Mercurial > hg > xemacs-beta
view lwlib/xlwgcs.c @ 1318:b531bf8658e9
[xemacs-hg @ 2003-02-21 06:56:46 by ben]
redisplay fixes et al.
PROBLEMS: Add comment about Cygwin, unexec and sysmalloc.
Move some non-general stuff out of general.
Make a section for x86.
configure.in: Add check for broken alloca in funcalls.
mule/mule-cmds.el: Alias file-name to native not vice-versa.
Do set EOL of native but not of process output to fix various
problems and be consistent with code-init.el.
code-cmds.el: Return a name not a coding system.
code-init.el: Reindent. Remove `file-name' since it should always be the same
as native.
unicode.el: Rename to load-unicode-mapping-table as suggested by the anonymous
(but rather Turnbullian) comment in unicode.c.
xemacs.dsp: Add /k to default build.
alloc.c: Make gc_currently_forbidden static.
config.h.in, lisp.h: Move some stuff to lisp.h.
console-gtk.h, console-impl.h, console-msw.h, console-x.h, event-Xt.c, event-msw.c, redisplay-gtk.c, redisplay-msw.c, redisplay-output.c, redisplay-x.c, gtk-xemacs.c: Remove duplicated code to redraw exposed area. Add deadbox
method needed by the generalized redraw code. Defer redrawing
if already in redisplay.
frame-msw.c, event-stream.c, frame.c: Add comments about calling Lisp.
debug.c, general-slots.h: Move generalish symbols to general-slots.h.
doprnt.c: reindent.
lisp.h, dynarr.c: Add debug code for locking a dynarr to catch invalid mods.
Use in redisplay.c.
eval.c:
file-coding.c: Define file-name as alias for native not vice-versa.
frame-gtk.c, frame-x.c: Move Qwindow_id to general-slots.
dialog-msw.c, glyphs-gtk.c, glyphs-msw.c, glyphs-widget.c, glyphs-x.c, gui.c, gui.h, menubar-msw.c, menubar.c: Ensure that various glyph functions that eval within redisplay
protect the evals. Same for calls to internal_equal().
Modify various functions, e.g. gui_item_*(), to protect evals
within redisplay, taking an in_redisplay parameter if it's
possible for them to be called both inside and outside of
redisplay.
gutter.c: Defer specifier-changed updating till after redisplay, if
necessary, since we need to enter redisplay to do it.
gutter.c: Do nothing if in redisplay.
lisp.h: Add version of alloca() for use in function calls.
lisp.h: Add XCAD[D+]R up to 6 D's, and aliases X1ST, X2ND, etc.
frame.c, frame.h, redisplay.c, redisplay.h, signal.c, toolbar.c: Redo critical-section code and move from frame.c to redisplay.c.
Require that every place inside of redisplay catch errors itself,
not at the edge of the critical section (thereby bypassing the
rest of redisplay and leaving things in an inconsistent state).
Introduce separate means of holding frame-size changes without
entering a complete critical section. Introduce "post-redisplay"
methods for deferring things till after redisplay. Abort if
we enter redisplay reentrantly. Disable all quit checking in
redisplay since it's too dangerous. Ensure that all calls to
QUIT trigger an abort if unprotected.
redisplay.c, scrollbar-gtk.c, scrollbar-x.c, scrollbar.c: Create enter/exit_redisplay_critical_section_maybe() for code
that needs to ensure it's in a critical section but doesn't
interfere with an existing critical section.
sysdep.c: Use _wexecve() when under Windows NT for Unicode correctness.
text.c, text.h: Add new_dfc() functions, which return an alloca()ed value rather
than requiring an lvalue. (Not really used yet; used in another
workspace, to come.) Add some macros for SIZED_EXTERNAL.
Update the encoding aliases after involved scrutinization of the
X manual.
unicode.c: Answer the anonymous but suspiciously Turnbullian questions.
