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kicad/pcbnew/plugins/altium/altium_parser_pcb.h

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2020 Thomas Pointhuber <thomas.pointhuber@gmx.at>
* Copyright (C) 2021 KiCad Developers, see AUTHORS.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
*/
#ifndef ALTIUM_PARSER_PCB_H
#define ALTIUM_PARSER_PCB_H
#include <cstdint>
#include <cstring>
#include <memory>
#include <vector>
#include <footprint.h>
#include <wx/gdicmn.h>
// tthis constant specifies an unconnected net
const uint16_t ALTIUM_NET_UNCONNECTED = std::numeric_limits<uint16_t>::max();
// this constant specifies a item which is not inside an component
const uint16_t ALTIUM_COMPONENT_NONE = std::numeric_limits<uint16_t>::max();
// this constant specifies a item which does not define a polygon
const uint16_t ALTIUM_POLYGON_NONE = std::numeric_limits<uint16_t>::max();
enum class ALTIUM_UNIT
{
UNKNOWN = 0,
INCHES = 1,
MILS = 2,
MILLIMETERS = 3,
CENTIMETER = 4
};
enum class ALTIUM_CLASS_KIND
{
UNKNOWN = -1,
NET_CLASS = 0,
SOURCE_SCHEMATIC_CLASS = 1,
FROM_TO = 2,
PAD_CLASS = 3,
LAYER_CLASS = 4,
UNKNOWN_CLASS = 5,
DIFF_PAIR_CLASS = 6,
POLYGON_CLASS = 7
};
enum class ALTIUM_DIMENSION_KIND
{
UNKNOWN = 0,
LINEAR = 1,
ANGULAR = 2,
RADIAL = 3,
LEADER = 4,
DATUM = 5,
BASELINE = 6,
CENTER = 7,
LINEAR_DIAMETER = 8,
RADIAL_DIAMETER = 9
};
enum class ALTIUM_REGION_KIND
{
UNKNOWN = -1,
COPPER = 0, // KIND=0
POLYGON_CUTOUT = 1, // KIND=1
UNKNOWN_2 = 2, // KIND=2
UNKNOWN_3 = 3, // KIND=3
CAVITY_DEFINITION = 4, // KIND=4
BOARD_CUTOUT = 5, // KIND=0 AND ISBOARDCUTOUT=TRUE
};
enum class ALTIUM_RULE_KIND
{
UNKNOWN = 0,
CLEARANCE = 1,
DIFF_PAIR_ROUTINGS = 2,
HEIGHT = 3,
HOLE_SIZE = 4,
HOLE_TO_HOLE_CLEARANCE = 5,
WIDTH = 6,
PASTE_MASK_EXPANSION = 7,
PLANE_CLEARANCE = 8,
POLYGON_CONNECT = 9,
};
enum class ALTIUM_CONNECT_STYLE
{
UNKNOWN = 0,
DIRECT = 1,
RELIEF = 2,
NONE = 3
};
enum class ALTIUM_RECORD
{
ARC = 1,
PAD = 2,
VIA = 3,
TRACK = 4,
TEXT = 5,
FILL = 6,
REGION = 11,
MODEL = 12
};
enum class ALTIUM_PAD_SHAPE
{
UNKNOWN = 0,
CIRCLE = 1,
RECT = 2,
OCTAGONAL = 3
};
enum class ALTIUM_PAD_SHAPE_ALT
{
UNKNOWN = 0,
CIRCLE = 1,
RECT = 2, // TODO: valid?
OCTAGONAL = 3, // TODO: valid?
