kicad/pcbnew/plugins/fabmaster/import_fabmaster.h

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/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2019-2021 KiCad Developers, see AUTHORS.txt for contributors.
* Author: Seth Hillbrand <seth@kipro-pcb.com>
*
* 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 PCBNEW_IMPORTERS_IMPORT_FABMASTER_H_
#define PCBNEW_IMPORTERS_IMPORT_FABMASTER_H_
#include <eda_text.h>
#include <geometry/shape_arc.h>
#include <hash_eda.h>
#include <pad_shapes.h>
#include <deque>
#include <functional>
#include <iostream>
#include <map>
#include <memory>
#include <set>
#include <unordered_map>
#include <string>
#include <vector>
#include <wx/filename.h>
enum PCB_LAYER_ID : int;
class BOARD;
class PROGRESS_REPORTER;
class FABMASTER
{
public:
using single_row = std::vector<std::string>;
FABMASTER() :
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has_pads( false ),
has_comps( false ),
has_graphic( false ),
has_nets( false ),
has_pins( false ),
m_progressReporter( nullptr ),
m_doneCount( 0 ),
m_lastProgressCount( 0 ),
m_totalCount( 0 )
{}
bool Read( const std::string& aFile );
bool Process();
bool LoadBoard( BOARD* aBoard, PROGRESS_REPORTER* aProgressReporter );
private:
wxFileName m_filename;
enum section_type : int
{
UNKNOWN_EXTRACT,
EXTRACT_PADSTACKS,
EXTRACT_PAD_SHAPES,
EXTRACT_FULL_LAYERS,
EXTRACT_VIAS,
FABMASTER_EXTRACT_PINS,
EXTRACT_PINS,
EXTRACT_TRACES,
EXTRACT_GRAPHICS,
EXTRACT_BASIC_LAYERS,
EXTRACT_NETS,
EXTRACT_REFDES
};
std::deque<single_row> rows;
bool has_pads;
bool has_comps;
bool has_graphic;
bool has_nets;
bool has_pins;
struct FM_PAD
{
std::string name;
bool fixed;
bool via;
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PAD_SHAPE shape;
std::string custom_name;
bool top;
bool bottom;
bool paste;
bool mask;
bool drill;
bool plated;
bool is_octogon;
int drill_size_x;
int drill_size_y;
int width;
int height;
int mask_width;
int mask_height;
int paste_width;
int paste_height;
int x_offset;
int y_offset;
int antipad_size;
struct HASH
{
std::size_t operator()( const FM_PAD& aPad ) const
{
return std::hash<std::string>{}( aPad.name );
}
};
};
std::unordered_map<std::string, FM_PAD> pads;
enum COMPCLASS
{
COMPCLASS_NONE,
COMPCLASS_IO,
COMPCLASS_IC,
COMPCLASS_DISCRETE
};
enum SYMTYPE
{
SYMTYPE_NONE,
SYMTYPE_PACKAGE,
SYMTYPE_MECH,
SYMTYPE_FORMAT,
SYMTYPE_DRAFTING
};
// A!NET_NAME!REFDES!PIN_NUMBER!PIN_NAME!PIN_GROUND!PIN_POWER!
