Mercurial > hg > xemacs-beta
view lwlib/xlwtabs.c @ 934:c925bacdda60
[xemacs-hg @ 2002-07-29 09:21:12 by michaels]
2002-07-17 Marcus Crestani <crestani@informatik.uni-tuebingen.de>
Markus Kaltenbach <makalten@informatik.uni-tuebingen.de>
Mike Sperber <mike@xemacs.org>
configure flag to turn these changes on: --use-kkcc
First we added a dumpable flag to lrecord_implementation. It shows,
if the object is dumpable and should be processed by the dumper.
* lrecord.h (struct lrecord_implementation): added dumpable flag
(MAKE_LRECORD_IMPLEMENTATION): fitted the different makro definitions
to the new lrecord_implementation and their calls.
Then we changed mark_object, that it no longer needs a mark method for
those types that have pdump descritions.
* alloc.c:
(mark_object): If the object has a description, the new mark algorithm
is called, and the object is marked according to its description.
Otherwise it uses the mark method like before.
These procedures mark objects according to their descriptions. They
are modeled on the corresponding pdumper procedures.
(mark_with_description):
(get_indirect_count):
(structure_size):
(mark_struct_contents):
These procedures still call mark_object, this is needed while there are
Lisp_Objects without descriptions left.
We added pdump descriptions for many Lisp_Objects:
* extents.c: extent_auxiliary_description
* database.c: database_description
* gui.c: gui_item_description
* scrollbar.c: scrollbar_instance_description
* toolbar.c: toolbar_button_description
* event-stream.c: command_builder_description
* mule-charset.c: charset_description
* device-msw.c: devmode_description
* dialog-msw.c: mswindows_dialog_id_description
* eldap.c: ldap_description
* postgresql.c: pgconn_description
pgresult_description
* tooltalk.c: tooltalk_message_description
tooltalk_pattern_description
* ui-gtk.c: emacs_ffi_description
emacs_gtk_object_description
* events.c:
* events.h:
* event-stream.c:
* event-Xt.c:
* event-gtk.c:
* event-tty.c:
To write a pdump description for Lisp_Event, we converted every struct
in the union event to a Lisp_Object. So we created nine new
Lisp_Objects: Lisp_Key_Data, Lisp_Button_Data, Lisp_Motion_Data,
Lisp_Process_Data, Lisp_Timeout_Data, Lisp_Eval_Data,
Lisp_Misc_User_Data, Lisp_Magic_Data, Lisp_Magic_Eval_Data.
We also wrote makro selectors and mutators for the fields of the new
designed Lisp_Event and added everywhere these new abstractions.
We implemented XD_UNION support in (mark_with_description), so
we can describe exspecially console/device specific data with XD_UNION.
To describe with XD_UNION, we added a field to these objects, which
holds the variant type of the object. This field is initialized in
the appendant constructor. The variant is an integer, it has also to
be described in an description, if XD_UNION is used.
XD_UNION is used in following descriptions:
* console.c: console_description
(get_console_variant): returns the variant
(create_console): added variant initialization
* console.h (console_variant): the different console types
* console-impl.h (struct console): added enum console_variant contype
* device.c: device_description
(Fmake_device): added variant initialization
* device-impl.h (struct device): added enum console_variant devtype
* objects.c: image_instance_description
font_instance_description
(Fmake_color_instance): added variant initialization
(Fmake_font_instance): added variant initialization
* objects-impl.h (struct Lisp_Color_Instance): added color_instance_type
* objects-impl.h (struct Lisp_Font_Instance): added font_instance_type
* process.c: process_description
(make_process_internal): added variant initialization
* process.h (process_variant): the different process types
| author | michaels |
|---|---|
| date | Mon, 29 Jul 2002 09:21:25 +0000 |
| parents | b39c14581166 |
| 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: Tabs.c 1.27. #### This file contains essential XEmacs related fixes to the original verison of the Tabs widget. Be VERY careful about syncing if you ever update to a more recent version. In general this is probably now a bad idea. */ /* * Tabs.c - Index Tabs composite widget * * Author: Edward A. Falk * falk@falconer.vip.best.com * * Date: July 29, 1997 * * * Overall layout of this widget is as follows: * * ________ ,---------. _________ * | label || Label || Label | \ tabs * |________|| ||_________| / * |+----------------------------+| \ * || || | * || child widget window || > frame * |+----------------------------+| | * +------------------------------+ / * * The height of the tabs includes the shadow width, top and bottom * margins, and the height of the text. * * The height of the frame includes the top and bottom shadow width and the * size of the child widget window. * * The tabs overlap the frame and each other vertically by the shadow * width, so that when the topmost tab is drawn, it obliterates part of * the frame. */ /* * TODO: min child height = tab height */ #include <config.h> #include <stdio.h> #include <X11/Xlib.h> #include <X11/IntrinsicP.h> #include <X11/StringDefs.h> #include "lwlib-internal.h" #include "../src/xmu.h" #include "xlwtabsP.h" #include "xlwgcs.h" #define MIN_WID 10 #define MIN_HGT 10 #define INDENT 3 /* tabs indented from edge by this much */ #define SPACING 0 /* distance between tabs */ #define SHADWID 1 /* default shadow width */ #define TABDELTA 2 /* top tab grows this many pixels */ #define TABLDELTA 2 /* top tab label offset this many pixels */ /**************************************************************** * * IndexTabs Resources * ****************************************************************/ static char defaultTranslations[] = "\ <BtnUp>: select() \n\ <FocusIn>: highlight() \n\ <FocusOut>: unhighlight() \n\ <Key>Page_Up: page(up) \n\ <Key>KP_Page_Up: page(up) \n\ <Key>Prior: page(up) \n\ <Key>KP_Prior: page(up) \n\ <Key>Page_Down: page(down) \n\ <Key>KP_Page_Down: page(down) \n\ <Key>Next: page(down) \n\ <Key>KP_Next: page(down) \n\ <Key>Home: page(home) \n\ <Key>KP_Home: page(home) \n\ <Key>End: page(end) \n\ <Key>KP_End: page(end) \n\ <Key>Up: highlight(up) \n\ <Key>KP_Up: highlight(up) \n\ <Key>Down: highlight(down) \n\ <Key>KP_Down: highlight(down) \n\ <Key> : page(select) \n\ " ; static char accelTable[] = " #augment\n\ <Key>Page_Up: page(up) \n\ <Key>KP_Page_Up: page(up) \n\ <Key>Prior: page(up) \n\ <Key>KP_Prior: page(up) \n\ <Key>Page_Down: page(down) \n\ <Key>KP_Page_Down: page(down) \n\ <Key>Next: page(down) \n\ <Key>KP_Next: page(down) \n\ <Key>Home: page(home) \n\ <Key>KP_Home: page(home) \n\ <Key>End: page(end) \n\ <Key>KP_End: page(end) \n\ <Key>Up: highlight(up) \n\ <Key>KP_Up: highlight(up) \n\ <Key>Down: highlight(down) \n\ <Key>KP_Down: highlight(down) \n\ <Key> : page(select) \n\ " ; static XtAccelerators defaultAccelerators ; /* #### Never used */ #define offset(field) XtOffsetOf(TabsRec, tabs.field) static XtResource resources[] = { {XtNselectInsensitive, XtCSelectInsensitive, XtRBoolean, sizeof(Boolean), offset(selectInsensitive), XtRImmediate, (XtPointer) True}, {XtNfont, XtCFont, XtRFontStruct, sizeof(XFontStruct *), offset(font), XtRString, (XtPointer) XtDefaultFont}, {XtNinternalWidth, XtCWidth, XtRDimension, sizeof(Dimension), offset(internalWidth), XtRImmediate, (XtPointer)4 }, {XtNinternalHeight, XtCHeight, XtRDimension, sizeof(Dimension), offset(internalHeight), XtRImmediate, (XtPointer)4 }, {XtNborderWidth, XtCBorderWidth, XtRDimension, sizeof(Dimension), XtOffsetOf(RectObjRec,rectangle.border_width), XtRImmediate, (XtPointer)0}, {XtNtopWidget, XtCTopWidget, XtRWidget, sizeof(Widget), offset(topWidget), XtRImmediate, NULL}, {XtNcallback, XtCCallback, XtRCallback, sizeof(XtPointer), offset(callbacks), XtRCallback, NULL}, {XtNpopdownCallback, XtCCallback, XtRCallback, sizeof(XtPointer), offset(popdownCallbacks), XtRCallback, NULL}, {XtNbeNiceToColormap, XtCBeNiceToColormap, XtRBoolean, sizeof(Boolean), offset(be_nice_to_cmap), XtRImmediate, (XtPointer) True}, {XtNtopShadowContrast, XtCTopShadowContrast, XtRInt, sizeof(int), offset(top_shadow_contrast), XtRImmediate, (XtPointer) 20}, {XtNbottomShadowContrast, XtCBottomShadowContrast, XtRInt, sizeof(int), offset(bot_shadow_contrast), XtRImmediate, (XtPointer) 40}, {XtNinsensitiveContrast, XtCInsensitiveContrast, XtRInt, sizeof(int), offset(insensitive_contrast), XtRImmediate, (XtPointer) 33}, {XtNaccelerators, XtCAccelerators, XtRAcceleratorTable,sizeof(XtTranslations), XtOffsetOf(TabsRec,core.accelerators), XtRString, accelTable}, }; #undef offset /* constraint resources */ #define offset(field) XtOffsetOf(TabsConstraintsRec, tabs.field) static XtResource tabsConstraintResources[] = { {XtNtabLabel, XtCLabel, XtRString, sizeof(String), offset(label), XtRString, NULL}, {XtNtabLeftBitmap, XtCLeftBitmap, XtRBitmap, sizeof(Pixmap), offset(left_bitmap), XtRImmediate, None}, {XtNtabForeground, XtCForeground, XtRPixel, sizeof(Pixel), offset(foreground), XtRString, (XtPointer) XtDefaultForeground}, {XtNresizable, XtCResizable, XtRBoolean, sizeof(Boolean), offset(resizable), XtRImmediate, (XtPointer) True}, } ; #undef offset #if !NeedFunctionPrototypes /* FORWARD REFERENCES: */ /* member functions */ static void TabsClassInit(); static void TabsInit(); static void TabsResize(); static void TabsExpose(); static void TabsDestroy(); static void TabsRealize(); static Boolean TabsSetValues(); static Boolean TabsAcceptFocus(); static XtGeometryResult TabsQueryGeometry(); static XtGeometryResult TabsGeometryManager(); static void TabsChangeManaged(); static void TabsConstraintInitialize() ; static Boolean TabsConstraintSetValues() ; /* action procs */ static void TabsSelect() ; static void TabsPage() ; static void TabsHighlight() ; static void TabsUnhighlight() ; /* internal privates */ static void TabsAllocGCs() ; /* get rendering GCs */ static void TabsFreeGCs() ; /* return rendering GCs */ static void DrawTabs() ; /* draw all tabs */ static void DrawTab() ; /* draw one index tab */ static void DrawFrame() ; /* draw frame around contents */ static void DrawTrim() ; /* draw trim around a tab */ static void DrawBorder() ; /* draw border */ static void DrawHighlight() ; /* draw highlight */ static void UndrawTab() ; /* undraw interior of a tab */ static void TabWidth() ; /* recompute tab size */ static void GetPreferredSizes() ; /* query all children for their sizes */ static void MaxChild() ; /* find max preferred child size */ static int PreferredSize() ; /* compute preferred size */ static int PreferredSize2() ; /* compute preferred size */ static int PreferredSize3() ; /* compute preferred size */ static void MakeSizeRequest() ; /* try to change size */ static void getBitmapInfo() ; static int TabLayout() ; /* lay out tabs */ static void TabsShuffleRows() ; /* bring current tab to bottom row */ static void TabsAllocFgGC() ; static void TabsAllocGreyGC() ; #else static void TabsClassInit(void) ; static void TabsInit( Widget req, Widget new, ArgList, Cardinal *nargs) ; static void TabsConstraintInitialize(Widget, Widget, ArgList, Cardinal *) ; static void TabsRealize(Widget, Mask *, XSetWindowAttributes *) ; static void TabsDestroy( Widget w) ; static void TabsResize( Widget w) ; static void TabsExpose( Widget w, XEvent *event, Region region) ; static Boolean TabsSetValues(Widget, Widget, Widget, ArgList, Cardinal *) ; static Boolean TabsAcceptFocus(Widget, Time *); static Boolean TabsConstraintSetValues(Widget, Widget, Widget, ArgList, Cardinal *) ; static XtGeometryResult TabsQueryGeometry(Widget, XtWidgetGeometry *, XtWidgetGeometry *) ; static XtGeometryResult TabsGeometryManager(Widget, XtWidgetGeometry *, XtWidgetGeometry *) ; static void TabsChangeManaged( Widget w) ; static void TabsSelect(Widget, XEvent *, String *, Cardinal *) ; static void TabsPage(Widget, XEvent *, String *, Cardinal *) ; static void TabsHighlight(Widget, XEvent *, String *, Cardinal *) ; static void TabsUnhighlight(Widget, XEvent *, String *, Cardinal *) ; static void DrawTabs( TabsWidget tw, Bool labels) ; static void DrawTab( TabsWidget tw, Widget child, Bool labels) ; static void DrawFrame( TabsWidget tw) ; static void DrawTrim( TabsWidget, int x, int y, int wid, int hgt, Bool bottom, Bool undraw) ; static void DrawBorder( TabsWidget tw, Widget child, Bool undraw) ; static void DrawHighlight( TabsWidget tw, Widget child, Bool undraw) ; static void UndrawTab( TabsWidget tw, Widget child) ; static void TabWidth( Widget w) ; static int TabLayout( TabsWidget, Dimension wid, Dimension hgt, Dimension *r_hgt, Bool query_only) ; static void GetPreferredSizes(TabsWidget) ; static void MaxChild(TabsWidget, Widget except, Dimension, Dimension) ; static void TabsShuffleRows( TabsWidget tw) ; static int PreferredSize( TabsWidget, Dimension *reply_width, Dimension *reply_height, Dimension *reply_cw, Dimension *reply_ch) ; static int PreferredSize2( TabsWidget, Dimension cw, Dimension ch, Dimension *rw, Dimension *rh) ; static int PreferredSize3( TabsWidget, Dimension wid, Dimension hgt, Dimension *rw, Dimension *rh) ; static void MakeSizeRequest(TabsWidget) ; static void TabsAllocGCs(TabsWidget) ; static void TabsFreeGCs(TabsWidget) ; static void getBitmapInfo( TabsWidget tw, TabsConstraints tab) ; static void TabsAllocFgGC( TabsWidget tw) ; static void TabsAllocGreyGC( TabsWidget tw) ; #endif #define AddRect(i,xx,yy,w,h) \ do{rects[(i)].x=(xx); rects[i].y=(yy); \ rects[i].width=(w); rects[i].height=(h);}while(0) static XtActionsRec actionsList[] = { {"select", TabsSelect}, {"page", TabsPage}, {"highlight", TabsHighlight}, {"unhighlight", TabsUnhighlight}, } ; /**************************************************************** * * Full class record constant * ****************************************************************/ #ifndef NEED_MOTIF #define SuperClass (&constraintClassRec) #else #define SuperClass (&xmManagerClassRec) #endif TabsClassRec tabsClassRec = { { /* core_class fields */ /* superclass */ (WidgetClass) SuperClass, /* class_name */ "Tabs", /* widget_size */ sizeof(TabsRec), /* class_initialize */ TabsClassInit, /* class_part_init */ NULL, /* TODO? */ /* class_inited */ FALSE, /* initialize */ TabsInit, /* initialize_hook */ NULL, /* realize */ TabsRealize, /* actions */ actionsList, /* num_actions */ XtNumber(actionsList), /* resources */ resources, /* num_resources */ XtNumber(resources), /* xrm_class */ NULLQUARK, /* compress_motion */ TRUE, #if XtSpecificationRelease < 6 /* compress_exposure */ XtExposeCompressMaximal, #else /* compress_exposure */ XtExposeCompressMaximal|XtExposeNoRegion, #endif /* compress_enterleave*/ TRUE, /* visible_interest */ TRUE, /* destroy */ TabsDestroy, /* resize */ TabsResize, /* expose */ TabsExpose, /* set_values */ TabsSetValues, /* set_values_hook */ NULL, /* set_values_almost */ XtInheritSetValuesAlmost, /* get_values_hook */ NULL, /* accept_focus */ TabsAcceptFocus, /* version */ XtVersion, /* callback_private */ NULL, /* tm_table */ defaultTranslations, /* query_geometry */ TabsQueryGeometry, /* display_accelerator*/ XtInheritDisplayAccelerator, /* extension */ NULL }, { /* composite_class fields */ /* geometry_manager */ TabsGeometryManager, /* change_managed */ TabsChangeManaged, /* insert_child */ XtInheritInsertChild, /* TODO? */ /* delete_child */ XtInheritDeleteChild, /* TODO? */ /* extension */ NULL }, { /* constraint_class fields */ /* subresources */ tabsConstraintResources, /* subresource_count */ XtNumber(tabsConstraintResources), /* constraint_size */ sizeof(TabsConstraintsRec), /* initialize */ TabsConstraintInitialize, /* destroy */ NULL, /* set_values */ TabsConstraintSetValues, /* extension */ NULL, }, #ifdef NEED_MOTIF /* Manager Class fields */ { /* translations */ NULL, /* syn_resources */ NULL, /* num_syn_resources */ 0, /* syn_constraint_resources */ NULL, /* num_syn_constraint_resources */ 0, /* parent_process */ XmInheritParentProcess, /* extension */ NULL }, #endif { /* Tabs class fields */ /* extension */ NULL, } }; WidgetClass tabsWidgetClass = (WidgetClass)&tabsClassRec; #define TabsNumChildren(tw) (((TabsWidget)tw)->composite.num_children) #define TabVisible(tab) \ (XtIsManaged(tab) && \ ((TabsConstraints)((tab)->core.constraints))->tabs.visible) /**************************************************************** * * Member Procedures * ****************************************************************/ static void TabsClassInit(void) { defaultAccelerators = XtParseAcceleratorTable(accelTable) ; /* TODO: register converter for labels? */ } /* Init a newly created tabs widget. Compute height of tabs * and optionally compute size of widget. */ /* ARGSUSED */ static void TabsInit(Widget request, Widget new, ArgList args, Cardinal *num_args) { TabsWidget newTw = (TabsWidget)new; newTw->tabs.numRows = 0 ; newTw->tabs.realRows = 0; GetPreferredSizes(newTw) ; /* height is easy, it's the same for all tabs: * TODO: font height + height of tallest bitmap. */ newTw->tabs.tab_height = 2 * newTw->tabs.internalHeight + SHADWID ; if( newTw->tabs.font != NULL ) newTw->tabs.tab_height += newTw->tabs.font->max_bounds.ascent + newTw->tabs.font->max_bounds.descent ; /* GC allocation is deferred until XtRealize() */ /* if size not explicitly set, set it to our preferred size now. */ if( request->core.width == 0 || request->core.height == 0 ) { Dimension w,h ; PreferredSize(newTw, &w, &h, NULL,NULL) ; if( request->core.width == 0 ) new->core.width = w ; if( request->core.height == 0 ) new->core.height = h ; XtClass(new)->core_class.resize(new) ; } /* defer GC allocation, etc., until Realize() time. */ newTw->tabs.foregroundGC = newTw->tabs.backgroundGC = newTw->tabs.greyGC = newTw->tabs.topGC = newTw->tabs.botGC = None ; newTw->tabs.grey50 = None ; newTw->tabs.needs_layout = False ; newTw->tabs.hilight = NULL ; #ifdef NEED_MOTIF newTw->manager.navigation_type = XmTAB_GROUP ; newTw->manager.traversal_on = True ; #endif } /* Init the constraint part of a new tab child. Compute the * size of the tab. */ /* ARGSUSED */ static void TabsConstraintInitialize(Widget request, Widget new, ArgList args, Cardinal *num_args) { TabsConstraints tab = (TabsConstraints) new->core.constraints ; tab->tabs.greyAlloc = False ; /* defer allocation of pixel */ tab->tabs.visible = False ; getBitmapInfo((TabsWidget)XtParent(new), tab) ; TabWidth(new) ; } /* Called when tabs widget first realized. Create the window * and allocate the GCs */ static void TabsRealize(Widget w, Mask *valueMask, XSetWindowAttributes *attributes) { TabsWidget tw = (TabsWidget) w; attributes->bit_gravity = NorthWestGravity; *valueMask |= CWBitGravity; SuperClass->core_class.realize(w, valueMask, attributes); TabsAllocGCs(tw) ; } static void TabsDestroy(Widget w) { TabsFreeGCs((TabsWidget)w) ; } /* Parent has resized us. This will require that the tabs be * laid out again. */ static void TabsResize(Widget w) { TabsWidget tw = (TabsWidget) w; int i ; int num_children = tw->composite.num_children ; Widget *childP ; TabsConstraints tab ; /* #### unused */ Dimension cw,ch,bw ; /* Our size has now been dictated by the parent. Lay out the * tabs, lay out the frame, lay out the children. Remember * that the tabs overlap each other and the frame by shadowWidth. * Also, the top tab is larger than the others, so if there's only * one row, the widget must be made taller to accommodate this. * * Once the tabs are laid out, if there is more than one * row, we may need to shuffle the rows to bring the top tab * to the bottom row. */ tw->tabs.needs_layout = False ; if( num_children > 0 && tw->composite.children != NULL ) { /* Loop through the tabs and assign rows & x positions */ (void) TabLayout(tw, tw->core.width, tw->core.height, NULL, False) ; num_children = TabsNumChildren (tw); /* assign a top widget, bring it to bottom row. */ TabsShuffleRows(tw) ; /* now assign child positions & sizes. Positions are all the * same: just inside the frame. Sizes are also all the same. */ tw->tabs.child_width = cw = tw->core.width - 2 * SHADWID ; tw->tabs.child_height = ch = tw->core.height < (tw->tabs.tab_total + 2 * SHADWID) ? 