Merge r21-4-11-chise-0_20-=ucs.

[chise/xemacs-chise.git.1] / lwlib / xlwgauge.c

/* Gauge Widget for XEmacs.
   Copyright (C) 1999 Edward A. Falk

This file is part of XEmacs.

XEmacs 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, or (at your option) any
later version.

XEmacs 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 XEmacs; see the file COPYING.  If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.  */

/* Synched up with: Gauge.c 1.2 */

/*
 * Gauge.c - Gauge widget
 *
 * Author: Edward A. Falk
 *         falk@falconer.vip.best.com
 *
 * Date:   July 9, 1997
 *
 * Note: for fun and demonstration purposes, I have added selection
 * capabilities to this widget.  If you select the widget, you create
 * a primary selection containing the current value of the widget in
 * both integer and string form.  If you copy into the widget, the
 * primary selection is converted to an integer value and the gauge is
 * set to that value.
 */

/* TODO:  display time instead of value
 */

#define DEF_LEN 50      /* default width (or height for vertical gauge) */
#define MIN_LEN 10      /* minimum reasonable width (height) */
#define TIC_LEN 6       /* length of tic marks */
#define GA_WID  3       /* width of gauge */
#define MS_PER_SEC 1000

#include <config.h>
#include <stdlib.h>
#include <stdio.h>
#include <ctype.h>
#include <X11/IntrinsicP.h>
#include <X11/Xatom.h>
#include <X11/StringDefs.h>
#include ATHENA_XawInit_h_
#include "xlwgaugeP.h"
#include "../src/xmu.h"
#ifdef HAVE_XMU
#include <X11/Xmu/Atoms.h>
#include <X11/Xmu/Drawing.h>
#include <X11/Xmu/StdSel.h>
#endif


/****************************************************************
 *
 * Gauge resources
 *
 ****************************************************************/


static  char    defaultTranslations[] =
        "<Btn1Up>:      select()\n\
         <Key>F1:       select(CLIPBOARD)\n\
         <Btn2Up>:      paste()\n\
         <Key>F2:       paste(CLIPBOARD)" ;



#define offset(field) XtOffsetOf(GaugeRec, field)
static XtResource resources[] = {
    {XtNvalue, XtCValue, XtRInt, sizeof(int),
        offset(gauge.value), XtRImmediate, (XtPointer)0},
    {XtNminValue, XtCMinValue, XtRInt, sizeof(int),
        offset(gauge.v0), XtRImmediate, (XtPointer)0},
    {XtNmaxValue, XtCMaxValue, XtRInt, sizeof(int),
        offset(gauge.v1), XtRImmediate, (XtPointer)100},
    {XtNntics, XtCNTics, XtRInt, sizeof(int),
        offset(gauge.ntics), XtRImmediate, (XtPointer) 0},
    {XtNnlabels, XtCNLabels, XtRInt, sizeof(int),
        offset(gauge.nlabels), XtRImmediate, (XtPointer) 0},
    {XtNlabels, XtCLabels, XtRStringArray, sizeof(String *),
        offset(gauge.labels), XtRStringArray, NULL},
    {XtNautoScaleUp, XtCAutoScaleUp, XtRBoolean, sizeof(Boolean),
        offset(gauge.autoScaleUp), XtRImmediate, FALSE},
    {XtNautoScaleDown, XtCAutoScaleDown, XtRBoolean, sizeof(Boolean),
        offset(gauge.autoScaleDown), XtRImmediate, FALSE},
    {XtNorientation, XtCOrientation, XtROrientation, sizeof(XtOrientation),
        offset(gauge.orientation), XtRImmediate, (XtPointer)XtorientHorizontal},
    {XtNupdate, XtCInterval, XtRInt, sizeof(int),
        offset(gauge.update), XtRImmediate, (XtPointer)0},
    {XtNgetValue, XtCCallback, XtRCallback, sizeof(XtPointer),
        offset(gauge.getValue), XtRImmediate, (XtPointer)NULL},
};
#undef offset



        /* member functions */

static void GaugeClassInit (void);
static void GaugeInit (Widget, Widget, ArgList, Cardinal *);
static void GaugeDestroy (Widget);
static void GaugeResize (Widget);
static void GaugeExpose (Widget, XEvent *, Region);
static Boolean GaugeSetValues (Widget, Widget, Widget, ArgList, Cardinal *);
static XtGeometryResult GaugeQueryGeometry (Widget, XtWidgetGeometry *,
                                            XtWidgetGeometry *);

        /* action procs */

static void GaugeSelect (Widget, XEvent *, String *, Cardinal *);
static void GaugePaste  (Widget, XEvent *, String *, Cardinal *);