struct NETNAME
{
std::string name; ///!< NET_NAME
std::string refdes; ///!< REFDES
std::string pin_num; ///!< PIN_NUMBER
std::string pin_name; ///!< PIN_NAME
bool pin_gnd; ///!< PIN_GND
bool pin_pwr; ///!< PIN_PWR
struct LESS
{
bool operator()(const NETNAME& lhs, const NETNAME& rhs) const
{
if( lhs.refdes == rhs.refdes )
return lhs.pin_num < rhs.pin_num;
return lhs.refdes < rhs.refdes;
}
};
};
std::map<std::pair<std::string, std::string>, NETNAME> pin_nets;
std::set<std::string> netnames;
struct CLASS
{
std::string name; ///!< CLASS
std::string subclass; ///!< SUBCLASS
};
enum GRAPHIC_SHAPE
{
GR_SHAPE_LINE,
GR_SHAPE_TEXT,
GR_SHAPE_RECTANGLE,
GR_SHAPE_ARC,
GR_SHAPE_CIRCLE ///! Not actually in Fabmaster but we use for 360° arcs
};
enum GRAPHIC_TYPE
{
GR_TYPE_NONE,
GR_TYPE_CONNECT,
GR_TYPE_NOTCONNECT,
GR_TYPE_SHAPE,
GR_TYPE_POLYGON,
GR_TYPE_VOID
};
struct GRAPHIC_ITEM
{
int start_x; ///<! GRAPHIC_DATA_1
int start_y; ///<! GRAPHIC_DATA_2
int width; ///<! Various sections depending on type
std::string layer; ///<! SUBCLASS
std::string symbol; ///<! SYMBOL
std::string refdes; ///<! REFDES
int seq; ///<! RECORD_TAG[0]
int subseq; ///<! RECORD_TAG[1]
GRAPHIC_TYPE type; ///<! Type of graphic item
GRAPHIC_SHAPE shape; ///<! Shape of the graphic_item
struct SEQ_CMP
{
bool operator()(const std::unique_ptr<GRAPHIC_ITEM>& lhs,
const std::unique_ptr<GRAPHIC_ITEM>& rhs) const
{
if( lhs->refdes != rhs->refdes )
return lhs->refdes < rhs->refdes;
if( lhs->layer != rhs->layer )
return lhs->layer < rhs->layer;
return lhs->seq < rhs->seq;
}
};
};
struct GRAPHIC_LINE : public GRAPHIC_ITEM
{
int end_x; ///<! GRAPHIC_DATA_3
int end_y; ///<! GRAPHIC_DATA_4
///<! width is GRAPHIC_DATA_5
};
struct GRAPHIC_ARC : public GRAPHIC_ITEM
{
int end_x; ///<! GRAPHIC_DATA_3
int end_y; ///<! GRAPHIC_DATA_4
int center_x; ///<! GRAPHIC_DATA_5
int center_y; ///<! GRAPHIC_DATA_6
int radius; ///<! GRAPHIC_DATA_7
///<! width is GRAPHIC_DATA_8
bool clockwise; ///<! GRAPHIC_DATA_9
SHAPE_ARC result; ///<! KiCad-style arc representation
};
struct GRAPHIC_RECTANGLE : public GRAPHIC_ITEM
{
int end_x; ///<! GRAPHIC_DATA_3
int end_y; ///<! GRAPHIC_DATA_4
bool fill; ///<! GRAPHIC_DATA_5
};
struct GRAPHIC_TEXT : public GRAPHIC_ITEM
{
double rotation; ///<! GRAPHIC_DATA_3
bool mirror; ///<! GRAPHIC_DATA_4
GR_TEXT_H_ALIGN_T orient; ///<! GRAPHIC_DATA_5
// GRAPHIC_DATA_6 is
// SIZE FONT HEIGHT WIDTH ITAL LINESPACE THICKNESS
int height; ///<! GRAPHIC_DATA_6[2]
int thickness; ///<! GRAPHIC_DATA_6[6]
bool ital; ///<! GRAPHIC_DATA_6[4] != 0.0
std::string text; ///<! GRAPHIC_DATA_7
};
using graphic_element = std::set<std::unique_ptr<GRAPHIC_ITEM>, GRAPHIC_ITEM::SEQ_CMP>;
/// A!LAYER_SORT!LAYER_SUBCLASS!LAYER_ARTWORK!LAYER_USE!LAYER_CONDUCTOR!LAYER_DIELECTRIC_CONSTANT
/// !LAYER_ELECTRICAL_CONDUCTIVITY!LAYER_MATERIAL!LAYER_SHIELD_LAYER!LAYER_THERMAL_CONDUCTIVITY!LAYER_THICKNESS!
