Commit c72857f4 authored by dickelbeck's avatar dickelbeck

more specctra dsn work

parent f5f6bb6f
......@@ -46,11 +46,13 @@ namespace DSN {
struct KEYWORD
{
const char* name;
int token;
// int token;
};
#define TOKDEF(x) { #x, T_##x }
//#define TOKDEF(x) { #x, T_##x }
#define TOKDEF(x) { #x }
// This MUST be sorted alphabetically, and also so MUST enum DSN_T {} be alphabetized.
// These MUST all be lower case because of the conversion to lowercase in findToken().
......@@ -123,6 +125,7 @@ const static KEYWORD tokens[] = {
TOKDEF(diagonal),
TOKDEF(direction),
TOKDEF(directory),
TOKDEF(discrete),
TOKDEF(effective_via_length),
TOKDEF(exclude),
TOKDEF(expose),
......@@ -163,6 +166,7 @@ const static KEYWORD tokens[] = {
TOKDEF(image_image),
TOKDEF(image_image_spacing),
TOKDEF(image_outline_clearance),
TOKDEF(image_set),
TOKDEF(image_type),
TOKDEF(inch),
TOKDEF(include),
......@@ -310,6 +314,7 @@ const static KEYWORD tokens[] = {
TOKDEF(reorder),
TOKDEF(reroute_order_viols),
TOKDEF(resistance_resolution),
TOKDEF(resistor),
TOKDEF(resolution),
TOKDEF(restricted_layer_length_factor),
TOKDEF(room),
......@@ -341,6 +346,7 @@ const static KEYWORD tokens[] = {
TOKDEF(side),
TOKDEF(signal),
TOKDEF(site),
TOKDEF(small),
TOKDEF(smd),
TOKDEF(snap),
TOKDEF(snap_angle),
......@@ -420,6 +426,7 @@ const static KEYWORD tokens[] = {
TOKDEF(wiring),
TOKDEF(write_resolution),
TOKDEF(x),
TOKDEF(xy),
TOKDEF(y),
};
......@@ -513,7 +520,8 @@ int LEXER::findToken( const std::string& tok )
tokens, sizeof(tokens)/sizeof(tokens[0]),
sizeof(KEYWORD), compare );
if( findings )
return findings->token;
// return findings->token;
return findings - tokens;
else
return -1;
}
......
......@@ -42,6 +42,7 @@ namespace DSN {
enum DSN_T {
// the first few are special (the uppercase ones)
T_NONE = -9,
T_QUOTE_DEF = -8,
T_DASH = -7,
T_SYMBOL = -6,
......@@ -123,6 +124,7 @@ enum DSN_T {
T_diagonal,
T_direction,
T_directory,
T_discrete,
T_effective_via_length,
T_exclude,
T_expose,
......@@ -163,6 +165,7 @@ enum DSN_T {
T_image_image,
T_image_image_spacing,
T_image_outline_clearance,
T_image_set,
T_image_type,
T_inch,
T_include,
......@@ -310,6 +313,7 @@ enum DSN_T {
T_reorder,
T_reroute_order_viols,
T_resistance_resolution,
T_resistor,
T_resolution,
T_restricted_layer_length_factor,
T_room,
......@@ -341,6 +345,7 @@ enum DSN_T {
T_side,
T_signal,
T_site,
T_small,
T_smd,
T_snap,
T_snap_angle,
......@@ -420,6 +425,7 @@ enum DSN_T {
T_wiring,
T_write_resolution,
T_x,
T_xy,
T_y,
T_END // just a sentinel, not a token
};
......
......@@ -34,8 +34,10 @@
$ cd <kicadSourceRoot>
$ doxygen
Then you can view the html documentation in the <kicadSourceRoot>/doxygen
directory.
directory. The main class in this file is SPECCTRA_DB and its main
functions are Load() and Export().
*/
......@@ -113,11 +115,49 @@ struct POINT
float y;
POINT() { x=0.0; y=0.0; }
/**
* Function Format
* writes this object as ASCII out to an OUTPUTFORMATTER according to the
* SPECCTRA DSN format.
* @param out The formatter to write to.
* @param nestLevel A multiple of the number of spaces to preceed the output with.
* @throw IOError if a system error writing the output, such as a full disk.