Rename parse-unicode-translation-table to
load-unicode-mapping-table, as suggested.
| author | ben |
|---|---|
| date | Fri, 21 Feb 2003 06:57:21 +0000 |
| parents | c33ae14dd6d0 |
| children | 04bc9d2f42c7 |
line wrap: on
line source
/* Tabs 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: Gcs.c 1.7 */ /* #### This code is duplicated many times within lwlib and XEmacs. It should be modularised. */ /* * Gcs.c - Utility functions to allocate GCs. * * Author: Edward A. Falk * falk@falconer.vip.best.com * * Date: Sept 29, 1998 */ /* Functions: * * GC AllocFgGC(w, fg, font) * Return a GC with foreground set as specified. * If font is None, then the returned GC is allocated with font specified * as a "don't care" value. * * GC * AllocBackgroundGC(w, font) * Return a GC with the foreground set to the widget's background color. * * GC * AllocGreyGC(w, fg, font, contrast, be_nice_to_cmap) * Widget w ; * Pixel fg ; * Font font ; * int contrast ; * int be_nice_to_cmap ; * * Return a GC suitable for rendering a widget in its "inactive" color. * Normally returns a GC with a color somewhere between the widget's * background color and the specified foreground. If font is None, then * the returned GC is allocated with font specified as "don't care". * If be_nice_to_cmap is True, the returned GC is created using a 50% * dither instead of a new color. * * * GC * AllocShadeGC(w, fg, bg, font, contrast, be_nice_to_cmap) * Widget w ; * Pixel fg, bg ; * Font font ; * int contrast ; * int be_nice_to_cmap ; * * Return a GC suitable for rendering in a shade somewhere between * bg and fg, as determined by contrast (0 = bg, 100 = fg) * If font is None, then the returned GC is allocated with * font specified as "don't care". If be_nice_to_cmap * is True, the returned GC is created using a 50% dither * instead of a new color. * * * GC * AllocTopShadowGC(w, contrast, be_nice_to_cmap) * Return a GC suitable for rendering the "top shadow" decorations of * a widget. Returns a GC with foreground computed from widget's * background color and contrast. If be_nice_to_cmap is True, the * returned GC will use a foreground color of white. If widget depth * is 1, this function will use a foreground color of black. * * GC * AllocBotShadowGC(w, contrast, be_nice_to_cmap) * Return a GC suitable for rendering the "bottom shadow" decorations * of a widget. Returns a GC with foreground computed from widget's * background color and contrast. If be_nice_to_cmap is True, the * returned GC will use a foreground color of black. * * GC * AllocArmGC(w, contrast, be_nice_to_cmap) * Return a GC suitable for rendering the "armed" decorations of a * widget. This GC would typically be used to fill in the widget's * background. Returns a GC with foreground computed from widget's * background color and contrast. If be_nice_to_cmap is True, the * returned GC will use a foreground color of black and a 50% dither. * * * void * Draw3dBox(w, x,y,wid,hgt,s, topgc, botgc) * Utility function. Draws a raised shadow box with outside dimensions * as specified by x,y,wid,hgt and shadow width specified by s. * A lowered shadow box may be generated by swapping topgc and botgc. * */ #include <config.h> #include <stdio.h> #include <X11/Xlib.h> #include <X11/IntrinsicP.h> #include <X11/StringDefs.h> #include "../src/xmu.h" #include "xlwgcs.h" /* Color & GC