/* * This program source code file is part of KiCad, a free EDA CAD application. * * Copyright (C) 2011 SoftPLC Corporation, Dick Hollenbeck * Copyright (C) 2010 KiCad Developers, see change_log.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 */ #include // _() #include #include #include #include #include /** * Function formatAt * outputs a formatted "(at X Y [ANGLE])" s-expression */ static void formatAt( OUTPUTFORMATTER* out, const SCH::POINT& aPos, ANGLE aAngle, int indent=0 ) throw( IO_ERROR ) { // if( aPos.x || aPos.y || aAngle ) { out->Print( indent, aAngle!=0.0 ? "(at %.6g %.6g %.6g)" : "(at %.6g %.6g)", InternalToLogical( aPos.x ), InternalToLogical( aPos.y ), double( aAngle ) ); } } static void formatStroke( OUTPUTFORMATTER* out, STROKE aStroke, int indent=0 ) throw( IO_ERROR ) { if( aStroke == STROKE_DEFAULT ) out->Print( indent, "(stroke %.6g)", InternalToWidth( aStroke ) ); } using namespace SCH; PART::PART( LIB* aOwner, const STRING& aPartNameAndRev ) : owner( aOwner ), contains( 0 ), partNameAndRev( aPartNameAndRev ), extends( 0 ), base( 0 ) { // Our goal is to have class LIB only instantiate what is needed, so print here // what it is doing. It is the only class where PART can be instantiated. D(printf("PART::PART(%s)\n", aPartNameAndRev.c_str() );) for( int i=REFERENCE; itext = wxT( "U?" ); break; case VALUE: p = new PROPERTY( this, wxT( "value" ) ); break; case FOOTPRINT: p = new PROPERTY( this, wxT( "footprint" ) ); break; case DATASHEET: p = new PROPERTY( this, wxT( "datasheet" ) ); break; case MODEL: p = new PROPERTY( this, wxT( "model" ) ); break; default: ; } mandatory[aPropertyId] = p; } return p; } PROPERTY& PROPERTY::operator = ( const PROPERTY& r ) { *(BASE_GRAPHIC*) this = (BASE_GRAPHIC&) r; name = r.name; text = r.text; delete effects; if( r.effects ) effects = new TEXT_EFFECTS( *r.effects ); else effects = 0; return *this; } PINS::iterator PART::pinFindByPad( const wxString& aPad ) { PINS::iterator it; for( it = pins.begin(); it != pins.end(); ++it ) { if( (*it)->pad.text == aPad ) break; } return it; } void PART::PinsFindBySignal( PIN_LIST* aResults, const wxString& aSignal ) { for( PINS::const_iterator it = pins.begin(); it != pins.end(); ++it ) { if( (*it)->signal.text == aSignal ) { aResults->push_back( *it ); } } } bool PART::PinDelete( const wxString& aPad ) { PINS::iterator it = pinFindByPad( aPad ); if( it != pins.end() ) { delete *it; pins.erase( it ); return true; } // there is only one reason this can fail: not found: return false; } PART::~PART() { clear(); } void PART::setExtends( LPID* aLPID ) { delete extends; extends = aLPID; } void PART::inherit( const PART& r ) { // Inherit can be called at any time, even from an interactive text // editor, so cannot assume 'this' object is new. Clear it. clear(); // copy anything inherited, such as drawables, properties, pins, etc. here contains = r.contains; base = &r; anchor = r.anchor; for( int i=REFERENCE; iClone( this ); } for( PROPERTIES::const_iterator it = r.properties.begin(); it != r.properties.end(); ++it ) properties.push_back( (PROPERTY*) (*it)->Clone( this ) ); for( GRAPHICS::const_iterator it = r.graphics.begin(); it != r.graphics.end(); ++it ) graphics.push_back( (*it)->Clone( this ) ); for( PINS::const_iterator it = r.pins.begin(); it != r.pins.end(); ++it ) pins.push_back( (PIN*) (*it)->Clone( this ) ); /* not sure about this concept yet: for( PART_REFS::const_iterator it = r.alternates.begin(); it != r.alternates.end(); ++it ) alternates.push_back( *it ); */ for( KEYWORDS::const_iterator it = r.keywords.begin(); it != r.keywords.end(); ++it ) keywords.insert( *it ); for( MERGE_SETS::const_iterator it = r.pin_merges.begin(); it != r.pin_merges.end(); ++it ) { pin_merges[ *it->first ] = * new MERGE_SET( *it->second ); } } PART& PART::operator=( const PART& r ) { // maintain in concert with inherit(), which is a partial assignment operator. inherit( r ); owner = r.owner; partNameAndRev = r.partNameAndRev; body = r.body; base = r.base; setExtends( r.extends ? new LPID( *r.extends ) : 0 ); return *this; } void PART::Parse( SWEET_PARSER* aParser , LIB_TABLE* aTable ) throw( IO_ERROR, PARSE_ERROR ) { aParser->Parse( this, aTable ); } bool PART::PropDelete( const wxString& aPropertyName ) { PROPERTIES::iterator it = propertyFind( aPropertyName ); if( it != properties.end() ) { delete *it; properties.erase( it ); return true; } return false; } PROPERTIES::iterator PART::propertyFind( const wxString& aPropertyName ) { PROPERTIES::iterator it; for( it = properties.begin(); it!=properties.end(); ++it ) if( (*it)->name == aPropertyName ) break; return it; } void PART::Format( OUTPUTFORMATTER* out, int indent, int ctl ) const throw( IO_ERROR ) { out->Print( indent, "(part %s", partNameAndRev.c_str() ); if( extends ) out->Print( 0, " inherits %s", extends->Format().c_str() ); out->Print( 0, "\n" ); for( int i = REFERENCE; i < END; ++i ) { PROPERTY* prop = Field( PROP_ID( i ) ); if( prop ) prop->Format( out, indent+1, ctl ); } for( PROPERTIES::const_iterator it = properties.begin(); it != properties.end(); ++it ) { (*it)->Format( out, indent+1, ctl ); } if( anchor.x || anchor.y ) { out->Print( indent+1, "(anchor (at %.6g %.6g))\n", InternalToLogical( anchor.x ), InternalToLogical( anchor.y ) ); } if( keywords.size() ) { out->Print( indent+1, "(keywords" ); for( KEYWORDS::iterator it = keywords.begin(); it != keywords.end(); ++it ) out->Print( 0, " %s", out->Quotew( *it ).c_str() ); out->Print( 0, ")\n" ); } for( GRAPHICS::const_iterator it = graphics.begin(); it != graphics.end(); ++it ) { (*it)->Format( out, indent+1, ctl ); } for( PINS::const_iterator it = pins.begin(); it != pins.end(); ++it ) { (*it)->Format( out, indent+1, ctl ); } if( alternates.size() ) { out->Print( indent+1, "(alternates" ); for( PART_REFS::const_iterator it = alternates.begin(); it!=alternates.end(); ++it ) out->Print( 0, " %s", out->Quotes( it->Format() ).c_str() ); out->Print( 0, ")\n" ); } for( MERGE_SETS::const_iterator mit = pin_merges.begin(); mit != pin_merges.end(); ++mit ) { out->Print( indent+1, "(pin_merge %s (pads", out->Quotew( mit->first ).c_str() ); const MERGE_SET& mset = *mit->second; for( MERGE_SET::const_iterator pit = mset.begin(); pit != mset.end(); ++pit ) { out->Print( 0, " %s", out->Quotew( *pit ).c_str() ); } out->Print( 