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%%	options

copyright owner	=	Dirk Krause
copyright year	=	2012-xxxx
license		=	bsd



%%	header

#ifdef __cplusplus
extern "C" {
#endif

/**	Calculate distance between a given point and a line through
	the origin.
	@param	xp	X coordinate of given point.
	@param	yp	Y coordinate of given point.
	@param	beta	Angle of line.
	@param	ec	Pointer to error code variable.
	@return	Distance value.
*/
double
dk3figbb_distance_point_line(
  double	 xp,
  double	 yp,
  double	 beta,
  int		*ec
);

/**	Add ellipse data to bounding box.
	@param	bb	Bounding box data to modify.
	@param	elli	Details of ellipse to add.
	@param	lw	Half line width.
	@return	1 on success, 0 on error.
*/
int
dk3fig_bb_add_ellipse(
  dk3_bb_t			*bb,
  dk3_fig_det_ell_t const	*elli,
  double			 lw
);

/**	Add arc data to bounding box.
	@param	bb	Bounding box data to modify.
	@param	arc	Details of arc to add.
	@param	cl	Flag: Closed arc.
	@param	lw	Half line width.
	@return	1 on success, 0 on error.
*/
int
dk3fig_bb_add_arc(
  dk3_bb_t			*bb,
  dk3_fig_det_arc_t const	*arc,
  int				 cl,
  double			 lw
);

/**	Add polyline data to bounding box.
	@param	bb	Bounding box data to modify.
	@param	pol	Details of polyline to add.
	@param	lw	Half line width.
	@return	1 on success, 0 on error.
*/
int
dk3fig_bb_add_polyline(
  dk3_bb_t			*bb,
  dk3_fig_det_pol_t const	*pol,
  double			 lw
);

/**	Add spline data to bounding box.
	@param	drw	Drawing structure.
	@param	bb	Bounding box data to modify.
	@param	spl	Details of spline object to add.
	@param	lw	Half line width.
	@param	primobj	Flag: Primary object (1=object, 0=arrowhead).
	@param	iscl	Flag: Closed spline (1=closed, 0=open).
	@return	1 on success, 0 on error.
*/
int
dk3fig_bb_add_spline(
  dk3_fig_drawing_t		*drw,
  dk3_bb_t			*bb,
  dk3_fig_det_spl_t const	*spl,
  double			 lw,
  int				 primobj,
  int				 iscl
);

/**	Add text data to bounding box.
	@param	bb	Bounding box data to modify.
	@param	txt	Details of text object to add.
	@param	res	Fig file resolution.
	@param	bbts	Flag: Use text size when calculating bounding box.
	@return	1 on success, 0 on error.
*/
int
dk3fig_bb_add_text(
  dk3_bb_t			*bb,
  dk3_fig_det_txt_t const	*txt,
  double			 res,
  int				 bbts
);

/**	Calculate bounding box for half-circle.
	@param	outbb	Destination bounding box.
	@param	hci	Half-circle details.
	@param	ra	Radius around points.
	@return	1 on success, 0 on error.
*/
int
dk3fig_bb_add_hci(
  dk3_bb_t			*outbb,
  dk3_fig_det_hci_t const	*hci,
  double			 ra
);

#ifdef __cplusplus
}
#endif



%%	module

#include "dk3all.h"
#include "dk3fig.h"
#include "dk3bb.h"
#include "dk3xsp.h"
#include "dk3bezcu.h"
#include "dk3figto.h"
#include "dk3figbb.h"



$!trace-include



/**	Check whether a value is in a given range.
	@param	min	Interval minimum.
	@param	max	Interval maximum.
	@param	val	Value to check.
	@return	1 if the value is in the interval, 0 otherwise.
*/
static
int
dk3fig_bb_in_range(double min, double max, double val)
{
  int		 back = 0;
  if(min <= val) {
    if(max >= val) {
      back = 1;
    }
  }
  return back;
}



double
dk3figbb_distance_point_line(
  double	 xp,
  double	 yp,
  double	 beta,
  int		*ec
)
{
  double	 sinbeta;	/* Sinus of angle. */
  double	 cosbeta;	/* Cosinus of angle. */
  double	 deltax;	/* X difference. */
  double	 deltay;	/* Y difference. */
  double	 back;
  $? "+ dk3figbb_distance_point_line x=%lg y=%lg beta=%lg", xp, yp, beta
  sinbeta = sin(beta);
  cosbeta = cos(beta);
  deltax = dk3ma_d_sub_ok(
    xp,
    (dk3ma_d_add_ok((yp * sinbeta), (xp * cosbeta), ec) * cosbeta),
    ec
  );
  deltay = dk3ma_d_sub_ok(
    yp,
    (dk3ma_d_add_ok((yp * sinbeta), (xp * cosbeta), ec) * sinbeta),
    ec
  );
  back = sqrt(
    dk3ma_d_add_ok(
      dk3ma_d_mul_ok(deltax, deltax, ec),
      dk3ma_d_mul_ok(deltay, deltay, ec),
      ec
    )
  ); $? "- dk3figbb_distance_point_line %lg", back
  return back;
}



