/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2022 Mark Roszko * Copyright The KiCad Developers, see AUTHORS.txt for contributors. * * This program is free software: you can redistribute it and/or modify it * under the terms of the GNU General Public License as published by the * Free Software Foundation, either version 3 of the License, or (at your * option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program. If not, see . */ #include #include "command_pcb_export_ps.h" #include #include "jobs/job_export_pcb_ps.h" #include #include #include #define ARG_MODE_SINGLE "--mode-single" #define ARG_MODE_MULTI "--mode-multi" #define ARG_TRACK_WIDTH_CORRECTION "--track-width-correction" #define ARG_X_SCALE_FACTOR "--x-scale-factor" #define ARG_Y_SCALE_FACTOR "--y-scale-factor" #define ARG_FORCE_A4 "--force-a4" CLI::PCB_EXPORT_PS_COMMAND::PCB_EXPORT_PS_COMMAND() : PCB_EXPORT_BASE_COMMAND( "ps", false, true ) { m_argParser.add_description( UTF8STDSTR( _( "Generate Postscript from a list of layers" ) ) ); addLayerArg(); addCommonLayersArg(); addDrawingSheetArg(); addDefineArg(); m_argParser.add_argument( "-m", ARG_MIRROR ) .help( UTF8STDSTR( _( "Mirror the board (useful for trying to show bottom layers)" ) ) ) .flag(); m_argParser.add_argument( "--erd", ARG_EXCLUDE_REFDES ) .help( UTF8STDSTR( _( "Exclude the reference designator text" ) ) ) .flag(); m_argParser.add_argument( "--ev", ARG_EXCLUDE_VALUE ) .help( UTF8STDSTR( _( "Exclude the value text" ) ) ) .flag(); m_argParser.add_argument( "--ibt", ARG_INCLUDE_BORDER_TITLE ) .help( UTF8STDSTR( _( "Include the border and title block" ) ) ) .flag(); m_argParser.add_argument( ARG_SUBTRACT_SOLDERMASK ) .help( UTF8STDSTR( _( "Subtract soldermask from silkscreen" ) ) ) .flag(); m_argParser.add_argument( "--sp", ARG_SKETCH_PADS_ON_FAB_LAYERS ) .help( UTF8STDSTR( _( ARG_SKETCH_PADS_ON_FAB_LAYERS_DESC ) ) ) .flag(); m_argParser.add_argument( "--hdnp", ARG_HIDE_DNP_FPS_ON_FAB_LAYERS ) .help( UTF8STDSTR( _( ARG_HIDE_DNP_FPS_ON_FAB_LAYERS_DESC ) ) ) .flag(); m_argParser.add_argument( "--sdnp", ARG_SKETCH_DNP_FPS_ON_FAB_LAYERS ) .help( UTF8STDSTR( _( ARG_SKETCH_DNP_FPS_ON_FAB_LAYERS_DESC ) ) ) .flag(); m_argParser.add_argument( "--cdnp", ARG_CROSSOUT_DNP_FPS_ON_FAB_LAYERS ) .help( UTF8STDSTR( _( ARG_CROSSOUT_DNP_FPS_ON_FAB_LAYERS_DESC ) ) ) .flag(); m_argParser.add_argument( ARG_NEGATIVE_SHORT, ARG_NEGATIVE ) .help( UTF8STDSTR( _( ARG_NEGATIVE_DESC ) ) ) .flag(); m_argParser.add_argument( ARG_BLACKANDWHITE ) .help( UTF8STDSTR( _( ARG_BLACKANDWHITE_DESC ) ) ) .flag(); m_argParser.add_argument( "-t", ARG_THEME ) .default_value( std::string() ) .help( UTF8STDSTR( _( "Color theme to use (will default to PCB Editor settings)" ) ) ) .metavar( "THEME_NAME" ); m_argParser.add_argument( ARG_DRILL_SHAPE_OPTION ) .help( UTF8STDSTR( _( ARG_DRILL_SHAPE_OPTION_DESC ) ) ) .scan<'i', int>() .default_value( 2 ); m_argParser.add_argument( ARG_MODE_SINGLE ) .help( UTF8STDSTR( _( "Generates a single file with the output arg path acting as the complete " "directory and filename path. COMMON_LAYER_LIST does not function in this " "mode. Instead LAYER_LIST controls all layers plotted." ) ) ) .flag(); m_argParser.add_argument( ARG_MODE_MULTI ) .help( UTF8STDSTR( _( "Generates one or more files with behavior similar to the KiCad " "GUI plotting. The given output