454 lines
14 KiB
C++
454 lines
14 KiB
C++
/*******************************************************/
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/* Menu General de Trace (PLOT): Fichier inclus PLOT.H */
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/*******************************************************/
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#ifndef GERBVIEW_H
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#define GERBVIEW_H
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#include <vector>
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#include <set>
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#ifndef eda_global
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#define eda_global extern
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#endif
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// Type d'action du phototraceur:
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#define GERB_ACTIVE_DRAW 1 // activation de lumiere ( baisser de plume)
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#define GERB_STOP_DRAW 2 // extinction de lumiere ( lever de plume)
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#define GERB_FLASH 3 // Flash
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typedef enum {
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FORMAT_HPGL,
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FORMAT_GERBER,
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FORMAT_POST
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} PlotFormat;
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//eda_global wxString g_Plot_FileName;
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eda_global wxString g_PhotoFilenameExt;
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eda_global wxString g_DrillFilenameExt;
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eda_global wxString g_PenFilenameExt;
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eda_global int g_DCodesColor;
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eda_global int g_Default_GERBER_Format;
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/* Gestion des ouvertures GERBER */
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eda_global int g_Plot_Spot_Mini; /* Diametre mini de l'ouverture pour trace GERBER */
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/*************************************/
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/* Constantes utiles en trace GERBER */
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/*************************************/
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/**
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* Enum APERTURE_T
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* is the set of all gerber aperture types allowed, according to page 16 of
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* http://gerbv.sourceforge.net/docs/rs274xrevd_e.pdf
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*/
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enum APERTURE_T
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{
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APT_CIRCLE = 'C',
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APT_LINE = 'L',
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APT_RECT = 'R',
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APT_OVAL = '0',
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APT_POLYGON = 'P',
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APT_MACRO = 'M'
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};
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// Interpolation type
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enum Gerb_Interpolation {
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GERB_INTERPOL_LINEAR_1X = 0,
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GERB_INTERPOL_LINEAR_10X,
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GERB_INTERPOL_LINEAR_01X,
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GERB_INTERPOL_LINEAR_001X,
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GERB_INTERPOL_ARC_NEG,
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GERB_INTERPOL_ARC_POS,
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};
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// Command Type (GCodes)
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enum Gerb_GCommand {
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GC_MOVE = 0,
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GC_LINEAR_INTERPOL_1X = 1,
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GC_CIRCLE_NEG_INTERPOL = 2,
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GC_CIRCLE_POS_INTERPOL = 3,
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GC_COMMENT = 4,
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GC_LINEAR_INTERPOL_10X = 10,
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GC_LINEAR_INTERPOL_0P1X = 11,
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GC_LINEAR_INTERPOL_0P01X = 12,
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GC_TURN_ON_POLY_FILL = 36,
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GC_TURN_OFF_POLY_FILL = 37,
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GC_SELECT_TOOL = 54,
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GC_PHOTO_MODE = 55, // can starts a D03 flash command: redundant with D03
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GC_SPECIFY_INCHES = 70,
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GC_SPECIFY_MILLIMETERS = 71,
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GC_TURN_OFF_360_INTERPOL = 74,
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GC_TURN_ON_360_INTERPOL = 75,
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GC_SPECIFY_ABSOLUES_COORD = 90,
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GC_SPECIFY_RELATIVEES_COORD = 91
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};
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#define MAX_TOOLS 2048
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#define FIRST_DCODE 10
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enum Gerb_Analyse_Cmd {
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CMD_IDLE = 0,
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END_BLOCK,
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ENTER_RS274X_CMD
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};
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class D_CODE;
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/**
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* Class DCODE_PARAM
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* holds a parameter for a DCODE or an "aperture macro" as defined within standard RS274X.
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* The \a value field can be either a constant or a place holder for a DCODE
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* parameter.