int
dk3fig_bb_add_ellipse(
  dk3_bb_t			*bb,
  dk3_fig_det_ell_t const	*elli,
  double			 lw
)
{
  double		 h;		/* Height. */
  double		 w;		/* Width. */
  double		 x;		/* X coordinate of point. */
  double		 y;		/* Y coordinate of point. */
  double		 th;		/* Parameter t for Ph. */
  double		 tw;		/* Parameter t for Pw. */
  double		 pma;		/* Pi minus alpha. */
  double		 hpma;		/* Half pi minus alpha. */
  int			 back = 0;
  int			 ec = 0;	/* Error code for math. */
  int			 r;		/* Result from dk3bb_add. */
  $? "+ dk3fig_bb_add_ellipse %lg", elli->an
  if((bb) && (elli)) {
    back = 1;
    $? ". cx=%lg", elli->cx
    $? ". cy=%lg", elli->cy
    $? ". rx=%lg", elli->rx
    $? ". ry=%lg", elli->ry
    $? ". an=%lg (%lg degree)", elli->an, (180.0 * elli->an) / M_PI
    if(fabs(elli->an) > 1.0e-6) {	$? ". rotated"
      pma = dk3ma_d_sub_ok(M_PI, elli->an, &ec);
      hpma = dk3ma_d_sub_ok(M_PI_2, elli->an, &ec);
      th = dk3ma_d_atan2(
        (-1.0 * (elli->ry) * cos(pma)),
        ((elli->rx) * sin(pma))
      );			$? ". th=%lg", th
      x = (elli->rx) * cos(th);	
      y = (elli->ry) * sin(th);	$? ". x=%lg y=%lg", x, y
      h = dk3figbb_distance_point_line(
        x, y, (-1.0 * (elli->an)), &ec
      );			$? ". h=%lg", h
      tw = dk3ma_d_atan2(
        (-1.0 * (elli->ry) * cos(hpma)),
        ((elli->rx) * sin(hpma))
      );			$? ". tw=%lg", tw
      x = (elli->rx) * cos(tw);
      y = (elli->ry) * cos(tw);	$? ". x=%lg y=%lg", x ,y
      w = dk3figbb_distance_point_line(
        x, y, dk3ma_d_sub_ok(M_PI_2, (elli->an), &ec), &ec
      );			$? ". w=%lg", w
      r = dk3bb_add_y_width(
        bb,
	dk3ma_d_sub_ok(elli->cy, h, &ec),
	(0.5 * lw)
      );
      if(!(r)) { back = 0; }
      r = dk3bb_add_y_width(
        bb,
	dk3ma_d_add_ok(elli->cy, h, &ec),
	(0.5 * lw)
      );
      if(!(r)) { back = 0; }
      r = dk3bb_add_x_width(
        bb,
	dk3ma_d_sub_ok(elli->cx, w, &ec),
	(0.5 * lw)
      );
      if(!(r)) { back = 0; }
      r = dk3bb_add_x_width(
        bb,
	dk3ma_d_add_ok(elli->cx, w, &ec),
	(0.5 * lw)
      );
      if(!(r)) { back = 0; }
    } else {				$? ". not rotated"
      r = dk3bb_add_y_width(
        bb,
	dk3ma_d_sub_ok(elli->cy, elli->ry, &ec),
	(0.5 * lw)
      );
      if(!(r)) { back = 0; }
      r = dk3bb_add_y_width(
        bb,
	dk3ma_d_add_ok(elli->cy, elli->ry, &ec),
	(0.5 * lw)
      );
      if(!(r)) { back = 0; }
      r = dk3bb_add_x_width(
        bb,
	dk3ma_d_sub_ok(elli->cx, elli->rx, &ec),
	(0.5 * lw)
      );
      if(!(r)) { back = 0; }
      r = dk3bb_add_x_width(
        bb,
	dk3ma_d_add_ok(elli->cx, elli->rx, &ec),
	(0.5 * lw)
      );
      if(!(r)) { back = 0; }
    }
  }
  if(ec) { back = 0; } $? "- dk3fig_bb_add_ellipse %d", back
  return back;
}