*/
void Format( OUTPUTFORMATTER* out, int nestLevel ) const throw( IOError )
{
out->Print( nestLevel, " %f %f", x, y );
}
};
typedef std::vector<std::string> STRINGS;
typedef std::vector<POINT> POINTS;
struct PROPERTY
{
std::string name;
std::string value;
/**
* Function Format
* writes this object as ASCII out to an OUTPUTFORMATTER according to the
* SPECCTRA DSN format.
* @param out The formatter to write to.
* @param nestLevel A multiple of the number of spaces to preceed the output with.
* @throw IOError if a system error writing the output, such as a full disk.
*/
void Format( OUTPUTFORMATTER* out, int nestLevel ) const throw( IOError )
{
const char* quoteName = out->GetQuoteChar( name.c_str() );
const char* quoteValue = out->GetQuoteChar( value.c_str() );
out->Print( nestLevel, "(%s%s%s %s%s%s)\n",
quoteName, name.c_str(), quoteName,
quoteValue, value.c_str(), quoteValue );
}
};
typedef std::vector<PROPERTY> PROPERTYS;
/**
* Class ELEM
......@@ -290,7 +330,7 @@ public:
host_version = CONV_TO_UTF8(g_BuildVersion);
}
void Format( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError );
void FormatContents( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError );
};
......@@ -378,10 +418,10 @@ public:
/**
* Class RULES
* Class RULE
* corresponds to the <rule_descriptor> in the specctra dsn spec.
*/
class RULES : public ELEM
class RULE : public ELEM
{
friend class SPECCTRA_DB;
......@@ -389,60 +429,91 @@ class RULES : public ELEM
public:
RULES( ELEM* aParent, DSN_T aType ) :
RULE( ELEM* aParent, DSN_T aType ) :
ELEM( aType, aParent )
{
}
~RULES()
void FormatContents( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError )
{
for( STRINGS::const_iterator i = rules.begin(); i!=rules.end(); ++i )
out->Print( nestLevel, "%s\n", i->c_str() );
}
};
void Format( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError )
#if 0
class PLACE_RULE : public RULE
{
friend class SPECCTRA_DB;
DSN_T object_type;
DSN_T image_type;
/* T_spacing, T_permit_orient, T_permit_side & T_opposite_side are
all stored in the kids list.
*/
public:
PLACE_RULE( ELEM* aParent ) :
RULE( aParent, T_place_rule )
{
out->Print( nestLevel, "(%s\n", LEXER::GetTokenText( Type() ) );
object_type = T_NONE;
image_type = T_NONE;
}
for( STRINGS::const_iterator i = rules.begin(); i!=rules.end(); ++i )
out->Print( nestLevel+1, "%s\n", i->c_str() );
void FormatContents( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError )
{
if( object_type != T_NONE )
{
if( object_type == T_pcb )
out->Print( nestLevel, "(object_type %s",
LEXER::GetTokenText( object_type ) );
else
out->Print( nestLevel, "(object_type image_set %s",
LEXER::GetTokenText( object_type ) );
out->Print( nestLevel, ")\n" );
if( image_type != T_NONE )
out->Print( 0, " (image_type %s)", LEXER::GetTokenText( image_type ) );
out->Print( 0, ")\n" );
}
RULE::FormatContents( out, nestLevel );
}
};
#endif
class LAYER_RULES : public ELEM
class LAYER_RULE : public ELEM
{
friend class SPECCTRA_DB;
STRINGS layer_ids;
RULES* rules;
RULE* rule;
public:
LAYER_RULES( ELEM* aParent ) :
LAYER_RULE( ELEM* aParent ) :
ELEM( T_layer_rule, aParent )
{
rules = 0;
rule = 0;
}
~LAYER_RULES()
~LAYER_RULE()
{
delete rules;
delete rule;
}
void Format( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError )
void FormatContent( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError )
{
out->Print( nestLevel, "(%s\n", LEXER::GetTokenText( Type() ) );