struct FABMASTER_LAYER
{
int id; ///<! LAYER_SORT
std::string name; ///<! LAYER_SUBCLASS
bool positive; ///<! LAYER_ARTWORK (either POSITIVE or NEGATIVE)
std::string use; ///<! LAYER_USE
bool conductive; ///<! LAYER_CONDUCTOR
double er; ///<! LAYER_DIELECTRIC_CONSTANT
double conductivity; ///<! LAYER_ELECTRICAL_CONDUCTIVITY
std::string material; ///<! LAYER_MATERIAL
bool shield; ///<! LAYER_SHIELD_LAYER
double thermal_cond; ///<! LAYER_THERMAL_CONDUCTIVITY
double thickness; ///<! LAYER_THICKNESS
int layerid; ///<! pcbnew layer (assigned)
bool disable; ///<! if true, prevent the layer elements from being used
struct BY_ID
{
bool operator()(const FABMASTER_LAYER* lhs, const FABMASTER_LAYER* rhs) const
{
return lhs->id < rhs->id;
}
};
};
std::map<std::string, FABMASTER_LAYER> layers;
/**
* A!SUBCLASS!PAD_SHAPE_NAME!GRAPHIC_DATA_NAME!GRAPHIC_DATA_NUMBER!RECORD_TAG!GRAPHIC_DATA_1!
* GRAPHIC_DATA_2!GRAPHIC_DATA_3!GRAPHIC_DATA_4!GRAPHIC_DATA_5!GRAPHIC_DATA_6!GRAPHIC_DATA_7!
* GRAPHIC_DATA_8!GRAPHIC_DATA_9!PAD_STACK_NAME!REFDES!PIN_NUMBER!
*/
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struct FABMASTER_PAD_SHAPE
{
std::string name; ///<! PAD_SHAPE_NAME
std::string padstack; ///<! PAD_STACK_NAME
std::string refdes; ///<! REFDES
std::string pinnum; ///<! PIN_NUMBER
std::map<int, graphic_element> elements;
struct HASH
{
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std::size_t operator()( const std::unique_ptr<FABMASTER_PAD_SHAPE>& aPad ) const
{
return std::hash<std::string>{}( aPad->name );
}
};
};
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std::unordered_map<std::string, FABMASTER_PAD_SHAPE> pad_shapes;
// * A!SYM_TYPE!SYM_NAME!REFDES!SYM_X!SYM_Y!SYM_ROTATE!SYM_MIRROR!NET_NAME!CLASS!SUBCLASS!RECORD_TAG!
// * GRAPHIC_DATA_NAME!GRAPHIC_DATA_NUMBER!GRAPHIC_DATA_1!GRAPHIC_DATA_2!GRAPHIC_DATA_3!GRAPHIC_DATA_4!
// * GRAPHIC_DATA_5!GRAPHIC_DATA_6!GRAPHIC_DATA_7!GRAPHIC_DATA_8!GRAPHIC_DATA_9!GRAPHIC_DATA_10!COMP_DEVICE_TYPE!
// * COMP_PACKAGE!COMP_PART_NUMBER!COMP_VALUE!CLIP_DRAWING!
struct SYMBOL
{
int sym_id; ///<! RECORD_TAG[0]
int seq_id; ///<! RECORD_TAG[1] (RECORD_TAG is of the form "x y z")
int subseq_id; ///<! RECORD_TAG[2] (RECORD_TAG is of the form "x y z")
std::string name; ///<! SYM_NAME
std::string refdes; ///<! REFDES
int x; ///<! SYM_X
int y; ///<! SYM_Y
std::map<int, graphic_element> elements;
struct HASH
{
std::size_t operator()( const FABMASTER::SYMBOL& aSym ) const
{
return std::hash<std::string>{}( aSym.name );
}
};
};
// Temporary data structure to pass graphic data from file for processing
struct GRAPHIC_DATA
{
std::string graphic_dataname;
std::string graphic_datanum;
std::string graphic_data1;
std::string graphic_data2;
std::string graphic_data3;
std::string graphic_data4;
std::string graphic_data5;
std::string graphic_data6;
std::string graphic_data7;
std::string graphic_data8;
std::string graphic_data9;
std::string graphic_data10;
};
std::unordered_map<std::string, SYMBOL> symbols;
// * A!GRAPHIC_DATA_NAME!GRAPHIC_DATA_NUMBER!RECORD_TAG!GRAPHIC_DATA_1!GRAPHIC_DATA_2!GRAPHIC_DATA_3!
// * GRAPHIC_DATA_4!GRAPHIC_DATA_5!GRAPHIC_DATA_6!GRAPHIC_DATA_7!GRAPHIC_DATA_8!GRAPHIC_DATA_9!