        /* internal privates */

static void GaugeSize (GaugeWidget, Dimension *, Dimension *, Dimension);
static void MaxLabel  (GaugeWidget, Dimension *, Dimension *,
                       Dimension *, Dimension *);
static void AutoScale     (GaugeWidget);
static void EnableUpdate  (GaugeWidget);
static void DisableUpdate (GaugeWidget);

static void GaugeGetValue (XtPointer, XtIntervalId *);
static void GaugeMercury (Display *, Window, GC, GaugeWidget, Cardinal, Cardinal);

static Boolean GaugeConvert (Widget, Atom *, Atom *, Atom *,
                             XtPointer *, unsigned long *, int *);
static void GaugeLoseSel (Widget, Atom *);
static void GaugeDoneSel (Widget, Atom *, Atom *);
static void GaugeGetSelCB (Widget, XtPointer, Atom *, Atom *,
                           XtPointer, unsigned long *, int *);

static GC Get_GC (GaugeWidget, Pixel);


static  XtActionsRec    actionsList[] =
{
  {"select",    GaugeSelect},
  {"paste",     GaugePaste},
} ;



/****************************************************************
 *
 * Full class record constant
 *
 ****************************************************************/

GaugeClassRec gaugeClassRec = {
  {
/* core_class fields */
    /* superclass               */      (WidgetClass) &labelClassRec,
    /* class_name               */      "Gauge",
    /* widget_size              */      sizeof(GaugeRec),
    /* class_initialize         */      GaugeClassInit,
    /* class_part_initialize    */      NULL,
    /* class_inited             */      FALSE,
    /* initialize               */      GaugeInit,
    /* initialize_hook          */      NULL,
    /* realize                  */      XtInheritRealize,       /* TODO? */
    /* actions                  */      actionsList,
    /* num_actions              */      XtNumber(actionsList),
    /* resources                */      resources,
    /* num_resources            */      XtNumber(resources),
    /* xrm_class                */      NULLQUARK,
    /* compress_motion          */      TRUE,
    /* compress_exposure        */      TRUE,
    /* compress_enterleave      */      TRUE,
    /* visible_interest         */      FALSE,
    /* destroy                  */      GaugeDestroy,
    /* resize                   */      GaugeResize,
    /* expose                   */      GaugeExpose,
    /* set_values               */      GaugeSetValues,
    /* set_values_hook          */      NULL,
    /* set_values_almost        */      XtInheritSetValuesAlmost,
    /* get_values_hook          */      NULL,
    /* accept_focus             */      NULL,
    /* version                  */      XtVersion,
    /* callback_private         */      NULL,
    /* tm_table                 */      defaultTranslations,
    /* query_geometry           */      GaugeQueryGeometry,
    /* display_accelerator      */      XtInheritDisplayAccelerator,
    /* extension                */      NULL
  },
/* Simple class fields initialization */
  {
    /* change_sensitive         */      XtInheritChangeSensitive
  },
#ifdef  _ThreeDP_h
/* ThreeD class fields initialization */
  {
    XtInheritXaw3dShadowDraw    /* shadowdraw           */
  },
#endif
/* Label class fields initialization */
  {
    /* ignore                   */      0
  },
/* Gauge class fields initialization */
  {
    /* extension                */      NULL
  },
};

WidgetClass gaugeWidgetClass = (WidgetClass)&gaugeClassRec;


\f

/****************************************************************
 *
 * Member Procedures
 *
 ****************************************************************/

static void
GaugeClassInit (void)
{
    XawInitializeWidgetSet();
#ifdef HAVE_XMU
    XtAddConverter(XtRString, XtROrientation, XmuCvtStringToOrientation,
                NULL, 0) ;
#endif
}



/* ARGSUSED */
static void
GaugeInit (Widget   request,
           Widget   new,
           ArgList  args,
           Cardinal *num_args)
{
    GaugeWidget gw = (GaugeWidget) new;

    if( gw->gauge.v0 == 0  &&  gw->gauge.v1 == 0 ) {
      gw->gauge.autoScaleUp = gw->gauge.autoScaleDown = TRUE ;
      AutoScale(gw) ;
    }

