kicad/new/sch_sweet_parser.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
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*
* Copyright (C) 2011 SoftPLC Corporation, Dick Hollenbeck <dick@softplc.com>
* Copyright (C) 2010 KiCad Developers, see change_log.txt for contributors.
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*
* 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 <sch_sweet_parser.h>
#include <sch_part.h>
#include <sch_lib_table.h>
#include <sch_lpid.h>
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#include <macros.h>
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using namespace SCH;
using namespace PR;
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#define MAX_INHERITANCE_NESTING 6 ///< max depth of inheritance, no problem going larger
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static inline int internal( const STRING& aCoord )
{
return LogicalToInternal( strtod( aCoord.c_str(), NULL ) );
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}
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static inline int fromWidth( const STRING& aWidth )
{
return WidthToInternal( strtod( aWidth.c_str(), NULL ) );
}
static inline int fromFontz( const STRING& aFontSize )
{
return FontzToInternal( strtod( aFontSize.c_str(), NULL ) );
}
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/**
* Enum PartBit
* is a set of bit positions that can be used to create flag bits within
* PART::contains to indicate what state the PART is in and what it contains, i.e.
* whether the PART has been parsed, and what the PART contains, categorically.
*/
enum PartBit
{
parsed, ///< have parsed this part already, otherwise 'body' text must be parsed
extends, ///< saw "extends" keyword, inheriting from another PART
value,
anchor,
reference,
footprint,
datasheet,
model,
keywords,
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};
/// Function PB
/// is a PartBit shifter for PART::contains field.
static inline const int PB( PartBit oneBitOnly )
{
return ( 1 << oneBitOnly );
}
void SWEET_PARSER::Parse( PART* me, LIB_TABLE* aTable ) throw( IO_ERROR, PARSE_ERROR )
{
T tok;
libs = aTable;
// empty everything out, could be re-parsing this object and it may not be empty.
me->clear();
#if 0
// Be flexible regarding the starting point of the stream.
// Caller may not have read the first two tokens out of the
// stream: T_LEFT and T_part, so ignore them if seen here.
// The 1st two tokens T_LEFT and T_part are then optional in the grammar.
if( ( tok = NextTok() ) == T_LEFT )
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{
if( ( tok = NextTok() ) != T_part )
Expecting( T_part );
}
#else
// "( part" are not optional
NeedLEFT();
if( ( tok = NextTok() ) != T_part )
Expecting( T_part );
#endif
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NeedSYMBOLorNUMBER(); // toss NAME_HINT
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tok = NextTok();
// extends must be _first_ thing, if it is present at all, after NAME_HINT
if( tok == T_extends )
{
parseExtends( me );
tok = NextTok();
}
for( ; tok!=T_RIGHT; tok = NextTok() )
{
if( tok == T_LEFT )
{
PROPERTY* prop;
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tok = NextTok();
// because exceptions are thrown, any 'new' allocation has to be stored
// somewhere other than on the stack, ASAP.
