30#include <boost/ptr_container/ptr_vector.hpp>
33#include <boost/ptr_container/ptr_set.hpp>
35#include <specctra_import_export/specctra_lexer.h>
121 return x==other.
x &&
y==other.
y;
126 return !( *
this == other );
167 out->
Print( nestLevel,
" %.6g %.6g",
x,
y );
191 out->
Print( nestLevel,
"(%s%s%s %s%s%s)\n",
192 quoteName,
name.c_str(), quoteName,
193 quoteValue,
value.c_str(), quoteValue );
217 const char*
Name()
const;
274 return sf.GetString();
298 ELEM( aType, aParent )
329 kids.push_back( aElem );
334 ELEM_ARRAY::auto_type ret =
kids.replace( aIndex, aElem );
335 return ret.release();
340 ELEM_ARRAY::auto_type ret =
kids.release(
kids.begin() + aIndex );
341 return ret.release();
418 ELEM( aType, aParent )
448 ELEM( T_rect, aParent )
471 const char* newline = nestLevel ?
"\n" :
"";
475 out->
Print( nestLevel,
"(%s %s%s%s %.6g %.6g %.6g %.6g)%s",
501 ELEM( aType, aParent )
519 out->
Print( 0,
"\n" );
522 for( STRINGS::const_iterator i =
m_rules.begin(); i !=
m_rules.end(); ++i )
523 out->
Print( nestLevel+1,
"%s\n", i->c_str() );
525 out->
Print( nestLevel,
")" );
528 if( nestLevel || !singleLine )
529 out->
Print( 0,
"\n" );
544 ELEM( T_layer_rule, aParent )
561 out->
Print( 0,
" %s%s%s", quote, i->c_str(), quote );
564 out->
Print( 0 ,
"\n" );
567 m_rule->Format( out, nestLevel+1 );
569 out->
Print( nestLevel,
")\n" );
592 ELEM( aType, aParent )
600 points.push_back( aPoint );
617 const char* newline = nestLevel ?
"\n" :
"";
621 const int RIGHTMARGIN = 70;
622 int perLine = out->
Print( nestLevel,
"(%s %s%s%s %.6g",
627 int wrapNest = std::max( nestLevel+1, 6 );
629 for(
unsigned i = 0; i <
points.size(); ++i )
631 if( perLine > RIGHTMARGIN )
633 out->
Print( 0,
"\n" );
634 perLine = out->
Print( wrapNest,
"%s",
"" );
638 perLine += out->
Print( 0,
" " );
646 out->
Print( 0,
"(aperture_type square)" );
649 out->
Print( 0,
")%s", newline );
662typedef boost::ptr_vector<PATH>
PATHS;
670 ELEM( aType, aParent )
687 aBuffer.push_back(
rectangle->GetOrigin().x );
688 aBuffer.push_back(
rectangle->GetOrigin().y );
690 aBuffer.push_back(
rectangle->GetOrigin().x );
691 aBuffer.push_back(
rectangle->GetEnd().y );
693 aBuffer.push_back(
rectangle->GetEnd().x );
694 aBuffer.push_back(
rectangle->GetEnd().y );
696 aBuffer.push_back(
rectangle->GetEnd().x );
697 aBuffer.push_back(
rectangle->GetOrigin().y );
701 for( PATHS::iterator i=
paths.begin(); i!=
paths.end(); ++i )
703 POINTS& plist = i->GetPoints();
705 for(
unsigned jj = 0; jj < plist.size(); jj++ )
707 aBuffer.push_back( plist[jj].x );
708 aBuffer.push_back( plist[jj].y );
717 out->
Print( nestLevel,
"(%s\n",
Name() );
723 for( PATHS::iterator i =
paths.begin(); i !=
paths.end(); ++i )
724 i->Format( out, nestLevel+1 );
727 out->
Print( nestLevel,
")\n" );
743 ELEM( T_circle, aParent )
750 const char* newline = nestLevel ?
"\n" :
"";
753 out->
Print( nestLevel,
"(%s %s%s%s %.6g",
Name(), quote,
layer_id.c_str(), quote,
759 out->
Print( 0,
")%s", newline );
791 ELEM( T_qarc, aParent )
798 const char* newline = nestLevel ?