0 : tw->core.height - tw->tabs.tab_total - 2 * SHADWID ; for(i=0, childP=tw->composite.children; i < num_children; ++i, ++childP) if( XtIsManaged(*childP) ) { tab = (TabsConstraints) (*childP)->core.constraints ; bw = (*childP)->core.border_width ; /* Don't do anything if we can't see any of the child. */ if (ch >= bw*2 && ch > 0 && cw >= bw*2 && cw > 0) XtConfigureWidget(*childP, SHADWID,tw->tabs.tab_total+SHADWID, cw-bw*2,ch-bw*2, bw) ; } if( XtIsRealized(w) ) { XClearWindow(XtDisplay((Widget)tw), XtWindow((Widget)tw)) ; /* should not be necessary to explicitly repaint after a * resize, but XEmacs folks tell me it is. */ XtClass(tw)->core_class.expose((Widget)tw,NULL,None) ; } } } /* Resize */ /* Redraw entire Tabs widget */ /* ARGSUSED */ static void TabsExpose(Widget w, XEvent *event, Region region) { TabsWidget tw = (TabsWidget) w; if( tw->tabs.needs_layout ) XtClass(w)->core_class.resize(w) ; DrawTabs(tw, True) ; } /* Called when any Tabs widget resources are changed. */ /* ARGSUSED */ static Boolean TabsSetValues(Widget current, Widget request, Widget new, ArgList args, Cardinal *num_args) { TabsWidget curtw = (TabsWidget) current ; TabsWidget tw = (TabsWidget) new ; Boolean needRedraw = False ; Widget *childP ; int i ; if( tw->tabs.font != curtw->tabs.font || tw->tabs.internalWidth != curtw->tabs.internalWidth || tw->tabs.internalHeight != curtw->tabs.internalHeight ) { tw->tabs.tab_height = 2 * tw->tabs.internalHeight + SHADWID ; if( tw->tabs.font != NULL ) tw->tabs.tab_height += tw->tabs.font->max_bounds.ascent + tw->tabs.font->max_bounds.descent ; /* Tab size has changed. Resize all tabs and request a new size */ for(i=0, childP=tw->composite.children; i < (int) tw->composite.num_children; ++i, ++childP) if( XtIsManaged(*childP) ) TabWidth(*childP) ; PreferredSize(tw, &tw->core.width, &tw->core.height, NULL,NULL) ; needRedraw = True ; tw->tabs.needs_layout = True ; } /* TODO: if any color changes, need to recompute GCs and redraw */ if( tw->core.background_pixel != curtw->core.background_pixel || tw->core.background_pixmap != curtw->core.background_pixmap || tw->tabs.font != curtw->tabs.font ) if( XtIsRealized(new) ) { TabsFreeGCs(tw) ; TabsAllocGCs(tw) ; needRedraw = True ; } if( tw->core.sensitive != curtw->core.sensitive ) needRedraw = True ; /* If top widget changes, need to change stacking order, redraw tabs. * Window system will handle the redraws. */ if( tw->tabs.topWidget != curtw->tabs.topWidget ) { if( XtIsRealized(tw->tabs.topWidget) ) { Widget w = tw->tabs.topWidget ; TabsConstraints tab = (TabsConstraints) w->core.constraints ; XRaiseWindow(XtDisplay(w), XtWindow(w)) ; #ifdef NEED_MOTIF XtVaSetValues(curtw->tabs.topWidget, XmNtraversalOn, False, 0) ; XtVaSetValues(w, XmNtraversalOn, True, 0) ; #endif if( tab->tabs.row != (int) tw->tabs.numRows-1 ) TabsShuffleRows(tw) ; needRedraw = True ; } else tw->tabs.needs_layout = True ; } return needRedraw ; } /* Called when any child constraint resources change. */ /* ARGSUSED */ static Boolean TabsConstraintSetValues(Widget current, Widget request, Widget new, ArgList args, Cardinal *num_args) { TabsWidget tw = (TabsWidget) XtParent(new) ; TabsConstraints ctab = (TabsConstraints) current->core.constraints ; TabsConstraints tab = (TabsConstraints) new->core.constraints ; /* if label changes, need to re-layout the entire widget */ /* if foreground changes, need to redraw tab label */ /* TODO: only need resize of new bitmap has different dimensions * from old bitmap. */ if( tab->tabs.label != ctab->tabs.label || /* Tab size has changed. */ tab->tabs.left_bitmap != ctab->tabs.left_bitmap ) { TabWidth(new) ; tw->tabs.needs_layout = True ; if( tab->tabs.left_bitmap != ctab->tabs.left_bitmap ) getBitmapInfo(tw, tab) ; /* If there are no subclass ConstraintSetValues procedures remaining * to be invoked, and if the preferred size has changed, ask * for a resize. */ if( XtClass((Widget)tw) == tabsWidgetClass ) MakeSizeRequest(tw) ; } /* The child widget itself never needs a redisplay, but the parent * Tabs widget might. */ if( XtIsRealized(new) ) { if( tw->tabs.needs_layout ) { XClearWindow(XtDisplay((Widget)tw), XtWindow((Widget)tw)) ; XtClass(tw)->core_class.expose((Widget)tw,NULL,None) ; } else if( tab->tabs.foreground != ctab->tabs.foreground ) DrawTab(tw, new, True) ; } return False ; } static Boolean TabsAcceptFocus(Widget w, Time *t) { if( !w->core.being_destroyed && XtIsRealized(w) && XtIsSensitive(w) && XtIsManaged(w) && w->core.visible ) { Widget p ; for(p = XtParent(w); !XtIsShell(p); p = XtParent(p)) ; XtSetKeyboardFocus(p,w) ; return True ; } else return False ; } /* * Return preferred size. Happily accept anything >= our preferred size. * (TODO: is that the right thing to do? Should we always return "almost" * if offered more than we need?) */ static XtGeometryResult TabsQueryGeometry(Widget w, XtWidgetGeometry *intended, XtWidgetGeometry *preferred) { register TabsWidget tw = (TabsWidget)w ; XtGeometryMask mode = intended->request_mode ; preferred->request_mode = CWWidth | CWHeight ; PreferredSize(tw, &preferred->width, &preferred->height, NULL,NULL) ; if( (!(mode & CWWidth) || intended->width == w->core.width) && (!(mode & CWHeight) || intended->height == w->core.height) ) return XtGeometryNo ; if( (!(mode & CWWidth) || intended->width >= preferred->width) && (!(mode & CWHeight) || intended->height >= preferred->height) ) return XtGeometryYes; return XtGeometryAlmost; } /* * Geometry Manager; called when a child wants to be resized. */ static XtGeometryResult TabsGeometryManager(Widget w, XtWidgetGeometry *req, XtWidgetGeometry *reply) { TabsWidget tw = (TabsWidget) XtParent(w); Dimension s = SHADWID ; TabsConstraints tab = (TabsConstraints)w->core.constraints; XtGeometryResult result ; Dimension rw, rh ; /* Position request always denied */ if( ((req->request_mode & CWX) && req->x != w->core.x) || ((req->request_mode & CWY) && req->y != w->core.y) || !tab->tabs.resizable ) return XtGeometryNo ; /* Make all three fields in the request valid */ if( !(req->request_mode & CWWidth) ) req->width = w->core.width; if( !(req->request_mode & CWHeight) ) req->height = w->core.height; if( !(req->request_mode & CWBorderWidth) ) req->border_width = w->core.border_width; if( req->width == w->core.width && req->height == w->core.height && req->border_width == w->core.border_width ) return XtGeometryNo ; rw = req->width + 2 * req->border_width ; rh = req->height + 2 * req->border_width ; /* find out how big the children want to be now */ MaxChild(tw, w, rw, rh) ; /* Size changes must see if the new size can be accommodated. * The Tabs widget keeps all of its children the same * size. A request to shrink will be accepted only if the * new size is still big enough for all other children. A * request to shrink that is not big enough for all children * returns an "almost" response with the new proposed size * or a "no" response if unable to shrink at all. * * A request to grow will be accepted only if the Tabs parent can * grow to accommodate. * * TODO: * We could get fancy here and re-arrange the tabs if it is * necessary to compromise with the parent, but we'll save that * for another day. */ if (req->request_mode & (CWWidth | CWHeight | CWBorderWidth)) { Dimension cw,ch ; /* children's preferred size */ Dimension aw,ah ; /* available size we can give child */ Dimension th ; /* space used by tabs */ Dimension wid,hgt ; /* Tabs widget size */ cw = tw->tabs.max_cw ; ch = tw->tabs.max_ch ; /* find out what *my* resulting preferred size would be */ PreferredSize2(tw, cw, ch, &wid, &hgt) ; /* Would my size change? If so, ask to be resized. */ if( wid != tw->core.width || hgt != tw->core.height ) { Dimension oldWid = tw->core.width, oldHgt = tw->core.height ; XtWidgetGeometry myrequest, myreply ; myrequest.width = wid ; myrequest.height = hgt ; myrequest.request_mode = CWWidth | CWHeight ; assert (wid > 0 && hgt > 0); /* If child is only querying, or if we're going to have to * offer the child a compromise, then make this a query only. */ if( (req->request_mode & XtCWQueryOnly) || rw < cw || rh < ch ) myrequest.request_mode |= XtCWQueryOnly ; result = XtMakeGeometryRequest((Widget)tw, &myrequest, &myreply) ; /* !