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switch( tok )
{
default:
// describe what we expect at this level
Expecting(
"anchor|value|footprint|model|keywords|alternates\n"
"|property\n"
" |property_del\n"
"|pin\n"
" |pin_merge|pin_swap|pin_renum|pin_rename|route_pin_swap\n"
"|polyline|line|rectangle|circle|arc|bezier|text"
);
break;
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case T_anchor:
if( contains & PB(anchor) )
Duplicate( tok );
NeedNUMBER( "anchor x" );
me->anchor.x = internal( CurText() );
NeedNUMBER( "anchor y" );
me->anchor.y = internal( CurText() );
contains |= PB(anchor);
break;
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case T_line:
case T_polyline:
POLY_LINE* pl;
pl = new POLY_LINE( me );
me->graphics.push_back( pl );
parsePolyLine( pl );
break;
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case T_rectangle:
RECTANGLE* rect;
rect = new RECTANGLE( me );
me->graphics.push_back( rect );
parseRectangle( rect );
break;
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case T_circle:
CIRCLE* circ;
circ = new CIRCLE( me );
me->graphics.push_back( circ );
parseCircle( circ );
break;
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case T_arc:
ARC* arc;
arc = new ARC( me );
me->graphics.push_back( arc );
parseArc( arc );
break;
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case T_bezier:
BEZIER* bezier;
bezier = new BEZIER( me );
me->graphics.push_back( bezier );
parseBezier( bezier );
break;
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case T_text:
GR_TEXT* text;
text = new GR_TEXT( me );
me->graphics.push_back( text );
parseText( text );
break;
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case T_property:
prop = new PROPERTY( me );
// @todo check for uniqueness
me->properties.push_back( prop );
NeedSYMBOLorNUMBER();
prop->name = FromUTF8();
L_prop:
NeedSYMBOLorNUMBER();
prop->text = FromUTF8();
tok = NextTok();
if( tok == T_LEFT )
{
tok = NextTok();
if( tok != T_effects )
Expecting( T_effects );
parseTextEffects( prop->EffectsLookup() );
NeedRIGHT();
}
else if( tok != T_RIGHT )
Expecting( ") | effects" );
break;
case T_property_del:
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parsePropertyDel( me );
break;
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// reference in a PART is incomplete, it is just the prefix of an
// unannotated reference. Only components have full reference designators.
case T_reference:
if( contains & PB(reference) )
Duplicate( tok );
contains |= PB(reference);
prop = me->FieldLookup( PART::REFERENCE );
goto L_prop;
case T_value:
if( contains & PB(value) )
Duplicate( tok );
contains |= PB(value);
prop = me->FieldLookup( PART::VALUE );
goto L_prop;
case T_footprint:
if( contains & PB(footprint) )
Duplicate( tok );
contains |= PB(footprint);
prop = me->FieldLookup( PART::FOOTPRINT );
goto L_prop;
case T_datasheet:
if( contains & PB(datasheet) )
Duplicate( tok );
contains |= PB(datasheet);
prop = me->FieldLookup( PART::DATASHEET );
goto L_prop;
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case T_model:
if( contains & PB(model) )
Duplicate( tok );
contains |= PB(model);
prop = me->FieldLookup( PART::MODEL );
goto L_prop;
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case T_keywords:
parseKeywords( me );
break;
case T_alternates:
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// @todo: do we want to inherit alternates?
parseAlternates( me );
break;
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case T_pin:
// @todo PADNAMEs must be unique
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PIN* pin;
pin = new PIN( me );
me->pins.push_back( pin );
parsePin( pin );
break;
case T_pin_del:
parsePinDel( me );
break;
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case T_pin_swap:
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parsePinSwap( me );
break;
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case T_pin_renum:
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parsePinRenum( me );
break;
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case T_pin_rename:
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parsePinRename( me );
break;
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case T_pin_merge:
parsePinMerge( me );
break;
/*
@todo
case T_route_pin_swap:
break;
*/
}
}
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else
{
switch( tok )
{
default:
Unexpected( tok );
}
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}
}
contains |= PB(parsed);
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me->contains |= contains;
}
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void SWEET_PARSER::parseExtends( PART* me )
{
PART* base;
int offset;
if( contains & PB(extends) )
Duplicate( T_extends );
NeedSYMBOLorNUMBER();
me->setExtends( new LPID() );
offset = me->extends->Parse( CurText() );
if( offset > -1 ) // -1 is success
THROW_PARSE_ERROR( _("invalid extends LPID"),
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() + offset );
base = libs->LookupPart( *me->extends, me->Owner() );
// we could be going in circles here, recursively, or too deep, set limits
// and disallow extending from self (even indirectly)
int extendsDepth = 0;
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for( const PART* ancestor = base; ancestor && extendsDepth<MAX_INHERITANCE_NESTING;
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++extendsDepth, ancestor = ancestor->base )
{
if( ancestor == me )
{
THROW_PARSE_ERROR( _("'extends' may not have self as any ancestor"),
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() );
}
}
if( extendsDepth == MAX_INHERITANCE_NESTING )
{
THROW_PARSE_ERROR( _("max allowed extends depth exceeded"),
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() );
}
me->inherit( *base );
me->base = base;
contains |= PB(extends);
}
void SWEET_PARSER::parseAlternates( PART* me )
{
T tok;
PART_REF lpid;
int offset;
while( ( tok = NextTok() ) != T_RIGHT )
{
if( !IsSymbol( tok ) && tok != T_NUMBER )
Expecting( "lpid" );
// lpid.clear(); Parse does this
offset = lpid.Parse( CurText() );
if( offset > -1 )
THROW_PARSE_ERROR( _("invalid alternates LPID"),
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() + offset );
// PART_REF assignment should be OK, it contains no ownership
me->alternates.push_back( lpid );
}
}
void SWEET_PARSER::parseKeywords( PART* me )
{
T tok;
while( ( tok = NextTok() ) != T_RIGHT )
{
if( !IsSymbol( tok ) && tok!=T_NUMBER )
Expecting( "symbol|number" );
// just insert them, duplicates are silently removed and tossed.
