doxygen/gerber__jobfile__writer_8cpp_source.html

/*

 * This program source code file is part of KiCad, a free EDA CAD application.

 *

 * Copyright (C) 2018 Jean_Pierre Charras <jp.charras at wanadoo.fr>

 * 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 2

 * 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 <https://www.gnu.org/licenses/>.

 */


#include <fstream>

#include <iomanip>

#include <vector>


#include <build_version.h>

#include <common.h>

#include <locale_io.h>

#include <pcb_edit_frame.h>

#include <plotters/plotter.h>


#include <board.h>

#include <board_design_settings.h>

#include <project/net_settings.h>

#include <footprint.h>

#include <pad.h>

#include <pcb_track.h>

#include <zone.h>


#include <board_stackup_manager/stackup_predefined_prms.h>

#include <gbr_metadata.h>

#include <gerber_jobfile_writer.h>

#include <pcbplot.h>

#include <reporter.h>

#include <wildcards_and_files_ext.h>


GERBER_JOBFILE_WRITER::GERBER_JOBFILE_WRITER( BOARD* aPcb, REPORTER* aReporter )

{

    m_pcb = aPcb;

    m_reporter = aReporter;

    m_conversionUnits = 1.0 / pcbIUScale.IU_PER_MM; // Gerber units = mm

}


std::string GERBER_JOBFILE_WRITER::formatStringFromUTF32( const wxString& aText )

{

    std::string fmt_text; // the text after UTF32 to UTF8 conversion

    fmt_text = aText.utf8_string();


    return fmt_text;

}


enum ONSIDE GERBER_JOBFILE_WRITER::hasSilkLayers()

{

    int flag = SIDE_NONE;


    for( PCB_LAYER_ID layer : m_params.m_LayerId )

    {

        if( layer == B_SilkS )

            flag |= SIDE_BOTTOM;


        if( layer == F_SilkS )

            flag |= SIDE_TOP;

    }


    return (enum ONSIDE) flag;

}


enum ONSIDE GERBER_JOBFILE_WRITER::hasSolderMasks()

{

    int flag = SIDE_NONE;


    for( PCB_LAYER_ID layer : m_params.m_LayerId )

    {

        if( layer == B_Mask )

            flag |= SIDE_BOTTOM;


        if( layer == F_Mask )

            flag |= SIDE_TOP;

    }


    return (enum ONSIDE) flag;

}


const char* GERBER_JOBFILE_WRITER::sideKeyValue( enum ONSIDE aValue )

{

    // return the key associated to sides used for some layers

    // "No, TopOnly, BotOnly or Both"

    const char* value = nullptr;


    switch( aValue )

    {

    case SIDE_NONE:   value = "No";      break;

    case SIDE_TOP:    value = "TopOnly"; break;

    case SIDE_BOTTOM: value = "BotOnly"; break;

    case SIDE_BOTH:   value = "Both";    break;

    }


    return value;

}


bool GERBER_JOBFILE_WRITER::CreateJobFile( const wxString& aFullFilename )

{

    bool     success;

    wxString msg;


    success = WriteJSONJobFile( aFullFilename );


    if( !success )

    {

        if( m_reporter )

        {

            msg.Printf( _( "Failed to create file '%s'." ), aFullFilename );

            m_reporter->Report( msg, RPT_SEVERITY_ERROR );

        }

    }

    else if( m_reporter )

    {

        msg.Printf( _( "Created Gerber job file '%s'." ), aFullFilename );

        m_reporter->Report( msg, RPT_SEVERITY_ACTION );

    }


    return success;

}


void GERBER_JOBFILE_WRITER::addJSONHeader()

{

    m_json["Header"] = {

        {

            "GenerationSoftware",

            {

                { "Vendor", "KiCad" },

                { "Application", "Pcbnew" },

                { "Version", GetBuildVersion() }

            }

        },

        {

            // The attribute value must conform to the full version of the ISO 8601

            // date and time format, including time and time zone.

            "CreationDate", GbrMakeCreationDateAttributeString( GBR_NC_STRING_FORMAT_GBRJOB )

        }

    };

}


bool GERBER_JOBFILE_WRITER::WriteJSONJobFile( const wxString& aFullFilename )

{

    // Note: in Gerber job file, dimensions are in mm, and are floating numbers

    std::ofstream file( aFullFilename.ToUTF8() );


    m_json = nlohmann::ordered_json( {} );


    // output the job file header

    addJSONHeader();


    // Add the General Specs

    addJSONGeneralSpecs();


    // Job file support a few design rules:

    addJSONDesignRules();


    // output the gerber file list:

    addJSONFilesAttributes();


    // output the board stackup:

    addJSONMaterialStackup();


    file << std::setw( 2 ) << m_json << std::endl;


    return true;

}


double GERBER_JOBFILE_WRITER::mapValue( double aUiValue )

{

    // A helper function to convert aUiValue in Json units (mm) and to have

    // 4 digits in Json  in mantissa when using %g to print it

    // i.e. displays values truncated in 0.1 microns.