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*/
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class DCODE_PARAM
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{
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public:
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DCODE_PARAM() :
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index(-1),
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value(0.0)
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{}
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double GetValue( const D_CODE* aDcode ) const;
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void SetValue( double aValue )
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{
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value = aValue;
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index = -1;
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}
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/**
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* Function IsImmediate
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* tests if this DCODE_PARAM holds an immediate parameter or is a pointer into
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* a parameter held by an owning D_CODE.
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*/
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bool IsImmediate() const { return index == -1; }
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unsigned GetIndex() const
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{
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return (unsigned) index;
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}
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void SetIndex( int aIndex )
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{
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index = aIndex;
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}
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private:
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int index; ///< if -1, then \a value field is an immediate value, else this is an index into parent's D_CODE.m_am_params.
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double value; ///< if IsImmediate()==true then the value, else not used.
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};
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/**
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* Enum AM_PRIMITIVE_ID
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* is the set of all "aperture macro primitives" (primitive numbers). See
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* Table 3 in http://gerbv.sourceforge.net/docs/rs274xrevd_e.pdf
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*/
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enum AM_PRIMITIVE_ID
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{
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AMP_CIRCLE = 1,
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AMP_LINE2 = 2,
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AMP_LINE20 = 20,
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AMP_LINE_CENTER = 21,
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AMP_LINE_LOWER_LEFT = 22,
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AMP_EOF = 3,
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AMP_OUTLINE = 4,
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AMP_POLYGON = 5,
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AMP_MOIRE = 6,
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AMP_THERMAL = 7,
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};
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typedef std::vector<DCODE_PARAM> DCODE_PARAMS;
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/**
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* Struct AM_PRIMITIVE
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* holds an aperture macro primitive as given in Table 3 of
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* http://gerbv.sourceforge.net/docs/rs274xrevd_e.pdf
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*/
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struct AM_PRIMITIVE
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{
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AM_PRIMITIVE_ID primitive_id; ///< The primitive type
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DCODE_PARAMS params; ///< A sequence of parameters used by the primitive
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/**
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* Function GetExposure
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* returns the first parameter in integer form. Some but not all primitives
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* use the first parameter as an exposure control.
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*/
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int GetExposure() const
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{
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wxASSERT( params.size() && params[0].IsImmediate() ); // we have no D_CODE* for GetValue()
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return (int) params[0].GetValue( NULL );
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}
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};
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typedef std::vector<AM_PRIMITIVE> AM_PRIMITIVES;
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/**
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* Struct APERTURE_MACRO
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* helps support the "aperture macro" defined within standard RS274X.
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*/
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struct APERTURE_MACRO
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{
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wxString name; ///< The name of the aperture macro
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AM_PRIMITIVES primitives; ///< A sequence of AM_PRIMITIVEs
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};
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/**
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* Struct APERTURE_MACRO_less_than
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* is used by std:set<APERTURE_MACRO> instantiation which uses APERTURE_MACRO.name as its key.
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*/
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struct APERTURE_MACRO_less_than
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{
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// a "less than" test on two APERTURE_MACROs (.name wxStrings)
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bool operator()( const APERTURE_MACRO& am1, const APERTURE_MACRO& am2) const
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{
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return am1.name.Cmp( am2.name ) < 0; // case specific wxString compare
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}
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};
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/**
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* Type APERTURE_MACRO_SET
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* is a sorted collection of APERTURE_MACROS whose key is the name field in
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* the APERTURE_MACRO.
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*/
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typedef std::set<APERTURE_MACRO, APERTURE_MACRO_less_than> APERTURE_MACRO_SET;
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typedef std::pair<APERTURE_MACRO_SET::iterator, bool> APERTURE_MACRO_SET_PAIR;
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/**
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* Class D_CODE
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* holds a gerber DCODE definition.
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*/
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class D_CODE
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{
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friend class DCODE_PARAM;
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APERTURE_MACRO* m_Macro; ///< no ownership, points to GERBER.m_aperture_macros element
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/**
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* parameters used only when this D_CODE holds a reference to an aperture
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* macro, and these parameters would customize the macro.