for( STRINGS::const_iterator i=layer_ids.begin(); i!=layer_ids.end(); ++i )
{
const char* quote = out->GetQuoteChar( i->c_str() );
out->Print( nestLevel, "%s%s%s\n", quote, i->c_str(), quote );
}
if( rules )
rules->Format( out, nestLevel+1 );
out->Print( nestLevel, ")\n" );
if( rule )
rule->Format( out, nestLevel );
}
};
......@@ -660,8 +731,8 @@ class KEEPOUT : public ELEM
protected:
std::string name;
int sequence_number;
RULES* rules;
RULES* place_rules;
RULE* rules;
RULE* place_rules;
typedef boost::ptr_vector<WINDOW> WINDOWS;
WINDOWS windows;
......@@ -905,18 +976,10 @@ class LAYER : public ELEM
int direction;
int cost; ///< [forbidden | high | medium | low | free | <positive_integer > | -1]
int cost_type; ///< T_length | T_way
RULES* rules;
RULE* rules;
STRINGS use_net;
struct PROPERTY
{
std::string name;
std::string value;
};
typedef std::vector<PROPERTY> PROPERTYS;
PROPERTYS propertys;
PROPERTYS properties;
public:
......@@ -945,19 +1008,14 @@ public:
out->Print( nestLevel+1, "(type %s)\n", LEXER::GetTokenText( layer_type ) );
if( propertys.size() )
if( properties.size() )
{
out->Print( nestLevel+1, "(property \n" );
for( PROPERTYS::const_iterator i = propertys.begin();
i != propertys.end(); ++i )
for( PROPERTYS::const_iterator i = properties.begin();
i != properties.end(); ++i )
{
const char* quoteName = out->GetQuoteChar( i->name.c_str() );
const char* quoteValue = out->GetQuoteChar( i->value.c_str() );
out->Print( nestLevel+2, "(%s%s%s %s%s%s)\n",
quoteName, i->name.c_str(), quoteName,
quoteValue, i->value.c_str(), quoteValue );
i->Format( out, nestLevel+2 );
}
out->Print( nestLevel+1, ")\n" );
}
......@@ -1133,7 +1191,7 @@ class REGION : public ELEM
exclusive and are put into the kids container.
*/
RULES* rules;
RULE* rules;
public:
REGION( ELEM* aParent ) :
......@@ -1193,10 +1251,10 @@ public:
ELEM( T_grid, aParent )
{
grid_type = T_via;
direction = (DSN_T) -1;
direction = T_NONE;
dimension = 0.0;
offset = 0.0;
image_type= (DSN_T) -1;
image_type= T_NONE;
}
void Format( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError )
......@@ -1240,7 +1298,7 @@ class STRUCTURE : public ELEM
BOUNDARY* place_boundary;
VIA* via;
CONTROL* control;
RULES* rules;
RULE* rules;
typedef boost::ptr_vector<KEEPOUT> KEEPOUTS;
KEEPOUTS keepouts;
......@@ -1251,6 +1309,8 @@ class STRUCTURE : public ELEM
typedef boost::ptr_vector<REGION> REGIONS;
REGIONS regions;
RULE* place_rules;
typedef boost::ptr_vector<GRID> GRIDS;
GRIDS grids;
......@@ -1267,6 +1327,7 @@ public:
via = 0;
control = 0;
rules = 0;
place_rules = 0;
}
~STRUCTURE()
......@@ -1279,6 +1340,7 @@ public:
delete via;
delete control;
delete rules;
delete place_rules;
}
void FormatContents( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError )
......@@ -1324,6 +1386,9 @@ public:
if( rules )
rules->Format( out, nestLevel );
if( place_rules )
place_rules->Format( out, nestLevel );
for( unsigned i=0; i<grids.size(); ++i )
grids[i].Format( out, nestLevel );
}
......@@ -1338,6 +1403,155 @@ public:
};
class PLACE : public ELEM
{
friend class SPECCTRA_DB;
std::string component_id; ///< reference designator
DSN_T side;
bool isRotated;
float rotation;
bool hasVertex;
POINT vertex;
DSN_T mirror;
DSN_T status;
std::string logical_part;
RULE* place_rules;
PROPERTYS properties;
DSN_T lock_type;
//-----<mutually exclusive>--------------
RULE* rules;
REGION* region;
//-----</mutually exclusive>-------------
std::string part_number;
public:
