604 lines
19 KiB
C++
604 lines
19 KiB
C++
/**
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* @file common_plotPS_functions.cpp
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* @brief Kicad: Common plot Postscript Routines
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*/
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#include <fctsys.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 <common.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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/* Set the plot offset for the current plotting */
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void PS_PLOTTER::set_viewport( wxPoint aOffset, double aScale, bool aMirror )
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{
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wxASSERT( !output_file );
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plotMirror = aMirror;
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plot_offset = aOffset;
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plot_scale = aScale;
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device_scale = 1; /* PS references in decimals */
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set_default_line_width( 100 ); /* default line width in 1/1000 inch */
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}
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/* Set the default line width (in 1/1000 inch) for the current plotting
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*/
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void PS_PLOTTER::set_default_line_width( int width )
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{
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default_pen_width = width; // line width in 1/1000 inch
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current_pen_width = -1;
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}
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/* Set the current line width (in 1/1000 inch) for the next plot
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*/
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void PS_PLOTTER::set_current_line_width( int width )
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{
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wxASSERT( output_file );
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int pen_width;
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if( width >= 0 )
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pen_width = width;
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else
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pen_width = default_pen_width;
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if( pen_width != current_pen_width )
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fprintf( output_file, "%g setlinewidth\n",
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user_to_device_size( pen_width ) );
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current_pen_width = pen_width;
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}
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/* Print the postscript set color command:
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* r g b setrgbcolor,
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* r, g, b = color values (= 0 .. 1.0 )
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*
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* color = color index in ColorRefs[]
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*/
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void PS_PLOTTER::set_color( int color )
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{
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wxASSERT( output_file );
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/* Return at invalid color index */
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if( color < 0 )
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return;
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if( color_mode )
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{
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if( negative_mode )
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{
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fprintf( output_file, "%.3g %.3g %.3g setrgbcolor\n",
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(double) 1.0 - ColorRefs[color].m_Red / 255,
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(double) 1.0 - ColorRefs[color].m_Green / 255,
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(double) 1.0 - ColorRefs[color].m_Blue / 255 );
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}
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else
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{
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fprintf( output_file, "%.3g %.3g %.3g setrgbcolor\n",
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(double) ColorRefs[color].m_Red / 255,
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(double) ColorRefs[color].m_Green / 255,
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(double) ColorRefs[color].m_Blue / 255 );
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}
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}
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else
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{
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/* B/W Mode - Use BLACK or WHITE for all items
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* note the 2 colors are used in B&W mode, mainly by Pcbnew to draw
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* holes in white on pads in black
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*/
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int bwcolor = WHITE;
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if( color != WHITE )
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bwcolor = BLACK;
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if( negative_mode )
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fprintf( output_file, "%.3g %.3g %.3g setrgbcolor\n",
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(double) 1.0 - ColorRefs[bwcolor].m_Red / 255,
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(double) 1.0 - ColorRefs[bwcolor].m_Green / 255,
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(double) 1.0 - ColorRefs[bwcolor].m_Blue / 255 );
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else
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fprintf( output_file, "%.3g %.3g %.3g setrgbcolor\n",
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(double) ColorRefs[bwcolor].m_Red / 255,
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(double) ColorRefs[bwcolor].m_Green / 255,
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(double) ColorRefs[bwcolor].m_Blue / 255 );
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}
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}
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void PS_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( "dashedline\n", stderr );
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else
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fputs( "solidline\n", stderr );
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}
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void PS_PLOTTER::rect( wxPoint p1, wxPoint p2, FILL_T fill, int width )
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{
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user_to_device_coordinates( p1 );
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user_to_device_coordinates( p2 );
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set_current_line_width( width );
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fprintf( output_file, "%d %d %d %d rect%d\n", p1.x, p1.y,
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p2.x - p1.x, p2.y - p1.y, fill );
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}
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void PS_PLOTTER::circle( wxPoint pos, int diametre, FILL_T fill, int width )
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{
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wxASSERT( output_file );
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user_to_device_coordinates( pos );
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double radius = user_to_device_size( diametre / 2.0 );
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if( radius < 1 )
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radius = 1;
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set_current_line_width( width );
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fprintf( output_file, "%d %d %g cir%d\n", pos.x, pos.y, radius, fill );
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}
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/* Plot an arc:
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* StAngle, EndAngle = start and end arc in 0.1 degree
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*/
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void PS_PLOTTER::arc( wxPoint centre, int StAngle, int EndAngle, int radius,
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FILL_T fill, int width )
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{
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wxASSERT( output_file );
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if( radius <= 0 )
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return;
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set_current_line_width( width );
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// Calculate start point.