int
dk3fig_bb_add_arc(
  dk3_bb_t			*bb,
  dk3_fig_det_arc_t const	*arc,
  int				 cl,
  double			 lw
)
{
  double		min;		/* Minimum angle. */
  double		max;		/* Maximum angle. */
  int			back = 0;
  int			ec = 0;		/* Mathematical error code. */
  $? "+ dk3fig_bb_add_arc %lg", lw
  if((bb) && (arc)) {
    back = 1;
    if(!dk3bb_point_width(bb, arc->x1, arc->y1, lw)) { back = 0; }
    if(!dk3bb_point_width(bb, arc->x2, arc->y2, lw)) { back = 0; }
    if(!dk3bb_point_width(bb, arc->x3, arc->y3, lw)) { back = 0; }
    if(cl) { if(!dk3bb_point_width(bb, arc->xc, arc->yc, lw)) { back = 0; } }
    if(arc->ae >= arc->as) {
      min = arc->as; max = arc->ae;
    } else {
      min = arc->ae; max = arc->as;
    }	$? ". range %lg %lg", min, max
    if(dk3fig_bb_in_range(min, max, 0.0)) {	$? ".   0 in Fig space"
      if(!dk3bb_add_x_width(bb, dk3ma_d_add_ok(arc->xc, arc->ra, &ec), lw)) {
        back = 0;
      }
    }
    if(dk3fig_bb_in_range(min, max, M_PI_2)) {	$? ".  90 degree in Fig space"
      if(!dk3bb_add_y_width(bb, dk3ma_d_add_ok(arc->yc, arc->ra, &ec), lw)) {
        back = 0;
      }
    }
    if(dk3fig_bb_in_range(min, max, M_PI)) {	$? ". 180 degree in Fig space"
      if(!dk3bb_add_x_width(bb, dk3ma_d_sub_ok(arc->xc, arc->ra, &ec), lw)) {
        back = 0;
      }
    }
    if(dk3fig_bb_in_range(min, max, (3.0 * M_PI_2))) {	$? ". 270 degree in Fig space"
      if(!dk3bb_add_y_width(bb, dk3ma_d_sub_ok(arc->yc, arc->ra, &ec), lw)) {
        back = 0;
      }
    }
    if(dk3fig_bb_in_range(min, max, (2.0 * M_PI))) {	$? ". 360 degree in Fig space"
      if(!dk3bb_add_x_width(bb, dk3ma_d_add_ok(arc->xc, arc->ra, &ec), lw)) {
        back = 0;
      }
    }
    if(dk3fig_bb_in_range(min, max, (5.0 * M_PI_2))) {	$? ". 450 degree in Fig space"
      if(!dk3bb_add_y_width(bb, dk3ma_d_add_ok(arc->yc, arc->ra, &ec), lw)) {
        back = 0;
      }
    }
    if(dk3fig_bb_in_range(min, max, (3.0 * M_PI))) {	$? ". 540 degree in Fig space"
      if(!dk3bb_add_x_width(bb, dk3ma_d_sub_ok(arc->xc, arc->ra, &ec), lw)) {
        back = 0;
      }
    }
    if(dk3fig_bb_in_range(min, max, (7.0 * M_PI_2))) {	$? ". 630 degree in Fig space"
      if(!dk3bb_add_y_width(bb, dk3ma_d_sub_ok(arc->yc, arc->ra, &ec), lw)) {
        back = 0;
      }
    }
    if(dk3fig_bb_in_range(min, max, (4.0 * M_PI))) {	$? ". 720 degree in Fig space"
      if(!dk3bb_add_x_width(bb, dk3ma_d_add_ok(arc->xc, arc->ra, &ec), lw)) {
        back = 0;
      }
    }
  }
  if(ec) {
    back = 0;
  } $? "- dk3fig_bb_add_arc %d", back
  return back;
}




int
dk3fig_bb_add_polyline(
  dk3_bb_t			*bb,
  dk3_fig_det_pol_t const	*pol,
  double			 lw
)
{
  dk3_fig_poly_point_t const	*ptr;		/* Current point. */
  size_t			 num;		/* Index of current point. */
  int				 back = 0;
  $? "+ dk3fig_bb_add_polyline"
  if((bb) && (pol)) {
    if((pol->po) && (0 < pol->np)) {
      back = 1;
      ptr = pol->po;
      num = pol->np;
      while(num--) {
        if(!dk3bb_point_width(bb, ptr->x, ptr->y, lw)) { back = 0; }
        ptr++;
      }
    }
  } $? "- dk3fig_bb_add_polyline %d", back
  return back;
}