    // This is enough for a Json file

    char buffer[128];

    std::snprintf( buffer, sizeof( buffer ), "%.4f", aUiValue * m_conversionUnits );


    long double output;

    sscanf( buffer, "%Lg", &output );


    return output;


}


void GERBER_JOBFILE_WRITER::addJSONGeneralSpecs()

{

    m_json["GeneralSpecs"] = nlohmann::ordered_json( {} );

    m_json["GeneralSpecs"]["ProjectId"] = nlohmann::ordered_json( {} );


    // Creates the ProjectId. Format is (from Gerber file format doc):

    // ProjectId,<project id>,<project GUID>,<revision id>*%

    // <project id> is the name of the project, restricted to basic ASCII symbols only,

    // and comma not accepted

    // All illegal chars will be replaced by underscore

    // Rem: <project id> accepts only ASCII 7 code (only basic ASCII codes are allowed in gerber files).

    //

    // <project GUID> is a string which is an unique id of a project.

    // However Kicad does not handle such a project GUID, so it is built from the board name

    wxFileName fn = m_pcb->GetFileName();

    wxString   msg = fn.GetFullName();


    // Build a <project GUID>, from the board name

    wxString guid = GbrMakeProjectGUIDfromString( msg );


    // build the <project id> string: this is the board short filename (without ext)

    // and in UTF8 format.

    msg = fn.GetName();


    // build the <rev> string. All non ASCII chars are in UTF8 form

    wxString rev = ExpandTextVars( m_pcb->GetTitleBlock().GetRevision(), m_pcb->GetProject() );


    if( rev.IsEmpty() )

        rev = wxT( "rev?" );


    m_json["GeneralSpecs"]["ProjectId"]["Name"] = msg.utf8_string().c_str();

    m_json["GeneralSpecs"]["ProjectId"]["GUID"] = guid;

    m_json["GeneralSpecs"]["ProjectId"]["Revision"] = rev.utf8_string().c_str();


    // output the board size in mm:

    BOX2I brect = m_pcb->GetBoardEdgesBoundingBox();


    m_json["GeneralSpecs"]["Size"]["X"] = mapValue( brect.GetWidth() );

    m_json["GeneralSpecs"]["Size"]["Y"] = mapValue( brect.GetHeight() );


    // Add some data to the JSON header, GeneralSpecs:

    // number of copper layers

    m_json["GeneralSpecs"]["LayerNumber"] = m_pcb->GetCopperLayerCount();


    // Board thickness

    m_json["GeneralSpecs"]["BoardThickness"] =

            mapValue( m_pcb->GetDesignSettings().GetBoardThickness() );


    // Copper finish

    const BOARD_STACKUP brd_stackup = m_pcb->GetDesignSettings().GetStackupDescriptor();


    if( !brd_stackup.m_FinishType.IsEmpty() )

        m_json["GeneralSpecs"]["Finish"] = brd_stackup.m_FinishType;


    if( brd_stackup.m_HasDielectricConstrains )

        m_json["GeneralSpecs"]["ImpedanceControlled"] = true;


    #if 0   // Old way to set property

    if( brd_stackup.m_CastellatedPads )

        m_json["GeneralSpecs"]["Castellated"] = true;

    #endif

    if( m_pcb->GetPadWithCastellatedAttrCount() )

        m_json["GeneralSpecs"]["Castellated"] = true;


    if( m_pcb->GetPadWithPressFitAttrCount() )

        m_json["GeneralSpecs"]["Press-fit"] = true;


    if( brd_stackup.m_EdgePlating )

        m_json["GeneralSpecs"]["EdgePlating"] = true;


    if( brd_stackup.m_EdgeConnectorConstraints )

    {

        m_json["GeneralSpecs"]["EdgeConnector"] = true;


        m_json["GeneralSpecs"]["EdgeConnectorBevelled"] =

                ( brd_stackup.m_EdgeConnectorConstraints == BS_EDGE_CONNECTOR_BEVELLED );

    }


#if 0 // Not yet in use

    /* The board type according to IPC-2221. There are six primary board types:

    - Type 1 - Single-sided

    - Type 2 - Double-sided

    - Type 3 - Multilayer, TH components only

    - Type 4 - Multilayer, with TH, blind and/or buried vias.

    - Type 5 - Multilayer metal-core board, TH components only

    - Type 6 - Multilayer metal-core

    */

    m_json["GeneralSpecs"]["IPC-2221-Type"] = 4;


    /* Via protection: key words:

    Ia Tented - Single-sided

    Ib Tented - Double-sided

    IIa Tented and Covered - Single-sided

    IIb Tented and Covered - Double-sided

    IIIa Plugged - Single-sided

    IIIb Plugged - Double-sided

    IVa Plugged and Covered - Single-sided

    IVb Plugged and Covered - Double-sided

    V Filled (fully plugged)

    VI Filled and Covered

    VIII Filled and Capped

    None...No protection

    */

    m_json["GeneralSpecs"]["ViaProtection"] = "Ib";

#endif

}


void GERBER_JOBFILE_WRITER::addJSONFilesAttributes()