ROUNDRECT = 9
};
enum class ALTIUM_PAD_HOLE_SHAPE
{
UNKNOWN = -1,
ROUND = 0,
SQUARE = 1,
SLOT = 2
};
enum class ALTIUM_PAD_MODE
{
SIMPLE = 0,
TOP_MIDDLE_BOTTOM = 1,
FULL_STACK = 2
};
enum class ALTIUM_PAD_RULE
{
UNKNOWN = 0,
RULE = 1,
MANUAL = 2
};
enum class ALTIUM_POLYGON_HATCHSTYLE
{
UNKNOWN = 0,
SOLID = 1,
DEGREE_45 = 2,
DEGREE_90 = 3,
HORIZONTAL = 4,
VERTICAL = 5,
NONE = 6
};
enum class ALTIUM_TEXT_POSITION
{
MANUAL = 0, // only relevant for NAMEAUTOPOSITION and COMMENTAUTOPOSITION
LEFT_TOP = 1,
LEFT_CENTER = 2,
LEFT_BOTTOM = 3,
CENTER_TOP = 4,
CENTER_CENTER = 5,
CENTER_BOTTOM = 6,
RIGHT_TOP = 7,
RIGHT_CENTER = 8,
RIGHT_BOTTOM = 9
};
enum class ALTIUM_TEXT_TYPE
{
UNKNOWN = -1,
STROKE = 0,
TRUETYPE = 1,
BARCODE = 2
};
struct ALTIUM_VERTICE
{
const bool isRound;
const int32_t radius;
const double startangle;
const double endangle;
const wxPoint position;
const wxPoint center;
explicit ALTIUM_VERTICE( const wxPoint& aPosition )
: isRound( false ),
radius( 0 ),
startangle( 0. ),
endangle( 0. ),
position( aPosition ),
center( wxPoint( 0, 0 ) )
{
}
explicit ALTIUM_VERTICE( bool aIsRound, int32_t aRadius, double aStartAngle, double aEndAngle,
const wxPoint aPosition, const wxPoint aCenter )
: isRound( aIsRound ),
radius( aRadius ),
startangle( aStartAngle ),
endangle( aEndAngle ),
position( aPosition ),
center( aCenter )
{
}
};
enum class ALTIUM_LAYER
{
UNKNOWN = 0,
TOP_LAYER = 1,
MID_LAYER_1 = 2,
MID_LAYER_2 = 3,
MID_LAYER_3 = 4,
MID_LAYER_4 = 5,
MID_LAYER_5 = 6,
MID_LAYER_6 = 7,
MID_LAYER_7 = 8,
MID_LAYER_8 = 9,
MID_LAYER_9 = 10,
MID_LAYER_10 = 11,
MID_LAYER_11 = 12,
MID_LAYER_12 = 13,
MID_LAYER_13 = 14,
MID_LAYER_14 = 15,
MID_LAYER_15 = 16,
MID_LAYER_16 = 17,
MID_LAYER_17 = 18,
MID_LAYER_18 = 19,
MID_LAYER_19 = 20,
MID_LAYER_20 = 21,
MID_LAYER_21 = 22,
MID_LAYER_22 = 23,
MID_LAYER_23 = 24,
MID_LAYER_24 = 25,
MID_LAYER_25 = 26,
MID_LAYER_26 = 27,
MID_LAYER_27 = 28,
MID_LAYER_28 = 29,
MID_LAYER_29 = 30,
MID_LAYER_30 = 31,
BOTTOM_LAYER = 32,
TOP_OVERLAY = 33,
BOTTOM_OVERLAY = 34,
TOP_PASTE = 35,
BOTTOM_PASTE = 36,
TOP_SOLDER = 37,
BOTTOM_SOLDER = 38,
INTERNAL_PLANE_1 = 39,
INTERNAL_PLANE_2 = 40,
INTERNAL_PLANE_3 = 41,
INTERNAL_PLANE_4 = 42,
INTERNAL_PLANE_5 = 43,
INTERNAL_PLANE_6 = 44,
INTERNAL_PLANE_7 = 45,
INTERNAL_PLANE_8 = 46,
INTERNAL_PLANE_9 = 47,
INTERNAL_PLANE_10 = 48,
INTERNAL_PLANE_11 = 49,
INTERNAL_PLANE_12 = 50,
INTERNAL_PLANE_13 = 51,
INTERNAL_PLANE_14 = 52,
INTERNAL_PLANE_15 = 53,
INTERNAL_PLANE_16 = 54,
DRILL_GUIDE = 55,
KEEP_OUT_LAYER = 56,
MECHANICAL_1 = 57,
MECHANICAL_2 = 58,
MECHANICAL_3 = 59,
MECHANICAL_4 = 60,
MECHANICAL_5 = 61,
MECHANICAL_6 = 62,
MECHANICAL_7 = 63,
MECHANICAL_8 = 64,
MECHANICAL_9 = 65,
MECHANICAL_10 = 66,
MECHANICAL_11 = 67,
MECHANICAL_12 = 68,
MECHANICAL_13 = 69,
MECHANICAL_14 = 70,
MECHANICAL_15 = 71,
MECHANICAL_16 = 72,
DRILL_DRAWING = 73,
MULTI_LAYER = 74,
CONNECTIONS = 75,
