545 lines
14 KiB
C++
545 lines
14 KiB
C++
/************************************/
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/* Kicad: Common plot HPGL Routines */
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/************************************/
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#include "fctsys.h"
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#include "gr_basic.h"
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#include "trigo.h"
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#include "wxstruct.h"
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#include "base_struct.h"
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#include "plot_common.h"
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#include "macros.h"
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#include "kicad_string.h"
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/* HPGL scale factor. */
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const double SCALE_HPGL = 0.102041;
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/* Set the plot offset for the current plotting
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*/
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void HPGL_PLOTTER::set_viewport( wxPoint aOffset, double aScale, bool aMirror )
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{
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wxASSERT( !output_file );
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plot_offset = aOffset;
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plot_scale = aScale;
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device_scale = SCALE_HPGL;
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set_default_line_width( 100 ); /* default line width in 1 / 1000 inch */
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plotMirror = aMirror;
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}
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bool HPGL_PLOTTER::start_plot( FILE* fout )
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{
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wxASSERT( !output_file );
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output_file = fout;
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fprintf( output_file, "IN;VS%d;PU;PA;SP%d;\n", pen_speed, pen_number );
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return true;
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}
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bool HPGL_PLOTTER::end_plot()
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{
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wxASSERT( output_file );
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fputs( "PU;PA;SP0;\n", output_file );
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fclose( output_file );
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output_file = NULL;
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return true;
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}
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void HPGL_PLOTTER::rect( wxPoint p1, wxPoint p2, FILL_T fill, int width )
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{
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wxASSERT( output_file );
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user_to_device_coordinates( p2 );
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move_to( p1 );
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fprintf( output_file, "EA %d,%d;\n", p2.x, p2.y );
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pen_finish();
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}
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void HPGL_PLOTTER::circle( wxPoint centre,
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int diameter,
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FILL_T fill,
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int width )
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{
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wxASSERT( output_file );
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double rayon = user_to_device_size( diameter / 2 );
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if( rayon > 0 )
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{
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move_to( centre );
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fprintf( output_file, "CI %g;\n", rayon );
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pen_finish();
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}
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}
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/* Plot a polygon (closed if completed) in HPGL
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* aCornerList = a wxPoint list of corner
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* aFill: if != 0 filled polygon
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*/
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void HPGL_PLOTTER::PlotPoly( std::vector< wxPoint >& aCornerList, FILL_T aFill, int aWidth)
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{
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if( aCornerList.size() <= 1 )
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return;
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move_to( aCornerList[0] );
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for( unsigned ii = 1; ii < aCornerList.size(); ii++ )
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line_to( aCornerList[ii] );
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/* Close polygon if filled. */
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if( aFill )
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{
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int ii = aCornerList.size() - 1;
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if( aCornerList[ii] != aCornerList[0] )
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line_to( aCornerList[0] );
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}
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pen_finish();
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}
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/* Set pen up ('U') or down ('D').
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*/
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void HPGL_PLOTTER::pen_control( int plume )
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{
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wxASSERT( output_file );
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switch( plume )
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{
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case 'U':
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if( pen_state != 'U' )
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{
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fputs( "PU;", output_file );
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pen_state = 'U';
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}
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break;
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case 'D':
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if( pen_state != 'D' )
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{
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fputs( "PD;", output_file );
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pen_state = 'D';
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}
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break;
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case 'Z':
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fputs( "PU;", output_file );
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pen_state = 'U';
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pen_lastpos.x = -1;
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pen_lastpos.y = -1;
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break;
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}
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}
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/*
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* Move the pen to position with pen up or down.
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* At position x, y
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* Unit to unit DRAWING
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* If pen = 'Z' without changing pen during move.