    /* If size not explicitly set, set it to our preferred size now.  */

    if( request->core.width == 0  ||  request->core.height == 0 )
    {
      Dimension w,h ;
      GaugeSize(gw, &w,&h, DEF_LEN) ;
      if( request->core.width == 0 )
        new->core.width = w ;
      if( request->core.height == 0 )
        new->core.height = h ;
      gw->core.widget_class->core_class.resize(new) ;
    }

    gw->gauge.selected = None ;
    gw->gauge.selstr = NULL ;

    if( gw->gauge.update > 0 )
      EnableUpdate(gw) ;

    gw->gauge.inverse_GC = Get_GC(gw, gw->core.background_pixel) ;
}

static void
GaugeDestroy (Widget w)
{
        GaugeWidget gw = (GaugeWidget)w;

        if( gw->gauge.selstr != NULL )
          XtFree(gw->gauge.selstr) ;

        if( gw->gauge.selected != None )
          XtDisownSelection(w, gw->gauge.selected, CurrentTime) ;

        XtReleaseGC(w, gw->gauge.inverse_GC) ;

        if( gw->gauge.update > 0 )
          DisableUpdate(gw) ;
}


/* React to size change from manager.  Label widget will compute some
 * internal stuff, but we need to override.
 */

static void
GaugeResize (Widget w)
{
        GaugeWidget gw = (GaugeWidget)w;
        int     size ;          /* height (width) of gauge */
        int     vmargin ;       /* vertical (horizontal) margin */
        int     hmargin ;       /* horizontal (vertical) margin */

        vmargin = gw->gauge.orientation == XtorientHorizontal ?
          gw->label.internal_height : gw->label.internal_width ;
        hmargin = gw->gauge.orientation == XtorientHorizontal ?
          gw->label.internal_width : gw->label.internal_height ;

        /* TODO: need to call parent resize proc?  I don't think so since
         * we're recomputing everything from scratch anyway.
         */

        /* find total height (width) of contents */

        size = GA_WID+2 ;                       /* gauge itself + edges */

        if( gw->gauge.ntics > 1 )               /* tic marks */
          size += vmargin + TIC_LEN ;

        if( gw->gauge.nlabels > 1 )
        {
          Dimension     lwm, lw0, lw1 ; /* width of max, left, right labels */
          Dimension     lh ;

          MaxLabel(gw,&lwm,&lh, &lw0,&lw1) ;

          if( gw->gauge.orientation == XtorientHorizontal )
          {
            gw->gauge.margin0 = lw0 / 2 ;
            gw->gauge.margin1 = lw1 / 2 ;
            size += lh + vmargin ;
          }
          else
          {
            gw->gauge.margin0 =
            gw->gauge.margin1 = lh / 2 ;
            size += lwm + vmargin ;
          }
        }
        else
          gw->gauge.margin0 = gw->gauge.margin1 = 0 ;

        gw->gauge.margin0 += hmargin ;
        gw->gauge.margin1 += hmargin ;

        /* Now distribute height (width) over components */

        if( gw->gauge.orientation == XtorientHorizontal )
          gw->gauge.gmargin = (gw->core.height-size)/2 ;
        else
          gw->gauge.gmargin = (gw->core.width-size)/2 ;

        gw->gauge.tmargin = gw->gauge.gmargin + GA_WID+2 + vmargin ;
        if( gw->gauge.ntics > 1 )
          gw->gauge.lmargin = gw->gauge.tmargin + TIC_LEN + vmargin ;
        else
          gw->gauge.lmargin = gw->gauge.tmargin ;
}

/*
 * Repaint the widget window
 */

/* ARGSUSED */
static void
GaugeExpose (Widget w,
             XEvent *event,
             Region region)
{
        GaugeWidget gw = (GaugeWidget) w;
register Display *dpy = XtDisplay(w) ;
register Window win = XtWindow(w) ;
        GC      gc;     /* foreground, background */
        GC      gctop, gcbot ;  /* dark, light shadows */

        int     len ;           /* length (width or height) of widget */
        int     hgt ;           /* height (width) of widget */
        int     e0,e1 ;         /* ends of the gauge */
        int     x ;
        int     y ;             /* vertical (horizontal) position */
        int     i ;
        int     v0 = gw->gauge.v0 ;
        int     v1 = gw->gauge.v1 ;
        int     value = gw->gauge.value ;

        gc = XtIsSensitive(w) ? gw->label.normal_GC : gw->label.gray_GC ;


#ifdef  _ThreeDP_h
        gctop = gw->threeD.bot_shadow_GC ;
        gcbot = gw->threeD.top_shadow_GC ;
#else
        gctop = gcbot = gc ;
#endif

        if( gw->gauge.orientation == XtorientHorizontal ) {
          len = gw->core.width ;
          hgt = gw->core.height ;
        } else {
          len = gw->core.height ;
          hgt = gw->core.width ;
        }