{

    // Add the Files Attributes section in JSON format to m_JSONbuffer

    m_json["FilesAttributes"] = nlohmann::ordered_json::array();


    for( unsigned ii = 0; ii < m_params.m_GerberFileList.GetCount(); ii++ )

    {

        wxString&    name = m_params.m_GerberFileList[ii];

        PCB_LAYER_ID layer = m_params.m_LayerId[ii];

        wxString     gbr_layer_id;

        bool         skip_file = false; // true to skip files which should not be in job file

        const char*  polarity = "Positive";


        nlohmann::ordered_json file_json;


        if( IsCopperLayer( layer ) )

        {

            gbr_layer_id = wxT( "Copper,L" );


            if( layer == B_Cu )

                gbr_layer_id << m_pcb->GetCopperLayerCount();

            else if( layer == F_Cu )

                gbr_layer_id << 1;

            else    // Copper layers are numbered B_Cu + n*2 for inner layer n (n = 1 ... val max)

                    // and gbr_layer_id = 2 ... val max

                gbr_layer_id << (layer-B_Cu) / 2 + 1;


            gbr_layer_id << wxT( "," );


            if( layer == B_Cu )

                gbr_layer_id << wxT( "Bot" );

            else if( layer == F_Cu )

                gbr_layer_id << wxT( "Top" );

            else

                gbr_layer_id << wxT( "Inr" );

        }


        else if( IsUserLayer( layer ) )

        {

            gbr_layer_id = wxT( "Other,User" );

        }


        else

        {

            switch( layer )

            {

            case B_Adhes:

                gbr_layer_id = wxT( "Glue,Bot" );

                break;

            case F_Adhes:

                gbr_layer_id = wxT( "Glue,Top" );

                break;


            case B_Paste:

                gbr_layer_id = wxT( "SolderPaste,Bot" );

                break;

            case F_Paste:

                gbr_layer_id = wxT( "SolderPaste,Top" );

                break;


            case B_SilkS:

                gbr_layer_id = wxT( "Legend,Bot" );

                break;

            case F_SilkS:

                gbr_layer_id = wxT( "Legend,Top" );

                break;


            case B_Mask:

                gbr_layer_id = wxT( "SolderMask,Bot" );

                polarity = "Negative";

                break;

            case F_Mask:

                gbr_layer_id = wxT( "SolderMask,Top" );

                polarity = "Negative";

                break;


            case Edge_Cuts:

                gbr_layer_id = wxT( "Profile" );

                break;


            case B_Fab:

                gbr_layer_id = wxT( "AssemblyDrawing,Bot" );

                break;

            case F_Fab:

                gbr_layer_id = wxT( "AssemblyDrawing,Top" );

                break;


            case Margin:

            case B_CrtYd:

            case F_CrtYd:

                skip_file = true;

                break;


            default:

                skip_file = true;


                if( m_reporter )

                    m_reporter->Report( wxT( "Unexpected layer id in job file" ), RPT_SEVERITY_ERROR );


                break;

            }

        }


        if( !skip_file )

        {

            // name can contain non ASCII7 chars.

            // Ensure the name is JSON compatible.

            std::string strname = formatStringFromUTF32( name );


            file_json["Path"] = strname.c_str();

            file_json["FileFunction"] = gbr_layer_id;

            file_json["FilePolarity"] = polarity;


            m_json["FilesAttributes"] += file_json;

        }

    }

}


void GERBER_JOBFILE_WRITER::addJSONDesignRules()

{

    // Add the Design Rules section in JSON format to m_JSONbuffer

    // Job file support a few design rules:

    std::shared_ptr<NET_SETTINGS>& netSettings = m_pcb->GetDesignSettings().m_NetSettings;


    int  minclearanceOuter = netSettings->GetDefaultNetclass()->GetClearance();

    bool hasInnerLayers = m_pcb->GetCopperLayerCount() > 2;


    // Search a smaller clearance in other net classes, if any.

    for( const auto& [name, netclass] : netSettings->GetNetclasses() )

        minclearanceOuter = std::min( minclearanceOuter, netclass->GetClearance() );


    // job file knows different clearance types.

    // Kicad knows only one clearance for pads and tracks

    int minclearance_track2track = minclearanceOuter;


    // However, pads can have a specific clearance defined for a pad or a footprint,

    // and min clearance can be dependent on layers.

    // Search for a minimal pad clearance:

    int minPadClearanceOuter = netSettings->GetDefaultNetclass()->GetClearance();

    int minPadClearanceInner = netSettings->GetDefaultNetclass()->GetClearance();


    for( FOOTPRINT* footprint : m_pcb->Footprints() )

    {

        for( PAD* pad : footprint->Pads() )

        {

            for( PCB_LAYER_ID layer : pad->GetLayerSet() )

            {

                int padClearance = pad->GetOwnClearance( layer );


                if( layer == B_Cu || layer == F_Cu )

                    minPadClearanceOuter = std::min( minPadClearanceOuter, padClearance );

                else

                    minPadClearanceInner = std::min( minPadClearanceInner, padClearance );

