/* $Xorg: Clock.c,v 1.4 2001/02/09 02:05:39 xorgcvs Exp $ */ /* $XdotOrg: xc/programs/xclock/Clock.c,v 1.3 2004/10/30 20:33:44 alanc Exp $ */ /*********************************************************** Copyright 1987, 1988, 1998 The Open Group Permission to use, copy, modify, distribute, and sell this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. Copyright 1987, 1988 by Digital Equipment Corporation, Maynard, Massachusetts. All Rights Reserved Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation, and that the name of Digital not be used in advertising or publicity pertaining to distribution of the software without specific, written prior permission. DIGITAL DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL DIGITAL BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ******************************************************************/ /* * Copyright (c) 2004, Oracle and/or its affiliates. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice (including the next * paragraph) shall be included in all copies or substantial portions of the * Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER * DEALINGS IN THE SOFTWARE. */ /* * Authors: I18N - Steve Swales - March 2000 * bgpixmap - Alan Coopersmith (as part of STSF project) - Sept. 2001 */ /* $XFree86: xc/programs/xclock/Clock.c,v 3.25 2003/07/04 16:24:30 eich Exp $ */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #define _GNU_SOURCE #include #include #include #include "ClockP.h" #include #include #include #include #include #if !defined(NO_I18N) && defined(HAVE_ICONV) && defined(HAVE_NL_LANGINFO) #include #include #include #include #endif #if defined(XawVersion) && (XawVersion >= 7000002L) #define USE_XAW_PIXMAP_CVT #else #include #endif #include #define Time_t time_t #ifdef XKB #include #endif #ifndef NO_I18N #include /* for getenv() */ #include extern Boolean no_locale; /* if True, use old (unlocalized) behaviour */ #endif /* Private Definitions */ #define VERTICES_IN_HANDS 6 /* to draw triangle */ #define PI 3.14159265358979 #define TWOPI (2. * PI) #define MINOR_TICK_FRACT 95 #define SECOND_HAND_FRACT 90 #define MINUTE_HAND_FRACT 70 #define HOUR_HAND_FRACT 40 #define HAND_WIDTH_FRACT 7 #define SECOND_WIDTH_FRACT 5 #define SECOND_HAND_TIME 30 #define ANALOG_SIZE_DEFAULT 164 #define max(a, b) ((a) > (b) ? (a) : (b)) #define min(a, b) ((a) < (b) ? (a) : (b)) /* #define abs(a) ((a) < 0 ? -(a) : (a)) */ /* Initialization of defaults */ #define offset(field) XtOffsetOf(ClockRec, clock.field) #define goffset(field) XtOffsetOf(WidgetRec, core.field) static XtResource resources[] = { {XtNwidth, XtCWidth, XtRDimension, sizeof(Dimension), goffset(width), XtRImmediate, (XtPointer) 0}, {XtNheight, XtCHeight, XtRDimension, sizeof(Dimension), goffset(height), XtRImmediate, (XtPointer) 0}, {XtNupdate, XtCInterval, XtRFloat, sizeof(float), offset(update), XtRString, "60.0"}, #ifndef XRENDER {XtNforeground, XtCForeground, XtRPixel, sizeof(Pixel), offset(fgpixel), XtRString, XtDefaultForeground}, #endif {XtNhand, XtCForeground, XtRPixel, sizeof(Pixel), offset(Hdpixel), XtRString, XtDefaultForeground}, {XtNhighlight, XtCForeground, XtRPixel, sizeof(Pixel), offset(Hipixel), XtRString, XtDefaultForeground}, {XtNutime, XtCBoolean, XtRBoolean, sizeof(Boolean), offset(utime), XtRImmediate, (XtPointer) FALSE}, {XtNanalog, XtCBoolean, XtRBoolean, sizeof(Boolean), offset(analog), XtRImmediate, (XtPointer) TRUE}, {XtNtwentyfour, XtCBoolean, XtRBoolean, sizeof(Boolean), offset(twentyfour), XtRImmediate, (XtPointer) TRUE}, {XtNbrief, XtCBoolean, XtRBoolean, sizeof(Boolean), offset(brief), XtRImmediate, (XtPointer) FALSE}, {XtNstrftime, XtCString, XtRString, sizeof(String), offset(strftime), XtRString, ""}, {XtNchime, XtCBoolean, XtRBoolean, sizeof(Boolean), offset(chime), XtRImmediate, (XtPointer) FALSE}, {XtNpadding, XtCMargin, XtRInt, sizeof(int), offset(padding), XtRImmediate, (XtPointer) 8}, {XtNfont, XtCFont, XtRFontStruct, sizeof(XFontStruct *), offset(font), XtRString, XtDefaultFont}, #ifndef NO_I18N {XtNfontSet, XtCFontSet, XtRFontSet, sizeof(XFontSet), offset(fontSet), XtRString, XtDefaultFontSet}, #endif {XtNbackingStore, XtCBackingStore, XtRBackingStore, sizeof(int), offset(backing_store), XtRString, "default"}, #ifdef XRENDER {XtNrender, XtCBoolean, XtRBoolean, sizeof(Boolean), offset(render), XtRImmediate, (XtPointer) TRUE}, {XtNbuffer, XtCBoolean, XtRBoolean, sizeof(Boolean), offset(buffer), XtRImmediate, (XtPointer) TRUE}, {XtNsharp, XtCBoolean, XtRBoolean, sizeof(Boolean), offset(sharp), XtRImmediate, (XtPointer) FALSE}, {XtNforeground, XtCForeground, XtRXftColor, sizeof(XftColor), offset(fg_color), XtRString, XtDefaultForeground}, {XtNhourColor, XtCForeground, XtRXftColor, sizeof(XftColor), offset(hour_color), XtRString, XtDefaultForeground}, {XtNminuteColor, XtCForeground, XtRXftColor, sizeof(XftColor), offset(min_color), XtRString, XtDefaultForeground}, {XtNsecondColor, XtCForeground, XtRXftColor, sizeof(XftColor), offset(sec_color), XtRString, XtDefaultForeground}, {XtNmajorColor, XtCForeground, XtRXftColor, sizeof(XftColor), offset(major_color), XtRString, XtDefaultForeground}, {XtNminorColor, XtCForeground, XtRXftColor, sizeof(XftColor), offset(minor_color), XtRString, XtDefaultForeground}, {XtNface, XtCFace, XtRXftFont, sizeof(XftFont *), offset(face), XtRString, ""}, #endif }; #undef offset #undef goffset static void ClassInitialize(void); static void Initialize(Widget request, Widget new, ArgList args, Cardinal * num_args); static void Realize(Widget gw, XtValueMask * valueMask, XSetWindowAttributes * attrs); static void Destroy(Widget gw); static void Resize(Widget gw); static void Redisplay(Widget gw, XEvent * event, Region region); static void clock_tic(XtPointer client_data, XtIntervalId * id); static void erase_hands(ClockWidget w, struct tm *tm); static void ClockAngle(double tick_units, double *sinp, double *cosp); static void DrawLine(ClockWidget w, Dimension blank_length, Dimension length, int tick_units); static void DrawHand(ClockWidget w, Dimension length, Dimension width, int tick_units); static void DrawSecond(ClockWidget w, Dimension length, Dimension width, Dimension offset, int tick_units); static void SetSeg(ClockWidget w, int x1, int y1, int x2, int y2); static void DrawClockFace(ClockWidget w); static int clock_round(double x); static Boolean SetValues(Widget gcurrent, Widget grequest, Widget gnew, ArgList args, Cardinal * num_args); #if !defined(NO_I18N) && defined(HAVE_ICONV) && defined(HAVE_NL_LANGINFO) static char *clock_to_utf8(const char *str, int in_len); #endif