0, "))\n" ); } out->Print( indent, ")\n" ); } //-----< PART objects >------------------------------------------------------ void PROPERTY::Format( OUTPUTFORMATTER* out, int indent, int ctl ) const throw( IO_ERROR ) { wxASSERT( owner ); // all PROPERTYs should have an owner. int i; for( i = PART::REFERENCE; i < PART::END; ++i ) { if( owner->Field( PART::PROP_ID(i) ) == this ) break; } if( i < PART::END ) // is a field not a property out->Print( indent, "(%s", TO_UTF8( name ) ); else out->Print( indent, "(property %s", out->Quotew( name ).c_str() ); if( effects ) { out->Print( 0, " %s\n", out->Quotew( text ).c_str() ); effects->Format( out, indent+1, ctl | CTL_OMIT_NL ); out->Print( 0, ")\n" ); } else { out->Print( 0, " %s)\n", out->Quotew( text ).c_str() ); } } TEXT_EFFECTS* PROPERTY::EffectsLookup() { if( !effects ) { effects = new TEXT_EFFECTS(); } return effects; } void TEXT_EFFECTS::Format( OUTPUTFORMATTER* out, int indent, int ctl ) const throw( IO_ERROR ) { if( propName.IsEmpty() ) out->Print( indent, "(effects " ); else out->Print( indent, "(effects %s ", out->Quotew( propName ).c_str() ); formatAt( out, pos, angle ); font.Format( out, 0, ctl | CTL_OMIT_NL ); out->Print( 0, "(visible %s))%s", isVisible ? "yes" : "no", ctl & CTL_OMIT_NL ? "" : "\n" ); } void FONT::Format( OUTPUTFORMATTER* out, int indent, int ctl ) const throw( IO_ERROR ) { if( italic || bold || !name.IsEmpty() || size.height != FONTZ_DEFAULT || size.width != FONTZ_DEFAULT ) { if( name.IsEmpty() ) out->Print( indent, "(font " ); else out->Print( indent, "(font %s ", out->Quotew( name ).c_str() ); out->Print( 0, "(size %.6g %.6g)", InternalToFontz( size.height ), InternalToFontz( size.width ) ); if( italic ) out->Print( 0, " italic" ); if( bold ) out->Print( 0, " bold" ); out->Print( 0, ")%s", (ctl & CTL_OMIT_NL) ? "" : "\n" ); } } void PIN::Format( OUTPUTFORMATTER* out, int indent, int ctl ) const throw( IO_ERROR ) { bool hasSignal = !signal.text.IsEmpty(); bool hasPad = !pad.text.IsEmpty(); out->Print( indent, "(pin" ); if( connectionType != PIN_CONN_DEFAULT ) out->Print( 0, " %s", ShowType() ); if( shape != PIN_SHAPE_DEFAULT ) out->Print( 0, " %s", ShowShape() ); out->Print( 0, " " ); if( pos.x || pos.y || angle ) formatAt( out, pos, angle ); if( length != PIN_LEN_DEFAULT ) out->Print( 0, "(length %.6g)", InternalToLogical( length ) ); if( !isVisible ) out->Print( 0, "(visible %s)", isVisible ? "yes" : "no" ); if( hasSignal ) signal.Format( out, "signal", 0, CTL_OMIT_NL ); if( hasPad ) pad.Format( out, "pad", 0, CTL_OMIT_NL ); out->Print( 0, ")\n" ); } PIN::~PIN() { } void PINTEXT::Format( OUTPUTFORMATTER* out, const char* aElement, int indent, int ctl ) const throw( IO_ERROR ) { out->Print( indent, "(%s %s", aElement, out->Quotew( text ).c_str() ); font.Format( out, 0, CTL_OMIT_NL ); if( !isVisible ) out->Print( 0, " (visible %s)", isVisible ? "yes" : "no" ); out->Print( 0, ")%s", ctl & CTL_OMIT_NL ? "" : "\n" ); } void POLY_LINE::Format( OUTPUTFORMATTER* out, int indent, int ctl ) const throw( IO_ERROR ) { out->Print( indent, "(%s ", pts.size() == 2 ? "line" : "polyline" ); formatContents( out, indent, ctl ); } void POLY_LINE::formatContents( OUTPUTFORMATTER* out, int