me->keywords.insert( FromUTF8() );
}
}
void SWEET_PARSER::parseFont( FONT* me )
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{
/*
# The FONT value needs to be defined. Currently, EESchema does not support
# different fonts. In the future this feature may be implemented and at
# that time FONT will have to be defined. Initially, only the font size and
# style are required. Italic and bold styles are optional. The font size
# height and width are in units yet to be determined.
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(font [FONT] (size HEIGHT WIDTH) [italic] [bold])
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*/
// handle the [FONT] 'position dependently', i.e. first
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T tok = NextTok();
bool sawBold = false;
bool sawItalic = false;
bool sawSize = false;
if( IsSymbol( tok ) )
{
me->name = FromUTF8();
tok = NextTok();
}
for( ; tok != T_RIGHT; tok = NextTok() )
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{
if( tok == T_LEFT )
{
tok = NextTok();
switch( tok )
{
case T_size:
if( sawSize )
Duplicate( T_size );
sawSize = true;
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NeedNUMBER( "size height" );
me->size.height = fromFontz( CurText() );
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NeedNUMBER( "size width" );
me->size.width = fromFontz( CurText() );
NeedRIGHT();
break;
default:
Expecting( "size" );
}
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}
else
{
switch( tok )
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{
case T_bold:
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if( sawBold )
Duplicate( T_bold );
sawBold = true;
me->bold = true;
break;
case T_italic:
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if( sawItalic )
Duplicate( T_italic );
sawItalic = true;
me->italic = true;
break;
default:
Unexpected( "bold|italic" );
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}
}
}
}
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void SWEET_PARSER::parseBool( bool* aBool )
{
T tok = NeedSYMBOL();
switch( tok )
{
case T_yes:
case T_no:
*aBool = (tok == T_yes);
break;
default:
Expecting( "yes|no" );
}
}
void SWEET_PARSER::parseStroke( STROKE* me )
{
/*
(stroke [WIDTH] [(style [(dashed...)]...)])