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user_to_device_coordinates( centre );
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radius = wxRound( user_to_device_size( radius ) );
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if( plotMirror )
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fprintf( output_file, "%d %d %d %g %g arc%d\n", centre.x, centre.y,
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radius, (double) -EndAngle / 10, (double) -StAngle / 10,
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fill );
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else
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fprintf( output_file, "%d %d %d %g %g arc%d\n", centre.x, centre.y,
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radius, (double) StAngle / 10, (double) EndAngle / 10,
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fill );
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}
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/*
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* Function PlotPoly
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* Draw a polygon (filled or not) in POSTSCRIPT format
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* param aCornerList = corners list
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* param aFill :if true : filled polygon
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* param aWidth = line width
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*/
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void PS_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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set_current_line_width( aWidth );
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wxPoint pos = aCornerList[0];
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user_to_device_coordinates( pos );
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fprintf( output_file, "newpath\n%d %d moveto\n", pos.x, pos.y );
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for( unsigned ii = 1; ii < aCornerList.size(); ii++ )
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{
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pos = aCornerList[ii];
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user_to_device_coordinates( pos );
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fprintf( output_file, "%d %d lineto\n", pos.x, pos.y );
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}
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// Close path
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fprintf( output_file, "poly%d\n", aFill );
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}
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/*
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* Function PlotImage
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* Only some plotters can plot image bitmaps
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* for plotters that cannot plot a bitmap, a rectangle is plotted
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* param aImage = the bitmap
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* param aPos = position of the center of the bitmap
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* param aScaleFactor = the scale factor to apply to the bitmap size
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* (this is not the plot scale factor)
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*/
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void PS_PLOTTER::PlotImage( wxImage & aImage, wxPoint aPos, double aScaleFactor )
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{
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wxSize pix_size; // size of the bitmap in pixels
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pix_size.x = aImage.GetWidth();
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pix_size.y = aImage.GetHeight();
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wxSize drawsize; // requested size of image
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drawsize.x = wxRound( aScaleFactor * pix_size.x );
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drawsize.y = wxRound( aScaleFactor * pix_size.y );
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// calculate the bottom left corner position of bitmap
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wxPoint start = aPos;
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start.x -= drawsize.x / 2; // left
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start.y += drawsize.y / 2; // bottom (Y axis reversed)
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// calculate the top right corner position of bitmap
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wxPoint end;
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end.x = start.x + drawsize.x;
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end.y = start.y - drawsize.y;
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fprintf( output_file, "/origstate save def\n" );
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fprintf( output_file, "/pix %d string def\n", pix_size.x );
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fprintf( output_file, "/greys %d string def\n", pix_size.x );
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// Locate lower-left corner of image
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user_to_device_coordinates( start );
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fprintf( output_file, "%d %d translate\n", start.x, start.y );
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// Map image size to device
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user_to_device_coordinates( end );
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fprintf( output_file, "%d %d scale\n",
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ABS(end.x - start.x), ABS(end.y - start.y));
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// Dimensions of source image (in pixels
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fprintf( output_file, "%d %d 8", pix_size.x, pix_size.y );
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// Map unit square to source
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fprintf( output_file, " [%d 0 0 %d 0 %d]\n", pix_size.x, -pix_size.y , pix_size.y);
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// include image data in ps file
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fprintf( output_file, "{currentfile pix readhexstring pop}\n" );
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fprintf( output_file, "false 3 colorimage\n");
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// Single data source, 3 colors, Output RGB data (hexadecimal)
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int jj = 0;
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for( int yy = 0; yy < pix_size.y; yy ++ )
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{
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for( int xx = 0; xx < pix_size.x; xx++, jj++ )
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{
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if( jj >= 16 )
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{
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jj = 0;
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fprintf( output_file, "\n");
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}
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int red, green, blue;
