432 lines
15 KiB
C++
432 lines
15 KiB
C++
/************************************************************************/
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/* Functions to create drill data used to create files and report files */
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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 "colors.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 "macros.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.h"
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void GenDrillMapFile( BOARD* aPcb, FILE* aFile, const wxString& aFullFileName,
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Ki_PageDescr* aSheet,
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std::vector<HOLE_INFO> aHoleListBuffer,
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std::vector<DRILL_TOOL> aToolListBuffer,
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bool aUnit_Drill_is_Inch, int format,
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const wxPoint& auxoffset )
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{
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int x, y;
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int plotX, plotY, TextWidth;
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double scale = 1.0;
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int intervalle = 0, CharSize = 0;
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EDA_ITEM* PtStruct;
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char line[1024];
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int dX, dY;
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wxPoint BoardCentre;
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wxPoint offset;
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wxString msg;
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PLOTTER* plotter = NULL;
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SetLocaleTo_C_standard(); // Use the standard notation for float numbers
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// Calculate dimensions and center of PCB
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EDA_RECT bbbox = aPcb->ComputeBoundingBox();
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dX = bbbox.GetWidth();
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dY = bbbox.GetHeight();
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BoardCentre = bbbox.Centre();
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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( format )
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{
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case PLOT_FORMAT_GERBER:
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scale = 1;
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offset = auxoffset;
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plotter = new GERBER_PLOTTER();
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plotter->set_viewport( offset, scale, 0 );
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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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offset.x = 0;
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offset.y = 0;
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scale = 1;
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HPGL_PLOTTER* hpgl_plotter = new HPGL_PLOTTER;
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plotter = hpgl_plotter;
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hpgl_plotter->set_pen_number( g_PcbPlotOptions.m_HPGLPenNum );
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hpgl_plotter->set_pen_speed( g_PcbPlotOptions.m_HPGLPenSpeed );
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hpgl_plotter->set_pen_overlap( 0 );
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plotter->set_paper_size( aSheet );
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plotter->set_viewport( offset, scale, 0 );
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}
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break;
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case PLOT_FORMAT_POST:
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{
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Ki_PageDescr* SheetPS = &g_Sheet_A4;
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wxSize SheetSize;
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SheetSize.x = SheetPS->m_Size.x * U_PCB;
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SheetSize.y = SheetPS->m_Size.y * U_PCB;
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/* Keep size for drill legend */
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double Xscale = (double) ( SheetSize.x * 0.8 ) / dX;
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double Yscale = (double) ( SheetSize.y * 0.6 ) / dY;
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scale = MIN( Xscale, Yscale );
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offset.x = (int) ( (double) BoardCentre.x - ( (double) SheetSize.x / 2.0 ) / scale );
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offset.y = (int) ( (double) BoardCentre.y - ( (double) SheetSize.y / 2.0 ) / scale );
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offset.y += SheetSize.y / 8; /* offset to legend */
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PS_PLOTTER* ps_plotter = new PS_PLOTTER;
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plotter = ps_plotter;
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ps_plotter->set_paper_size( SheetPS );
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plotter->set_viewport( offset, scale, 0 );
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break;
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}
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case PLOT_FORMAT_DXF:
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{
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offset.x = 0;
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offset.y = 0;
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scale = 1;
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DXF_PLOTTER* dxf_plotter = new DXF_PLOTTER;
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plotter = dxf_plotter;
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plotter->set_paper_size( aSheet );
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plotter->set_viewport( offset, scale, 0 );
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break;
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}
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default:
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wxASSERT( false );
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}
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plotter->set_creator( wxT( "PCBNEW" ) );
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plotter->set_filename( aFullFileName );
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plotter->set_default_line_width( 10 );
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plotter->start_plot( aFile );