PLACE( ELEM* aParent ) :
ELEM( T_place, aParent )
{
side = T_NONE;
isRotated = false;
hasVertex = false;
mirror = T_NONE;
status = T_NONE;
place_rules = 0;
lock_type = T_NONE;
rules = 0;
region = 0;
}
~PLACE()
{
delete place_rules;
delete rules;
delete region;
}
void SetVertext( const POINT& aVertex )
{
vertex = aVertex;
hasVertex = true;
}
void SetRotation( float aRotation )
{
rotation = aRotation;
isRotated = true;
}
void Format( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError );
};
class COMPONENT : public ELEM
{
friend class SPECCTRA_DB;
std::string image_id;
typedef boost::ptr_vector<PLACE> PLACES;
PLACES places;
public:
COMPONENT( ELEM* aParent ) :
ELEM( T_component, aParent )
{
}
void Format( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError )
{
const char* quote = out->GetQuoteChar( image_id.c_str() );
out->Print( nestLevel, "(%s %s%s%s\n", LEXER::GetTokenText( Type() ),
quote, image_id.c_str(), quote );
for( unsigned i=0; i<places.size(); ++i )
places[i].Format( out, nestLevel+1 );
out->Print( nestLevel, ")\n" );
}
};
class PLACEMENT : public ELEM
{
friend class SPECCTRA_DB;
DSN_T unit;
int resolution;
DSN_T flip_style;
typedef boost::ptr_vector<COMPONENT> COMPONENTS;
COMPONENTS components;
public:
PLACEMENT( ELEM* aParent ) :
ELEM( T_placement, aParent )
{
unit = T_NONE;
resolution = -1;
flip_style = T_NONE;
}
void FormatContents( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError )
{
if( unit != T_NONE )
{
if( resolution >= 0 )
out->Print( nestLevel, "(resolution %s %d)\n",
LEXER::GetTokenText( unit ),
resolution );
else
out->Print( nestLevel, "(unit %s)\n",
LEXER::GetTokenText( unit ) );
}
if( flip_style != T_NONE )
{
out->Print( nestLevel, "(place_control (flip_style %s))\n",
LEXER::GetTokenText( flip_style ) );
}
for( unsigned i=0; i<components.size(); ++i )
components[i].Format( out, nestLevel );
}
};
class PCB : public ELEM
{
friend class SPECCTRA_DB;
......@@ -1347,6 +1561,7 @@ class PCB : public ELEM
RESOLUTION* resolution;
UNIT* unit;
STRUCTURE* structure;
PLACEMENT* placement;
public:
......@@ -1357,6 +1572,7 @@ public:
resolution = 0;
unit = 0;
structure = 0;
placement = 0;
}
~PCB()
......@@ -1365,6 +1581,7 @@ public:
delete resolution;
delete unit;
delete structure;
delete placement;
}
void Format( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError )
......@@ -1386,6 +1603,9 @@ public:
if( structure )
structure->Format( out, nestLevel+1 );
if( placement )
placement->Format( out, nestLevel+1 );
out->Print( nestLevel, ")\n" );
}
......@@ -1460,16 +1680,17 @@ class SPECCTRA_DB : public OUTPUTFORMATTER
void doVIA( VIA* growth ) throw( IOError );
void doCONTROL( CONTROL* growth ) throw( IOError );
void doLAYER( LAYER* growth ) throw( IOError );
void doRULES( RULES* growth ) throw( IOError );
void doRULE( RULE* growth ) throw( IOError );
void doKEEPOUT( KEEPOUT* growth ) throw( IOError );
void doCIRCLE( CIRCLE* growth ) throw( IOError );
void doQARC( QARC* growth ) throw( IOError );
void doWINDOW( WINDOW* growth ) throw( IOError );
void doREGION( REGION* growth ) throw( IOError );
void doCLASS_CLASS( CLASS_CLASS* growth ) throw( IOError );
void doLAYER_RULES( LAYER_RULES* growth ) throw( IOError );
void doLAYER_RULE( LAYER_RULE* growth ) throw( IOError );
void doCLASSES( CLASSES* growth ) throw( IOError );
void doGRID( GRID* growth ) throw( IOError );
// void doPLACE_RULE( PLACE_RULE* growth, bool expect_object_type = false ) throw( IOError );