ClockClassRec clockClassRec = { { /* core fields */ /* superclass */ (WidgetClass) & simpleClassRec, /* class_name */ "Clock", /* widget_size */ sizeof(ClockRec), /* class_initialize */ ClassInitialize, /* class_part_initialize */ NULL, /* class_inited */ FALSE, /* initialize */ Initialize, /* initialize_hook */ NULL, /* realize */ Realize, /* actions */ NULL, /* num_actions */ 0, /* resources */ resources, /* resource_count */ XtNumber(resources), /* xrm_class */ NULLQUARK, /* compress_motion */ TRUE, /* compress_exposure */ XtExposeCompressMaximal, /* 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 */ XtVersion, /* callback_private */ NULL, /* tm_table */ NULL, /* query_geometry */ XtInheritQueryGeometry, /* display_accelerator */ XtInheritDisplayAccelerator, /* extension */ NULL }, { /* simple fields */ /* change_sensitive */ XtInheritChangeSensitive, /* extension */ NULL }, { /* clock fields */ /* ignore */ 0 } }; WidgetClass clockWidgetClass = (WidgetClass) & clockClassRec; /**************************************************************** * * Private Procedures * ****************************************************************/ #ifndef USE_XAW_PIXMAP_CVT static void CvtStringToPixmap(XrmValue * args, Cardinal * num_args, XrmValuePtr fromVal, XrmValuePtr toVal) { static Pixmap pmap; Pixmap shapemask; char *name = (char *) fromVal->addr; Screen *screen; Display *dpy; if (*num_args != 1) XtErrorMsg("wrongParameters", "cvtStringToPixmap", "XtToolkitError", "String to pixmap conversion needs screen argument", (String *) NULL, (Cardinal *) NULL); if (strcmp(name, "None") == 0) { pmap = None; } else { screen = *((Screen **) args[0].addr); dpy = DisplayOfScreen(screen); XpmReadFileToPixmap(dpy, RootWindowOfScreen(screen), name, &pmap, &shapemask, NULL); } (*toVal).size = sizeof(Pixmap); (*toVal).addr = (XPointer) & pmap; } #endif #ifdef XRENDER static XtConvertArgRec xftColorConvertArgs[] = { {XtWidgetBaseOffset, (XtPointer) XtOffsetOf(WidgetRec, core.screen), sizeof(Screen *)}, {XtWidgetBaseOffset, (XtPointer) XtOffsetOf(WidgetRec, core.colormap), sizeof(Colormap)} }; #define donestr(type, value, tstr) \ { \ if (toVal->addr != NULL) { \ if (toVal->size < sizeof(type)) { \ toVal->size = sizeof(type); \ XtDisplayStringConversionWarning(dpy, \ (char*) fromVal->addr, tstr); \ return False; \ } \ *(type*)(toVal->addr) = (value); \ } \ else { \ static type static_val; \ static_val = (value); \ toVal->addr = (XPointer)&static_val; \ } \ toVal->size = sizeof(type); \ return True; \ } static void XmuFreeXftColor(XtAppContext app, XrmValuePtr toVal, XtPointer closure, XrmValuePtr args, Cardinal * num_args) { Screen *screen; Colormap colormap; XftColor *color; if (*num_args != 2) { XtAppErrorMsg(app, "freeXftColor", "wrongParameters", "XtToolkitError", "Freeing an XftColor requires screen and colormap arguments", (String *) NULL, (Cardinal *) NULL); return; } screen = *((Screen **) args[0].addr); colormap = *((Colormap *) args[1].addr); color = (XftColor *) toVal->addr; XftColorFree(DisplayOfScreen(screen), DefaultVisual(DisplayOfScreen(screen), XScreenNumberOfScreen(screen)), colormap, color); } static Boolean XmuCvtStringToXftColor(Display * dpy, XrmValue * args, Cardinal * num_args, XrmValue * fromVal, XrmValue * toVal, XtPointer * converter_data) { char *spec; XRenderColor renderColor; XftColor xftColor; Screen *screen; Colormap colormap; if (*num_args != 2) { XtAppErrorMsg(XtDisplayToApplicationContext(dpy), "cvtStringToXftColor", "wrongParameters", "XtToolkitError", "String to render color conversion needs screen and colormap arguments", (String *) NULL, (Cardinal *) NULL); return False; } screen = *((Screen **) args[0].addr); colormap = *((Colormap *) args[1].addr); spec = (char *) fromVal->addr; if (strcasecmp(spec, XtDefaultForeground) == 0) { renderColor.red = 0; renderColor.green = 0; renderColor.blue = 0; renderColor.alpha = 0xffff; } else if (strcasecmp(spec, XtDefaultBackground) == 0) { renderColor.red = 0xffff; renderColor.green = 0xffff; renderColor.blue = 0xffff; renderColor.alpha = 0xffff; } else if (!XRenderParseColor(dpy, spec, &renderColor)) return False; if (!XftColorAllocValue(dpy, DefaultVisual(dpy, XScreenNumberOfScreen(screen)), colormap, &renderColor, &xftColor)) return False; donestr(XftColor, xftColor, XtRXftColor); } static void XmuFreeXftFont(XtAppContext app, XrmValuePtr toVal, XtPointer closure, XrmValuePtr args, Cardinal * num_args) { Screen *screen; XftFont *font; if (*num_args != 1) { XtAppErrorMsg(app, "freeXftFont", "wrongParameters", "XtToolkitError", "Freeing an XftFont requires screen argument", (String *) NULL, (Cardinal *) NULL); return; } screen = *((Screen **) args[0].addr); font = *((XftFont **) toVal->addr); if (font) XftFontClose(DisplayOfScreen(screen), font); } static Boolean XmuCvtStringToXftFont(Display * dpy, XrmValue * args, Cardinal * num_args, XrmValue * fromVal, XrmValue * toVal, XtPointer * converter_data) { char *name; XftFont *font; Screen *screen; if (*num_args != 1) { XtAppErrorMsg(XtDisplayToApplicationContext(dpy), "cvtStringToXftFont", "wrongParameters", "XtToolkitError", "String to XftFont conversion needs screen argument", (String *) NULL, (Cardinal *) NULL); return False; } screen = *((Screen **) args[0].addr); name = (char *) fromVal->addr; font = XftFontOpenName(dpy, XScreenNumberOfScreen(screen), name); if (font) { donestr(XftFont *, font, XtRXftFont); } XtDisplayStringConversionWarning(dpy, (char *) fromVal->addr, XtRXftFont); return False; } static XtConvertArgRec xftFontConvertArgs[] = { {XtWidgetBaseOffset, (XtPointer) XtOffsetOf(WidgetRec, core.screen), sizeof(Screen *)}, }; #endif static void ClassInitialize(void) { #ifdef USE_XAW_PIXMAP_CVT XawInitializeWidgetSet(); #else static XtConvertArgRec scrnConvertArg[] = { {XtBaseOffset, (XtPointer) XtOffset(Widget, core.screen), sizeof(Screen *)} }; XtAddConverter(XtRString, XtRPixmap, CvtStringToPixmap, scrnConvertArg, XtNumber(scrnConvertArg)); #endif XtAddConverter(XtRString, XtRBackingStore, XmuCvtStringToBackingStore, NULL, 0); #ifdef XRENDER XtSetTypeConverter(XtRString, XtRXftColor, XmuCvtStringToXftColor, xftColorConvertArgs, XtNumber(xftColorConvertArgs), XtCacheByDisplay, XmuFreeXftColor); XtSetTypeConverter(XtRString, XtRXftFont, XmuCvtStringToXftFont, xftFontConvertArgs, XtNumber(xftFontConvertArgs), XtCacheByDisplay, XmuFreeXftFont); #endif } static char * TimeString(ClockWidget w, struct tm *tm) { if (w->clock.brief) { if (w->clock.twentyfour) { static char brief[6]; snprintf(brief, sizeof(brief), "%02d:%02d", tm->tm_hour, tm->tm_min); return brief; } else { static char brief[9]; int hour = tm->tm_hour % 12; if (!hour) hour = 12; snprintf(brief, sizeof(brief), "%02d:%02d %cM", hour, tm->tm_min, tm->tm_hour >= 12 ? 