future place holder for arrow heads, dashed lines, all line glamour
*/
NeedNUMBER( "stroke" );
*me = fromWidth( CurText() );
NeedRIGHT();
}
void SWEET_PARSER::parsePinText( PINTEXT* me )
{
/* either:
(signal SIGNAL (font [FONT] (size HEIGHT WIDTH) [italic] [bold])(visible YES))
or
(pad PADNAME (font [FONT] (size HEIGHT WIDTH) [italic] [bold])(visible YES))
*/
T tok;
bool sawFont = false;
bool sawVis = false;
// pad or signal text
NeedSYMBOLorNUMBER();
me->text = FromUTF8();
while( ( tok = NextTok() ) != T_RIGHT )
{
if( tok == T_LEFT )
{
tok = NextTok();
switch( tok )
{
case T_font:
if( sawFont )
Duplicate( tok );
sawFont = true;
parseFont( &me->font );
break;
case T_visible:
if( sawVis )
Duplicate( tok );
sawVis = true;
parseBool( &me->isVisible );
NeedRIGHT();
break;
default:
Expecting( "font" );
}
}
else
{
switch( tok )
{
default:
Expecting( T_LEFT );
}
}
}
}
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void SWEET_PARSER::parsePin( PIN* me )
{
/*
(pin TYPE SHAPE
(at X Y [ANGLE])
(length LENGTH)
(signal NAME (font [FONT] (size HEIGHT WIDTH) [italic] [bold])(visible YES))
(pad NUMBER (font [FONT] (size HEIGHT WIDTH) [italic] [bold] (visible YES))
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(visible YES)
)
*/
T tok;
bool sawShape = false;
bool sawType = false;
bool sawAt = false;
bool sawLen = false;
bool sawSignal = false;
bool sawPad = false;
bool sawVis = false;
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while( ( tok = NextTok() ) != T_RIGHT )
{
if( tok == T_LEFT )
{
tok = NextTok();
switch( tok )
{
case T_at:
if( sawAt )
Duplicate( tok );
sawAt = true;
parseAt( &me->pos, &me->angle );
break;
case T_length:
if( sawLen )
Duplicate( tok );
sawLen = true;
NeedNUMBER( "length" );
me->length = internal( CurText() );
NeedRIGHT();
break;
case T_signal:
if( sawSignal )
Duplicate( tok );
sawSignal = true;
parsePinText( &me->signal );
break;
case T_pad:
if( sawPad )
Duplicate( tok );
sawPad = true;
parsePinText( &me->pad );
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break;
case T_visible:
if( sawVis )
Duplicate( tok );
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sawVis = true;
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parseBool( &me->isVisible );
NeedRIGHT();
break;
default:
Unexpected( tok );
}
}
else // not wrapped in parentheses
{
switch( tok )
{
case T_in:
case T_out:
case T_inout:
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case T_tristate:
case T_passive:
case T_unspecified:
case T_power_in:
case T_power_out:
case T_open_collector:
case T_open_emitter:
case T_unconnected:
if( sawType )
Duplicate( tok );
sawType = true;
me->connectionType = tok;
break;
case T_none:
case T_line:
case T_inverted:
case T_clock:
case T_inverted_clk:
case T_input_low:
case T_clock_low:
case T_falling_edge:
case T_non_logic:
if( sawShape )
Duplicate( tok );
sawShape = true;
me->shape = tok;
break;
default:
Unexpected( tok );
}
}
}
}
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void SWEET_PARSER::parsePinDel( PART* me )
{
wxString pad;
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// we do this somewhat unorthodoxically because we want to avoid doing two lookups,
// which would need to be done to 1) find pin, and 2) delete pin. Only one
// lookup is needed with this scheme.
NeedSYMBOLorNUMBER();
pad = FromUTF8();
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// lookup now while CurOffset() is still meaningful.
PINS::iterator it = me->pinFindByPad( pad );
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if( it == me->pins.end() )
{
THROW_PARSE_ERROR( _("undefined pin"),
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() );
}
/* enable in future, but not now while testing
if( (*it)->birthplace == me )
{
THROW_PARSE_ERROR( _("pin_del allowed for inherited pins only"),
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() );
}
*/
NeedRIGHT();
delete *it; // good thing I'm a friend.
me->pins.erase( it );
}
void SWEET_PARSER::parsePinSwap( PART* me )
{
PIN* pin1;
PIN* pin2;
wxString pad;
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NeedSYMBOLorNUMBER();
pad = FromUTF8();
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// lookup now while CurOffset() is still meaningful.
pin1 = me->PinFindByPad( pad );
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if( !pin1 )
{
THROW_PARSE_ERROR( _("undefined pin"),
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() );
}
NeedSYMBOLorNUMBER();
pad = FromUTF8();
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pin2 = me->PinFindByPad( pad );
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if( !pin2 )
{
THROW_PARSE_ERROR( _("undefined pin"),
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() );
}
NeedRIGHT();
// swap only the text, but might want to swap entire PIN_TEXTs
pin2->pad.text = pin1->pad.text;
pin1->pad.text = pad;
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}
void SWEET_PARSER::parsePinRenum( PART* me )
{
PIN* pin;
wxString oldPad;
wxString newPad;
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NeedSYMBOLorNUMBER();
oldPad = FromUTF8();
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// lookup now while CurOffset() is still meaningful.
