kicad/pcbnew/exporters/idf.h

322 lines
10 KiB
C++

/**
* @file idf.h
*/
/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2013-2014 Cirilo Bernardo
*
* 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 IDF_H
#define IDF_H
#include <wx/string.h>
#include <set>
#include <string>
#include <idf_common.h>
/**
* @Class IDF_COMP
* is responsible for parsing individual component files and rewriting relevant
* data to a library file.
*/
class IDF_COMP
{
private:
/// filename (full path) of the IDF component footprint
wxString componentFile;
/// reference designator; a valid designator or NOREFDES
std::string refdes;
/// overall translation of the part (component location + 3D offset)
double loc_x;
double loc_y;
double loc_z;
/// overall rotation of the part (3D Z rotation + component rotation)
double rotation;
/// true if the component is on the top of the board
bool top;
/// geometry of the package; for example, HORIZ, VERT, "HORIZ 0.2 inch"
std::string geometry;
/// package name or part number; for example "TO92" or "BC107"
std::string partno;
/// the owning IDF_LIB instance
IDF_LIB* parent;
/**
* Function substituteComponent
* places a substitute component footprint into the library file
* and creates an appropriate entry for the PLACEMENT section
* @param aLibFile is the library file to write to
* @return bool: true if data was successfully written
*/
bool substituteComponent( FILE* aLibFile );
// parse RECORD 2; return TRUE if all is OK, otherwise FALSE
bool parseRec2( const std::string aLine, bool& isNewItem );
// parse RECORD 3; return TRUE if all is OK, otherwise FALSE
bool parseRec3( const std::string aLine, int& aLoopIndex,
double& aX, double& aY, bool& aClosed );
public:
IDF_COMP( IDF_LIB* aParent );
/**
* Function PlaceComponent
* specifies the parameters of an IDF component outline placed on the board
* @param aComponentFile is the IDF component file to include
* @param aRefDes is the component reference designator; an empty string,
* '~' or '0' all default to "NOREFDES".
* @param aLocation is the overall translation of the part (board location + 3D offset)
* @param aRotation is the overall rotation of the part (component rotation + 3D Z rotation)
* @return bool: true if the specified component file exists
*/
bool PlaceComponent( const wxString aComponentFile, const std::string aRefDes,
double aXLoc, double aYLoc, double aZLoc,
double aRotation, bool isOnTop );
/**
* Function WriteLib
* parses the model file to extract information needed by the
* PLACEMENT section and writes data (if necessary) to the
* library file
* @param aLibFile is the library file to write to
* @return bool: true if data was successfully written
*/
bool WriteLib( FILE* aLibFile );
/**
* Function WritePlacement
* write the .PLACEMENT data of the component to the IDF board @param aLayoutFile
* @return bool: true if data was successfully written
*/
bool WritePlacement( FILE* aLayoutFile );
};
/**
* @Class IDF_LIB
* stores information on IDF models ( also has an inbuilt NOMODEL model )
* and is responsible for writing the ELECTRICAL sections of the library file
* (*.emp) and the PLACEMENT section of the board file.
*/
class IDF_LIB
{
/// a list of component outline names and a flag to indicate their save state
std::set< std::string > regOutlines;
std::list< IDF_COMP* > components;
bool libWritten;
/**
* Function writeLib
* writes all current library information to the output file
*/
bool writeLib( FILE* aLibFile );
/**
* Function writeBrd
* write placement information to the board file
*/
bool writeBrd( FILE* aLayoutFile );
public:
virtual ~IDF_LIB();
/**
* Function WriteFiles
* writes the library entries to the *.emp file (aLibFile) and the
* .PLACEMENT section to the *.emn file (aLayoutFile)
* @param aLayoutFile IDF board file
* @param aLibFile IDF library file
* @return bool: true if all data was written successfully
*/
bool WriteFiles( FILE* aLayoutFile, FILE* aLibFile );
/**
* Function RegisterOutline
* adds the given string to a list of current outline entities.
* @param aGeomPartString is a concatenation of the IDF component's
* geometry name and part name; this is used as a unique identifier
* to prevent redundant entries in the library output.
* @return bool: true if the string was already registered,
* false if it is a new registration.