"\n" :
"";
801 out->
Print( nestLevel,
"(%s %s%s%s %.6g",
Name(), quote,
layer_id.c_str(), quote,
804 for(
int i=0; i<3; ++i )
807 out->
Print( 0,
")%s", newline );
820 vertex[0].FixNegativeZero();
828 vertex[1].FixNegativeZero();
836 vertex[2].FixNegativeZero();
853 ELEM( aType, aParent )
870 wxASSERT( aShape->
Type()==T_rect
871 || aShape->
Type()==T_circle
872 || aShape->
Type()==T_qarc
873 || aShape->
Type()==T_path
874 || aShape->
Type()==T_polygon);
885 shape->Format( out, 0 );
887 out->
Print( 0,
")\n" );
919 ELEM( aType, aParent )
942 wxASSERT( aShape->
Type()==T_rect
943 || aShape->
Type()==T_circle
944 || aShape->
Type()==T_qarc
945 || aShape->
Type()==T_path
946 || aShape->
Type()==T_polygon);
960 const char* newline =
"\n";
967 out->
Print( 0,
" %s%s%s", quote,
m_name.c_str(), quote );
973 out->
Print( 0,
" \"\"" );
982 out->
Print( 0,
" " );
988 out->
Print( 0,
"%s", newline );
990 m_rules->Format( out, nestLevel+1 );
995 out->
Print( 0,
"%s", newline );
1002 out->
Print( 0,
"%s", newline );
1006 i->Format( out, nestLevel+1 );
1008 out->
Print( nestLevel,
")\n" );
1012 out->
Print( 0,
")\n" );
1048 ELEM( T_via, aParent )
1059 const int RIGHTMARGIN = 80;
1060 int perLine = out->
Print( nestLevel,
"(%s",
Name() );
1064 if( perLine > RIGHTMARGIN )
1066 out->
Print( 0,
"\n" );
1067 perLine = out->
Print( nestLevel+1,
"%s",
"");
1071 perLine += out->
Print( 0,
" %s%s%s", quote, i->c_str(), quote );
1076 out->
Print( 0,
"\n" );
1078 perLine = out->
Print( nestLevel+1,
"(spare" );
1082 if( perLine > RIGHTMARGIN )
1084 out->
Print( 0,
"\n" );
1085 perLine = out->
Print( nestLevel+2,
"%s",
"");
1089 perLine += out->
Print( 0,
" %s%s%s", quote, i->c_str(), quote );
1092 out->
Print( 0,
")" );
1095 out->
Print( 0,
")\n" );
1110 ELEM( T_classes, aParent )
1119 out->
Print( nestLevel,
"%s%s%s\n", quote, i->c_str(), quote );
1152 classes->Format( out, nestLevel );
1183 out->
Print( nestLevel,
"(%s\n",
Name() );
1185 out->
Print( nestLevel+1,
"(via_at_smd %s",
via_at_smd ?
"on" :
"off" );
1190 out->
Print( 0,
")\n" );
1192 for(
int i = 0; i <
Length(); ++i )
1195 out->
Print( nestLevel,
")\n" );
1210 ELEM( T_layer, aParent )
1229 out->
Print( nestLevel,
"(%s %s%s%s\n",
Name(), quote,
name.c_str(), quote );
1235 out->
Print( nestLevel+1,
"(property\n" );
1239 i->Format( out, nestLevel+2 );
1241 out->
Print( nestLevel+1,
")\n" );
1248 rules->Format( out, nestLevel+1 );
1254 out->
Print( nestLevel+1,
"(cost %d", -
cost );
1261 out->
Print( 0,
")\n" );
1266 out->
Print( nestLevel+1,
"(use_net" );
1268 for( STRINGS::const_iterator i =
use_net.begin(); i !=
use_net.end(); ++i )
1271 out->
Print( 0,
" %s%s%s", quote, i->c_str(), quote );
1274 out->
Print( 0,
")\n" );
1277 out->
Print( nestLevel,
")\n" );
1303 ELEM( T_layer_pair, aParent )
1313 out->
Print( nestLevel,
"(%s %s%s%s %s%s%s %.6g)\n",
Name(), quote0,
layer_id0.c_str(),
1338 ELEM( T_layer_noise_weight, aParent )
1344 out->
Print( nestLevel,
"(%s\n",
Name() );
1347 i->Format( out, nestLevel+1 );
1349 out->
Print( nestLevel,
")\n" );
1380 ELEM( aType, aParent )
1407 ELEM( aType, aParent )
1415 out->
Print( nestLevel,
"(%s %s%s%s)\n",
1417 quote,
value.c_str(), quote );
1462 m_rules->Format( out, nestLevel );
1487 ELEM( T_grid, aParent )
1514 out->
Print( 0,
")\n");
1532 ELEM( T_structure_out, aParent )
1545 i->Format( out, nestLevel );
1548 m_rules->Format( out, nestLevel );
1608 m_unit->Format( out, nestLevel );
1611 i->Format( out, nestLevel );
1623 i->Format( out, nestLevel );
1626 i->Format( out, nestLevel );
1629 i->Format( out, nestLevel );
1632 m_via->Format( out, nestLevel );
1637 for(
int i=0; i<
Length(); ++i )
1643 m_rules->Format( out, nestLevel );
1649 i->Format( out, nestLevel );
1696 ELEM( T_place, aParent )
