kicad/common/plotters/GERBER_plotter.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2019 Jean-Pierre Charras, jp.charras at wanadoo.fr
* Copyright (C) 2019 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, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
/**
* @file GERBER_plotter.cpp
* @brief specialized plotter for GERBER files format
*/
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#include <fctsys.h>
#include <gr_basic.h>
#include <trigo.h>
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#include <eda_base_frame.h>
#include <base_struct.h>
#include <common.h>
#include <plotter.h>
#include <macros.h>
#include <kicad_string.h>
#include <convert_basic_shapes_to_polygon.h>
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#include <build_version.h>
#include <gbr_metadata.h>
GERBER_PLOTTER::GERBER_PLOTTER()
{
workFile = NULL;
finalFile = NULL;
currentAperture = apertures.end();
m_apertureAttribute = 0;
// number of digits after the point (number of digits of the mantissa
// Be carefull: the Gerber coordinates are stored in an integer
// so 6 digits (inches) or 5 digits (mm) is a good value
// To avoid overflow, 7 digits (inches) or 6 digits is a max.
// with lower values than 6 digits (inches) or 5 digits (mm),
// Creating self-intersecting polygons from non-intersecting polygons
// happen easily.
m_gerberUnitInch = false;
m_gerberUnitFmt = 6;
m_useX2format = true;
m_useNetAttributes = true;
}
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void GERBER_PLOTTER::SetViewport( const wxPoint& aOffset, double aIusPerDecimil,
double aScale, bool aMirror )
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{
wxASSERT( aMirror == false );
m_plotMirror = false;
plotOffset = aOffset;
wxASSERT( aScale == 1 ); // aScale parameter is not used in Gerber
plotScale = 1; // Plot scale is *always* 1.0
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m_IUsPerDecimil = aIusPerDecimil;
// gives now a default value to iuPerDeviceUnit (because the units of the caller is now known)
// which could be modified later by calling SetGerberCoordinatesFormat()
iuPerDeviceUnit = pow( 10.0, m_gerberUnitFmt ) / ( m_IUsPerDecimil * 10000.0 );
// 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
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}
void GERBER_PLOTTER::SetGerberCoordinatesFormat( int aResolution, bool aUseInches )
{
m_gerberUnitInch = aUseInches;
m_gerberUnitFmt = aResolution;
iuPerDeviceUnit = pow( 10.0, m_gerberUnitFmt ) / ( m_IUsPerDecimil * 10000.0 );
if( ! m_gerberUnitInch )
iuPerDeviceUnit *= 25.4; // gerber output in mm
}
void GERBER_PLOTTER::emitDcode( const DPOINT& pt, int dcode )
{
fprintf( outputFile, "X%dY%dD%02d*\n",
KiROUND( pt.x ), KiROUND( pt.y ), dcode );
}
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void GERBER_PLOTTER::ClearAllAttributes()
{
// Remove all attributes from object attributes dictionary (TO. and TA commands)
if( m_useX2format )
fputs( "%TD*%\n", outputFile );
else
fputs( "G04 #@! TD*\n", outputFile );
m_objectAttributesDictionnary.clear();
}
void GERBER_PLOTTER::clearNetAttribute()
{
// disable a Gerber net attribute (exists only in X2 with net attributes mode).
if( m_objectAttributesDictionnary.empty() ) // No net attribute or not X2 mode
return;
// Remove all net attributes from object attributes dictionary
if( m_useX2format )
fputs( "%TD*%\n", outputFile );
else
fputs( "G04 #@! TD*\n", outputFile );
m_objectAttributesDictionnary.clear();
}
void GERBER_PLOTTER::StartBlock( void* aData )
{
// Currently, it is the same as EndBlock(): clear all aperture net attributes
EndBlock( aData );
}
void GERBER_PLOTTER::EndBlock( void* aData )
{
// Remove all net attributes from object attributes dictionary
clearNetAttribute();
}
void GERBER_PLOTTER::formatNetAttribute( GBR_NETLIST_METADATA* aData )
{
// print a Gerber net attribute record.
