common/fltk/src/fl_plastic.cxx - android_external_tigervnc - Gitiles

 //
 // "$Id: fl_plastic.cxx 7903 2010-11-28 21:06:39Z matt $"
 //
 // "Plastic" drawing routines for the Fast Light Tool Kit (FLTK).
 //
 // These box types provide a cross between Aqua and KDE buttons; kindof
 // like translucent plastic buttons...
 //
 // Copyright 2001-2010 by Michael Sweet.
 //
 // This library is free software; you can redistribute it and/or
 // modify it under the terms of the GNU Library General Public
 // License as published by the Free Software Foundation; either
 // version 2 of the License, or (at your option) any later version.
 //
 // This library 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
 // Library General Public License for more details.
 //
 // You should have received a copy of the GNU Library General Public
 // License along with this library; if not, write to the Free Software
 // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
 // USA.
 //
 // Please report all bugs and problems on the following page:
 //
 //     http://www.fltk.org/str.php
 //

 // Box drawing code for an obscure box type.
 // These box types are in separate files so they are not linked
 // in if not used.

 #include <FL/Fl.H>
 #include <FL/fl_draw.H>
 #include "flstring.h"

 //
 // Uncomment the following line to restore the old plastic box type
 // appearance.
 //

 //#define USE_OLD_PLASTIC_BOX
 #define USE_OLD_PLASTIC_COLOR

 extern uchar *fl_gray_ramp();

 inline Fl_Color shade_color(uchar gc, Fl_Color bc) {
 #ifdef USE_OLD_PLASTIC_COLOR
   return fl_color_average((Fl_Color)gc, bc, 0.75f);
 #else
   unsigned	grgb = Fl::get_color((Fl_Color)gc),
 		brgb = Fl::get_color(bc);
   int		red, green, blue, gray;


   gray  = ((grgb >> 24) & 255);
   red   = gray * ((brgb >> 24) & 255) / 255 + gray * gray / 510;
   gray  = ((grgb >> 16) & 255);
   green = gray * ((brgb >> 16) & 255) / 255 + gray * gray / 510;
   gray  = ((grgb >> 8) & 255);
   blue  = gray * ((brgb >> 8) & 255) / 255 + gray * gray / 510;

   if (red > 255)
     red = 255;

   if (green > 255)
     green = 255;

   if (blue > 255)
     blue = 255;

   if (Fl::draw_box_active())
     return fl_rgb_color(red, green, blue);
   else
     return fl_color_average(FL_GRAY, fl_rgb_color(red, green, blue), 0.75f);
 #endif // USE_OLD_PLASTIC_COLOR
 }


 static void frame_rect(int x, int y, int w, int h, const char *c, Fl_Color bc) {
   uchar *g = fl_gray_ramp();
   int b = strlen(c) / 4 + 1;

   for (x += b, y += b, w -= 2 * b, h -= 2 * b; b > 1; b --)
   {
     // Draw lines around the perimeter of the button, 4 colors per
     // circuit.
     fl_color(shade_color(g[(int)*c++], bc));
     fl_line(x, y + h + b, x + w - 1, y + h + b, x + w + b - 1, y + h);
     fl_color(shade_color(g[(int)*c++], bc));
     fl_line(x + w + b - 1, y + h, x + w + b - 1, y, x + w - 1, y - b);
     fl_color(shade_color(g[(int)*c++], bc));
     fl_line(x + w - 1, y - b, x, y - b, x - b, y);
     fl_color(shade_color(g[(int)*c++], bc));
     fl_line(x - b, y, x - b, y + h, x, y + h + b);
   }
 }


 static void frame_round(int x, int y, int w, int h, const char *c, Fl_Color bc) {
   uchar *g = fl_gray_ramp();
   int b = strlen(c) / 4 + 1;

