/** * @file common_plotGERBER_functions.cpp * @brief Common GERBER plot routines. */ #include #include #include #include #include #include #include #include #include #include void GERBER_PLOTTER::SetViewport( const wxPoint& aOffset, double aIusPerDecimil, double aScale, bool aMirror ) { wxASSERT( !outputFile ); wxASSERT( aMirror == false ); plotMirror = false; plotOffset = aOffset; wxASSERT( aScale == 1 ); plotScale = 1; iuPerDeviceUnit = 1.0 / aIusPerDecimil; /* We don't handle the filmbox, and it's more useful to keep the * origin at the origin */ paperSize.x = 0; paperSize.y = 0; SetDefaultLineWidth( 100 * aIusPerDecimil ); // Arbitrary default } /** * Emit a D-Code record, using proper conversions * to format a leading zero omitted gerber coordinate * (for 4 decimal positions, see header generation in start_plot */ void GERBER_PLOTTER::emitDcode( const DPOINT& pt, int dcode ) { fprintf( outputFile, "X%dY%dD%02d*\n", int( pt.x ), int( pt.y ), dcode ); } /** * Function start_plot * Write GERBER header to file * initialize global variable g_Plot_PlotOutputFile * @param aFile: an opened file to write to */ bool GERBER_PLOTTER::StartPlot( FILE* aFile ) { wxASSERT( !outputFile ); finalFile = aFile; // Create a temporary filename to store gerber file // note tmpfile() does not work under Vista and W7 in user mode m_workFilename = filename + wxT(".tmp"); workFile = wxFopen( m_workFilename, wxT( "wt" )); outputFile = workFile; wxASSERT( outputFile ); if( outputFile == NULL ) return false; wxString Title = creator + wxT( " " ) + GetBuildVersion(); fprintf( outputFile, "G04 (created by %s) date %s*\n", TO_UTF8( Title ), TO_UTF8( DateAndTime() ) ); /* Mass parameter: unit = INCHES */ fputs( "%MOIN*%\n", outputFile ); /* Set coordinate format to 3.4 absolute, leading zero omitted */ fputs( "G04 Gerber Fmt 3.4, Leading zero omitted, Abs format*\n%FSLAX34Y34*%\n", outputFile ); /* Specify linear interpol (G01), unit = INCH (G70), abs format (G90) */ fputs( "G01*\nG70*\nG90*\n", outputFile ); fputs( "G04 APERTURE LIST*\n", outputFile ); /* Select the default aperture */ SetCurrentLineWidth( -1 ); return true; } bool GERBER_PLOTTER::EndPlot() { char line[1024]; wxString msg; wxASSERT( outputFile ); /* Outfile is actually a temporary file i.e. workFile */ fputs( "M02*\n", outputFile ); fflush( outputFile ); fclose( workFile ); workFile = wxFopen( m_workFilename, wxT( "rt" )); wxASSERT( workFile ); outputFile = finalFile; // Placement of apertures in RS274X while( fgets( line, 1024, workFile ) ) { fputs( line, outputFile ); if( strcmp( strtok( line, "\n\r" ), "G04 APERTURE LIST*" ) == 0 ) { writeApertureList(); fputs( "G04 APERTURE END LIST*\n", outputFile ); } } fclose( workFile ); fclose( finalFile ); ::wxRemoveFile( m_workFilename ); outputFile = 0; return true; } void GERBER_PLOTTER::SetDefaultLineWidth( int width ) { defaultPenWidth = width; currentAperture = apertures.end(); } void GERBER_PLOTTER::SetCurrentLineWidth( int width ) { int pen_width; if( width > 0 ) pen_width = width; else pen_width = defaultPenWidth; selectAperture( wxSize( pen_width, pen_width ), APERTURE::Plotting ); currentPenWidth = pen_width; } std::vector::iterator GERBER_PLOTTER::getAperture( const wxSize& size, APERTURE::APERTURE_TYPE type ) { int last_D_code = 9; // Search an existing aperture std::vector::iterator tool = apertures.begin(); while( tool != apertures.end() ) { last_D_code = tool->DCode; if( (tool->Type == type) && (tool->Size == size) ) return tool; tool++; } // Allocate a new aperture APERTURE new_tool; new_tool.Size = size; new_tool.Type = type; new_tool.DCode = last_D_code + 1; apertures.push_back( new_tool ); return apertures.end() - 1; } void GERBER_PLOTTER::selectAperture( const wxSize& size, APERTURE::APERTURE_TYPE type ) { wxASSERT( outputFile ); if( ( currentAperture == apertures.end() ) || ( currentAperture->Type != type ) || ( currentAperture->Size != size ) ) { /* Pick an existing aperture or create a new one */ currentAperture = getAperture( size, type ); fprintf( outputFile, "G54D%d*\n", currentAperture->DCode ); } } /** * Generate the table of D codes */ void GERBER_PLOTTER::writeApertureList() { wxASSERT( outputFile ); char cbuf[1024]; /* Init : */ for( std::vector::iterator tool = apertures.begin(); tool != apertures.end(); tool++ ) { const double fscale = 0.0001f * plotScale * iuPerDeviceUnit ; // For 3.4 format char* text = cbuf + sprintf( cbuf, "%%ADD%d", tool->DCode ); switch( tool->Type ) { case APERTURE::Circle: sprintf( text, "C,%g*%%\n", tool->Size.x * fscale ); break; case APERTURE::Rect: sprintf( text, "R,%gX%g*%%\n", tool->Size.x * fscale, tool->Size.y * fscale ); break; case APERTURE::Plotting: sprintf( text, "C,%g*%%\n", tool->Size.x * fscale ); break; case APERTURE::Oval: sprintf( text, "O,%gX%g*%%\n", tool->Size.x * fscale, tool->Size.y * fscale ); break; } fputs( cbuf, outputFile ); } } void GERBER_PLOTTER::PenTo( const wxPoint& aPos, char plume ) { wxASSERT( outputFile ); DPOINT pos_dev = userToDeviceCoordinates( aPos ); switch( plume ) { case 'Z': break; case 'U': emitDcode( pos_dev, 2 ); break; case 'D': emitDcode( pos_dev, 1 ); } penState = plume; } void GERBER_PLOTTER::Rect( const wxPoint& p1, const wxPoint& p2, FILL_T fill, int width ) { std::vector< wxPoint > cornerList; // Build corners list cornerList.push_back( p1 ); wxPoint corner(p1.x, p2.y); cornerList.push_back( corner ); cornerList.push_back( p2 ); corner.x = p2.x; corner.y = p1.y; cornerList.push_back( corner ); cornerList.push_back( p1 ); PlotPoly( cornerList, fill, width ); } void GERBER_PLOTTER::Circle( const wxPoint& aCenter, int aDiameter, FILL_T aFill, int aWidth ) { Arc( aCenter, 0, 3600, aDiameter / 2, aFill, aWidth ); } void GERBER_PLOTTER::Arc( const wxPoint& aCenter, int aStAngle, int aEndAngle, int aRadius, FILL_T aFill, int aWidth ) { wxASSERT( outputFile ); wxPoint start, end; start.x = aCenter.x + KiROUND( aRadius*cos( DEG2RAD( aStAngle/10.0 ) ) ); start.y = aCenter.y - KiROUND( aRadius*sin( DEG2RAD( aStAngle/10.0 ) ) ); SetCurrentLineWidth( aWidth ); MoveTo( start ); end.x = aCenter.x + KiROUND( aRadius*cos( DEG2RAD( aEndAngle/10.0 ) ) ); end.y = aCenter.y - KiROUND( aRadius*sin( DEG2RAD( aEndAngle/10.0 ) ) ); DPOINT devEnd = userToDeviceCoordinates( end ); DPOINT devCenter = userToDeviceCoordinates( aCenter ) - userToDeviceCoordinates( start ); fprintf( outputFile, "G75*\n" ); // Multiquadrant mode if( aStAngle < aEndAngle ) fprintf( outputFile, "G03" ); else fprintf( outputFile, "G02" ); fprintf( outputFile, "X%dY%dI%dJ%dD01*\n", int( devEnd.x ), int( devEnd.y ), int( devCenter.x ), int( devCenter.y ) ); fprintf( outputFile, "G74*\nG01*\n" ); // Back to single quadrant and linear interp. } /** * Gerber polygon: they can (and *should*) be filled with the * appropriate G36/G37 sequence (raster fills are deprecated) */ void GERBER_PLOTTER::PlotPoly( const std::vector< wxPoint >& aCornerList, FILL_T aFill, int aWidth ) { if( aCornerList.size() <= 1 ) return; SetCurrentLineWidth( aWidth ); if( aFill ) fputs( "G36*\n", outputFile ); MoveTo( aCornerList[0] ); for( unsigned ii = 1; ii < aCornerList.size(); ii++ ) { LineTo( aCornerList[ii] ); } if( aFill ) { FinishTo( aCornerList[0] ); fputs( "G37*\n", outputFile ); } else { PenFinish(); } } /** * Filled circular flashes are stored as apertures */ void GERBER_PLOTTER::FlashPadCircle( const wxPoint& pos, int diametre, EDA_DRAW_MODE_T trace_mode ) { wxASSERT( outputFile ); wxSize size( diametre, diametre ); switch( trace_mode ) { case LINE: case SKETCH: SetCurrentLineWidth( -1 ); Circle( pos, diametre - currentPenWidth, NO_FILL ); break; case