// * SUBCLASS!SYM_NAME!REFDES!
struct GEOM_GRAPHIC
{
std::string subclass; ///<! SUBCLASS
std::string name; ///<! SYM_NAME
std::string refdes; ///<! REFDES
int id; ///<! RECORD_TAG[0]
std::unique_ptr<graphic_element> elements;
struct BY_ID
{
bool operator()(const GEOM_GRAPHIC& lhs, const GEOM_GRAPHIC& rhs) const
{
return lhs.id < rhs.id;
}
};
};
std::vector<GEOM_GRAPHIC> board_graphics;
std::map<std::string, std::map<int, GEOM_GRAPHIC>> comp_graphics;
// A!VIA_X!VIA_Y!PAD_STACK_NAME!NET_NAME!TEST_POINT!
struct FM_VIA
{
int x; ///<! VIA_X
int y; ///<! VIA_Y
std::string padstack; ///<! PAD_STACK_NAME
std::string net; ///<! NET_NAME
bool test_point; ///<! TEST_POINT
bool mirror; ///<! VIA_MIRROR (VIA_MIRROR is an optional component)
};
std::vector<std::unique_ptr<FM_VIA>> vias;
// A!CLASS!SUBCLASS!GRAPHIC_DATA_NAME!GRAPHIC_DATA_NUMBER!RECORD_TAG!GRAPHIC_DATA_1!
// GRAPHIC_DATA_2!GRAPHIC_DATA_3!GRAPHIC_DATA_4!GRAPHIC_DATA_5!GRAPHIC_DATA_6!GRAPHIC_DATA_7!
// GRAPHIC_DATA_8!GRAPHIC_DATA_9!NET_NAME!
struct TRACE
{
std::string lclass; ///<! CLASS
std::string layer; ///<! SUBCLASS
std::string netname; ///<! NET_NAME
int id; ///<! RECORD_TAG[0]
graphic_element segment; ///<! GRAPHIC_DATA (can be either LINE or ARC)
struct BY_ID
{
bool operator()(const std::unique_ptr<TRACE>& lhs, const std::unique_ptr<TRACE>& rhs) const
{
return lhs->id < rhs->id;
}
};
};
std::set<std::unique_ptr<TRACE>, TRACE::BY_ID> traces;
std::set<std::unique_ptr<TRACE>, TRACE::BY_ID> zones;
std::set<std::unique_ptr<TRACE>, TRACE::BY_ID> polygons;
std::set<std::unique_ptr<TRACE>, TRACE::BY_ID> refdes;
// A!REFDES!COMP_CLASS!COMP_PART_NUMBER!COMP_HEIGHT!COMP_DEVICE_LABEL!COMP_INSERTION_CODE!SYM_TYPE!
// SYM_NAME!SYM_MIRROR!SYM_ROTATE!SYM_X!SYM_Y!COMP_VALUE!COMP_TOL!COMP_VOLTAGE!
struct COMPONENT
{
std::string refdes; ///<! REFDES
COMPCLASS cclass; ///<! COMP_CLASS
std::string pn; ///<! COMP_PART_NUMBER
std::string height; ///<! COMP_HEIGHT
std::string dev_label; ///<! COMP_DEVICE_LABEL
std::string insert_code; ///<! COMP_INSERTION_CODE
SYMTYPE type; ///<! SYM_TYPE
std::string name; ///<! SYM_NAME
bool mirror; ///<! SYM_MIRROR
double rotate; ///<! SYM_ROTATE (degrees)
int x; ///<! SYM_X
int y; ///<! SYM_Y
std::string value; ///<! COMP_VALUE
std::string tol; ///<! COMP_TOL
std::string voltage; ///<! COMP_VOLTAGE
struct HASH
{
std::size_t operator()( const FABMASTER::COMPONENT& aCmp ) const
{
return std::hash<std::string>{}( aCmp.refdes );
}
};
};
std::map<std::string, std::vector<std::unique_ptr<COMPONENT>>> components;
// A!SYM_NAME!SYM_MIRROR!PIN_NAME!PIN_NUMBER!PIN_X!PIN_Y!PAD_STACK_NAME!REFDES!PIN_ROTATION!TEST_POINT!