pin = me->PinFindByPad( oldPad );
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if( !pin )
{
THROW_PARSE_ERROR( _("undefined pin"),
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() );
}
NeedSYMBOLorNUMBER();
newPad = FromUTF8();
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NeedRIGHT();
// @todo: check for pad legalities
pin->pad.text = newPad;
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}
void SWEET_PARSER::parsePinRename( PART* me )
{
PIN* pin;
wxString pad;
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wxString newSignal;
NeedSYMBOLorNUMBER();
pad = FromUTF8();
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// lookup now while CurOffset() is still meaningful.
pin = me->PinFindByPad( pad );
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if( !pin )
{
THROW_PARSE_ERROR( _("undefined pin"),
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() );
}
NeedSYMBOLorNUMBER();
newSignal = FromUTF8();
NeedRIGHT();
pin->signal.text = newSignal;
}
void SWEET_PARSER::parsePinMerge( PART* me )
{
T tok;
wxString pad;
wxString signal;
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wxString msg;
NeedSYMBOLorNUMBER();
wxString anchorPad = FromUTF8();
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// lookup now while CurOffset() is still good.
PINS::iterator pit = me->pinFindByPad( anchorPad );
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if( pit == me->pins.end() )
{
msg.Printf( _( "undefined pin %s" ), anchorPad.GetData() );
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THROW_PARSE_ERROR( msg,
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() );
}
if( !(*pit)->pin_merge.IsEmpty() && anchorPad != (*pit)->pin_merge )
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{
msg.Printf( _( "pin %s already in pin_merge group %s" ),
anchorPad.GetData(), (*pit)->pin_merge.GetData() );
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THROW_PARSE_ERROR( msg,
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() );
}
(*pit)->isVisible = true;
(*pit)->pin_merge = anchorPad;
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// allocate or find a MERGE_SET;
MERGE_SET& ms = me->pin_merges[anchorPad];
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while( ( tok = NextTok() ) != T_RIGHT )
{
if( tok == T_LEFT )
{
tok = NextTok();
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switch( tok )
{
case T_signals:
{
PINS sigPins; // no ownership
while( ( tok = NextTok() ) != T_RIGHT )
{
if( !IsSymbol( tok ) && tok != T_NUMBER )
Expecting( "signal" );
signal = FromUTF8();
sigPins.clear();
me->PinsFindBySignal( &sigPins, signal );
if( !sigPins.size() )
{
msg.Printf( _( "no pins with signal %s" ), signal.GetData() );
THROW_PARSE_ERROR( msg,
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() );
}
for( pit = sigPins.begin(); pit != sigPins.end(); ++pit )
{
if( !(*pit)->pin_merge.IsEmpty() && anchorPad != (*pit)->pin_merge )
{
msg.Printf( _( "signal pin %s already in pin_merge group %s" ),
pad.GetData(), (*pit)->pin_merge.GetData() );
THROW_PARSE_ERROR( msg,
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() );
}
(*pit)->isVisible = true;
(*pit)->pin_merge = anchorPad;
ms.insert( pad );
}
}
}
break;
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case T_pads:
while( ( tok = NextTok() ) != T_RIGHT )
{
if( !IsSymbol( tok ) && tok != T_NUMBER )
Expecting( "pad" );
pad = FromUTF8();
D(printf("pad=%s\n", TO_UTF8( pad ) );)
// find the PIN and mark it as being in this MERGE_SET or throw
// error if already in another MERGET_SET.