1776 ELEM( T_component, aParent )
1799 out->
Print( nestLevel,
")\n" );
1805 i->Format( out, nestLevel );
1824 ELEM( T_placement, aParent )
1847 if( 0 ==
m_components[i].GetImageId().compare( imageName ) )
1860 m_unit->Format( out, nestLevel );
1864 out->
Print( nestLevel,
"(place_control (flip_style %s))\n",
1869 i->Format( out, nestLevel );
1917 out->
Print( nestLevel,
"(%s ",
Name() );
1920 shape->Format( out, 0 );
1927 out->
Print( 0,
"\n" );
1930 i->Format( out, nestLevel+1 );
1932 out->
Print( nestLevel,
")\n" );
1936 out->
Print( 0,
")\n" );
1962 ELEM( T_pin, aParent )
1985 out->
Print( nestLevel,
"(pin %s%s%s (rotate %.6g)", quote,
m_padstack_id.c_str(), quote,
2006typedef boost::ptr_vector<PIN>
PINS;
2050 const char* quote = out->
GetQuoteChar( imageId.c_str() );
2052 out->
Print( nestLevel,
"(%s %s%s%s",
Name(), quote, imageId.c_str(), quote );
2056 out->
Print( nestLevel,
")\n" );
2065 out->
Print( 0,
"\n");
2068 m_unit->Format( out, nestLevel );
2073 for( PINS::iterator i=
m_pins.begin(); i!=
m_pins.end(); ++i )
2074 i->Format( out, nestLevel );
2077 m_rules->Format( out, nestLevel );
2083 i->Format( out, nestLevel );
2172 out->
Print( nestLevel,
")\n" );
2179 m_unit->Format( out, nestLevel );
2184 out->
Print( nestLevel,
"%s",
"" );
2190 out->
Print( 0,
"(attach off)" );
2196 out->
Print( 0,
"(attach on (use_via %s%s%s))", quote,
m_via_id.c_str(), quote );
2205 out->
Print( 0,
"\n" );
2208 m_rules->Format( out, nestLevel );
2260 ELEM( aType, aParent )
2352 for(
unsigned i = 0; i <
m_vias.size(); ++i )
2367 m_vias.push_back( aVia );
2406 for(
unsigned i = 0; i <
m_padstacks.size(); ++i )
2420 m_unit->Format( out, nestLevel );
2423 i->Format( out, nestLevel );
2426 i->Format( out, nestLevel );
2428 for( PADSTACKS::iterator i =
m_vias.begin(); i !=
m_vias.end(); ++i )
2429 i->Format( out, nestLevel );
2457 ELEM( T_pin, aParent )
2471 const char* newline = nestLevel ?
"\n" :
"";
2476 return out->
Print( nestLevel,
"%s%s%s-%s%s%s%s", cquote,
component_id.c_str(), cquote,
2477 pquote,
pin_id.c_str(), pquote, newline );
2491 ELEM( T_fromto, aParent )
2504 out->
Print( nestLevel,
"(%s %s %s ",
2513 out->
Print( 0,
"(net %s%s%s)", quote,
m_net_id.c_str(), quote );
2516 bool singleLine =
true;
2520 out->
Print( 0,
"\n" );
2525 m_rules->Format( out, nestLevel+1 );
2533 i->Format( out, nestLevel+1 );
2535 out->
Print( singleLine ? 0 : nestLevel,
")" );
2537 if( nestLevel || !singleLine )
2538 out->
Print( 0,
"\n" );
2564 ELEM( T_comp_order, aParent )
2575 out->
Print( 0,
" %s%s%s", quote, i->c_str(), quote );
2578 out->
Print( 0,
")" );
2581 out->
Print( 0,
"\n" );
2599 ELEM( T_net, aParent )
2620 for(
unsigned i = 0; i <
m_pins.size(); ++i )
2622 if( aComponent.compare(
m_pins[i].component_id ) == 0 )
2632 const char* space =
" ";
2638 out->
Print( 0,
"%s(unassigned)", space );
2648 out->
Print( 0,
"\n" );
2652 const int RIGHTMARGIN = 80;
2655 for( PIN_REFS::iterator i =
m_pins.begin(); i !=
m_pins.end(); ++i )
2657 if( perLine > RIGHTMARGIN )
2659 out->
Print( 0,
"\n");
2660 perLine = out->
Print( nestLevel+2,
"%s",
"" );
2664 perLine += out->
Print( 0,
" " );
2667 perLine += i->FormatIt( out, 0 );
2670 out->
Print( 0,
")\n" );
2680 m_rules->Format( out, nestLevel+1 );
2683 i->Format( out, nestLevel+1 );
2686 i->Format( out, nestLevel+1 );
2688 out->
Print( nestLevel,
")\n" );
2720typedef boost::ptr_vector<NET>
NETS;
2727 ELEM( T_topology, aParent )
2734 i->Format( out, nestLevel );
2737 i->Format( out, nestLevel );
2756 ELEM( T_class, aParent )
2772 int perLine = out->
Print( nestLevel,
"(%s %s%s%s",
Name(), quote,
m_class_id.c_str(), quote );
2774 const int RIGHTMARGIN = 72;
2778 const char* space =
" ";
2780 if( perLine > RIGHTMARGIN )
2782 out->
Print( 0,
"\n" );
2783 perLine = out->