BACKGROUND = 76,
DRC_ERROR_MARKERS = 77,
SELECTIONS = 78,
VISIBLE_GRID_1 = 79,
VISIBLE_GRID_2 = 80,
PAD_HOLES = 81,
VIA_HOLES = 82,
};
class ALTIUM_PARSER;
struct ABOARD6_LAYER_STACKUP
{
wxString name;
size_t nextId;
size_t prevId;
int32_t copperthick;
double dielectricconst;
int32_t dielectricthick;
wxString dielectricmaterial;
};
struct ABOARD6
{
wxPoint sheetpos;
wxSize sheetsize;
int layercount;
std::vector<ABOARD6_LAYER_STACKUP> stackup;
std::vector<ALTIUM_VERTICE> board_vertices;
explicit ABOARD6( ALTIUM_PARSER& aReader );
};
struct ACLASS6
{
wxString name;
wxString uniqueid;
ALTIUM_CLASS_KIND kind;
std::vector<wxString> names;
explicit ACLASS6( ALTIUM_PARSER& aReader );
};
struct ACOMPONENT6
{
ALTIUM_LAYER layer;
wxPoint position;
double rotation;
bool locked;
bool nameon;
bool commenton;
wxString sourcedesignator;
wxString sourcefootprintlibrary;
wxString pattern;
wxString sourcecomponentlibrary;
wxString sourcelibreference;
ALTIUM_TEXT_POSITION nameautoposition;
ALTIUM_TEXT_POSITION commentautoposition;
explicit ACOMPONENT6( ALTIUM_PARSER& aReader );
};
struct ADIMENSION6
{
ALTIUM_LAYER layer;
ALTIUM_DIMENSION_KIND kind;
wxString textformat;
wxString textprefix;
wxString textsuffix;
int32_t height;
double angle;
uint32_t linewidth;
uint32_t textheight;
uint32_t textlinewidth;
int32_t textprecision;
uint32_t textgap;
bool textbold;
bool textitalic;
int32_t arrowsize;
ALTIUM_UNIT textunit;
wxPoint xy1;
std::vector<wxPoint> referencePoint;
std::vector<wxPoint> textPoint;
explicit ADIMENSION6( ALTIUM_PARSER& aReader );
};
struct AMODEL
{
wxString name;
wxString id;
bool isEmbedded;
FP_3DMODEL::VECTOR3D rotation;
explicit AMODEL( ALTIUM_PARSER& aReader );
};
struct ANET6
{
wxString name;
explicit ANET6( ALTIUM_PARSER& aReader );
};
struct APOLYGON6
{
ALTIUM_LAYER layer;
uint16_t net;
bool locked;
ALTIUM_POLYGON_HATCHSTYLE hatchstyle;
int32_t gridsize;
int32_t trackwidth;
int32_t minprimlength;
bool useoctagons;
// Note: Altium pour index is the opposite of KiCad zone priority!
int32_t pourindex;
std::vector<ALTIUM_VERTICE> vertices;
explicit APOLYGON6( ALTIUM_PARSER& aReader );
};
struct ARULE6
{
wxString name;
int priority;
ALTIUM_RULE_KIND kind;
wxString scope1expr;
wxString scope2expr;
// ALTIUM_RULE_KIND::CLEARANCE
int clearanceGap;
// ALTIUM_RULE_KIND::PLANE_CLEARANCE
int planeclearanceClearance;
// ALTIUM_RULE_KIND::POLYGON_CONNECT
int32_t polygonconnectAirgapwidth;
int32_t polygonconnectReliefconductorwidth;
int polygonconnectReliefentries;
ALTIUM_CONNECT_STYLE polygonconnectStyle;
// TODO: implement different types of rules we need to parse
explicit ARULE6( ALTIUM_PARSER& aReader );
};
struct AREGION6
{
bool is_locked;
bool is_keepout;
bool is_shapebased;
ALTIUM_LAYER layer;
uint16_t net;
uint16_t component;
uint16_t subpolyindex;
uint16_t holecount;
ALTIUM_REGION_KIND kind; // I assume this means if normal or keepout?