indent, int ctl ) const throw( IO_ERROR ) { formatStroke( out, stroke ); if( fillType != PR::T_none ) out->Print( 0, "(fill %s)", ShowFill( fillType ) ); out->Print( 0, "\n" ); if( pts.size() ) { const int maxLength = 75; int len = 10; len += out->Print( indent+1, "(pts " ); for( POINTS::const_iterator it = pts.begin(); it != pts.end(); ++it ) { if( len > maxLength ) { len = 10; out->Print( 0, "\n" ); out->Print( indent+2, "(xy %.6g %.6g)", InternalToLogical( it->x ), InternalToLogical( it->y ) ); } else out->Print( 0, "(xy %.6g %.6g)", InternalToLogical( it->x ), InternalToLogical( it->y ) ); } out->Print( 0, ")" ); } out->Print( 0, ")\n" ); } void BEZIER::Format( OUTPUTFORMATTER* out, int indent, int ctl ) const throw( IO_ERROR ) { out->Print( indent, "(bezier " ); formatContents( out, indent, ctl ); // inherited from POLY_LINE } void RECTANGLE::Format( OUTPUTFORMATTER* out, int indent, int ctl ) const throw( IO_ERROR ) { // (rectangle (start X Y) (end X Y) [(stroke WIDTH)] (fill FILL_TYPE)) out->Print( indent, "(rectangle (start %.6g %.6g)(end %.6g %.6g)", InternalToLogical( start.x ), InternalToLogical( start.y ), InternalToLogical( end.x ), InternalToLogical( end.y ) ); formatStroke( out, stroke ); if( fillType != PR::T_none ) out->Print( 0, "(fill %s)", ShowFill( fillType ) ); out->Print( 0, ")\n" ); } void CIRCLE::Format( OUTPUTFORMATTER* out, int indent, int ctl ) const throw( IO_ERROR ) { /* (circle (center X Y)(radius LENGTH) [(stroke WIDTH)] (fill FILL_TYPE)) */ out->Print( indent, "(circle (center %.6g %.6g)(radius %.6g)", InternalToLogical( center.x ), InternalToLogical( center.y ), InternalToLogical( radius) ); formatStroke( out, stroke ); if( fillType != PR::T_none ) out->Print( 0, "(fill %s)", ShowFill( fillType ) ); out->Print( 0, ")\n" ); } void ARC::Format( OUTPUTFORMATTER* out, int indent, int ctl ) const throw( IO_ERROR ) { /* (arc (pos X Y)(radius RADIUS)(start X Y)(end X Y) [(stroke WIDTH)] (fill FILL_TYPE)) */ out->Print( indent, "(arc (pos %.6g %.6g)(radius %.6g)(start %.6g %.6g)(end %.6g %.6g)", InternalToLogical( pos.x ), InternalToLogical( pos.y ), InternalToLogical( radius), InternalToLogical( start.x ), InternalToLogical( start.y ), InternalToLogical( end.x ), InternalToLogical( end.y ) ); formatStroke( out, stroke ); if( fillType != PR::T_none ) out->Print( 0, "(fill %s)", ShowFill( fillType ) ); out->Print( 0, ")\n" ); } void GR_TEXT::Format( OUTPUTFORMATTER* out, int indent, int ctl ) const throw( IO_ERROR ) { /* (text "This is the text that gets drawn." (at X Y [ANGLE])(justify HORIZONTAL_JUSTIFY VERTICAL_JUSTIFY)(visible YES)(fill FILL_TYPE) (font [FONT] (size HEIGHT WIDTH) [italic] [bold]) ) */ out->Print( indent, "(text %s\n", out->Quotew( text ).c_str() ); formatAt( out, pos, angle, indent+1 ); if( hjustify != PR::T_left || vjustify != PR::T_bottom ) out->Print( 0, "(justify %s %s)", ShowJustify( hjustify ), ShowJustify( vjustify ) ); if( !isVisible ) out->Print( 0, "(visible %s)", isVisible ? "yes" : "no" ); if( fillType != PR::T_filled ) out->Print( 0, "(fill %s)", ShowFill( fillType ) ); font.Format( out, 0, CTL_OMIT_NL ); out->Print( 0, ")\n" ); }