Mercurial > hg > xemacs-beta
view lwlib/xlwscrollbar.c @ 502:7039e6323819
[xemacs-hg @ 2001-05-04 22:41:46 by ben]
----------------------- byte-comp warning fixes -----------------
New functions for cleanly eliminating byte-compiler warnings.
Their definitions require no changes at all in bytecomp.el,
meaning that any package that wants to use them and be compatible
with older versions of XEmacs need only copy the code and rename
the functions (i.e. prefix them with the package name).
Eliminate byte-compiler warnings using the new functions in
bytecomp-runtime.el.
Move coding-system-put,get,category, since they're not
Mule-specific and are used in prefer-coding-system.
font.el was incredibly ugly. Clean it up. Avoid using defsubst
for any exported functions, to avoid possible compatibility
problems if we later change the internal interface. (It happened
before, with face accessors, between 19.8 and 19.9). Fix tons
of warnings.
Clean up (new function gpm-is-supported-p eliminates duplicate
code in gpm-create/delete-device-hook) and eliminate warnings.
---------- make byte-recompile-directory work in the ---------
core `lisp' dir, even in the absence of
a Mule XEmacs (i.e. make it skip the Mule
files rather than trying to compile them).
now you should be able to do `touch *.el'
in the `lisp' dir, then
M-x byte-recompile-directory, and get no
warnings.
Avoid trying to compile Mule files in byte-recompile-directory
when we're not in a Mule XEmacs, since we're highly likely to get
syntax errors.
Add a coding-system cookie to all Mule files so that
byte-recompile-directory ignores them.
Magic cookie function moved to files.el from code-files.el (for
use by bytecomp even in a non-coding-system XEmacs), and changed
names and semantics for use by bytecomp. NOTE: IMO this is an
internal function that we can change as we like (and there is
absolutely no code anywhere else using the function).
---------------- GUI improvements: menus, help -------------------
Rearrange order of keymap declarations to be alphabetical.
Improve help on help to include all bindings, and group by
category. Add bindings for new Info commands. Remove
warnings. Use command-hyper-apropos in place of command-apropos.
Add a function to do the equivalent of command-apropos.
Evals its help-text argument so you can put expressions there.
Used now by help-for-help.
Add binding to continue text searches. Expand index searches to
work over multiple info documents. Add commands to search
text/index in User and Lispref.
Add new entry, "Uncomment Region" (parallels "Comment Out Region").
Redo Help menu; add bindings for new Info commands to search the
index or text of the User and Lispref manuals. Add command for
mark-paragraph, activate-region. Make Edit->R accelerator be
rectangle, not register (more commonly used), and put rectangle
first. Fix the Edit Init File entry to never load the .elc file.
Simplify the default-popup-menu. Add Cmds->Tabs menu.
Use kp-left not kp_left, etc.
---------------- Miscellaneous bug fixes/cleanup -------------------
byte-compiler-options: Correct doc string.
easy-menu-do-define: fix extra quote.
fill-paragraph-or-region:Rewrite to be more correct -- use
call-interactively so that we always get exactly the same
behavior as if the functions were called directly.
No need to fiddle with zmacs-region-stays, now that bogus
clearing of it (2001-04-28 src/ChangeLog) is removed.
Put dialog titles back in -- this time correctly. Fix various
other problems with leaks and such.
key-sequence-list-description:
Clean up fun to always correctly canonicalize.
Clean up Kinsoku comments, synch comment-region with FSF 20.7.
* simple.el (region-exists-p):
* simple.el (region-active-p):
Add comment about which one is correct to use in menu specs.
* sound.el (load-sound-file):
Minor code clean up.
* startup.el:
* startup.el (command-line-early):
* startup.el (initial-scratch-message):
Comment changes. Add info about sample.init.el to splash screen.
Improve initial-scratch-message and clarify purpose of Scratch
buffer. Fix byte-compile warning.
------------------------ Added features -------------------------
Add new variable to control whether etags checks all parent
directories for tag files. (On by default.)
* hash-table.el: New file, useful utility functions.
* dumped-lisp.el (preloaded-file-list): Dump hash-table.el.
------------ notable bug fix: Windows event code --------------
Get critical quit working.
------------ notable bug fix and new feature: regex code --------------
Shy groups were implemented in a horrible, half-assed way that
would cause them to screw up regex searching in most cases.
Fixed to work correctly.
Also extended back-reference syntax past 9. Only is recognized
as such if there are at least that many non-shy groups; and
optionally will warn about such uses, to catch old code that
might be using them differently. (Added variable to control
this in search.c -- `warn-about-possibly-incompatible-back-
references', on by default for the moment. Declared in lisp.h.
---------------- process/SIGIO improvements -------------------
define USE_GETADDRINFO to replace more complex conditional,
and use it. the code conditionalized on this in
unix_open_network_stream had *serious* problems handling errors.
it's now fixed, and major amounts of duplicate code between
the two versions were combined.
don't disable SIGIO and other interrupts unless
CONNECT_NEEDS_SLOWED_INTERRUPTS is defined -- don't penalize OS's
without bugs. similarly for a freebsd bug that was affecting all
OS's.
* s\ultrix.h:
define CONNECT_NEEDS_SLOWED_INTERRUPTS, since that's the OS
mentioned as having a kernel bug.
* sysdep.c (request_sigio_on_device):
* sysdep.c (unrequest_sigio_on_device):
fix SIGIO problems on Linux. add check for O_ASYNC in case it's
defined and FASYNC isn't. add comment about other ways to do
SIGIO on Linux.
* callproc.c (Fold_call_process_internal):
* process.c (Fstart_process_internal):
Deal with the possibility that `default-directory' doesn't
have terminating slash. Correct comments about vfork.
---------------- Miscellaneous bug fixes/cleanup -------------------
* callint.c (Finteractive):
Add lots of documentation -- exactly what the Lisp equivalents of
all the interactive specs are.
* console.h (struct console): change type of quit_char to Emchar.
* event-msw.c (lstream_type_create_mswindows_selectable): spacing
change.
Eliminate events-mod.h and combine into events.h.
* emacs.c:
* emacs.c (make_arg_list_1):
* emacs.c (main_1):
A couple of char->Extbyte changes, add a comment.
* glyphs-msw.c:
Correct indentation of function defns to not exceed 80 cols.
Try (sort of) to fix some code that sets the colors of the
progress gauge. (Commented out)
* keymap.c (syms_of_keymap):
use DEFSYMBOL.
* process.c (read_process_output):
No need to fiddle with zmacs_region_stays, now that bogus
clearing of it (see below) is removed.
* search.c (Freplace_match): warning fix.