   if (w==h) {
     for (; b > 1; b --, x ++, y ++, w -= 2, h -= 2)
     {
       fl_color(shade_color(g[(int)*c++], bc));
       fl_arc(x, y, w, h, 45.0, 135.0);
       fl_color(shade_color(g[(int)*c++], bc));
       fl_arc(x, y, w, h, 315.0, 405.0);
       fl_color(shade_color(g[(int)*c++], bc));
       fl_arc(x, y, w, h, 225.0, 315.0);
       fl_color(shade_color(g[(int)*c++], bc));
       fl_arc(x, y, w, h, 135.0, 225.0);
     }
   } else if (w>h) {
     int d = h/2;
     for (; b > 1; d--, b --, x ++, y ++, w -= 2, h -= 2)
     {
       fl_color(shade_color(g[(int)*c++], bc));
       fl_arc(x, y, h, h, 90.0, 135.0);
       fl_xyline(x+d, y, x+w-d);
       fl_arc(x+w-h, y, h, h, 45.0, 90.0);
       fl_color(shade_color(g[(int)*c++], bc));
       fl_arc(x+w-h, y, h, h, 315.0, 405.0);
       fl_color(shade_color(g[(int)*c++], bc));
       fl_arc(x+w-h, y, h, h, 270.0, 315.0);
       fl_xyline(x+d, y+h-1, x+w-d);
       fl_arc(x, y, h, h, 225.0, 270.0);
       fl_color(shade_color(g[(int)*c++], bc));
       fl_arc(x, y, h, h, 135.0, 225.0);
     }
   } else if (w<h) {
     int d = w/2;
     for (; b > 1; d--, b --, x ++, y ++, w -= 2, h -= 2)
     {
       fl_color(shade_color(g[(int)*c++], bc));
       fl_arc(x, y, w, w, 45.0, 135.0);
       fl_color(shade_color(g[(int)*c++], bc));
       fl_arc(x, y, w, w, 0.0, 45.0);
       fl_yxline(x+w-1, y+d, y+h-d);
       fl_arc(x, y+h-w, w, w, 315.0, 360.0);
       fl_color(shade_color(g[(int)*c++], bc));
       fl_arc(x, y+h-w, w, w, 225.0, 315.0);
       fl_color(shade_color(g[(int)*c++], bc));
       fl_arc(x, y+h-w, w, w, 180.0, 225.0);
       fl_yxline(x, y+d, y+h-d);
       fl_arc(x, y, w, w, 135.0, 180.0);
     }
   }
 }


 static void shade_rect(int x, int y, int w, int h, const char *c, Fl_Color bc) {
   uchar		*g = fl_gray_ramp();
   int		i, j;
   int		clen = strlen(c) - 1;
   int		chalf = clen / 2;
   int		cstep = 1;

   if (h < (w * 2)) {
     // Horizontal shading...
     if (clen >= h) cstep = 2;

     for (i = 0, j = 0; j < chalf; i ++, j += cstep) {
       // Draw the top line and points...
       fl_color(shade_color(g[(int)c[i]], bc));
       fl_xyline(x + 1, y + i, x + w - 2);

       fl_color(shade_color(g[c[i] - 2], bc));
       fl_point(x, y + i + 1);
       fl_point(x + w - 1, y + i + 1);

       // Draw the bottom line and points...
       fl_color(shade_color(g[(int)c[clen - i]], bc));
       fl_xyline(x + 1, y + h - i, x + w - 2);

       fl_color(shade_color(g[c[clen - i] - 2], bc));
       fl_point(x, y + h - i);
       fl_point(x + w - 1, y + h - i);
     }

     // Draw the interior and sides...
     i = chalf / cstep;

     fl_color(shade_color(g[(int)c[chalf]], bc));
     fl_rectf(x + 1, y + i, w - 2, h - 2 * i + 1);

     fl_color(shade_color(g[c[chalf] - 2], bc));
     fl_yxline(x, y + i, y + h - i);
     fl_yxline(x + w - 1, y + i, y + h - i);
   } else {
     // Vertical shading...
     if (clen >= w) cstep = 2;

     for (i = 0, j = 0; j < chalf; i ++, j += cstep) {
       // Draw the left line and points...
       fl_color(shade_color(g[(int)c[i]], bc));
       fl_yxline(x + i, y + 1, y + h - 1);

       fl_color(shade_color(g[c[i] - 2], bc));
       fl_point(x + i + 1, y);
       fl_point(x + i + 1, y + h);