        /* if the gauge is selected, signify by drawing the background
         * in a contrasting color.
         */

        if( gw->gauge.selected )
        {
          XFillRectangle(dpy,win, gc, 0,0, w->core.width,w->core.height) ;
          gc = gw->gauge.inverse_GC ;
        }

        e0 = gw->gauge.margin0 ;                /* left (top) end */
        e1 = len - gw->gauge.margin1 -1 ;       /* right (bottom) end */

        /* Draw the Gauge itself */

        y = gw->gauge.gmargin ;

        if( gw->gauge.orientation == XtorientHorizontal )       /* horizontal */
        {
          XDrawLine(dpy,win,gctop, e0+1,y, e1-1,y) ;
          XDrawLine(dpy,win,gctop, e0,y+1, e0,y+GA_WID) ;
          XDrawLine(dpy,win,gcbot, e0+1, y+GA_WID+1, e1-1, y+GA_WID+1) ;
          XDrawLine(dpy,win,gcbot, e1,y+1, e1,y+GA_WID) ;
        }
        else                                                    /* vertical */
        {
          XDrawLine(dpy,win,gctop, y,e0+1, y,e1-1) ;
          XDrawLine(dpy,win,gctop, y+1,e0, y+GA_WID,e0) ;
          XDrawLine(dpy,win,gcbot, y+GA_WID+1,e0+1, y+GA_WID+1, e1-1) ;
          XDrawLine(dpy,win,gcbot, y+1,e1, y+GA_WID,e1) ;
        }


                /* draw the mercury */

        GaugeMercury(dpy, win, gc, gw, 0,value) ;


        if( gw->gauge.ntics > 1 )
        {
          y = gw->gauge.tmargin ;
          for(i=0; i<gw->gauge.ntics; ++i)
          {
            x = e0 + i*(e1-e0-1)/(gw->gauge.ntics-1) ;
            if( gw->gauge.orientation == XtorientHorizontal ) {
              XDrawLine(dpy,win,gcbot, x,y+1, x,y+TIC_LEN-2) ;
              XDrawLine(dpy,win,gcbot, x,y, x+1,y) ;
              XDrawLine(dpy,win,gctop, x+1,y+1, x+1,y+TIC_LEN-2) ;
              XDrawLine(dpy,win,gctop, x,y+TIC_LEN-1, x+1,y+TIC_LEN-1) ;
            }
            else {
              XDrawLine(dpy,win,gcbot, y+1,x, y+TIC_LEN-2,x) ;
              XDrawLine(dpy,win,gcbot, y,x, y,x+1) ;
              XDrawLine(dpy,win,gctop, y+1,x+1, y+TIC_LEN-2,x+1) ;
              XDrawLine(dpy,win,gctop, y+TIC_LEN-1,x, y+TIC_LEN-1,x+1) ;
            }
          }
        }

        /* draw labels */
        if( gw->gauge.nlabels > 1 )
        {
          char  label[20], *s = label ;
          int   xlen, wd,h =0 ;

          if( gw->gauge.orientation == XtorientHorizontal )
            y = gw->gauge.lmargin + gw->label.font->max_bounds.ascent - 1 ;
          else {
            y = gw->gauge.lmargin ;
            h = gw->label.font->max_bounds.ascent / 2 ;
          }

          for(i=0; i<gw->gauge.nlabels; ++i)
          {
            if( gw->gauge.labels == NULL )
              sprintf(label, "%d", v0+i*(v1 - v0)/(gw->gauge.nlabels - 1)) ;
            else
              s = gw->gauge.labels[i] ;
            if( s != NULL ) {
              x = e0 + i*(e1-e0-1)/(gw->gauge.nlabels-1) ;
              xlen = strlen(s) ;
              if( gw->gauge.orientation == XtorientHorizontal ) {
                wd = XTextWidth(gw->label.font, s, xlen) ;
                XDrawString(dpy,win,gc, x-wd/2,y, s,xlen) ;
              }
              else {
                XDrawString(dpy,win,gc, y,x+h, s,xlen) ;
              }
            }
          }
        }
}


/*
 * Set specified arguments into widget
 */

static Boolean
GaugeSetValues (Widget   old,
                Widget   request,
                Widget   new,
                ArgList  args,
                Cardinal *num_args)
{
        GaugeWidget oldgw = (GaugeWidget) old;
        GaugeWidget gw = (GaugeWidget) new;
        Boolean was_resized = False;

        if( gw->gauge.selected != None ) {
          XtDisownSelection(new, gw->gauge.selected, CurrentTime) ;
          gw->gauge.selected = None ;
        }