            }

        }

    }


    m_json["DesignRules"] = { {

        { "Layers", "Outer" },

        { "PadToPad", mapValue( minPadClearanceOuter ) },

        { "PadToTrack", mapValue( minPadClearanceOuter ) },

        { "TrackToTrack", mapValue( minclearance_track2track ) }

    } };


    // Until this is changed in Kicad, use the same value for internal tracks

    int minclearanceInner = minclearanceOuter;


    // Output the minimal track width

    int mintrackWidthOuter = INT_MAX;

    int mintrackWidthInner = INT_MAX;


    for( PCB_TRACK* track : m_pcb->Tracks() )

    {

        if( track->Type() == PCB_VIA_T )

            continue;


        if( track->GetLayer() == B_Cu || track->GetLayer() == F_Cu )

            mintrackWidthOuter = std::min( mintrackWidthOuter, track->GetWidth() );

        else

            mintrackWidthInner = std::min( mintrackWidthInner, track->GetWidth() );

    }


    if( mintrackWidthOuter != INT_MAX )

        m_json["DesignRules"][0]["MinLineWidth"] = mapValue( mintrackWidthOuter );


    // Output the minimal zone to xx clearance

    // Note: zones can have a zone clearance set to 0

    // if happens, the actual zone clearance is the clearance of its class

    minclearanceOuter = INT_MAX;

    minclearanceInner = INT_MAX;


    for( ZONE* zone : m_pcb->Zones() )

    {

        if( zone->GetIsRuleArea() || !zone->IsOnCopperLayer() )

            continue;


        for( PCB_LAYER_ID layer : zone->GetLayerSet() )

        {

            int zclerance = zone->GetOwnClearance( layer );


            if( layer == B_Cu || layer == F_Cu )

                minclearanceOuter = std::min( minclearanceOuter, zclerance );

            else

                minclearanceInner = std::min( minclearanceInner, zclerance );

        }

    }


    if( minclearanceOuter != INT_MAX )

        m_json["DesignRules"][0]["TrackToRegion"] = mapValue( minclearanceOuter );


    if( minclearanceOuter != INT_MAX )

        m_json["DesignRules"][0]["RegionToRegion"] = mapValue( minclearanceOuter );


    if( hasInnerLayers )

    {

        m_json["DesignRules"] += nlohmann::ordered_json( {

            { "Layers", "Inner" },

            { "PadToPad", mapValue( minPadClearanceInner ) },

            { "PadToTrack", mapValue( minPadClearanceInner ) },

            { "TrackToTrack", mapValue( minclearance_track2track  ) }

        } );


        if( mintrackWidthInner != INT_MAX )

            m_json["DesignRules"][1]["MinLineWidth"] = mapValue( mintrackWidthInner );


        if( minclearanceInner != INT_MAX )

            m_json["DesignRules"][1]["TrackToRegion"] = mapValue( minclearanceInner  );


        if( minclearanceInner != INT_MAX )

            m_json["DesignRules"][1]["RegionToRegion"] = mapValue( minclearanceInner );

    }

}


void GERBER_JOBFILE_WRITER::addJSONMaterialStackup()

{

    // Add the Material Stackup section in JSON format to m_JSONbuffer

    m_json["MaterialStackup"] = nlohmann::ordered_json::array();


    // Build the candidates list:

    LSET maskLayer;

    BOARD_STACKUP brd_stackup = m_pcb->GetDesignSettings().GetStackupDescriptor();


    // Ensure brd_stackup is up to date (i.e. no change made by SynchronizeWithBoard() )

    bool uptodate = not brd_stackup.SynchronizeWithBoard( &m_pcb->GetDesignSettings() );


    if( m_reporter && !uptodate && m_pcb->GetDesignSettings().m_HasStackup )

        m_reporter->Report( _( "Board stackup settings not up to date." ), RPT_SEVERITY_ERROR );


    PCB_LAYER_ID last_copper_layer = F_Cu;


    // Generate the list (top to bottom):

    for( int ii = 0; ii < brd_stackup.GetCount(); ++ii )

    {

        BOARD_STACKUP_ITEM* item = brd_stackup.GetStackupLayer( ii );


        int sub_layer_count =

                item->GetType() == BS_ITEM_TYPE_DIELECTRIC ? item->GetSublayersCount() : 1;


        for( int sub_idx = 0; sub_idx < sub_layer_count; sub_idx++ )

        {

            // layer thickness is always in mm

            double      thickness = mapValue( item->GetThickness( sub_idx ) );

            wxString    layer_type;

            std::string layer_name; // for comment


            nlohmann::ordered_json layer_json;


            switch( item->GetType() )

            {

            case BS_ITEM_TYPE_COPPER:

                layer_type = wxT( "Copper" );

                layer_name = formatStringFromUTF32( m_pcb->GetLayerName( item->GetBrdLayerId() ) );

                last_copper_layer = item->GetBrdLayerId();

                break;


            case BS_ITEM_TYPE_SILKSCREEN:

                layer_type = wxT( "Legend" );

                layer_name = formatStringFromUTF32( item->GetTypeName() );

                break;


            case BS_ITEM_TYPE_SOLDERMASK:

                layer_type = wxT( "SolderMask" );

                layer_name = formatStringFromUTF32( item->GetTypeName() );

                break;


            case BS_ITEM_TYPE_SOLDERPASTE:

                layer_type = wxT( "SolderPaste" );

                layer_name = formatStringFromUTF32( item->GetTypeName() );

                break;


            case BS_ITEM_TYPE_DIELECTRIC:

                layer_type = wxT( "Dielectric" );