$@# Athena Box widget changes the core size even if QueryOnly * is set. I'm convinced this is a bug. At any rate, to work * around the bug, we need to restore the core size after every * query geometry request. This is only partly effective, * as there may be other boxes further up the tree. */ if( myrequest.request_mode & XtCWQueryOnly ) { tw->core.width = oldWid ; tw->core.height = oldHgt ; } /* based on the parent's response, determine what the * resulting Tabs widget size would be. */ switch( result ) { case XtGeometryYes: case XtGeometryDone: tw->tabs.needs_layout = True ; break ; case XtGeometryNo: wid = tw->core.width ; hgt = tw->core.height ; break ; case XtGeometryAlmost: wid = myreply.width ; hgt = myreply.height ; tw->tabs.needs_layout = True ; break ; } } /* Within the constraints imposed by the parent, what is * the max size we can give the child? */ (void) TabLayout(tw, wid, hgt, &th, True) ; aw = wid - 2*s ; ah = hgt - th - 2*s ; /* OK, make our decision. If requested size is >= max sibling * preferred size, AND requested size <= available size, then * we accept. Otherwise, we offer a compromise. */ if( rw == aw && rh == ah ) { /* Acceptable. If this wasn't a query, change *all* children * to this size. */ if( req->request_mode & XtCWQueryOnly ) return XtGeometryYes ; else { Widget *childP = tw->composite.children ; int i,bw ; w->core.border_width = req->border_width ; for(i=TabsNumChildren (tw); --i >= 0; ++childP) if( TabVisible(*childP) ) { bw = (*childP)->core.border_width ; XtConfigureWidget(*childP, s,tw->tabs.tab_total+s, rw-2*bw, rh-2*bw, bw) ; } #ifdef COMMENT /* TODO: under what conditions will we need to redraw? */ XClearWindow(XtDisplay((Widget)tw), XtWindow((Widget)tw)) ; XtClass(tw)->core_class.expose((Widget)tw,NULL,NULL) ; #endif /* COMMENT */ return XtGeometryDone ; } } /* Cannot grant child's request. Describe what we *can* do * and return counter-offer. */ reply->width = aw - 2 * req->border_width ; reply->height = ah - 2 * req->border_width ; reply->border_width = req->border_width ; reply->request_mode = CWWidth | CWHeight | CWBorderWidth ; return XtGeometryAlmost ; } return XtGeometryYes ; } /* The number of children we manage has changed; recompute * size from scratch. */ static void TabsChangeManaged(Widget w) { TabsWidget tw = (TabsWidget)w ; Widget *childP = tw->composite.children ; int i ; if( tw->tabs.topWidget != NULL && ( !XtIsManaged(tw->tabs.topWidget) || tw->tabs.topWidget->core.being_destroyed ) ) tw->tabs.topWidget = NULL ; /* Check whether the highlight tab is still valid. */ if( tw->tabs.hilight != NULL && ( !XtIsManaged(tw->tabs.hilight) || tw->tabs.hilight->core.being_destroyed ) ) tw->tabs.hilight = NULL ; GetPreferredSizes(tw) ; MakeSizeRequest(tw) ; XtClass(w)->core_class.resize(w) ; if( XtIsRealized(w) ) { Display *dpy = XtDisplay(w) ; XClearWindow(dpy, XtWindow(w)) ; XtClass(w)->core_class.expose(w,NULL,NULL) ; /* make sure the top widget stays on top. This requires * making sure that all new children are realized first. */ if( tw->tabs.topWidget != NULL && XtIsRealized(tw->tabs.topWidget) ) { for(i=TabsNumChildren (tw); --i >= 0; ++childP) if( !XtIsRealized(*childP) ) XtRealizeWidget(*childP) ; XRaiseWindow(dpy, XtWindow(tw->tabs.topWidget)) ; } } #ifdef NEED_MOTIF /* Only top widget may receive input */ for(childP = tw->composite.children, i=tw->composite.num_children; --i >= 0; ++childP) { XtVaSetValues(*childP, XmNtraversalOn, False, 0) ; } if( tw->tabs.topWidget != NULL ) XtVaSetValues(tw->tabs.topWidget, XmNtraversalOn, True, 0) ; #endif } /**************************************************************** * * Action Procedures * ****************************************************************/ /* User clicks on a tab, figure out which one it was. */ /* ARGSUSED */ static void TabsSelect(Widget w, XEvent *event, String *params, Cardinal *num_params) { TabsWidget tw = (TabsWidget) w ; Widget *childP ; Position x,y ; Dimension h = tw->tabs.tab_height ; int i ; #ifdef NEED_MOTIF XmProcessTraversal (w, XmTRAVERSE_CURRENT) ; #endif /* TODO: is there an Xmu function or something to do this instead? */ switch( event->type ) { case ButtonPress: case ButtonRelease: x = event->xbutton.x ; y = event->xbutton.y ; break ; case KeyPress: case KeyRelease: x = event->xkey.x ; y = event->xkey.y ; break ; default: return ; } /* TODO: determine which tab was clicked, if any. Set that * widget to be top of stacking order with XawTabsSetTop(). */ for(i=0, childP=tw->composite.children; i < (int) TabsNumChildren (tw); ++i, ++childP) if( TabVisible(*childP) ) { TabsConstraints tab = (TabsConstraints)(*childP)->core.constraints; if( x > tab->tabs.x && x < tab->tabs.x + tab->tabs.width && y > tab->tabs.y && y < tab->tabs.y + h ) { if( *childP != tw->tabs.topWidget && (XtIsSensitive(*childP) || tw->tabs.selectInsensitive) ) XawTabsSetTop(*childP, True) ; break ; } } } /* User hits a key */ static void TabsPage(Widget w, XEvent *event, String *params, Cardinal *num_params) { TabsWidget tw = (TabsWidget) w ; Widget newtop = NULL; Widget *childP ; int idx ; int nc = TabsNumChildren (tw) ; if( nc <= 0 ) return ; if( *num_params < 1 ) { XtAppWarning(XtWidgetToApplicationContext(w), "Tabs: page() action called with no arguments") ; return ; } if( tw->tabs.topWidget == NULL ) tw->tabs.topWidget = tw->composite.children[0] ; for(idx=0, childP=tw->composite.children; idx < nc; ++idx, ++childP ) if( tw->tabs.topWidget == *childP ) break ; switch( params[0][0] ) { case 'u': /* up */ case 'U': if( --idx < 0 ) idx = nc-1 ; newtop = tw->composite.children[idx] ; break ; case 'd': /* down */ case 'D': if( ++idx >= nc ) idx = 0 ; newtop = tw->composite.children[idx] ; break ; case 'h': case 'H': default: newtop = tw->composite.children[0] ; break ; case 'e': case 'E': newtop = tw->composite.children[nc-1] ; break ; case 's': /* selected */ case 'S': if( (newtop = tw->tabs.hilight) == NULL ) return ; break ; } XawTabsSetTop(newtop, True) ; } /* User hits up/down key */ static void TabsHighlight(Widget w, XEvent *event, String *params, Cardinal *num_params) { TabsWidget tw = (TabsWidget) w ; Widget newhl = NULL; Widget *childP ; int idx ; int nc = TabsNumChildren (tw) ; if( nc <= 0 ) return ; if( *num_params < 1 ) { if( tw->tabs.hilight != NULL ) DrawHighlight(tw, tw->tabs.hilight, False) ; return ; } if( tw->tabs.hilight == NULL ) newhl = tw->composite.children[0] ; else { /* find index of currently highlit child */ for(idx=0, childP=tw->composite.children; idx < nc; ++idx, ++childP ) if( tw->tabs.hilight == *childP ) break ; switch( params[0][0] ) { case 'u': /* up */ case 'U': if( --idx < 0 ) idx = nc-1 ; newhl = tw->composite.children[idx] ; break ; case 'd': /* down */ case 'D': if( ++idx >= nc ) idx = 0 ; newhl = tw->composite.children[idx] ; break ; case 'h': case 