'P' : 'A'); return brief; } } else if (w->clock.utime) { static char utime[35]; Time_t tsec; tsec = time(NULL); snprintf(utime, sizeof(utime), "%10lu seconds since Epoch", (unsigned long) tsec); return utime; } else if (*w->clock.strftime) { /*Note: this code is probably excessively paranoid about buffer overflow. The extra size 10 padding is also meant as a further guard against programmer error, although it is a little controversial */ static char ctime[STRFTIME_BUFF_SIZE + 10]; ctime[0] = ctime[STRFTIME_BUFF_SIZE] = '\0'; if (0 < strftime(ctime, STRFTIME_BUFF_SIZE - 1, w->clock.strftime, tm)) { ctime[STRFTIME_BUFF_SIZE - 1] = '\0'; return ctime; } else { return asctime(tm); } } else if (w->clock.twentyfour) return asctime(tm); else { static char long12[28]; strftime(long12, sizeof long12, "%a %b %d %I:%M:%S %p %Y", tm); return long12; } } /* ARGSUSED */ static void Initialize(Widget request, Widget new, ArgList args, Cardinal * num_args) { ClockWidget w = (ClockWidget) new; XtGCMask valuemask; XGCValues myXGCV; int min_height, min_width; valuemask = GCForeground | GCBackground | GCFont | GCLineWidth; if (w->clock.font != NULL) myXGCV.font = w->clock.font->fid; else valuemask &= ~GCFont; /* use server default font */ min_width = min_height = ANALOG_SIZE_DEFAULT; if (!w->clock.analog) { char *str; struct tm tm; struct timeval tv; int len; #ifndef NO_I18N w->clock.utf8 = False; if (!no_locale) { char *time_locale = setlocale(LC_CTYPE, NULL); if (strstr(time_locale, "UTF-8") || strstr(time_locale, "utf8")) { w->clock.utf8 = True; } /* * initialize time format from CFTIME if set, otherwise * default to "%c". This emulates ascftime, but we use * strftime so we can limit the string buffer size to * avoid possible buffer overflow. */ if ((w->clock.strftime == NULL) || (w->clock.strftime[0] == 0)) { w->clock.strftime = getenv("CFTIME"); if (w->clock.strftime == NULL) { w->clock.strftime = "%c"; } } } #endif /* NO_I18N */ X_GETTIMEOFDAY(&tv); tm = *localtime(&tv.tv_sec); str = TimeString(w, &tm); len = strlen(str); if (len && str[len - 1] == '\n') str[--len] = '\0'; #ifdef XRENDER if (w->clock.render) { XGlyphInfo extents; #ifndef NO_I18N #if defined(HAVE_ICONV) && defined(HAVE_NL_LANGINFO) char *utf8_str; #endif if (w->clock.utf8) XftTextExtentsUtf8(XtDisplay(w), w->clock.face, (FcChar8 *) str, len, &extents); #if defined(HAVE_ICONV) && defined(HAVE_NL_LANGINFO) else if ((utf8_str = clock_to_utf8(str, len)) != NULL) { XftTextExtentsUtf8(XtDisplay(w), w->clock.face, (FcChar8 *) utf8_str, strlen(utf8_str), &extents); free(utf8_str); } #endif else #endif XftTextExtents8(XtDisplay(w), w->clock.face, (FcChar8 *) str, len, &extents); min_width = extents.xOff + 2 * w->clock.padding; min_height = w->clock.face->ascent + w->clock.face->descent + 2 * w->clock.padding; /*fprintf(stderr, "render min_width %i\n", min_width); */ } else #endif { /* not XRENDER block */ #ifndef NO_I18N if (!no_locale) { XFontSetExtents *fse; if (w->clock.fontSet == NULL) { char **missing, *default_str; int n_missing; w->clock.fontSet = XCreateFontSet(XtDisplay(w), XtDefaultFontSet, &missing, &n_missing, &default_str); } if (w->clock.fontSet != NULL) { /* don't free this... it's freed with the XFontSet. */ fse = XExtentsOfFontSet(w->clock.fontSet); min_width = XmbTextEscapement(w->clock.fontSet, str, len) + 2 * w->clock.padding; min_height = fse->max_logical_extent.height + 3 * w->clock.padding; /*fprintf(stderr, "fontset min_width %i\n", min_width); */ } else { no_locale = True; } } if (no_locale) #endif /* NO_I18N */ { if (w->clock.font == NULL) w->clock.font = XQueryFont(XtDisplay(w), XGContextFromGC(DefaultGCOfScreen (XtScreen(w)))); min_width = XTextWidth(w->clock.font, str, len) + 2 * w->clock.padding; min_height = w->clock.font->ascent + w->clock.font->descent + 2 * w->clock.padding; /*fprintf(stderr, "font min_width %i\n", min_width); */ } } /* not XRENDER block */ } if (w->core.width == 0) w->core.width = min_width; if (w->core.height == 0) w->core.height = min_height; myXGCV.foreground = ClockFgPixel(w); myXGCV.background = w->core.background_pixel; if (w->clock.font != NULL) myXGCV.font = w->clock.font->fid; else valuemask &= ~GCFont; /* use server default font */ myXGCV.line_width = 0; w->clock.myGC = XtGetGC((Widget) w, valuemask, &myXGCV); valuemask = GCForeground | GCLineWidth | GCGraphicsExposures; myXGCV.foreground = w->core.background_pixel; if (w->core.background_pixmap != XtUnspecifiedPixmap) { myXGCV.tile = w->core.background_pixmap; myXGCV.fill_style = FillTiled; valuemask |= (GCTile | GCFillStyle); } myXGCV.graphics_exposures = False; w->clock.EraseGC = XtGetGC((Widget) w, valuemask, &myXGCV); valuemask &= ~(GCTile | GCFillStyle); myXGCV.foreground = w->clock.Hipixel; w->clock.HighGC = XtGetGC((Widget) w, valuemask, &myXGCV); valuemask = GCForeground; myXGCV.foreground = w->clock.Hdpixel; w->clock.HandGC = XtGetGC((Widget) w, valuemask, &myXGCV); /* make invalid update's use a default */ /*if (w->clock.update <= 0) w->clock.update = 60; */ w->clock.show_second_hand = (abs((int) w->clock.update) <= SECOND_HAND_TIME); w->clock.numseg = 0; w->clock.interval_id = 0; memset(&w->clock.otm, '\0', sizeof(w->clock.otm)); #ifdef XRENDER { int major, minor; if (XRenderQueryVersion(XtDisplay(w), &major, &minor) && (major > 0 || (major == 0 && minor >= 4))) { w->clock.can_polygon = True; } else w->clock.can_polygon = False; } w->clock.pixmap = 0; w->clock.draw = NULL; w->clock.damage.x = 0; w->clock.damage.y = 0; w->clock.damage.height = 0; w->clock.damage.width = 0; #endif } #ifdef XRENDER static void RenderPrepare(ClockWidget w, XftColor * color) { if (!w->clock.draw) { Drawable d = XtWindow(w); if (w->clock.buffer) { if (!w->clock.pixmap) { Arg arg[1]; w->clock.pixmap = XCreatePixmap(XtDisplay(w), d, w->core.width, w->core.height, w->core.depth); arg[0].name = XtNbackgroundPixmap; arg[0].value = 0; XtSetValues((Widget) w, arg, 1); } d = w->clock.pixmap; } w->clock.draw = XftDrawCreate(XtDisplay(w), d, DefaultVisual(XtDisplay(w), DefaultScreen(XtDisplay (w))), w->core.colormap); w->clock.picture = XftDrawPicture(w->clock.draw); } if (color) w->clock.fill_picture = XftDrawSrcPicture(w->clock.draw, color); } static void RenderClip(ClockWidget w) { Region r; Drawable d; RenderPrepare(w, NULL); if (w->clock.buffer) d = w->clock.pixmap; else d = XtWindow(w); XFillRectangle(XtDisplay(w), d, w->clock.EraseGC, w->clock.damage.x, w->clock.damage.y, w->clock.damage.width, w->clock.damage.height); r = XCreateRegion(); XUnionRectWithRegion(&w->clock.damage, r, r); XftDrawSetClip(w->clock.draw, r); XDestroyRegion(r); } static void RenderTextBounds(ClockWidget w, char *str, int off, int len, XRectangle * bounds, int *xp, int *yp) { XGlyphInfo head, tail; int x, y; #ifndef NO_I18N #if defined(HAVE_ICONV) && defined(HAVE_NL_LANGINFO) char *utf8_str; #endif if (w->clock.utf8) { XftTextExtentsUtf8(XtDisplay(w), w->clock.face, (FcChar8 *) str, off, &head); XftTextExtentsUtf8(XtDisplay(w), w->clock.face, (FcChar8 *) str + off, len - off, &tail); } #if defined(HAVE_ICONV) && defined(HAVE_NL_LANGINFO) else if ((utf8_str = clock_to_utf8(str, off)) != NULL) { XftTextExtentsUtf8(XtDisplay(w), w->clock.face, (FcChar8 *) utf8_str, strlen(utf8_str), &head); free(utf8_str); if ((utf8_str = clock_to_utf8(str + off, len - off)) != NULL) { XftTextExtentsUtf8(XtDisplay(w), w->clock.face, (FcChar8 *) utf8_str, strlen(utf8_str), &tail); free(utf8_str); } else goto fallback; } #endif else #endif { fallback: XftTextExtents8(XtDisplay(w), w->clock.face, (FcChar8 *) str, off, &head); XftTextExtents8(XtDisplay(w), w->clock.face, (FcChar8 *) str + off, len - off, &tail); } /* * Compute position of tail */ x = w->clock.padding + head.xOff; y = w->clock.face->ascent + w->clock.padding + head.yOff; /* * Compute bounds of tail, pad a bit as the bounds aren't exact */ bounds->x = x - tail.x - 1; bounds->y = y - tail.y - 1; bounds->width = tail.width + 2; bounds->height = tail.height + 2; if (xp) *xp = x; if (yp) *yp = y; } static void RenderUpdateRectBounds(XRectangle * damage, XRectangle * bounds) { int x1 = bounds->x; int y1 = bounds->y; int x2 = bounds->x + bounds->width; int y2 = bounds->y + bounds->height; int d_x1 = damage->x; int d_y1 = damage->y; int d_x2 = damage->x + damage->width; int d_y2 = damage->y + damage->height; if (x1 == x2) { x1 = d_x1; x2 = d_x2; } else { if (d_x1 < x1) x1 = d_x1; if (d_x2 > x2) x2 = d_x2; } if (y1 == y2) { y1 = d_y1; y2 = d_y2; } else { if (d_y1 < y1) y1 = d_y1; if (d_y2 > y2) y2 = d_y2; } bounds->x = x1; bounds->y = y1; bounds->width = x2 - x1; bounds->height = y2 - y1; } static Boolean RenderRectIn(XRectangle * rect, XRectangle * bounds) { int x1 = bounds->x; int y1 = bounds->y; int x2 = bounds->x + bounds->width; int y2 = bounds->y + bounds->height; int r_x1 = rect->x; int r_y1 = rect->y; int r_x2 = rect->x + rect->width; int r_y2 = rect->y + rect->height; return r_x1 < x2 && x1 < r_x2 && r_y1 < y2 && y1 < r_y2; } #define LINE_WIDTH 0.01 #include #define XCoord(x,w) ((x) * (w)->clock.x_scale + (w)->clock.x_off) #define YCoord(y,w) ((y) * (w)->clock.y_scale + (w)->clock.y_off) static void RenderUpdateBounds(XPointDouble * points, int npoints, XRectangle * bounds) { int x1 = bounds->x; int y1 = bounds->y; int x2 = bounds->x + bounds->width; int y2 = bounds->y + bounds->height; while (npoints--) { int r_x1 = points[0].x; int r_y1 = points[0].y; int r_x2 = points[0].x + 1; int r_y2 = points[0].y + 1; if (x1 == x2) x2 = x1 = r_x1; if (y1 == y2) y2 = y1 = r_y1; if (r_x1 < x1) x1 = r_x1; if (r_y1 < y1) y1 = r_y1; if (r_x2 > x2) x2 = r_x2; if (r_y2 > y2) y2 = r_y2; points++; } bounds->x = x1; bounds->y = y1; bounds->width = x2 - x1; bounds->height = y2 - y1; } static Boolean RenderCheckBounds(XPointDouble * points, int npoints, XRectangle * bounds) { int x1 = bounds->x; int y1 = bounds->y; int x2 = bounds->x + bounds->width; int y2 = bounds->y + bounds->height; while (npoints--) { if (x1 <= points->x && points->x <= x2 && y1 <= points->y && points->y <= y2) return True; points++; } return False; } static void RenderUpdate(ClockWidget w) { if (w->clock.buffer && w->clock.pixmap) { XCopyArea(XtDisplay(w), w->clock.pixmap, XtWindow(w), w->clock.EraseGC, w->clock.damage.x, w->clock.damage.y, w->clock.damage.width, w->clock.damage.height, w->clock.damage.x, w->clock.damage.y); } } static void RenderResetBounds(XRectangle * bounds) { bounds->x = 0; bounds->y = 0; bounds->width = 0; bounds->height = 0; } static void RenderLine(ClockWidget w, XDouble x1, XDouble y1, XDouble x2, XDouble y2, XftColor * color, Boolean draw) { XPointDouble poly[4]; XDouble dx = (x2 - x1); XDouble dy = (y2 - y1); XDouble len = sqrt(dx * dx + dy * dy); XDouble ldx = (LINE_WIDTH / 2.0) * dy / len; XDouble ldy = (LINE_WIDTH / 2.0) * dx / len; poly[0].x = XCoord(x1 + ldx, w); poly[0].y = YCoord(y1 - ldy, w); poly[1].x = XCoord(x2 + ldx, w); poly[1].y = YCoord(y2 - ldy, w); poly[2].x = XCoord(x2 - ldx, w); poly[2].y = YCoord(y2 + ldy, w); poly[3].x = XCoord(x1 - ldx, w); poly[3].y = YCoord(y1 + ldy, w); RenderUpdateBounds(poly, 4, &w->clock.damage); if (draw) { if (RenderCheckBounds(poly, 4, &w->clock.damage)) { RenderPrepare(w, color); XRenderCompositeDoublePoly(XtDisplay(w), PictOpOver, w->clock.fill_picture, w->clock.picture, w->clock.mask_format, 0, 0, 0, 0, poly, 4, EvenOddRule); } } else RenderUpdateBounds(poly, 4, &w->clock.damage); } static void RenderRotate(ClockWidget w, XPointDouble * out, double x, double y, double s, double c) { out->x = XCoord(x * c - y * s, w); out->y = YCoord(y * c + x * s, w); } static void RenderHand(ClockWidget w, double tick_units, double size, XftColor * color, Boolean draw) { double c, s; XPointDouble poly[3]; double outer_x; double inner_y; ClockAngle(tick_units, &c, &s); s = -s; /* compute raw positions */ outer_x = size / 100.0; inner_y = HAND_WIDTH_FRACT / 100.0; /* rotate them into position */ RenderRotate(w, &poly[0], outer_x, 0.0, s, c); RenderRotate(w, &poly[1], -inner_y, inner_y, s, c); RenderRotate(w, &poly[2], -inner_y, -inner_y, s, c); if (draw) { if (RenderCheckBounds(poly, 3, &w->clock.damage)) { RenderPrepare(w, color); XRenderCompositeDoublePoly(XtDisplay(w), PictOpOver, w->clock.fill_picture, w->clock.picture, w->clock.mask_format, 0, 0, 0, 0, poly, 3, EvenOddRule); } } RenderUpdateBounds(poly, 3, &w->clock.damage); } static void RenderHands(ClockWidget w, struct tm *tm, struct timeval *tv, Boolean draw) { double sec = tm->tm_sec + tv->tv_usec / 1000000.0; RenderHand(w, tm->tm_hour * 300 + tm->tm_min * 5 + sec / 12.0, HOUR_HAND_FRACT, &w->clock.hour_color, draw); RenderHand(w, tm->tm_min * 60 + sec, MINUTE_HAND_FRACT, &w->clock.min_color, draw); } static void RenderSec(ClockWidget w, struct tm *tm, struct timeval *tv, Boolean draw) { double c, s; XPointDouble poly[10]; double inner_x, middle_x, outer_x, far_x; double middle_y; double line_y; double sec; sec = tm->tm_sec; if (w->clock.update < 1.0) sec += tv->tv_usec / 