        /* Changes to v0,v1,labels, ntics, nlabels require resize & redraw. */
        /* Change to value requires redraw and possible resize if autoscale */

        was_resized =
          gw->gauge.v0 != oldgw->gauge.v0  ||
          gw->gauge.v1 != oldgw->gauge.v1  ||
          gw->gauge.ntics != oldgw->gauge.ntics  ||
          gw->gauge.nlabels != oldgw->gauge.nlabels  ||
          gw->gauge.labels != oldgw->gauge.labels ;

        if( (gw->gauge.autoScaleUp && gw->gauge.value > gw->gauge.v1) ||
            (gw->gauge.autoScaleDown && gw->gauge.value < gw->gauge.v1/3 ))
        {
          AutoScale(gw) ;
          was_resized = TRUE ;
        }

        if( was_resized ) {
          if( gw->label.resize )
            GaugeSize(gw, &gw->core.width, &gw->core.height, DEF_LEN) ;
          else
            GaugeResize(new) ;
        }

        if( gw->gauge.update != oldgw->gauge.update )
          {
            if( gw->gauge.update > 0 )
              EnableUpdate(gw) ;
            else
              DisableUpdate(gw) ;
          }

        if( gw->core.background_pixel != oldgw->core.background_pixel )
        {
          XtReleaseGC(new, gw->gauge.inverse_GC) ;
          gw->gauge.inverse_GC = Get_GC(gw, gw->core.background_pixel) ;
        }

        return was_resized || gw->gauge.value != oldgw->gauge.value  ||
           XtIsSensitive(old) != XtIsSensitive(new);
}


static XtGeometryResult
GaugeQueryGeometry (Widget w,
                    XtWidgetGeometry *intended,
                    XtWidgetGeometry *preferred)
{
    register GaugeWidget gw = (GaugeWidget)w;

    if( intended->width == w->core.width  &&
        intended->height == w->core.height )
      return XtGeometryNo ;

    preferred->request_mode = CWWidth | CWHeight;
    GaugeSize(gw, &preferred->width, &preferred->height, DEF_LEN) ;

    if( (!(intended->request_mode & CWWidth) ||
          intended->width >= preferred->width)  &&
        (!(intended->request_mode & CWHeight) ||
          intended->height >= preferred->height) )
      return XtGeometryYes;
    else
      return XtGeometryAlmost;
}


\f

/****************************************************************
 *
 * Action Procedures
 *
 ****************************************************************/

static void
GaugeSelect (Widget   w,
             XEvent   *event,
             String   *params,
             Cardinal *num_params)
{
        GaugeWidget     gw = (GaugeWidget)w ;
        Atom            seln = XA_PRIMARY ;

        if( gw->gauge.selected != None ) {
          XtDisownSelection(w, gw->gauge.selected, CurrentTime) ;
          gw->gauge.selected = None ;
        }

        if( *num_params > 0 ) {
          seln = XInternAtom(XtDisplay(w), params[0], False) ;
          printf("atom %s is %ld\n", params[0], seln) ;
        }

        if( ! XtOwnSelection(w, seln, event->xbutton.time, GaugeConvert,
                        GaugeLoseSel, GaugeDoneSel) )
        {
          /* in real code, this error message would be replaced by
           * something more elegant, or at least deleted
           */

          fprintf(stderr, "Gauge failed to get selection, try again\n") ;
        }
        else
        {
          gw->gauge.selected = TRUE ;
          gw->gauge.selstr = (String)XtMalloc(4*sizeof(int)) ;
          sprintf(gw->gauge.selstr, "%d", gw->gauge.value) ;
          GaugeExpose(w,0,0) ;
        }
}


static  Boolean
GaugeConvert (Widget    w,
              Atom      *selection,     /* usually XA_PRIMARY */
              Atom      *target,        /* requested target */
              Atom      *type,          /* returned type */
              XtPointer *value,         /* returned value */
              unsigned long     *length,        /* returned length */
              int       *format)        /* returned format */
{
        GaugeWidget     gw = (GaugeWidget)w ;
        XSelectionRequestEvent *req ;

        printf( "requesting selection %s:%s\n",
            XGetAtomName(XtDisplay(w),*selection),
            XGetAtomName(XtDisplay(w),*target));

#ifdef HAVE_XMU
        if( *target == XA_TARGETS(XtDisplay(w)) )
        {
          Atom *rval, *stdTargets ;
          unsigned long stdLength ;

          /* XmuConvertStandardSelection can handle this.  This function
           * will return a list of standard targets.  We prepend TEXT,
           * STRING and INTEGER to the list and return it.
           */

          req = XtGetSelectionRequest(w, *selection, NULL) ;
          XmuConvertStandardSelection(w, req->time, selection, target,
                type, (XPointer*)&stdTargets, &stdLength, format) ;