'H': newhl = tw->composite.children[0] ; break ; case 'e': case 'E': newhl = tw->composite.children[nc-1] ; break ; default: newhl = tw->tabs.hilight ; break ; } } XawTabsSetHighlight(w, newhl) ; } static void TabsUnhighlight(Widget w, XEvent *event, String *params, Cardinal *num_params) { TabsWidget tw = (TabsWidget) w ; int nc = tw->composite.num_children ; if( nc <= 0 ) return ; if( tw->tabs.hilight != NULL ) DrawHighlight(tw, tw->tabs.hilight, True) ; } /**************************************************************** * * Public Procedures * ****************************************************************/ /* Set the top tab, optionally call all callbacks. */ void XawTabsSetTop(Widget w, Bool callCallbacks) { TabsWidget tw = (TabsWidget)w->core.parent ; TabsConstraints tab ; Widget oldtop = tw->tabs.topWidget ; if( !XtIsSubclass(w->core.parent, tabsWidgetClass) ) { char line[256] ; sprintf(line, "XawTabsSetTop: widget \"%.64s\" is not the child of a tabs widget.", XtName(w)) ; XtAppWarning(XtWidgetToApplicationContext(w), line) ; return ; } if( callCallbacks ) XtCallCallbackList(w, tw->tabs.popdownCallbacks, (XtPointer)tw->tabs.topWidget) ; if( !XtIsRealized(w) ) { tw->tabs.topWidget = w ; tw->tabs.needs_layout = True ; tw->tabs.hilight = NULL; /* The highlight tab might disappear. */ return ; } XRaiseWindow(XtDisplay(w), XtWindow(w)) ; #ifdef NEED_MOTIF XtVaSetValues(oldtop, XmNtraversalOn, False, 0) ; XtVaSetValues(w, XmNtraversalOn, True, 0) ; #endif tab = (TabsConstraints) w->core.constraints ; /* Unhighlight before we start messing with the stacking order. */ if( tw->tabs.hilight != NULL ) { DrawHighlight(tw, tw->tabs.hilight, True) ; tw->tabs.hilight = NULL; } if( tab->tabs.row == 0 ) { /* Easy case; undraw current top, undraw new top, assign new * top, redraw all borders. * We *could* just erase and execute a full redraw, but I like to * reduce screen flicker. */ UndrawTab(tw, oldtop) ; /* undraw old */ DrawBorder(tw, oldtop, True) ; UndrawTab(tw, w) ; /* undraw new */ DrawBorder(tw, w, True) ; tw->tabs.topWidget = w ; DrawTab(tw, oldtop, True) ; /* redraw old */ DrawTab(tw, w, True) ; /* redraw new */ DrawTabs(tw, False) ; } else { tw->tabs.topWidget = w ; TabsShuffleRows(tw) ; XClearWindow(XtDisplay((Widget)tw), XtWindow((Widget)tw)) ; XtClass(tw)->core_class.expose((Widget)tw,NULL,None) ; } XawTabsSetHighlight((Widget)tw, w) ; if( callCallbacks ) XtCallCallbackList(w, tw->tabs.callbacks, (XtPointer)w) ; } /* Set the top tab, optionally call all callbacks. */ void XawTabsSetHighlight(Widget t, Widget w) { TabsWidget tw = (TabsWidget)t ; if( !XtIsSubclass(t, tabsWidgetClass) ) return ; if( XtIsRealized(t) && w != tw->tabs.hilight ) { if( w != NULL ) DrawHighlight(tw, w, False) ; } tw->tabs.hilight = w ; } /**************************************************************** * * Private Procedures * ****************************************************************/ static void TabsAllocGCs(TabsWidget tw) { TabsAllocFgGC(tw) ; TabsAllocGreyGC(tw) ; tw->tabs.backgroundGC = AllocBackgroundGC((Widget)tw, None) ; tw->tabs.topGC = AllocTopShadowGC((Widget)tw, tw->tabs.top_shadow_contrast, tw->tabs.be_nice_to_cmap) ; tw->tabs.botGC = AllocBotShadowGC((Widget)tw, tw->tabs.bot_shadow_contrast, tw->tabs.be_nice_to_cmap) ; } static void TabsFreeGCs(TabsWidget tw) { Widget w = (Widget) tw; XtReleaseGC(w, tw->tabs.foregroundGC) ; XtReleaseGC(w, tw->tabs.greyGC) ; XtReleaseGC(w, tw->tabs.backgroundGC) ; XtReleaseGC(w, tw->tabs.topGC) ; XtReleaseGC(w, tw->tabs.botGC) ; #ifdef HAVE_XMU XmuReleaseStippledPixmap(XtScreen(w), tw->tabs.grey50) ; #endif } /* Redraw entire Tabs widget */ static void DrawTabs(TabsWidget tw, Bool labels) { Widget *childP ; int i,j ; Dimension s = SHADWID ; Dimension th = tw->tabs.tab_height ; Position y ; TabsConstraints tab ; if( !XtIsRealized((Widget)tw)) return ; /* draw tabs and frames by row except for the top tab, which * is drawn last. (This is inefficiently written, but should not * be too slow as long as there are not a lot of rows.) */ y = tw->tabs.numRows == 1 ? TABDELTA : 0 ; for(i=0; i < (int) tw->tabs.numRows; ++i, y += th) { for( j=TabsNumChildren (tw), childP=tw->composite.children; --j >= 0; ++childP ) if( TabVisible(*childP) ) { tab = (TabsConstraints)(*childP)->core.constraints; if( tab->tabs.row == i && *childP != tw->tabs.topWidget ) DrawTab(tw, *childP, labels) ; } if( i != (int) tw->tabs.numRows -1 ) DrawTrim(tw, 0,y+th, tw->core.width, th+s, False,False) ; } DrawFrame(tw) ; /* and now the top tab */ if( tw->tabs.topWidget != NULL ) DrawTab(tw, tw->tabs.topWidget, labels) ; } /* Draw one tab. Corners are rounded very slightly. */ static void DrawTab(TabsWidget tw, Widget child, Bool labels) { GC gc ; int x,y ; if( !XtIsRealized((Widget)tw)) return ; DrawBorder(tw, child, False) ; if( labels ) { TabsConstraints tab = (TabsConstraints)child->core.constraints; Display *dpy = XtDisplay((Widget)tw) ; Window win = XtWindow((Widget)tw) ; String lbl = tab->tabs.label != NULL ? tab->tabs.label : XtName(child) ; if( XtIsSensitive(child) ) { gc = tw->tabs.foregroundGC ; XSetForeground(dpy, gc, tab->tabs.foreground) ; } else { /* grey pixel allocation deferred until now */ if( !tab->tabs.greyAlloc ) { if( tw->tabs.be_nice_to_cmap || tw->core.depth == 1 ) tab->tabs.grey = tab->tabs.foreground ; else tab->tabs.grey = AllocGreyPixel((Widget)tw, tab->tabs.foreground, tw->core.background_pixel, tw->tabs.insensitive_contrast ) ; tab->tabs.greyAlloc = True ; } gc = tw->tabs.greyGC ; XSetForeground(dpy, gc, tab->tabs.grey) ; } x = tab->tabs.x ; y = tab->tabs.y ; if( child == tw->tabs.topWidget ) y -= TABLDELTA ; if( tab->tabs.left_bitmap != None && tab->tabs.lbm_width > 0 ) { if( tab->tabs.lbm_depth == 1 ) XCopyPlane(dpy, tab->tabs.left_bitmap, win,gc, 0,0, tab->tabs.lbm_width, tab->tabs.lbm_height, x+tab->tabs.lbm_x, y+tab->tabs.lbm_y, 1L) ; else XCopyArea(dpy, tab->tabs.left_bitmap, win,gc, 0,0, tab->tabs.lbm_width, tab->tabs.lbm_height, x+tab->tabs.lbm_x, y+tab->tabs.lbm_y) ; } if( lbl != NULL && tw->tabs.font != NULL ) XDrawString(dpy,win,gc, x+tab->tabs.l_x, y+tab->tabs.l_y, lbl, (int)strlen(lbl)) ; } if( child == tw->tabs.hilight ) DrawHighlight(tw, child, False) ; } /* draw frame all the way around the child windows. */ static void DrawFrame(TabsWidget tw) { GC topgc = tw->tabs.topGC ; GC botgc = tw->tabs.botGC ; Dimension s = SHADWID ; Dimension ch = tw->tabs.child_height ; if (ch > 0) Draw3dBox((Widget)tw, 0,tw->tabs.tab_total, tw->core.width, ch+2*s, s, topgc, botgc) ; else { Widget w = tw->tabs.topWidget ; if (w != NULL) { TabsConstraints tab = (TabsConstraints) w->core.constraints ; Draw3dBox((Widget)tw, 0,tw->core.height - 2*s, tab->tabs.x, 2*s, s, topgc, botgc); Draw3dBox((Widget)tw, tab->tabs.x + tab->tabs.width, tw->core.height - 2*s, tw->core.width - tab->tabs.x - tab->tabs.width, 2*s, s, topgc, botgc); } else Draw3dBox((Widget)tw, 0,tw->core.height - 2*s, tw->core.width, 2*s, s, topgc, botgc) ; } } /* draw trim around a tab or underneath a row of tabs */ static void DrawTrim(TabsWidget tw, /* widget */ int x, /* upper-left corner */ int y, int wid, /* total size */ int hgt, Bool bottom, /* draw bottom? */ Bool undraw) /* undraw all */ { Display *dpy = XtDisplay((Widget)tw) ; Window win = XtWindow((Widget)tw) ; GC bggc = tw->tabs.backgroundGC ; GC topgc = undraw ? bggc : tw->tabs.topGC ; GC botgc = undraw ? bggc : tw->tabs.botGC ; if( bottom ) XDrawLine(dpy,win,bggc, x,y+hgt-1, x+wid-1,y+hgt-1) ; /* bottom */ XDrawLine(dpy,win,topgc, x,y+2, x,y+hgt-2) ; /* left */ XDrawPoint(dpy,win,topgc, x+1,y+1) ; /* corner */ XDrawLine(dpy,win,topgc, x+2,y, x+wid-3,y) ; /* top */ XDrawLine(dpy,win,botgc, x+wid-2,y+1, x+wid-2,y+hgt-2) ; /* right */ XDrawLine(dpy,win,botgc, x+wid-1,y+2, x+wid-1,y+hgt-2) ; /* right */ } /* Draw one tab border. */ static void DrawBorder(TabsWidget tw, Widget child, Bool undraw) { TabsConstraints tab = (TabsConstraints)child->core.constraints; Position x = tab->tabs.x ; Position y = tab->tabs.y ; Dimension twid = tab->tabs.width ; Dimension thgt = tw->tabs.tab_height ; /* top tab requires a little special attention; it overlaps * neighboring tabs slightly, so the background must be cleared * in the region of the overlap to partially erase those neighbors. * TODO: is this worth doing with regions instead? */ if( child == tw->tabs.topWidget ) { Display *dpy = XtDisplay((Widget)tw) ; Window win = XtWindow((Widget)tw) ; GC bggc = tw->tabs.backgroundGC ; XRectangle rects[3] ; x -= TABDELTA ; y -= TABDELTA ; twid += TABDELTA*2 ; thgt += TABDELTA ; AddRect(0, x,y+1,twid,TABDELTA) ; AddRect(1, x+1,y,TABDELTA,thgt) ; AddRect(2, x+twid-TABDELTA-1,y,TABDELTA,thgt) ; XFillRectangles(dpy,win,bggc, rects, 3) ; } DrawTrim(tw, x,y,twid,thgt+1, child == tw->tabs.topWidget, undraw) ; } /* Draw highlight around tab that has focus */ static void DrawHighlight(TabsWidget tw, Widget child, Bool undraw) { TabsConstraints tab = (TabsConstraints)child->core.constraints; Display *dpy = XtDisplay((Widget)tw) ; Window win = XtWindow((Widget)tw) ; GC gc ; Position x = tab->tabs.x ; Position y = tab->tabs.y ; Dimension wid = tab->tabs.width ; Dimension hgt = tw->tabs.tab_height ; XPoint points[6] ; /* top tab does not have a highlight */ if( child == tw->tabs.topWidget ) return ; if( undraw ) gc = tw->tabs.backgroundGC ; else if( XtIsSensitive(child) ) { gc = tw->tabs.foregroundGC ; XSetForeground(dpy, gc, tab->tabs.foreground) ; } else { gc = tw->tabs.greyGC ; XSetForeground(dpy, gc, tab->tabs.grey) ; } points[0].x = x+1 ; points[0].y = y+hgt-1 ; points[1].x = x+1 ; points[1].y = y+2 ; points[2].x = x+2 ; points[2].y = y+1 ; points[3].x = x+wid-4 ; points[3].y = y+1 ; points[4].x = x+wid-3 ; points[4].y = y+2 ; points[5].x = x+wid-3 ; points[5].y = y+hgt-1 ; XDrawLines(dpy,win,gc, points,6, CoordModeOrigin) ; } /* Undraw one tab interior */ static void UndrawTab(TabsWidget tw, Widget child) { TabsConstraints tab = (TabsConstraints)child->core.constraints; Position x = tab->tabs.x ; Position y = tab->tabs.y ; Dimension twid = tab->tabs.width ; Dimension thgt = tw->tabs.tab_height ; Display *dpy = XtDisplay((Widget)tw) ; Window win = XtWindow((Widget)tw) ; GC bggc = tw->tabs.backgroundGC ; XFillRectangle(dpy,win,bggc, x,y, twid,thgt) ; } /* GEOMETRY UTILITIES */ /* Overview: * * MaxChild(): ask all children (except possibly one) their * preferred sizes, set max_cw, max_ch accordingly. * * GetPreferredSizes(): ask all children their preferred sizes, * set max_cw, max_ch accordingly. * * PreferredSize(): given max_cw, max_ch, return tabs widget * preferred size. Iterate with other widths in order to get * a reasonable aspect ratio. * * PreferredSize2(): Given child dimensions, return Tabs * widget dimensions. * * PreferredSize3(): Same, except given child dimensions plus * shadow. */ /* Compute the width of one child's tab. Positions will be computed * elsewhere. * * height: font height + vertical_space*2 + shadowWid*2 * width: string width + horizontal_space*2 + shadowWid*2 * * All tabs are the same height, so that is computed elsewhere. */ static void TabWidth(Widget w) { TabsConstraints tab = (TabsConstraints) w->core.constraints ; TabsWidget tw = (TabsWidget)XtParent(w) ; String lbl = tab->tabs.label != NULL ? tab->tabs.label : XtName(w) ; XFontStruct *font = tw->tabs.font ; int iw = tw->tabs.internalWidth ; tab->tabs.width = iw + SHADWID*2 ; tab->tabs.l_x = tab->tabs.lbm_x = SHADWID + iw ; if( tab->tabs.left_bitmap != None ) { tab->tabs.width += tab->tabs.lbm_width + iw ; tab->tabs.l_x += tab->tabs.lbm_width + iw ; tab->tabs.lbm_y = (tw->tabs.tab_height - tab->tabs.lbm_height)/2 ; } if( lbl != NULL && font != NULL ) { tab->tabs.width += XTextWidth( font, lbl, (int)strlen(lbl) ) + iw ; tab->tabs.l_y = (tw->tabs.tab_height + tw->tabs.font->max_bounds.ascent - tw->tabs.font->max_bounds.descent)/2 ; } } /* Lay out tabs to fit in given width. Compute x,y position and * row number for each tab. Return number of rows and total height * required by all tabs. If there is only one row, add TABDELTA * height to the total. Rows are assigned bottom to top. * * Tabs are indented from the edges by INDENT. * * TODO: if they require more than two rows and the total height:width * ratio is more than 2:1, then try something else. */ static int TabLayout(TabsWidget tw, Dimension wid, Dimension hgt, Dimension *reply_height, Bool query_only) { int i, row, done = 0, display_rows = 0 ; int num_children = tw->composite.num_children ; Widget *childP ; Dimension w ; Position x,y ; TabsConstraints tab ; /* Algorithm: loop through children, assign X positions. If a tab * would extend beyond the right edge, start a new row. After all * rows are assigned, make a second pass and assign Y positions. */ if( num_children > 0 ) { /* Loop through the tabs and see how much space they need. */ row = 0 ; x = INDENT ; y = 0 ; wid -= INDENT ; for(i=num_children, childP=tw->composite.children; --i >= 0; ++childP) if( XtIsManaged(*childP) ) { tab = (TabsConstraints) (*childP)->core.constraints ; w = tab->tabs.width ; if( x + w > wid ) { /* new row */ if (y + tw->tabs.tab_height > hgt && !done) { display_rows = row; done = 1; } ++row; x = INDENT ; y += tw->tabs.tab_height ; } if( !query_only ) { tab->tabs.x = x ; tab->tabs.y = y ; tab->tabs.row = row ; } x += w + SPACING ; if (!query_only && !done) tab->tabs.visible = 1; } /* If there was only one row, increase the height by TABDELTA */ if( ++display_rows == 1 ) { row++; y = TABDELTA ; if( !query_only ) for(i=num_children, childP=tw->composite.children; --i >= 0 ; ++childP) if( XtIsManaged(*childP) ) { tab = (TabsConstraints) (*childP)->core.constraints ; tab->tabs.y = y ; } } y += tw->tabs.tab_height ; } else display_rows = row = y = 0 ; if( !query_only ) { tw->tabs.tab_total = y ; tw->tabs.numRows = display_rows ; tw->tabs.realRows = row; } if( reply_height != NULL ) *reply_height = y ; return display_rows ; } /* Find max preferred child size. Returned sizes include child * border widths. */ static void GetPreferredSizes(TabsWidget tw) { MaxChild(tw, NULL, 