// it is added to the object attributes dictionary
// On file, only modified or new attributes are printed.
if( aData == NULL )
return;
if( !m_useNetAttributes )
return;
bool useX1StructuredComment = !m_useX2format;
bool clearDict;
std::string short_attribute_string;
if( !FormatNetAttribute( short_attribute_string, m_objectAttributesDictionnary,
aData, clearDict, useX1StructuredComment ) )
return;
if( clearDict )
clearNetAttribute();
if( !short_attribute_string.empty() )
fputs( short_attribute_string.c_str(), outputFile );
if( m_useX2format && !aData->m_ExtraData.IsEmpty() )
{
std::string extra_data = TO_UTF8( aData->m_ExtraData );
fputs( extra_data.c_str(), outputFile );
}
}
bool GERBER_PLOTTER::StartPlot()
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{
wxASSERT( outputFile );
finalFile = outputFile; // the actual gerber file will be created later
// 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;
for( unsigned ii = 0; ii < m_headerExtraLines.GetCount(); ii++ )
{
if( ! m_headerExtraLines[ii].IsEmpty() )
fprintf( outputFile, "%s\n", TO_UTF8( m_headerExtraLines[ii] ) );
}
// Set coordinate format to 3.6 or 4.5 absolute, leading zero omitted
// the number of digits for the integer part of coordinates is needed
// in gerber format, but is not very important when omitting leading zeros
// It is fixed here to 3 (inch) or 4 (mm), but is not actually used
int leadingDigitCount = m_gerberUnitInch ? 3 : 4;
fprintf( outputFile, "%%FSLAX%d%dY%d%d*%%\n",
leadingDigitCount, m_gerberUnitFmt,
leadingDigitCount, m_gerberUnitFmt );
fprintf( outputFile,
"G04 Gerber Fmt %d.%d, Leading zero omitted, Abs format (unit %s)*\n",
leadingDigitCount, m_gerberUnitFmt,
m_gerberUnitInch ? "inch" : "mm" );
wxString Title = creator + wxT( " " ) + GetBuildVersion();
// In gerber files, ASCII7 chars only are allowed.
// So use a ISO date format (using a space as separator between date and time),
// not a localized date format
wxDateTime date = wxDateTime::Now();
fprintf( outputFile, "G04 Created by KiCad (%s) date %s*\n",
TO_UTF8( Title ), TO_UTF8( date.FormatISOCombined( ' ') ) );
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/* Mass parameter: unit = INCHES/MM */
if( m_gerberUnitInch )
fputs( "%MOIN*%\n", outputFile );
else
fputs( "%MOMM*%\n", outputFile );
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// Be sure the usual dark polarity is selected:
fputs( "%LPD*%\n", outputFile );
fputs( "G04 APERTURE LIST*\n", outputFile );
return true;
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}
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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;
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// Placement of apertures in RS274X
while( fgets( line, 1024, workFile ) )
{
fputs( line, outputFile );
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char* substr = strtok( line, "\n\r" );
if( substr && strcmp( substr, "G04 APERTURE LIST*" ) == 0 )
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{
writeApertureList();
fputs( "G04 APERTURE END LIST*\n", outputFile );
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}
}
fclose( workFile );
fclose( finalFile );
::wxRemoveFile( m_workFilename );
outputFile = 0;
return true;
}
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void GERBER_PLOTTER::SetDefaultLineWidth( int width )
{
defaultPenWidth = width;
currentAperture = apertures.end();
}
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void GERBER_PLOTTER::SetCurrentLineWidth( int width, void* aData )
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{
if( width == DO_NOT_SET_LINE_WIDTH )
return;
int pen_width;
if( width > 0 )
pen_width = width;
else
pen_width = defaultPenWidth;
GBR_METADATA* gbr_metadata = static_cast<GBR_METADATA*>( aData );
int aperture_attribute = gbr_metadata ? gbr_metadata->GetApertureAttrib() : 0;
selectAperture( wxSize( pen_width, pen_width ), APERTURE::AT_PLOTTING, aperture_attribute );
currentPenWidth = pen_width;
}
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std::vector<APERTURE>::iterator GERBER_PLOTTER::getAperture( const wxSize& aSize,
APERTURE::APERTURE_TYPE aType, int aApertureAttribute )
{
int last_D_code = 9;
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// Search an existing aperture
std::vector<APERTURE>::iterator tool = apertures.begin();