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red = aImage.GetRed( xx, yy) & 0xFF;
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green = aImage.GetGreen( xx, yy) & 0xFF;
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blue = aImage.GetBlue( xx, yy) & 0xFF;
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fprintf( output_file, "%2.2X%2.2X%2.2X", red, green, blue);
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}
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}
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fprintf( output_file, "\n");
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fprintf( output_file, "origstate restore\n" );
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}
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/* Routine to draw to a new position
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*/
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void PS_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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if( pen_state != 'Z' )
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{
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fputs( "stroke\n", output_file );
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pen_state = 'Z';
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pen_lastpos.x = -1;
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pen_lastpos.y = -1;
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}
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return;
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}
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user_to_device_coordinates( pos );
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if( pen_state == 'Z' )
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{
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fputs( "newpath\n", output_file );
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}
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if( pen_state != plume || pos != pen_lastpos )
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fprintf( output_file,
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"%d %d %sto\n",
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pos.x,
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pos.y,
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( plume=='D' ) ? "line" : "move" );
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pen_state = plume;
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pen_lastpos = pos;
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}
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/* The code within this function (and the CloseFilePS function)
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* creates postscript files whose contents comply with Adobe's
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* Document Structuring Convention, as documented by assorted
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* details described within the following URLs:
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*
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* http://en.wikipedia.org/wiki/Document_Structuring_Conventions
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* http://partners.adobe.com/public/developer/en/ps/5001.DSC_Spec.pdf
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*
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*
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* BBox is the boundary box (position and size of the "client rectangle"
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* for drawings (page - margins) in mils (0.001 inch)
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*/
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bool PS_PLOTTER::start_plot( FILE* fout )
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{
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wxASSERT( !output_file );
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wxString msg;
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output_file = fout;
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static const char* PSMacro[] =
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{
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"/line {\n",
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" newpath\n",
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" moveto\n",
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" lineto\n",
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" stroke\n",
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"} bind def\n",
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"/cir0 { newpath 0 360 arc stroke } bind def\n",
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"/cir1 { newpath 0 360 arc gsave fill grestore stroke } bind def\n",
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"/cir2 { newpath 0 360 arc gsave fill grestore stroke } bind def\n",
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"/arc0 { newpath arc stroke } bind def\n",
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"/arc1 { newpath 4 index 4 index moveto arc closepath gsave fill ",
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"grestore stroke } bind def\n",
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"/arc2 { newpath 4 index 4 index moveto arc closepath gsave fill ",
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"grestore stroke } bind def\n",
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"/poly0 { stroke } bind def\n",
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"/poly1 { closepath gsave fill grestore stroke } bind def\n",
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"/poly2 { closepath gsave fill grestore stroke } bind def\n",
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"/rect0 { rectstroke } bind def\n",
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"/rect1 { rectfill } bind def\n",
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"/rect2 { rectfill } bind def\n",
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"/linemode0 { 0 setlinecap 0 setlinejoin 0 setlinewidth } bind def\n",
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"/linemode1 { 1 setlinecap 1 setlinejoin } bind def\n",
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"/dashedline { [50 50] 0 setdash } bind def\n",
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"/solidline { [] 0 setdash } bind def\n",
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"gsave\n",
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"0.0072 0.0072 scale\n", // Configure postscript for decimals.
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"linemode1\n",
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NULL
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};
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const double DECIMIL_TO_INCH = 0.0001;
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time_t time1970 = time( NULL );
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fputs( "%!PS-Adobe-3.0\n", output_file ); // Print header
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fprintf( output_file, "%%%%Creator: %s\n", TO_UTF8( creator ) );
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// A "newline" character ("\n") is not included in the following string,
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// because it is provided by the ctime() function.
