotalCount );
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else if( m_toolListBuffer[ii].m_OvalCount == 1 )
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sprintf( line, "(%d holes + 1 slot)", m_toolListBuffer[ii].m_TotalCount - 1 );
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else // if ( m_toolListBuffer[ii]m_OvalCount > 1 )
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sprintf( line, "(%d holes + %d slots)",
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m_toolListBuffer[ii].m_TotalCount - m_toolListBuffer[ii].m_OvalCount,
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m_toolListBuffer[ii].m_OvalCount );
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msg += FROM_UTF8( line );
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plotter->Text( wxPoint( plotX, y ), UNSPECIFIED_COLOR,
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msg,
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0, wxSize( (int) ( charSize * charScale ),
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(int) ( charSize * charScale ) ),
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GR_TEXT_HJUSTIFY_LEFT, GR_TEXT_VJUSTIFY_CENTER,
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TextWidth, false, false );
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intervalle = (int) ( charSize * charScale ) + TextWidth;
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intervalle = (int) ( intervalle * 1.2 );
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if( intervalle < (plot_diam + (1 * IU_PER_MM / scale) + TextWidth) )
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intervalle = plot_diam + (1 * IU_PER_MM / scale) + TextWidth;
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}
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plotter->EndPlot();
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delete plotter;
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return true;
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}
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/*
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* Create a plain text report file giving a list of drill values and drill count
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* for through holes, oblong holes, and for buried vias,
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* drill values and drill count per layer pair
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*/
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/* Here is a sample created by this function:
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* Drill report for F:/tmp/interf_u/interf_u.brd
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* Created on 04/10/2012 20:48:38
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* Selected Drill Unit: Imperial (inches)
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*
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* Drill report for plated through holes :
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* T1 0,025" 0,64mm (88 holes)
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* T2 0,031" 0,79mm (120 holes)
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* T3 0,032" 0,81mm (151 holes) (with 1 slot)
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* T4 0,040" 1,02mm (43 holes)
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* T5 0,079" 2,00mm (1 hole) (with 1 slot)
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* T6 0,120" 3,05mm (1 hole) (with 1 slot)
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*
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* Total plated holes count 404
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*
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*
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* Drill report for buried and blind vias :
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*
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* Drill report for holes from layer Soudure to layer Interne1 :
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*
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* Total plated holes count 0
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*
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*
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* Drill report for holes from layer Interne1 to layer Interne2 :
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* T1 0,025" 0,64mm (3 holes)
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*
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* Total plated holes count 3
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*
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*
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* Drill report for holes from layer Interne2 to layer Composant :
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* T1 0,025" 0,64mm (1 hole)
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*
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* Total plated holes count 1
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*
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*
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* Drill report for unplated through holes :
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* T1 0,120" 3,05mm (1 hole) (with 1 slot)
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*
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* Total unplated holes count 1
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*
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*/
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bool EXCELLON_WRITER::GenDrillReportFile( const wxString& aFullFileName )
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{
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unsigned totalHoleCount;
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char line[1024];
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int layer1 = LAYER_N_BACK;
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int layer2 = LAYER_N_FRONT;
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bool gen_through_holes = true;
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bool gen_NPTH_holes = false;
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m_file = wxFopen( aFullFileName, wxT( "w" ) );
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if( m_file == NULL )
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return false;
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wxString brdFilename = m_pcb->GetFileName();
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fprintf( m_file, "Drill report for %s\n", TO_UTF8( brdFilename ) );
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fprintf( m_file, "Created on %s\n", TO_UTF8( DateAndTime() ) );
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/* build hole lists:
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* 1 - through holes
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* 2 - for partial holes only: by layer pair
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* 3 - Not Plated through holes
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*/
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for( ; ; )
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{
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BuildHolesList( layer1, layer2,
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gen_through_holes ? false : true, gen_NPTH_holes );
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totalHoleCount = 0;
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if( gen_NPTH_holes )
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sprintf( line, "Drill report for unplated through holes :\n" );
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else if( gen_through_holes )
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sprintf( line, "Drill report for plated through holes :\n" );
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else
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{
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// If this is the first partial hole list: print a title
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if( layer1 == LAYER_N_BACK )
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fputs( "Drill report for buried and blind vias :\n\n", m_file );
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sprintf( line, "Drill report for holes from layer %s to layer %s :\n",
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TO_UTF8( m_pcb->GetLayerName( layer1 ) ),
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TO_UTF8( m_pcb->GetLayerName( layer2 ) ) );
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}
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fputs( line, m_file );
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for( unsigned ii = 0; ii < m_toolListBuffer.size(); ii++ )
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{
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// List the tool number assigned to each drill,
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// in mm then in inches.