allocation. * * Frame widgets use the following graphics contexts: * * Foreground tab label text drawn this way * Insensitive Fg foreground color greyed out. * Background frame background color * Top shadow upper-left highlight around widget * Bottom shadow lower-right highlight around widget * Arm shadow button pressed and ready to be released * * * GC's are defined as follows, depending on attributes and * window depth: * * Monochrome: * Foreground = foreground color attribute or BlackPixel() * Grey = Foreground color + 50% dither * Background = background color attribute or WhitePixel() * top shadow = foreground * bottom shadow = foreground * arm shadow = (what?) * * Color, beNiceToColormap=true: * Foreground = foreground color attribute or BlackPixel() * Grey = Foreground color + 50% dither * Background = background color attribute or WhitePixel() * top shadow = white * bottom shadow = black * arm shadow = (what?) * * Color, beNiceToColormap=false: * Foreground = foreground color attribute or BlackPixel() * Grey = (foreground color + background color)/2 * Background = background color attribute or WhitePixel() * top shadow = background * 1.2 * bottom shadow = background * .6 * arm shadow = background * .8 * * Special cases: * If background is white, ?? * if background is black, ?? * * * If the widget's background is solid white or solid black, * this code just picks some numbers. (The choice is designed * to be compatible with ThreeD interface.) */ #if XtSpecificationRelease < 5 static GC XtAllocateGC(Widget, int, unsigned long, XGCValues *, unsigned long, unsigned long) ; #endif #if NeedFunctionPrototypes static Pixmap getDitherPixmap(Widget, int contrast) ; #else static Pixmap getDitherPixmap() ; #endif /* return a GC with the specified foreground and optional font */ GC AllocFgGC(Widget w, Pixel fg, Font font) { XGCValues values ; unsigned long vmask, dcmask ; values.foreground = fg ; values.font = font ; if( font != None ) { vmask = GCForeground|GCFont ; dcmask = GCSubwindowMode|GCDashOffset| GCDashList|GCArcMode|GCBackground|GCGraphicsExposures ; } else { vmask = GCForeground ; dcmask = GCFont|GCSubwindowMode|GCDashOffset| GCDashList|GCArcMode|GCBackground|GCGraphicsExposures ; } return XtAllocateGC(w, w->core.depth, vmask, &values, 0L, dcmask) ; } /* return gc with widget background color as the foreground */ GC AllocBackgroundGC(Widget w, Font font) { return AllocFgGC(w, w->core.background_pixel, font) ; } /* Allocate an "inactive" GC. Color is grey (possibly via * dither pattern). */ GC AllocGreyGC(Widget w, Pixel fg, Font font, int contrast, Bool be_nice_to_cmap) { return AllocShadeGC(w, fg, w->core.background_pixel, font, contrast, be_nice_to_cmap) ; } /* Allocate a GC somewhere between two colors. */ GC AllocShadeGC(Widget w, Pixel fg, Pixel bg, Font font, int contrast, Bool be_nice_to_cmap) { XGCValues values ; unsigned long vmask, dcmask ; values.foreground = fg ; values.background = bg ; values.font = font ; if( font != None ) { vmask = GCForeground|GCFont ; dcmask = GCSubwindowMode|GCDashOffset| GCDashList|GCArcMode|GCGraphicsExposures ; } else { vmask = GCForeground; dcmask = GCFont|GCSubwindowMode|GCDashOffset| GCDashList|GCArcMode|GCGraphicsExposures ; } #ifdef HAVE_XMU if( be_nice_to_cmap || w->core.depth == 1) { if( contrast <= 5 ) values.foreground = bg ; else if( contrast >= 95 ) values.foreground = fg ; else { vmask |= GCBackground|GCStipple|GCFillStyle ; values.fill_style = FillOpaqueStippled ; values.stipple = getDitherPixmap(w, contrast) ; } return XtAllocateGC(w, w->core.depth, vmask, &values, 0L, dcmask) ; } else #endif { dcmask |= GCBackground ; values.foreground = AllocGreyPixel(w, fg, bg, contrast) ; return XtAllocateGC(w, w->core.depth, vmask, &values, 0L, dcmask) ; } } /* return top-shadow gc. */ GC AllocTopShadowGC(Widget w, int contrast, Bool be_nice_to_cmap) { Screen *scr = XtScreen (w); XGCValues values ; if( w->core.depth == 1 ) values.foreground = BlackPixelOfScreen(scr) ; else if( be_nice_to_cmap ) values.foreground = WhitePixelOfScreen(scr) ; else values.foreground = AllocShadowPixel(w, 100+contrast) ; return XtAllocateGC(w, w->core.depth, GCForeground, &values, 0L, GCBackground|GCFont|GCSubwindowMode|GCGraphicsExposures| GCDashOffset|GCDashList|GCArcMode) ; } /* return bottom-shadow gc. */ GC AllocBotShadowGC(Widget w, int contrast, Bool be_nice_to_cmap) { Screen *scr = XtScreen (w); XGCValues values ; if( w->core.depth == 1 || be_nice_to_cmap ) values.foreground = BlackPixelOfScreen(scr) ; else values.foreground = AllocShadowPixel(w, 100-contrast) ; return XtAllocateGC(w, w->core.depth, GCForeground, &values, 0L, GCBackground|GCFont|GCSubwindowMode|GCGraphicsExposures| GCDashOffset|GCDashList|GCArcMode) ; } /* return arm-shadow gc. */ GC AllocArmGC(Widget w, int contrast, Bool be_nice_to_cmap) { Screen *scr = XtScreen (w); XGCValues values ; /* Not clear exactly what we should do here. Take a look at * Xaw3d to see what they do. */ #ifdef HAVE_XMU if( w->core.depth == 1 || be_nice_to_cmap ) { values.background = w->core.background_pixel ; if( values.background == BlackPixelOfScreen(scr) ) values.foreground = WhitePixelOfScreen(scr) ; else values.foreground = BlackPixelOfScreen(scr) ; values.fill_style = FillStippled ; values.stipple = XmuCreateStippledPixmap(XtScreen(w), 1L, 0L, 1) ; return XtAllocateGC(w, w->core.depth, GCForeground|GCBackground|GCStipple|GCFillStyle, &values, 0L, GCFont|GCSubwindowMode|GCGraphicsExposures| GCDashOffset|GCDashList|GCArcMode) ; } else #endif { values.foreground = AllocShadowPixel(w, 100-contrast) ; return XtAllocateGC(w, w->core.depth, GCForeground, &values, 0L, GCBackground|GCFont|GCSubwindowMode|GCGraphicsExposures| GCDashOffset|GCDashList|GCArcMode) ; } } Pixel AllocShadowPixel(Widget w, int scale) { XColor get_c, set_c ; Display *dpy = XtDisplay(w) ; Screen *scr = XtScreen(w) ; Colormap cmap ; Pixel maxColor ; cmap = w->core.colormap ; get_c.pixel = w->core.background_pixel ; if( get_c.pixel == WhitePixelOfScreen(scr) || get_c.pixel == BlackPixelOfScreen(scr) ) { /* what we *ought* to do is choose gray75 as the base color, * or perhaps gray83. Instead, we choose colors that are * the same as ThreeD would choose. */ if( scale > 100 ) scale = 200 - scale ; set_c.red = set_c.green = set_c.blue = 65535*scale/100 ; } else { XQueryColor(dpy, cmap, &get_c) ; /* adjust scale so that brightest component does not * exceed 65535; otherwise hue would change. */ if( scale > 100 ) { maxColor = Max(get_c.red, Max(get_c.green, get_c.blue)) ; if( scale*maxColor > 65535*100 ) scale = 65535*100/maxColor ; } set_c.red = scale * get_c.red / 100 ; set_c.green = scale * get_c.green / 100 ; set_c.blue = scale * get_c.blue / 100 ; } set_c.flags = DoRed | DoGreen | DoBlue ; if( XAllocColor(dpy, cmap, &set_c) ) return set_c.pixel ; else if( scale > 100 ) return WhitePixelOfScreen(scr) ; else return BlackPixelOfScreen(scr) ; } /* Allocate a pixel partway between foreground and background */ Pixel AllocGreyPixel(Widget w, Pixel fg, Pixel bg, int scale) { XColor get_cf, get_cb ; Display *dpy = XtDisplay(w) ; Colormap cmap ; cmap = w->core.colormap ; get_cf.pixel = fg ; get_cb.pixel = bg ; XQueryColor(dpy, cmap, &get_cf) ; XQueryColor(dpy, cmap, &get_cb) ; return AllocGreyPixelC(w, &get_cf, &get_cb, scale) ; } /* Allocate a pixel partway between foreground and background */ Pixel AllocGreyPixelC(Widget w, XColor *fg, XColor *bg, int scale) { XColor set_c ; Display *dpy = XtDisplay(w) ; int r,g,b ; Colormap cmap = w->core.colormap ; r = (fg->red * scale + bg->red * (100-scale)) / 100 ; g = (fg->green * scale + bg->green * (100-scale)) / 100 ; b = (fg->blue * scale + bg->blue * (100-scale)) / 100 ; if( scale > 100 || scale < 0 ) /* look out for overflow */ { int minc, maxc ; maxc = Max(r, Max(g,b)) ; minc = Min(r, Min(g,b)) ; if( maxc > 65535 ) { maxc /= 16 ; r = r*(65535/16) / maxc ; g = g*(65535/16) / maxc ; b = b*(65535/16) / maxc ; } if( minc < 0 ) { r = Max(r,0) ; g = Max(g,0) ; b = Max(b,0) ; } } set_c.red = r ; set_c.green = g ; set_c.blue = b ; set_c.flags = DoRed | DoGreen | DoBlue ; (void)XAllocColor(dpy, cmap, &set_c) ; return set_c.pixel ; } /* draw a 3-d box */ void Draw3dBox(Widget w, int x, int y, int wid, int hgt, int s, GC topgc, GC botgc) { Display *dpy = XtDisplay(w) ; Window win = XtWindow(w) ; if( s == 0 ) return ; if( s == 1 ) { XDrawLine(dpy,win,botgc, x,y+hgt-1, x+wid-1,y+hgt-1) ; XDrawLine(dpy,win,botgc, x+wid-1,y, x+wid-1,y+hgt-1) ; XDrawLine(dpy,win,topgc, x,y, x,y+hgt-1) ; XDrawLine(dpy,win,topgc, x,y, x+wid-1,y) ; } else { XPoint pts[6] ; /* bottom-right shadow */ pts[0].x = x ; pts[0].y = y + hgt ; pts[1].x = s ; pts[1].y = -s ; pts[2].x = wid-2*s ; pts[2].y = 0 ; pts[3].x = 0 ; pts[3].y = -(hgt-2*s) ; pts[4].x = s ; pts[4].y = -s ; pts[5].x = 0 ; pts[5].y = hgt ; XFillPolygon(dpy,win,botgc, pts,6, Nonconvex,CoordModePrevious) ; /* top-left shadow */ pts[0].x = x ; pts[0].y = y ; pts[1].x = wid ; pts[1].y = 0 ; pts[2].x = -s ; pts[2].y = s ; pts[3].x = -wid+2*s ; pts[3].y = 0 ; pts[4].x = 0 ; pts[4].y = hgt-2*s ; pts[5].x = -s ; pts[5].y = s ; XFillPolygon(dpy,win,topgc, pts,6, Nonconvex,CoordModePrevious) ; } } #if XtSpecificationRelease < 5 static GC XtAllocateGC(Widget w, int depth, unsigned long mask, XGCValues *values, unsigned long dynamic, unsigned long dontcare) { return XtGetGC(w, mask, values) ; } #endif static unsigned char screen0[2] = {0,0} ; static unsigned char screen25[2] = {0,0xaa} ; static unsigned char screen75[2] = {0xaa,0xff} ; static unsigned char screen100[2] = {0xff,0xff} ; static Pixmap getDitherPixmap(Widget w, int contrast) { Display *dpy = XtDisplay(w) ; Window win = XtWindow(w) ; if( contrast <= 5 ) return XCreateBitmapFromData(dpy,win, (char *)screen0, 2,2) ; else if( contrast <= 37 ) return XCreateBitmapFromData(dpy,win, (char *)screen25, 2,2) ; else if( contrast <= 62 ) return XmuCreateStippledPixmap(XtScreen(w), 1L, 0L, 1) ; else if( contrast <= 95 ) return XCreateBitmapFromData(dpy,win, (char *)screen75, 2,2) ; else return XCreateBitmapFromData(dpy,win, (char *)screen100, 2,2) ; }