kicad/pcbnew/eagle_plugin.cpp

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2012 SoftPLC Corporation, Dick Hollenbeck <dick@softplc.com>
* Copyright (C) 2012 KiCad Developers, see change_log.txt for contributors.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
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/*
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Pcbnew PLUGIN for Eagle 6.x XML *.brd and footprint format.
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XML parsing and converting:
Getting line numbers and byte offsets from the source XML file is not
possible using currently available XML libraries within KiCad project:
wxXmlDocument and boost::property_tree.
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property_tree will give line numbers but no byte offsets, and only during
document loading. This means that if we have a problem after the document is
successfully loaded, there is no way to correlate back to line number and byte
offset of the problem. So a different approach is taken, one which relies on the
XML elements themselves using an XPATH type of reporting mechanism. The path to
the problem is reported in the error messages. This means keeping track of that
path as we traverse the XML document for the sole purpose of accurate error
reporting.
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User can load the source XML file into firefox or other xml browser and follow
our error message.
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Load() TODO's
*) test footprint placement on board back
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*) netclass info?
*) verify zone fill clearances are correct
*) write BOARD::Move() and reposition to center of page from centerBoard()
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*/
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#include <errno.h>
#include <wx/string.h>
#include <boost/property_tree/ptree.hpp>
#include <boost/property_tree/xml_parser.hpp>
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#include <eagle_plugin.h>
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#include <common.h>
#include <macros.h>
#include <fctsys.h>
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#include <trigo.h>
#include <wx/filename.h>
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#include <class_board.h>
#include <class_module.h>
#include <class_track.h>
#include <class_edge_mod.h>
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#include <class_zone.h>
#include <class_pcb_text.h>
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using namespace boost::property_tree;
using namespace std;
typedef EAGLE_PLUGIN::BIU BIU;
typedef PTREE::const_assoc_iterator CA_ITER;
typedef PTREE::const_iterator CITER;
typedef std::pair<CA_ITER, CA_ITER> CA_ITER_RANGE;
typedef MODULE_MAP::iterator MODULE_ITER;
typedef MODULE_MAP::const_iterator MODULE_CITER;
typedef boost::optional<std::string> opt_string;
typedef boost::optional<int> opt_int;
typedef boost::optional<double> opt_double;
typedef boost::optional<bool> opt_bool;
/// segment (element) of our XPATH into the Eagle XML document tree in PTREE form.
struct TRIPLET
{
const char* element;
const char* attribute;
const char* value;
TRIPLET( const char* aElement, const char* aAttribute = "", const char* aValue = "" ) :
element( aElement ),
attribute( aAttribute ),
value( aValue )
{}
};
/**
* Class XPATH
* keeps track of what we are working on within a PTREE.
* Then if an exception is thrown, the place within the tree that gave us
* grief can be reported almost accurately. To minimally impact
* speed, merely assign const char* pointers during the tree walking
* expedition. The const char* pointers must be to C strings residing either in
* the data or code segment (i.e. "compiled in") or within the XML document, but
* not on the stack, since the stack is unwound during the throwing of the
* exception. The XML document will not immediately vanish since we capture
* the xpath (using function Contents()) before the XML document tree (PTREE)
* is destroyed.
*/
class XPATH
{
std::vector<TRIPLET> p;
public:
void push( const char* aPathSegment, const char* aAttribute="" )
{
p.push_back( TRIPLET( aPathSegment, aAttribute ) );
}
void clear() { p.clear(); }
void pop() { p.pop_back(); }
/// modify the last path node's value
void Value( const char* aValue )
{
p.back().value = aValue;
}
/// modify the last path node's attribute
void Attribute( const char* aAttribute )
{
p.back().attribute = aAttribute;
}
/// return the contents of the XPATH as a single string
std::string Contents()
{
typedef std::vector<TRIPLET>::const_iterator CITER;
std::string ret;
for( CITER it = p.begin(); it != p.end(); ++it )
{
if( it != p.begin() )
ret += '.';
ret += it->element;
if( it->attribute[0] && it->value[0] )
{
ret += '[';
ret += it->attribute;
ret += '=';
ret += it->value;
ret += ']';
}
}
return ret;
}
};
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/**
* Function parseOptionalBool
* returns an opt_bool and sets it true or false according to the presence
* and value of an attribute within the CPTREE element.
*/
static opt_bool parseOptionalBool( CPTREE& attribs, const char* aName )
{
opt_bool ret;
opt_string stemp = attribs.get_optional<std::string>( aName );
if( stemp )
ret = !stemp->compare( "yes" );
return ret;
}
// All of the 'E'STRUCTS below merely hold Eagle XML information verbatim, in binary.
// For maintenance and troubleshooting purposes, it was thought that we'd need to
// separate the conversion process into distinct steps. There is no intent to have KiCad
// forms of information in these 'E'STRUCTS. They are only binary forms
// of the Eagle information in the corresponding Eagle XML nodes.
/// Eagle rotation
struct EROT
{
bool mirror;
bool spin;
double degrees;
EROT() :
mirror( false ),
spin( false ),
degrees( 0 )
{}
EROT( double aDegrees ) :
mirror( false ),
spin( false ),
degrees( aDegrees )
{}
};
typedef boost::optional<EROT> opt_erot;
/// parse an Eagle XML "rot" field. Unfortunately the DTD seems not to explain
/// this format very well. [S][M]R<degrees>. Examples: "R90", "MR180", "SR180"
static EROT erot( const std::string& aRot )
{
EROT rot;
rot.spin = aRot.find( 'S' ) != aRot.npos;
rot.mirror = aRot.find( 'M' ) != aRot.npos;
rot.degrees = strtod( aRot.c_str()
+ 1 // skip leading 'R'
+ int( rot.spin ) // skip optional leading 'S'
+ int( rot.mirror ), // skip optional leading 'M'
NULL );
return rot;
}
/// Eagle "rot" fields are optional, handle that by returning opt_erot.
static opt_erot parseOptionalEROT( CPTREE& attribs )
{
opt_erot ret;
opt_string stemp = attribs.get_optional<std::string>( "rot" );
if( stemp )
ret = erot( *stemp );
return ret;
}
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/// Eagle wire
struct EWIRE
{
double x1;
double y1;
double x2;
double y2;
double width;
int layer;
// for style: (continuous | longdash | shortdash | dashdot)
enum {
CONTINUOUS,
LONGDASH,
SHORTDASH,
DASHDOT,
};
opt_int style;
opt_double curve; ///< range is -359.9..359.9
// for cap: (flat | round)
enum {
FLAT,
ROUND,
};
opt_int cap;
EWIRE( CPTREE& aWire );
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};
/**
* Constructor EWIRE
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* converts a "wire"'s xml attributes ( &ltwire&gt )
* to binary without additional conversion.
* This result is an EWIRE with the &ltwire&gt textual data merely converted to binary.
*/
EWIRE::EWIRE( CPTREE& aWire )
{
CPTREE& attribs = aWire.get_child( "<xmlattr>" );
/*
<!ELEMENT wire EMPTY>
<!ATTLIST wire
x1 %Coord; #REQUIRED
y1 %Coord; #REQUIRED
x2 %Coord; #REQUIRED
y2 %Coord; #REQUIRED
width %Dimension; #REQUIRED
layer %Layer; #REQUIRED
extent %Extent; #IMPLIED -- only applicable for airwires --
style %WireStyle; "continuous"
curve %WireCurve; "0"
cap %WireCap; "round" -- only applicable if 'curve' is not zero --
>
*/
x1 = attribs.get<double>( "x1" );
y1 = attribs.get<double>( "y1" );
x2 = attribs.get<double>( "x2" );
y2 = attribs.get<double>( "y2" );
width = attribs.get<double>( "width" );
layer = attribs.get<int>( "layer" );
curve = attribs.get_optional<double>( "curve" );
opt_string s = attribs.get_optional<std::string>( "style" );
if( s )
{
if( !s->compare( "continuous" ) )
style = EWIRE::CONTINUOUS;
else if( !s->compare( "longdash" ) )
style = EWIRE::LONGDASH;
else if( !s->compare( "shortdash" ) )
style = EWIRE::SHORTDASH;
else if( !s->compare( "dashdot" ) )
style = EWIRE::DASHDOT;
}
s = attribs.get_optional<std::string>( "cap" );
if( s )
{
if( !s->compare( "round" ) )
cap = EWIRE::ROUND;
else if( !s->compare( "flat" ) )
cap = EWIRE::FLAT;
}
// ignoring extent
}
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/// Eagle via
struct EVIA
{
double x;
double y;
int layer_front_most; /// < extent
int layer_back_most; /// < inclusive
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double drill;
opt_double diam;
opt_string shape;
EVIA( CPTREE& aVia );
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};
EVIA::EVIA( CPTREE& aVia )
{
CPTREE& attribs = aVia.get_child( "<xmlattr>" );
/*
<!ELEMENT via EMPTY>
<!ATTLIST via
x %Coord; #REQUIRED
y %Coord; #REQUIRED
extent %Extent; #REQUIRED
drill %Dimension; #REQUIRED
diameter %Dimension; "0"
shape %ViaShape; "round"
alwaysstop %Bool; "no"
>
*/
x = attribs.get<double>( "x" );
y = attribs.get<double>( "y" );
std::string ext = attribs.get<std::string>( "extent" );
sscanf( ext.c_str(), "%u-%u", &layer_front_most, &layer_back_most );
drill = attribs.get<double>( "drill" );
diam = attribs.get_optional<double>( "diameter" );
shape = attribs.get_optional<std::string>( "shape" );
}
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/// Eagle circle
struct ECIRCLE
{
double x;
double y;
double radius;
double width;
int layer;
ECIRCLE( CPTREE& aCircle );
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};
ECIRCLE::ECIRCLE( CPTREE& aCircle )
{
CPTREE& attribs = aCircle.get_child( "<xmlattr>" );
/*
<!ELEMENT circle EMPTY>
<!ATTLIST circle
x %Coord; #REQUIRED
y %Coord; #REQUIRED
radius %Coord; #REQUIRED
width %Dimension; #REQUIRED
layer %Layer; #REQUIRED
>
*/
x = attribs.get<double>( "x" );
y = attribs.get<double>( "y" );
radius = attribs.get<double>( "radius" );
width = attribs.get<double>( "width" );
layer = attribs.get<int>( "layer" );
}
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/// Eagle XML rectangle in binary
struct ERECT
{
double x1;
double y1;
double x2;
double y2;
int layer;
opt_erot rot;
ERECT( CPTREE& aRect );
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};
ERECT::ERECT( CPTREE& aRect )
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{
CPTREE& attribs = aRect.get_child( "<xmlattr>" );
/*
<!ELEMENT rectangle EMPTY>
<!ATTLIST rectangle
x1 %Coord; #REQUIRED
y1 %Coord; #REQUIRED
x2 %Coord; #REQUIRED
y2 %Coord; #REQUIRED
layer %Layer; #REQUIRED
rot %Rotation; "R0"
>
*/
x1 = attribs.get<double>( "x1" );
y1 = attribs.get<double>( "y1" );
x2 = attribs.get<double>( "x2" );
y2 = attribs.get<double>( "y2" );
layer = attribs.get<int>( "layer" );
rot = parseOptionalEROT( attribs );
}
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/// Eagle "attribute" XML element, no foolin'.