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while( tool != apertures.end() )
{
last_D_code = tool->m_DCode;
if( (tool->m_Type == aType) && (tool->m_Size == aSize) &&
(tool->m_ApertureAttribute == aApertureAttribute) )
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return tool;
++tool;
}
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// Allocate a new aperture
APERTURE new_tool;
new_tool.m_Size = aSize;
new_tool.m_Type = aType;
new_tool.m_DCode = last_D_code + 1;
new_tool.m_ApertureAttribute = aApertureAttribute;
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apertures.push_back( new_tool );
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return apertures.end() - 1;
}
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void GERBER_PLOTTER::selectAperture( const wxSize& aSize,
APERTURE::APERTURE_TYPE aType,
int aApertureAttribute )
{
bool change = ( currentAperture == apertures.end() ) ||
( currentAperture->m_Type != aType ) ||
( currentAperture->m_Size != aSize );
if( !m_useNetAttributes )
aApertureAttribute = 0;
else
change = change || ( currentAperture->m_ApertureAttribute != aApertureAttribute );
if( change )
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{
// Pick an existing aperture or create a new one
currentAperture = getAperture( aSize, aType, aApertureAttribute );
fprintf( outputFile, "D%d*\n", currentAperture->m_DCode );
}
}
void GERBER_PLOTTER::selectAperture( int aDiameter, double aPolygonRotation,
APERTURE::APERTURE_TYPE aType, int aApertureAttribute )
{
// Pick an existing aperture or create a new one, matching the
// aDiameter, aPolygonRotation, type and attributes for type =
// AT_REGULAR_POLY3 to AT_REGULAR_POLY12
wxASSERT( aType>= APERTURE::APERTURE_TYPE::AT_REGULAR_POLY3 &&
aType <= APERTURE::APERTURE_TYPE::AT_REGULAR_POLY12 );
// To use selectAperture( size, ... ) calculate a equivalent aperture size:
// for AT_REGULAR_POLYxx the parameter APERTURE::m_Size contains
// aDiameter (in m_Size.x) and aPolygonRotation in 1/1000 degree (in m_Size.y)
wxSize size( aDiameter, (int)( aPolygonRotation * 1000.0 ) );
selectAperture( size, aType, aApertureAttribute );
}
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void GERBER_PLOTTER::writeApertureList()
{
wxASSERT( outputFile );
char cbuf[1024];
bool useX1StructuredComment = false;
if( !m_useX2format )
useX1StructuredComment = true;
// Init
for( std::vector<APERTURE>::iterator tool = apertures.begin();
tool != apertures.end(); ++tool )
{
// apertude sizes are in inch or mm, regardless the
// coordinates format
double fscale = 0.0001 * plotScale / m_IUsPerDecimil; // inches
if(! m_gerberUnitInch )
fscale *= 25.4; // size in mm
int attribute = tool->m_ApertureAttribute;
if( attribute != m_apertureAttribute )
{
fputs( GBR_APERTURE_METADATA::FormatAttribute(
(GBR_APERTURE_METADATA::GBR_APERTURE_ATTRIB) attribute,
useX1StructuredComment ).c_str(), outputFile );
}
char* text = cbuf + sprintf( cbuf, "%%ADD%d", tool->m_DCode );
/* Please note: the Gerber specs for mass parameters say that
exponential syntax is *not* allowed and the decimal point should
also be always inserted. So the %g format is ruled out, but %f is fine
(the # modifier forces the decimal point). Sadly the %f formatter
can't remove trailing zeros but thats not a problem, since nothing
forbid it (the file is only slightly longer) */
switch( tool->m_Type )
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{
case APERTURE::AT_CIRCLE:
sprintf( text, "C,%#f*%%\n", tool->GetDiameter() * fscale );
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break;
case APERTURE::AT_RECT:
sprintf( text, "R,%#fX%#f*%%\n", tool->m_Size.x * fscale,
tool->m_Size.y * fscale );
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break;
case APERTURE::AT_PLOTTING:
sprintf( text, "C,%#f*%%\n", tool->m_Size.x * fscale );
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break;
case APERTURE::AT_OVAL:
sprintf( text, "O,%#fX%#f*%%\n", tool->m_Size.x * fscale,
tool->m_Size.y * fscale );
break;
case APERTURE::AT_REGULAR_POLY:
case APERTURE::AT_REGULAR_POLY3:
case APERTURE::AT_REGULAR_POLY4:
case APERTURE::AT_REGULAR_POLY5:
case APERTURE::AT_REGULAR_POLY6:
case APERTURE::AT_REGULAR_POLY7:
case APERTURE::AT_REGULAR_POLY8:
case APERTURE::AT_REGULAR_POLY9:
case APERTURE::AT_REGULAR_POLY10:
case APERTURE::AT_REGULAR_POLY11:
case APERTURE::AT_REGULAR_POLY12:
sprintf( text, "P,%#fX%dX%#f*%%\n", tool->GetDiameter() * fscale,
tool->GetVerticeCount(), tool->GetRotation() );
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break;
}
fputs( cbuf, outputFile );
m_apertureAttribute = attribute;
// Currently reset the aperture attribute. Perhaps a better optimization
// is to store the last attribute
if( attribute )
{
if( m_useX2format )
fputs( "%TD*%\n", outputFile );
else
fputs( "G04 #@! TD*\n", outputFile );
m_apertureAttribute = 0;
}
}
}
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void GERBER_PLOTTER::PenTo( const wxPoint& aPos, char plume )
{
wxASSERT( outputFile );
DPOINT pos_dev = userToDeviceCoordinates( aPos );
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switch( plume )
{
case 'Z':
break;
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case 'U':
emitDcode( pos_dev, 2 );
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break;
case 'D':
emitDcode( pos_dev, 1 );
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}
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penState = plume;
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}
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void GERBER_PLOTTER::Rect( const wxPoint& p1, const wxPoint& p2, FILL_T fill, int width )
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{
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 );
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}
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void GERBER_PLOTTER::Circle( const wxPoint& aCenter, int aDiameter, FILL_T aFill, int aWidth )
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{
Arc( aCenter, 0, 3600, aDiameter / 2, aFill, aWidth );
}
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void GERBER_PLOTTER::Arc( const wxPoint& aCenter, double aStAngle, double aEndAngle,
int aRadius, FILL_T aFill, int aWidth )
{
SetCurrentLineWidth( aWidth );
wxPoint start, end;
start.x = aCenter.x + KiROUND( cosdecideg( aRadius, aStAngle ) );
start.y = aCenter.y - KiROUND( sindecideg( aRadius, aStAngle ) );
MoveTo( start );
end.x = aCenter.x + KiROUND( cosdecideg( aRadius, aEndAngle ) );
end.y = aCenter.y - KiROUND( sindecideg( aRadius, aEndAngle ) );
DPOINT devEnd = userToDeviceCoordinates( end );
DPOINT devCenter = userToDeviceCoordinates( aCenter ) - userToDeviceCoordinates( start );
fprintf( outputFile, "G75*\n" ); // Multiquadrant (360 degrees) mode
if( aStAngle < aEndAngle )
fprintf( outputFile, "G03" );
else
fprintf( outputFile, "G02" );
fprintf( outputFile, "X%dY%dI%dJ%dD01*\n",
KiROUND( devEnd.x ), KiROUND( devEnd.y ),
KiROUND( devCenter.x ), KiROUND( devCenter.y ) );
fprintf( outputFile, "G01*\n" ); // Back to linear interpol (perhaps useless here).
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}
void GERBER_PLOTTER::PlotGerberRegion( const std::vector< wxPoint >& aCornerList,
void * aData )
{
if( aCornerList.size() <= 2 )
return;
GBR_METADATA* gbr_metadata = static_cast<GBR_METADATA*>( aData );
bool clearTA_AperFunction = false; // true if a TA.AperFunction is used
if( gbr_metadata )
{
std::string attrib = gbr_metadata->m_ApertureMetadata.FormatAttribute( !m_useX2format );
if( !attrib.empty() )
{
fputs( attrib.c_str(), outputFile );
clearTA_AperFunction = true;
}
}
PlotPoly( aCornerList, FILLED_SHAPE, 0 , gbr_metadata );
// Clear the TA attribute, to avoid the next item to inherit it:
if( clearTA_AperFunction )
{
if( m_useX2format )
{
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fputs( "%TD.AperFunction*%\n", outputFile );
}
else
{
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fputs( "G04 #@! TD.AperFunction*\n", outputFile );
}
}
}
void GERBER_PLOTTER::PlotPoly( const std::vector< wxPoint >& aCornerList,
FILL_T aFill, int aWidth, void * aData )
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{
if( aCornerList.size() <= 1 )
return;
// Gerber format does not know filled polygons with thick outline
// Therefore, to plot a filled polygon with outline having a thickness,
// one should plot outline as thick segments
GBR_METADATA* gbr_metadata = static_cast<GBR_METADATA*>( aData );
if( gbr_metadata )
formatNetAttribute( &gbr_metadata->m_NetlistMetadata );
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if( aFill )
{
fputs( "G36*\n", outputFile );
MoveTo( aCornerList[0] );
fputs( "G01*\n", outputFile ); // Set linear interpolation.