path specifies a directory in " "which files may be output." ) ) ) .flag(); m_argParser.add_argument( "-C", ARG_TRACK_WIDTH_CORRECTION ) .help( UTF8STDSTR( _( "Track width correction [mm]. Used to compensate errors in " "track widths, pad and via sizes." ) ) ) .scan<'g', double>() .default_value( 0.0 ) .metavar( "TRACK_COR" ); m_argParser.add_argument( "-X", ARG_X_SCALE_FACTOR ) .help( UTF8STDSTR( _( "X scale adjust for exact scale." ) ) ) .scan<'g', double>() .default_value( 1.0 ) .metavar( "X_SCALE" ); m_argParser.add_argument( "-Y", ARG_Y_SCALE_FACTOR ) .help( UTF8STDSTR( _( "Y scale adjust for exact scale." ) ) ) .scan<'g', double>() .default_value( 1.0 ) .metavar( "Y_SCALE" ); m_argParser.add_argument( "-A", ARG_FORCE_A4 ) .help( UTF8STDSTR( _( "Force A4 paper size." ) ) ) .flag(); m_argParser.add_argument( ARG_SCALE ) .help( UTF8STDSTR( _( ARG_SCALE_DESC ) ) ) .scan<'g', double>() .default_value( 1.0 ) .metavar( "SCALE" ); m_argParser.add_argument( ARG_CHECK_ZONES ) .help( UTF8STDSTR( _( ARG_CHECK_ZONES_DESC ) ) ) .flag(); } int CLI::PCB_EXPORT_PS_COMMAND::doPerform( KIWAY& aKiway ) { std::unique_ptr psJob( new JOB_EXPORT_PCB_PS() ); psJob->m_filename = m_argInput; psJob->SetConfiguredOutputPath( m_argOutput ); psJob->m_drawingSheet = m_argDrawingSheet; psJob->SetVarOverrides( m_argDefineVars ); if( !wxFile::Exists( psJob->m_filename ) ) { wxFprintf( stderr, _( "Board file does not exist or is not accessible\n" ) ); return EXIT_CODES::ERR_INVALID_INPUT_FILE; } psJob->m_plotFootprintValues = !m_argParser.get( ARG_EXCLUDE_VALUE ); psJob->m_plotRefDes = !m_argParser.get( ARG_EXCLUDE_REFDES ); psJob->m_plotDrawingSheet = m_argParser.get( ARG_INCLUDE_BORDER_TITLE ); psJob->m_subtractSolderMaskFromSilk = m_argParser.get( ARG_SUBTRACT_SOLDERMASK ); psJob->m_mirror = m_argParser.get( ARG_MIRROR ); psJob->m_blackAndWhite = m_argParser.get( ARG_BLACKANDWHITE ); psJob->m_colorTheme = From_UTF8( m_argParser.get( ARG_THEME ).c_str() ); psJob->m_negative = m_argParser.get( ARG_NEGATIVE ); psJob->m_scale = m_argParser.get( ARG_SCALE ); psJob->m_checkZonesBeforePlot = m_argParser.get( ARG_CHECK_ZONES ); psJob->m_sketchPadsOnFabLayers = m_argParser.get( ARG_SKETCH_PADS_ON_FAB_LAYERS ); if( psJob->m_sketchPadsOnFabLayers ) psJob->m_plotPadNumbers = true; psJob->m_hideDNPFPsOnFabLayers = m_argParser.get( ARG_HIDE_DNP_FPS_ON_FAB_LAYERS ); psJob->m_sketchDNPFPsOnFabLayers = m_argParser.get( ARG_SKETCH_DNP_FPS_ON_FAB_LAYERS ); psJob->m_crossoutDNPFPsOnFabLayers = m_argParser.get( ARG_CROSSOUT_DNP_FPS_ON_FAB_LAYERS ); int drillShape = m_argParser.get( ARG_DRILL_SHAPE_OPTION ); psJob->m_drillShapeOption = static_cast( drillShape ); psJob->m_argLayers = From_UTF8( m_argParser.get( ARG_LAYERS ).c_str() ); psJob->m_argCommonLayers = From_UTF8( m_argParser.get( ARG_COMMON_LAYERS ).c_str() ); if( m_argParser.get( ARG_MODE_MULTI ) ) psJob->m_genMode = JOB_EXPORT_PCB_PS::GEN_MODE::MULTI; else if( m_argParser.get( ARG_MODE_SINGLE ) ) psJob->m_genMode = JOB_EXPORT_PCB_PS::GEN_MODE::SINGLE; psJob->m_trackWidthCorrection = m_argParser.get( ARG_TRACK_WIDTH_CORRECTION ); psJob->m_XScaleAdjust = m_argParser.get( ARG_X_SCALE_FACTOR ); psJob->m_YScaleAdjust = m_argParser.get( ARG_Y_SCALE_FACTOR ); psJob->m_forceA4 = m_argParser.get( ARG_FORCE_A4 ); return aKiway.ProcessJob( KIWAY::FACE_PCB, psJob.get() ); }