1000000.0; ClockAngle((int) (sec * 60.0), &c, &s); s = -s; /* * Compute raw positions */ line_y = LINE_WIDTH; inner_x = (MINUTE_HAND_FRACT / 100.0); middle_x = ((SECOND_HAND_FRACT + MINUTE_HAND_FRACT) / 200.0); outer_x = (SECOND_HAND_FRACT / 100.0); far_x = (MINOR_TICK_FRACT / 100.0); middle_y = (SECOND_WIDTH_FRACT / 100.0); /* * Rotate them into position */ RenderRotate(w, &poly[0], -line_y, line_y, s, c); RenderRotate(w, &poly[1], inner_x, line_y, s, c); RenderRotate(w, &poly[2], middle_x, middle_y, s, c); RenderRotate(w, &poly[3], outer_x, line_y, s, c); RenderRotate(w, &poly[4], far_x, line_y, s, c); RenderRotate(w, &poly[5], far_x, -line_y, s, c); RenderRotate(w, &poly[6], outer_x, -line_y, s, c); RenderRotate(w, &poly[7], middle_x, -middle_y, s, c); RenderRotate(w, &poly[8], inner_x, -line_y, s, c); RenderRotate(w, &poly[9], -line_y, -line_y, s, c); if (draw) { if (RenderCheckBounds(poly, 10, &w->clock.damage)) { RenderPrepare(w, &w->clock.sec_color); XRenderCompositeDoublePoly(XtDisplay(w), PictOpOver, w->clock.fill_picture, w->clock.picture, w->clock.mask_format, 0, 0, 0, 0, poly, 10, EvenOddRule); } } else { RenderUpdateBounds(poly, 10, &w->clock.damage); } } #endif static void Realize(Widget gw, XtValueMask * valueMask, XSetWindowAttributes * attrs) { ClockWidget w = (ClockWidget) gw; #ifdef notdef *valueMask |= CWBitGravity; attrs->bit_gravity = ForgetGravity; #endif switch (w->clock.backing_store) { case Always: case NotUseful: case WhenMapped: *valueMask |= CWBackingStore; attrs->backing_store = w->clock.backing_store; break; } (*clockWidgetClass->core_class.superclass->core_class.realize) (gw, valueMask, attrs); Resize(gw); } static void Destroy(Widget gw) { ClockWidget w = (ClockWidget) gw; if (w->clock.interval_id) XtRemoveTimeOut(w->clock.interval_id); #ifdef XRENDER if (w->clock.picture) XRenderFreePicture(XtDisplay(w), w->clock.picture); if (w->clock.fill_picture) XRenderFreePicture(XtDisplay(w), w->clock.fill_picture); #endif XtReleaseGC(gw, w->clock.myGC); XtReleaseGC(gw, w->clock.HighGC); XtReleaseGC(gw, w->clock.HandGC); XtReleaseGC(gw, w->clock.EraseGC); } static void Resize(Widget gw) { ClockWidget w = (ClockWidget) gw; /* don't do this computation if window hasn't been realized yet. */ if (XtIsRealized(gw) && w->clock.analog) { /* need signed value since Dimension is unsigned */ int radius = ((int) min(w->core.width, w->core.height) - (int) (2 * w->clock.padding)) / 2; w->clock.radius = (Dimension) max(radius, 1); w->clock.second_hand_length = (int) (SECOND_HAND_FRACT * w->clock.radius) / 100; w->clock.minute_hand_length = (int) (MINUTE_HAND_FRACT * w->clock.radius) / 100; w->clock.hour_hand_length = (int) (HOUR_HAND_FRACT * w->clock.radius) / 100; w->clock.hand_width = (int) (HAND_WIDTH_FRACT * w->clock.radius) / 100; w->clock.second_hand_width = (int) (SECOND_WIDTH_FRACT * w->clock.radius) / 100; w->clock.centerX = w->core.width / 2; w->clock.centerY = w->core.height / 2; } #ifdef XRENDER w->clock.x_scale = 0.45 * w->core.width; w->clock.y_scale = 0.45 * w->core.height; w->clock.x_off = 0.5 * w->core.width; w->clock.y_off = 0.5 * w->core.height; if (w->clock.pixmap) { XFreePixmap(XtDisplay(w), w->clock.pixmap); w->clock.pixmap = 0; if (w->clock.draw) { XftDrawDestroy(w->clock.draw); w->clock.draw = NULL; } w->clock.picture = 0; } #endif } /* ARGSUSED */ static void Redisplay(Widget gw, XEvent * event, Region region) { ClockWidget w = (ClockWidget) gw; if (w->clock.analog) { #ifdef XRENDER if (w->clock.render && w->clock.can_polygon) XClipBox(region, &w->clock.damage); else #endif { if (w->clock.numseg != 0) erase_hands(w, (struct tm *) 0); DrawClockFace(w); } } else { #ifdef XRENDER if (w->clock.render) XClipBox(region, &w->clock.damage); #endif w->clock.prev_time_string[0] = '\0'; } clock_tic((XtPointer) w, (XtIntervalId *) NULL); } #define USEC_MILLIS(us) ((unsigned long) (us) / 1000) #define SEC_MILLIS(s) ((unsigned long) (s) * 1000) #define MIN_MILLIS(m) SEC_MILLIS((unsigned long) (m) * 60) #define HOUR_MILLIS(h) MIN_MILLIS((unsigned long) (h) * 60) #define DAY_MILLIS HOUR_MILLIS((unsigned long) 24) #define MIN_SECS(m) ((unsigned long) (m) * 60) #define HOUR_SECS(h) MIN_SECS((unsigned long) (h) * 60) /* Seconds since midnight */ static unsigned long time_seconds(struct tm *tm) { return HOUR_SECS(tm->tm_hour) + MIN_SECS(tm->tm_min) + tm->tm_sec; } /* Milliseconds since midnight */ static unsigned long time_millis(struct tm *tm, struct timeval *tv) { return time_seconds(tm) * 1000 + USEC_MILLIS(tv->tv_usec); } /* Round milliseconds to number of intervals (measured in milliseconds) */ static unsigned long time_intervals(unsigned long millis, unsigned long interval) { return (millis + interval / 2) / interval; } /* * Round the current time to the nearest update interval using * milliseconds since midnight */ static void round_time(float _update, struct tm *tm, struct timeval *tv) { /* interval in milliseconds */ unsigned long update = (int) (_update * 1000.0 + 0.5); /* compute milliseconds since midnight */ unsigned long old_secs = time_seconds(tm); unsigned long old_millis = time_millis(tm, tv); /* Nearest number of intervals since midnight */ unsigned long intervals = time_intervals(old_millis, update); /* The number of milliseconds for that number of intervals */ unsigned long new_millis = intervals * update; time_t t; if (new_millis > DAY_MILLIS) new_millis = DAY_MILLIS; /* Compute the time_t of that interval by subtracting off the real * seconds and adding back in the desired second */ t = tv->tv_sec - old_secs + new_millis / 1000; *tm = *localtime(&t); tv->tv_usec = (new_millis % 1000) * 1000; } /* Choose the update times for well-defined clock states. * * For example, in HH:MM:SS notation the last number rolls over * every 60 seconds and has at most 60 display states. The sequence * depends on its initial value t0 and the update period u, e.g. * * u (s) d (s) ti (s) m (states) l (s) * 2 2 {0,2, .. 58} 30 60 * 7 1 {0,7, .. 56,3, .. 53} 60 420 * 15 15 {0,15,30,45} 4 60 * 45 15 {0,45,30,15} 4 180 * 53 1 {0,53,46, .. 4,57, .. 7} 60 3180 * 58 2 {0,58,56, .. 