Print( nestLevel+1,
"%s",
"" );
2792 perLine += out->
Print( 0,
"%s%s%s%s", space, quote, i->c_str(), quote );
2795 bool newLine =
false;
2799 out->
Print( 0,
"\n" );
2805 out->
Print( nestLevel+1,
"(circuit\n" );
2808 out->
Print( nestLevel + 2,
"%s\n", i->c_str() );
2810 out->
Print( nestLevel+1,
")\n" );
2814 m_rules->Format( out, nestLevel+1 );
2817 i->Format( out, nestLevel + 1 );
2822 out->
Print( newLine ? nestLevel : 0,
")\n" );
2849 ELEM( T_network, aParent )
2855 for( NETS::iterator i =
m_nets.begin(); i !=
m_nets.end(); ++i )
2856 i->Format( out, nestLevel );
2859 i->Format( out, nestLevel );
2876 ELEM( T_connect, aParent ) {}
2887 ELEM( T_wire, aParent )
2911 wxASSERT(aShape->
Type()==T_rect || aShape->
Type()==T_circle
2912 || aShape->
Type()==T_qarc || aShape->
Type()==T_path
2913 || aShape->
Type()==T_polygon);
2921 out->
Print( nestLevel,
"(%s ",
Name() );
2929 out->
Print( 0,
"(net %s%s%s)", quote,
m_net_id.c_str(), quote );
2944 out->
Print( 0,
"(shield %s%s%s)", quote,
m_shield.c_str(), quote );
2949 out->
Print( 0,
"\n" );
2952 i->Format( out, nestLevel + 1 );
2959 out->
Print( 0,
"(supply)" );
2961 out->
Print( 0,
")\n" );
2996 ELEM( T_via, aParent )
3013 const int RIGHTMARGIN = 80;
3019 if( perLine > RIGHTMARGIN )
3021 out->
Print( 0,
"\n" );
3022 perLine = out->
Print( nestLevel+1,
"%s",
"" );
3026 perLine += out->
Print( 0,
" " );
3029 perLine += out->
Print( 0,
"%.6g %.6g", i->x, i->y );
3033 out->
Print( 0,
" " );
3037 if( perLine > RIGHTMARGIN )
3039 out->
Print( 0,
"\n" );
3040 perLine = out->
Print( nestLevel+1,
"%s",
"" );
3044 perLine += out->
Print( 0,
"(net %s%s%s)", quote,
m_net_id.c_str(), quote );
3049 if( perLine > RIGHTMARGIN )
3051 out->
Print( 0,
"\n" );
3052 perLine = out->
Print( nestLevel+1,
"%s",
"" );
3060 if( perLine > RIGHTMARGIN )
3062 out->
Print( 0,
"\n" );
3063 perLine = out->
Print( nestLevel+1,
"%s",
"" );
3071 if( perLine > RIGHTMARGIN )
3073 out->
Print( 0,
"\n" );
3074 perLine = out->
Print( nestLevel+1,
"%s",
"" );
3077 if(
m_attr == T_virtual_pin )
3080 perLine += out->
Print( 0,
"(attr virtual_pin %s%s%s)", quote,
3091 if( perLine > RIGHTMARGIN )
3093 out->
Print( 0,
"\n" );
3094 perLine = out->
Print( nestLevel+1,
"%s",
"" );
3097 perLine += out->
Print( 0,
"(supply)" );
3102 out->
Print( 0,
"\n" );
3103 out->
Print( nestLevel+1,
"(contact\n" );
3108 out->
Print( nestLevel+2,
"%s%s%s\n", quote, i->c_str(), quote );
3111 out->
Print( nestLevel+1,
"))\n" );
3115 out->
Print( 0,
")\n" );
3143 ELEM( T_wiring, aParent )
3156 unit->Format( out, nestLevel );
3158 for( WIRES::iterator i =
wires.begin(); i !=
wires.end(); ++i )
3159 i->Format( out, nestLevel );
3162 i->Format( out, nestLevel );
3186 ELEM( T_pcb, aParent )
3217 m_parser->Format( out, nestLevel+1 );
3223 m_unit->Format( out, nestLevel+1 );
3238 m_wiring->Format( out, nestLevel+1 );
3240 out->
Print( nestLevel,
")\n" );
3273 ELEM( T_ancestor, aParent )
3284 strftime( temp,
sizeof(temp),
"%b %d %H : %M : %S %Y", tmp );
3288 out->
Print( nestLevel,
"(%s \"%s\" (created_time %s)\n",
Name(),
filename.c_str(), temp );
3293 out->
Print( nestLevel+1,
"(comment %s%s%s)\n", quote,
comment.c_str(), quote );
3296 out->
Print( nestLevel,
")\n" );
3314 ELEM( T_history, aParent )
3322 i->Format( out, nestLevel );
3328 strftime( temp,
sizeof( temp ),
"%b %d %H : %M : %S %Y", tmp );
3331 out->
Print( nestLevel,
"(self (created_time %s)\n", temp );
3336 out->
Print( nestLevel+1,
"(comment %s%s%s)\n", quote, i->c_str(), quote );
3339 out->
Print( nestLevel,
")\n" );
3358 ELEM( T_supply_pin, aParent )
3364 bool singleLine =
pin_refs.size() <= 1;
3369 out->
Print( 0,
"%s",
" " );
3370 pin_refs.begin()->Format( out, 0 );
3375 i->FormatIt( out, nestLevel + 1 );
3380 const char* newline = singleLine ?