for( unsigned ii = 1; ii < aCornerList.size(); ii++ )
LineTo( aCornerList[ii] );
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// If the polygon is not closed, close it:
if( aCornerList[0] != aCornerList[aCornerList.size()-1] )
FinishTo( aCornerList[0] );
fputs( "G37*\n", outputFile );
}
if( aWidth > 0 ) // Draw the polyline/polygon outline
{
SetCurrentLineWidth( aWidth, gbr_metadata );
MoveTo( aCornerList[0] );
for( unsigned ii = 1; ii < aCornerList.size(); ii++ )
LineTo( aCornerList[ii] );
// Ensure the thick outline is closed for filled polygons
// (if not filled, could be only a polyline)
if( aFill && ( aCornerList[aCornerList.size()-1] != aCornerList[0] ) )
LineTo( aCornerList[0] );
PenFinish();
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}
}
void GERBER_PLOTTER::ThickSegment( const wxPoint& start, const wxPoint& end, int width,
EDA_DRAW_MODE_T tracemode, void* aData )
{
if( tracemode == FILLED )
{
GBR_METADATA *gbr_metadata = static_cast<GBR_METADATA*>( aData );
SetCurrentLineWidth( width, gbr_metadata );
if( gbr_metadata )
formatNetAttribute( &gbr_metadata->m_NetlistMetadata );
MoveTo( start );
FinishTo( end );
}
else
{
SetCurrentLineWidth( USE_DEFAULT_LINE_WIDTH );
segmentAsOval( start, end, width, tracemode );
}
}
void GERBER_PLOTTER::ThickArc( const wxPoint& centre, double StAngle, double EndAngle,
int radius, int width, EDA_DRAW_MODE_T tracemode, void* aData )
{
GBR_METADATA *gbr_metadata = static_cast<GBR_METADATA*>( aData );
SetCurrentLineWidth( width, gbr_metadata );
if( gbr_metadata )
formatNetAttribute( &gbr_metadata->m_NetlistMetadata );
if( tracemode == FILLED )
Arc( centre, StAngle, EndAngle, radius, NO_FILL, DO_NOT_SET_LINE_WIDTH );
else
{
SetCurrentLineWidth( USE_DEFAULT_LINE_WIDTH );
Arc( centre, StAngle, EndAngle,
radius - ( width - currentPenWidth ) / 2,
NO_FILL, DO_NOT_SET_LINE_WIDTH );
Arc( centre, StAngle, EndAngle,
radius + ( width - currentPenWidth ) / 2, NO_FILL,
DO_NOT_SET_LINE_WIDTH );
}
}
void GERBER_PLOTTER::ThickRect( const wxPoint& p1, const wxPoint& p2, int width,
EDA_DRAW_MODE_T tracemode, void* aData )
{
GBR_METADATA *gbr_metadata = static_cast<GBR_METADATA*>( aData );
SetCurrentLineWidth( width, gbr_metadata );
if( gbr_metadata )
formatNetAttribute( &gbr_metadata->m_NetlistMetadata );
if( tracemode == FILLED )
Rect( p1, p2, NO_FILL, DO_NOT_SET_LINE_WIDTH );
else
{
SetCurrentLineWidth( USE_DEFAULT_LINE_WIDTH );
wxPoint offsetp1( p1.x - (width - currentPenWidth) / 2,
p1.y - (width - currentPenWidth) / 2 );
wxPoint offsetp2( p2.x + (width - currentPenWidth) / 2,
p2.y + (width - currentPenWidth) / 2 );
Rect( offsetp1, offsetp2, NO_FILL, -1 );
offsetp1.x += (width - currentPenWidth);