public:
......@@ -1974,8 +2195,13 @@ L_place:
break;
case T_rule:
growth->rules = new RULES( growth, T_rule );
doRULES( growth->rules );
growth->rules = new RULE( growth, T_rule );
doRULE( growth->rules );
break;
case T_place_rule:
growth->place_rules = new RULE( growth, T_place_rule );
doRULE( growth->place_rules );
break;
case T_keepout:
......@@ -2039,15 +2265,15 @@ void SPECCTRA_DB::doKEEPOUT( KEEPOUT* growth ) throw( IOError )
case T_rule:
if( growth->rules )
unexpected( tok );
growth->rules = new RULES( growth, T_rule );
doRULES( growth->rules );
growth->rules = new RULE( growth, T_rule );
doRULE( growth->rules );
break;
case T_place_rule:
if( growth->place_rules )
unexpected( tok );
growth->place_rules = new RULES( growth, T_place_rule );
doRULES( growth->place_rules );
growth->place_rules = new RULE( growth, T_place_rule );
doRULE( growth->place_rules );
break;
case T_rect:
......@@ -2447,13 +2673,13 @@ void SPECCTRA_DB::doLAYER( LAYER* growth ) throw( IOError )
break;
case T_rule:
growth->rules = new RULES( growth, T_rule );
doRULES( growth->rules );
growth->rules = new RULE( growth, T_rule );
doRULE( growth->rules );
break;
case T_property:
{
LAYER::PROPERTY property; // construct it once here, append multiple times.
PROPERTY property; // construct it once here, append multiple times.
while( (tok = nextTok()) != T_RIGHT )
{
......@@ -2470,7 +2696,7 @@ void SPECCTRA_DB::doLAYER( LAYER* growth ) throw( IOError )
expecting( T_SYMBOL );
property.value = lexer->CurText();
growth->propertys.push_back( property );
growth->properties.push_back( property );
if( nextTok() != T_RIGHT )
expecting( T_RIGHT );
......@@ -2554,11 +2780,11 @@ void SPECCTRA_DB::doLAYER( LAYER* growth ) throw( IOError )
}
void SPECCTRA_DB::doRULES( RULES* growth ) throw( IOError )
void SPECCTRA_DB::doRULE( RULE* growth ) throw( IOError )
{
std::string builder;
int bracketNesting = 1; // we already saw the opening T_LEFT
DSN_T tok = T_END;
DSN_T tok = T_NONE;
while( bracketNesting!=0 && tok!=T_EOF )
{
......@@ -2584,9 +2810,9 @@ void SPECCTRA_DB::doRULES( RULES* growth ) throw( IOError )
builder += quote_char;
}
// when the nested rule is closed with a T_RIGHT and we are back down
// When the nested rule is closed with a T_RIGHT and we are back down
// to bracketNesting == 1, (inside the <rule_descriptor> but outside
// the last rule) then save the last rule and clear the string builder.
// the last rule). Then save the last rule and clear the string builder.
if( bracketNesting == 1 )
{
growth->rules.push_back( builder );
......@@ -2599,6 +2825,94 @@ void SPECCTRA_DB::doRULES( RULES* growth ) throw( IOError )
}
#if 0
void SPECCTRA_DB::doPLACE_RULE( PLACE_RULE* growth, bool expect_object_type ) throw( IOError )
{
/* (place_rule [<structure_place_rule_object> ]
{[<spacing_descriptor> |
<permit_orient_descriptor> |
<permit_side_descriptor> |
<opposite_side_descriptor> ]}
)
*/
DSN_T tok = nextTok();
if( tok!=T_LEFT )
expecting( T_LEFT );
tok = nextTok();
if( tok==T_object_type )
{
if( !expect_object_type )
unexpected( tok );
/* [(object_type
[pcb |
image_set [large | small | discrete | capacitor | resistor]
[(image_type [smd | pin])]]
)]
*/
tok = nextTok();
switch( tok )
{
case T_pcb:
growth->object_type = tok;
break;
case T_image_set:
tok = nextTok();
switch( tok )
{
case T_large:
case T_small:
case T_discrete:
case T_capacitor:
case T_resistor:
growth->object_type = tok;
break;