struct EATTR
{
std::string name;
opt_string value;
opt_double x;
opt_double y;
opt_double size;
opt_int layer;
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opt_double ratio;
opt_erot rot;
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enum { // for 'display'
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Off,
VALUE,
NAME,
BOTH,
};
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opt_int display;
EATTR( CPTREE& aTree );
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EATTR() {}
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};
/**
* Constructor EATTR
* parses an Eagle "attribute" XML element. Note that an attribute element
* is different than an XML element attribute. The attribute element is a
* full XML node in and of itself, and has attributes of its own. Blame Eagle.
*/
EATTR::EATTR( CPTREE& aAttribute )
{
CPTREE& attribs = aAttribute.get_child( "<xmlattr>" );
/*
<!ELEMENT attribute EMPTY>
<!ATTLIST attribute
name %String; #REQUIRED
value %String; #IMPLIED
x %Coord; #IMPLIED
y %Coord; #IMPLIED
size %Dimension; #IMPLIED
layer %Layer; #IMPLIED
font %TextFont; #IMPLIED
ratio %Int; #IMPLIED
rot %Rotation; "R0"
display %AttributeDisplay; "value" -- only in <element> or <instance> context --
constant %Bool; "no" -- only in <device> context --
>
*/
name = attribs.get<std::string>( "name" ); // #REQUIRED
value = attribs.get_optional<std::string>( "value" );
x = attribs.get_optional<double>( "x" );
y = attribs.get_optional<double>( "y" );
size = attribs.get_optional<double>( "size" );
// KiCad cannot currently put a TEXTE_MODULE on a different layer than the MODULE
// Eagle can it seems.
layer = attribs.get_optional<int>( "layer" );
ratio = attribs.get_optional<double>( "ratio" );
rot = parseOptionalEROT( attribs );
opt_string stemp = attribs.get_optional<std::string>( "display" );
if( stemp )
{
// (off | value | name | both)
if( !stemp->compare( "off" ) )
display = EATTR::Off;
else if( !stemp->compare( "value" ) )
display = EATTR::VALUE;
else if( !stemp->compare( "name" ) )
display = EATTR::NAME;
else if( !stemp->compare( "both" ) )
display = EATTR::BOTH;
}
}
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/// Eagle text element
struct ETEXT
{
std::string text;
double x;
double y;
double size;
int layer;
opt_string font;
opt_double ratio;
opt_erot rot;
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enum { // for align
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CENTER,
CENTER_LEFT,
TOP_CENTER,
TOP_LEFT,
TOP_RIGHT,
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// opposites are -1 x above, used by code tricks in here
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CENTER_RIGHT = -CENTER_LEFT,
BOTTOM_CENTER = -TOP_CENTER,
BOTTOM_LEFT = -TOP_RIGHT,
BOTTOM_RIGHT = -TOP_LEFT,
};
opt_int align;
ETEXT( CPTREE& aText );
};
ETEXT::ETEXT( CPTREE& aText )
{
CPTREE& attribs = aText.get_child( "<xmlattr>" );
/*
<!ELEMENT text (#PCDATA)>
<!ATTLIST text
x %Coord; #REQUIRED
y %Coord; #REQUIRED
size %Dimension; #REQUIRED
layer %Layer; #REQUIRED
font %TextFont; "proportional"
ratio %Int; "8"
rot %Rotation; "R0"
align %Align; "bottom-left"
>
*/
text = aText.data();
x = attribs.get<double>( "x" );
y = attribs.get<double>( "y" );
size = attribs.get<double>( "size" );
layer = attribs.get<int>( "layer" );
font = attribs.get_optional<std::string>( "font" );
ratio = attribs.get_optional<double>( "ratio" );
rot = parseOptionalEROT( attribs );
opt_string stemp = attribs.get_optional<std::string>( "align" );
if( stemp )
{
// (bottom-left | bottom-center | bottom-right | center-left |
// center | center-right | top-left | top-center | top-right)
if( !stemp->compare( "center" ) )
align = ETEXT::CENTER;
else if( !stemp->compare( "center-right" ) )
align = ETEXT::CENTER_RIGHT;
else if( !stemp->compare( "top-left" ) )
align = ETEXT::TOP_LEFT;
else if( !stemp->compare( "top-center" ) )
align = ETEXT::TOP_CENTER;
else if( !stemp->compare( "top-right" ) )
align = ETEXT::TOP_RIGHT;
else if( !stemp->compare( "bottom-left" ) )
align = ETEXT::BOTTOM_LEFT;
else if( !stemp->compare( "bottom-center" ) )
align = ETEXT::BOTTOM_CENTER;
else if( !stemp->compare( "bottom-right" ) )
align = ETEXT::BOTTOM_RIGHT;
else if( !stemp->compare( "center-left" ) )
align = ETEXT::CENTER_LEFT;
}
}
/// Eagle thru hol pad
struct EPAD
{
std::string name;
double x;
double y;
double drill;
opt_double diameter;
// for shape: (square | round | octagon | long | offset)
enum {
SQUARE,
ROUND,
OCTAGON,
LONG,
OFFSET,
};
opt_int shape;
opt_erot rot;
opt_bool stop;
opt_bool thermals;
opt_bool first;
EPAD( CPTREE& aPad );
};
EPAD::EPAD( CPTREE& aPad )
{
CPTREE& attribs = aPad.get_child( "<xmlattr>" );
/*
<!ELEMENT pad EMPTY>
<!ATTLIST pad
name %String; #REQUIRED
x %Coord; #REQUIRED
y %Coord; #REQUIRED
drill %Dimension; #REQUIRED
diameter %Dimension; "0"
shape %PadShape; "round"
rot %Rotation; "R0"
stop %Bool; "yes"
thermals %Bool; "yes"
first %Bool; "no"
>
*/
// #REQUIRED says DTD, throw exception if not found
name = attribs.get<std::string>( "name" );
x = attribs.get<double>( "x" );
y = attribs.get<double>( "y" );
drill = attribs.get<double>( "drill" );
diameter = attribs.get_optional<double>( "diameter" );
opt_string s = attribs.get_optional<std::string>( "shape" );
if( s )
{
// (square | round | octagon | long | offset)
if( !s->compare( "square" ) )
shape = EPAD::SQUARE;
else if( !s->compare( "round" ) )
shape = EPAD::ROUND;
else if( !s->compare( "octagon" ) )
shape = EPAD::OCTAGON;
else if( !s->compare( "long" ) )
shape = EPAD::LONG;
else if( !s->compare( "offset" ) )
shape = EPAD::OFFSET;
}
rot = parseOptionalEROT( attribs );
stop = parseOptionalBool( attribs, "stop" );
thermals = parseOptionalBool( attribs, "thermals" );
first = parseOptionalBool( attribs, "first" );
}
/// Eagle SMD pad
struct ESMD
{
std::string name;
double x;
double y;
double dx;
double dy;
int layer;
opt_int roundness;
opt_erot rot;
opt_bool stop;
opt_bool thermals;
opt_bool cream;
ESMD( CPTREE& aSMD );
};
ESMD::ESMD( CPTREE& aSMD )
{
CPTREE& attribs = aSMD.get_child( "<xmlattr>" );
/*
<!ATTLIST smd
name %String; #REQUIRED
x %Coord; #REQUIRED
y %Coord; #REQUIRED
dx %Dimension; #REQUIRED
dy %Dimension; #REQUIRED
layer %Layer; #REQUIRED
roundness %Int; "0"
rot %Rotation; "R0"
stop %Bool; "yes"
thermals %Bool; "yes"
cream %Bool; "yes"
>
*/
// DTD #REQUIRED, throw exception if not found
name = attribs.get<std::string>( "name" );
x = attribs.get<double>( "x" );
y = attribs.get<double>( "y" );
dx = attribs.get<double>( "dx" );
dy = attribs.get<double>( "dy" );
layer = attribs.get<int>( "layer" );
rot = parseOptionalEROT( attribs );
roundness = attribs.get_optional<int>( "roundness" );
thermals = parseOptionalBool( attribs, "thermals" );
stop = parseOptionalBool( attribs, "stop" );
thermals = parseOptionalBool( attribs, "thermals" );
cream = parseOptionalBool( attribs, "cream" );
}
struct EVERTEX
{
double x;
double y;
EVERTEX( CPTREE& aVertex );
};
EVERTEX::EVERTEX( CPTREE& aVertex )
{
CPTREE& attribs = aVertex.get_child( "<xmlattr>" );
/*
<!ELEMENT vertex EMPTY>
<!ATTLIST vertex
x %Coord; #REQUIRED
y %Coord; #REQUIRED
curve %WireCurve; "0" -- the curvature from this vertex to the next one --
>
*/
x = attribs.get<double>( "x" );
y = attribs.get<double>( "y" );
}
/// Eagle polygon, without vertices which are parsed as needed
struct EPOLYGON
{
double width;
int layer;
opt_double spacing;
enum { // for pour
SOLID,
HATCH,
CUTOUT,
};
opt_int pour;
opt_double isolate;
opt_bool orphans;
opt_bool thermals;
opt_int rank;
EPOLYGON( CPTREE& aPolygon );
};
EPOLYGON::EPOLYGON( CPTREE& aPolygon )
{
CPTREE& attribs = aPolygon.get_child( "<xmlattr>" );
/*
<!ATTLIST polygon
width %Dimension; #REQUIRED
layer %Layer; #REQUIRED
spacing %Dimension; #IMPLIED
pour %PolygonPour; "solid"
isolate %Dimension; #IMPLIED -- only in <signal> or <package> context --
orphans %Bool; "no" -- only in <signal> context --
thermals %Bool; "yes" -- only in <signal> context --
rank %Int; "0" -- 1..6 in <signal> context, 0 or 7 in <package> context --
>
*/
width = attribs.get<double>( "width" );
layer = attribs.get<int>( "layer" );
spacing = attribs.get_optional<double>( "spacing" );
opt_string s = attribs.get_optional<std::string>( "pour" );
if( s )
{
// (solid | hatch | cutout)
if( !s->compare( "hatch" ) )
pour = EPOLYGON::HATCH;
else if( !s->compare( "cutout" ) )
pour = EPOLYGON::CUTOUT;
else
pour = EPOLYGON::SOLID;
}
orphans = parseOptionalBool( attribs, "orphans" );
thermals = parseOptionalBool( attribs, "thermals" );