0,0) ; } /* Find max preferred child size. Returned sizes include child * border widths. If except is non-null, don't ask that one. */ static void MaxChild(TabsWidget tw, Widget except, Dimension cw, Dimension ch) { int i ; Widget *childP = tw->composite.children ; XtWidgetGeometry preferred ; for(i=tw->composite.num_children; --i >=0; ++childP) if( TabVisible (*childP) /*XtIsManaged(*childP)*/ && *childP != except ) { (void) XtQueryGeometry(*childP, NULL, &preferred) ; cw = Max(cw, preferred.width + preferred.border_width * 2 ) ; ch = Max(ch, preferred.height + preferred.border_width * 2 ) ; } tw->tabs.max_cw = cw ; tw->tabs.max_ch = ch ; } /* rotate row numbers to bring current widget to bottom row, * compute y positions for all tabs */ static void TabsShuffleRows(TabsWidget tw) { TabsConstraints tab ; int move ; int real_rows, display_rows ; Widget *childP ; Dimension th = tw->tabs.tab_height ; Position bottom ; int i ; /* There must be a top widget. If not, assign one. */ if( tw->tabs.topWidget == NULL && tw->composite.children != NULL ) for(i=TabsNumChildren (tw), childP=tw->composite.children; --i >= 0; ++childP) if( XtIsManaged(*childP) ) { tw->tabs.topWidget = *childP ; break ; } if( tw->tabs.topWidget != NULL ) { display_rows = tw->tabs.numRows ; real_rows = tw->tabs.realRows ; assert( display_rows <= real_rows ) ; if( real_rows > 1 ) { tab = (TabsConstraints) tw->tabs.topWidget->core.constraints ; assert( tab != NULL ) ; /* How far to move top row. The selected tab must be on the bottom row of the *visible* rows. */ move = (real_rows + 1 - display_rows) - tab->tabs.row ; if (move < 0) move = real_rows - move; bottom = tw->tabs.tab_total - th ; for(i=tw->composite.num_children, childP=tw->composite.children; --i >= 0; ++childP) if( XtIsManaged(*childP) ) { tab = (TabsConstraints) (*childP)->core.constraints ; tab->tabs.row = (tab->tabs.row + move) % real_rows ; tab->tabs.y = bottom - tab->tabs.row * th ; tab->tabs.visible = (tab->tabs.row < display_rows); } } } } /* Find preferred size. Ask children, find size of largest, * add room for tabs & return. This can get a little involved, * as we don't want to have too many rows of tabs; we may widen * the widget to reduce # of rows. * * This function requires that max_cw, max_ch already be set. */ static int PreferredSize( TabsWidget tw, Dimension *reply_width, /* total widget size */ Dimension *reply_height, Dimension *reply_cw, /* child widget size */ Dimension *reply_ch) { Dimension cw,ch ; /* child width, height */ Dimension wid,hgt ; Dimension rwid,rhgt ; int nrow ; wid = cw = tw->tabs.max_cw ; hgt = ch = tw->tabs.max_ch ; nrow = PreferredSize2(tw, wid,hgt, &rwid, &rhgt) ; /* Check for absurd results (more than 2 rows, high aspect * ratio). Try wider size if needed. * TODO: make sure this terminates. */ if( nrow > 2 && rhgt > rwid ) { Dimension w0, w1 ; int maxloop = 20 ; /* step 1: start doubling size until it's too big */ do { w0 = wid ; wid = Max(wid*2, wid+20) ; nrow = PreferredSize2(tw, wid,hgt, &rwid,&rhgt) ; } while( nrow > 2 && rhgt > rwid ) ; w1 = wid ; /* step 2: use Newton's method to find ideal size. Stop within * 8 pixels. */ while( --maxloop > 0 && w1 > w0 + 8 ) { wid = (w0+w1)/2 ; nrow = PreferredSize2(tw, wid,hgt, &rwid,&rhgt) ; if( nrow > 2 && rhgt > rwid ) w0 = wid ; else w1 = wid ; } wid = w1 ; } *reply_width = rwid ; *reply_height = rhgt ; if( reply_cw != NULL ) *reply_cw = cw ; if( reply_ch != NULL ) *reply_ch = ch ; return nrow ; } /* Find preferred size, given size of children. */ static int PreferredSize2( TabsWidget tw, Dimension cw, /* child width, height */ Dimension ch, Dimension *reply_width, /* total widget size */ Dimension *reply_height) { Dimension s = SHADWID ; int ret; /* make room for shadow frame */ cw += s*2 ; ch += s*2 ; ret = PreferredSize3(tw, cw, ch, reply_width, reply_height) ; assert (*reply_width > 0 && *reply_height > 0); return ret; } /* Find preferred size, given size of children+shadow. */ static int PreferredSize3( TabsWidget tw, Dimension wid, /* child width, height */ Dimension hgt, Dimension *reply_width, /* total widget size */ Dimension *reply_height) { Dimension th ; /* space used by tabs */ int nrows ; if( tw->composite.num_children > 0 ) nrows = TabLayout(tw, wid, hgt, &th, True) ; else { th = 0 ; nrows = 0 ; } *reply_width = Max(wid, MIN_WID) ; *reply_height = Max(th+hgt, MIN_HGT) ; return nrows ; } static void MakeSizeRequest(TabsWidget tw) { Widget w = (Widget)tw ; XtWidgetGeometry request, reply ; XtGeometryResult result ; Dimension cw,ch ; request.request_mode = CWWidth | CWHeight ; PreferredSize(tw, &request.width, &request.height, &cw, &ch) ; if( request.width == tw->core.width && request.height == tw->core.height ) return ; result = XtMakeGeometryRequest(w, &request, &reply) ; if( result == XtGeometryAlmost ) { /* Bugger. Didn't get what we want, but were offered a * compromise. If the width was too small, recompute * based on the too-small width and try again. * If the height was too small, make a wild-ass guess * at a wider width and try again. */ if( reply.width < request.width && reply.height >= request.height ) { Dimension s = SHADWID ; ch += s*2 ; PreferredSize3(tw, reply.width,ch, &request.width, &request.height); result = XtMakeGeometryRequest(w, &request, &reply) ; if( result == XtGeometryAlmost ) (void) XtMakeGeometryRequest(w, &reply, NULL) ; } else (void) XtMakeGeometryRequest(w, &reply, NULL) ; } } static void getBitmapInfo(TabsWidget tw, TabsConstraints tab) { Window root ; int x,y ; unsigned int bw ; if( tab->tabs.left_bitmap == None || !XGetGeometry(XtDisplay(tw), tab->tabs.left_bitmap, &root, &x, &y, &tab->tabs.lbm_width, &tab->tabs.lbm_height, &bw, &tab->tabs.lbm_depth) ) tab->tabs.lbm_width = tab->tabs.lbm_height = 0 ; } /* Code copied & modified from Gcs.c. This version has dynamic * foreground. */ static void TabsAllocFgGC(TabsWidget tw) { Widget w = (Widget) tw; XGCValues values ; values.background = tw->core.background_pixel ; values.font = tw->tabs.font->fid ; values.line_style = LineOnOffDash ; values.line_style = LineSolid ; tw->tabs.foregroundGC = XtAllocateGC(w, w->core.depth, GCBackground|GCFont|GCLineStyle, &values, GCForeground, GCSubwindowMode|GCGraphicsExposures|GCDashOffset| GCDashList|GCArcMode) ; } static void TabsAllocGreyGC(TabsWidget tw) { Widget w = (Widget) tw; XGCValues values ; values.background = tw->core.background_pixel ; values.font = tw->tabs.font->fid ; #ifdef HAVE_XMU if( tw->tabs.be_nice_to_cmap || w->core.depth == 1) { values.fill_style = FillStippled ; tw->tabs.grey50 = values.stipple = XmuCreateStippledPixmap(XtScreen(w), 1L, 0L, 1) ; tw->tabs.greyGC = XtAllocateGC(w, w->core.depth, GCBackground|GCFont|GCStipple|GCFillStyle, &values, GCForeground, GCSubwindowMode|GCGraphicsExposures|GCDashOffset| GCDashList|GCArcMode) ; } else #endif { tw->tabs.greyGC = XtAllocateGC(w, w->core.depth, GCFont, &values, GCForeground, GCBackground|GCSubwindowMode|GCGraphicsExposures|GCDashOffset| GCDashList|GCArcMode) ; } }