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*/
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DCODE_PARAMS m_am_params;
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public:
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wxSize m_Size; /* Dimensions horiz et Vert */
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APERTURE_T m_Shape; /* shape ( Line, rect , circulaire , ovale .. ) */
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int m_Num_Dcode; /* numero de code ( >= 10 ) */
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wxSize m_Drill; /* dimension du trou central (s'il existe) */
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int m_DrillShape; /* forme du trou central ( rond = 1, rect = 2 ) */
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bool m_InUse; /* FALSE si non utilis<69> */
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bool m_Defined; /* FALSE si non defini */
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wxString m_SpecialDescr;
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public:
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D_CODE( int num_dcode );
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~D_CODE();
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void Clear_D_CODE_Data();
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void AppendParam( double aValue )
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{
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DCODE_PARAM param;
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param.SetValue( aValue );
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m_am_params.push_back( param );
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}
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void SetMacro( APERTURE_MACRO* aMacro )
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{
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m_Macro = aMacro;
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}
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APERTURE_MACRO* GetMacro() { return m_Macro; }
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/**
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* Function ShowApertureType
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* returns a character string telling what type of aperture type \a aType is.
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* @param aType The aperture type to show.
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*/
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static const wxChar* ShowApertureType( APERTURE_T aType );
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};
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inline double DCODE_PARAM::GetValue( const D_CODE* aDcode ) const
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{
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if( IsImmediate() )
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return value;
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else
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{
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// the first one was numbered 1, not zero, as in $1, see page 19 of spec.
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unsigned ndx = GetIndex() - 1;
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wxASSERT(aDcode);
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// get the parameter from the aDcode
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if( ndx < aDcode->m_am_params.size() )
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return aDcode->m_am_params[ndx].GetValue( NULL );
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else
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{
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wxASSERT( GetIndex()-1 < aDcode->m_am_params.size() );
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return 0.0;
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}
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}
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}
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/**
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* Class GERBER
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* holds the data for one gerber file or layer
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*/
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class GERBER
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{
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D_CODE* m_Aperture_List[MAX_TOOLS]; ///< Dcode (Aperture) List for this layer
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bool m_Exposure; ///< whether an aperture macro tool is flashed on or off
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public:
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wxString m_FileName; // Full File Name for this layer
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wxString m_Name; // Layer name
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int m_Layer; // Layer Number
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bool m_LayerNegative; // TRUE = Negative Layer
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bool m_GerbMetric; // FALSE = Inches, TRUE = metric
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bool m_Relative; // FALSE = absolute Coord, RUE = relative Coord
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bool m_NoTrailingZeros; // True: zeros a droite supprim<69>s
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bool m_MirorA; // True: miror / axe A (X)
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bool m_MirorB; // True: miror / axe B (Y)
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bool m_Has_DCode; // TRUE = DCodes in file (FALSE = no DCode->
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// separate DCode file
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wxPoint m_Offset; // Coord Offset
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wxSize m_FmtScale; // Fmt 2.3: m_FmtScale = 3, fmt 3.4: m_FmtScale = 4
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wxSize m_FmtLen; // Nb chars per coord. ex fmt 2.3, m_FmtLen = 5
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wxRealPoint m_LayerScale; // scale (X et Y) pour cette layer
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int m_Rotation;
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int m_Iterpolation; // Linear, 90 arc, Circ.
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bool m_ImageNegative; // TRUE = Negative image
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int m_Current_Tool; // Current Tool (Dcode) number selected
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int m_Last_Pen_Command; // Current or last pen state (0..9, set by Dn option with n <10
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int m_CommandState; // donne l'etat de l'analyse des commandes gerber
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wxPoint m_CurrentPos; // current specified coord for plot
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wxPoint m_PreviousPos; // old current specified coord for plot
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wxPoint m_IJPos; // IJ coord (for arcs & circles )
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FILE* m_Current_File; // Current file to read
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FILE* m_FilesList[12]; // Files list
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int m_FilesPtr; // Stack pointer for files list
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int m_Selected_Tool; // Pour editions: Tool (Dcode) selectionn<6E>
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int m_Transform[2][2]; // The rotation/mirror transformation matrix.