                // The option core or prepreg is not added here, as it creates constraints

                // in build process, not necessary wanted.

                if( sub_layer_count > 1 )

                {

                    layer_name =

                            formatStringFromUTF32( wxString::Format( wxT( "dielectric layer %d - %d/%d" ),

                                    item->GetDielectricLayerId(), sub_idx + 1, sub_layer_count ) );

                }

                else

                    layer_name = formatStringFromUTF32( wxString::Format(

                            wxT( "dielectric layer %d" ), item->GetDielectricLayerId() ) );

                break;


            default:

                break;

            }


            layer_json["Type"] = layer_type;


            if( item->IsColorEditable() && uptodate )

            {

                if( IsPrmSpecified( item->GetColor( sub_idx ) ) )

                {

                    wxString colorName = item->GetColor( sub_idx );


                    if( colorName.StartsWith( wxT( "#" ) ) )    // This is a user defined color,

                                                                // not in standard color list.

                    {

                        // In job file a color can be given by its RGB values (0...255)

                        // like R<number><G<number>B<number> notation

                        wxColor color( COLOR4D( colorName ).ToColour() );

                        colorName.Printf( wxT( "R%dG%dB%d" ),

                                          color.Red(),

                                          color.Green(),

                                          color.Blue() );

                    }

                    else

                    {

                        const std::vector<FAB_LAYER_COLOR>& color_list =

                                                    GetStandardColors( item->GetType() );


                        // Colors for dielectric use a color list that is mainly not normalized in

                        // job file names. So if a color is in the dielectric standard color list

                        // it can be a standard name or not.

                        // Colors for solder mask and silk screen use a mainly normalized

                        // color list, but this list can also contain not normalized colors.

                        // If not normalized, use the R<number><G<number>B<number> notation

                        for( const FAB_LAYER_COLOR& prm_color : color_list  )

                        {

                            if( colorName == prm_color.GetName() )

                            {

                                colorName = prm_color.GetColorAsString();

                                break;

                            }

                        }

                    }


                    layer_json["Color"] = colorName;

                }

            }


            if( item->IsThicknessEditable() && uptodate )

                layer_json["Thickness"] = thickness;


            if( item->GetType() == BS_ITEM_TYPE_DIELECTRIC )

            {

                if( item->HasMaterialValue() )

                {

                    layer_json["Material"] = item->GetMaterial( sub_idx );


                    // These constrains are only written if the board has impedance controlled tracks.

                    // If the board is not impedance controlled,  they are useless.

                    // Do not add constrains that create more expensive boards.


                    if( brd_stackup.m_HasDielectricConstrains )

                    {

                        // Generate Epsilon R if > 1.0 (value <= 1.0 means not specified: it is not

                        // a possible value

                        if( item->GetEpsilonR() > 1.0 )

                            layer_json["DielectricConstant"] = item->FormatEpsilonR( sub_idx );


                        // Generate LossTangent > 0.0 (value <= 0.0 means not specified: it is not

                        // a possible value

                        if( item->GetLossTangent() > 0.0 )

                            layer_json["LossTangent"] = item->FormatLossTangent( sub_idx );

                    }

                }


                // Copper layers IDs use only even values like 0, 2, 4 ...

                // and first layer = F_Cu = 0, last layer = B_Cu = 2

                // inner layers Ids are 4, 6 , 8 ...

                PCB_LAYER_ID next_copper_layer = ( PCB_LAYER_ID )( last_copper_layer + 2 );


                if( last_copper_layer == F_Cu )

                    next_copper_layer = In1_Cu;


                // If the next_copper_layer is the last copper layer, the next layer id is B_Cu

                if( next_copper_layer/2 >= m_pcb->GetCopperLayerCount() )

                    next_copper_layer = B_Cu;


                wxString subLayerName;


                if( sub_layer_count > 1 )

                    subLayerName.Printf( wxT( " (%d/%d)" ), sub_idx + 1, sub_layer_count );


                wxString name = wxString::Format( wxT( "%s/%s%s" ),

                                                  formatStringFromUTF32( m_pcb->GetLayerName( last_copper_layer ) ),

                                                  formatStringFromUTF32( m_pcb->GetLayerName( next_copper_layer ) ),

                                                  subLayerName );


                layer_json["Name"] = name;


                // Add a comment ("Notes"):

                wxString note;


                note << wxString::Format( wxT( "Type: %s" ), layer_name.c_str() );


                note << wxString::Format( wxT( " (from %s to %s)" ),

                                          formatStringFromUTF32( m_pcb->GetLayerName( last_copper_layer ) ),

                                          formatStringFromUTF32( m_pcb->GetLayerName( next_copper_layer ) ) );


                layer_json["Notes"] = note;

            }

            else if( item->GetType() == BS_ITEM_TYPE_SOLDERMASK

                     || item->GetType() == BS_ITEM_TYPE_SILKSCREEN )

            {

                if( item->HasMaterialValue() )

                {

                    layer_json["Material"] = item->GetMaterial();


                    // These constrains are only written if the board has impedance controlled tracks.