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fprintf( output_file, "%%%%CreationDate: %s", ctime( &time1970 ) );
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fprintf( output_file, "%%%%Title: %s\n", TO_UTF8( filename ) );
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fprintf( output_file, "%%%%Pages: 1\n" );
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fprintf( output_file, "%%%%PageOrder: Ascend\n" );
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// Print boundary box in 1/72 pixels per inch, box is in deci-mils
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const double CONV_SCALE = DECIMIL_TO_INCH * 72;
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// The coordinates of the lower left corner of the boundary
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// box need to be "rounded down", but the coordinates of its
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// upper right corner need to be "rounded up" instead.
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fprintf( output_file, "%%%%BoundingBox: 0 0 %d %d\n",
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(int) ceil( paper_size.y * CONV_SCALE ),
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(int) ceil( paper_size.x * CONV_SCALE ) );
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// Specify the size of the sheet and the name associated with that size.
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// (If the "User size" option has been selected for the sheet size,
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// identify the sheet size as "Custom" (rather than as "User"), but
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// otherwise use the name assigned by KiCad for each sheet size.)
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//
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// (The Document Structuring Convention also supports sheet weight,
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// sheet color, and sheet type properties being specified within a
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// %%DocumentMedia comment, but they are not being specified here;
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// a zero and two null strings are subsequently provided instead.)
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//
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// (NOTE: m_Size.y is *supposed* to be listed before m_Size.x;
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// the order in which they are specified is not wrong!)
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// Also note pageSize is given in mils, not in internal units and must be
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// converted to internal units.
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wxSize pageSize = pageInfo.GetSizeMils();
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if( pageInfo.IsCustom() )
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fprintf( output_file, "%%%%DocumentMedia: Custom %d %d 0 () ()\n",
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wxRound( pageSize.y * 10 * CONV_SCALE ),
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wxRound( pageSize.x * 10 * CONV_SCALE ) );
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else // a standard paper size
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fprintf( output_file, "%%%%DocumentMedia: %s %d %d 0 () ()\n",
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TO_UTF8( pageInfo.GetType() ),
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wxRound( pageSize.y * 10 * CONV_SCALE ),
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wxRound( pageSize.x * 10 * CONV_SCALE ) );
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fprintf( output_file, "%%%%Orientation: Landscape\n" );
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fprintf( output_file, "%%%%EndComments\n" );
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// Now specify various other details.
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// The following string has been specified here (rather than within
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// PSMacro[]) to highlight that it has been provided to ensure that the
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// contents of the postscript file comply with the details specified
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// within the Document Structuring Convention.
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fprintf( output_file, "%%%%Page: 1 1\n" );
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for( int ii = 0; PSMacro[ii] != NULL; ii++ )
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{
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fputs( PSMacro[ii], output_file );
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}
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// (If support for creating postscript files with a portrait orientation
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// is ever provided, determine whether it would be necessary to provide
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// an "else" command and then an appropriate "sprintf" command here.)
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fprintf( output_file, "%d 0 translate 90 rotate\n", paper_size.y );
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// Apply the scale adjustments
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if( plot_scale_adjX != 1.0 || plot_scale_adjY != 1.0 )
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fprintf( output_file, "%g %g scale\n",
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plot_scale_adjX, plot_scale_adjY );
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// Set default line width ( g_Plot_DefaultPenWidth is in user units )
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fprintf( output_file, "%g setlinewidth\n",
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user_to_device_size( default_pen_width ) );
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return true;
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}
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bool PS_PLOTTER::end_plot()
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{
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wxASSERT( output_file );
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fputs( "showpage\ngrestore\n%%EOF\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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/* Plot oval pad:
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* pos - Position of pad.