std::vector<ALTIUM_VERTICE> outline;
std::vector<std::vector<ALTIUM_VERTICE>> holes;
explicit AREGION6( ALTIUM_PARSER& aReader, bool aExtendedVertices );
};
struct AARC6
{
bool is_locked;
bool is_keepout;
bool is_polygonoutline;
ALTIUM_LAYER layer;
uint16_t net;
uint16_t component;
uint16_t subpolyindex;
wxPoint center;
uint32_t radius;
double startangle;
double endangle;
uint32_t width;
explicit AARC6( ALTIUM_PARSER& aReader );
};
struct ACOMPONENTBODY6
{
uint16_t component;
wxString modelName;
wxString modelId;
bool modelIsEmbedded;
FP_3DMODEL::VECTOR3D modelPosition;
FP_3DMODEL::VECTOR3D modelRotation;
double rotation;
double bodyOpacity;
explicit ACOMPONENTBODY6( ALTIUM_PARSER& aReader );
};
struct APAD6_SIZE_AND_SHAPE
{
ALTIUM_PAD_HOLE_SHAPE holeshape;
uint32_t slotsize;
double slotrotation;
wxSize inner_size[29];
ALTIUM_PAD_SHAPE inner_shape[29];
wxPoint holeoffset[32];
ALTIUM_PAD_SHAPE_ALT alt_shape[32];
uint8_t cornerradius[32];
};
struct APAD6
{
bool is_locked;
bool is_tent_top;
bool is_tent_bottom;
bool is_test_fab_top;
bool is_test_fab_bottom;
wxString name;
ALTIUM_LAYER layer;
uint16_t net;
uint16_t component;
wxPoint position;
wxSize topsize;
wxSize midsize;
wxSize botsize;
uint32_t holesize;
ALTIUM_PAD_SHAPE topshape;
ALTIUM_PAD_SHAPE midshape;
ALTIUM_PAD_SHAPE botshape;
ALTIUM_PAD_MODE padmode;
double direction;
bool plated;
ALTIUM_PAD_RULE pastemaskexpansionmode;
int32_t pastemaskexpansionmanual;
ALTIUM_PAD_RULE soldermaskexpansionmode;
int32_t soldermaskexpansionmanual;
double holerotation;
ALTIUM_LAYER tolayer;
ALTIUM_LAYER fromlayer;
std::unique_ptr<APAD6_SIZE_AND_SHAPE> sizeAndShape;
explicit APAD6( ALTIUM_PARSER& aReader );
};
struct AVIA6
{
bool is_locked;
bool is_tent_top;
bool is_tent_bottom;
bool is_test_fab_top;
bool is_test_fab_bottom;
uint16_t net;
wxPoint position;
uint32_t diameter;
uint32_t holesize;
ALTIUM_LAYER layer_start;
ALTIUM_LAYER layer_end;
ALTIUM_PAD_MODE viamode;
explicit AVIA6( ALTIUM_PARSER& aReader );
};
struct ATRACK6
{
bool is_locked;
bool is_keepout;
bool is_polygonoutline;
ALTIUM_LAYER layer;
uint16_t net;
uint16_t component;
uint16_t subpolyindex;
wxPoint start;
wxPoint end;
uint32_t width;
explicit ATRACK6( ALTIUM_PARSER& aReader );
};
struct ATEXT6
{
ALTIUM_LAYER layer;
uint16_t component;
wxPoint position;
uint32_t height;
double rotation;
uint32_t strokewidth;
ALTIUM_TEXT_POSITION textposition;
bool isBold;
bool isItalic;
bool isMirrored;
bool isInverted;
bool isComment;
bool isDesignator;
ALTIUM_TEXT_TYPE fonttype;
wxString text;
explicit ATEXT6( ALTIUM_PARSER& aReader, std::map<uint32_t, wxString>& aStringTable );
};
struct AFILL6
{
bool is_locked;
bool is_keepout;
ALTIUM_LAYER layer;
uint16_t component;
uint16_t net;
wxPoint pos1;
wxPoint pos2;
double rotation;
explicit AFILL6( ALTIUM_PARSER& aReader );
};
#endif //ALTIUM_PARSER_PCB_H
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