int
dk3fig_bb_add_text(
  dk3_bb_t			*bb,
  dk3_fig_det_txt_t const	*txt,
  double			 res,
  int				 bbts
)
{
  double 	 ymax;		/* Maximum y. */
  int		 back = 0;
  int		 ec = 0;	/* Mathematical error code. */
  $? "+ dk3fig_bb_add_text"
  if((bb) && (txt)) {
    back = 1;
    dk3bb_point(bb, txt->x, txt->y);
    /*	2013-02-03: Y value is used only if bbts is set.
    */
    /*	2012-12-01: Y values grow downwards in Fig space, so we
    	must substract instead of add.
    */
    if(bbts) {
      ymax = dk3ma_d_sub_ok(
        txt->y,
        dk3ma_d_mul_ok(res, (txt->fs / 72.72), &ec),
        &ec
      ); $? ". ymax = %lg", ymax
      dk3bb_point(bb, txt->x, ymax);
    }
    if(ec) {
      back = 0;
    }
  } $? "- dk3fig_bb_add_text %d", back
  return back;
}



/**	Add X-spline segment to bounding box.
	@param	bb	Bounding box structure to modify.
	@param	pa	Point A (left neighbour of segment).
	@param	pb	Point B (start of segment).
	@param	pc	Point C (end of segment).
	@param	pd	Point D (right neighbour of segment).
	@param	xssbs	Number of Bezier spline segments per X-spline segment.
	@param	cb	Flag: Compatibility to XFig interpolated spline bug.
	@param	ra	Radius of points.
	@return	1 on success, 0 on error.
*/
static
int
dk3fig_bb_add_xpline_segment(
  dk3_bb_t			*bb,
  dk3_fig_spline_point_t	*pa,
  dk3_fig_spline_point_t	*pb,
  dk3_fig_spline_point_t	*pc,
  dk3_fig_spline_point_t	*pd,
  size_t			 xssbs,
  int				 cb,
  double			 ra
)
{
  dk3_xspline_segment_t	 xseg;		/* Spline segment. */
  double		 x;		/* Current x. */
  double		 y;		/* Current y. */
  double		 lastx;		/* Previous x. */
  double		 lasty;		/* Previous y. */
  double		 dxdt;		/* X derived. */
  double		 dydt;		/* Y derived. */
  double		 lastdxdt;	/* X derived, previous value. */
  double		 lastdydt;	/* Y derived, previous value. */
  double		 xp;		/* Start control point x. */
  double		 yp;		/* Start control point y. */
  double		 xm;		/* End control point x. */
  double		 ym;		/* End control point y. */
  double		 t;		/* Current t value. */
  double		 dxssbs;	/* Number of sub segments. */
  double		 d3;		/* Scale factor for derivatives. */
  size_t		 i;		/* Current sub segment. */
  int			 back = 1;
  int			 mec = 0;	/* Mathematical error code. */
  $? "+ dk3fig_bb_add_xpline_segment"
  dk3xsp_reset(&xseg);
  if(cb) { dk3xsp_set_cb(&xseg, cb); }
  dk3xsp_set(&xseg, pa, pb, pc, pd);
  if(dk3xsp_calculate(&xseg, 0.0, 1)) {		$? ". first calc"
    dxssbs = (double)xssbs;
    d3 = dk3ma_d_mul_ok(3.0, dxssbs, &mec);
    lastx = dk3xsp_get_x(&xseg);
    lasty = dk3xsp_get_y(&xseg);
    lastdxdt = dk3xsp_get_dxdt(&xseg);
    lastdydt = dk3xsp_get_dydt(&xseg);
    for(i = 1; i <= xssbs; i++) {
      if(i < xssbs) {
        t = (double)i / dxssbs;
      } else {
        t = 1.0;
      }
      if(dk3xsp_calculate(&xseg, t, 1)) {
        x = dk3xsp_get_x(&xseg);
	y = dk3xsp_get_y(&xseg);
	dxdt = dk3xsp_get_dxdt(&xseg);
	dydt = dk3xsp_get_dydt(&xseg);
	xp = dk3ma_d_add_ok(
	  lastx,
	  dk3ma_d_div_ok(lastdxdt, d3, &mec),
	  &mec
	);
	yp = dk3ma_d_add_ok(
	  lasty,
	  dk3ma_d_div_ok(lastdydt, d3, &mec),
	  &mec
	);
	xm = dk3ma_d_sub_ok(
	  x,
	  dk3ma_d_div_ok(dxdt, d3, &mec),
	  &mec
	);
	ym = dk3ma_d_sub_ok(
	  y,
	  dk3ma_d_div_ok(dydt, d3, &mec),
	  &mec
	);
	if(!dk3bezier_bb(bb, lastx, lasty, xp, yp, xm, ym, x, y, ra, &mec)) {
	  back = 0;				$? "! Bezier bb"
	}
	lastx = x;
	lasty = y;
	lastdxdt = dxdt;
	lastdydt = dydt;
      } else {					$? "! calc"
        back = 0;
      }
    }
  } else {					$? "! first calc"
    back = 0;
  }
  if(mec) {					$? "! math error"
    back = 0;
  } $? "- dk3fig_bb_add_xpline_segment %d", back
  return back;
}