2} 30 1740 * 60 60 {0} 1 60 * * u= update period in seconds, * ti= time at update i from the reference, HH:MM:00 or HH:00:00, * n= the roll over time, the modulus, 60 s or 3600 s, * m= the sequence length, the order of u in the modulo n group Z/nZ, * l= the total sequence duration =m*u. * d= gcd(n,u) the greatest common divisor * * The time t(i) determines the clock state. It follows from * * t(i)=t(i-1)+u mod n <=> t(i)=t(0)+i*u mod n * * which defines a { t(0) .. t(m-1) } sequence of m unique elements. * Hence, u generates a subgroup U={k*u mod n : k in Z} of Z/nZ so * its order m divides n. This m satisfies * * t(m)=t(0) <=> m*u mod n = 0 <=> m*u = r*n <=> m=n/d, r=u/d * * where d divides n and u. Choosing * * d=gcd(n,u) <=> n/d and u/d are coprime => m=n/d is minimum * * thus gives the order. Furthermore, the greatest common divisor d is * also the minimum value generator of the set U. Assume a generator e * where * * e|{n,u} <=> Ai,Ej: i*u mod n = j*e <=> j=f(i)=(i*u mod n)/e * * such that f maps i to m=ord(u) unique values of j. Its properties are * * j=i*u/e mod n/e ==> 0<=j J={j=f(i)}, |J|=m * * ord(e)=n/gcd(n,e)=n/e * * from which follows * * e=d ==> f: I={0,..,m-1} -> J={0,..,m-1}: j=i*r mod m is bijective * ==> D={k*d mod n : k in Z} = U. * * Any value e below d is no generator since it yields a non contiguous * J such that an l=0..n/e-1 exists not in J with l*e not in U. * * The update sequence t(i) could be followed using the algorithm: * * 1. restore the expected value into t(i), * 2. calculate the next timeout t(i+1)=t(i)+u mod n, * 3. verify that the current tc(i) is between t(i)..t(i+1), * 4. calculate the time to wait w=t(i+1)-tc(i) mod n, * 5. store t(i+1), * * which implements state tracking. This approach doesn't work well * since the set timeout w does not guarantee a next call at time * t(i+1), e.g. due to program sleeps, time adjustments, and leap * seconds. A robust method should only rely on the current time * tc(i) to identify t(i). The derivation above shows 2 options: * * 1. n={60,3600} and round to a multiple of d, * but if d DAY_MILLIS) next_millis = DAY_MILLIS; result = next_millis - millis; return result; } /* ARGSUSED */ static void clock_tic(XtPointer client_data, XtIntervalId * id) { ClockWidget w = (ClockWidget) client_data; struct tm tm; struct timeval tv; char *time_ptr; register Display *dpy = XtDisplay(w); register Window win = XtWindow(w); X_GETTIMEOFDAY(&tv); tm = *localtime(&tv.tv_sec); if (w->clock.update && (id || !w->clock.interval_id)) w->clock.interval_id = XtAppAddTimeOut(XtWidgetToApplicationContext((Widget) w), waittime(w->clock.update, &tv, &tm), clock_tic, (XtPointer) w); round_time(w->clock.update, &tm, &tv); /* * Beep on the half hour; double-beep on the hour. */ if (w->clock.chime == TRUE) { if (w->clock.beeped && (tm.tm_min != 30) && (tm.tm_min != 0)) w->clock.beeped = FALSE; if (((tm.tm_min == 30) || (tm.tm_min == 0)) && (!w->clock.beeped)) { w->clock.beeped = TRUE; #ifdef XKB if (tm.tm_min == 0) { XkbStdBell(dpy, win, 50, XkbBI_ClockChimeHour); XkbStdBell(dpy, win, 50, XkbBI_RepeatingLastBell); } else { XkbStdBell(dpy, win, 50, XkbBI_ClockChimeHalf); } #else XBell(dpy, 50); if (tm.tm_min == 0) XBell(dpy, 50); #endif } } if (w->clock.analog == FALSE) { int clear_from = w->core.width; int i, len, prev_len; time_ptr = TimeString(w, &tm); len = strlen(time_ptr); if (len && time_ptr[len - 1] == '\n') time_ptr[--len] = '\0'; prev_len = strlen(w->clock.prev_time_string); for (i = 0; ((i < len) && (i < prev_len) && (w->clock.prev_time_string[i] == time_ptr[i])); i++); #ifdef XRENDER if (w->clock.render) { XRectangle old_tail, new_tail, head; int x, y; #if !defined(NO_I18N) && defined(HAVE_ICONV) && defined(HAVE_NL_LANGINFO) char *utf8_str; #endif RenderTextBounds(w, w->clock.prev_time_string, i, prev_len, &old_tail, NULL, NULL); RenderUpdateRectBounds(&old_tail, &w->clock.damage); RenderTextBounds(w, time_ptr, i, len, &new_tail, NULL, NULL); RenderUpdateRectBounds(&new_tail, &w->clock.damage); while (i) { RenderTextBounds(w, time_ptr, 0, i, &head, NULL, NULL); if (!RenderRectIn(&head, &w->clock.damage)) break; i--; } RenderTextBounds(w, time_ptr, i, len, &new_tail, &x, &y); RenderClip(w); RenderPrepare(w, NULL); #ifndef NO_I18N if (w->clock.utf8) { XftDrawStringUtf8(w->clock.draw, &w->clock.fg_color, w->clock.face, x, y, (FcChar8 *) time_ptr + i, len - i); } #if defined(HAVE_ICONV) && defined(HAVE_NL_LANGINFO) else if ((utf8_str = clock_to_utf8(time_ptr + i, len - i)) != NULL) { XftDrawStringUtf8(w->clock.draw, &w->clock.fg_color, w->clock.face, x, y, (FcChar8 *) utf8_str, strlen(utf8_str)); free(utf8_str); } #endif else #endif { XftDrawString8(w->clock.draw, &w->clock.fg_color, w->clock.face, x, y, (FcChar8 *) time_ptr + i, len - i); } RenderUpdate(w); RenderResetBounds(&w->clock.damage); } else #endif #ifndef NO_I18N if (!no_locale) { if (0 < len) { XFontSetExtents *fse = XExtentsOfFontSet(w->clock.fontSet); XmbDrawImageString(dpy, win, w->clock.fontSet, w->clock.myGC, (2 + w->clock.padding + (i ? XmbTextEscapement(w->clock.fontSet, time_ptr, i) : 0)), 2 + w->clock.padding + fse->max_logical_extent.height, time_ptr + i, len - i); /* * Clear any left over bits */ clear_from = XmbTextEscapement(w->clock.fontSet, time_ptr, len) + 2 + w->clock.padding; } } else #endif /* NO_I18N */ { XDrawImageString(dpy, win, w->clock.myGC, (1 + w->clock.padding + XTextWidth(w->clock.font, time_ptr, i)), w->clock.font->ascent + w->clock.padding, time_ptr + i, len - i); /* * Clear any left over bits */ clear_from = XTextWidth(w->clock.font, time_ptr, len) + 2 + w->clock.padding; } if (clear_from < (int) w->core.width) XClearArea(dpy, win, clear_from, 0, w->core.width - clear_from, w->core.height, False); #ifdef HAVE_STRLCPY strlcpy(w->clock.prev_time_string + i, time_ptr + i, sizeof(w->clock.prev_time_string) - i); #else strncpy(w->clock.prev_time_string + i, time_ptr + i, sizeof(w->clock.prev_time_string) - i); w->clock.prev_time_string[sizeof(w->clock.prev_time_string) - 1] = 0; #endif } else { /* * The second (or minute) hand is sec (or min) * sixtieths around the clock face. The hour hand is * (hour + min/60) twelfths of the way around the * clock-face. The derivation is left as an exercise * for the reader. */ /* * 12 hour clock. */ if (tm.tm_hour >= 12) tm.tm_hour -= 12; #ifdef XRENDER if (w->clock.render && w->clock.can_polygon) { w->clock.mask_format = XRenderFindStandardFormat(XtDisplay(w), w->clock.sharp ? PictStandardA1 : PictStandardA8); /* * Compute repaint area */ if (tm.tm_min != w->clock.otm.tm_min || tm.tm_hour != w->clock.otm.tm_hour || tm.tm_sec != w->clock.otm.tm_sec || tv.tv_usec != w->clock.otv.tv_usec) { RenderHands(w, &w->clock.otm, &w->clock.otv, False); RenderHands(w, &tm, &tv, False); } if (w->clock.show_second_hand && (tm.tm_sec != w->clock.otm.tm_sec || tv.tv_usec != w->clock.otv.tv_usec)) { RenderSec(w, &w->clock.otm, &w->clock.otv, False); RenderSec(w, &tm, &tv, False); } if (w->clock.damage.width && w->clock.damage.height) { RenderClip(w); DrawClockFace(w); RenderHands(w, &tm, &tv, True); if (w->clock.show_second_hand == TRUE) RenderSec(w, &tm, &tv, True); } w->clock.otm = tm; w->clock.otv = tv; RenderUpdate(w); RenderResetBounds(&w->clock.damage); return; } #endif erase_hands(w, &tm); if (w->clock.numseg == 0 || tm.tm_min != w->clock.otm.tm_min || tm.tm_hour != w->clock.otm.tm_hour || tm.tm_sec != w->clock.otm.tm_sec) { w->clock.segbuffptr = w->clock.segbuff; w->clock.numseg = 0; /* * Calculate the hour hand, fill it in with its * color and then outline it. Next, do the same * with the minute hand. This is a cheap hidden * line algorithm. */ DrawHand(w, w->clock.minute_hand_length, w->clock.hand_width, tm.tm_min * 60 + tm.tm_sec); if (w->clock.Hdpixel != w->core.background_pixel) XFillPolygon(dpy, win, w->clock.HandGC, w->clock.segbuff, VERTICES_IN_HANDS, Convex, CoordModeOrigin); XDrawLines(dpy, win, w->clock.HighGC, w->clock.segbuff, VERTICES_IN_HANDS, CoordModeOrigin); w->clock.hour = w->clock.segbuffptr; DrawHand(w, w->clock.hour_hand_length, w->clock.hand_width, tm.tm_hour * 300 + tm.tm_min * 5); if (w->clock.Hdpixel != w->core.background_pixel) { XFillPolygon(dpy, win, w->clock.HandGC, w->clock.hour, VERTICES_IN_HANDS, Convex, CoordModeOrigin); } XDrawLines(dpy, win, w->clock.HighGC, w->clock.hour, VERTICES_IN_HANDS, CoordModeOrigin); w->clock.sec = w->clock.segbuffptr; } if (w->clock.show_second_hand == TRUE) { w->clock.segbuffptr = w->clock.sec; DrawSecond(w, w->clock.second_hand_length - 2, w->clock.second_hand_width, w->clock.minute_hand_length + 2, tm.tm_sec * 60 + tv.tv_usec * 60 / 1000000); if (w->clock.Hdpixel != w->core.background_pixel) XFillPolygon(dpy, win, w->clock.HandGC, w->clock.sec, VERTICES_IN_HANDS - 2, Convex, CoordModeOrigin); XDrawLines(dpy, win, w->clock.HighGC, w->clock.sec, VERTICES_IN_HANDS - 1, CoordModeOrigin); } w->clock.otm = tm; w->clock.otv = tv; } } static void erase_hands(ClockWidget w, struct tm *tm) { /* * Erase old hands. */ if (w->clock.numseg > 0) { Display *dpy; Window win; dpy = XtDisplay(w); win = XtWindow(w); if (w->clock.show_second_hand == TRUE) { XDrawLines(dpy, win, w->clock.EraseGC, w->clock.sec, VERTICES_IN_HANDS - 1, CoordModeOrigin); if (w->clock.Hdpixel != w->core.background_pixel) { XFillPolygon(dpy, win, w->clock.EraseGC, w->clock.sec, VERTICES_IN_HANDS - 2, Convex, CoordModeOrigin); } } if (!tm || tm->tm_min != w->clock.otm.tm_min || tm->tm_hour != w->clock.otm.tm_hour || tm->tm_sec != w->clock.otm.tm_sec) { XDrawLines(dpy, win, w->clock.EraseGC, w->clock.segbuff, VERTICES_IN_HANDS, CoordModeOrigin); XDrawLines(dpy, win, w->clock.EraseGC, w->clock.hour, VERTICES_IN_HANDS, CoordModeOrigin); if (w->clock.Hdpixel != w->core.background_pixel) { XFillPolygon(dpy, win, w->clock.EraseGC, w->clock.segbuff, VERTICES_IN_HANDS, Convex, CoordModeOrigin); XFillPolygon(dpy, win, w->clock.EraseGC, w->clock.hour, VERTICES_IN_HANDS, Convex, CoordModeOrigin); } } } } static void ClockAngle(double tick_units, double *sinp, double *cosp) { double angle = tick_units * (M_PI / 180 / 10.0); #ifdef HAVE_SINCOS sincos(angle, sinp, cosp); #else *sinp = sin(angle); *cosp = cos(angle); #endif } /* * DrawLine - Draws a line. * * blank_length is the distance from the center which the line begins. * length is the maximum length of the hand. * Tick_units is a number between zero and 12*60 indicating * how far around the circle (clockwise) from high noon. * * The blank_length feature is because I wanted to draw tick-marks around the * circle (for seconds). The obvious means of drawing lines from the center * to the perimeter, then erasing all but the outside most pixels doesn't * work because of round-off error (sigh). */ static void DrawLine(ClockWidget w, Dimension blank_length, Dimension length, int tick_units) { double dblank_length = (double) blank_length, dlength = (double) length; double cosangle, sinangle; int cx = w->clock.centerX, cy = w->clock.centerY, x1, y1, x2, y2; /* * Angles are measured from 12 o'clock, clockwise increasing. * Since in X, +x is to the right and +y is downward: * * x = x0 + r * sin(theta) * y = y0 - r * cos(theta) * */ ClockAngle(tick_units, &sinangle, &cosangle); /* break this out so that stupid compilers can cope */ x1 = cx + (int) (dblank_length * sinangle); y1 = cy - (int) (dblank_length * cosangle); x2 = cx + (int) (dlength * sinangle); y2 = cy - (int) (dlength * cosangle); SetSeg(w, x1, y1, x2, y2); } /* * DrawHand - Draws a hand. * * length is the maximum length of the hand. * width is the half-width of the hand. * Tick_units is a number between zero and 12*60 indicating * how far around the circle (clockwise) from high noon. * */ static void DrawHand(ClockWidget w, Dimension length, Dimension width, int tick_units) { double cosangle, sinangle; register double ws, wc; Position x, y, x1, y1, x2, y2; /* * Angles are measured from 12 o'clock, clockwise increasing. * Since in X, +x is to the right and +y is downward: * * x = x0 + r * sin(theta) * y = y0 - r * cos(theta) * */ ClockAngle(tick_units, &sinangle, &cosangle); /* * Order of points when drawing the hand. * * 1,4 * / \ * / \ * / \ * 2 ------- 3 */ wc = width * cosangle; ws = width * sinangle; SetSeg(w, x = w->clock.centerX + clock_round(length * sinangle), y = w->clock.centerY - clock_round(length * cosangle), x1 = w->clock.centerX - clock_round(ws + wc), y1 = w->clock.centerY + clock_round(wc - ws)); /* 1 ---- 2 */ /* 2 */ SetSeg(w, x1, y1, x2 = w->clock.centerX - clock_round(ws - wc), y2 = w->clock.centerY + clock_round(wc + ws)); /* 2 ----- 3 */ SetSeg(w, x2, y2, x, y); /* 3 ----- 1(4) */ } /* * DrawSecond - Draws the second hand (diamond). * * length is the maximum length of the hand. * width is the half-width of the hand. * offset is direct distance from center to tail end. * Tick_units is a number between zero and 12*60 indicating * how far around the circle (clockwise) from high noon. * */ static void DrawSecond(ClockWidget w, Dimension length, Dimension width, Dimension offset, int tick_units) { double cosangle, sinangle; register double ms, mc, ws, wc; register int mid; Position x, y; /* * Angles are measured from 12 o'clock, clockwise increasing. * Since in X, +x is to the right and +y is downward: * * x = x0 + r * sin(theta) * y = y0 - r * cos(theta) * */ ClockAngle(tick_units, &sinangle, &cosangle); /* * Order of points when drawing the hand. * * 1,5 * / \ * / \ * / \ * 2< >4 * \ / * \ / * \ / * - 3 * | * | * offset * | * | * - + center */ mid = (int) (length + offset) / 2; mc = mid * cosangle; ms = mid * sinangle; wc = width * cosangle; ws = width * sinangle; /*1 ---- 2 */ SetSeg(w, x = w->clock.centerX + clock_round(length * sinangle), y = w->clock.centerY - clock_round(length * cosangle), w->clock.centerX + clock_round(ms - wc), w->clock.centerY - clock_round(mc + ws)); SetSeg(w, w->clock.centerX + clock_round(offset * sinangle), w->clock.centerY - clock_round(offset * cosangle), /* 2-----3 */ w->clock.centerX + clock_round(ms + wc), w->clock.centerY - clock_round(mc - ws)); w->clock.segbuffptr->x = x; w->clock.segbuffptr++->y = y; w->clock.numseg++; } static void SetSeg(ClockWidget w, int x1, int y1, int x2, int y2) { w->clock.segbuffptr->x = x1; w->clock.segbuffptr++->y = y1; w->clock.segbuffptr->x = x2; w->clock.segbuffptr++->y = y2; w->clock.numseg += 2; } /* * Draw the clock face (every fifth tick-mark is longer * than the others). */ static void DrawClockFace(ClockWidget w) { register int i; register int delta = (int) (w->clock.radius - w->clock.second_hand_length) / 3; w->clock.segbuffptr = w->clock.segbuff; w->clock.numseg = 0; for (i = 0; i < 60; i++) { #ifdef XRENDER if (w->clock.render && w->clock.can_polygon) { double s, c; XDouble x1, y1, x2, y2; XftColor *color; ClockAngle(i * 60, &s, &c); x1 = c; y1 = s; if (i % 5) { x2 = c * (MINOR_TICK_FRACT / 100.0); y2 = s * (MINOR_TICK_FRACT / 100.0); color = &w->clock.minor_color; } else { x2 = c * (SECOND_HAND_FRACT / 100.0); y2 = s * (SECOND_HAND_FRACT / 100.0); color = &w->clock.major_color; } RenderLine(w, x1, y1, x2, y2, color, True); } else #endif { DrawLine(w, ((i % 5) == 0 ? w->clock.second_hand_length : (w->clock.radius - delta)), w->clock.radius, i * 60); } } #ifdef XRENDER if (w->clock.render && w->clock.can_polygon) return; #endif /* * Go ahead and draw it. */ XDrawSegments(XtDisplay(w), XtWindow(w), w->clock.myGC, (XSegment *) & (w->clock.segbuff[0]), w->clock.numseg / 2); w->clock.segbuffptr = w->clock.segbuff; w->clock.numseg = 0; } static int clock_round(double x) { return (x >= 0.0 ? (int) (x + .5) : (int) (x - .5)); } #ifdef XRENDER static Boolean sameColor(XftColor * old, XftColor * new) { if (old->color.red != new->color.red) return False; if (old->color.green != new->color.green) return False; if (old->color.blue != new->color.blue) return False; if (old->color.alpha != new->color.alpha) return False; return True; } #endif /* ARGSUSED */ static Boolean SetValues(Widget gcurrent, Widget grequest, Widget gnew, ArgList args, Cardinal * num_args) { ClockWidget current = (ClockWidget) gcurrent; ClockWidget new = (ClockWidget) gnew; Boolean redisplay = FALSE; XtGCMask valuemask; XGCValues myXGCV; /* first check for changes to clock-specific resources. We'll accept all the changes, but may need to do some computations first. */ if (new->clock.update != current->clock.update) { if (current->clock.interval_id) XtRemoveTimeOut(current->clock.interval_id); if (new->clock.update && XtIsRealized((Widget) new)) new->clock.interval_id = XtAppAddTimeOut(XtWidgetToApplicationContext(gnew), fabsf(new->clock.update) * 1000, clock_tic, (XtPointer) gnew); new->clock.show_second_hand = (fabsf(new->clock.update) <= SECOND_HAND_TIME); if (new->clock.show_second_hand != current->clock.show_second_hand) redisplay = TRUE; } if (new->clock.padding != current->clock.padding) redisplay = TRUE; if (new->clock.analog != current->clock.analog) redisplay = TRUE; if (new->clock.font != current->clock.font) redisplay = TRUE; #ifndef NO_I18N if (new->clock.fontSet != current->clock.fontSet) redisplay = TRUE; #endif if ((ClockFgPixel(new) != ClockFgPixel(current)) || (new->core.background_pixel != current->core.background_pixel)) { valuemask = GCForeground | GCBackground | GCFont | GCLineWidth; myXGCV.foreground = ClockFgPixel(new); myXGCV.background = new->core.background_pixel; myXGCV.font = new->clock.font->fid; myXGCV.line_width = 0; XtReleaseGC(gcurrent, current->clock.myGC); new->clock.myGC = XtGetGC(gcurrent, valuemask, &myXGCV); redisplay = TRUE; } if (new->clock.Hipixel != current->clock.Hipixel) { valuemask = GCForeground | GCLineWidth; myXGCV.foreground = new->clock.Hipixel; myXGCV.font = new->clock.font->fid; myXGCV.line_width = 0; XtReleaseGC(gcurrent, current->clock.HighGC); new->clock.HighGC = XtGetGC((Widget) gcurrent, valuemask, &myXGCV); redisplay = TRUE; } if (new->clock.Hdpixel != current->clock.Hdpixel) { valuemask = GCForeground; myXGCV.foreground = new->clock.Hdpixel; XtReleaseGC(gcurrent, current->clock.HandGC); new->clock.HandGC = XtGetGC((Widget) gcurrent, valuemask, &myXGCV); redisplay = TRUE; } if (new->core.background_pixel != current->core.background_pixel) { valuemask = GCForeground | GCLineWidth | GCGraphicsExposures; myXGCV.foreground = new->core.background_pixel; myXGCV.line_width = 0; myXGCV.graphics_exposures = False; XtReleaseGC(gcurrent, current->clock.EraseGC); new->clock.EraseGC = XtGetGC((Widget) gcurrent, valuemask, &myXGCV); redisplay = TRUE; } #ifdef XRENDER if (new->clock.face != current->clock.face) redisplay = TRUE; if (!sameColor(&new->clock.hour_color, ¤t->clock.fg_color) || !sameColor(&new->clock.hour_color, ¤t->clock.hour_color) || !sameColor(&new->clock.min_color, ¤t->clock.min_color) || !sameColor(&new->clock.sec_color, ¤t->clock.sec_color) || !sameColor(&new->clock.major_color, ¤t->clock.major_color) || !sameColor(&new->clock.minor_color, ¤t->clock.minor_color)) redisplay = True; if (new->clock.sharp != current->clock.sharp) redisplay = True; if (new->clock.render != current->clock.render) redisplay = True; if (new->clock.buffer != current->clock.buffer) { if (new->clock.pixmap) { XFreePixmap(XtDisplay(new), new->clock.pixmap); new->clock.pixmap = 0; } if (new->clock.draw) { XftDrawDestroy(new->clock.draw); new->clock.draw = NULL; } new->clock.picture = 0; } #endif return (redisplay); } #if !defined(NO_I18N) && defined(HAVE_ICONV) && defined(HAVE_NL_LANGINFO) static char * clock_to_utf8(const char *str, int in_len) { iconv_t cd; char *buf; size_t buf_size; size_t ileft, oleft; ICONV_CONST char *inptr; char *outptr; size_t ret; const char *code_set = nl_langinfo(CODESET); if (str == NULL || code_set == NULL || strcasecmp(code_set, "646") == 0) return NULL; if (strcasecmp(code_set, "UTF-8") == 0) return strdup(str); cd = iconv_open("UTF-8", code_set); if (cd == (iconv_t) - 1) return NULL; buf_size = MB_LEN_MAX * (in_len + 1); if ((buf = malloc(buf_size)) == NULL) { (void) iconv_close(cd); return NULL; } inptr = str; ileft = in_len; outptr = buf; oleft = buf_size; ret = iconv(cd, &inptr, &ileft, &outptr, &oleft); if (ret == (size_t) (-1) || oleft == 0) { free(buf); buf = NULL; } else *outptr = '\0'; (void) iconv_close(cd); return buf; } #endif