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*/
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void HPGL_PLOTTER::pen_to( wxPoint pos, char plume )
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{
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wxASSERT( output_file );
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if( plume == 'Z' )
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{
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pen_control( 'Z' );
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return;
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}
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pen_control( plume );
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user_to_device_coordinates( pos );
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if( pen_lastpos != pos )
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fprintf( output_file, "PA %d,%d;\n", pos.x, pos.y );
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pen_lastpos = pos;
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}
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void HPGL_PLOTTER::set_dash( bool dashed )
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{
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wxASSERT( output_file );
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if( dashed )
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fputs( "LI 2;\n", stderr );
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else
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fputs( "LI;\n", stderr );
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}
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/**
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* Function Plot a filled segment (track)
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* @param start = starting point
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* @param end = ending point
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* @param width = segment width (thickness)
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* @param tracemode = FILLED, SKETCH ..
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*/
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void HPGL_PLOTTER::thick_segment( wxPoint start, wxPoint end, int width, GRTraceMode tracemode )
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{
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wxASSERT( output_file );
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wxPoint center;
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wxSize size;
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if( (pen_diameter >= width) || (tracemode == FILAIRE) ) /* just a line is
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* Ok */
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{
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move_to( start );
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finish_to( end );
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}
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else
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segment_as_oval( start, end, width, tracemode );
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}
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/* Plot an arc:
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* Center = center coord
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* Stangl, endAngle = angle of beginning and end
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* Radius = radius of the arc
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* Command
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* PU PY x, y; PD start_arc_X AA, start_arc_Y, angle, NbSegm; PU;
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* Or PU PY x, y; PD start_arc_X AA, start_arc_Y, angle, PU;
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*/
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void HPGL_PLOTTER::arc( wxPoint centre, int StAngle, int EndAngle, int rayon,
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FILL_T fill, int width )
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{
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wxASSERT( output_file );
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wxPoint cmap;
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wxPoint cpos;
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float angle;
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if( rayon <= 0 )
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return;
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cpos = centre;
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user_to_device_coordinates( cpos );
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if( plotMirror )
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angle = (StAngle - EndAngle) / 10.0;
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else
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angle = (EndAngle - StAngle) / 10.0;
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/* Calculate start point, */
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cmap.x = (int) ( centre.x + ( rayon * cos( StAngle * M_PI / 1800 ) ) );
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cmap.y = (int) ( centre.y - ( rayon * sin( StAngle * M_PI / 1800 ) ) );
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user_to_device_coordinates( cmap );
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fprintf( output_file,
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"PU;PA %d,%d;PD;AA %d,%d, ",
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cmap.x,
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cmap.y,
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cpos.x,
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cpos.y );
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fprintf( output_file, "%f", angle );
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fprintf( output_file, ";PU;\n" );
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pen_finish();
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}
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/* Plot oval pad.
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*/
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void HPGL_PLOTTER::flash_pad_oval( wxPoint pos, wxSize size, int orient,
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GRTraceMode trace_mode )
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{
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wxASSERT( output_file );
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int deltaxy, cx, cy;
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/* The pad is reduced to an oval with size.y > size.x
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* (Oval vertical orientation 0)
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*/
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if( size.x > size.y )
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{
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EXCHG( size.x, size.y ); orient += 900;
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if( orient >= 3600 )
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orient -= 3600;
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}
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deltaxy = size.y - size.x; /* distance between centers of the oval */
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if( trace_mode == FILLED )
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{
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flash_pad_rect( pos, wxSize( size.x, deltaxy + wxRound( pen_diameter ) ),
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orient, trace_mode );
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cx = 0; cy = deltaxy / 2;
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RotatePoint( &cx, &cy, orient );
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flash_pad_circle( wxPoint( cx + pos.x,
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cy + pos.y ), size.x, trace_mode );
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cx = 0; cy = -deltaxy / 2;
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RotatePoint( &cx, &cy, orient );
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flash_pad_circle( wxPoint( cx + pos.x,
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cy + pos.y ), size.x, trace_mode );
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}
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else /* Plot in SKETCH mode. */
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{
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sketch_oval( pos, size, orient, wxRound( pen_diameter ) );
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}
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}
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/* Plot round pad or via.