int
dk3fig_bb_add_spline(
  dk3_fig_drawing_t		*drw,
  dk3_bb_t			*bb,
  dk3_fig_det_spl_t const	*spl,
  double			 lw,
  int				 primobj,
  int				 iscl
)
{
  dk3_fig_spline_point_t	*pa;	/* Point A. */
  dk3_fig_spline_point_t	*pb;	/* Point B. */
  dk3_fig_spline_point_t	*pc;	/* Point C. */
  dk3_fig_spline_point_t	*pd;	/* Point D. */
  size_t	 xssbs;		/* Bezier segments per X-spline segment. */
  size_t	 cs;		/* Current X-spline segment. */
  int		 back = 0;
  $? "+ dk3fig_bb_add_spline closed=%d", iscl
  if((bb) && (spl)) {
    if((spl->po) && (((iscl) ? (size_t)2 : (size_t)1) < spl->np)) {
      back = 1;
      xssbs = dk3fig_tool_xssbs(drw, primobj);
      if(iscl) {			$? ". closed spline"
        for(cs = 0; cs < (spl->np); cs++) {
	  pb = &((spl->po)[cs]);
	  pc = &((spl->po)[((cs < (spl->np - 1)) ? (cs + 1) : 0)]);
	  pa = &((spl->po)[(cs > 0) ? (cs - 1) : ((spl->np) - 1)]);
	  pd = &((spl->po)[(cs < (spl->np - 2))?(cs + 2):(cs + 2 - spl->np)]);
	  if(!dk3fig_bb_add_xpline_segment(bb,pa,pb,pc,pd,xssbs,drw->cosp,lw)) {
	    back = 0;
	  }
	}
      } else {				$? ". open spline"
        for(cs = 0; cs < ((spl->np) - 1); cs++) {
	  pa = pd = NULL;
	  pb = &((spl->po)[cs]);
	  pc = &((spl->po)[cs + 1]);
	  if(0 < cs) { pa = &((spl->po)[cs - 1]); }
	  if(cs < ((spl->np) - 2)) { pd = &((spl->po)[cs + 2]); }
	  if(!dk3fig_bb_add_xpline_segment(bb,pa,pb,pc,pd,xssbs,drw->cosp,lw)) {
	    back = 0;
	  }
	}
      }
    } else {			$? "! no point data or too few points"
    }
  } $? "- dk3fig_bb_add_spline %d", back
  return back;
}



int
dk3fig_bb_add_hci(
  dk3_bb_t		 	*outbb,
  dk3_fig_det_hci_t const	*hci,
  double			 ra
)
{
  dk3_fig_poly_point_t	po[3];		/* End and middle point of arc. */
  size_t		i;		/* Used as index when rotating. */
  int		 	back = 0;
  int			mec = 0;	/* Mathematical error code. */
  if((outbb) && (hci)) {
    po[0].x = 0.0;
    po[0].y = hci->ra;
    po[1].x = -1.0 * hci->ra;
    po[1].y = 0.0;
    po[2].x = 0.0;
    po[2].y = -1.0 * hci->ra;
    for(i = 0; i < 3; i++) {
      dk3fig_tool_rotate_point(&(po[i]), hci->an, &mec);
      dk3fig_tool_shift_point(
	&(po[i]), hci->cx, hci->cy, &mec
      );
    }
    if(0 == mec) { 
      back = 1;
      if(!dk3bb_point_width(outbb, po[0].x, po[0].y, ra)) { back = 0; }
      if(!dk3bb_point_width(outbb, po[1].x, po[1].y, ra)) { back = 0; }
      if(!dk3bb_point_width(outbb, po[2].x, po[2].y, ra)) { back = 0; }
      /* ##### HIER WEITER: Weitere Punkte je nach Drehung */
    }
  }
  return back;
}