                    // If the board is not impedance controlled,  they are useless.

                    // Do not add constrains that create more expensive boards.

                    if( brd_stackup.m_HasDielectricConstrains )

                    {

                        // Generate Epsilon R if > 1.0 (value <= 1.0 means not specified: it is not

                        // a possible value

                        if( item->GetEpsilonR() > 1.0 )

                            layer_json["DielectricConstant"] = item->FormatEpsilonR();


                        // Generate LossTangent > 0.0 (value <= 0.0 means not specified: it is not

                        // a possible value

                        if( item->GetLossTangent() > 0.0 )

                            layer_json["LossTangent"] = item->FormatLossTangent();

                    }

                }


                layer_json["Name"] = layer_name.c_str();

            }

            else

            {

                layer_json["Name"] = layer_name.c_str();

            }


            m_json["MaterialStackup"].insert( m_json["MaterialStackup"].end(), layer_json );

        }

    }

}


name
const char * name
Definition DXF_plotter.cpp:61

pcbIUScale
constexpr EDA_IU_SCALE pcbIUScale
Definition base_units.h:121

BITMAPS::flag
@ flag
Definition bitmaps_list.h:224

BITMAPS::pad
@ pad
Definition bitmaps_list.h:412

board.h

board_design_settings.h

IsPrmSpecified
bool IsPrmSpecified(const wxString &aPrmValue)
Definition board_stackup.cpp:937

BS_EDGE_CONNECTOR_BEVELLED
@ BS_EDGE_CONNECTOR_BEVELLED
Definition board_stackup.h:60

BS_ITEM_TYPE_COPPER
@ BS_ITEM_TYPE_COPPER
Definition board_stackup.h:46

BS_ITEM_TYPE_SILKSCREEN
@ BS_ITEM_TYPE_SILKSCREEN
Definition board_stackup.h:52

BS_ITEM_TYPE_DIELECTRIC
@ BS_ITEM_TYPE_DIELECTRIC
Definition board_stackup.h:47

BS_ITEM_TYPE_SOLDERPASTE
@ BS_ITEM_TYPE_SOLDERPASTE
Definition board_stackup.h:49

BS_ITEM_TYPE_SOLDERMASK
@ BS_ITEM_TYPE_SOLDERMASK
Definition board_stackup.h:50

BOX2I
BOX2< VECTOR2I > BOX2I
Definition box2.h:918

GetBuildVersion
wxString GetBuildVersion()
Get the full KiCad version string.
Definition build_version.cpp:89

build_version.h

BOARD_STACKUP_ITEM
Manage one layer needed to make a physical board.
Definition board_stackup.h:103

BOARD_STACKUP_ITEM::GetTypeName
wxString GetTypeName() const
Definition board_stackup.h:175

BOARD_STACKUP_ITEM::GetSublayersCount
int GetSublayersCount() const
Definition board_stackup.h:158

BOARD_STACKUP_ITEM::GetEpsilonR
double GetEpsilonR(int aDielectricSubLayer=0) const
Definition board_stackup.cpp:216

BOARD_STACKUP_ITEM::GetColor
wxString GetColor(int aDielectricSubLayer=0) const
Definition board_stackup.cpp:177

BOARD_STACKUP_ITEM::HasMaterialValue
bool HasMaterialValue(int aDielectricSubLayer=0) const
Definition board_stackup.cpp:333

BOARD_STACKUP_ITEM::GetBrdLayerId
PCB_LAYER_ID GetBrdLayerId() const
Definition board_stackup.h:173

BOARD_STACKUP_ITEM::IsThicknessEditable
bool IsThicknessEditable() const
Definition board_stackup.cpp:356

BOARD_STACKUP_ITEM::GetThickness
int GetThickness(int aDielectricSubLayer=0) const
Definition board_stackup.cpp:184

BOARD_STACKUP_ITEM::GetType
BOARD_STACKUP_ITEM_TYPE GetType() const
Definition board_stackup.h:172

BOARD_STACKUP_ITEM::GetMaterial
wxString GetMaterial(int aDielectricSubLayer=0) const
Definition board_stackup.cpp:232

BOARD_STACKUP_ITEM::FormatEpsilonR
wxString FormatEpsilonR(int aDielectricSubLayer=0) const
Definition board_stackup.cpp:364

BOARD_STACKUP_ITEM::GetDielectricLayerId
int GetDielectricLayerId() const
Definition board_stackup.h:176

BOARD_STACKUP_ITEM::IsColorEditable
bool IsColorEditable() const
Definition board_stackup.cpp:348

BOARD_STACKUP_ITEM::FormatLossTangent
wxString FormatLossTangent(int aDielectricSubLayer=0) const
Definition board_stackup.cpp:373

