kicad/common/common_plotHPGL_functions.cpp

216 lines
5.9 KiB
C++

/******************************************/
/* Kicad: Common plot HPGL Routines */
/******************************************/
#include "fctsys.h"
#include "gr_basic.h"
#include "trigo.h"
#include "wxstruct.h"
#include "base_struct.h"
#include "common.h"
#include "plot_common.h"
#include "macros.h"
/* parametre HPGL pour trace de cercle: */
#define CHORD_ANGLE 10
// Variables partagees avec Common plot Postscript Routines
extern wxPoint LastPenPosition;
extern wxPoint PlotOffset;
extern FILE* PlotOutputFile;
extern double XScale, YScale;
extern int g_DefaultPenWidth, g_CurrentPenWidth;
extern int PlotOrientOptions, etat_plume;
//Variables locales
void Move_Plume_HPGL( wxPoint pos, int plume );
void Plume_HPGL( int plume );
/***********************************************************************************/
void InitPlotParametresHPGL( wxPoint offset, double xscale, double yscale, int orient )
/***********************************************************************************/
/* Set the plot offset for the current plotting
* xscale,yscale = coordinate scale (scale coefficient for coordinates)
* device_xscale,device_yscale = device coordinate scale (i.e scale used by plot device)
*/
{
PlotOffset = offset;
XScale = xscale;
YScale = yscale;
g_DefaultPenWidth = 6; /* epaisseur du trait standard en 1/1000 pouce */
PlotOrientOptions = orient;
g_CurrentPenWidth = -1;
}
/*****************************************************************/
bool PrintHeaderHPGL( FILE* plot_file, int pen_speed, int pen_num )
/*****************************************************************/
{
char Line[256];
PlotOutputFile = plot_file;
etat_plume = 'U';
sprintf( Line, "IN;VS%d;PU;PA;SP%d;\n", pen_speed, pen_num );
fputs( Line, plot_file );
return TRUE;
}
/**********************************/
bool CloseFileHPGL( FILE* plot_file )
/**********************************/
{
fputs( "PU;PA;SP0;\n", plot_file );
fclose( plot_file );
return TRUE;
}
/************************************************************/
void PlotCircle_HPGL( wxPoint centre, int diameter, int width )
/************************************************************/
{
int rayon;
char Line[256];
UserToDeviceCoordinate( centre );
rayon = (int) (diameter / 2 * XScale);
if( rayon < 0 )
rayon = 0;
Plume_HPGL( 'U' );
sprintf( Line, "PA %d,%d;CI %d,%d;\n", centre.x, centre.y, rayon, CHORD_ANGLE );
fputs( Line, PlotOutputFile );
Plume_HPGL( 'U' ); return;
}
/********************************************************************/
void PlotArcHPGL( wxPoint centre, int StAngle, int EndAngle, int rayon, int width )
/********************************************************************/
/* trace d'un arc de cercle:
* centre = coord du centre
* StAngle, EndAngle = angle de debut et fin
* rayon = rayon de l'arc
* commande
* PU;PA x,y;PD;AA start_arc_X, start_arc_Y, angle, NbSegm; PU;
* ou PU;PA x,y;PD;AA start_arc_X, start_arc_Y, angle; PU;
*/
{
char Line[256];
wxPoint cmap; /* point de depart */
wxPoint cpos; /* centre */
float angle; /* angle de l'arc*/
if( rayon <= 0 )
return;
cpos = centre; UserToDeviceCoordinate( cpos );
if( PlotOrientOptions == PLOT_MIROIR )
{
EndAngle = -EndAngle;
StAngle = -StAngle;
EXCHG( StAngle, EndAngle );
}
angle = (EndAngle - StAngle) / 10.0;
/* Calcul des coord du point de depart : */
cmap.x = (int) ( centre.x + ( rayon * cos( StAngle * M_PI / 1800 ) ) );
cmap.y = (int) ( centre.y + ( rayon * sin( StAngle * M_PI / 1800 ) ) );
UserToDeviceCoordinate( cmap );
Plume_HPGL( 'U' );
sprintf( Line, "PU;PA %d,%d;PD;AA %d,%d, ", cmap.x, cmap.y, cpos.x, cpos.y );
fputs( Line, PlotOutputFile );
sprintf( Line, "%f", -angle ); to_point( Line ); // Transforme , et . du separateur
fputs( Line, PlotOutputFile );
sprintf( Line, ", %d", CHORD_ANGLE ); fputs( Line, PlotOutputFile );
sprintf( Line, ";PU;\n" ); fputs( Line, PlotOutputFile );
Plume_HPGL( 'U' );
}
/*****************************************************/
void PlotPolyHPGL( int nb, int* coord, int fill, int width )
/*****************************************************/
/* Trace un polygone (ferme si rempli) en format HPGL
* coord = tableau des coord des sommets
* nb = nombre de coord ( 1 coord = 2 elements: X et Y du tableau )
* fill : si != 0 polygone rempli
*/
{
int ii;
if( nb <= 1 )
return;
Move_Plume_HPGL( wxPoint( coord[0], coord[1] ), 'U' );
for( ii = 1; ii < nb; ii++ )
{
Move_Plume_HPGL( wxPoint( coord[ii * 2], coord[(ii * 2) + 1] ), 'D' );
}
/* Fermeture eventuelle du polygone */
if( fill )
{
ii = (nb - 1) * 2;
if( (coord[ii] != coord[0] ) || (coord[ii + 1] != coord[0]) )
Move_Plume_HPGL( wxPoint( coord[0], coord[1] ), 'D' );
}
Plume_HPGL( 'U' );
}
/**********************************************/
void Move_Plume_HPGL( wxPoint pos, int plume )
/**********************************************/
/*
* deplace la plume levee (plume = 'U') ou baissee (plume = 'D')
* en position x,y
* Unites en Unites DESSIN
* Si plume = 'Z' lever de plume sans deplacement
*/
{
char Line[256];
if( plume == 'Z' )
{
Plume_HPGL( 'U' );
return;
}
Plume_HPGL( plume );
UserToDeviceCoordinate( pos );
sprintf( Line, "PA %d,%d;\n", pos.x, pos.y ); fputs( Line, PlotOutputFile );
}
/***************************/
void Plume_HPGL( int plume )
/***************************/
/* leve (plume = 'U') ou baisse (plume = 'D') la plume
*/
{
if( plume == 'U' )
{
if( etat_plume != 'U' )
fputs( "PU;", PlotOutputFile );
etat_plume = 'U';
}
else
{
if( etat_plume != 'D' )
fputs( "PD;", PlotOutputFile );
etat_plume = 'D';
}
}