| author | ben |
|---|---|
| date | Fri, 04 May 2001 22:42:35 +0000 |
| parents | abe6d1db359e |
| children | 7b8fc81f9587 |
line wrap: on
line source
/* Implements a lightweight scrollbar widget. Copyright (C) 1992, 1993, 1994 Lucid, Inc. Copyright (C) 1997 Sun Microsystems, Inc. This file is part of the Lucid Widget Library. The Lucid Widget Library 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. The Lucid Widget 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 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. */ /* Created by Douglas Keller <dkeller@vnet.ibm.com> */ /* Lots of hacking by Martin Buchholz */ /* * Athena-style scrollbar button bindings added on Sun Dec 24 22:03:57 1995 * by Jonathan Stigelman <Stig@hackvan.com>... Ho ho ho! * * To use them, put this resource in your .Xdefaults * * Emacs*XlwScrollBar.translations: #override \n\ * <Btn1Down>: PageDownOrRight() \n\ * <Btn3Down>: PageUpOrLeft() * */ /* * Resources Supported: * XmNforeground * XmNbackground * XmNtopShadowColor * XmNtopShadowPixmap * XmNbottomShadowColor * XmNbottomShadowPixmap * XmNtroughColor * XmNshadowThickness * XmNshowArrows * XmNorientation * XmNborderWidth * * XmNminimum * XmNmaximum * XmNvalue * XmNincrement * XmNpageIncrement * * XmNvalueChangedCallback * XmNincrementCallback * XmNdecrementCallback * XmNpageIncrementCallback * XmNpageDecrementCallback * XmNtoTopCallback * XmNtoBottomCallback * XmNdragCallback * * XmNsliderStyle - values can be: "plain" or "dimple" * XmNarrowPosition - values can be: "opposite" or "same" * */ #include <config.h> #include <stdio.h> #include <stdlib.h> #include <limits.h> #include <X11/IntrinsicP.h> #include <X11/StringDefs.h> #include <X11/bitmaps/gray> #include "xlwscrollbarP.h" #include "xlwscrollbar.h" #ifdef USE_DEBUG_MALLOC #include <dmalloc.h> #endif #define DBUG(x) #define MINL(x,y) ((((unsigned long) (x)) < ((unsigned long) (y))) \ ? ((unsigned long) (x)) : ((unsigned long) (y))) #define VERT(w) ((w)->sb.orientation == XmVERTICAL) #define SS_MIN 8 typedef enum { BUTTON_NONE, BUTTON_SLIDER, BUTTON_UP_ARROW, BUTTON_DOWN_ARROW, BUTTON_TROUGH_ABOVE, BUTTON_TROUGH_BELOW } button_where; typedef enum { SLIDER_PLAIN, SLIDER_DIMPLE } SliderStyle; /*-------------------------- Resources ----------------------------------*/ #define offset(field) XtOffset(XlwScrollBarWidget, field) static XtResource resources[] = { { XmNforeground, XmCForeground, XtRPixel, sizeof(Pixel), offset(sb.foreground), XtRImmediate, (XtPointer) XtDefaultForeground }, { XmNtopShadowColor, XmCTopShadowColor, XtRPixel, sizeof(Pixel), offset(sb.topShadowColor), XtRImmediate, (XtPointer) ~0 }, { XmNbottomShadowColor, XmCBottomShadowColor, XtRPixel, sizeof(Pixel), offset(sb.bottomShadowColor), XtRImmediate, (XtPointer)~0 }, { XmNtopShadowPixmap, XmCTopShadowPixmap, XtRPixmap, sizeof (Pixmap), offset(sb.topShadowPixmap), XtRImmediate, (XtPointer)None}, { XmNbottomShadowPixmap, XmCBottomShadowPixmap, XtRPixmap, sizeof (Pixmap), offset(sb.bottomShadowPixmap), XtRImmediate, (XtPointer)None}, { XmNtroughColor, XmCTroughColor, XtRPixel, sizeof(Pixel), offset(sb.troughColor), XtRImmediate, (XtPointer)~0 }, { XmNshadowThickness, XmCShadowThickness, XtRInt, sizeof(int), offset(sb.shadowThickness), XtRImmediate, (XtPointer)2 }, { XmNborderWidth, XmCBorderWidth, XtRDimension, sizeof(Dimension), offset(core.border_width), XtRImmediate, (XtPointer)0 }, { XmNshowArrows, XmCShowArrows, XtRBoolean, sizeof(Boolean), offset(sb.showArrows), XtRImmediate, (XtPointer)True }, { XmNinitialDelay, XmCInitialDelay, XtRInt, sizeof(int), offset(sb.initialDelay), XtRImmediate, (XtPointer) 250 }, { XmNrepeatDelay, XmCRepeatDelay, XtRInt, sizeof(int), offset(sb.repeatDelay), XtRImmediate, (XtPointer) 50 }, { XmNorientation, XmCOrientation, XtROrientation, sizeof(unsigned char), offset(sb.orientation), XtRImmediate, (XtPointer) XmVERTICAL }, { XmNminimum, XmCMinimum, XtRInt, sizeof(int), offset(sb.minimum), XtRImmediate, (XtPointer) 0}, { XmNmaximum, XmCMaximum, XtRInt, sizeof(int), offset(sb.maximum), XtRImmediate, (XtPointer) 100}, { XmNvalue, XmCValue, XtRInt, sizeof(int), offset(sb.value), XtRImmediate, (XtPointer) 0}, { XmNsliderSize, XmCSliderSize, XtRInt, sizeof(int), offset(sb.sliderSize), XtRImmediate, (XtPointer) 10}, { XmNincrement, XmCIncrement, XtRInt, sizeof(int), offset(sb.increment), XtRImmediate, (XtPointer) 1}, { XmNpageIncrement, XmCPageIncrement, XtRInt, sizeof(int), offset(sb.pageIncrement), XtRImmediate, (XtPointer) 10}, { XmNvalueChangedCallback, XmCValueChangedCallback, XtRCallback, sizeof(XtPointer), offset(sb.valueChangedCBL), XtRCallback, NULL}, { XmNincrementCallback, XmCIncrementCallback, XtRCallback, sizeof(XtPointer), offset(sb.incrementCBL), XtRCallback, NULL}, { XmNdecrementCallback, XmCDecrementCallback, XtRCallback, sizeof(XtPointer), offset(sb.decrementCBL), XtRCallback, NULL}, { XmNpageIncrementCallback, XmCPageIncrementCallback, XtRCallback, sizeof(XtPointer), offset(sb.pageIncrementCBL), XtRCallback, NULL}, { XmNpageDecrementCallback, XmCPageDecrementCallback, XtRCallback, sizeof(XtPointer), offset(sb.pageDecrementCBL), XtRCallback, NULL}, { XmNtoTopCallback, XmCToTopCallback, XtRCallback, sizeof(XtPointer), offset(sb.toTopCBL), XtRCallback, NULL}, { XmNtoBottomCallback, XmCToBottomCallback, XtRCallback, sizeof(XtPointer), offset(sb.toBottomCBL), XtRCallback, NULL}, { XmNdragCallback, XmCDragCallback, XtRCallback, sizeof(XtPointer), offset(sb.dragCBL), XtRCallback, NULL}, /* "knob" is obsolete; use "slider" instead. */ { XmNsliderStyle, XmCSliderStyle, XtRString, sizeof(char *), offset(sb.sliderStyle), XtRImmediate, NULL}, { XmNknobStyle, XmCKnobStyle, XtRString, sizeof(char *), offset(sb.knobStyle), XtRImmediate, NULL}, { XmNarrowPosition, XmCArrowPosition, XtRString, sizeof(char *), offset(sb.arrowPosition), XtRImmediate, NULL}, }; /*-------------------------- Prototypes ---------------------------------*/ /* Actions */ typedef void Action(Widget w, XEvent *event, String *parms, Cardinal *num_parms); static Action Select, PageUpOrLeft, PageDownOrRight, Drag, Release, Jump, Abort; /* Methods */ static void Initialize(Widget treq, Widget tnew, ArgList args, Cardinal *num_args); static Boolean SetValues(Widget current, Widget request, Widget nw, ArgList args, Cardinal *num_args); static void Destroy(Widget widget); static void Redisplay(Widget widget, XEvent *event, Region region); static void Resize(Widget widget); static void Realize(Widget widget, XtValueMask *valuemask, XSetWindowAttributes *attr); /* Private */ /*-------------------------- Actions Table ------------------------------*/ static XtActionsRec actions[] = { {"Select", Select}, {"PageDownOrRight", PageDownOrRight}, {"PageUpOrLeft", PageUpOrLeft}, {"Drag", Drag}, {"Release", Release}, {"Jump", Jump}, {"Abort", Abort}, }; /*--------------------- Default Translation Table -----------------------*/ static char default_translations[] = "<Btn1Down>: Select()\n" "<Btn1Motion>: Drag()\n" "<Btn1Up>: Release()\n" "<Btn2Down>: Jump()\n" "<Btn2Motion>: Drag()\n" "<Btn2Up>: Release()\n" "<Key>Delete: Abort()" ; /*------------------- Class record initialization -----------------------*/ XlwScrollBarClassRec xlwScrollBarClassRec = { /* core_class fields */ { /* superclass */ (WidgetClass) &coreClassRec, /* class_name */ "XlwScrollBar", /* widget_size */ sizeof(XlwScrollBarRec), /* class_initialize */ NULL, /* class_part_init */ NULL, /* class_inited */ False, /* initialize */ Initialize, /* initialize_hook */ NULL, /* realize */ Realize, /* actions */ actions, /* num_actions */ XtNumber(actions), /* resources */ resources, /* num_resources */ XtNumber(resources), /* xrm_class */ NULLQUARK, /* compress_motion */ True, /* compress_exposure */ XtExposeCompressMultiple, /* compress_enterleave */ True, /* visible_interest */ False, /* destroy */ Destroy, /* resize */ Resize, /* expose */ Redisplay, /* set_values */ SetValues, /* set_values_hook */ NULL, /* set_values_almost */ XtInheritSetValuesAlmost, /* get_values_hook */ NULL, /* accept_focus */ NULL, /* version */ XtVersionDontCheck, /* callback_private */ NULL, /* tm_table */ default_translations, /* query_geometry */ NULL, }, /* scrollbar_class fields */ { /* dummy_field */ 0, }, }; WidgetClass xlwScrollBarWidgetClass = (WidgetClass) &xlwScrollBarClassRec; /*-------------------------- Debug Functions ----------------------------*/ #ifdef SHOW_CLEAR static void myXClearArea(Display *dpy, Drawable d, int x, int y, int w, int h, Boolean exp, XlwScrollBarWidget widget) { XFillRectangle (dpy, d, widget->sb.topShadowGC, x, y, w, h); XSync (dpy, False); sleep (2); XClearArea (dpy, d, x, y, w, h, exp); } #define XClearArea(dpy,win,x,y,width,height,exp) myXClearArea(dpy,win,x,y,width,height,exp,w) #endif #ifdef CHECK_VALUES static void check(XlwScrollBarWidget w) { int height = widget_h (w); if (w->sb.showArrows) height -= (2 * arrow_h (w)); if ((w->sb.above + w->sb.ss + w->sb.below > height) || (w->sb.value < w->sb.minimum) || (w->sb.value > w->sb.maximum - w->sb.sliderSize)) { printf("above=%d ss=%d below=%d height=%d\n", w->sb.above, w->sb.ss, w->sb.below, height); printf("value=%d min=%d max=%d ss=%d max-ss=%d\n", w->sb.value, w->sb.minimum, w->sb.maximum, w->sb.sliderSize, w->sb.maximum - w->sb.sliderSize); abort(); } } # define CHECK(w) check(w) #else # define CHECK(w) #endif /*-------------------------- Static functions ---------------------------*/ static void call_callbacks (XlwScrollBarWidget w, int reason, int value, int pixel, XEvent *event) { XlwScrollBarCallbackStruct cbs; Boolean called_anything; cbs.reason = reason; cbs.event = event; cbs.value = value; cbs.pixel = pixel; called_anything = False; switch (reason) { case XmCR_VALUE_CHANGED: XtCallCallbackList ((Widget) w, w->sb.valueChangedCBL, &cbs); called_anything = True; break; case XmCR_INCREMENT: if (w->sb.incrementCBL) { XtCallCallbackList ((Widget) w, w->sb.incrementCBL, &cbs); called_anything = True; } break; case XmCR_DECREMENT: if (w->sb.decrementCBL) { XtCallCallbackList ((Widget) w, w->sb.decrementCBL, &cbs); called_anything = True; } break; case XmCR_PAGE_INCREMENT: if (w->sb.incrementCBL) { XtCallCallbackList ((Widget) w, w->sb.pageIncrementCBL, &cbs); called_anything = True; } break; case XmCR_PAGE_DECREMENT: if (w->sb.decrementCBL) { XtCallCallbackList ((Widget) w, w->sb.pageDecrementCBL, &cbs); called_anything = True; } break; case XmCR_TO_TOP: if (w->sb.toTopCBL) { XtCallCallbackList ((Widget) w, w->sb.toTopCBL, &cbs); called_anything = True; } break; case XmCR_TO_BOTTOM: if (w->sb.toBottomCBL) { XtCallCallbackList ((Widget) w, w->sb.toBottomCBL, &cbs); called_anything = True; } break; case XmCR_DRAG: if (w->sb.dragCBL) { XtCallCallbackList ((Widget) w, w->sb.dragCBL, &cbs); } called_anything = True; /* Special Case */ break; } if (!called_anything) { cbs.reason = XmCR_VALUE_CHANGED; XtCallCallbackList ((Widget) w, w->sb.valueChangedCBL, &cbs); } } /* Widget sizes minus the shadow and highlight area */ static int widget_x (XlwScrollBarWidget w) { return w->sb.shadowThickness; } static int widget_y (XlwScrollBarWidget w) { return w->sb.shadowThickness; } static int widget_w (XlwScrollBarWidget w) { int x = w->sb.shadowThickness; int width = (VERT (w) ? w->core.width : w->core.height) - (2 * x); return width > 1 ? width : 1; } static int widget_h (XlwScrollBarWidget w) { int y = w->sb.shadowThickness; int height = (VERT (w) ? w->core.height : w->core.width) - (2 * y); return height > 1 ? height : 1; } static int arrow_h (XlwScrollBarWidget w) { int width = widget_w (w); int minimum_size = ((widget_h (w) - SS_MIN) / 2) - 1; return minimum_size < width ? minimum_size : width; } static int event_x (XlwScrollBarWidget w, XEvent *event) { return VERT (w) ? event->xbutton.x : event->xbutton.y; } static int event_y (XlwScrollBarWidget w, XEvent *event) { return VERT (w) ? event->xbutton.y : event->xbutton.x; } /* Safe addition and subtraction */ static void increment_value (XlwScrollBarWidget w, int diff) { w->sb.value = w->sb.maximum - diff < w->sb.value ? w->sb.maximum : w->sb.value + diff; } static void decrement_value (XlwScrollBarWidget w, int diff) { w->sb.value = w->sb.minimum + diff > w->sb.value ? w->sb.minimum : w->sb.value - diff; } static SliderStyle slider_style (XlwScrollBarWidget w) { return (w->sb.sliderStyle ? w->sb.sliderStyle[0] == 'd' : w->sb.knobStyle ? w->sb.knobStyle[0] == 'd' : 0) ? SLIDER_DIMPLE : SLIDER_PLAIN; } static Boolean arrow_same_end (XlwScrollBarWidget w) { return w->sb.arrowPosition && w->sb.arrowPosition[0] == 's' ? True : False; } /*-------------------------- GC and Pixel allocation --------------------*/ #ifndef XmUNSPECIFIED_PIXMAP #define XmUNSPECIFIED_PIXMAP 2 #endif static GC get_gc (XlwScrollBarWidget w, Pixel fg, Pixel bg, Pixmap pm) { XGCValues values; XtGCMask mask; if (pm == w->sb.grayPixmap) { /* If we're using the gray pixmap, guarantee white on black ... * otherwise, we could end up with something odd like grey on white * when we're on a color display that ran out of color cells */ fg = WhitePixelOfScreen (DefaultScreenOfDisplay (XtDisplay (w))); bg = BlackPixelOfScreen (DefaultScreenOfDisplay (XtDisplay (w))); } values.foreground = fg; values.background = bg; values.fill_style = FillOpaqueStippled; values.stipple = pm; /* mask = GCForeground | GCBackground | (pm == None ? 