"" :
"\n";
3383 out->
Print( singleLine ? 0 : nestLevel+1,
" (net %s%s%s)%s",
3384 quote,
net_id.c_str(), quote, newline );
3387 out->
Print( singleLine ? 0 : nestLevel,
")\n");
3407 ELEM( T_net_out, aParent )
3423 out->
Print( nestLevel,
"(net %s%s%s\n", quote,
net_id.c_str(), quote );
3429 rules->Format( out, nestLevel+1 );
3431 for( WIRES::iterator i =
wires.begin(); i !=
wires.end(); ++i )
3432 i->Format( out, nestLevel + 1 );
3435 i->Format( out, nestLevel + 1 );
3438 i->Format( out, nestLevel + 1 );
3440 out->
Print( nestLevel,
")\n" );
3461 ELEM( T_route, aParent )
3492 parser->Format( out, nestLevel );
3498 library->Format( out, nestLevel );
3502 out->
Print( nestLevel,
"(network_out\n" );
3505 i->Format( out, nestLevel + 1 );
3507 out->
Print( nestLevel,
")\n" );
3552 ELEM( T_was_is, aParent )
3560 out->
Print( nestLevel,
"(pins " );
3561 i->was.Format( out, 0 );
3562 out->
Print( 0,
" " );
3563 i->is.Format( out, 0 );
3564 out->
Print( 0,
")\n" );
3582 ELEM( T_session, aParent )
3608 history->Format( out, nestLevel+1 );
3617 was_is->Format( out, nestLevel+1 );
3620 route->Format( out, nestLevel+1 );
3622 out->
Print( nestLevel,
")\n" );
3659 wxASSERT( !iOwnReaders );
3666 SetSpecctraMode(
true );
3719 void LoadPCB(
const wxString& aFilename );
3741 void ExportPCB(
const wxString& aFilename,
bool aNameChange=
false );
3824 void readCOMPnPIN( std::string* component_id, std::string* pid_id );
3837 void readTIME( time_t* time_stamp );
3935 int aTopLayer,
int aBotLayer );
3950 for(
unsigned n = 0; n <
m_nets.size(); ++n )
3980 int aViaDrillDefault );
Information pertinent to a Pcbnew printed circuit board.
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
BOUNDARY(ELEM *aParent, DSN_T aType=T_boundary)
void GetCorners(std::vector< double > &aBuffer)
GetCorners fills aBuffer with a list of coordinates (x,y) of corners.
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
void SetLayerId(const std::string &aLayerId)
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
void SetVertex(const POINT &aVertex)
void SetDiameter(double aDiameter)
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
CLASS_CLASS(ELEM *aParent, DSN_T aType)
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
The <class_descriptor> in the specctra spec.
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
STRINGS m_circuit
circuit descriptor list
LAYER_RULES m_layer_rules
Implement a <component_descriptor> in the specctra dsn spec.
const std::string & GetImageId() const
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
void SetImageId(const std::string &aImageId)
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Compare two objects of this type and returns <0, 0, or >0.
The <component_order_descriptor>.
COMP_ORDER(ELEM *aParent)
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
COPPER_PLANE(ELEM *aParent)
int FindElem(DSN_T aType, int instanceNum=0)
Find a particular instance number of a given type of ELEM.
ELEM_HOLDER(DSN_T aType, ELEM *aParent=nullptr)
ELEM * operator[](int aIndex) const
virtual void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
ELEM * Replace(int aIndex, ELEM *aElem)
void Insert(int aIndex, ELEM *aElem)
ELEM_ARRAY kids
ELEM pointers.
ELEM * Remove(int aIndex)
ELEM * At(int aIndex) const
boost::ptr_vector< ELEM > ELEM_ARRAY
int Length() const
Return the number of ELEMs in this holder.
A base class for any DSN element class.
std::string makeHash()
Return a string which uniquely represents this ELEM among other ELEMs of the same derived class as "t...
const char * Name() const
virtual void Format(OUTPUTFORMATTER *out, int nestLevel)
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
ELEM(DSN_T aType, ELEM *aParent=nullptr)
void SetParent(ELEM *aParent)
virtual UNIT_RES * GetUnits() const
Return the units for this section.
virtual void FormatContents(OUTPUTFORMATTER *out, int nestLevel)
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
static STRING_FORMATTER sf
LAYER_RULES m_layer_rules
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
DSN_T m_grid_type
T_via | T_wire | T_via_keepout | T_place | T_snap.
DSN_T m_direction
T_x | T_y | -1 for both.
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
std::string m_hash
a hash string used by Compare(), not Format()ed/exported.
static int Compare(IMAGE *lhs, IMAGE *rhs)
Compare two objects of this type and returns <0, 0, or >0.
UNIT_RES * GetUnits() const override
Return the units for this section.
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
int m_duplicated
no. times this image_id is duplicated
Used for <keepout_descriptor> and <plane_descriptor>.
void AddWindow(WINDOW *aWindow)
KEEPOUT(ELEM *aParent, DSN_T aType)
Require a DSN_T because this class is used for T_place_keepout, T_via_keepout, T_wire_keepout,...
void SetShape(ELEM *aShape)
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
LAYER_NOISE_WEIGHT(ELEM *aParent)
SPECCTRA_LAYER_PAIRS layer_pairs
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
LAYER_RULE(ELEM *aParent)
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
DSN_T layer_type
one of: T_signal, T_power, T_mixed, T_jumper
int cost_type
T_length | T_way.
int direction
[forbidden | high | medium | low | free | <positive_integer> | -1]
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
A <library_descriptor> in the specctra dsn specification.
PADSTACK * LookupVia(PADSTACK *aVia)
Add the via only if one exactly like it does not already exist in the padstack container.
PADSTACK * FindPADSTACK(const std::string &aPadstackId)
Search the padstack container by name.
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
void AppendVia(PADSTACK *aVia)
Add aVia to the internal via container.
int FindIMAGE(IMAGE *aImage)
Search this LIBRARY for an image which matches the argument.
PADSTACKS m_padstacks
all except vias, which are in 'vias'
UNIT_RES * GetUnits() const override
Return the units for this section.