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*/
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void HPGL_PLOTTER::flash_pad_circle( wxPoint pos, int diametre,
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GRTraceMode trace_mode )
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{
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wxASSERT( output_file );
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int rayon, delta;
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user_to_device_coordinates( pos );
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delta = wxRound( pen_diameter - pen_overlap );
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rayon = diametre / 2;
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if( trace_mode != FILAIRE )
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{
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rayon = ( diametre - wxRound( pen_diameter ) ) / 2;
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}
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if( rayon < 0 )
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{
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rayon = 0;
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}
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wxSize rsize( rayon, rayon );
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user_to_device_size( rsize );
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fprintf( output_file, "PA %d,%d;CI %d;\n", pos.x, pos.y, rsize.x );
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if( trace_mode == FILLED ) /* Plot in filled mode. */
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{
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if( delta > 0 )
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{
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while( (rayon -= delta ) >= 0 )
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{
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rsize.x = rsize.y = rayon;
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user_to_device_size( rsize );
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fprintf( output_file,
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"PA %d,%d; CI %d;\n",
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pos.x,
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pos.y,
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rsize.x );
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}
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}
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}
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pen_finish();
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return;
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}
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/*
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* Plot rectangular pad vertical or horizontal.
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* Gives its center and its dimensions X and Y
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* Units are user units
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*/
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void HPGL_PLOTTER::flash_pad_rect( wxPoint pos, wxSize padsize,
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int orient, GRTraceMode trace_mode )
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{
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wxASSERT( output_file );
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wxSize size;
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int delta;
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int ox, oy, fx, fy;
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size.x = padsize.x / 2;
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size.y = padsize.y / 2;
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if( trace_mode != FILAIRE )
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{
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size.x = (padsize.x - (int) pen_diameter) / 2;
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size.y = (padsize.y - (int) pen_diameter) / 2;
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}
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if( size.x < 0 )
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size.x = 0;
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if( size.y < 0 )
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size.y = 0;
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/* If a dimension is zero, the trace is reduced to 1 line. */
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if( size.x == 0 )
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{
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ox = pos.x;
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oy = pos.y - size.y;
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RotatePoint( &ox, &oy, pos.x, pos.y, orient );
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fx = pos.x;
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fy = pos.y + size.y;
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RotatePoint( &fx, &fy, pos.x, pos.y, orient );
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move_to( wxPoint( ox, oy ) );
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finish_to( wxPoint( fx, fy ) );
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return;
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}
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if( size.y == 0 )
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{
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ox = pos.x - size.x;
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oy = pos.y;
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RotatePoint( &ox, &oy, pos.x, pos.y, orient );
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fx = pos.x + size.x;
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fy = pos.y;
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RotatePoint( &fx, &fy, pos.x, pos.y, orient );
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move_to( wxPoint( ox, oy ) );
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finish_to( wxPoint( fx, fy ) );
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return;
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}
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ox = pos.x - size.x;
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oy = pos.y - size.y;
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RotatePoint( &ox, &oy, pos.x, pos.y, orient );
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move_to( wxPoint( ox, oy ) );
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fx = pos.x - size.x;
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fy = pos.y + size.y;
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RotatePoint( &fx, &fy, pos.x, pos.y, orient );
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line_to( wxPoint( fx, fy ) );
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fx = pos.x + size.x;
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fy = pos.y + size.y;
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RotatePoint( &fx, &fy, pos.x, pos.y, orient );
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line_to( wxPoint( fx, fy ) );
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fx = pos.x + size.x;
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fy = pos.y - size.y;
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RotatePoint( &fx, &fy, pos.x, pos.y, orient );
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line_to( wxPoint( fx, fy ) );
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finish_to( wxPoint( ox, oy ) );
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if( trace_mode == FILLED )
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{
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/* Plot in filled mode. */
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delta = (int) (pen_diameter - pen_overlap);
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if( delta > 0 )
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while( (size.x > 0) && (size.y > 0) )
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{
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size.x -= delta;
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size.y -= delta;
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if( size.x < 0 )
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size.x = 0;
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if( size.y < 0 )
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size.y = 0;
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ox = pos.x - size.x;
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oy = pos.y - size.y;
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RotatePoint( &ox, &oy, pos.x, pos.y, orient );
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move_to( wxPoint( ox, oy ) );
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fx = pos.x - size.x;
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fy = pos.y + size.y;
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RotatePoint( &fx, &fy, pos.x, pos.y, orient );
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line_to( wxPoint( fx, fy ) );
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fx = pos.x + size.x;
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fy = pos.y + size.y;
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RotatePoint( &fx, &fy, pos.x, pos.y, orient );
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line_to( wxPoint( fx, fy ) );
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fx = pos.x + size.x;
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fy = pos.y - size.y;
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RotatePoint( &fx, &fy, pos.x, pos.y, orient );
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line_to( wxPoint( fx, fy ) );
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finish_to( wxPoint( ox, oy ) );
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}
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}
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}
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/* Plot trapezoidal pad.