rank = attribs.get_optional<int>( "rank" );
}
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/// Eagle hole element
struct EHOLE
{
double x;
double y;
double drill;
EHOLE( CPTREE& aHole );
};
EHOLE::EHOLE( CPTREE& aHole )
{
CPTREE& attribs = aHole.get_child( "<xmlattr>" );
/*
<!ELEMENT hole EMPTY>
<!ATTLIST hole
x %Coord; #REQUIRED
y %Coord; #REQUIRED
drill %Dimension; #REQUIRED
>
*/
// #REQUIRED:
x = attribs.get<double>( "x" );
y = attribs.get<double>( "y" );
drill = attribs.get<double>( "drill" );
}
/// Eagle element element
struct EELEMENT
{
std::string name;
std::string library;
std::string package;
std::string value;
double x;
double y;
opt_bool locked;
// opt_bool smashed;
opt_erot rot;
EELEMENT( CPTREE& aElement );
};
EELEMENT::EELEMENT( CPTREE& aElement )
{
CPTREE& attribs = aElement.get_child( "<xmlattr>" );
/*
<!ELEMENT element (attribute*, variant*)>
<!ATTLIST element
name %String; #REQUIRED
library %String; #REQUIRED
package %String; #REQUIRED
value %String; #REQUIRED
x %Coord; #REQUIRED
y %Coord; #REQUIRED
locked %Bool; "no"
smashed %Bool; "no"
rot %Rotation; "R0"
>
*/
// #REQUIRED
name = attribs.get<std::string>( "name" );
library = attribs.get<std::string>( "library" );
package = attribs.get<std::string>( "package" );
value = attribs.get<std::string>( "value" );
x = attribs.get<double>( "x" );
y = attribs.get<double>( "y" );
// optional
locked = parseOptionalBool( attribs, "locked" );
// smashed = pasreOptionalBool( attribs, "smashed" );
rot = parseOptionalEROT( attribs );
}
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struct ELAYER
{
int number;
std::string name;
int color;
int fill;
opt_bool visible;
opt_bool active;
ELAYER( CPTREE& aLayer );
};
ELAYER::ELAYER( CPTREE& aLayer )
{
CPTREE& attribs = aLayer.get_child( "<xmlattr>" );
/*
<!ELEMENT layer EMPTY>
<!ATTLIST layer
number %Layer; #REQUIRED
name %String; #REQUIRED
color %Int; #REQUIRED
fill %Int; #REQUIRED
visible %Bool; "yes"
active %Bool; "yes"
>
*/
number = attribs.get<int>( "number" );
name = attribs.get<std::string>( "name" );
color = attribs.get<int>( "color" );
visible = parseOptionalBool( attribs, "visible" );
active = parseOptionalBool( attribs, "active" );
}
/// parse an eagle distance which is either straight mm or mils if there is "mil" suffix.
static double parseEagle( const std::string& aDistance )
{
double ret = strtod( aDistance.c_str(), NULL );
if( aDistance.npos != aDistance.find( "mil" ) )
ret = IU_PER_MILS * ret;
else
ret = IU_PER_MM * ret;
return ret;
}
/// subset of eagle.drawing.board.designrules in the XML document
struct ERULES
{
int psElongationLong; ///< percent over 100%. 0-> not elongated, 100->twice as wide as is tall
///< Goes into making a scaling factor for "long" pads.
int psElongationOffset; ///< the offset of the hole within the "long" pad.
double rvPadTop; ///< top pad size as percent of drill size
// double rvPadBottom; ///< bottom pad size as percent of drill size
double rlMinPadTop; ///< minimum copper annulus on through hole pads
double rlMaxPadTop; ///< maximum copper annulus on through hole pads
double rvViaOuter; ///< copper annulus is this percent of via hole
double rlMinViaOuter; ///< minimum copper annulus on via
double rlMaxViaOuter; ///< maximum copper annulus on via
ERULES() :
psElongationLong ( 100 ),
rvPadTop ( 0.25 ),
// rvPadBottom ( 0.25 ),
rlMinPadTop ( Mils2iu( 10 ) ),
rlMaxPadTop ( Mils2iu( 20 ) ),
rvViaOuter ( 0.25 ),
rlMinViaOuter ( Mils2iu( 10 ) ),
rlMaxViaOuter ( Mils2iu( 20 ) )
{}
void parse( CPTREE& aRules );
};
void ERULES::parse( CPTREE& aRules )
{
for( CITER it = aRules.begin(); it != aRules.end(); ++it )
{
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if( it->first != "param" )
continue;
CPTREE& attribs = it->second.get_child( "<xmlattr>" );
const std::string& name = attribs.get<std::string>( "name" );
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if( name == "psElongationLong" )
psElongationLong = attribs.get<int>( "value" );
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else if( name == "psElongationOffset" )
psElongationOffset = attribs.get<int>( "value" );
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else if( name == "rvPadTop" )
rvPadTop = attribs.get<double>( "value" );
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else if( name == "rlMinPadTop" )
rlMinPadTop = parseEagle( attribs.get<std::string>( "value" ) );
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else if( name == "rlMaxPadTop" )
rlMaxPadTop = parseEagle( attribs.get<std::string>( "value" ) );
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else if( name == "rvViaOuter" )
rvViaOuter = attribs.get<double>( "value" );
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else if( name == "rlMinViaOuter" )
rlMinViaOuter = parseEagle( attribs.get<std::string>( "value" ) );
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else if( name == "rlMaxViaOuter" )
rlMaxViaOuter = parseEagle( attribs.get<std::string>( "value" ) );
}
}
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/// Assemble a two part key as a simple concatonation of aFirst and aSecond parts,
/// using a separator.
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static inline std::string makeKey( const std::string& aFirst, const std::string& aSecond )
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{
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std::string key = aFirst + '\x02' + aSecond;
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return key;
}
/// Make a unique time stamp
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static inline unsigned long timeStamp( CPTREE& aTree )
{
// in this case from a unique tree memory location
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return (unsigned long)(void*) &aTree;
}
EAGLE_PLUGIN::EAGLE_PLUGIN() :
m_rules( new ERULES() ),
m_xpath( new XPATH() )
// m_mod_time( wxDateTime::Now() )
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{
init( NULL );
}
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EAGLE_PLUGIN::~EAGLE_PLUGIN()
{
delete m_rules;
delete m_xpath;
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}
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const wxString& EAGLE_PLUGIN::PluginName() const
{
static const wxString name = wxT( "Eagle" );
return name;
}
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const wxString& EAGLE_PLUGIN::GetFileExtension() const
{
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static const wxString extension = wxT( "brd" );
return extension;
}
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int inline EAGLE_PLUGIN::kicad( double d ) const
{
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return KiROUND( biu_per_mm * d );
}
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wxSize inline EAGLE_PLUGIN::kicad_fontz( double d ) const
{
// texts seem to better match eagle when scaled down by 0.95
int kz = kicad( d ) * 95 / 100;
return wxSize( kz, kz );
}
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BOARD* EAGLE_PLUGIN::Load( const wxString& aFileName, BOARD* aAppendToMe, PROPERTIES* aProperties )
{
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LOCALE_IO toggle; // toggles on, then off, the C locale.
PTREE doc;
init( aProperties );
m_board = aAppendToMe ? aAppendToMe : new BOARD();
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// Give the filename to the board if it's new
if( !aAppendToMe )
m_board->SetFileName( aFileName );
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// delete on exception, iff I own m_board, according to aAppendToMe
auto_ptr<BOARD> deleter( aAppendToMe ? NULL : m_board );
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try
{
// 8 bit "filename" should be encoded according to disk filename encoding,
// (maybe this is current locale, maybe not, its a filesystem issue),
// and is not necessarily utf8.
std::string filename = (const char*) aFileName.char_str( wxConvFile );
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read_xml( filename, doc, xml_parser::trim_whitespace | xml_parser::no_comments );
loadAllSections( doc );
// should be empty, else missing m_xpath->pop()
wxASSERT( m_xpath->Contents().size() == 0 );
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}
catch( file_parser_error fpe )
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{
// for xml_parser_error, what() has the line number in it,
// but no byte offset. That should be an adequate error message.