default:
unexpected( lexer->CurText() );
}
break;
default:
unexpected( lexer->CurText() );
}
tok = nextTok();
if( tok == T_LEFT )
{
tok = nextTok();
if( tok != T_image_type )
expecting( T_image_type );
tok = nextTok();
if( tok!=T_smd && tok!=T_pin )
expecting( wxT("smd|pin") );
if( nextTok() != T_RIGHT )
expecting( T_RIGHT );
tok = nextTok();
}
if( tok != T_RIGHT )
expecting( T_RIGHT );
tok = nextTok();
}
/* {[<spacing_descriptor> |
<permit_orient_descriptor> |
<permit_side_descriptor> | <opposite_side_descriptor> ]}
*/
doRULE( growth );
}
#endif
void SPECCTRA_DB::doREGION( REGION* growth ) throw( IOError )
{
DSN_T tok = nextTok();
......@@ -2643,8 +2957,8 @@ void SPECCTRA_DB::doREGION( REGION* growth ) throw( IOError )
break;
case T_rule:
growth->rules = new RULES( growth, T_rule );
doRULES( growth->rules );
growth->rules = new RULE( growth, T_rule );
doRULE( growth->rules );
break;
default:
......@@ -2681,22 +2995,23 @@ void SPECCTRA_DB::doCLASS_CLASS( CLASS_CLASS* growth ) throw( IOError )
break;
case T_rule:
// only T_class_class takes a T_rule
if( growth->Type() == T_region_class_class )
unexpected( tok );
RULES* rule;
rule = new RULES( growth, T_rule );
RULE* rule;
rule = new RULE( growth, T_rule );
growth->Append( rule );
doRULES( rule );
doRULE( rule );
break;
case T_layer_rule:
// only T_class_class takes a T_layer_rule
if( growth->Type() == T_region_class_class )
unexpected( tok );
LAYER_RULES* layer_rule;
layer_rule = new LAYER_RULES( growth );
LAYER_RULE* layer_rule;
layer_rule = new LAYER_RULE( growth );
growth->Append( layer_rule );
// doLAYER_RULES( layer_rule );
// @todo
doLAYER_RULE( layer_rule );
break;
default:
......@@ -2726,7 +3041,6 @@ void SPECCTRA_DB::doCLASSES( CLASSES* growth ) throw( IOError )
growth->class_ids.push_back( lexer->CurText() );
} while( (tok = nextTok()) != T_RIGHT );
}
......@@ -2795,6 +3109,33 @@ void SPECCTRA_DB::doGRID( GRID* growth ) throw( IOError )
}
void SPECCTRA_DB::doLAYER_RULE( LAYER_RULE* growth ) throw( IOError )
{
DSN_T tok = nextTok();
if( !isSymbol(tok ) )
expecting( wxT("<layer_id>") );
do
{
growth->layer_ids.push_back( lexer->CurText() );
} while( isSymbol(tok = nextTok()) );
if( nextTok() != T_LEFT )
expecting( T_LEFT );
if( nextTok() != T_rule )
expecting( T_rule );
growth->rule = new RULE( growth, T_rule );
doRULE( growth->rule );
if( nextTok() != T_RIGHT )
expecting( T_RIGHT );
}
void SPECCTRA_DB::Print( int nestLevel, const char* fmt, ... ) throw( IOError )
{
va_list args;
......@@ -2911,57 +3252,113 @@ int ELEM::FindElem( DSN_T aType, int instanceNum )
//-----<PARSER>-----------------------------------------------------------
void PARSER::Format( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError )
void PARSER::FormatContents( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError )
{
out->Print( nestLevel, "(%s\n", LEXER::GetTokenText( Type() ) );
out->Print( nestLevel+1, "(string_quote %c)\n", string_quote );
out->Print( nestLevel+1, "(space_in_quoted_tokens %s)\n", space_in_quoted_tokens ? "on" : "off" );
out->Print( nestLevel+1, "(host_cad \"%s\")\n", host_cad.c_str() );
out->Print( nestLevel+1, "(host_version \"%s\")\n", host_version.c_str() );
out->Print( nestLevel, "(string_quote %c)\n", string_quote );
out->Print( nestLevel, "(space_in_quoted_tokens %s)\n", space_in_quoted_tokens ? "on" : "off" );
out->Print( nestLevel, "(host_cad \"%s\")\n", host_cad.c_str() );