offsetp1.y += (width - currentPenWidth);
offsetp2.x -= (width - currentPenWidth);
offsetp2.y -= (width - currentPenWidth);
Rect( offsetp1, offsetp2, NO_FILL, DO_NOT_SET_LINE_WIDTH );
}
}
void GERBER_PLOTTER::ThickCircle( const wxPoint& pos, int diametre, int width,
EDA_DRAW_MODE_T tracemode, void* aData )
{
GBR_METADATA *gbr_metadata = static_cast<GBR_METADATA*>( aData );
SetCurrentLineWidth( width, gbr_metadata );
if( gbr_metadata )
formatNetAttribute( &gbr_metadata->m_NetlistMetadata );
if( tracemode == FILLED )
Circle( pos, diametre, NO_FILL, DO_NOT_SET_LINE_WIDTH );
else
{
SetCurrentLineWidth( USE_DEFAULT_LINE_WIDTH, gbr_metadata );
Circle( pos, diametre - (width - currentPenWidth),
NO_FILL, DO_NOT_SET_LINE_WIDTH );
Circle( pos, diametre + (width - currentPenWidth),
NO_FILL, DO_NOT_SET_LINE_WIDTH );
}
}
void GERBER_PLOTTER::FlashPadCircle( const wxPoint& pos, int diametre, EDA_DRAW_MODE_T trace_mode, void* aData )
{
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wxSize size( diametre, diametre );
GBR_METADATA* gbr_metadata = static_cast<GBR_METADATA*>( aData );
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if( trace_mode == SKETCH )
{
SetCurrentLineWidth( USE_DEFAULT_LINE_WIDTH, gbr_metadata );
if( gbr_metadata )
formatNetAttribute( &gbr_metadata->m_NetlistMetadata );
Circle( pos, diametre - currentPenWidth, NO_FILL, DO_NOT_SET_LINE_WIDTH );
}
else
{
DPOINT pos_dev = userToDeviceCoordinates( pos );
int aperture_attrib = gbr_metadata ? gbr_metadata->GetApertureAttrib() : 0;
selectAperture( size, APERTURE::AT_CIRCLE, aperture_attrib );
if( gbr_metadata )
formatNetAttribute( &gbr_metadata->m_NetlistMetadata );
emitDcode( pos_dev, 3 );
}
}
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void GERBER_PLOTTER::FlashPadOval( const wxPoint& pos, const wxSize& aSize, double orient,
EDA_DRAW_MODE_T trace_mode, void* aData )
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{
wxASSERT( outputFile );
wxSize size( aSize );
GBR_METADATA* gbr_metadata = static_cast<GBR_METADATA*>( aData );
// Flash a vertical or horizontal shape (this is a basic aperture).
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if( ( orient == 0 || orient == 900 || orient == 1800 || orient == 2700 )
&& trace_mode == FILLED )
{
if( orient == 900 || orient == 2700 ) /* orientation turned 90 deg. */
std::swap( size.x, size.y );
DPOINT pos_dev = userToDeviceCoordinates( pos );
int aperture_attrib = gbr_metadata ? gbr_metadata->GetApertureAttrib() : 0;
selectAperture( size, APERTURE::AT_OVAL, aperture_attrib );
if( gbr_metadata )
formatNetAttribute( &gbr_metadata->m_NetlistMetadata );
emitDcode( pos_dev, 3 );
}
else // Plot pad as region.