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* Dimensions dx, dy,
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* Orient Orient
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* The shape is drawn as a segment
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*/
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void PS_PLOTTER::flash_pad_oval( wxPoint pos, wxSize size, int orient,
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EDA_DRAW_MODE_T modetrace )
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{
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wxASSERT( output_file );
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int x0, y0, x1, y1, delta;
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// The pad is reduced to an oval by dy > dx
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if( size.x > size.y )
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{
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EXCHG( size.x, size.y );
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orient += 900;
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if( orient >= 3600 )
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orient -= 3600;
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}
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delta = size.y - size.x;
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x0 = 0;
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y0 = -delta / 2;
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x1 = 0;
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y1 = delta / 2;
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RotatePoint( &x0, &y0, orient );
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RotatePoint( &x1, &y1, orient );
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if( modetrace == FILLED )
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thick_segment( wxPoint( pos.x + x0, pos.y + y0 ),
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wxPoint( pos.x + x1, pos.y + y1 ), size.x, modetrace );
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else
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sketch_oval( pos, size, orient, -1 );
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}
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/* Plot round pad or via.
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*/
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void PS_PLOTTER::flash_pad_circle( wxPoint pos, int diametre,
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EDA_DRAW_MODE_T modetrace )
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{
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int current_line_width;
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wxASSERT( output_file );
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set_current_line_width( -1 );
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current_line_width = get_current_line_width();
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if( current_line_width > diametre )
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current_line_width = diametre;
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if( modetrace == FILLED )
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circle( pos, diametre - current_pen_width, FILLED_SHAPE, current_line_width );
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else
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circle( pos, diametre - current_pen_width, NO_FILL, current_line_width );
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set_current_line_width( -1 );
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}
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/* Plot rectangular pad in any orientation.
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*/
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void PS_PLOTTER::flash_pad_rect( wxPoint pos, wxSize size,
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int orient, EDA_DRAW_MODE_T trace_mode )
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{
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static std::vector< wxPoint > cornerList;
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cornerList.clear();
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set_current_line_width( -1 );
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int w = current_pen_width;
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size.x -= w;
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if( size.x < 1 )
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size.x = 1;
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size.y -= w;
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if( size.y < 1 )
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size.y = 1;
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int dx = size.x / 2;
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int dy = size.y / 2;
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wxPoint corner;
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corner.x = pos.x - dx;
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corner.y = pos.y + dy;
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cornerList.push_back( corner );
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corner.x = pos.x - dx;
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corner.y = pos.y - dy;
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cornerList.push_back( corner );
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corner.x = pos.x + dx;
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corner.y = pos.y - dy;
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cornerList.push_back( corner );
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corner.x = pos.x + dx;
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corner.y = pos.y + dy,
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cornerList.push_back( corner );
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for( unsigned ii = 0; ii < cornerList.size(); ii++ )
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{
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RotatePoint( &cornerList[ii], pos, orient );
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}
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cornerList.push_back( cornerList[0] );
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PlotPoly( cornerList, ( trace_mode == FILLED ) ? FILLED_SHAPE : NO_FILL );
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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 PS_PLOTTER::flash_pad_trapez( wxPoint aPadPos, wxPoint aCorners[4],
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int aPadOrient, EDA_DRAW_MODE_T aTrace_Mode )
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{
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static std::vector< wxPoint > cornerList;
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cornerList.clear();
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for( int ii = 0; ii < 4; ii++ )
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cornerList.push_back( aCorners[ii] );
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if( aTrace_Mode == FILLED )
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{
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set_current_line_width( 0 );
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}
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else
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{
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set_current_line_width( -1 );
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int w = current_pen_width;
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// offset polygon by w
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// coord[0] is assumed the lower left
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// coord[1] is assumed the upper left
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// coord[2] is assumed the upper right
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// coord[3] is assumed the lower right
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/* Trace the outline. */
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cornerList[0].x += w;
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cornerList[0].y -= w;
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cornerList[1].x += w;
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cornerList[1].y += w;
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cornerList[2].x -= w;
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cornerList[2].y += w;
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cornerList[3].x -= w;
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cornerList[3].y -= w;
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}
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for( int ii = 0; ii < 4; ii++ )
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{
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RotatePoint( &cornerList[ii], aPadOrient );
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cornerList[ii] += aPadPos;
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}
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cornerList.push_back( cornerList[0] );
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PlotPoly( cornerList, ( aTrace_Mode == FILLED ) ? FILLED_SHAPE : NO_FILL );
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}
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