out->Print( nestLevel, "(host_version \"%s\")\n", host_version.c_str() );
if( const_id1.length()>0 || const_id2.length()>0 )
out->Print( nestLevel+1, "(constant %c%s%c %c%s%c)\n",
out->Print( nestLevel, "(constant %c%s%c %c%s%c)\n",
string_quote, const_id1.c_str(), string_quote,
string_quote, const_id2.c_str(), string_quote );
if( routes_include_testpoint || routes_include_guides || routes_include_image_conductor )
out->Print( nestLevel+1, "(routes_include%s%s%s)\n",
out->Print( nestLevel, "(routes_include%s%s%s)\n",
routes_include_testpoint ? " testpoint" : "",
routes_include_guides ? " guides" : "",
routes_include_image_conductor ? " image_conductor" : "");
if( wires_include_testpoint )
out->Print( nestLevel+1, "(wires_include testpoint)\n" );
out->Print( nestLevel, "(wires_include testpoint)\n" );
if( !via_rotate_first )
out->Print( nestLevel+1, "(via_rotate_first off)\n" );
out->Print( nestLevel, "(via_rotate_first off)\n" );
out->Print( nestLevel+1, "(case_sensitive %s)\n", case_sensitive ? "on" : "off" );
out->Print( nestLevel, ")\n" );
out->Print( nestLevel, "(case_sensitive %s)\n", case_sensitive ? "on" : "off" );
}
} // namespace DSN
void PLACE::Format( OUTPUTFORMATTER* out, int nestLevel ) throw( IOError )
{
const char* quote = out->GetQuoteChar( component_id.c_str() );
out->Print( nestLevel, "(%s %s%s%s\n", LEXER::GetTokenText( Type() ),
quote, component_id.c_str(), quote );
using namespace DSN;
out->Print( nestLevel+1, "%s", "" );
// a test to verify some of the list management functions.
if( hasVertex )
out->Print( 0, "%f %f ", vertex.x, vertex.y );
int main( int argc, char** argv )
{
#if 0
ELEM parent( T_pcb );
if( side != T_NONE )
out->Print( 0, "%s ", LEXER::GetTokenText( side ) );
ELEM* child = new ELEM( T_absolute );
if( isRotated )
out->Print( 0, "%f ", rotation );
parent.Append( child );
if( mirror != T_NONE )
out->Print( 0, "(mirror %s)", LEXER::GetTokenText( mirror ) );
parent[0]->Test();
if( status != T_NONE )
out->Print( 0, "(status %s)", LEXER::GetTokenText( status ) );
child->Append( new ELEM( T_absolute ) );
#else
if( logical_part.size() )
{
quote = out->GetQuoteChar( logical_part.c_str() );
out->Print( 0, "(logical_part %s%s%s)",
quote, logical_part.c_str(), quote );
}
if( place_rules || properties.size() || lock_type!=T_NONE || rules || region || part_number.size() )
{
out->Print( 0, "\n" );
if( place_rules )
{
place_rules->Format( out, nestLevel+1 );
}
if( properties.size() )
{
out->Print( nestLevel+1, "(property \n" );
for( PROPERTYS::const_iterator i = properties.begin();
i != properties.end(); ++i )
{
i->Format( out, nestLevel+2 );
}
out->Print( nestLevel+1, ")\n" );
}
if( lock_type != T_NONE )
out->Print( nestLevel+1, "(lock_type %s)\n",
LEXER::GetTokenText(lock_type) );
if( rules )
rules->Format( out, nestLevel+1 );
if( region )
region->Format( out, nestLevel+1 );
if( part_number.size() )
{
const char* quote = out->GetQuoteChar( part_number.c_str() );
out->Print( nestLevel+1, "(PN %s%s%s)\n",
quote, part_number.c_str(), quote );
}
}
else
out->Print( 0, ")\n" );
}
} // namespace DSN
using namespace DSN;
// unit test this source file
int main( int argc, char** argv )
{
wxString filename( wxT("/tmp/fpcroute/Sample_1sided/demo_1sided.dsn") );
// wxString filename( wxT("/tmp/testdesigns/test.dsn") );
......@@ -2985,8 +3382,6 @@ int main( int argc, char** argv )
db.Export( wxT("/tmp/export.dsn"), 0 );
#endif
}
......
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