IMAGE * LookupIMAGE(IMAGE *aImage)
Add the image only if one exactly like it does not already exist in the image container.
void AppendPADSTACK(PADSTACK *aPadstack)
Add the padstack to the padstack container.
LIBRARY(ELEM *aParent, DSN_T aType=T_library)
void AddPadstack(PADSTACK *aPadstack)
void AppendIMAGE(IMAGE *aImage)
Add the image to the image list.
int FindVia(PADSTACK *aVia)
Search this LIBRARY for a via which matches the argument.
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
A <net_out_descriptor> of the specctra dsn spec.
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
A <net_descriptor> in the DSN spec.
int FindPIN_REF(const std::string &aComponent)
LAYER_RULES m_layer_rules
DSN_T m_type
T_fix | T_normal.
DSN_T m_supply
T_power | T_ground.
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
COMP_ORDER * m_comp_order
DSN_T m_pins_type
T_pins | T_order, type of field 'pins' below.
Hold either a via or a pad definition.
const std::string & GetPadstackId()
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
std::string m_hash
a hash string used by Compare(), not Format()ed/exported.
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
PADSTACK()
Cannot take ELEM* aParent because PADSTACKSET confuses this with a copy constructor and causes havoc.
std::string m_padstack_id
void SetPadstackId(const char *aPadstackId)
static int Compare(PADSTACK *lhs, PADSTACK *rhs)
Compare two objects of this type and returns <0, 0, or >0.
UNIT_RES * GetUnits() const override
Return the units for this section.
A configuration record per the SPECCTRA DSN file spec.
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
bool routes_include_image_conductor
bool routes_include_guides
bool wires_include_testpoint
STRINGS constants
This holds pairs of strings, one pair for each constant definition.
bool routes_include_testpoint
bool generated_by_freeroute
bool space_in_quoted_tokens
Support both the <path_descriptor> and the <polygon_descriptor> per the specctra dsn spec.
PATH(ELEM *aParent, DSN_T aType=T_path)
void SetLayerId(const std::string &aLayerId)
void SetAperture(double aWidth)
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
void AppendPoint(const POINT &aPoint)
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
PCB(ELEM *aParent=nullptr)
UNIT_RES * GetUnits() const override
Return the units for this section.
void SetVertex(const POINT &aPoint)
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
int m_kiNetCode
KiCad netcode.
void SetRotation(double aRotation)
std::string m_padstack_id
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
UNIT_RES * GetUnits() const override
Return the units for this section.
COMPONENT * LookupCOMPONENT(const std::string &imageName)
Look up a COMPONENT by name.
Implement a <placement_reference> in the specctra dsn spec.
void SetVertex(const POINT &aVertex)
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
void SetRotation(double aRotation)
std::string m_logical_part
std::string m_part_number
std::string m_component_id
reference designator
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
void SetStart(const POINT &aStart)
void SetLayerId(std::string &aLayerId)
void SetCenter(const POINT &aCenter)
void SetEnd(const POINT &aEnd)
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
void SetLayerId(std::string &aLayerId)
void SetCorners(const POINT &aPoint0, const POINT &aPoint1)
POINT point0
one of two opposite corners
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
STRUCTURE_OUT * structure_out
UNIT_RES * GetUnits() const override
Return the units for this section.
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
A <rule_descriptor> in the specctra dsn spec.
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
RULE(ELEM *aParent, DSN_T aType)
STRINGS m_rules
rules are saved in std::string form.
A <session_file_descriptor> in the specctra dsn spec.
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
SESSION(ELEM *aParent=nullptr)
A "(shape ..)" element in the specctra dsn spec.
SHAPE(ELEM *aParent, DSN_T aType=T_shape)
Takes a DSN_T aType of T_outline.
void SetConnect(DSN_T aConnect)
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
PADSTACK * makeVia(const ::PCB_VIA *aVia)
Make any kind of PADSTACK using the given KiCad VIA.
void doUNIT(UNIT_RES *growth)
int m_top_via_layer
specctra cu layers, 0 based index:
void doCOMPONENT(COMPONENT *growth)
IMAGE * makeIMAGE(BOARD *aBoard, FOOTPRINT *aFootprint)
Allocates an I#MAGE on the heap and creates all the PINs according to the PADs in the FOOTPRINT.
void doWAS_IS(WAS_IS *growth)
void doPLACEMENT(PLACEMENT *growth)
void doNET_OUT(NET_OUT *growth)
void buildLayerMaps(BOARD *aBoard)
Create a few data translation structures for layer name and number mapping between the DSN::PCB struc...
PCB_TRACK * makeTRACK(WIRE *wire, PATH *aPath, int aPointIndex, int aNetcode)
Create a TRACK form the PATH and BOARD info.
void doCLASS(CLASS *growth)
void SetSESSION(SESSION *aSession)
Delete any existing SESSION and replaces it with the given one.
void doSTRUCTURE_OUT(STRUCTURE_OUT *growth)
std::map< int, PCB_LAYER_ID > m_pcbLayer2kicad
maps PCB layer number to BOARD layer numbers
void doCIRCLE(CIRCLE *growth)
void doANCESTOR(ANCESTOR *growth)
void doLAYER_NOISE_WEIGHT(LAYER_NOISE_WEIGHT *growth)
void ExportPCB(const wxString &aFilename, bool aNameChange=false)
Write the internal PCB instance out as a SPECTRA DSN format file.
void doCLASS_CLASS(CLASS_CLASS *growth)
void doSESSION(SESSION *growth)
void doWINDOW(WINDOW *growth)
UNIT_RES * m_routeResolution
used during FromSESSION() only, memory for it is not owned here.