          *type = XA_ATOM ;             /* TODO: needed? */
          *length = stdLength + 3 ;
          rval = (Atom *) XtMalloc(sizeof(Atom)*(stdLength+3)) ;
          *value = (XtPointer) rval ;
          *rval++ = XA_INTEGER ;
          *rval++ = XA_STRING ;
          *rval++ = XA_TEXT(XtDisplay(w)) ;
          memcpy((char *)rval, (char *)stdTargets, stdLength*sizeof(Atom)) ;
          XtFree((char*) stdTargets) ;
          *format = 8*sizeof(Atom) ;    /* TODO: needed? */
          return True ;
        }

        else
#endif
          if( *target == XA_INTEGER )
        {
          *type = XA_INTEGER ;
          *length = 1 ;
          *value = (XtPointer) &gw->gauge.value ;
          *format = 8*sizeof(int) ;
          return True ;
        }

        else if( *target == XA_STRING
#ifdef HAVE_XMU
                 ||
                 *target == XA_TEXT(XtDisplay(w))
#endif
                 )
        {
          *type = *target ;
          *length = strlen(gw->gauge.selstr)*sizeof(char) ;
          *value = (XtPointer) gw->gauge.selstr ;
          *format = 8 ;
          return True ;
        }

        else
        {
          /* anything else, we just give it to XmuConvertStandardSelection() */
#ifdef HAVE_XMU
          req = XtGetSelectionRequest(w, *selection, NULL) ;
          if( XmuConvertStandardSelection(w, req->time, selection, target,
                type, (XPointer *) value, length, format) )
            return True ;
          else
#endif
            {
            printf(
                "Gauge: requestor is requesting unsupported selection %s:%s\n",
                XGetAtomName(XtDisplay(w),*selection),
                XGetAtomName(XtDisplay(w),*target));
            return False ;
          }
        }
}



static  void
GaugeLoseSel (Widget w,
              Atom   *selection)        /* usually XA_PRIMARY */
{
        GaugeWidget     gw = (GaugeWidget)w ;
        Display *dpy = XtDisplay(w) ;
        Window  win = XtWindow(w) ;

        if( gw->gauge.selstr != NULL ) {
          XtFree(gw->gauge.selstr) ;
          gw->gauge.selstr = NULL ;
        }

        gw->gauge.selected = False ;
        XClearWindow(dpy,win) ;
        GaugeExpose(w,0,0) ;
}


static  void
GaugeDoneSel (Widget w,
              Atom   *selection,        /* usually XA_PRIMARY */
              Atom   *target)           /* requested target */
{
        /* selection done, anything to do? */
}


static void
GaugePaste (Widget   w,
            XEvent   *event,
            String   *params,
            Cardinal *num_params)
{
        Atom            seln = XA_PRIMARY ;

        if( *num_params > 0 ) {
          seln = XInternAtom(XtDisplay(w), params[0], False) ;
          printf("atom %s is %ld\n", params[0], seln) ;
        }

        /* try for integer value first */
        XtGetSelectionValue(w, seln, XA_INTEGER,
                GaugeGetSelCB, (XtPointer)XA_INTEGER,
                event->xbutton.time) ;
}

static  void
GaugeGetSelCB (Widget    w,
               XtPointer client,
               Atom      *selection,
               Atom      *type,
               XtPointer value,
               unsigned long    *length,
               int       *format)
{
        Display *dpy = XtDisplay(w) ;
        Atom    target = (Atom)client ;
        int     *iptr ;
        char    *cptr ;

        if( *type == XA_INTEGER ) {
          iptr = (int *)value ;
          XawGaugeSetValue(w, *iptr) ;
        }

        else if( *type == XA_STRING
#ifdef HAVE_XMU
                 ||
                 *type == XA_TEXT(dpy)
#endif
                 )
          {
          cptr = (char *)value ;
          XawGaugeSetValue(w, atoi(cptr)) ;
        }

        /* failed, try string */
        else if( *type == None && target == XA_INTEGER )
          XtGetSelectionValue(w, *selection, XA_STRING,
                GaugeGetSelCB, (XtPointer)XA_STRING,
                CurrentTime) ;
}

\f

/****************************************************************
 *
 * Public Procedures
 *
 ****************************************************************/