0 : GCStipple | GCFillStyle); gtb */ if (pm != None && pm != 0 && pm != XmUNSPECIFIED_PIXMAP) values.stipple = pm; else values.stipple = None; mask = GCForeground | GCBackground | (values.stipple == None ? 0 : GCStipple | GCFillStyle); return XtGetGC((Widget) w, mask, &values); } /* Replacement for XAllocColor() that tries to return the nearest available color if the colormap is full. From FSF Emacs. */ static int allocate_nearest_color (Display *display, Colormap screen_colormap, XColor *color_def) { int status = XAllocColor (display, screen_colormap, color_def); if (status) return status; { /* If we got to this point, the colormap is full, so we're going to try to get the next closest color. The algorithm used is a least-squares matching, which is what X uses for closest color matching with StaticColor visuals. */ int nearest, x; unsigned long nearest_delta = ULONG_MAX; int no_cells = XDisplayCells (display, XDefaultScreen (display)); /* Don't use alloca here because lwlib doesn't have the necessary configuration information that src does. */ XColor *cells = (XColor *) malloc (sizeof (XColor) * no_cells); for (x = 0; x < no_cells; x++) cells[x].pixel = x; XQueryColors (display, screen_colormap, cells, no_cells); for (nearest = 0, x = 0; x < no_cells; x++) { long dred = (color_def->red >> 8) - (cells[x].red >> 8); long dgreen = (color_def->green >> 8) - (cells[x].green >> 8); long dblue = (color_def->blue >> 8) - (cells[x].blue >> 8); unsigned long delta = dred * dred + dgreen * dgreen + dblue * dblue; if (delta < nearest_delta) { nearest = x; nearest_delta = delta; } } color_def->red = cells[nearest].red; color_def->green = cells[nearest].green; color_def->blue = cells[nearest].blue; free (cells); return XAllocColor (display, screen_colormap, color_def); } } static void make_shadow_pixels (XlwScrollBarWidget w) { Display *dpy = XtDisplay((Widget) w); Colormap cmap = w->core.colormap; XColor topc, botc; int top_frobbed, bottom_frobbed; Pixel bg, fg; top_frobbed = bottom_frobbed = 0; bg = w->core.background_pixel; fg = w->sb.foreground; if (w->sb.topShadowColor == (Pixel)~0) w->sb.topShadowColor = bg; if (w->sb.bottomShadowColor == (Pixel)~0) w->sb.bottomShadowColor = fg; if (w->sb.topShadowColor == bg || w->sb.topShadowColor == fg) { topc.pixel = bg; XQueryColor (dpy, cmap, &topc); /* don't overflow/wrap! */ topc.red = MINL(65535, topc.red * 1.2); topc.green = MINL(65535, topc.green * 1.2); topc.blue = MINL(65535, topc.blue * 1.2); if (allocate_nearest_color (dpy, cmap, &topc)) { if (topc.pixel == bg) { XFreeColors (dpy, cmap, &topc.pixel, 1, 0); topc.red = MINL(65535, topc.red + 0x8000); topc.green = MINL(65535, topc.green + 0x8000); topc.blue = MINL(65535, topc.blue + 0x8000); if (allocate_nearest_color (dpy, cmap, &topc)) { w->sb.topShadowColor = topc.pixel; } } else { w->sb.topShadowColor = topc.pixel; } top_frobbed = 1; } } if (w->sb.bottomShadowColor == fg || w->sb.bottomShadowColor == bg) { botc.pixel = bg; XQueryColor (dpy, cmap, &botc); botc.red = (botc.red * 3) / 5; botc.green = (botc.green * 3) / 5; botc.blue = (botc.blue * 3) / 5; if (allocate_nearest_color (dpy, cmap, &botc)) { if (botc.pixel == bg) { XFreeColors (dpy, cmap, &botc.pixel, 1, 0); botc.red = MINL(65535, botc.red + 0x4000); botc.green = MINL(65535, botc.green + 0x4000); botc.blue = MINL(65535, botc.blue + 0x4000); if (allocate_nearest_color (dpy, cmap, &botc)) { w->sb.bottomShadowColor = botc.pixel; } } else { w->sb.bottomShadowColor = botc.pixel; } bottom_frobbed = 1; } } if (top_frobbed && bottom_frobbed) { int top_avg = ((topc.red / 3) + (topc.green / 3) + (topc.blue / 3)); int bot_avg = ((botc.red / 3) + (botc.green / 3) + (botc.blue / 3)); if (bot_avg > top_avg) { Pixel tmp = w->sb.topShadowColor; w->sb.topShadowColor = w->sb.bottomShadowColor; w->sb.bottomShadowColor = tmp; } else if (topc.pixel == botc.pixel) { if (botc.pixel == bg) w->sb.topShadowColor = bg; else w->sb.bottomShadowColor = fg; } } if (w->sb.topShadowColor == w->core.background_pixel || w->sb.bottomShadowColor == w->core.background_pixel) { /* Assume we're in mono. This code should be okay even if we're * really in color but just short on color cells -- We want the * following behavior, which has been empirically determined to * work well for all fg/bg combinations in mono: If the trough * and slider are BOTH black, then use a white top shadow and a * grey bottom shadow, otherwise use a grey top shadow and a * black bottom shadow. */ Pixel white = WhitePixelOfScreen (DefaultScreenOfDisplay (XtDisplay (w))); Pixel black = BlackPixelOfScreen (DefaultScreenOfDisplay (XtDisplay (w))); /* Note: core.background_pixel is the color of the slider ... */ if (w->core.background_pixel == black && w->sb.troughColor == black) { w->sb.topShadowColor = white; w->sb.bottomShadowPixmap = w->sb.grayPixmap; } else { w->sb.topShadowPixmap = w->sb.grayPixmap; w->sb.bottomShadowColor = black; } } } static void make_trough_pixel (XlwScrollBarWidget w) { Display *dpy = XtDisplay((Widget) w); Colormap cmap = w->core.colormap; XColor troughC; if (w->sb.troughColor == (Pixel)~0) w->sb.troughColor = w->core.background_pixel; if (w->sb.troughColor == w->core.background_pixel) { troughC.pixel = w->core.background_pixel; XQueryColor (dpy, cmap, &troughC); troughC.red = (troughC.red * 4) / 5; troughC.green = (troughC.green * 4) / 5; troughC.blue = (troughC.blue * 4) / 5; if (allocate_nearest_color (dpy, cmap, &troughC)) w->sb.troughColor = troughC.pixel; } } /*-------------------------- Draw 3D Border -----------------------------*/ static void draw_shadows (Display *dpy, Drawable d, GC shine_gc, GC shadow_gc, int x, int y, int width, int height, int shadowT) { XSegment shine[10], shadow[10]; int i; if (shadowT > (width / 2)) shadowT = (width / 2); if (shadowT > (height / 2)) shadowT = (height / 2); if (shadowT <= 0) return; for (i = 0; i < shadowT; i++) { /* Top segments */ shine[i].x1 = x; shine[i].y2 = shine[i].y1 = y + i; shine[i].x2 = x + width - i - 1; /* Left segments */ shine[i + shadowT].x2 = shine[i + shadowT].x1 = x + i; shine[i + shadowT].y1 = y + shadowT; shine[i + shadowT].y2 = y + height - i - 1; /* Bottom segments */ shadow[i].x1 = x + i; shadow[i].y2 = shadow[i].y1 = y + height - i - 1; shadow[i].x2 = x + width - 1 ; /* Right segments */ shadow[i + shadowT].x2 = shadow[i + shadowT].x1 = x + width - i - 1; shadow[i + shadowT].y1 = y + i + 1; shadow[i + shadowT].y2 = y + height - 1 ; } XDrawSegments (dpy, d, shine_gc, shine, shadowT * 2); XDrawSegments (dpy, d, shadow_gc, shadow, shadowT * 2); } /*------------------ Draw 3D Arrows: left, up, down, right --------------*/ static int make_vert_seg (XSegment *seg, int x1, int y1, int x2, int y2, int shadowT) { int i; for (i=0; i<shadowT; i++, seg++) { seg->x1 = x1; seg->y1 = y1++; seg->x2 = x2; seg->y2 = y2++; } return shadowT; } static int make_hor_seg (XSegment *seg, int x1, int y1, int x2, int y2, int shadowT) { int i; for (i=0; i<shadowT; i++, seg++) { seg->x1 = x1++; seg->y1 = y1; seg->x2 = x2++; seg->y2 = y2; } return shadowT; } static void draw_arrow_up (Display *dpy, Drawable win, GC bgGC, GC shineGC, GC shadowGC, int x, int y, int width, int height, int shadowT) { XSegment shine[10], shadow[10]; XPoint triangle[3]; int mid; mid = width / 2; if (shadowT > (width / 2)) shadowT = (width / 2); if (shadowT > (height / 2)) shadowT = (height / 2); if (shadowT < 0) shadowT = 0; /* / */ make_vert_seg (shine, x, y + height - shadowT - 1, x + mid, y, shadowT); /* _\ */ make_vert_seg (shadow, x, y + height - shadowT - 1, x + width - 1, y + height - shadowT - 1, shadowT); make_vert_seg (shadow + shadowT, x + mid, y, x + width - 1, y + height - shadowT - 1, shadowT); triangle[0].x = x; triangle[0].y = y + height - 1; triangle[1].x = x + mid; triangle[1].y = y; triangle[2].x = x + width - 1; triangle[2].y = y + height - 1; XFillPolygon (dpy, win, bgGC, triangle, 3, Convex, ArcChord); XDrawSegments (dpy, win, shadowGC, shadow, shadowT * 2); XDrawSegments (dpy, win, shineGC, shine, shadowT); } static void draw_arrow_left (Display *dpy, Drawable win, GC bgGC, GC shineGC, GC shadowGC, int x, int y, int width, int height, int shadowT) { XSegment shine[10], shadow[10]; XPoint triangle[3]; int mid = width / 2; if (shadowT > (width / 2)) shadowT = (width / 2); if (shadowT > (height / 2)) shadowT = (height / 2); if (shadowT < 0) shadowT = 0; /* / */ make_hor_seg (shine, x, y + mid, x + width - shadowT - 1, y, shadowT); /* \| */ make_hor_seg (shadow, x, y + mid, x + width - shadowT - 1, y + height - 1, shadowT); make_hor_seg (shadow + shadowT, x + width - shadowT - 1, y, x + width - shadowT - 1, y + height - 1, shadowT); triangle[0].x = x + width - 1; triangle[0].y = y + height - 1; triangle[1].x = x; triangle[1].y = y + mid; triangle[2].x = x + width - 1; triangle[2].y = y; XFillPolygon (dpy, win, bgGC, triangle, 3, Convex, ArcChord); XDrawSegments (dpy, win, shadowGC, shadow, shadowT * 2); XDrawSegments (dpy, win, shineGC, shine, shadowT); } static void draw_arrow_down (Display *dpy, Drawable win, GC bgGC, GC shineGC, GC shadowGC, int x, int y, int width, int height, int shadowT) { XSegment shine[10], shadow[10]; XPoint triangle[3]; int mid; mid = width / 2; if (shadowT > (width / 2)) shadowT = (width / 2); if (shadowT > (height / 2)) shadowT = (height / 2); if (shadowT < 0) shadowT = 0; /* \- */ make_vert_seg (shine, x, y, x + mid, y + height - shadowT - 1, shadowT); make_vert_seg (shine + shadowT, x, y, x + width - 1, y, shadowT); /* / */ make_vert_seg (shadow, x + width - 1, y, x + mid, y + height - shadowT - 1, shadowT); triangle[0].x = x; triangle[0].y = y; triangle[1].x = x + mid; triangle[1].y = y + height - 1; triangle[2].x = x + width - 1; triangle[2].y = y; XFillPolygon (dpy, win, bgGC, triangle, 3, Convex, ArcChord); XDrawSegments (dpy, win, shadowGC, shadow, shadowT); XDrawSegments (dpy, win, shineGC, shine, shadowT * 2); } static void draw_arrow_right (Display *dpy, Drawable win, GC bgGC, GC shineGC, GC shadowGC, int x, int y, int width, int height, int shadowT) { XSegment shine[10], shadow[10]; XPoint triangle[3]; int mid; mid = width / 2; if (shadowT > (width / 2)) shadowT = (width / 2); if (shadowT > (height / 2)) shadowT = (height / 2); if (shadowT < 0) shadowT = 0; /* |\ */ make_hor_seg (shine, x, y, x + width - shadowT - 1, y + mid, shadowT); make_hor_seg (shine + shadowT, x, y, x, y + height - 1, shadowT); /* / */ make_hor_seg (shadow, x, y + height - 1, x + width - shadowT - 1, y + mid, shadowT); triangle[0].x = x + 1; triangle[0].y = y + height - 1; triangle[1].x = x + width - 1; triangle[1].y = y + mid; triangle[2].x = x + 1; triangle[2].y = y; XFillPolygon (dpy, win, bgGC, triangle, 3, Convex, ArcChord); XDrawSegments (dpy, win, shadowGC, shadow, shadowT); XDrawSegments (dpy, win, shineGC, shine, shadowT * 2); } static void draw_dimple (Display *dpy, Drawable win, GC shine, GC shadow, int x, int y, int width, int height) { XDrawArc (dpy, win, shine, x, y, width, height, 46*64, 180*64); XDrawArc (dpy, win, shadow, x, y, width, height, 45*64, -179*64); } /*------- Scrollbar values -> pixels, pixels -> scrollbar values --------*/ static void seg_pixel_sizes (XlwScrollBarWidget w, int *above_return, int *ss_return, int *below_return) { float total, height, fuz; int value, above, ss, below; height = widget_h (w); if (w->sb.showArrows) height -= (2 * arrow_h (w)); value = w->sb.value - w->sb.minimum; total = w->sb.maximum - w->sb.minimum; fuz = total / 2; ss = (int) ((height * w->sb.sliderSize + fuz) / total); above = (int) ((height * value + fuz) / total); below = (int) ((height) - (ss + above)); /* Don't let slider get smaller than SS_MIN */ if (ss < SS_MIN) { /* add a percent amount for integer rounding */ float tmp = (((float) (SS_MIN - ss) * (float) value) / total) + 0.5; above -= (int) tmp; ss = SS_MIN; below = (int) ((height) - (ss + above)); if (above < 0) { above = 0; below = (int) (height - ss); } if (below < 0) { above = (int) (height - ss); below = 0; } if (ss > height) { above = 0; ss = (int) height; below = 0; } } *above_return = above; *ss_return = ss; *below_return = below; CHECK (w); } static void verify_values (XlwScrollBarWidget w) { int total = w->sb.maximum - w->sb.minimum; if (w->sb.sliderSize > total) w->sb.sliderSize = total; if (w->sb.pageIncrement > total) w->sb.pageIncrement = total; if (w->sb.increment > total) w->sb.increment = total; if (w->sb.value < w->sb.minimum) w->sb.value = w->sb.minimum; if (w->sb.value > w->sb.maximum) w->sb.value = w->sb.maximum; if (w->sb.sliderSize > w->sb.maximum - w->sb.value) w->sb.sliderSize = w->sb.maximum - w->sb.value; } static int value_from_pixel (XlwScrollBarWidget w, int above) { float total, height, fuz; int value, ss; height = widget_h (w); if (w->sb.showArrows) height -= (2 * arrow_h (w)); total = w->sb.maximum - w->sb.minimum; fuz = height / 2; ss = (int) ((height * w->sb.sliderSize + (total / 2)) / total); if (ss < SS_MIN) { /* add a percent amount for integer rounding */ above += (int) ((((SS_MIN - ss) * above) + fuz) / height); } { /* Prevent SIGFPE's that would occur if we don't truncate the value. */ float floatval = w->sb.minimum + ((float)(above * total + fuz) / height); if (floatval >= (float) INT_MAX) value = INT_MAX; else if (floatval <= (float) INT_MIN) value = INT_MIN; else value = (int) floatval; } return value; } static void redraw_dimple (XlwScrollBarWidget w, Display *dpy, Window win, int x, int y, int width, int height) { if (SLIDER_DIMPLE == slider_style (w)) { int size; int slider_p = (w->sb.armed == ARM_SLIDER); GC shine = slider_p ? w->sb.bottomShadowGC : w->sb.topShadowGC; GC shadow = slider_p ? w->sb.topShadowGC : w->sb.bottomShadowGC; int shadowT = w->sb.shadowThickness; x += shadowT; y += shadowT; width -= 2*shadowT; height -= 2*shadowT; size = (width < height ? width : height) * 3 / 4; if (size%2 != (width < height ? width : height)%2) size--; DBUG (fprintf (stderr, "%d %d\n", x + (width / 2) - (size / 2) - 2*shadowT, width - size - shadowT)); draw_dimple (dpy, win, shine, shadow, x + (width / 2) - (size / 2), y + (height / 2) - (size / 2), size, size); } } static void draw_slider (XlwScrollBarWidget w, int above, int ss, int below) { Display *dpy = XtDisplay ((Widget) w); Window win = XtWindow ((Widget) w); int x = widget_x (w); int y = widget_y (w); int width = widget_w (w); int height = widget_h (w); int shadowT = w->sb.shadowThickness; int vert_p = VERT (w); if (shadowT > (width / 2)) shadowT = (width / 2); if (shadowT > (height / 2)) shadowT = (height / 2); if (shadowT < 0) shadowT = 0; if (w->sb.showArrows && !arrow_same_end (w)) y += arrow_h (w); /* trough above slider */ if (above > 0) { if (vert_p) XClearArea (dpy, win, x, y, width, above, False); else XClearArea (dpy, win, y, x, above, width, False); } /* slider */ if (vert_p) { draw_shadows (dpy, win, w->sb.topShadowGC, w->sb.bottomShadowGC, x, y + above, width, ss, shadowT); XFillRectangle (dpy, win, w->sb.backgroundGC, x+shadowT, y + above + shadowT, width-2*shadowT, ss-2*shadowT); redraw_dimple (w, dpy, win, x, y + above, width, ss); } else { draw_shadows (dpy, win, w->sb.topShadowGC, w->sb.bottomShadowGC, y + above, x, ss, width, shadowT); XFillRectangle (dpy, win, w->sb.backgroundGC, y + above + shadowT, x+shadowT, ss-2*shadowT, width-2*shadowT); redraw_dimple (w, dpy, win, y + above, x, ss, width); } /* trough below slider */ if (below > 0) { if (vert_p) XClearArea (dpy, win, x, y + above + ss, width, below, False); else XClearArea (dpy, win, y + above + ss, x, below, width, False); } CHECK (w); } static void redraw_up_arrow (XlwScrollBarWidget w, Boolean armed, Boolean clear_behind) { Display *dpy = XtDisplay ((Widget) w); Window win = XtWindow ((Widget) w); int x = widget_x (w); int y = widget_y (w); int width = widget_w (w); int height = widget_h (w); int shadowT = w->sb.shadowThickness; int arrow_height = arrow_h (w); GC bg = w->sb.backgroundGC; GC shine = armed ? w->sb.bottomShadowGC : w->sb.topShadowGC; GC shadow = armed ? w->sb.topShadowGC : w->sb.bottomShadowGC; if (VERT (w)) { if (arrow_same_end (w)) y += height - 2 * arrow_height; if (clear_behind) XClearArea (dpy, win, x, y, width, arrow_height + 1, False); draw_arrow_up (dpy, win, bg, shine, shadow, x + (width - arrow_height)/2, y, arrow_height, arrow_height, shadowT); } else { if (arrow_same_end (w)) y += height - 2 * arrow_height; if (clear_behind) XClearArea (dpy, win, y, x, arrow_height + 1, height, False); draw_arrow_left (dpy, win, bg, shine, shadow, y, x + (width - arrow_height)/2, arrow_height, arrow_height, shadowT); } } static void redraw_down_arrow (XlwScrollBarWidget w, Boolean armed, Boolean clear_behind) { Display *dpy = XtDisplay ((Widget) w); Window win = XtWindow ((Widget) w); int x = widget_x (w); int y = widget_y (w); int width = widget_w (w); int height = widget_h (w); int shadowT = w->sb.shadowThickness; int arrow_height = arrow_h (w); GC bg = w->sb.backgroundGC; GC shine = armed ? w->sb.bottomShadowGC : w->sb.topShadowGC; GC shadow = armed ? w->sb.topShadowGC : w->sb.bottomShadowGC; if (VERT (w)) { if (clear_behind) XClearArea (dpy, win, x, y + height - arrow_height, width, arrow_height + 1, False); draw_arrow_down (dpy, win, bg, shine, shadow, x + (width - arrow_height)/2, y + height - arrow_height + 1, arrow_height, arrow_height, shadowT); } else { if (clear_behind) XClearArea (dpy, win, y + height - arrow_height, x, arrow_height + 1, height, False); draw_arrow_right (dpy, win, bg, shine, shadow, y + height - arrow_height + 1, x + (width - arrow_height)/2, arrow_height, arrow_height, shadowT); } } static void redraw_everything (XlwScrollBarWidget w, Region region, Boolean behind_arrows) { Display *dpy = XtDisplay ((Widget) w); Window win = XtWindow ((Widget) w); if (w->sb.showArrows) { if (region == NULL) { redraw_up_arrow (w, False, behind_arrows); redraw_down_arrow (w, False, behind_arrows); } else { int x = widget_x (w); int y = widget_y (w); int width = widget_w (w); int height = widget_h (w); int arrow_height = arrow_h (w); int ax = x, ay = y; if (arrow_same_end (w)) { if (VERT (w)) ay = y + height - arrow_height - arrow_height; else ax = x + height - arrow_height - arrow_height; } if (XRectInRegion (region, ax, ay, width, width)) redraw_up_arrow (w, False, behind_arrows); if (VERT (w)) ay = y + height - arrow_height; else ax = x + height - arrow_height; if (XRectInRegion (region, ax, ay, width, width)) redraw_down_arrow (w, False, behind_arrows); } } draw_shadows (dpy, win, w->sb.bottomShadowGC, w->sb.topShadowGC, 0, 0, w->core.width, w->core.height, w->sb.shadowThickness); draw_slider (w, w->sb.above, w->sb.ss, w->sb.below); } /*-------------------------- Method Functions ---------------------------*/ static void Initialize (Widget treq, Widget tnew, ArgList args, Cardinal *num_args) { XlwScrollBarWidget request = (XlwScrollBarWidget) treq; XlwScrollBarWidget w = (XlwScrollBarWidget) tnew; Display *dpy = XtDisplay ((Widget) w); Window win = RootWindowOfScreen (DefaultScreenOfDisplay (dpy)); if (request->core.width == 0) w->core.width += (VERT (w) ? 12 : 25); if (request->core.height == 0) w->core.height += (VERT (w) ? 