// Only regions and flashed items accept a object attribute TO.P for the pin name
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{
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if( size.x > size.y )
{
std::swap( size.x, size.y );
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if( orient < 2700 )
orient += 900;
else
orient -= 2700;
}
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if( trace_mode == FILLED )
{
// TODO: use an aperture macro to declare the rotated pad
// to be able to flash the shape
// For now, the pad is drawn as polygon (region in Gerber dialect),
// with TO attributes of a flased pad
// The pad is reduced to an segment with dy > dx
int delta = size.y - size.x;
int x0 = 0;
int y0 = -delta / 2;
int x1 = 0;
int y1 = delta / 2;
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RotatePoint( &x0, &y0, orient );
RotatePoint( &x1, &y1, orient );
SHAPE_POLY_SET outline;
// Max error to approximate arcs by segments
// Currently 2 micrometers give a good approximation
double iu_per_micron = m_IUsPerDecimil / 2.54;
int arc_approx_error = KiROUND( iu_per_micron * 2 );
TransformOvalToPolygon( outline,
wxPoint( pos.x + x0, pos.y + y0 ),
wxPoint( pos.x + x1, pos.y + y1 ),
size.x, arc_approx_error );
std::vector<wxPoint> cornerList;
for( int ii = 0; ii < outline.Outline(0).PointCount(); ++ii )
{
VECTOR2I& point = outline.Outline(0).Point( ii );
cornerList.emplace_back( wxPoint( point.x, point.y ) );
}
PlotGerberRegion( cornerList, gbr_metadata );
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}
else
sketchOval( pos, size, orient, -1 );
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}
}
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void GERBER_PLOTTER::FlashPadRect( const wxPoint& pos, const wxSize& aSize,
double orient, EDA_DRAW_MODE_T trace_mode, void* aData )
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{
wxASSERT( outputFile );
wxSize size( aSize );
GBR_METADATA* gbr_metadata = static_cast<GBR_METADATA*>( aData );
// Plot as an aperture flash
switch( int( orient ) )
{
case 900:
case 2700: // rotation of 90 degrees or 270 swaps sizes
std::swap( size.x, size.y );
// Pass through
case 0:
case 1800:
if( trace_mode == SKETCH )
{
SetCurrentLineWidth( USE_DEFAULT_LINE_WIDTH, gbr_metadata );
if( gbr_metadata )
formatNetAttribute( &gbr_metadata->m_NetlistMetadata );
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, GetCurrentLineWidth() );
}
else
{
DPOINT pos_dev = userToDeviceCoordinates( pos );
int aperture_attrib = gbr_metadata ? gbr_metadata->GetApertureAttrib() : 0;
selectAperture( size, APERTURE::AT_RECT, aperture_attrib );
if( gbr_metadata )
formatNetAttribute( &gbr_metadata->m_NetlistMetadata );
emitDcode( pos_dev, 3 );
}
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, aData );
}
break;
}
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}
void GERBER_PLOTTER::FlashPadRoundRect( const wxPoint& aPadPos, const wxSize& aSize,
int aCornerRadius, double aOrient,
EDA_DRAW_MODE_T aTraceMode, void* aData )
{
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GBR_METADATA* gbr_metadata = static_cast<GBR_METADATA*>( aData );
// Currently, a Pad RoundRect is plotted as polygon.
// TODO: use Aperture macro and flash it
SHAPE_POLY_SET outline;
TransformRoundChamferedRectToPolygon( outline, aPadPos, aSize, aOrient,
aCornerRadius, 0.0, 0, GetPlotterArcHighDef() );
if( aTraceMode != FILLED )
{
SetCurrentLineWidth( USE_DEFAULT_LINE_WIDTH, &gbr_metadata );
outline.Inflate( -GetCurrentLineWidth()/2, 16 );
}
std::vector< wxPoint > cornerList;
// TransformRoundRectToPolygon creates only one convex polygon
SHAPE_LINE_CHAIN& poly = outline.Outline( 0 );
cornerList.reserve( poly.PointCount() + 1 );
for( int ii = 0; ii < poly.PointCount(); ++ii )
cornerList.push_back( wxPoint( poly.Point( ii ).x, poly.Point( ii ).y ) );
// Close polygon
cornerList.push_back( cornerList[0] );
if( aTraceMode == SKETCH )
PlotPoly( cornerList, NO_FILL, GetCurrentLineWidth(), gbr_metadata );
else
PlotGerberRegion( cornerList, gbr_metadata );
}
void GERBER_PLOTTER::FlashPadCustom( const wxPoint& aPadPos, const wxSize& aSize,
SHAPE_POLY_SET* aPolygons,
EDA_DRAW_MODE_T aTraceMode, void* aData )
{
// A Pad custom is plotted as polygon (a region in Gerber language).