struct PIN
{
std::string name; ///<! SYM_NAME
bool mirror; ///<! SYM_MIRROR
std::string pin_name; ///<! PIN_NAME
std::string pin_number; ///<! PIN_NUMBER
int pin_x; ///<! PIN_X - Absolute board units
int pin_y; ///<! PIN_Y - Absolute board units
std::string padstack; ///<! PAD_STACK
std::string refdes; ///<! REFDES
double rotation; ///<! PIN_ROTATION
struct BY_NUM
{
bool operator()(const std::unique_ptr<PIN>& lhs,
const std::unique_ptr<PIN>& rhs) const
{
return lhs->pin_number < rhs->pin_number;
}
};
};
std::map<std::string, std::set<std::unique_ptr<PIN>, PIN::BY_NUM>> pins;
std::map<std::string, PCB_LAYER_ID> layer_map;
section_type detectType( size_t aOffset );
void checkpoint();
int execute_recordbuffer( int filetype );
int getColFromName( size_t aRow, const std::string& aStr );
SYMTYPE parseSymType( const std::string& aSymType );
COMPCLASS parseCompClass( const std::string& aCompClass );
/**
* Processes data from text vectors into internal database
* for further ordering
* @param aRow vector offset being processed
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* @return Count of the number of rows processed, return -1 on error
*/
double processScaleFactor( size_t aRow );
size_t processPadStacks( size_t aRow );
size_t processCustomPads( size_t aRow );
size_t processGeometry( size_t aRow );
size_t processVias( size_t aRow );
size_t processTraces( size_t aRow );
size_t processFootprints( size_t aRow );
size_t processNets( size_t aRow );
size_t processLayers( size_t aRow );
size_t processSimpleLayers( size_t aRow );
size_t processPadStackLayers( size_t aRow );
size_t processSymbols( size_t aRow );
size_t processPins( size_t aRow );
/**
* Specialty functions for processing graphical data rows into the internal
* database
* @param aData Loaded data vector
* @param aScale Prior loaded scale factor
* @return Pointer to newly allocated graphical item or nullptr on failure
*/
GRAPHIC_ITEM* processGraphic( const GRAPHIC_DATA& aData, double aScale );
GRAPHIC_ARC* processArc( const GRAPHIC_DATA& aData, double aScale );
GRAPHIC_LINE* processLine( const GRAPHIC_DATA& aData, double aScale );
GRAPHIC_TEXT* processText( const GRAPHIC_DATA& aData, double aScale );
GRAPHIC_RECTANGLE* processRectangle( const GRAPHIC_DATA& aData, double aScale );
PCB_LAYER_ID getLayer( const std::string& aLayerName );
bool assignLayers();
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/**
* Reads the double/integer value from a std string independent of the user locale
* @param aStr string to generate value from
* @return 0 if value cannot be created
*/
double readDouble( const std::string& aStr ) const;
int readInt( const std::string& aStr ) const;
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/**
* Sets zone priorities based on zone BB size. Larger bounding boxes get smaller priorities
* so smaller zones can knock out areas where they overlap.
* @param aBoard
* @return True if successful
*/
bool orderZones( BOARD* aBoard );
/**
* Loads sections of the database into the board
* @param aBoard
* @return True if successful
*/
bool loadZones( BOARD* aBoard );
bool loadOutline( BOARD* aBoard, const std::unique_ptr<TRACE>& aLine);
bool loadNets( BOARD* aBoard );
bool loadLayers( BOARD* aBoard );
bool loadGraphics( BOARD* aBoard );
bool loadVias( BOARD* aBoard );
bool loadEtch( BOARD* aBoard, const std::unique_ptr<TRACE>& aLine);
bool loadZone( BOARD* aBoard, const std::unique_ptr<FABMASTER::TRACE>& aLine);
bool loadPolygon( BOARD* aBoard, const std::unique_ptr<FABMASTER::TRACE>& aLine);
bool loadFootprints( BOARD* aBoard );
SHAPE_POLY_SET loadShapePolySet( const graphic_element& aLine);
PROGRESS_REPORTER* m_progressReporter; ///< optional; may be nullptr
unsigned m_doneCount;
unsigned m_lastProgressCount;
unsigned m_totalCount; ///< for progress reporting
};
#endif /* PCBNEW_IMPORTERS_IMPORT_FABMASTER_H_ */