       // Draw the right line and points...
       fl_color(shade_color(g[(int)c[clen - i]], bc));
       fl_yxline(x + w - 1 - i, y + 1, y + h - 1);

       fl_color(shade_color(g[c[clen - i] - 2], bc));
       fl_point(x + w - 2 - i, y);
       fl_point(x + w - 2 - i, y + h);
     }

     // Draw the interior, top, and bottom...
     i = chalf / cstep;

     fl_color(shade_color(g[(int)c[chalf]], bc));
     fl_rectf(x + i, y + 1, w - 2 * i, h - 1);

     fl_color(shade_color(g[c[chalf] - 2], bc));
     fl_xyline(x + i, y, x + w - i);
     fl_xyline(x + i, y + h, x + w - i);
   }
 }

 static void shade_round(int x, int y, int w, int h, const char *c, Fl_Color bc) {
   uchar		*g = fl_gray_ramp();
   int		i;
   int		clen = strlen(c) - 1;
   int		chalf = clen / 2;

   if (w>h) {
     int d = h/2;
     const int na = 8;
     for (i=0; i<chalf; i++, d--, x++, y++, w-=2, h-=2)
     {
       fl_color(shade_color(g[(int)c[i]], bc));
       fl_pie(x, y, h, h, 90.0, 135.0+i*na);
       fl_xyline(x+d, y, x+w-d);
       fl_pie(x+w-h, y, h, h, 45.0+i*na, 90.0);
       fl_color(shade_color(g[(int)c[i] - 2], bc));
       fl_pie(x+w-h, y, h, h, 315.0+i*na, 405.0+i*na);
       fl_color(shade_color(g[(int)c[clen - i]], bc));
       fl_pie(x+w-h, y, h, h, 270.0, 315.0+i*na);
       fl_xyline(x+d, y+h-1, x+w-d);
       fl_pie(x, y, h, h, 225.0+i*na, 270.0);
       fl_color(shade_color(g[c[(int)clen - i] - 2], bc));
       fl_pie(x, y, h, h, 135.0+i*na, 225.0+i*na);
     }
     fl_color(shade_color(g[(int)c[chalf]], bc));
     fl_rectf(x+d, y, w-h+1, h+1);
     fl_pie(x, y, h, h, 90.0, 270.0);
     fl_pie(x+w-h, y, h, h, 270.0, 90.0);
   } else {
     int d = w/2;
     const int na = 8;
     for (i=0; i<chalf; i++, d--, x++, y++, w-=2, h-=2)
     {
       fl_color(shade_color(g[(int)c[i]], bc));
       fl_pie(x, y, w, w, 45.0+i*na, 135.0+i*na);
       fl_color(shade_color(g[c[i] - 2], bc));
       fl_pie(x, y, w, w, 0.0, 45.0+i*na);
       fl_yxline(x+w-1, y+d, y+h-d);
       fl_pie(x, y+h-w, w, w, 315.0+i*na, 360.0);
       fl_color(shade_color(g[(int)c[clen - i]], bc));
       fl_pie(x, y+h-w, w, w, 225.0+i*na, 315.0+i*na);
       fl_color(shade_color(g[c[clen - i] - 2], bc));
       fl_pie(x, y+h-w, w, w, 180.0, 225.0+i*na);
       fl_yxline(x, y+d, y+h-d);
       fl_pie(x, y, w, w, 135.0+i*na, 180.0);
     }
     fl_color(shade_color(g[(int)c[chalf]], bc));
     fl_rectf(x, y+d, w+1, h-w+1);
     fl_pie(x, y, w, w, 0.0, 180.0);
     fl_pie(x, y+h-w, w, w, 180.0, 360.0);
   }
 }


 static void up_frame(int x, int y, int w, int h, Fl_Color c) {
   frame_rect(x, y, w, h - 1, "KLDIIJLM", c);
 }