SHAPE_POLY_SET m_brd_outlines
void doSHAPE(SHAPE *growth)
BOARD * m_sessionBoard
a copy to avoid passing as an argument, memory for it is not owned here.
void FlipFOOTPRINTs(BOARD *aBoard)
Flip the footprints which are on the back side of the board to the front.
void doQARC(QARC *growth)
void doRESOLUTION(UNIT_RES *growth)
void LoadPCB(const wxString &aFilename)
A recursive descent parser for a SPECCTRA DSN "design" file.
void doSTRINGPROP(STRINGPROP *growth)
STRINGS m_layerIds
indexed by PCB layer number
void doBOUNDARY(BOUNDARY *growth)
void doSPECCTRA_LAYER_PAIR(SPECCTRA_LAYER_PAIR *growth)
bool m_footprintsAreFlipped
void doRECTANGLE(RECTANGLE *growth)
void deleteNETs()
Delete all the NETs that may be in here.
void doREGION(REGION *growth)
void fillBOUNDARY(BOARD *aBoard, BOUNDARY *aBoundary)
Make the board perimeter for the DSN file by filling the BOUNDARY element in the specctra element tre...
void ExportSESSION(const wxString &aFilename)
Write the internal SESSION instance out as a #SPECTRA DSN format file.
void doWIRE(WIRE *growth)
static const KICAD_T scanPADs[]
PADSTACK * makePADSTACK(BOARD *aBoard, PAD *aPad)
Create a PADSTACK which matches the given pad.
void SetPCB(PCB *aPcb)
Delete any existing PCB and replaces it with the given one.
void doTOKPROP(TOKPROP *growth)
void doIMAGE(IMAGE *growth)
void doCONNECT(CONNECT *growth)
void doCOMP_ORDER(COMP_ORDER *growth)
static PCB * MakePCB()
Make a PCB with all the default ELEMs and parts on the heap.
void doTOPOLOGY(TOPOLOGY *growth)
void doKEEPOUT(KEEPOUT *growth)
void doRULE(RULE *growth)
void doPATH(PATH *growth)
void doSUPPLY_PIN(SUPPLY_PIN *growth)
void doLAYER(LAYER *growth)
bool BuiltBoardOutlines(BOARD *aBoard)
Build the board outlines and store it in m_brd_outlines.
void LoadSESSION(const wxString &aFilename)
A recursive descent parser for a SPECCTRA DSN "session" file.
void doLIBRARY(LIBRARY *growth)
void exportNETCLASS(const NETCLASS *aNetClass, const BOARD *aBoard)
Export aNetClass to the DSN file.
PADSTACK * makeVia(int aCopperDiameter, int aDrillDiameter, int aTopLayer, int aBotLayer)
Make a round through hole PADSTACK using the given KiCad diameter in deci-mils.
std::map< PCB_LAYER_ID, int > m_kicadLayer2pcb
maps BOARD layer number to PCB layer numbers
std::vector< NET * > m_nets
we don't want ownership here permanently, so we don't use boost::ptr_vector
void doFROMTO(FROMTO *growth)
void doPLACE(PLACE *growth)
PADSTACKSET m_padstackset
void doGRID(GRID *growth)
void doLAYER_RULE(LAYER_RULE *growth)
void FromSESSION(BOARD *aBoard)
Add the entire SESSION info to a BOARD but does not write it out.
void doWIRE_VIA(WIRE_VIA *growth)
void doCLASSES(CLASSES *growth)
void readCOMPnPIN(std::string *component_id, std::string *pid_id)
Read a <pin_reference> and splits it into the two parts which are on either side of the hyphen.
PCB_VIA * makeVIA(WIRE_VIA *aVia, PADSTACK *aPadstack, const POINT &aPoint, int aNetCode, int aViaDrillDefault)
Instantiate a KiCad VIA on the heap and initializes it with internal values consistent with the given...
PCB_ARC * makeARC(WIRE *wire, QARC *aQarc, int aNetcode)
Create an ARC form the PATH and BOARD info.
void FromBOARD(BOARD *aBoard)
Add the entire BOARD to the PCB but does not write it out.
void doPARSER(PARSER *growth)
void doNETWORK(NETWORK *growth)
void RevertFOOTPRINTs(BOARD *aBoard)
Flip the footprints which were on the back side of the board back to the back.
void doSTRUCTURE(STRUCTURE *growth)
int findLayerName(const std::string &aLayerName) const
Return the PCB layer index for a given layer name, within the specctra sessionfile.
void doROUTE(ROUTE *growth)
void readTIME(time_t *time_stamp)
Read a <time_stamp> which consists of 8 lexer tokens: "month date hour : minute : second year".
void doPADSTACK(PADSTACK *growth)
void doWIRING(WIRING *growth)
static const KEYWORD keywords[]
specctra DSN keywords
void doHISTORY(HISTORY *growth)
void doCONTROL(CONTROL *growth)
void doPROPERTIES(PROPERTIES *growth)
SPECCTRA_LAYER_PAIR(ELEM *aParent)
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
A container for a single property whose value is a string.