THROW_IO_ERROR( fpe.what() );
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}
// Class ptree_error is a base class for xml_parser_error & file_parser_error,
// so one catch should be OK for all errors.
catch( ptree_error pte )
{
std::string errmsg = pte.what();
errmsg += " @\n";
errmsg += m_xpath->Contents();
THROW_IO_ERROR( errmsg );
}
// IO_ERROR exceptions are left uncaught, they pass upwards from here.
centerBoard();
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deleter.release();
return m_board;
}
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void EAGLE_PLUGIN::init( PROPERTIES* aProperties )
{
m_hole_count = 0;
m_xpath->clear();
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m_pads_to_nets.clear();
// m_templates.clear(); this is the FOOTPRINT cache too
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m_board = NULL;
m_props = aProperties;
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mm_per_biu = 1/IU_PER_MM;
biu_per_mm = IU_PER_MM;
delete m_rules;
m_rules = new ERULES();
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}
void EAGLE_PLUGIN::loadAllSections( CPTREE& aDoc )
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{
CPTREE& drawing = aDoc.get_child( "eagle.drawing" );
CPTREE& board = drawing.get_child( "board" );
m_xpath->push( "eagle.drawing" );
{
m_xpath->push( "board" );
CPTREE& designrules = board.get_child( "designrules" );
loadDesignRules( designrules );
m_xpath->pop();
}
{
CPTREE& layers = drawing.get_child( "layers" );
loadLayerDefs( layers );
}
{
m_xpath->push( "board" );
CPTREE& plain = board.get_child( "plain" );
loadPlain( plain );
CPTREE& signals = board.get_child( "signals" );
loadSignals( signals );
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CPTREE& libs = board.get_child( "libraries" );
loadLibraries( libs );
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CPTREE& elems = board.get_child( "elements" );
loadElements( elems );
m_xpath->pop(); // "board"
}
m_xpath->pop(); // "eagle.drawing"
}
void EAGLE_PLUGIN::loadDesignRules( CPTREE& aDesignRules )
{
m_xpath->push( "designrules" );
m_rules->parse( aDesignRules );
m_xpath->pop(); // "designrules"
}
void EAGLE_PLUGIN::loadLayerDefs( CPTREE& aLayers )
{
m_xpath->push( "layers.layer" );
typedef std::vector<ELAYER> ELAYERS;
typedef ELAYERS::const_iterator EITER;
ELAYERS cu; // copper layers
// find the subset of layers that are copper, and active
for( CITER layer = aLayers.begin(); layer != aLayers.end(); ++layer )
{
ELAYER elayer( layer->second );
if( elayer.number >= 1 && elayer.number <= 16 && ( !elayer.active || *elayer.active ) )
{
cu.push_back( elayer );
}
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}
m_board->SetCopperLayerCount( cu.size() );
for( EITER it = cu.begin(); it != cu.end(); ++it )
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{
int layer = kicad_layer( it->number );
m_board->SetLayerName( layer, FROM_UTF8( it->name.c_str() ) );
m_board->SetLayerType( layer, LT_SIGNAL );
// could map the colors here
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}
m_xpath->pop();
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}
void EAGLE_PLUGIN::loadPlain( CPTREE& aGraphics )
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{
m_xpath->push( "plain" );
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// (polygon | wire | text | circle | rectangle | frame | hole)*
for( CITER gr = aGraphics.begin(); gr != aGraphics.end(); ++gr )
{
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if( gr->first == "wire" )
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{
m_xpath->push( "wire" );
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EWIRE w( gr->second );
int layer = kicad_layer( w.layer );
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if( layer != -1 )
{
DRAWSEGMENT* dseg = new DRAWSEGMENT( m_board );
m_board->Add( dseg, ADD_APPEND );
dseg->SetTimeStamp( timeStamp( gr->second ) );
dseg->SetLayer( layer );
dseg->SetStart( wxPoint( kicad_x( w.x1 ), kicad_y( w.y1 ) ) );
dseg->SetEnd( wxPoint( kicad_x( w.x2 ), kicad_y( w.y2 ) ) );
dseg->SetWidth( kicad( w.width ) );
}
m_xpath->pop();
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}
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else if( gr->first == "text" )
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{
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#if defined(DEBUG)
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if( gr->second.data() == "ATMEGA328" )
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{
int breakhere = 1;
(void) breakhere;
}
#endif
m_xpath->push( "text" );
ETEXT t( gr->second );
int layer = kicad_layer( t.layer );
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if( layer != -1 ) // supported layer
{
TEXTE_PCB* pcbtxt = new TEXTE_PCB( m_board );
m_board->Add( pcbtxt, ADD_APPEND );
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pcbtxt->SetLayer( layer );
pcbtxt->SetTimeStamp( timeStamp( gr->second ) );
pcbtxt->SetText( FROM_UTF8( t.text.c_str() ) );
pcbtxt->SetPosition( wxPoint( kicad_x( t.x ), kicad_y( t.y ) ) );
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pcbtxt->SetSize( kicad_fontz( t.size ) );
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double ratio = t.ratio ? *t.ratio : 8; // DTD says 8 is default
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pcbtxt->SetThickness( kicad( t.size * ratio / 100 ) );
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int align = t.align ? *t.align : ETEXT::BOTTOM_LEFT;
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if( t.rot )
{
int sign = t.rot->mirror ? -1 : 1;
pcbtxt->SetMirrored( t.rot->mirror );
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double degrees = t.rot->degrees;
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if( degrees == 90 || t.rot->spin )
pcbtxt->SetOrientation( sign * t.rot->degrees * 10 );
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else if( degrees == 180 )
align = ETEXT::TOP_RIGHT;
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else if( degrees == 270 )
{
pcbtxt->SetOrientation( sign * 90 * 10 );
align = ETEXT::TOP_RIGHT;
}
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}
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switch( align )
{
case ETEXT::CENTER:
// this was the default in pcbtxt's constructor
break;
case ETEXT::CENTER_LEFT:
pcbtxt->SetHorizJustify( GR_TEXT_HJUSTIFY_LEFT );
break;
case ETEXT::CENTER_RIGHT:
pcbtxt->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
break;
case ETEXT::TOP_CENTER:
pcbtxt->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
break;
case ETEXT::TOP_LEFT:
pcbtxt->SetHorizJustify( GR_TEXT_HJUSTIFY_LEFT );
pcbtxt->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
break;
case ETEXT::TOP_RIGHT:
pcbtxt->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
pcbtxt->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
break;
case ETEXT::BOTTOM_CENTER:
pcbtxt->SetVertJustify( GR_TEXT_VJUSTIFY_BOTTOM );
break;
case ETEXT::BOTTOM_LEFT:
pcbtxt->SetHorizJustify( GR_TEXT_HJUSTIFY_LEFT );
pcbtxt->SetVertJustify( GR_TEXT_VJUSTIFY_BOTTOM );
break;
case ETEXT::BOTTOM_RIGHT:
pcbtxt->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
pcbtxt->SetVertJustify( GR_TEXT_VJUSTIFY_BOTTOM );
break;
}
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}
m_xpath->pop();
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}
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else if( gr->first == "circle" )
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{
m_xpath->push( "circle" );
ECIRCLE c( gr->second );
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int layer = kicad_layer( c.layer );
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if( layer != -1 ) // unsupported layer
{
DRAWSEGMENT* dseg = new DRAWSEGMENT( m_board );
m_board->Add( dseg, ADD_APPEND );
dseg->SetShape( S_CIRCLE );
dseg->SetTimeStamp( timeStamp( gr->second ) );
dseg->SetLayer( layer );
dseg->SetStart( wxPoint( kicad_x( c.x ), kicad_y( c.y ) ) );
dseg->SetEnd( wxPoint( kicad_x( c.x + c.radius ), kicad_y( c.y ) ) );
dseg->SetWidth( kicad( c.width ) );
}
m_xpath->pop();
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}
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// This seems to be a simplified rectangular [copper] zone, cannot find any
// net related info on it from the DTD.
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else if( gr->first == "rectangle" )
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{
m_xpath->push( "rectangle" );
ERECT r( gr->second );
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int layer = kicad_layer( r.layer );
if( IsValidCopperLayerIndex( layer ) )
{
// use a "netcode = 0" type ZONE:
ZONE_CONTAINER* zone = new ZONE_CONTAINER( m_board );
m_board->Add( zone, ADD_APPEND );
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zone->SetTimeStamp( timeStamp( gr->second ) );
zone->SetLayer( layer );
zone->SetNet( 0 );
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CPolyLine::HATCH_STYLE outline_hatch = CPolyLine::DIAGONAL_EDGE;
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zone->m_Poly->Start( layer, kicad_x( r.x1 ), kicad_y( r.y1 ), outline_hatch );
zone->AppendCorner( wxPoint( kicad_x( r.x2 ), kicad_y( r.y1 ) ) );
zone->AppendCorner( wxPoint( kicad_x( r.x2 ), kicad_y( r.y2 ) ) );
zone->AppendCorner( wxPoint( kicad_x( r.x1 ), kicad_y( r.y2 ) ) );
zone->m_Poly->CloseLastContour();
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// this is not my fault:
zone->m_Poly->SetHatch( outline_hatch,
Mils2iu( zone->m_Poly->GetDefaultHatchPitchMils() ),
true );
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}
m_xpath->pop();
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}
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else if( gr->first == "hole" )
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{
m_xpath->push( "hole" );
EHOLE e( gr->second );
// Fabricate a MODULE with a single PAD_HOLE_NOT_PLATED pad.
// Use m_hole_count to gen up a unique name.
MODULE* module = new MODULE( m_board );
m_board->Add( module, ADD_APPEND );
char temp[40];
sprintf( temp, "@HOLE%d", m_hole_count++ );
module->SetReference( FROM_UTF8( temp ) );
module->Reference().SetVisible( false );
wxPoint pos( kicad_x( e.x ), kicad_y( e.y ) );
module->SetPosition( pos );
// Add a PAD_HOLE_NOT_PLATED pad to this module.
D_PAD* pad = new D_PAD( module );
module->m_Pads.PushBack( pad );
pad->SetShape( PAD_ROUND );
pad->SetAttribute( PAD_HOLE_NOT_PLATED );
/* pad's position is already centered on module at relative (0, 0)
wxPoint padpos( kicad_x( e.x ), kicad_y( e.y ) );
pad->SetPos0( padpos );
pad->SetPosition( padpos + module->GetPosition() );
*/
wxSize sz( kicad( e.drill ), kicad( e.drill ) );
pad->SetDrillSize( sz );
pad->SetSize( sz );
pad->SetLayerMask( ALL_CU_LAYERS /* | SOLDERMASK_LAYER_BACK | SOLDERMASK_LAYER_FRONT */ );
m_xpath->pop();
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}
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else if( gr->first == "frame" )
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{
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// picture this
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}
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else if( gr->first == "polygon" )
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{
// could be on a copper layer, could be on another layer.
// copper layer would be done using netCode=0 type of ZONE_CONTAINER.