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* aPadPos is pad position, aCorners the corners position of the basic shape
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* Orientation aPadOrient in 0.1 degrees
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* Plot mode FILLED or SKETCH
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*/
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void HPGL_PLOTTER::flash_pad_trapez( wxPoint aPadPos, wxPoint aCorners[4],
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int aPadOrient, GRTraceMode aTrace_Mode )
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{
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wxASSERT( output_file );
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wxPoint polygone[4]; // coordinates of corners relatives to the pad
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wxPoint coord[4]; // absolute coordinates of corners (coordinates in plotter space)
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int move;
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move = wxRound( pen_diameter );
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for( int ii = 0; ii < 4; ii++ )
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polygone[ii] = aCorners[ii];
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// polygone[0] is assumed the lower left
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// polygone[1] is assumed the upper left
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// polygone[2] is assumed the upper right
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// polygone[3] is assumed the lower right
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// Plot the outline:
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for( int ii = 0; ii < 4; ii++ )
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{
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coord[ii] = polygone[ii];
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RotatePoint( &coord[ii], aPadOrient );
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coord[ii] += aPadPos;
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}
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move_to( coord[0] );
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line_to( coord[1] );
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line_to( coord[2] );
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line_to( coord[3] );
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finish_to( coord[0] );
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// Fill shape:
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if( aTrace_Mode == FILLED )
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{
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// TODO: replace this par the HPGL plot polygon.
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int jj;
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/* Fill the shape */
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move = wxRound( pen_diameter - pen_overlap );
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/* Calculate fill height. */
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if( polygone[0].y == polygone[3].y ) /* Horizontal */
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{
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jj = polygone[3].y - (int) ( pen_diameter + ( 2 * pen_overlap ) );
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}
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else // vertical
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{
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jj = polygone[3].x - (int) ( pen_diameter + ( 2 * pen_overlap ) );
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}
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/* Calculation of dd = number of segments was traced to fill. */
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jj = jj / (int) ( pen_diameter - pen_overlap );
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/* Trace the outline. */
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for( ; jj > 0; jj-- )
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{
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polygone[0].x += move;
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polygone[0].y -= move;
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polygone[1].x += move;
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polygone[1].y += move;
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polygone[2].x -= move;
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polygone[2].y += move;
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polygone[3].x -= move;
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polygone[3].y -= move;
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/* Test for crossed vertexes. */
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if( polygone[0].x > polygone[3].x ) /* X axis intersection on
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*vertexes 0 and 3 */
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{
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polygone[0].x = polygone[3].x = 0;
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}
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if( polygone[1].x > polygone[2].x ) /* X axis intersection on
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*vertexes 1 and 2 */
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{
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polygone[1].x = polygone[2].x = 0;
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}
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if( polygone[1].y > polygone[0].y ) /* Y axis intersection on
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*vertexes 0 and 1 */
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{
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polygone[0].y = polygone[1].y = 0;
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}
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if( polygone[2].y > polygone[3].y ) /* Y axis intersection on
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*vertexes 2 and 3 */
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{
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polygone[2].y = polygone[3].y = 0;
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}
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for( int ii = 0; ii < 4; ii++ )
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{
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coord[ii] = polygone[ii];
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RotatePoint( &coord[ii], aPadOrient );
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coord[ii] += aPadPos;
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}
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move_to( coord[0] );
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line_to( coord[1] );
|
|
line_to( coord[2] );
|
|
line_to( coord[3] );
|
|
finish_to( coord[0] );
|
|
}
|
|
}
|
|
}
|