BOARD_STACKUP_ITEM::GetLossTangent
double GetLossTangent(int aDielectricSubLayer=0) const
Definition board_stackup.cpp:192

BOARD_STACKUP
Manage layers needed to make a physical board.
Definition board_stackup.h:234

BOARD_STACKUP::GetCount
int GetCount() const
Definition board_stackup.h:269

BOARD_STACKUP::SynchronizeWithBoard
bool SynchronizeWithBoard(BOARD_DESIGN_SETTINGS *aSettings)
Synchronize the BOARD_STACKUP_ITEM* list with the board.
Definition board_stackup.cpp:564

BOARD_STACKUP::m_HasDielectricConstrains
bool m_HasDielectricConstrains
True if some layers have impedance controlled tracks or have specific constrains for micro-wave appli...
Definition board_stackup.h:332

BOARD_STACKUP::GetStackupLayer
BOARD_STACKUP_ITEM * GetStackupLayer(int aIndex)
Definition board_stackup.cpp:531

BOARD_STACKUP::m_EdgePlating
bool m_EdgePlating
True if the edge board is plated.
Definition board_stackup.h:348

BOARD_STACKUP::m_EdgeConnectorConstraints
BS_EDGE_CONNECTOR_CONSTRAINTS m_EdgeConnectorConstraints
If the board has edge connector cards, some constrains can be specified in job file: BS_EDGE_CONNECTO...
Definition board_stackup.h:346

BOARD_STACKUP::m_FinishType
wxString m_FinishType
The name of external copper finish.
Definition board_stackup.h:323

BOARD
Information pertinent to a Pcbnew printed circuit board.
Definition board.h:372

BOX2::GetWidth
constexpr size_type GetWidth() const
Definition box2.h:210

BOX2::GetHeight
constexpr size_type GetHeight() const
Definition box2.h:211

FAB_LAYER_COLOR
Definition stackup_predefined_prms.h:69

FOOTPRINT
Definition footprint.h:288

GERBER_JOBFILE_WRITER::addJSONHeader
void addJSONHeader()
Add the job file header in JSON format to m_JSONbuffer.
Definition gerber_jobfile_writer.cpp:144

GERBER_JOBFILE_WRITER::addJSONMaterialStackup
void addJSONMaterialStackup()
Add the Material Stackup section in JSON format to m_JSONbuffer This is the ordered list of stackup l...
Definition gerber_jobfile_writer.cpp:553

GERBER_JOBFILE_WRITER::m_reporter
REPORTER * m_reporter
Definition gerber_jobfile_writer.h:162

GERBER_JOBFILE_WRITER::addJSONFilesAttributes
void addJSONFilesAttributes()
Add the Files Attributes section in JSON format to m_JSONbuffer.
Definition gerber_jobfile_writer.cpp:318

GERBER_JOBFILE_WRITER::m_json
nlohmann::ordered_json m_json
Definition gerber_jobfile_writer.h:165

GERBER_JOBFILE_WRITER::hasSilkLayers
enum ONSIDE hasSilkLayers()
Definition gerber_jobfile_writer.cpp:68

GERBER_JOBFILE_WRITER::CreateJobFile
bool CreateJobFile(const wxString &aFullFilename)
Creates a Gerber job file.
Definition gerber_jobfile_writer.cpp:119

GERBER_JOBFILE_WRITER::m_params
JOBFILE_PARAMS m_params
Definition gerber_jobfile_writer.h:163

GERBER_JOBFILE_WRITER::addJSONGeneralSpecs
void addJSONGeneralSpecs()
Add the General Specs in JSON format to m_JSONbuffer.
Definition gerber_jobfile_writer.cpp:209

GERBER_JOBFILE_WRITER::m_pcb
BOARD * m_pcb
Definition gerber_jobfile_writer.h:161

GERBER_JOBFILE_WRITER::WriteJSONJobFile
bool WriteJSONJobFile(const wxString &aFullFilename)
Creates an Gerber job file in JSON format.
Definition gerber_jobfile_writer.cpp:164

GERBER_JOBFILE_WRITER::hasSolderMasks
enum ONSIDE hasSolderMasks()
Definition gerber_jobfile_writer.cpp:85

GERBER_JOBFILE_WRITER::mapValue
double mapValue(double aUiValue)
A helper function to convert a double in Pcbnew internal units to a JSON double value (in mm),...
Definition gerber_jobfile_writer.cpp:192

GERBER_JOBFILE_WRITER::sideKeyValue
const char * sideKeyValue(enum ONSIDE aValue)
Definition gerber_jobfile_writer.cpp:101

GERBER_JOBFILE_WRITER::addJSONDesignRules
void addJSONDesignRules()
Add the Design Rules section in JSON format to m_JSONbuffer.
Definition gerber_jobfile_writer.cpp:437

GERBER_JOBFILE_WRITER::formatStringFromUTF32
std::string formatStringFromUTF32(const wxString &aText)
A helper function to convert a wxString ( therefore a Unicode text ) to a JSON compatible string (a e...
Definition gerber_jobfile_writer.cpp:59