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}
}
m_xpath->pop();
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}
void EAGLE_PLUGIN::loadLibrary( CPTREE& aLib, const std::string* aLibName )
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{
m_xpath->push( "packages" );
// library will have <xmlattr> node, skip that and get the single packages node
CPTREE& packages = aLib.get_child( "packages" );
// Create a MODULE for all the eagle packages, for use later via a copy constructor
// to instantiate needed MODULES in our BOARD. Save the MODULE templates in
// a MODULE_MAP using a single lookup key consisting of libname+pkgname.
for( CITER package = packages.begin(); package != packages.end(); ++package )
{
m_xpath->push( "package", "name" );
const std::string& pack_name = package->second.get<std::string>( "<xmlattr>.name" );
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#if defined(DEBUG)
if( pack_name == "TO220H" )
{
int breakhere = 1;
(void) breakhere;
}
#endif
m_xpath->Value( pack_name.c_str() );
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std::string key = aLibName ? makeKey( *aLibName, pack_name ) : pack_name;
MODULE* m = makeModule( package->second, pack_name );
// add the templating MODULE to the MODULE template factory "m_templates"
std::pair<MODULE_ITER, bool> r = m_templates.insert( key, m );
if( !r.second )
{
wxString lib = aLibName ? FROM_UTF8( aLibName->c_str() ) : m_lib_path;
wxString pkg = FROM_UTF8( pack_name.c_str() );
wxString emsg = wxString::Format(
_( "<package> name:'%s' duplicated in eagle <library>:'%s'" ),
GetChars( pkg ),
GetChars( lib )
);
THROW_IO_ERROR( emsg );
}
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m_xpath->pop();
}
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m_xpath->pop(); // "packages"
}
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void EAGLE_PLUGIN::loadLibraries( CPTREE& aLibs )
{
m_xpath->push( "libraries.library", "name" );
for( CITER library = aLibs.begin(); library != aLibs.end(); ++library )
{
const std::string& lib_name = library->second.get<std::string>( "<xmlattr>.name" );
m_xpath->Value( lib_name.c_str() );
loadLibrary( library->second, &lib_name );
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}
m_xpath->pop();
}
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void EAGLE_PLUGIN::loadElements( CPTREE& aElements )
{
m_xpath->push( "elements.element", "name" );
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EATTR name;
EATTR value;
for( CITER it = aElements.begin(); it != aElements.end(); ++it )
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{
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if( it->first != "element" )
continue;
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EELEMENT e( it->second );
// use "NULL-ness" as an indication of presence of the attribute:
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EATTR* nameAttr = 0;
EATTR* valueAttr = 0;
m_xpath->Value( e.name.c_str() );
std::string key = makeKey( e.library, e.package );
MODULE_CITER mi = m_templates.find( key );
if( mi == m_templates.end() )
{
wxString emsg = wxString::Format( _( "No '%s' package in library '%s'" ),
GetChars( FROM_UTF8( e.package.c_str() ) ),
GetChars( FROM_UTF8( e.library.c_str() ) ) );
THROW_IO_ERROR( emsg );
}
#if defined(DEBUG)
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if( e.name == "ARM_C8" )
{
int breakhere = 1;
(void) breakhere;
}
#endif
// copy constructor to clone the template
MODULE* m = new MODULE( *mi->second );
m_board->Add( m, ADD_APPEND );
// update the nets within the pads of the clone
for( D_PAD* pad = m->m_Pads; pad; pad = pad->Next() )
{
std::string key = makeKey( e.name, TO_UTF8( pad->GetPadName() ) );
NET_MAP_CITER ni = m_pads_to_nets.find( key );
if( ni != m_pads_to_nets.end() )
{
const ENET* enet = &ni->second;
pad->SetNetname( FROM_UTF8( enet->netname.c_str() ) );
pad->SetNet( enet->netcode );
}
}
m->SetPosition( wxPoint( kicad_x( e.x ), kicad_y( e.y ) ) );
m->SetReference( FROM_UTF8( e.name.c_str() ) );
m->SetValue( FROM_UTF8( e.value.c_str() ) );
// m->Value().SetVisible( false );
// initalize these to default values incase the <attribute> elements are not present.
m_xpath->push( "attribute", "name" );
// VALUE and NAME can have something like our text "effects" overrides
// in SWEET and new schematic. Eagle calls these XML elements "attribute".
// There can be one for NAME and/or VALUE both. Features present in the
// EATTR override the ones established in the package only if they are
// present here (except for rot, which if not present means angle zero).
// So the logic is a bit different than in packageText() and in plain text.
for( CITER ait = it->second.begin(); ait != it->second.end(); ++ait )
{
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if( ait->first != "attribute" )
continue;
EATTR a( ait->second );
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if( a.name == "NAME" )
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{
name = a;
nameAttr = &name;
}
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else if( a.name == "VALUE" )
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{
value = a;
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valueAttr = &value;
}
}
m_xpath->pop(); // "attribute"
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orientModuleAndText( m, e, nameAttr, valueAttr );
}
m_xpath->pop(); // "elements.element"
}
void EAGLE_PLUGIN::orientModuleAndText( MODULE* m, const EELEMENT& e,
const EATTR* nameAttr, const EATTR* valueAttr )
{
if( e.rot )
{
if( e.rot->mirror )
{
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double orientation = e.rot->degrees + 180.0;
m->SetOrientation( orientation * 10 );
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m->Flip( m->GetPosition() );
}
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else
m->SetOrientation( e.rot->degrees * 10 );
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}
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orientModuleText( m, e, &m->Reference(), nameAttr );
orientModuleText( m, e, &m->Value(), valueAttr );
}
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void EAGLE_PLUGIN::orientModuleText( MODULE* m, const EELEMENT& e,
TEXTE_MODULE* txt, const EATTR* aAttr )
{
if( aAttr )
{
const EATTR& a = *aAttr;
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if( a.value )
{
txt->SetText( FROM_UTF8( a.value->c_str() ) );
}
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if( a.x && a.y ) // boost::optional
{
wxPoint pos( kicad_x( *a.x ), kicad_y( *a.y ) );
txt->SetPosition( pos );
}
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// Even though size and ratio are both optional, I am not seeing
// a case where ratio is present but size is not.
double ratio = 8;
wxSize fontz = txt->GetSize();
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if( a.size )
{
fontz = kicad_fontz( *a.size );
txt->SetSize( fontz );
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if( a.ratio )
ratio = *a.ratio;
}
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int lw = int( fontz.y * ratio / 100.0 );
txt->SetThickness( lw );
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int align = ETEXT::BOTTOM_LEFT; // bottom-left is eagle default
// The "rot" in a EATTR seems to be assumed to be zero if it is not
// present, and this zero rotation becomes an override to the
// package's text field. If they did not want zero, they specify
// what they want explicitly.
double degrees = a.rot ? a.rot->degrees : 0;
double orient; // relative to parent
int sign = 1;
bool spin = false;
if( a.rot )
{
spin = a.rot->spin;
sign = a.rot->mirror ? -1 : 1;
txt->SetMirrored( a.rot->mirror );
}
if( degrees == 90 || degrees == 0 || spin )
{
orient = degrees - m->GetOrientation() / 10;
txt->SetOrientation( sign * orient * 10 );
}
else if( degrees == 180 )
{
orient = 0 - m->GetOrientation() / 10;
txt->SetOrientation( sign * orient * 10 );
align = ETEXT::TOP_RIGHT;
}
else if( degrees == 270 )
{
orient = 90 - m->GetOrientation() / 10;
align = ETEXT::TOP_RIGHT;
txt->SetOrientation( sign * orient * 10 );
}
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else
{
orient = 90 + degrees - m->GetOrientation() / 10;
txt->SetOrientation( sign * orient * 10 );
}
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switch( align )
{
case ETEXT::TOP_RIGHT:
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
txt->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
break;
case ETEXT::BOTTOM_LEFT:
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_LEFT );
txt->SetVertJustify( GR_TEXT_VJUSTIFY_BOTTOM );
break;
default:
;
}
}
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else // the text is per the original package, sans <attribute>
{
double degrees = ( txt->GetOrientation() + m->GetOrientation() ) / 10;
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// @todo there are a few more cases than these to contend with:
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if( (!txt->IsMirrored() && ( abs( degrees ) == 180 || abs( degrees ) == 270 ))
|| ( txt->IsMirrored() && ( degrees == 360 ) ) )
{
// ETEXT::TOP_RIGHT:
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
txt->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
}
}
txt->SetLocalCoord();
}
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MODULE* EAGLE_PLUGIN::makeModule( CPTREE& aPackage, const std::string& aPkgName ) const
{
std::auto_ptr<MODULE> m( new MODULE( NULL ) );
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m->SetLibRef( FROM_UTF8( aPkgName.c_str() ) );
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opt_string description = aPackage.get_optional<std::string>( "description" );
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if( description )
m->SetDescription( FROM_UTF8( description->c_str() ) );
for( CITER it = aPackage.begin(); it != aPackage.end(); ++it )
{
CPTREE& t = it->second;
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if( it->first == "wire" )
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packageWire( m.get(), t );
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else if( it->first == "pad" )
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packagePad( m.get(), t );
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else if( it->first == "text" )
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packageText( m.get(), t );
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else if( it->first == "rectangle" )
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packageRectangle( m.get(), t );
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else if( it->first == "polygon" )
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packagePolygon( m.get(), t );
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else if( it->first == "circle" )
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packageCircle( m.get(), t );
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else if( it->first == "hole" )
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packageHole( m.get(), t );
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else if( it->first == "smd" )
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packageSMD( m.get(), t );
}
return m.release();
}
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void EAGLE_PLUGIN::packageWire( MODULE* aModule, CPTREE& aTree ) const
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{
EWIRE w( aTree );
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int layer = kicad_layer( w.layer );
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if( IsValidNonCopperLayerIndex( layer ) ) // skip copper package wires
{
wxPoint start( kicad_x( w.x1 ), kicad_y( w.y1 ) );
wxPoint end( kicad_x( w.x2 ), kicad_y( w.y2 ) );
int width = kicad( w.width );
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EDGE_MODULE* dwg = new EDGE_MODULE( aModule, S_SEGMENT );
aModule->m_Drawings.PushBack( dwg );
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dwg->SetStart0( start );
dwg->SetEnd0( end );
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dwg->SetLayer( layer );
dwg->SetWidth( width );
}
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}
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void EAGLE_PLUGIN::packagePad( MODULE* aModule, CPTREE& aTree ) const
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{
// this is thru hole technology here, no SMDs
EPAD e( aTree );
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D_PAD* pad = new D_PAD( aModule );
aModule->m_Pads.PushBack( pad );
pad->SetPadName( FROM_UTF8( e.name.c_str() ) );
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// pad's "Position" is not relative to the module's,
// whereas Pos0 is relative to the module's but is the unrotated coordinate.
wxPoint padpos( kicad_x( e.x ), kicad_y( e.y ) );
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pad->SetPos0( padpos );
RotatePoint( &padpos, aModule->GetOrientation() );
pad->SetPosition( padpos + aModule->GetPosition() );
pad->SetDrillSize( wxSize( kicad( e.drill ), kicad( e.drill ) ) );
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pad->SetLayerMask( ALL_CU_LAYERS | SOLDERMASK_LAYER_BACK | SOLDERMASK_LAYER_FRONT );
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if( e.shape )
{
switch( *e.shape )
{
case EPAD::ROUND:
wxASSERT( pad->GetShape()==PAD_CIRCLE ); // verify set in D_PAD constructor
break;
case EPAD::OCTAGON:
// no KiCad octagonal pad shape, use PAD_CIRCLE for now.