 static void narrow_thin_box(int x, int y, int w, int h, Fl_Color c) {
   if (h<=0 || w<=0) return;
   uchar *g = fl_gray_ramp();
   fl_color(shade_color(g['R'], c));
   fl_rectf(x+1, y+1, w-2, h-2);
   fl_color(shade_color(g['I'], c));
   if (w > 1) {
     fl_xyline(x+1, y, x+w-2);
     fl_xyline(x+1, y+h-1, x+w-2);
   }
   if (h > 1) {
     fl_yxline(x, y+1, y+h-2);
     fl_yxline(x+w-1, y+1, y+h-2);
   }
 }


 static void thin_up_box(int x, int y, int w, int h, Fl_Color c) {
 #ifdef USE_OLD_PLASTIC_BOX
   shade_rect(x + 2, y + 2, w - 4, h - 5, "RVQNOPQRSTUVWVQ", c);
   up_frame(x, y, w, h, c);
 #else
   if (w > 4 && h > 4) {
     shade_rect(x + 1, y + 1, w - 2, h - 3, "RQOQSUWQ", c);
     frame_rect(x, y, w, h - 1, "IJLM", c);
   } else {
     narrow_thin_box(x, y, w, h, c);
   }
 #endif // USE_OLD_PLASTIC_BOX
 }


 static void up_box(int x, int y, int w, int h, Fl_Color c) {
 #ifdef USE_OLD_PLASTIC_BOX
   shade_rect(x + 2, y + 2, w - 4, h - 5, "RVQNOPQRSTUVWVQ", c);
   up_frame(x, y, w, h, c);
 #else
   if (w > 8 && h > 8) {
     shade_rect(x + 1, y + 1, w - 2, h - 3, "RVQNOPQRSTUVWVQ", c);
     frame_rect(x, y, w, h - 1, "IJLM", c);
   } else {
     thin_up_box(x, y, w, h, c);
   }
 #endif // USE_OLD_PLASTIC_BOX
 }


 static void up_round(int x, int y, int w, int h, Fl_Color c) {
   shade_round(x, y, w, h, "RVQNOPQRSTUVWVQ", c);
   frame_round(x, y, w, h, "IJLM", c);
 }


 static void down_frame(int x, int y, int w, int h, Fl_Color c) {
   frame_rect(x, y, w, h - 1, "LLLLTTRR", c);
 }


 static void down_box(int x, int y, int w, int h, Fl_Color c) {
   if (w > 6 && h > 6) {
     shade_rect(x + 2, y + 2, w - 4, h - 5, "STUVWWWVT", c);
     down_frame(x, y, w, h, c);
   }
   else {
     narrow_thin_box(x, y, w, h, c);
   }
 }


 static void down_round(int x, int y, int w, int h, Fl_Color c) {
   shade_round(x, y, w, h, "STUVWWWVT", c);
   frame_round(x, y, w, h, "IJLM", c);
 }


 extern void fl_internal_boxtype(Fl_Boxtype, Fl_Box_Draw_F*);


 Fl_Boxtype fl_define_FL_PLASTIC_UP_BOX() {
   fl_internal_boxtype(_FL_PLASTIC_UP_BOX, up_box);
   fl_internal_boxtype(_FL_PLASTIC_DOWN_BOX, down_box);
   fl_internal_boxtype(_FL_PLASTIC_UP_FRAME, up_frame);
   fl_internal_boxtype(_FL_PLASTIC_DOWN_FRAME, down_frame);
   fl_internal_boxtype(_FL_PLASTIC_THIN_UP_BOX, thin_up_box);
   fl_internal_boxtype(_FL_PLASTIC_THIN_DOWN_BOX, down_box);
   fl_internal_boxtype(_FL_PLASTIC_ROUND_UP_BOX, up_round);
   fl_internal_boxtype(_FL_PLASTIC_ROUND_DOWN_BOX, down_round);