        /* Change gauge value.  Only undraw or draw what needs to be
         * changed.
         */

void
XawGaugeSetValue (Widget   w,
                  Cardinal value)
{
        GaugeWidget gw = (GaugeWidget)w ;
        int     oldvalue ;
        GC      gc ;

        if( gw->gauge.selected != None ) {
          XtDisownSelection(w, gw->gauge.selected, CurrentTime) ;
          gw->gauge.selected = None ;
        }

        if( !XtIsRealized(w) ) {
          gw->gauge.value = value ;
          return ;
        }

        /* need to rescale? */
        if(( gw->gauge.autoScaleUp && value > gw->gauge.v1) ||
           (gw->gauge.autoScaleDown && value < gw->gauge.v1/3 ))
        {
          XtVaSetValues(w, XtNvalue, value, 0) ;
          return ;
        }

        oldvalue = gw->gauge.value ;
        gw->gauge.value = value ;

        gc = XtIsSensitive(w) ? gw->label.normal_GC : gw->label.gray_GC ;
        GaugeMercury(XtDisplay(w), XtWindow(w), gc, gw, oldvalue,value) ;
}


Cardinal
XawGaugeGetValue (Widget w)
{
        GaugeWidget gw = (GaugeWidget)w ;
        return gw->gauge.value ;
}


\f

/****************************************************************
 *
 * Private Procedures
 *
 ****************************************************************/

        /* draw the mercury over a specific region */

static  void
GaugeMercury (Display     *dpy,
              Window      win,
              GC          gc,
              GaugeWidget gw,
              Cardinal    val0,
              Cardinal    val1)
{
        int     v0 = gw->gauge.v0 ;
        int     v1 = gw->gauge.v1 ;
        int     vd = v1 - v0 ;
        Dimension len ;         /* length (width or height) of gauge */
        Position e0, e1 ;       /* gauge ends */
        Position p0, p1 ;       /* mercury ends */
        int     y ;             /* vertical (horizontal) position */
        Boolean undraw = FALSE ;

        len = gw->gauge.orientation == XtorientHorizontal ?
          gw->core.width : gw->core.height ;

        e0 = gw->gauge.margin0 ;                /* left (top) end */
        e1 = len - gw->gauge.margin1 -1 ;       /* right (bottom) end */

        if( vd <= 0 ) vd = 1 ;

        if( val0 < v0 ) val0 = v0 ;
        else if( val0 > v1 ) val0 = v1 ;
        if( val1 < v0 ) val1 = v0 ;
        else if( val1 > v1 ) val1 = v1 ;

        p0 = (val0-v0)*(e1-e0-1)/vd ;
        p1 = (val1-v0)*(e1-e0-1)/vd ;

        if( p1 == p0 )
          return ;

        y = gw->gauge.gmargin ;

        if( p1 < p0 )
        {
          Position tmp = p0 ;
          p0 = p1 ;
          p1 = tmp ;
          gc = gw->label.normal_GC ;
          XSetForeground(dpy,gc, gw->core.background_pixel) ;
          undraw = TRUE ;
        }

        if( gw->gauge.orientation == XtorientHorizontal )
          XFillRectangle(dpy,win,gc, e0+p0+1,y+1, p1-p0,GA_WID) ;
        else
          XFillRectangle(dpy,win,gc, y+1,e1-p1, GA_WID,p1-p0) ;

        if( undraw )
          XSetForeground(dpy,gc, gw->label.foreground) ;
}



/* Search the labels, find the largest one. */
/* TODO: handle vertical fonts? */

static void
MaxLabel (GaugeWidget   gw,
          Dimension     *wid,   /* max label width */
          Dimension     *hgt,   /* max label height */
          Dimension     *w0,    /* width of first label */
          Dimension     *w1)    /* width of last label */
{
        char    lstr[80], *lbl ;
        int     w ;
        XFontStruct *font = gw->label.font ;
        int     i ;
        int     lw = 0;
        int     v0 = gw->gauge.v0 ;
        int     dv = gw->gauge.v1 - v0 ;
        int     n = gw->gauge.nlabels ;

        if( n > 0 )
        {
          if( --n <= 0 ) {n = 1 ; v0 += dv/2 ;}

          /* loop through all labels, figure out how much room they
           * need.
           */
          w = 0 ;
          for(i=0; i<gw->gauge.nlabels; ++i)
          {
            if( gw->gauge.labels == NULL )      /* numeric labels */
              sprintf(lbl = lstr,"%d", v0 + i*dv/n) ;
            else
              lbl = gw->gauge.labels[i] ;

            if( lbl != NULL ) {
              lw = XTextWidth(font, lbl, strlen(lbl)) ;
              w = Max( w, lw ) ;
            }
            else
              lw = 0 ;

            if( i == 0 && w0 != NULL ) *w0 = lw ;
          }
          if( w1 != NULL ) *w1 = lw ;