// pad->SetShape( PAD_OCTAGON );
wxASSERT( pad->GetShape()==PAD_CIRCLE ); // verify set in D_PAD constructor
break;
case EPAD::LONG:
pad->SetShape( PAD_OVAL );
break;
case EPAD::SQUARE:
pad->SetShape( PAD_RECT );
break;
case EPAD::OFFSET:
; // don't know what to do here.
}
}
else
{
// if shape is not present, our default is circle and that matches their default "round"
}
if( e.diameter )
{
int diameter = kicad( *e.diameter );
pad->SetSize( wxSize( diameter, diameter ) );
}
else
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{
double drillz = pad->GetDrillSize().x;
double annulus = drillz * m_rules->rvPadTop; // copper annulus, eagle "restring"
annulus = Clamp( m_rules->rlMinPadTop, annulus, m_rules->rlMaxPadTop );
int diameter = KiROUND( drillz + 2 * annulus );
pad->SetSize( wxSize( KiROUND( diameter ), KiROUND( diameter ) ) );
}
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if( pad->GetShape() == PAD_OVAL )
{
// The Eagle "long" pad is wider than it is tall,
// m_elongation is percent elongation
wxSize sz = pad->GetSize();
sz.x = ( sz.x * ( 100 + m_rules->psElongationLong ) ) / 100;
pad->SetSize( sz );
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}
if( e.rot )
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{
pad->SetOrientation( e.rot->degrees * 10 );
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}
// @todo: handle stop and thermal
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}
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void EAGLE_PLUGIN::packageText( MODULE* aModule, CPTREE& aTree ) const
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{
ETEXT t( aTree );
int layer = kicad_layer( t.layer );
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TEXTE_MODULE* txt;
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if( t.text == ">NAME" || t.text == ">name" )
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txt = &aModule->Reference();
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else if( t.text == ">VALUE" || t.text == ">value" )
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txt = &aModule->Value();
else
{
txt = new TEXTE_MODULE( aModule );
aModule->m_Drawings.PushBack( txt );
}
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txt->SetTimeStamp( timeStamp( aTree ) );
txt->SetText( FROM_UTF8( t.text.c_str() ) );
wxPoint pos( kicad_x( t.x ), kicad_y( t.y ) );
txt->SetPosition( pos );
txt->SetPos0( pos - aModule->GetPosition() );
txt->SetLayer( layer );
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txt->SetSize( kicad_fontz( t.size ) );
double ratio = t.ratio ? *t.ratio : 8; // DTD says 8 is default
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txt->SetThickness( kicad( t.size * ratio / 100 ) );
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int align = t.align ? *t.align : ETEXT::BOTTOM_LEFT; // bottom-left is eagle default
// An eagle package is never rotated, the DTD does not allow it.
// angle -= aModule->GetOrienation();
if( t.rot )
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{
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int sign = t.rot->mirror ? -1 : 1;
txt->SetMirrored( t.rot->mirror );
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double degrees = t.rot->degrees;
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if( degrees == 90 || t.rot->spin )
txt->SetOrientation( sign * degrees * 10 );
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else if( degrees == 180 )
align = ETEXT::TOP_RIGHT;
else if( degrees == 270 )
{
align = ETEXT::TOP_RIGHT;
txt->SetOrientation( sign * 90 * 10 );
}
}
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switch( align )
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{
case ETEXT::CENTER:
// this was the default in pcbtxt's constructor
break;
case ETEXT::CENTER_LEFT:
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_LEFT );
break;
case ETEXT::CENTER_RIGHT:
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
break;
case ETEXT::TOP_CENTER:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
break;
case ETEXT::TOP_LEFT:
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_LEFT );
txt->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
break;
case ETEXT::TOP_RIGHT:
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
txt->SetVertJustify( GR_TEXT_VJUSTIFY_TOP );
break;
case ETEXT::BOTTOM_CENTER:
txt->SetVertJustify( GR_TEXT_VJUSTIFY_BOTTOM );
break;
case ETEXT::BOTTOM_LEFT:
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_LEFT );
txt->SetVertJustify( GR_TEXT_VJUSTIFY_BOTTOM );
break;
case ETEXT::BOTTOM_RIGHT:
txt->SetHorizJustify( GR_TEXT_HJUSTIFY_RIGHT );
txt->SetVertJustify( GR_TEXT_VJUSTIFY_BOTTOM );
break;
}
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}
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void EAGLE_PLUGIN::packageRectangle( MODULE* aModule, CPTREE& aTree ) const
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{
ERECT r( aTree );
int layer = kicad_layer( r.layer );
if( IsValidNonCopperLayerIndex( layer ) ) // skip copper "package.rectangle"s
{
EDGE_MODULE* dwg = new EDGE_MODULE( aModule, S_POLYGON );
aModule->m_Drawings.PushBack( dwg );
dwg->SetLayer( layer );
dwg->SetWidth( 0 );
dwg->SetTimeStamp( timeStamp( aTree ) );
std::vector<wxPoint> pts;
wxPoint start( wxPoint( kicad_x( r.x1 ), kicad_y( r.y1 ) ) );
wxPoint end( wxPoint( kicad_x( r.x1 ), kicad_y( r.y2 ) ) );
pts.push_back( start );
pts.push_back( wxPoint( kicad_x( r.x2 ), kicad_y( r.y1 ) ) );
pts.push_back( wxPoint( kicad_x( r.x2 ), kicad_y( r.y2 ) ) );
pts.push_back( end );
dwg->SetPolyPoints( pts );
dwg->SetStart0( start );
dwg->SetEnd0( end );
}
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}
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void EAGLE_PLUGIN::packagePolygon( MODULE* aModule, CPTREE& aTree ) const
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{
EPOLYGON p( aTree );
int layer = kicad_layer( p.layer );
if( IsValidNonCopperLayerIndex( layer ) ) // skip copper "package.rectangle"s
{
EDGE_MODULE* dwg = new EDGE_MODULE( aModule, S_POLYGON );
aModule->m_Drawings.PushBack( dwg );
dwg->SetWidth( 0 ); // it's filled, no need for boundary width
/*
switch( layer )
{
case ECO1_N: layer = SILKSCREEN_N_FRONT; break;
case ECO2_N: layer = SILKSCREEN_N_BACK; break;
// all MODULE templates (created from eagle packages) are on front layer
// until cloned.
case COMMENT_N: layer = SILKSCREEN_N_FRONT; break;
}
*/
dwg->SetLayer( layer );
dwg->SetTimeStamp( timeStamp( aTree ) );
std::vector<wxPoint> pts;
pts.reserve( aTree.size() );
for( CITER vi = aTree.begin(); vi != aTree.end(); ++vi )
{
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if( vi->first != "vertex" ) // skip <xmlattr> node
continue;
EVERTEX v( vi->second );
pts.push_back( wxPoint( kicad_x( v.x ), kicad_y( v.y ) ) );
}
dwg->SetPolyPoints( pts );
dwg->SetStart0( *pts.begin() );
dwg->SetEnd0( pts.back() );
}
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}
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void EAGLE_PLUGIN::packageCircle( MODULE* aModule, CPTREE& aTree ) const
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{
ECIRCLE e( aTree );
int layer = kicad_layer( e.layer );
EDGE_MODULE* gr = new EDGE_MODULE( aModule, S_CIRCLE );
aModule->m_Drawings.PushBack( gr );
gr->SetWidth( kicad( e.width ) );
/*
switch( layer )
{
case ECO1_N: layer = SILKSCREEN_N_FRONT; break;
case ECO2_N: layer = SILKSCREEN_N_BACK; break;
}
*/
gr->SetLayer( layer );
gr->SetTimeStamp( timeStamp( aTree ) );
gr->SetStart0( wxPoint( kicad_x( e.x ), kicad_y( e.y ) ) );
gr->SetEnd0( wxPoint( kicad_x( e.x + e.radius ), kicad_y( e.y ) ) );
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}
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void EAGLE_PLUGIN::packageHole( MODULE* aModule, CPTREE& aTree ) const
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{
EHOLE e( aTree );
// we add a PAD_HOLE_NOT_PLATED pad to this module.