   return _FL_PLASTIC_UP_BOX;
 }


 //
 // End of "$Id: fl_plastic.cxx 7903 2010-11-28 21:06:39Z matt $".
 //
	//
	// "$Id: fl_plastic.cxx 7903 2010-11-28 21:06:39Z matt $"
	//
	// "Plastic" drawing routines for the Fast Light Tool Kit (FLTK).
	//
	// These box types provide a cross between Aqua and KDE buttons; kindof
	// like translucent plastic buttons...
	//
	// Copyright 2001-2010 by Michael Sweet.
	//
	// This library is free software; you can redistribute it and/or
	// modify it under the terms of the GNU Library General Public
	// License as published by the Free Software Foundation; either
	// version 2 of the License, or (at your option) any later version.
	//
	// This library 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
	// Library General Public License for more details.
	//
	// You should have received a copy of the GNU Library General Public
	// License along with this library; if not, write to the Free Software
	// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
	// USA.
	//
	// Please report all bugs and problems on the following page:
	//
	// http://www.fltk.org/str.php
	//

	// Box drawing code for an obscure box type.
	// These box types are in separate files so they are not linked
	// in if not used.

	#include <FL/Fl.H>
	#include <FL/fl_draw.H>
	#include "flstring.h"

	//
	// Uncomment the following line to restore the old plastic box type
	// appearance.
	//

	//#define USE_OLD_PLASTIC_BOX
	#define USE_OLD_PLASTIC_COLOR

	extern uchar *fl_gray_ramp();

	inline Fl_Color shade_color(uchar gc, Fl_Color bc) {
	#ifdef USE_OLD_PLASTIC_COLOR
	return fl_color_average((Fl_Color)gc, bc, 0.75f);
	#else
	unsigned grgb = Fl::get_color((Fl_Color)gc),
	brgb = Fl::get_color(bc);
	int red, green, blue, gray;


	gray = ((grgb >> 24) & 255);
	red = gray * ((brgb >> 24) & 255) / 255 + gray * gray / 510;
	gray = ((grgb >> 16) & 255);
	green = gray * ((brgb >> 16) & 255) / 255 + gray * gray / 510;
	gray = ((grgb >> 8) & 255);
	blue = gray * ((brgb >> 8) & 255) / 255 + gray * gray / 510;

	if (red > 255)
	red = 255;

	if (green > 255)
	green = 255;

	if (blue > 255)
	blue = 255;

	if (Fl::draw_box_active())
	return fl_rgb_color(red, green, blue);
	else
	return fl_color_average(FL_GRAY, fl_rgb_color(red, green, blue), 0.75f);
	#endif // USE_OLD_PLASTIC_COLOR
	}


	static void frame_rect(int x, int y, int w, int h, const char *c, Fl_Color bc) {
	uchar *g = fl_gray_ramp();
	int b = strlen(c) / 4 + 1;

	for (x += b, y += b, w -= 2 * b, h -= 2 * b; b > 1; b --)
	{
	// Draw lines around the perimeter of the button, 4 colors per
	// circuit.
	fl_color(shade_color(g[(int)*c++], bc));
	fl_line(x, y + h + b, x + w - 1, y + h + b, x + w + b - 1, y + h);
	fl_color(shade_color(g[(int)*c++], bc));
	fl_line(x + w + b - 1, y + h, x + w + b - 1, y, x + w - 1, y - b);
	fl_color(shade_color(g[(int)*c++], bc));
	fl_line(x + w - 1, y - b, x, y - b, x - b, y);
	fl_color(shade_color(g[(int)*c++], bc));
	fl_line(x - b, y, x - b, y + h, x, y + h + b);
	}
	}


	static void frame_round(int x, int y, int w, int h, const char *c, Fl_Color bc) {
	uchar *g = fl_gray_ramp();
	int b = strlen(c) / 4 + 1;