pit = me->pinFindByPad( pad );
if( pit == me->pins.end() )
{
msg.Printf( _( "undefined pin %s" ), pad.GetData() );
THROW_PARSE_ERROR( msg,
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() );
}
if( !(*pit)->pin_merge.IsEmpty() /* && anchorPad != (*pit)->pin_merge */ )
{
msg.Printf( _( "pin %s already in pin_merge group %s" ),
pad.GetData(), (*pit)->pin_merge.GetData() );
THROW_PARSE_ERROR( msg,
CurSource(),
CurLine(),
CurLineNumber(),
CurOffset() );
}
(*pit)->isVisible = false;
(*pit)->pin_merge = anchorPad;
ms.insert( pad );
}
break;
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default:
Expecting( "pads|signals" );
break;
}
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}
else
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{
Expecting( T_LEFT );
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}
}
}
void SWEET_PARSER::parsePropertyDel( PART* me )
{
NeedSYMBOLorNUMBER();
wxString propertyName = FromUTF8();
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if( !me->PropDelete( propertyName ) )
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{
wxString msg;
msg.Printf( _( "Unable to find property: %s" ), propertyName.GetData() );
THROW_IO_ERROR( msg );
}
NeedRIGHT();
}
void SWEET_PARSER::parseTextEffects( TEXT_EFFECTS* me )
{
/*
(effects [PROPERTY]
# Position requires X and Y coordinates. Position coordinates can be
# non-intergr. Angle is in degrees and defaults to 0 if not defined.
(at X Y [ANGLE])
# The FONT value needs to be defined. Currently, EESchema does not support
# different fonts. In the future this feature may be implemented and at
# that time FONT will have to be defined. Initially, only the font size and
# style are required. Italic and bold styles are optional. The font size
# height and width are in units yet to be determined.
(font [FONT] (size HEIGHT WIDTH) [italic] [bold])
# Valid visibility values are yes and no.
(visible YES)
)
*/
bool sawFont = false;
bool sawAt = false;
bool sawVis = false;
T tok = NextTok();
if( IsSymbol( tok ) )
{
me->propName = FromUTF8();
tok = NextTok();
}
for( ; tok != T_RIGHT; tok = NextTok() )
{
if( tok != T_LEFT )
Expecting( T_LEFT );
tok = NextTok();
switch( tok )
{
case T_at:
if( sawAt )
Duplicate( tok );
sawAt = true;
parseAt( &me->pos, &me->angle );
break;
case T_font:
if( sawFont )
Duplicate( tok );
sawFont = true;
parseFont( &me->font );
break;
case T_visible:
if( sawVis )
Duplicate( sawVis );
sawVis = true;
parseBool( &me->isVisible );
NeedRIGHT();
break;
default:
Expecting( "at|font|visible" );
}
}
}
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void SWEET_PARSER::parsePolyLine( POLY_LINE* me )
{
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/*
(polyline|line
(pts (xy X Y) (xy X Y) (xy X Y) (xy X Y) (xy X Y))
# Line widths are in percent of a pin delta
[(stroke [WIDTH] [(style [(dashed...)]...)])]
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# Valid fill types are none, filled, and transparent.
(fill FILL_TYPE)
)
*/
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T tok;
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int count = 0;
bool sawStroke = false;
bool sawFill = false;
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while( ( tok = NextTok() ) != T_RIGHT )
{
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if( tok != T_LEFT )
Expecting( T_LEFT );
tok = NextTok();
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switch( tok )
{
case T_stroke:
if( sawStroke )
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Duplicate( tok );
sawStroke = true;
parseStroke( &me->stroke );
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break;
case T_pts:
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if( count )
Duplicate( tok );
for( ; ( tok = NextTok() ) != T_RIGHT; ++count )
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{
if( tok != T_LEFT )
Expecting( T_LEFT );
tok = NeedSYMBOL();
if( tok != T_xy )
Expecting( T_xy );
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me->pts.push_back( POINT() );
NeedNUMBER( "x" );
me->pts.back().x = internal( CurText() );
NeedNUMBER( "y" );
me->pts.back().y = internal( CurText() );
NeedRIGHT();
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}
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if( count < 2 )
Expecting( ">= 2 pts" );
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break;
case T_fill:
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if( sawFill )
Duplicate( tok );
tok = NeedSYMBOL();
switch( tok )
{
case T_none:
case T_filled:
case T_transparent:
me->fillType = tok;
break;
default:
Expecting( "none|filled|transparent" );
}
NeedRIGHT();
sawFill = true;
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break;
default:
Expecting( "pts|stroke|fill" );
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}
}
}
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void SWEET_PARSER::parseBezier( BEZIER* me )
{
parsePolyLine( me );
}