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sprintf( line, "T%d %2.2fmm %2.3f\" ",
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ii + 1,
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diameter_in_mm( m_toolListBuffer[ii].m_Diameter ),
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diameter_in_inches( m_toolListBuffer[ii].m_Diameter ) );
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fputs( line, m_file );
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// Now list how many holes and ovals are associated with each drill.
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if( ( m_toolListBuffer[ii].m_TotalCount == 1 )
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&& ( m_toolListBuffer[ii].m_OvalCount == 0 ) )
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sprintf( line, "(1 hole)\n" );
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else if( m_toolListBuffer[ii].m_TotalCount == 1 )
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sprintf( line, "(1 hole) (with 1 slot)\n" );
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else if( m_toolListBuffer[ii].m_OvalCount == 0 )
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sprintf( line, "(%d holes)\n", m_toolListBuffer[ii].m_TotalCount );
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else if( m_toolListBuffer[ii].m_OvalCount == 1 )
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sprintf( line, "(%d holes) (with 1 slot)\n",
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m_toolListBuffer[ii].m_TotalCount );
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else // if ( buffer[ii]m_OvalCount > 1 )
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sprintf( line, "(%d holes) (with %d slots)\n",
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m_toolListBuffer[ii].m_TotalCount,
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m_toolListBuffer[ii].m_OvalCount );
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fputs( line, m_file );
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totalHoleCount += m_toolListBuffer[ii].m_TotalCount;
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}
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if( gen_NPTH_holes )
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sprintf( line, "\nTotal unplated holes count %d\n\n\n", totalHoleCount );
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else
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sprintf( line, "\nTotal plated holes count %d\n\n\n", totalHoleCount );
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fputs( line, m_file );
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if( gen_NPTH_holes )
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{
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break;
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}
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else
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{
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if( m_pcb->GetCopperLayerCount() <= 2 )
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{
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gen_NPTH_holes = true;
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continue;
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}
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if( gen_through_holes )
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{
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layer2 = layer1 + 1;
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}
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else
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{
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if( layer2 >= LAYER_N_FRONT ) // no more layer pair to consider
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{
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gen_NPTH_holes = true;
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continue;
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}
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layer1++; layer2++; // use next layer pair
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if( layer2 == m_pcb->GetCopperLayerCount() - 1 )
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layer2 = LAYER_N_FRONT; // the last layer is always the
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// component layer
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}
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gen_through_holes = false;
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}
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}
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fclose( m_file );
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return true;
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}
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// Helper function to plot drill marks:
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bool EXCELLON_WRITER::PlotDrillMarks( PLOTTER* aPlotter )
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{
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// Plot the drill map:
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wxPoint pos;
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for( unsigned ii = 0; ii < m_holeListBuffer.size(); ii++ )
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{
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pos = m_holeListBuffer[ii].m_Hole_Pos;
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/* Always plot the drill symbol (for slots identifies the needed
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* cutter!) */
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aPlotter->Marker( pos, m_holeListBuffer[ii].m_Hole_Diameter,
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m_holeListBuffer[ii].m_Tool_Reference - 1 );
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if( m_holeListBuffer[ii].m_Hole_Shape != 0 )
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{
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wxSize oblong_size;
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oblong_size = m_holeListBuffer[ii].m_Hole_Size;
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aPlotter->FlashPadOval( pos, oblong_size,
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m_holeListBuffer[ii].m_Hole_Orient, LINE );
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}
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}
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return true;
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}
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