	if (w==h) {
	for (; b > 1; b --, x ++, y ++, w -= 2, h -= 2)
	{
	fl_color(shade_color(g[(int)*c++], bc));
	fl_arc(x, y, w, h, 45.0, 135.0);
	fl_color(shade_color(g[(int)*c++], bc));
	fl_arc(x, y, w, h, 315.0, 405.0);
	fl_color(shade_color(g[(int)*c++], bc));
	fl_arc(x, y, w, h, 225.0, 315.0);
	fl_color(shade_color(g[(int)*c++], bc));
	fl_arc(x, y, w, h, 135.0, 225.0);
	}
	} else if (w>h) {
	int d = h/2;
	for (; b > 1; d--, b --, x ++, y ++, w -= 2, h -= 2)
	{
	fl_color(shade_color(g[(int)*c++], bc));
	fl_arc(x, y, h, h, 90.0, 135.0);
	fl_xyline(x+d, y, x+w-d);
	fl_arc(x+w-h, y, h, h, 45.0, 90.0);
	fl_color(shade_color(g[(int)*c++], bc));
	fl_arc(x+w-h, y, h, h, 315.0, 405.0);
	fl_color(shade_color(g[(int)*c++], bc));
	fl_arc(x+w-h, y, h, h, 270.0, 315.0);
	fl_xyline(x+d, y+h-1, x+w-d);
	fl_arc(x, y, h, h, 225.0, 270.0);
	fl_color(shade_color(g[(int)*c++], bc));
	fl_arc(x, y, h, h, 135.0, 225.0);
	}
	} else if (w<h) {
	int d = w/2;
	for (; b > 1; d--, b --, x ++, y ++, w -= 2, h -= 2)
	{
	fl_color(shade_color(g[(int)*c++], bc));
	fl_arc(x, y, w, w, 45.0, 135.0);
	fl_color(shade_color(g[(int)*c++], bc));
	fl_arc(x, y, w, w, 0.0, 45.0);
	fl_yxline(x+w-1, y+d, y+h-d);
	fl_arc(x, y+h-w, w, w, 315.0, 360.0);
	fl_color(shade_color(g[(int)*c++], bc));
	fl_arc(x, y+h-w, w, w, 225.0, 315.0);
	fl_color(shade_color(g[(int)*c++], bc));
	fl_arc(x, y+h-w, w, w, 180.0, 225.0);
	fl_yxline(x, y+d, y+h-d);
	fl_arc(x, y, w, w, 135.0, 180.0);
	}
	}
	}


	static void shade_rect(int x, int y, int w, int h, const char *c, Fl_Color bc) {
	uchar *g = fl_gray_ramp();
	int i, j;
	int clen = strlen(c) - 1;
	int chalf = clen / 2;
	int cstep = 1;

	if (h < (w * 2)) {
	// Horizontal shading...
	if (clen >= h) cstep = 2;

	for (i = 0, j = 0; j < chalf; i ++, j += cstep) {
	// Draw the top line and points...
	fl_color(shade_color(g[(int)c[i]], bc));
	fl_xyline(x + 1, y + i, x + w - 2);

	fl_color(shade_color(g[c[i] - 2], bc));
	fl_point(x, y + i + 1);
	fl_point(x + w - 1, y + i + 1);

	// Draw the bottom line and points...
	fl_color(shade_color(g[(int)c[clen - i]], bc));
	fl_xyline(x + 1, y + h - i, x + w - 2);

	fl_color(shade_color(g[c[clen - i] - 2], bc));
	fl_point(x, y + h - i);
	fl_point(x + w - 1, y + h - i);
	}

	// Draw the interior and sides...
	i = chalf / cstep;

	fl_color(shade_color(g[(int)c[chalf]], bc));
	fl_rectf(x + 1, y + i, w - 2, h - 2 * i + 1);

	fl_color(shade_color(g[c[chalf] - 2], bc));
	fl_yxline(x, y + i, y + h - i);
	fl_yxline(x + w - 1, y + i, y + h - i);
	} else {
	// Vertical shading...
	if (clen >= w) cstep = 2;

	for (i = 0, j = 0; j < chalf; i ++, j += cstep) {
	// Draw the left line and points...
	fl_color(shade_color(g[(int)c[i]], bc));
	fl_yxline(x + i, y + 1, y + h - 1);

	fl_color(shade_color(g[c[i] - 2], bc));
	fl_point(x + i + 1, y);
	fl_point(x + i + 1, y + h);