          *wid = w ;
          *hgt = font->max_bounds.ascent + font->max_bounds.descent ;
        }
        else
          *wid = *hgt = 0 ;
}


/* Determine the preferred size for this widget.  choose 100x100 for
 * debugging.
 */

static void
GaugeSize (GaugeWidget gw,
           Dimension   *wid,
           Dimension   *hgt,
           Dimension   min_len)
{
        int     w,h ;           /* width, height of gauge */
        int     vmargin ;       /* vertical margin */
        int     hmargin ;       /* horizontal margin */

        hmargin = gw->label.internal_width ;
        vmargin = gw->label.internal_height ;

        /* find total height (width) of contents */


        /* find minimum size for undecorated gauge */

        if( gw->gauge.orientation == XtorientHorizontal )
        {
          w = min_len ;
          h = GA_WID+2 ;                        /* gauge itself + edges */
        }
        else
        {
          w = GA_WID+2 ;
          h = min_len ;
        }

        if( gw->gauge.ntics > 0 )
        {
          if( gw->gauge.orientation == XtorientHorizontal )
          {
            w = Max(w, gw->gauge.ntics*3) ;
            h += vmargin + TIC_LEN ;
          }
          else
          {
            w += hmargin + TIC_LEN ;
            h = Max(h, gw->gauge.ntics*3) ;
          }
        }


        /* If labels are requested, this gets a little interesting.
         * We want the end labels centered on the ends of the gauge and
         * the centers of the labels evenly spaced.  The labels at the ends
         * will not be the same width, meaning that the gauge itself need
         * not be centered in the widget.
         *
         * First, determine the spacing.  This is the width of the widest
         * label, plus the internal margin.  Total length of the gauge is
         * spacing * (nlabels-1).  To this, we add half the width of the
         * left-most label and half the width of the right-most label
         * to get the entire desired width of the widget.
         */
        if( gw->gauge.nlabels > 0 )
        {
          Dimension     lwm, lw0, lw1 ; /* width of max, left, right labels */
          Dimension     lh ;

          MaxLabel(gw,&lwm,&lh, &lw0,&lw1) ;

          if( gw->gauge.orientation == XtorientHorizontal )
          {
            lwm = (lwm+hmargin) * (gw->gauge.nlabels-1) + (lw0+lw1)/2 ;
            w = Max(w, lwm) ;
            h += lh + vmargin ;
          }
          else
          {
            lh = lh*gw->gauge.nlabels + (gw->gauge.nlabels - 1)*vmargin ;
            h = Max(h, lh) ;
            w += lwm + hmargin ;
          }
        }

        w += hmargin*2 ;
        h += vmargin*2 ;

        *wid = w ;
        *hgt = h ;
}



static void
AutoScale (GaugeWidget gw)
{
        static int scales[3] = {1,2,5} ;
        int sptr = 0, smult=1 ;

        if( gw->gauge.autoScaleDown )
          gw->gauge.v1 = 0 ;
        while( gw->gauge.value > gw->gauge.v1 )
        {
          if( ++sptr > 2 ) {
            sptr = 0 ;
            smult *= 10 ;
          }
          gw->gauge.v1 = scales[sptr] * smult ;
        }
}

static  void
EnableUpdate (GaugeWidget gw)
{
        gw->gauge.intervalId =
          XtAppAddTimeOut(XtWidgetToApplicationContext((Widget)gw),
                gw->gauge.update * MS_PER_SEC, GaugeGetValue,
                (XtPointer)gw) ;
}

static  void
DisableUpdate (GaugeWidget gw)
{
        XtRemoveTimeOut(gw->gauge.intervalId) ;
}

static  void
GaugeGetValue (XtPointer    clientData,
               XtIntervalId *intervalId)
{
        GaugeWidget     gw = (GaugeWidget)clientData ;
        Cardinal        value ;

        if( gw->gauge.update > 0 )
          EnableUpdate(gw) ;

        if( gw->gauge.getValue != NULL )
        {
          XtCallCallbackList((Widget)gw, gw->gauge.getValue, (XtPointer)&value);
          XawGaugeSetValue((Widget)gw, value) ;
        }
}


static  GC
Get_GC (GaugeWidget gw,
        Pixel       fg)
{
        XGCValues       values ;
#define vmask   GCForeground
#define umask   (GCBackground|GCSubwindowMode|GCGraphicsExposures|GCDashOffset\
                |GCFont|GCDashList|GCArcMode)

        values.foreground = fg ;

        return XtAllocateGC((Widget)gw, 0, vmask, &values, 0L, umask) ;
}