STRINGPROP(ELEM *aParent, DSN_T aType)
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
STRUCTURE_OUT(ELEM *aParent)
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
UNIT_RES * GetUnits() const override
Return the units for this section.
boost::ptr_vector< GRID > GRIDS
LAYER_NOISE_WEIGHT * m_layer_noise_weight
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
void SetBOUNDARY(BOUNDARY *aBoundary)
BOUNDARY * m_place_boundary
void SetPlaceBOUNDARY(BOUNDARY *aBoundary)
boost::ptr_vector< REGION > REGIONS
A <supply_pin_descriptor> in the specctra dsn spec.
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
SUPPLY_PIN(ELEM *aParent)
A container for a single property whose value is another DSN_T token.
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
TOKPROP(ELEM *aParent, DSN_T aType)
COMP_ORDERS m_comp_orders
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
A holder for either a T_unit or T_resolution object which are usually mutually exclusive in the dsn g...
UNIT_RES(ELEM *aParent, DSN_T aType)
static UNIT_RES Default
A static instance which holds the default units of T_inch and 2540000.
DSN_T GetEngUnits() const
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
A <via_descriptor> in the specctra dsn spec.
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
void AppendVia(const char *aViaName)
A <was_is_descriptor> in the specctra dsn spec.
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
WINDOW(ELEM *aParent, DSN_T aType=T_window)
void SetShape(ELEM *aShape)
A <wire_via_descriptor> in the specctra dsn spec.
std::string m_padstack_id
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
std::string m_virtual_pin_name
const std::string & GetPadstackId()
A <wire_shape_descriptor> in the specctra dsn spec.
void SetShape(ELEM *aShape)
void Format(OUTPUTFORMATTER *out, int nestLevel) override
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
A <wiring_descriptor> in the specctra dsn spec.
void FormatContents(OUTPUTFORMATTER *out, int nestLevel) override
Write the contents as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
UNIT_RES * GetUnits() const override
Return the units for this section.
A collection of nets and the parameters used to route or test these nets.
Represent a set of closed polygons.
This source file implements export and import capabilities to the specctra dsn file format.
boost::ptr_vector< KEEPOUT > KEEPOUTS
std::vector< std::string > STRINGS
boost::ptr_vector< NET_OUT > NET_OUTS
boost::ptr_vector< PATH > PATHS
boost::ptr_vector< WINDOW > WINDOWS
boost::ptr_vector< CLASS > CLASSLIST
std::vector< PIN_REF > PIN_REFS
boost::ptr_vector< PIN > PINS
boost::ptr_vector< COMP_ORDER > COMP_ORDERS
std::vector< PIN_PAIR > PIN_PAIRS
bool operator<(const PADSTACK &lhs, const PADSTACK &rhs)
Used by the PADSTACKSET boost::ptr_set below.
const char * GetTokenText(T aTok)
The DSN namespace and returns the C string representing a SPECCTRA_DB::keyword.
boost::ptr_vector< WIRE > WIRES
boost::ptr_vector< SUPPLY_PIN > SUPPLY_PINS
std::vector< PROPERTY > PROPERTIES
boost::ptr_vector< PADSTACK > PADSTACKS
std::vector< POINT > POINTS
void ExportBoardToSpecctraFile(BOARD *aBoard, const wxString &aFullFilename)
Helper method to export board to DSN file.
boost::ptr_vector< PLACE > PLACES
boost::ptr_vector< IMAGE > IMAGES
boost::ptr_vector< LAYER > LAYERS
boost::ptr_vector< FROMTO > FROMTOS
boost::ptr_vector< ANCESTOR > ANCESTORS
boost::ptr_vector< WIRE_VIA > WIRE_VIAS
boost::ptr_vector< COPPER_PLANE > COPPER_PLANES
boost::ptr_vector< SPECCTRA_LAYER_PAIR > SPECCTRA_LAYER_PAIRS
boost::ptr_vector< COMPONENT > COMPONENTS
bool ImportSpecctraSession(BOARD *aBoard, const wxString &fullFileName)
Helper method to import SES file to a board.
boost::ptr_vector< NET > NETS
boost::ptr_vector< LAYER_RULE > LAYER_RULES
boost::ptr_set< PADSTACK > PADSTACKSET
PIN_PAIR(ELEM *aParent=nullptr)
A <pin_reference> definition in the specctra dsn spec.
int FormatIt(OUTPUTFORMATTER *out, int nestLevel)
Like Format() but is not virtual.
A point in the SPECCTRA DSN coordinate system.
POINT & operator=(const POINT &other)
void FixNegativeZero()
Change negative zero to positive zero in the IEEE floating point storage format.
bool operator!=(const POINT &other) const
bool operator==(const POINT &other) const
void Format(OUTPUTFORMATTER *out, int nestLevel) const
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
POINT(double aX, double aY)
POINT & operator+=(const POINT &other)
void Format(OUTPUTFORMATTER *out, int nestLevel) const
Write this object as ASCII out to an OUTPUTFORMATTER according to the SPECCTRA DSN format.
Hold a keyword string and its unique integer token.
KICAD_T
The set of class identification values stored in EDA_ITEM::m_structType.