	// Draw the right line and points...
	fl_color(shade_color(g[(int)c[clen - i]], bc));
	fl_yxline(x + w - 1 - i, y + 1, y + h - 1);

	fl_color(shade_color(g[c[clen - i] - 2], bc));
	fl_point(x + w - 2 - i, y);
	fl_point(x + w - 2 - i, y + h);
	}

	// Draw the interior, top, and bottom...
	i = chalf / cstep;

	fl_color(shade_color(g[(int)c[chalf]], bc));
	fl_rectf(x + i, y + 1, w - 2 * i, h - 1);

	fl_color(shade_color(g[c[chalf] - 2], bc));
	fl_xyline(x + i, y, x + w - i);
	fl_xyline(x + i, y + h, x + w - i);
	}
	}

	static void shade_round(int x, int y, int w, int h, const char *c, Fl_Color bc) {
	uchar *g = fl_gray_ramp();
	int i;
	int clen = strlen(c) - 1;
	int chalf = clen / 2;

	if (w>h) {
	int d = h/2;
	const int na = 8;
	for (i=0; i<chalf; i++, d--, x++, y++, w-=2, h-=2)
	{
	fl_color(shade_color(g[(int)c[i]], bc));
	fl_pie(x, y, h, h, 90.0, 135.0+i*na);
	fl_xyline(x+d, y, x+w-d);
	fl_pie(x+w-h, y, h, h, 45.0+i*na, 90.0);
	fl_color(shade_color(g[(int)c[i] - 2], bc));
	fl_pie(x+w-h, y, h, h, 315.0+ina, 405.0+ina);
	fl_color(shade_color(g[(int)c[clen - i]], bc));
	fl_pie(x+w-h, y, h, h, 270.0, 315.0+i*na);
	fl_xyline(x+d, y+h-1, x+w-d);
	fl_pie(x, y, h, h, 225.0+i*na, 270.0);
	fl_color(shade_color(g[c[(int)clen - i] - 2], bc));
	fl_pie(x, y, h, h, 135.0+ina, 225.0+ina);
	}
	fl_color(shade_color(g[(int)c[chalf]], bc));
	fl_rectf(x+d, y, w-h+1, h+1);
	fl_pie(x, y, h, h, 90.0, 270.0);
	fl_pie(x+w-h, y, h, h, 270.0, 90.0);
	} else {
	int d = w/2;
	const int na = 8;
	for (i=0; i<chalf; i++, d--, x++, y++, w-=2, h-=2)
	{
	fl_color(shade_color(g[(int)c[i]], bc));
	fl_pie(x, y, w, w, 45.0+ina, 135.0+ina);
	fl_color(shade_color(g[c[i] - 2], bc));
	fl_pie(x, y, w, w, 0.0, 45.0+i*na);
	fl_yxline(x+w-1, y+d, y+h-d);
	fl_pie(x, y+h-w, w, w, 315.0+i*na, 360.0);
	fl_color(shade_color(g[(int)c[clen - i]], bc));
	fl_pie(x, y+h-w, w, w, 225.0+ina, 315.0+ina);
	fl_color(shade_color(g[c[clen - i] - 2], bc));
	fl_pie(x, y+h-w, w, w, 180.0, 225.0+i*na);
	fl_yxline(x, y+d, y+h-d);
	fl_pie(x, y, w, w, 135.0+i*na, 180.0);
	}
	fl_color(shade_color(g[(int)c[chalf]], bc));
	fl_rectf(x, y+d, w+1, h-w+1);
	fl_pie(x, y, w, w, 0.0, 180.0);
	fl_pie(x, y+h-w, w, w, 180.0, 360.0);
	}
	}


	static void up_frame(int x, int y, int w, int h, Fl_Color c) {
	frame_rect(x, y, w, h - 1, "KLDIIJLM", c);
	}