GERBER_JOBFILE_WRITER::m_conversionUnits
double m_conversionUnits
Definition gerber_jobfile_writer.h:164

GERBER_JOBFILE_WRITER::GERBER_JOBFILE_WRITER
GERBER_JOBFILE_WRITER(BOARD *aPcb, REPORTER *aReporter=nullptr)
Definition gerber_jobfile_writer.cpp:52

KIGFX::COLOR4D
A color representation with 4 components: red, green, blue, alpha.
Definition color4d.h:101

LSET
LSET is a set of PCB_LAYER_IDs.
Definition lset.h:37

PAD
Definition pad.h:61

PCB_TRACK
Definition pcb_track.h:57

REPORTER
A pure virtual class used to derive REPORTER objects from.
Definition reporter.h:71

ZONE
Handle a list of polygons defining a copper zone.
Definition zone.h:70

ExpandTextVars
wxString ExpandTextVars(const wxString &aSource, const PROJECT *aProject, int aFlags)
Definition common.cpp:59

common.h
The common library.

_
#define _(s)
Definition eda_3d_actions.cpp:36

footprint.h

GbrMakeProjectGUIDfromString
wxString GbrMakeProjectGUIDfromString(const wxString &aText)
Build a project GUID using format RFC4122 Version 1 or 4 from the project name, because a KiCad proje...
Definition gbr_metadata.cpp:78

GbrMakeCreationDateAttributeString
wxString GbrMakeCreationDateAttributeString(GBR_NC_STRING_FORMAT aFormat)
Definition gbr_metadata.cpp:33

gbr_metadata.h
Handle special data (items attributes) during plot.

GBR_NC_STRING_FORMAT_GBRJOB
@ GBR_NC_STRING_FORMAT_GBRJOB
Definition gbr_metadata.h:59

gerber_jobfile_writer.h
Classes used to generate a Gerber job file in JSON.

ONSIDE
ONSIDE
Definition gerber_jobfile_writer.h:34

SIDE_BOTH
@ SIDE_BOTH
Definition gerber_jobfile_writer.h:38

SIDE_TOP
@ SIDE_TOP
Definition gerber_jobfile_writer.h:36

SIDE_NONE
@ SIDE_NONE
Definition gerber_jobfile_writer.h:35

SIDE_BOTTOM
@ SIDE_BOTTOM
Definition gerber_jobfile_writer.h:37

IsUserLayer
bool IsUserLayer(PCB_LAYER_ID aLayerId)
Test whether a layer is a non copper and a non tech layer.
Definition layer_ids.h:757

IsCopperLayer
bool IsCopperLayer(int aLayerId)
Test whether a layer is a copper layer.
Definition layer_ids.h:675

PCB_LAYER_ID
PCB_LAYER_ID
A quick note on layer IDs:
Definition layer_ids.h:56

F_CrtYd
@ F_CrtYd
Definition layer_ids.h:112

B_Adhes
@ B_Adhes
Definition layer_ids.h:99

Edge_Cuts
@ Edge_Cuts
Definition layer_ids.h:108

F_Paste
@ F_Paste
Definition layer_ids.h:100

F_Adhes
@ F_Adhes
Definition layer_ids.h:98

B_Mask
@ B_Mask
Definition layer_ids.h:94

B_Cu
@ B_Cu
Definition layer_ids.h:61

F_Mask
@ F_Mask
Definition layer_ids.h:93

B_Paste
@ B_Paste
Definition layer_ids.h:101

F_Fab
@ F_Fab
Definition layer_ids.h:115

Margin
@ Margin
Definition layer_ids.h:109

F_SilkS
@ F_SilkS
Definition layer_ids.h:96

B_CrtYd
@ B_CrtYd
Definition layer_ids.h:111

In1_Cu
@ In1_Cu
Definition layer_ids.h:62

B_SilkS
@ B_SilkS
Definition layer_ids.h:97

F_Cu
@ F_Cu
Definition layer_ids.h:60

B_Fab
@ B_Fab
Definition layer_ids.h:114

locale_io.h

net_settings.h

pad.h

pcb_edit_frame.h

pcb_track.h

pcbplot.h

plotter.h

RPT_SEVERITY_ERROR
@ RPT_SEVERITY_ERROR
Definition report_severity.h:35

RPT_SEVERITY_ACTION
@ RPT_SEVERITY_ACTION
Definition report_severity.h:33

reporter.h

GetStandardColors
const std::vector< FAB_LAYER_COLOR > & GetStandardColors(BOARD_STACKUP_ITEM_TYPE aType)
Definition stackup_predefined_prms.cpp:94

stackup_predefined_prms.h

output
nlohmann::json output
Definition test_pip_benchmark.cpp:837

end
VECTOR2I end
Definition test_shape_arc.cpp:622

PCB_VIA_T
@ PCB_VIA_T
class PCB_VIA, a via (like a track segment on a copper layer)
Definition typeinfo.h:90

wildcards_and_files_ext.h
Definition of file extensions used in Kicad.

zone.h