FILLED: DPOINT pos_dev = userToDeviceCoordinates( pos ); selectAperture( size, APERTURE::Circle ); emitDcode( pos_dev, 3 ); break; } } /** * Filled oval flashes are handled as aperture in the 90 degree positions only */ void GERBER_PLOTTER::FlashPadOval( const wxPoint& pos, const wxSize& aSize, int orient, EDA_DRAW_MODE_T trace_mode ) { wxASSERT( outputFile ); int x0, y0, x1, y1, delta; wxSize size( aSize ); /* Plot a flashed shape. */ if( ( orient == 0 || orient == 900 || orient == 1800 || orient == 2700 ) && trace_mode == FILLED ) { if( orient == 900 || orient == 2700 ) /* orientation turned 90 deg. */ EXCHG( size.x, size.y ); DPOINT pos_dev = userToDeviceCoordinates( pos ); selectAperture( size, APERTURE::Oval ); emitDcode( pos_dev, 3 ); } else /* Plot pad as a segment. */ { if( size.x > size.y ) { EXCHG( size.x, size.y ); if( orient < 2700 ) orient += 900; else orient -= 2700; } if( trace_mode == FILLED ) { /* XXX to do: use an aperture macro to declare the rotated pad */ /* The pad is reduced to an oval with dy > dx */ delta = size.y - size.x; x0 = 0; y0 = -delta / 2; x1 = 0; y1 = delta / 2; RotatePoint( &x0, &y0, orient ); RotatePoint( &x1, &y1, orient ); ThickSegment( wxPoint( pos.x + x0, pos.y + y0 ), wxPoint( pos.x + x1, pos.y + y1 ), size.x, trace_mode ); } else { sketchOval( pos, size, orient, -1 ); } } } /** * Filled rect flashes are handled as aperture in the 90 degree positions only */ void GERBER_PLOTTER::FlashPadRect( const wxPoint& pos, const wxSize& aSize, int orient, EDA_DRAW_MODE_T trace_mode ) { wxASSERT( outputFile ); wxSize size( aSize ); /* Plot as flashed. */ switch( orient ) { case 900: case 2700: /* rotation of 90 degrees or 270 swaps dimensions */ EXCHG( size.x, size.y ); // Pass through case 0: case 1800: switch( trace_mode ) { case LINE: case SKETCH: SetCurrentLineWidth( -1 ); Rect( wxPoint( pos.x - (size.x - currentPenWidth) / 2, pos.y - (size.y - currentPenWidth) / 2 ), wxPoint( pos.x + (size.x - currentPenWidth) / 2, pos.y + (size.y - currentPenWidth) / 2 ), NO_FILL ); break; case FILLED: DPOINT pos_dev = userToDeviceCoordinates( pos ); selectAperture( size, APERTURE::Rect ); emitDcode( pos_dev, 3 ); break; } break; default: // plot pad shape as polygon { // XXX to do: use an aperture macro to declare the rotated pad wxPoint coord[4]; // coord[0] is assumed the lower left // coord[1] is assumed the upper left // coord[2] is assumed the upper right // coord[3] is assumed the lower right /* Trace the outline. */ coord[0].x = -size.x/2; // lower left coord[0].y = size.y/2; coord[1].x = -size.x/2; // upper left coord[1].y = -size.y/2; coord[2].x = size.x/2; // upper right coord[2].y = -size.y/2; coord[3].x = size.x/2; // lower right coord[3].y = size.y/2; FlashPadTrapez( pos, coord, orient, trace_mode ); } break; } } /** * Trapezoidal pad at the moment are *never* handled as aperture, since * they require aperture macros */ void GERBER_PLOTTER::FlashPadTrapez( const wxPoint& aPadPos, const wxPoint* aCorners, int aPadOrient, EDA_DRAW_MODE_T aTrace_Mode ) { // XXX to do: use an aperture macro to declare the pad // polygon corners list std::vector< wxPoint > cornerList; for( int ii = 0; ii < 4; ii++ ) cornerList.push_back( aCorners[ii] ); // Draw the polygon and fill the interior as required for( unsigned ii = 0; ii < 4; ii++ ) { RotatePoint( &cornerList[ii], aPadOrient ); cornerList[ii] += aPadPos; } // Close the polygon cornerList.push_back( cornerList[0] ); SetCurrentLineWidth( -1 ); PlotPoly( cornerList, aTrace_Mode==FILLED ? FILLED_SHAPE : NO_FILL ); } /** * Change the plot polarity and begin a new layer * Used to 'scratch off' silk screen away from solder mask */ void GERBER_PLOTTER::SetLayerPolarity( bool aPositive ) { if( aPositive ) fprintf( outputFile, "%%LPD*%%\n" ); else fprintf( outputFile, "%%LPC*%%\n" ); }