D_PAD* pad = new D_PAD( aModule );
aModule->m_Pads.PushBack( pad );
pad->SetShape( PAD_ROUND );
pad->SetAttribute( PAD_HOLE_NOT_PLATED );
// Mechanical purpose only:
// no offset, no net name, no pad name allowed
// pad->SetOffset( wxPoint( 0, 0 ) );
// pad->SetPadName( wxEmptyString );
// pad->SetNetname( wxEmptyString );
wxPoint padpos( kicad_x( e.x ), kicad_y( e.y ) );
pad->SetPos0( padpos );
pad->SetPosition( padpos + aModule->GetPosition() );
wxSize sz( kicad( e.drill ), kicad( e.drill ) );
pad->SetDrillSize( sz );
pad->SetSize( sz );
pad->SetLayerMask( ALL_CU_LAYERS /* | SOLDERMASK_LAYER_BACK | SOLDERMASK_LAYER_FRONT */ );
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}
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void EAGLE_PLUGIN::packageSMD( MODULE* aModule, CPTREE& aTree ) const
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{
ESMD e( aTree );
int layer = kicad_layer( e.layer );
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if( !IsValidCopperLayerIndex( layer ) )
{
return;
}
D_PAD* pad = new D_PAD( aModule );
aModule->m_Pads.PushBack( pad );
pad->SetPadName( FROM_UTF8( e.name.c_str() ) );
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pad->SetShape( PAD_RECT );
pad->SetAttribute( PAD_SMD );
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// pad's "Position" is not relative to the module's,
// whereas Pos0 is relative to the module's but is the unrotated coordinate.
wxPoint padpos( kicad_x( e.x ), kicad_y( e.y ) );
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pad->SetPos0( padpos );
RotatePoint( &padpos, aModule->GetOrientation() );
pad->SetPosition( padpos + aModule->GetPosition() );
pad->SetSize( wxSize( kicad( e.dx ), kicad( e.dy ) ) );
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pad->SetLayer( layer );
if( layer == LAYER_N_FRONT )
pad->SetLayerMask( LAYER_FRONT | SOLDERPASTE_LAYER_FRONT | SOLDERMASK_LAYER_FRONT );
else if( layer == LAYER_N_BACK )
pad->SetLayerMask( LAYER_BACK | SOLDERPASTE_LAYER_BACK | SOLDERMASK_LAYER_BACK );
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// Optional according to DTD
if( e.roundness ) // set set shape to PAD_RECT above, in case roundness is not present
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{
if( *e.roundness >= 75 ) // roundness goes from 0-100% as integer
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{
if( e.dy == e.dx )
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pad->SetShape( PAD_ROUND );
else
pad->SetShape( PAD_OVAL );
}
}
if( e.rot )
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{
pad->SetOrientation( e.rot->degrees * 10 );
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}
// don't know what stop, thermals, and cream should look like now.
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}
void EAGLE_PLUGIN::loadSignals( CPTREE& aSignals )
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{
m_xpath->push( "signals.signal", "name" );
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int netCode = 1;
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for( CITER net = aSignals.begin(); net != aSignals.end(); ++net, ++netCode )
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{
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const std::string& nname = net->second.get<std::string>( "<xmlattr>.name" );
wxString netName = FROM_UTF8( nname.c_str() );
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m_xpath->Value( nname.c_str() );
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m_board->AppendNet( new NETINFO_ITEM( m_board, netName, netCode ) );
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// (contactref | polygon | wire | via)*
for( CITER it = net->second.begin(); it != net->second.end(); ++it )
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{
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if( it->first == "wire" )
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{
m_xpath->push( "wire" );
EWIRE w( it->second );
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int layer = kicad_layer( w.layer );
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if( IsValidCopperLayerIndex( layer ) )
{
TRACK* t = new TRACK( m_board );
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t->SetTimeStamp( timeStamp( it->second ) );
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t->SetPosition( wxPoint( kicad_x( w.x1 ), kicad_y( w.y1 ) ) );
t->SetEnd( wxPoint( kicad_x( w.x2 ), kicad_y( w.y2 ) ) );
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t->SetWidth( kicad( w.width ) );
t->SetLayer( layer );
t->SetNet( netCode );
m_board->m_Track.Insert( t, NULL );
}
else
{
// put non copper wires where the sun don't shine.
}
m_xpath->pop();
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}
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else if( it->first == "via" )
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{
m_xpath->push( "via" );
EVIA v( it->second );
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int layer_front_most = kicad_layer( v.layer_front_most );
int layer_back_most = kicad_layer( v.layer_back_most );
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if( IsValidCopperLayerIndex( layer_front_most ) &&
IsValidCopperLayerIndex( layer_back_most ) )
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{
int drillz = kicad( v.drill );
SEGVIA* via = new SEGVIA( m_board );
m_board->m_Track.Insert( via, NULL );
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via->SetLayerPair( layer_front_most, layer_back_most );
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if( v.diam )
{
int kidiam = kicad( *v.diam );
via->SetWidth( kidiam );
}
else
{
double annulus = drillz * m_rules->rvViaOuter; // eagle "restring"
annulus = Clamp( m_rules->rlMinViaOuter, annulus, m_rules->rlMaxViaOuter );
int diameter = KiROUND( drillz + 2 * annulus );
via->SetWidth( diameter );
}
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via->SetDrill( drillz );
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if( layer_front_most == LAYER_N_FRONT && layer_back_most == LAYER_N_BACK )
via->SetShape( VIA_THROUGH );
else if( layer_front_most == LAYER_N_FRONT || layer_back_most == LAYER_N_BACK )
via->SetShape( VIA_MICROVIA );
else
via->SetShape( VIA_BLIND_BURIED );
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via->SetTimeStamp( timeStamp( it->second ) );
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wxPoint pos( kicad_x( v.x ), kicad_y( v.y ) );
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via->SetPosition( pos );
via->SetEnd( pos );
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via->SetNet( netCode );
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via->SetShape( S_CIRCLE ); // @todo should be in SEGVIA constructor
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}
m_xpath->pop();
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}
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else if( it->first == "contactref" )
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{
m_xpath->push( "contactref" );
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// <contactref element="RN1" pad="7"/>
CPTREE& attribs = it->second.get_child( "<xmlattr>" );
const std::string& reference = attribs.get<std::string>( "element" );
const std::string& pad = attribs.get<std::string>( "pad" );
std::string key = makeKey( reference, pad ) ;
// D(printf( "adding refname:'%s' pad:'%s' netcode:%d netname:'%s'\n", reference.c_str(), pad.c_str(), netCode, nname.c_str() );)
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m_pads_to_nets[ key ] = ENET( netCode, nname );
m_xpath->pop();
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}
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else if( it->first == "polygon" )
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{
m_xpath->push( "polygon" );
EPOLYGON p( it->second );
int layer = kicad_layer( p.layer );
if( IsValidCopperLayerIndex( layer ) )
{
// use a "netcode = 0" type ZONE:
ZONE_CONTAINER* zone = new ZONE_CONTAINER( m_board );
m_board->Add( zone, ADD_APPEND );
zone->SetTimeStamp( timeStamp( it->second ) );
zone->SetLayer( layer );
zone->SetNet( netCode );
zone->SetNetName( netName );
CPolyLine::HATCH_STYLE outline_hatch = CPolyLine::DIAGONAL_EDGE;
bool first = true;
for( CITER vi = it->second.begin(); vi != it->second.end(); ++vi )
{
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if( vi->first != "vertex" ) // skip <xmlattr> node
continue;
EVERTEX v( vi->second );
// the ZONE_CONTAINER API needs work, as you can see:
if( first )
{
zone->m_Poly->Start( layer, kicad_x( v.x ), kicad_y( v.y ), outline_hatch );
first = false;
}
else
zone->AppendCorner( wxPoint( kicad_x( v.x ), kicad_y( v.y ) ) );
}
zone->m_Poly->CloseLastContour();
zone->m_Poly->SetHatch( outline_hatch,
Mils2iu( zone->m_Poly->GetDefaultHatchPitchMils() ),
true );
// clearances, etc.
zone->SetArcSegCount( 32 ); // @todo: should be a constructor default?
zone->SetMinThickness( kicad( p.width ) );
if( p.spacing )
zone->SetZoneClearance( kicad( *p.spacing ) );
if( p.rank )
zone->SetPriority( *p.rank );
// missing == yes per DTD.