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/* Draw items on edge layer */
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for( PtStruct = aPcb->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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PlotDrawSegment( plotter, (DRAWSEGMENT*) PtStruct, EDGE_LAYER, FILLED );
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break;
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case PCB_TEXT_T:
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PlotTextePcb( plotter, (TEXTE_PCB*) PtStruct, EDGE_LAYER, FILLED );
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break;
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case PCB_DIMENSION_T:
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PlotDimension( plotter, (DIMENSION*) PtStruct, EDGE_LAYER, FILLED );
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break;
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case PCB_TARGET_T:
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PlotPcbTarget( plotter, (PCB_TARGET*) PtStruct, EDGE_LAYER, FILLED );
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break;
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case PCB_MARKER_T: // do not draw
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break;
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default:
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DisplayError( NULL, wxT( "WinEDA_DrillFrame::GenDrillMap() : Unexpected Draw Type" ) );
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break;
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}
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}
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// Set Drill Symbols width in 1/10000 mils
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plotter->set_default_line_width( 10 );
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plotter->set_current_line_width( -1 );
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// Plot board outlines and drill map
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Gen_Drill_PcbMap( aPcb, plotter, aHoleListBuffer, aToolListBuffer );
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/* Print a list of symbols used. */
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CharSize = 800; /* text size in 1/10000 mils */
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double CharScale = 1.0 / scale; /* real scale will be CharScale
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* scale_x, because the global
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* plot scale is scale_x */
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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() + 200.0 * 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 ), BLACK, 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 < aToolListBuffer.size(); ii++ )
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{
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int plot_diam;
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if( aToolListBuffer[ii].m_TotalCount == 0 )
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continue;
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plotY += intervalle;
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plot_diam = (int) ( aToolListBuffer[ii].m_Diameter );
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x = (int) ( (double) plotX - 200.0 * CharScale - (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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/* Trace the legends. */
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// List the diameter of each drill in the selected Drill Unit,
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// and then its diameter in the other Drill Unit.
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if( aUnit_Drill_is_Inch )
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sprintf( line, "%2.3f\" / %2.2fmm ",
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double (aToolListBuffer[ii].m_Diameter) * 0.0001,
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double (aToolListBuffer[ii].m_Diameter) * 0.00254 );
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else
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sprintf( line, "%2.2fmm / %2.3f\" ",
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double (aToolListBuffer[ii].m_Diameter) * 0.00254,
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double (aToolListBuffer[ii].m_Diameter) * 0.0001 );
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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( ( aToolListBuffer[ii].m_TotalCount == 1 )
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&& ( aToolListBuffer[ii].m_OvalCount == 0 ) )
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sprintf( line, "(1 hole)" );
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else if( aToolListBuffer[ii].m_TotalCount == 1 ) // && ( aToolListBuffer[ii]m_OvalCount == 1 )
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sprintf( line, "(1 slot)" );
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else if( aToolListBuffer[ii].m_OvalCount == 0 )
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sprintf( line, "(%d holes)", aToolListBuffer[ii].m_TotalCount );
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else if( aToolListBuffer[ii].m_OvalCount == 1 )
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sprintf( line, "(%d holes + 1 slot)", aToolListBuffer[ii].m_TotalCount - 1 );
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else // if ( aToolListBuffer[ii]m_OvalCount > 1 )
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sprintf( line, "(%d holes + %d slots)",
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aToolListBuffer[ii].m_TotalCount -
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aToolListBuffer[ii].m_OvalCount,
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aToolListBuffer[ii].m_OvalCount );
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msg += FROM_UTF8( line );
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plotter->text( wxPoint( plotX, y ), BLACK,
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msg,
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0, wxSize( (int) ( CharSize * CharScale ), (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 + 200 + TextWidth) )
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intervalle = plot_diam + 200 + TextWidth;
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}
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plotter->end_plot();
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delete plotter;
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SetLocaleTo_Default(); // Revert to local notation for float numbers
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}
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/** Creates the drill map aFile in HPGL or POSTSCRIPT format
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* @param aPcb = the BOARD
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* @param aPlotter = a PLOTTER instance (HPGL or POSTSCRIPT plotter).