GBR_METADATA gbr_metadata;
if( aData )
gbr_metadata = *static_cast<GBR_METADATA*>( aData );
SHAPE_POLY_SET polyshape = *aPolygons;
if( aTraceMode != FILLED )
{
SetCurrentLineWidth( USE_DEFAULT_LINE_WIDTH, &gbr_metadata );
polyshape.Inflate( -GetCurrentLineWidth()/2, 16 );
}
std::vector< wxPoint > cornerList;
for( int cnt = 0; cnt < polyshape.OutlineCount(); ++cnt )
{
SHAPE_LINE_CHAIN& poly = polyshape.Outline( cnt );
cornerList.clear();
for( int ii = 0; ii < poly.PointCount(); ++ii )
cornerList.push_back( wxPoint( poly.Point( ii ).x, poly.Point( ii ).y ) );
// Close polygon
cornerList.push_back( cornerList[0] );
if( aTraceMode == SKETCH )
PlotPoly( cornerList, NO_FILL, GetCurrentLineWidth(), &gbr_metadata );
else
PlotGerberRegion( cornerList, &gbr_metadata );
}
}
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void GERBER_PLOTTER::FlashPadTrapez( const wxPoint& aPadPos, const wxPoint* aCorners,
double aPadOrient, EDA_DRAW_MODE_T aTrace_Mode, void* aData )
{
// TODO: use Aperture macro and flash it
// 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] );
GBR_METADATA* gbr_metadata = static_cast<GBR_METADATA*>( aData );
GBR_METADATA metadata;
if( gbr_metadata )
metadata = *gbr_metadata;
if( aTrace_Mode == SKETCH )
PlotPoly( cornerList, NO_FILL, USE_DEFAULT_LINE_WIDTH,
&metadata );
else
PlotGerberRegion( cornerList, &metadata );
}
void GERBER_PLOTTER::FlashRegularPolygon( const wxPoint& aShapePos,
int aDiameter, int aCornerCount,
double aOrient, EDA_DRAW_MODE_T aTraceMode,
void* aData )
{
GBR_METADATA* gbr_metadata = static_cast<GBR_METADATA*>( aData );
if( aTraceMode == SKETCH )
{
// Build the polygon:
std::vector< wxPoint > cornerList;
double angle_delta = 3600.0 / aCornerCount; // in 0.1 degree
for( int ii = 0; ii < aCornerCount; ii++ )
{
double rot = aOrient + (angle_delta*ii);
wxPoint vertice( aDiameter/2, 0 );
RotatePoint( &vertice, rot );
vertice += aShapePos;
cornerList.push_back( vertice );
}
cornerList.push_back( cornerList[0] ); // Close the shape
SetCurrentLineWidth( aDiameter/8, gbr_metadata );
PlotPoly( cornerList, NO_FILL, GetCurrentLineWidth(), gbr_metadata );
}
else
{
DPOINT pos_dev = userToDeviceCoordinates( aShapePos );
int aperture_attrib = gbr_metadata ? gbr_metadata->GetApertureAttrib() : 0;
APERTURE::APERTURE_TYPE apert_type =
(APERTURE::APERTURE_TYPE)(APERTURE::AT_REGULAR_POLY3 + aCornerCount - 3);
selectAperture( aDiameter, aOrient, apert_type, aperture_attrib );
if( gbr_metadata )
formatNetAttribute( &gbr_metadata->m_NetlistMetadata );
emitDcode( pos_dev, 3 );
}
}
void GERBER_PLOTTER::Text( const wxPoint& aPos, const COLOR4D aColor,
const wxString& aText, double aOrient, const wxSize& aSize,
enum EDA_TEXT_HJUSTIFY_T aH_justify, enum EDA_TEXT_VJUSTIFY_T aV_justify,
int aWidth, bool aItalic, bool aBold, bool aMultilineAllowed,
void* aData )
{
GBR_METADATA* gbr_metadata = static_cast<GBR_METADATA*>( aData );
if( gbr_metadata )
formatNetAttribute( &gbr_metadata->m_NetlistMetadata );
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PLOTTER::Text( aPos, aColor, aText, aOrient, aSize,
aH_justify, aV_justify, aWidth, aItalic, aBold, aMultilineAllowed, aData );
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}
void GERBER_PLOTTER::SetLayerPolarity( bool aPositive )
{
if( aPositive )
fprintf( outputFile, "%%LPD*%%\n" );
else
fprintf( outputFile, "%%LPC*%%\n" );
}