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void SWEET_PARSER::parseRectangle( RECTANGLE* me )
{
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/*
(rectangle (start X Y) (end X Y) (stroke WIDTH) (fill FILL_TYPE))
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*/
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T tok;
bool sawStart = false;
bool sawEnd = false;
bool sawStroke = false;
bool sawFill = false;
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while( ( tok = NextTok() ) != T_RIGHT )
{
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if( tok != T_LEFT )
Expecting( T_LEFT );
tok = NextTok();
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switch( tok )
{
case T_stroke:
if( sawStroke )
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Duplicate( tok );
sawStroke = true;
parseStroke( &me->stroke );
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break;
case T_fill:
if( sawFill )
Duplicate( tok );
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sawFill = true;
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tok = NeedSYMBOL();
switch( tok )
{
case T_none:
case T_filled:
case T_transparent:
me->fillType = tok;
break;
default:
Expecting( "none|filled|transparent" );
}
NeedRIGHT();
break;
case T_start:
if( sawStart )
Duplicate( tok );
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sawStart = true;
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NeedNUMBER( "x" );
me->start.x = internal( CurText() );
NeedNUMBER( "y" );
me->start.y = internal( CurText() );
NeedRIGHT();
break;
case T_end:
if( sawEnd )
Duplicate( tok );
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sawEnd = true;
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NeedNUMBER( "x" );
me->end.x = internal( CurText() );
NeedNUMBER( "y" );
me->end.y = internal( CurText() );
NeedRIGHT();
break;
default:
Expecting( "start|end|stroke|fill" );
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}
}
}
void SWEET_PARSER::parseCircle( CIRCLE* me )
{
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/*
(circle (center X Y)
# Radius length is in units if defined or mils.
(radius LENGTH)
(stroke WIDTH)
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(fill FILL_TYPE)
)
*/
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T tok;
bool sawCenter = false;
bool sawRadius = false;
bool sawStroke = false;
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bool sawFill = false;
while( ( tok = NextTok() ) != T_RIGHT )
{
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if( tok != T_LEFT )
Expecting( T_LEFT );
tok = NextTok();
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switch( tok )
{
case T_stroke:
if( sawStroke )
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Duplicate( tok );
sawStroke = true;
parseStroke( &me->stroke );
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break;
case T_fill:
if( sawFill )
Duplicate( tok );
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sawFill = true;
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tok = NeedSYMBOL();
switch( tok )
{
case T_none:
case T_filled:
case T_transparent:
me->fillType = tok;
break;
default:
Expecting( "none|filled|transparent" );
}
NeedRIGHT();
break;
case T_center:
if( sawCenter )
Duplicate( tok );
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sawCenter = true;
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NeedNUMBER( "center x" );
me->center.x = internal( CurText() );
NeedNUMBER( "center y" );
me->center.y = internal( CurText() );
NeedRIGHT();
break;
case T_radius:
if( sawRadius )
Duplicate( tok );
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sawRadius = true;
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NeedNUMBER( "radius" );
me->radius = internal( CurText() );
NeedRIGHT();
break;
default:
Expecting( "center|radius|stroke|fill" );
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}
}
}
void SWEET_PARSER::parseArc( ARC* me )
{
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/*
(arc (pos X Y) (radius RADIUS) (start X Y) (end X Y)
(stroke WIDTH)
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(fill FILL_TYPE)
)
*/
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T tok;
bool sawPos = false;
bool sawStart = false;
bool sawEnd = false;
bool sawRadius = false;
bool sawStroke = false;
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bool sawFill = false;
while( ( tok = NextTok() ) != T_RIGHT )
{
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if( tok != T_LEFT )
Expecting( T_LEFT );
tok = NextTok();
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switch( tok )
{
case T_stroke:
if( sawStroke )
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Duplicate( tok );
sawStroke = true;
parseStroke( &me->stroke );
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break;
case T_fill:
if( sawFill )
Duplicate( tok );
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sawFill = true;
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tok = NeedSYMBOL();