*/
bool RegisterOutline( const std::string aGeomPartString );
bool PlaceComponent( const wxString aComponentFile, const std::string aRefDes,
double aXLoc, double aYLoc, double aZLoc,
double aRotation, bool isOnTop );
};
/**
* @Class IDF_BOARD
* contains objects necessary for the maintenance of the IDF board and library files.
*/
class IDF_BOARD
{
private:
IDF_LIB IDFLib; ///< IDF library manager
std::list<IDF_DRILL_DATA*> drills; ///< IDF drill data
int outlineIndex; ///< next outline index to use
bool useThou; ///< true if output is THOU
double scale; ///< scale from KiCad IU to IDF output units
double boardThickness; ///< total thickness of the PCB
bool hasBrdOutlineHdr; ///< true when a board outline header has been written
int refdesIndex; ///< index to generate REFDES for modules which have none
double offsetX; ///< offset to roughly center the board on the world origin
double offsetY;
FILE* layoutFile; ///< IDF board file (*.emn)
FILE* libFile; ///< IDF library file (*.emp)
/**
* Function Write
* outputs a .DRILLED_HOLES section compliant with the
* IDFv3 specification.
* @param aLayoutFile : open file (*.emn) for output
*/
bool WriteDrills( void );
public:
IDF_BOARD();
~IDF_BOARD();
// Set up the output files and scale factor;
// return TRUE if everything is OK
bool Setup( wxString aBoardName, wxString aFullFileName, bool aUseThou, int aBoardThickness );
// Finish a board
// Write out all current data and close files.
// Return true for success
bool Finish( void );
/**
* Function GetScale
* returns the output scaling factor
*/
double GetScale( void );
/**
* Function SetOffset
* sets the global coordinate offsets
*/
void SetOffset( double x, double y );
/**
* Function GetOffset
* returns the global coordinate offsets
*/
void GetOffset( double& x, double& y );
// Add an outline; the very first outline is the board perimeter;
// all additional outlines are cutouts.
bool AddOutline( IDF_OUTLINE& aOutline );
/**
* Function AddDrill
* creates a drill entry and adds it to the list of PCB holes
* @param dia : drill diameter
* @param x : X coordinate of the drill center
* @param y : Y coordinate of the drill center
* @param plating : flag, PTH or NPTH
* @param refdes : component Reference Designator
* @param holetype : purpose of hole
* @param owner : one of MCAD, ECAD, UNOWNED
*/
bool AddDrill( double dia, double x, double y,
IDF3::KEY_PLATING plating,
const std::string refdes,
const std::string holeType,
IDF3::KEY_OWNER owner );
/**
* Function AddSlot
* creates a slot cutout within the IDF BOARD section; this is a deficient representation
* of a KiCad 'oval' drill; IDF is unable to represent a plated slot and unable to
* represent the Reference Designator association with a slot.
*/
bool AddSlot( double aWidth, double aLength, double aOrientation, double aX, double aY );
bool PlaceComponent( const wxString aComponentFile, const std::string aRefDes,
double aXLoc, double aYLoc, double aZLoc,
double aRotation, bool isOnTop );
std::string GetRefDes( void );
};
/**
* @Class IDF_DRILL_DATA
* contains information describing a drilled hole and is responsible for
* writing this information to a file in compliance with the IDFv3 specification.
*/
class IDF_DRILL_DATA
{
private:
double dia;
double x;
double y;
IDF3::KEY_PLATING plating;
IDF3::KEY_REFDES kref;
IDF3::KEY_HOLETYPE khole;
std::string refdes;
std::string holetype;
IDF3::KEY_OWNER owner;
public:
/**
* Constructor IDF_DRILL_DATA
* creates a drill entry with information compliant with the
* IDFv3 specifications.
* @param aDrillDia : drill diameter
* @param aPosX : X coordinate of the drill center
* @param aPosY : Y coordinate of the drill center
* @param aPlating : flag, PTH or NPTH
* @param aRefDes : component Reference Designator
* @param aHoleType : purpose of hole
* @param aOwner : one of MCAD, ECAD, UNOWNED
*/
IDF_DRILL_DATA( double aDrillDia, double aPosX, double aPosY,
IDF3::KEY_PLATING aPlating,
const std::string aRefDes,
const std::string aHoleType,
IDF3::KEY_OWNER aOwner );
/**
* Function Write
* writes a single line representing the hole within a .DRILLED_HOLES section
*/
bool Write( FILE* aLayoutFile );
};
#endif // IDF_H