Mercurial > hg > xemacs-beta
view lwlib/xlwgauge.c @ 617:af57a77cbc92
[xemacs-hg @ 2001-06-18 07:09:50 by ben]
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DOCUMENTATION FIXES:
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eval.c: Correct documentation.
elhash.c: Doc correction.
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LISP OBJECT CLEANUP:
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bytecode.h, buffer.h, casetab.h, chartab.h, console-msw.h, console.h, database.c, device.h, eldap.h, elhash.h, events.h, extents.h, faces.h, file-coding.h, frame.h, glyphs.h, gui-x.h, gui.h, keymap.h, lisp-disunion.h, lisp-union.h, lisp.h, lrecord.h, lstream.h, mule-charset.h, objects.h, opaque.h, postgresql.h, process.h, rangetab.h, specifier.h, toolbar.h, tooltalk.h, ui-gtk.h: Add wrap_* to all objects (it was already there for a few of them)
-- an expression to encapsulate a pointer into a Lisp object,
rather than the inconvenient XSET*. "wrap" was chosen because
"make" as in make_int(), make_char() is not appropriate. (It
implies allocation. The issue does not exist for ints and chars
because they are not allocated.)
Full error checking has been added to these expressions. When
used without error checking, non-union build, use of these
expressions will incur no loss of efficiency. (In fact, XSET* is
now defined in terms of wrap_* in a non-union build.) In a union
build, you will also get no loss of efficiency provided that you
have a decent optimizing compiler, and a compiler that either
understands inlines or automatically inlines those particular
functions. (And since people don't normally do their production
builds on union, it doesn't matter.)
Update the sample Lisp object definition in lrecord.h accordingly.
dumper.c: Fix places in dumper that referenced wrap_object to reference
its new name, wrap_pointer_1.
buffer.c, bufslots.h, conslots.h, console.c, console.h, devslots.h, device.c, device.h, frame.c, frame.h, frameslots.h, window.c, window.h, winslots.h: -- Extract out the Lisp objects of `struct device' into devslots.h,
just like for the other structures.
-- Extract out the remaining (not copied into the window config)
Lisp objects in `struct window' into winslots.h; use different
macros (WINDOW_SLOT vs. WINDOW_SAVED_SLOT) to differentiate them.
-- Eliminate the `dead' flag of `struct frame', since it
duplicates information already available in `framemeths', and fix
FRAME_LIVE_P accordingly. (Devices and consoles already work this
way.)
-- In *slots.h, switch to system where MARKED_SLOT is automatically
undef'd at the end of the file. (Follows what winslots.h already
does.)
-- Update the comments at the beginning of *slots.h to be accurate.
-- When making any of the above objects dead, zero it out entirely
and reset all Lisp object slots to Qnil. (We were already doing
this somewhat, but not consistently.) This (1) Eliminates the
possibility of extra objects hanging around that ought to be
GC'd, (2) Causes an immediate crash if anyone tries to access a
structure in one of these objects, (3) Ensures consistent behavior
wrt dead objects.
dialog-msw.c: Use internal_object_printer, since this object should not escape.
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FIXING A CRASH THAT I HIT ONCE (AND A RELATED BAD BEHAVIOR):
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eval.c: Fix up some comments about the FSF implementation.
Fix two nasty bugs:
(1) condition_case_unwind frees the conses sitting in the
catch->tag slot too quickly, resulting in a crash that I hit.
(2) catches need to be unwound one at a time when calling
unwind-protect code, rather than all at once at the end; otherwise,
incorrect behavior can result. (A comment shows exactly how.)
backtrace.h: Improve comment about FSF differences in the handler stack.
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FIXING A CRASH THAT I REPEATEDLY HIT WHEN USING THE MOUSE WHEEL
UNDER MSWINDOWS:
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Basic idea: My crash is due either to a dead, non-marked,
GC-collected frame inside of a window mirror, or a prematurely
freed window mirror. We need to mark the Lisp objects inside of
window mirrors. Tracking the lifespan of window mirrors and
scrollbar instances is extremely hard, and there may well be
lurking bugs where such objects are freed too soon. The only safe
way to fix these problems (and it fixes both problems at once) is
to make both of these structures Lisp objects.
lrecord.h, emacs.c, inline.c, scrollbar-gtk.c, scrollbar-msw.c, scrollbar-x.c, scrollbar.c, scrollbar.h, symsinit.h: Make scrollbar instances actual Lisp objects. Mark the window
mirrors in them. inline.c needs to know about scrollbar.h now.
Record the new type in lrecord.h. Fix up scrollbar-*.c
appropriately. Create a hash table in scrollbar-msw.c so that the
scrollbar instances stored in scrollbar HWND's are properly
GC-protected. Create complex_vars_of_scrollbar_mswindows() to
create the hash table at startup, and call it from emacs.c. Don't
store the scrollbar instance as a property of the GTK scrollbar,
as it's not used and if we did this, we'd have to separately
GC-protect it in a hash table, like in MS Windows.
lrecord.h, frame.h, frame.c, frameslots.h, redisplay.c, window.c, window.h: Move mark_window_mirror from redisplay.c to window.c. Make window
mirrors actual Lisp objects. Tell lrecord.h about them. Change
the window mirror member of struct frame from a pointer to a Lisp
object, and add XWINDOW_MIRROR in appropriate places. Mark the
scrollbar instances in the window mirror.
redisplay.c, redisplay.h, alloc.c: Delete mark_redisplay. Don't call mark_redisplay. We now mark
frame-specific structures in mark_frame.
NOTE: I also deleted an extremely questionable call to
update_frame_window_mirrors(). It was extremely questionable
before, and now totally impossible, since it will create
Lisp objects during redisplay.
frame.c: Mark the scrollbar instances, which are now Lisp objects.
Call mark_gutter() here, not in mark_redisplay().
gutter.c: Update comments about correct marking.
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ISSUES BROUGHT UP BY MARTIN:
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buffer.h: Put back these macros the way Steve T and I think they ought to be.
I already explained in a previous changelog entry why I think these
macros should be the way I'd defined them. Once again:
We fix these macros so they don't care about the type of their
lvalues. The non-C-string equivalents of these already function
in the same way, and it's correct because it should be OK to pass
in a CBufbyte *, a BufByte *, a Char_Binary *, an UChar_Binary *,
etc. The whole reason for these different types is to work around
errors caused by signed-vs-unsigned non-matching types. Any
possible error that might be caught in a DFC macro would also be
caught wherever the argument is used elsewhere. So creating
multiple macro versions would add no useful error-checking and
just further complicate an already complicated area.
As for Martin's "ANSI aliasing" bug, XEmacs is not ANSI-aliasing
clean and probably never will be. Unless the board agrees to
change XEmacs in this way (and we really don't want to go down
that road), this is not a bug.
sound.h: Undo Martin's type change.
signal.c: Fix problem identified by Martin with Linux and g++ due to
non-standard declaration of setitimer().
systime.h: Update the docs for "qxe_" to point out why making the
encapsulation explicit is always the right way to go. (setitimer()
itself serves as an example.)
For 21.4:
update-elc-2.el: Correct misplaced parentheses, making lisp/mule not get
recompiled.
| author | ben |
|---|---|
| date | Mon, 18 Jun 2001 07:10:32 +0000 |
| parents | c33ae14dd6d0 |
| children | b39c14581166 |
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/* 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; /**************************************************************** * * 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; } /**************************************************************** * * 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) ; } /**************************************************************** * * 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 ; } /**************************************************************** * * 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) ; }