	static void narrow_thin_box(int x, int y, int w, int h, Fl_Color c) {
	if (h<=0 \|\| w<=0) return;
	uchar *g = fl_gray_ramp();
	fl_color(shade_color(g['R'], c));
	fl_rectf(x+1, y+1, w-2, h-2);
	fl_color(shade_color(g['I'], c));
	if (w > 1) {
	fl_xyline(x+1, y, x+w-2);
	fl_xyline(x+1, y+h-1, x+w-2);
	}
	if (h > 1) {
	fl_yxline(x, y+1, y+h-2);
	fl_yxline(x+w-1, y+1, y+h-2);
	}
	}


	static void thin_up_box(int x, int y, int w, int h, Fl_Color c) {
	#ifdef USE_OLD_PLASTIC_BOX
	shade_rect(x + 2, y + 2, w - 4, h - 5, "RVQNOPQRSTUVWVQ", c);
	up_frame(x, y, w, h, c);
	#else
	if (w > 4 && h > 4) {
	shade_rect(x + 1, y + 1, w - 2, h - 3, "RQOQSUWQ", c);
	frame_rect(x, y, w, h - 1, "IJLM", c);
	} else {
	narrow_thin_box(x, y, w, h, c);
	}
	#endif // USE_OLD_PLASTIC_BOX
	}


	static void up_box(int x, int y, int w, int h, Fl_Color c) {
	#ifdef USE_OLD_PLASTIC_BOX
	shade_rect(x + 2, y + 2, w - 4, h - 5, "RVQNOPQRSTUVWVQ", c);
	up_frame(x, y, w, h, c);
	#else
	if (w > 8 && h > 8) {
	shade_rect(x + 1, y + 1, w - 2, h - 3, "RVQNOPQRSTUVWVQ", c);
	frame_rect(x, y, w, h - 1, "IJLM", c);
	} else {
	thin_up_box(x, y, w, h, c);
	}
	#endif // USE_OLD_PLASTIC_BOX
	}


	static void up_round(int x, int y, int w, int h, Fl_Color c) {
	shade_round(x, y, w, h, "RVQNOPQRSTUVWVQ", c);
	frame_round(x, y, w, h, "IJLM", c);
	}


	static void down_frame(int x, int y, int w, int h, Fl_Color c) {
	frame_rect(x, y, w, h - 1, "LLLLTTRR", c);
	}


	static void down_box(int x, int y, int w, int h, Fl_Color c) {
	if (w > 6 && h > 6) {
	shade_rect(x + 2, y + 2, w - 4, h - 5, "STUVWWWVT", c);
	down_frame(x, y, w, h, c);
	}
	else {
	narrow_thin_box(x, y, w, h, c);
	}
	}


	static void down_round(int x, int y, int w, int h, Fl_Color c) {
	shade_round(x, y, w, h, "STUVWWWVT", c);
	frame_round(x, y, w, h, "IJLM", c);
	}


	extern void fl_internal_boxtype(Fl_Boxtype, Fl_Box_Draw_F*);


	Fl_Boxtype fl_define_FL_PLASTIC_UP_BOX() {
	fl_internal_boxtype(_FL_PLASTIC_UP_BOX, up_box);
	fl_internal_boxtype(_FL_PLASTIC_DOWN_BOX, down_box);
	fl_internal_boxtype(_FL_PLASTIC_UP_FRAME, up_frame);
	fl_internal_boxtype(_FL_PLASTIC_DOWN_FRAME, down_frame);
	fl_internal_boxtype(_FL_PLASTIC_THIN_UP_BOX, thin_up_box);
	fl_internal_boxtype(_FL_PLASTIC_THIN_DOWN_BOX, down_box);
	fl_internal_boxtype(_FL_PLASTIC_ROUND_UP_BOX, up_round);
	fl_internal_boxtype(_FL_PLASTIC_ROUND_DOWN_BOX, down_round);

	return _FL_PLASTIC_UP_BOX;
	}


	//
	// End of "$Id: fl_plastic.cxx 7903 2010-11-28 21:06:39Z matt $".
	//