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* @param aHoleListBuffer = std::vector<HOLE_INFO> list of holes descriptors
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* @param aToolListBuffer = std::vector<DRILL_TOOL> drill list buffer
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*/
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void Gen_Drill_PcbMap( BOARD* aPcb, PLOTTER* aPlotter,
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std::vector<HOLE_INFO>& aHoleListBuffer,
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std::vector<DRILL_TOOL>& aToolListBuffer )
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{
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wxPoint pos;
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/* create the drill list */
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if( aToolListBuffer.size() > 13 )
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{
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DisplayInfoMessage( NULL,
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_( " Drill map: Too many diameter values to draw to draw one symbol per drill value (max 13)\nPlot uses circle shape for some drill values" ),
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10 );
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}
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// Plot the drill map:
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for( unsigned ii = 0; ii < aHoleListBuffer.size(); ii++ )
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{
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pos = aHoleListBuffer[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, aHoleListBuffer[ii].m_Hole_Diameter,
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aHoleListBuffer[ii].m_Tool_Reference - 1 );
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if( aHoleListBuffer[ii].m_Hole_Shape != 0 )
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{
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wxSize oblong_size;
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oblong_size = aHoleListBuffer[ii].m_Hole_Size;
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aPlotter->flash_pad_oval( pos, oblong_size,
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aHoleListBuffer[ii].m_Hole_Orient, FILAIRE );
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}
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}
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}
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/*
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* Create a list of drill values and drill count
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*/
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void GenDrillReportFile( FILE* aFile, BOARD* aPcb,
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const wxString& aBoardFilename,
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bool aUnit_Drill_is_Inch,
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std::vector<HOLE_INFO>& aHoleListBuffer,
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std::vector<DRILL_TOOL>& aToolListBuffer )
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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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fprintf( aFile, "Drill report for %s\n", TO_UTF8( aBoardFilename ) );
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fprintf( aFile, "Created on %s\n", TO_UTF8( DateAndTime() ) );
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// List which Drill Unit option had been selected for the associated
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// drill aFile.
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if( aUnit_Drill_is_Inch )
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fputs( "Selected Drill Unit: Imperial (\")\n\n", aFile );
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else
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fputs( "Selected Drill Unit: Metric (mm)\n\n", aFile );
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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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Build_Holes_List( aPcb,
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aHoleListBuffer,
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aToolListBuffer,
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layer1,
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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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{
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sprintf( line, "Drill report for Not Plated through holes :\n" );
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}
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else if( gen_through_holes )
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{
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sprintf( line, "Drill report for through holes :\n" );
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}
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else
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{
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if( layer1 == LAYER_N_BACK ) // First partial hole list
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{
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sprintf( line, "Drill report for buried and blind vias :\n\n" );
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fputs( line, aFile );
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}
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sprintf( line, "Drill report for holes from layer %s to layer %s\n",
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TO_UTF8( aPcb->GetLayerName( layer1 ) ),
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TO_UTF8( aPcb->GetLayerName( layer2 ) ) );
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}
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fputs( line, aFile );
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for( unsigned ii = 0; ii < aToolListBuffer.size(); ii++ )
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{
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// List the tool number assigned to each drill,
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// then its diameter in the selected Drill Unit,
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// and then its diameter in the other Drill Unit.
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if( aUnit_Drill_is_Inch )
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sprintf( line, "T%d %2.3f\" %2.2fmm ",
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ii + 1,
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double (aToolListBuffer[ii].m_Diameter) * 0.0001,
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double (aToolListBuffer[ii].m_Diameter) * 0.00254 );
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else
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sprintf( line, "T%d %2.2fmm %2.3f\" ",
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ii + 1,
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double (aToolListBuffer[ii].m_Diameter) * 0.00254,
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double (aToolListBuffer[ii].m_Diameter) * 0.0001 );
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fputs( line, aFile );
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// Now list how many holes and ovals are associated with each drill.
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if( ( aToolListBuffer[ii].m_TotalCount == 1 )
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&& ( aToolListBuffer[ii].m_OvalCount == 0 ) )
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sprintf( line, "(1 hole)\n" );
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else if( aToolListBuffer[ii].m_TotalCount == 1 )
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sprintf( line, "(1 hole) (with 1 oblong)\n" );
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else if( aToolListBuffer[ii].m_OvalCount == 0 )
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sprintf( line, "(%d holes)\n", aToolListBuffer[ii].m_TotalCount );
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else if( aToolListBuffer[ii].m_OvalCount == 1 )
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sprintf( line, "(%d holes) (with 1 oblong)\n", aToolListBuffer[ii].m_TotalCount );
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else // if ( buffer[ii]m_OvalCount > 1 )
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sprintf( line, "(%d holes) (with %d oblongs)\n",
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aToolListBuffer[ii].m_TotalCount,
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aToolListBuffer[ii].m_OvalCount );
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fputs( line, aFile );
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TotalHoleCount += aToolListBuffer[ii].m_TotalCount;
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}
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if( gen_NPTH_holes )
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sprintf( line, "\ntotal Not Plated 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, aFile );
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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( aPcb->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 == aPcb->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( aFile );
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}
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