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bool m_360Arc_enbl; // Enbl 360 deg circular interpolation
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bool m_PolygonFillMode; // Enbl polygon mode (read coord as a polygone descr)
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int m_PolygonFillModeState; // In polygon mode: 0 = first segm, 1 = next segm
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APERTURE_MACRO_SET m_aperture_macros; ///< a collection of APERTURE_MACROS, sorted by name
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public:
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GERBER( int layer );
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~GERBER();
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void Clear_GERBER();
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int ReturnUsedDcodeNumber();
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void ResetDefaultValues();
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/**
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* Function InitToolTable
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*/
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void InitToolTable();
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// Routines utilis<69>es en lecture de ficher gerber
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wxPoint ReadXYCoord( char*& Text );
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wxPoint ReadIJCoord( char*& Text );
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int ReturnGCodeNumber( char*& Text );
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int ReturnDCodeNumber( char*& Text );
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bool Execute_G_Command( char*& text, int G_commande );
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bool Execute_DCODE_Command( WinEDA_GerberFrame* frame, wxDC* DC,
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char*& text, int D_commande );
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/**
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* size of single line of a text line from a gerber file.
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* warning: some files can have very long lines, so the buffer must be large
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*/
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#define GERBER_BUFZ 4000
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/**
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* Function ReadRS274XCommand
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* reads a single RS274X command terminated with a %
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*/
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bool ReadRS274XCommand( WinEDA_GerberFrame* frame, wxDC* DC,
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char aBuff[GERBER_BUFZ], char*& text );
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/**
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* Function ExecuteRS274XCommand
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* executes 1 commande
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*/
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bool ExecuteRS274XCommand( int command, char aBuff[GERBER_BUFZ], char*& text );
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/**
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* Function ReadApertureMacro
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* reads in an aperture macro and saves it in m_aperture_macros.
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* @param aBuff a character buffer at least GERBER_BUFZ long that can be
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* used to read successive lines from the gerber file.
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* @param text A reference to a character pointer which gives the initial text to read from.
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* @param gerber_file Which file to read from for continuation.
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* @return bool - true if a macro was read in successfully, else false.
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*/
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bool ReadApertureMacro( char aBuff[GERBER_BUFZ], char*& text, FILE* gerber_file );
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/**
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* Function GetDCODE
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* returns a pointer to the D_CODE within this GERBER for the given
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* \a aDCODE.
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* @param aDCODE The numeric value of the D_CODE to look up.
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* @param createIfNoExist If true, then create the D_CODE if it does not exist.
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* @return D_CODE* - the one implied by the given \a aDCODE, or NULL
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* if the requested \a aDCODE is out of range.
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*/
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D_CODE* GetDCODE( int aDCODE, bool createIfNoExist=true );
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/**
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* Function FindApertureMacro
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* looks up a previously read in aperture macro.
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* @param aLookup A dummy APERTURE_MACRO with [only] the name field set.
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* @return APERTURE_MACRO* - the one with a matching name, or NULL if not found.
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*/
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APERTURE_MACRO* FindApertureMacro( const APERTURE_MACRO& aLookup );
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};
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/**************/
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/* rs274x.cpp */
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/**************/
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bool GetEndOfBlock( char buff[GERBER_BUFZ], char*& text, FILE* gerber_file );
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eda_global GERBER* g_GERBER_List[32];
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/**
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* How to show filled polygons :
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* 0 = filled
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* 1 = Sketch mode
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*/
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eda_global int g_DisplayPolygonsModeSketch;
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#include "pcbnew.h"
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#endif // ifndef GERBVIEW_H
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