bool thermals = !p.thermals || *p.thermals;
zone->SetPadConnection( thermals ? THERMAL_PAD : PAD_IN_ZONE );
int rank = p.rank ? *p.rank : 0;
zone->SetPriority( rank );
}
m_xpath->pop(); // "polygon"
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}
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}
}
m_xpath->pop(); // "signals.signal"
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}
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int EAGLE_PLUGIN::kicad_layer( int aEagleLayer )
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{
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/* will assume this is a valid mapping for all eagle boards until I get paid more:
<layers>
<layer number="1" name="Top" color="4" fill="1" visible="yes" active="yes"/>
<layer number="2" name="Route2" color="1" fill="3" visible="no" active="no"/>
<layer number="3" name="Route3" color="4" fill="3" visible="no" active="no"/>
<layer number="4" name="Route4" color="1" fill="4" visible="no" active="no"/>
<layer number="5" name="Route5" color="4" fill="4" visible="no" active="no"/>
<layer number="6" name="Route6" color="1" fill="8" visible="no" active="no"/>
<layer number="7" name="Route7" color="4" fill="8" visible="no" active="no"/>
<layer number="8" name="Route8" color="1" fill="2" visible="no" active="no"/>
<layer number="9" name="Route9" color="4" fill="2" visible="no" active="no"/>
<layer number="10" name="Route10" color="1" fill="7" visible="no" active="no"/>
<layer number="11" name="Route11" color="4" fill="7" visible="no" active="no"/>
<layer number="12" name="Route12" color="1" fill="5" visible="no" active="no"/>
<layer number="13" name="Route13" color="4" fill="5" visible="no" active="no"/>
<layer number="14" name="Route14" color="1" fill="6" visible="no" active="no"/>
<layer number="15" name="Route15" color="4" fill="6" visible="no" active="no"/>
<layer number="16" name="Bottom" color="1" fill="1" visible="yes" active="yes"/>
<layer number="17" name="Pads" color="2" fill="1" visible="yes" active="yes"/>
<layer number="18" name="Vias" color="14" fill="1" visible="yes" active="yes"/>
<layer number="19" name="Unrouted" color="6" fill="1" visible="yes" active="yes"/>
<layer number="20" name="Dimension" color="15" fill="1" visible="yes" active="yes"/>
<layer number="21" name="tPlace" color="7" fill="1" visible="yes" active="yes"/>
<layer number="22" name="bPlace" color="7" fill="1" visible="yes" active="yes"/>
<layer number="23" name="tOrigins" color="15" fill="1" visible="yes" active="yes"/>
<layer number="24" name="bOrigins" color="15" fill="1" visible="yes" active="yes"/>
<layer number="25" name="tNames" color="7" fill="1" visible="yes" active="yes"/>
<layer number="26" name="bNames" color="7" fill="1" visible="yes" active="yes"/>
<layer number="27" name="tValues" color="7" fill="1" visible="no" active="yes"/>
<layer number="28" name="bValues" color="7" fill="1" visible="no" active="yes"/>
<layer number="29" name="tStop" color="2" fill="3" visible="no" active="yes"/>
<layer number="30" name="bStop" color="5" fill="6" visible="no" active="yes"/>
<layer number="31" name="tCream" color="7" fill="4" visible="no" active="yes"/>
<layer number="32" name="bCream" color="7" fill="5" visible="no" active="yes"/>
<layer number="33" name="tFinish" color="6" fill="3" visible="no" active="yes"/>
<layer number="34" name="bFinish" color="6" fill="6" visible="no" active="yes"/>
<layer number="35" name="tGlue" color="7" fill="4" visible="no" active="yes"/>
<layer number="36" name="bGlue" color="7" fill="5" visible="no" active="yes"/>
<layer number="37" name="tTest" color="7" fill="1" visible="no" active="yes"/>
<layer number="38" name="bTest" color="7" fill="1" visible="no" active="yes"/>
<layer number="39" name="tKeepout" color="4" fill="11" visible="no" active="yes"/>
<layer number="40" name="bKeepout" color="1" fill="11" visible="no" active="yes"/>
<layer number="41" name="tRestrict" color="4" fill="10" visible="no" active="yes"/>
<layer number="42" name="bRestrict" color="1" fill="10" visible="no" active="yes"/>
<layer number="43" name="vRestrict" color="2" fill="10" visible="no" active="yes"/>
<layer number="44" name="Drills" color="7" fill="1" visible="no" active="yes"/>
<layer number="45" name="Holes" color="7" fill="1" visible="no" active="yes"/>
<layer number="46" name="Milling" color="3" fill="1" visible="no" active="yes"/>
<layer number="47" name="Measures" color="7" fill="1" visible="no" active="yes"/>
<layer number="48" name="Document" color="7" fill="1" visible="no" active="yes"/>
<layer number="49" name="ReferenceLC" color="13" fill="1" visible="yes" active="yes"/>
<layer number="50" name="ReferenceLS" color="12" fill="1" visible="yes" active="yes"/>
<layer number="51" name="tDocu" color="7" fill="1" visible="yes" active="yes"/>
<layer number="52" name="bDocu" color="7" fill="1" visible="yes" active="yes"/>
<layer number="91" name="Nets" color="2" fill="1" visible="no" active="no"/>
<layer number="92" name="Busses" color="1" fill="1" visible="no" active="no"/>
<layer number="93" name="Pins" color="2" fill="1" visible="no" active="no"/>
<layer number="94" name="Symbols" color="4" fill="1" visible="no" active="no"/>
<layer number="95" name="Names" color="7" fill="1" visible="no" active="no"/>
<layer number="96" name="Values" color="7" fill="1" visible="no" active="no"/>
<layer number="97" name="Info" color="7" fill="1" visible="no" active="no"/>
<layer number="98" name="Guide" color="6" fill="1" visible="no" active="no"/>
</layers>
*/
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int kiLayer;
// eagle copper layer:
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if( aEagleLayer >= 1 && aEagleLayer <= 16 )
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{
kiLayer = LAYER_N_FRONT - ( aEagleLayer - 1 );
}
else
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{
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/*
#define FIRST_NO_COPPER_LAYER 16
#define ADHESIVE_N_BACK 16
#define ADHESIVE_N_FRONT 17
#define SOLDERPASTE_N_BACK 18
#define SOLDERPASTE_N_FRONT 19
#define SILKSCREEN_N_BACK 20
#define SILKSCREEN_N_FRONT 21
#define SOLDERMASK_N_BACK 22
#define SOLDERMASK_N_FRONT 23
#define DRAW_N 24
#define COMMENT_N 25
#define ECO1_N 26
#define ECO2_N 27
#define EDGE_N 28
#define LAST_NO_COPPER_LAYER 28
#define UNUSED_LAYER_29 29
#define UNUSED_LAYER_30 30
#define UNUSED_LAYER_31 31
*/
// translate non-copper eagle layer to pcbnew layer
switch( aEagleLayer )
{
case 20: kiLayer = EDGE_N; break; // eagle says "Dimension" layer, but it's for board perimeter
case 21: kiLayer = SILKSCREEN_N_FRONT; break;
case 22: kiLayer = SILKSCREEN_N_BACK; break;
case 25: kiLayer = SILKSCREEN_N_FRONT; break;
case 26: kiLayer = SILKSCREEN_N_BACK; break;
case 27: kiLayer = SILKSCREEN_N_FRONT; break;
case 28: kiLayer = SILKSCREEN_N_BACK; break;
case 29: kiLayer = SOLDERMASK_N_FRONT; break;
case 30: kiLayer = SOLDERMASK_N_BACK; break;
case 31: kiLayer = SOLDERPASTE_N_FRONT; break;
case 32: kiLayer = SOLDERPASTE_N_BACK; break;
case 33: kiLayer = SOLDERMASK_N_FRONT; break;
case 34: kiLayer = SOLDERMASK_N_BACK; break;
case 35: kiLayer = ADHESIVE_N_FRONT; break;
case 36: kiLayer = ADHESIVE_N_BACK; break;
case 49: kiLayer = COMMENT_N; break;
case 50: kiLayer = COMMENT_N; break;
// Packages show the future chip pins on SMD parts using layer 51.
// This is an area slightly smaller than the PAD/SMD copper area.
// Carry those visual aids into the MODULE on the drawing layer, not silkscreen.
case 51: kiLayer = DRAW_N; break;
case 52: kiLayer = DRAW_N; break;
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case 95: kiLayer = ECO1_N; break;
case 96: kiLayer = ECO2_N; break;
default:
D( printf( "unsupported eagle layer: %d\n", aEagleLayer );)
kiLayer = -1; break; // some layers do not map to KiCad
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}
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}
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return kiLayer;
}
void EAGLE_PLUGIN::centerBoard()
{
/*
if( m_props )
{
const wxString& pageWidth = (*m_props)["page_width"];
const wxString& pageHeight = (*m_props)["page_height"];
if( pageWidth.size() && pageHeight.size() )
{
EDA_RECT bbbox = m_board->GetBoundingBox();
int w = wxAtoi( pageWidth );
int h = wxAtoi( pageHeight );
m_board->Move( );
}
}
*/
}
wxDateTime EAGLE_PLUGIN::getModificationTime( const wxString& aPath )
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{
wxFileName fn( aPath );
/*
// update the writable flag while we have a wxFileName, in a network this
// is possibly quite dynamic anyway.
m_writable = fn.IsFileWritable();
*/
return fn.GetModificationTime();
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}
void EAGLE_PLUGIN::cacheLib( const wxString& aLibPath )
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{
try
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{
wxDateTime modtime;
if( aLibPath != m_lib_path ||
m_mod_time != ( modtime = getModificationTime( aLibPath ) ) )
{
//D(printf("Loading '%s'\n", TO_UTF8( aLibPath ) );)
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PTREE doc;
LOCALE_IO toggle; // toggles on, then off, the C locale.
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m_templates.clear();
// Set this before completion of loading, since we rely on it for
// text of an exception. Delay setting m_mod_time until after successful load
// however.
m_lib_path = aLibPath;
// 8 bit "filename" should be encoded according to disk filename encoding,
// (maybe this is current locale, maybe not, its a filesystem issue),
// and is not necessarily utf8.
std::string filename = (const char*) aLibPath.char_str( wxConvFile );
read_xml( filename, doc, xml_parser::trim_whitespace | xml_parser::no_comments );
CPTREE& library = doc.get_child( "eagle.drawing.library" );
m_xpath->push( "eagle.drawing.library" );
loadLibrary( library, NULL );
m_xpath->pop();
m_mod_time = modtime;
}
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}
catch( file_parser_error fpe )
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{
// for xml_parser_error, what() has the line number in it,
// but no byte offset. That should be an adequate error message.
THROW_IO_ERROR( fpe.what() );
}
// Class ptree_error is a base class for xml_parser_error & file_parser_error,
// so one catch should be OK for all errors.
catch( ptree_error pte )
{
std::string errmsg = pte.what();
errmsg += " @\n";
errmsg += m_xpath->Contents();
THROW_IO_ERROR( errmsg );
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}
}
wxArrayString EAGLE_PLUGIN::FootprintEnumerate( const wxString& aLibraryPath, PROPERTIES* aProperties )
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{
init( aProperties );
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cacheLib( aLibraryPath );
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wxArrayString ret;
for( MODULE_CITER it = m_templates.begin(); it != m_templates.end(); ++it )
ret.Add( FROM_UTF8( it->first.c_str() ) );
return ret;
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}
MODULE* EAGLE_PLUGIN::FootprintLoad( const wxString& aLibraryPath, const wxString& aFootprintName, PROPERTIES* aProperties )
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{
init( aProperties );
cacheLib( aLibraryPath );
std::string key = TO_UTF8( aFootprintName );
MODULE_CITER mi = m_templates.find( key );
if( mi == m_templates.end() )
return NULL;
// copy constructor to clone the template
MODULE* ret = new MODULE( *mi->second );
return ret;
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}
/*
void EAGLE_PLUGIN::Save( const wxString& aFileName, BOARD* aBoard, PROPERTIES* aProperties )
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{
// Eagle lovers apply here.
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}
void EAGLE_PLUGIN::FootprintSave( const wxString& aLibraryPath, const MODULE* aFootprint, PROPERTIES* aProperties )
{
}
void EAGLE_PLUGIN::FootprintDelete( const wxString& aLibraryPath, const wxString& aFootprintName )
{
}
void EAGLE_PLUGIN::FootprintLibCreate( const wxString& aLibraryPath, PROPERTIES* aProperties )
{
}
bool EAGLE_PLUGIN::FootprintLibDelete( const wxString& aLibraryPath, PROPERTIES* aProperties )
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{
}
bool EAGLE_PLUGIN::IsFootprintLibWritable( const wxString& aLibraryPath )
{
return true;
}
*/