switch( tok )
{
case T_none:
case T_filled:
case T_transparent:
me->fillType = tok;
break;
default:
Expecting( "none|filled|transparent" );
}
NeedRIGHT();
break;
case T_pos:
if( sawPos )
Duplicate( tok );
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sawPos = true;
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NeedNUMBER( "pos x" );
me->pos.x = internal( CurText() );
NeedNUMBER( "pos y" );
me->pos.y = internal( CurText() );
NeedRIGHT();
break;
case T_radius:
if( sawRadius )
Duplicate( tok );
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sawRadius = true;
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NeedNUMBER( "radius" );
me->radius = internal( CurText() );
NeedRIGHT();
break;
case T_start:
if( sawStart )
Duplicate( tok );
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sawStart = true;
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NeedNUMBER( "start x" );
me->start.x = internal( CurText() );
NeedNUMBER( "start y" );
me->start.y = internal( CurText() );
NeedRIGHT();
break;
case T_end:
if( sawEnd )
Duplicate( tok );
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sawEnd = true;
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NeedNUMBER( "end x" );
me->end.x = internal( CurText() );
NeedNUMBER( "end y" );
me->end.y = internal( CurText() );
NeedRIGHT();
break;
default:
Expecting( "center|radius|stroke|fill" );
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}
}
}
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void SWEET_PARSER::parseAt( POINT* pos, float* angle )
{
T tok;
NeedNUMBER( "at x" );
pos->x = internal( CurText() );
NeedNUMBER( "at y" );
pos->y = internal( CurText() );
tok = NextTok();
if( angle && tok == T_NUMBER )
{
*angle = strtod( CurText(), NULL );
tok = NextTok();
}
if( tok != T_RIGHT )
Expecting( T_RIGHT );
}
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void SWEET_PARSER::parseText( GR_TEXT* me )
{
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/*
(text "This is the text that gets drawn."
(at X Y [ANGLE])
# Valid horizontal justification values are center, right, and left. Valid
# vertical justification values are center, top, bottom.
(justify HORIZONTAL_JUSTIFY VERTICAL_JUSTIFY)
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(font [FONT] (size HEIGHT WIDTH) [italic] [bold])
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(visible YES)
(fill FILL_TYPE)
)
*/
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T tok;
bool sawAt = false;
bool sawFill = false;
bool sawFont = false;
bool sawVis = false;
bool sawJust = false;
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bool sawText = false;
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while( ( tok = NextTok() ) != T_RIGHT )
{
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if( tok == T_LEFT )
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{
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tok = NextTok();
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switch( tok )
{
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case T_at:
if( sawAt )
Duplicate( tok );
parseAt( &me->pos, &me->angle );
sawAt = true;
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break;
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case T_fill:
if( sawFill )
Duplicate( tok );
tok = NeedSYMBOL();
switch( tok )
{
case T_none:
case T_filled:
case T_transparent:
me->fillType = tok;
break;
default:
Expecting( "none|filled|transparent" );
}
NeedRIGHT();
sawFill = true;
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break;
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case T_justify:
if( sawJust )
Duplicate( tok );
tok = NeedSYMBOL();
switch( tok )
{
case T_center:
case T_right:
case T_left:
me->hjustify = tok;
break;
default:
Expecting( "center|right|left" );
}
tok = NeedSYMBOL();
switch( tok )
{
case T_center:
case T_top:
case T_bottom:
me->vjustify = tok;
break;
default:
Expecting( "center|top|bottom" );
}
NeedRIGHT();
sawJust = true;
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break;
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case T_visible:
if( sawVis )
Duplicate( tok );
parseBool( &me->isVisible );
NeedRIGHT();
sawVis = true;
break;
case T_font:
if( sawFont )
Duplicate( tok );
sawFont = true;
parseFont( &me->font );
break;
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default:
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Expecting( "at|justify|font|visible|fill" );
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}
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}
else
{
if( !IsSymbol( tok ) && tok != T_NUMBER )
Expecting( T_STRING );
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if( sawText )
Duplicate( tok );
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sawText = true;
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me->text = wxString::FromUTF8( CurText() );
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}
}
}