25 : 12); verify_values (w); w->sb.lastY = 0; w->sb.above = 0; w->sb.ss = 0; w->sb.below = 0; w->sb.armed = ARM_NONE; w->sb.forced_scroll = FORCED_SCROLL_NONE; if (w->sb.shadowThickness > 5) w->sb.shadowThickness = 5; w->sb.grayPixmap = XCreatePixmapFromBitmapData (dpy, win, (char *) gray_bits, gray_width, gray_height, 1, 0, 1); make_trough_pixel (w); make_shadow_pixels (w); w->sb.backgroundGC = get_gc (w, w->core.background_pixel, w->core.background_pixel, None); w->sb.topShadowGC = get_gc (w, w->sb.topShadowColor, w->core.background_pixel, w->sb.topShadowPixmap); w->sb.bottomShadowGC = get_gc (w, w->sb.bottomShadowColor, w->core.background_pixel, w->sb.bottomShadowPixmap); w->sb.fullRedrawNext = True; w->sb.timerActive = False; } static void Destroy (Widget widget) { XlwScrollBarWidget w = (XlwScrollBarWidget) widget; Display *dpy = XtDisplay ((Widget) w); XtReleaseGC (widget, w->sb.bottomShadowGC); XtReleaseGC (widget, w->sb.topShadowGC); XtReleaseGC (widget, w->sb.backgroundGC); XFreePixmap (dpy, w->sb.grayPixmap); if (w->sb.timerActive) { XtRemoveTimeOut (w->sb.timerId); w->sb.timerActive = False; /* Should be a no-op, but you never know */ } } static void Realize (Widget widget, XtValueMask *valuemask, XSetWindowAttributes *attr) { XlwScrollBarWidget w = (XlwScrollBarWidget) widget; Display *dpy = XtDisplay ((Widget) w); Window win; XSetWindowAttributes win_attr; (*coreClassRec.core_class.realize)(widget, valuemask, attr); win = XtWindow ((Widget) w); seg_pixel_sizes (w, &w->sb.above, &w->sb.ss, &w->sb.below); XSetWindowBackground (dpy, win, w->sb.troughColor); /* Change bit gravity so widget is not cleared on resize */ win_attr.bit_gravity = NorthWestGravity; XChangeWindowAttributes (dpy, win, CWBitGravity , &win_attr); } static void Resize (Widget widget) { XlwScrollBarWidget w = (XlwScrollBarWidget) widget; Display *dpy = XtDisplay ((Widget) w); Window win = XtWindow ((Widget) w); if (XtIsRealized (widget)) { DBUG (fprintf (stderr, "Resize = %08lx\n", w)); seg_pixel_sizes (w, &w->sb.above, &w->sb.ss, &w->sb.below); /* redraw_everything (w, NULL, True); */ w->sb.fullRedrawNext = True; /* Force expose event */ XClearArea (dpy, win, widget_x (w), widget_y (w), 1, 1, True); } if (w->sb.timerActive) { XtRemoveTimeOut (w->sb.timerId); w->sb.timerActive = False; } } static void Redisplay (Widget widget, XEvent *event, Region region) { XlwScrollBarWidget w = (XlwScrollBarWidget) widget; DBUG (fprintf (stderr, "Redisplay = %08lx\n", w)); if (XtIsRealized (widget)) { if (w->sb.fullRedrawNext) redraw_everything (w, NULL, True); else redraw_everything (w, region, False); w->sb.fullRedrawNext = False; } } static Boolean SetValues (Widget current, Widget request, Widget neww, ArgList args, Cardinal *num_args) { XlwScrollBarWidget cur = (XlwScrollBarWidget) current; XlwScrollBarWidget w = (XlwScrollBarWidget) neww; Boolean do_redisplay = False; if (cur->sb.troughColor != w->sb.troughColor) { if (XtIsRealized ((Widget) w)) { XSetWindowBackground (XtDisplay((Widget) w), XtWindow ((Widget) w), w->sb.troughColor); do_redisplay = True; } } if (cur->core.background_pixel != w->core.background_pixel) { XtReleaseGC ((Widget)cur, cur->sb.backgroundGC); w->sb.backgroundGC = get_gc (w, w->core.background_pixel, w->core.background_pixel, None); do_redisplay = True; } if (cur->sb.topShadowColor != w->sb.topShadowColor || cur->sb.topShadowPixmap != w->sb.topShadowPixmap) { XtReleaseGC ((Widget)cur, cur->sb.topShadowGC); w->sb.topShadowGC = get_gc (w, w->sb.topShadowColor, w->core.background_pixel, w->sb.topShadowPixmap); do_redisplay = True; } if (cur->sb.bottomShadowColor != w->sb.bottomShadowColor || cur->sb.bottomShadowPixmap != w->sb.bottomShadowPixmap) { XtReleaseGC ((Widget)cur, cur->sb.bottomShadowGC); w->sb.bottomShadowGC = get_gc (w, w->sb.bottomShadowColor, w->core.background_pixel, w->sb.bottomShadowPixmap); do_redisplay = True; } if (cur->sb.orientation != w->sb.orientation) do_redisplay = True; if (cur->sb.minimum != w->sb.minimum || cur->sb.maximum != w->sb.maximum || cur->sb.sliderSize != w->sb.sliderSize || cur->sb.value != w->sb.value || cur->sb.pageIncrement != w->sb.pageIncrement || cur->sb.increment != w->sb.increment) { verify_values (w); if (XtIsRealized ((Widget) w)) { seg_pixel_sizes (w, &w->sb.above, &w->sb.ss, &w->sb.below); draw_slider (w, w->sb.above, w->sb.ss, w->sb.below); } } if (w->sb.shadowThickness > 5) w->sb.shadowThickness = 5; return do_redisplay; } void XlwScrollBarGetValues (Widget widget, int *value, int *sliderSize, int *increment, int *pageIncrement) { XlwScrollBarWidget w = (XlwScrollBarWidget) widget; if (w && XtClass ((Widget) w) == xlwScrollBarWidgetClass) { if (value) *value = w->sb.value; if (sliderSize) *sliderSize = w->sb.sliderSize; if (increment) *increment = w->sb.increment; if (pageIncrement) *pageIncrement = w->sb.pageIncrement; } } void XlwScrollBarSetValues (Widget widget, int value, int sliderSize, int increment, int pageIncrement, Boolean notify) { XlwScrollBarWidget w = (XlwScrollBarWidget) widget; if (w && XtClass ((Widget) w) == xlwScrollBarWidgetClass && (w->sb.value != value || w->sb.sliderSize != sliderSize || w->sb.increment != increment || w->sb.pageIncrement != pageIncrement)) { int last_value = w->sb.value; w->sb.value = value; w->sb.sliderSize = sliderSize; w->sb.increment = increment; w->sb.pageIncrement = pageIncrement; verify_values (w); if (XtIsRealized (widget)) { seg_pixel_sizes (w, &w->sb.above, &w->sb.ss, &w->sb.below); draw_slider (w, w->sb.above, w->sb.ss, w->sb.below); if (w->sb.value != last_value && notify) call_callbacks (w, XmCR_VALUE_CHANGED, w->sb.value, 0, NULL); } } } /*-------------------------- Action Functions ---------------------------*/ static void timer (XtPointer data, XtIntervalId *id) { XlwScrollBarWidget w = (XlwScrollBarWidget) data; w->sb.timerActive = False; if (w->sb.armed != ARM_NONE) { int last_value = w->sb.value; int reason; switch (w->sb.armed) { case ARM_PAGEUP: decrement_value (w, w->sb.pageIncrement); reason = XmCR_PAGE_DECREMENT; break; case ARM_PAGEDOWN: increment_value (w, w->sb.pageIncrement); reason = XmCR_PAGE_INCREMENT; break; case ARM_UP: decrement_value (w, w->sb.increment); reason = XmCR_DECREMENT; break; case ARM_DOWN: increment_value (w, w->sb.increment); reason = XmCR_INCREMENT; break; default: reason = XmCR_NONE; } verify_values (w); if (last_value != w->sb.value) { seg_pixel_sizes (w, &w->sb.above, &w->sb.ss, &w->sb.below); draw_slider (w, w->sb.above, w->sb.ss, w->sb.below); call_callbacks (w, reason, w->sb.value, 0, NULL); w->sb.timerId = XtAppAddTimeOut (XtWidgetToApplicationContext ((Widget) w), (unsigned long) w->sb.repeatDelay, timer, (XtPointer) w); w->sb.timerActive = True; } } } static button_where what_button (XlwScrollBarWidget w, int mouse_x, int mouse_y) { int width = widget_w (w); int height = widget_h (w); int arrow_height = arrow_h (w); mouse_x -= widget_x (w); mouse_y -= widget_y (w); if (mouse_x < 0 || mouse_x >= width || mouse_y < 0 || mouse_y >= height) return BUTTON_NONE; if (w->sb.showArrows) { if (mouse_y >= (height -= arrow_height)) return BUTTON_DOWN_ARROW; if (arrow_same_end (w)) { if (mouse_y >= (height -= arrow_height)) return BUTTON_UP_ARROW; } else if ( (mouse_y -= arrow_height) < 0) return BUTTON_UP_ARROW; } if ( (mouse_y -= w->sb.above) < 0) return BUTTON_TROUGH_ABOVE; if ( (mouse_y -= w->sb.ss) < 0) return BUTTON_SLIDER; return BUTTON_TROUGH_BELOW; } static void Select (Widget widget, XEvent *event, String *parms, Cardinal *num_parms) { XlwScrollBarWidget w = (XlwScrollBarWidget) widget; button_where sb_button; int mouse_x = event_x (w, event); int mouse_y = event_y (w, event); int last_value = w->sb.savedValue = w->sb.value; int reason = XmCR_NONE; XtGrabKeyboard ((Widget) w, False, GrabModeAsync, GrabModeAsync, event->xbutton.time); sb_button = what_button (w, mouse_x, mouse_y); if (w->sb.forced_scroll != FORCED_SCROLL_NONE) { switch (sb_button) { case BUTTON_TROUGH_ABOVE: case BUTTON_TROUGH_BELOW: case BUTTON_SLIDER: sb_button= BUTTON_NONE; /* cause next switch to fall through */ if (w->sb.forced_scroll == FORCED_SCROLL_UPLEFT) { decrement_value (w, w->sb.pageIncrement); w->sb.armed = ARM_PAGEUP; reason = XmCR_PAGE_DECREMENT; break; } else if (w->sb.forced_scroll == FORCED_SCROLL_DOWNRIGHT) { increment_value (w, w->sb.pageIncrement); w->sb.armed = ARM_PAGEDOWN; reason = XmCR_PAGE_INCREMENT; break; } abort(); default: ; /* Do nothing */ } } switch (sb_button) { case BUTTON_TROUGH_ABOVE: decrement_value (w, w->sb.pageIncrement); w->sb.armed = ARM_PAGEUP; reason = XmCR_PAGE_DECREMENT; break; case BUTTON_TROUGH_BELOW: increment_value (w, w->sb.pageIncrement); w->sb.armed = ARM_PAGEDOWN; reason = XmCR_PAGE_INCREMENT; break; case BUTTON_SLIDER: w->sb.lastY = mouse_y; w->sb.armed = ARM_SLIDER; draw_slider (w, w->sb.above, w->sb.ss, w->sb.below); break; case BUTTON_UP_ARROW: if (event->xbutton.state & ControlMask) { w->sb.value = w->sb.minimum; reason = XmCR_TO_TOP; } else { decrement_value (w, w->sb.increment); reason = XmCR_DECREMENT; } w->sb.armed = ARM_UP; redraw_up_arrow (w, True, False); break; case BUTTON_DOWN_ARROW: if (event->xbutton.state & ControlMask) { w->sb.value = w->sb.maximum; reason = XmCR_TO_BOTTOM; } else { increment_value (w, w->sb.increment); reason = XmCR_INCREMENT; } w->sb.armed = ARM_DOWN; redraw_down_arrow (w, True, False); break; case BUTTON_NONE: ; /* Do nothing */ } verify_values (w); if (last_value != w->sb.value) { seg_pixel_sizes (w, &w->sb.above, &w->sb.ss, &w->sb.below); draw_slider (w, w->sb.above, w->sb.ss, w->sb.below); call_callbacks (w, reason, w->sb.value, mouse_y, event); if (w->sb.timerActive) XtRemoveTimeOut (w->sb.timerId); w->sb.timerId = XtAppAddTimeOut (XtWidgetToApplicationContext ((Widget) w), (unsigned long) w->sb.initialDelay, timer, (XtPointer) w); w->sb.timerActive = True; } CHECK (w); } static void PageDownOrRight (Widget widget, XEvent *event, String *parms, Cardinal *num_parms) { XlwScrollBarWidget w = (XlwScrollBarWidget) widget; w->sb.forced_scroll = FORCED_SCROLL_DOWNRIGHT; Select (widget, event, parms, num_parms); w->sb.forced_scroll = FORCED_SCROLL_NONE; } static void PageUpOrLeft (Widget widget, XEvent *event, String *parms, Cardinal *num_parms) { XlwScrollBarWidget w = (XlwScrollBarWidget) widget; w->sb.forced_scroll = FORCED_SCROLL_UPLEFT; Select (widget, event, parms, num_parms); w->sb.forced_scroll = FORCED_SCROLL_NONE; } static void Drag (Widget widget, XEvent *event, String *parms, Cardinal *num_parms) { XlwScrollBarWidget w = (XlwScrollBarWidget) widget; if (w->sb.armed == ARM_SLIDER) { int mouse_y = event_y (w, event); int diff = mouse_y - w->sb.lastY; if (diff < -(w->sb.above)) /* up */ { mouse_y -= (diff + w->sb.above); diff = -(w->sb.above); } else if (diff > w->sb.below) /* down */ { mouse_y -= (diff - w->sb.below); diff = w->sb.below; } if (diff) { w->sb.above += diff; w->sb.below -= diff; draw_slider (w, w->sb.above, w->sb.ss, w->sb.below); w->sb.lastY = mouse_y; w->sb.value = value_from_pixel (w, w->sb.above); verify_values (w); CHECK (w); call_callbacks (w, XmCR_DRAG, w->sb.value, event_y (w, event), event); } } CHECK (w); } static void Release (Widget widget, XEvent *event, String *parms, Cardinal *num_parms) { XlwScrollBarWidget w = (XlwScrollBarWidget) widget; switch (w->sb.armed) { case ARM_SLIDER: call_callbacks (w, XmCR_VALUE_CHANGED, w->sb.value, event_y (w, event), event); w->sb.armed = ARM_NONE; draw_slider (w, w->sb.above, w->sb.ss, w->sb.below); break; case ARM_UP: redraw_up_arrow (w, False, False); break; case ARM_DOWN: redraw_down_arrow (w, False, False); break; default: ; /* Do nothing */ } XtUngrabKeyboard ((Widget) w, event->xbutton.time); w->sb.armed = ARM_NONE; } static void Jump (Widget widget, XEvent *event, String *parms, Cardinal *num_parms) { XlwScrollBarWidget w = (XlwScrollBarWidget) widget; int last_value; int mouse_x = event_x (w, event); int mouse_y = event_y (w, event); int scroll_region_y = widget_y (w); int scroll_region_h = widget_h (w); if (w->sb.showArrows) { int arrow_height = arrow_h (w); scroll_region_h -= 2 * arrow_height; if (!arrow_same_end (w)) scroll_region_y += arrow_height; } XtGrabKeyboard ((Widget) w, False, GrabModeAsync, GrabModeAsync, event->xbutton.time); switch (what_button (w, mouse_x, mouse_y)) { case BUTTON_TROUGH_ABOVE: case BUTTON_TROUGH_BELOW: case BUTTON_SLIDER: w->sb.savedValue = w->sb.value; last_value = w->sb.value; w->sb.above = mouse_y - (w->sb.ss / 2) - scroll_region_y; if (w->sb.above < 0) w->sb.above = 0; else if (w->sb.above + w->sb.ss > scroll_region_h) w->sb.above = scroll_region_h - w->sb.ss; w->sb.below = scroll_region_h - w->sb.ss - w->sb.above; w->sb.armed = ARM_SLIDER; draw_slider (w, w->sb.above, w->sb.ss, w->sb.below); w->sb.value = value_from_pixel (w, w->sb.above); verify_values (w); CHECK (w); w->sb.lastY = mouse_y; if (w->sb.value != last_value) call_callbacks (w, XmCR_DRAG, w->sb.value, mouse_y, event); break; default: ; /* Do nothing */ } CHECK (w); } static void Abort (Widget widget, XEvent *event, String *parms, Cardinal *num_parms) { XlwScrollBarWidget w = (XlwScrollBarWidget) widget; if (w->sb.armed != ARM_NONE) { if (w->sb.value != w->sb.savedValue) { w->sb.value = w->sb.savedValue; seg_pixel_sizes (w, &w->sb.above, &w->sb.ss, &w->sb.below); draw_slider (w, w->sb.above, w->sb.ss, w->sb.below); call_callbacks (w, XmCR_VALUE_CHANGED, w->sb.value, event_y (w, event), event); } switch (w->sb.armed) { case ARM_UP: redraw_up_arrow (w, False, False); break; case ARM_DOWN: redraw_down_arrow (w, False, False); break; default: ; /* Do nothing */ } w->sb.armed = ARM_NONE; XtUngrabKeyboard ((Widget) w, event->xbutton.time); } }