/* * Copyright (c) 2009-2012 Marco Peereboom * Copyright (c) 2009-2011 Ryan McBride * Copyright (c) 2009 Darrin Chandler * Copyright (c) 2009 Pierre-Yves Ritschard * Copyright (c) 2010 Tuukka Kataja * Copyright (c) 2011 Jason L. Wright * Copyright (c) 2011-2012 Reginald Kennedy * Copyright (c) 2011-2012 Lawrence Teo * Copyright (c) 2011-2012 Tiago Cunha * Copyright (c) 2012 David Hill * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, 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. */ /* * Much code and ideas taken from dwm under the following license: * MIT/X Consortium License * * 2006-2008 Anselm R Garbe * 2006-2007 Sander van Dijk * 2006-2007 Jukka Salmi * 2007 Premysl Hruby * 2007 Szabolcs Nagy * 2007 Christof Musik * 2007-2008 Enno Gottox Boland * 2007-2008 Peter Hartlich * 2008 Martin Hurton * * 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 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. */ /* kernel includes */ #include #include #include #include #include #include #include #if defined(__linux__) #include "tree.h" #elif defined(__OpenBSD__) #include #elif defined(__FreeBSD__) #include #else #include "tree.h" #endif /* /usr/includes */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* local includes */ #include "version.h" #ifdef __OSX__ #include #endif #ifdef SPECTRWM_BUILDSTR static const char *buildstr = SPECTRWM_BUILDSTR; #else static const char *buildstr = SPECTRWM_VERSION; #endif #if !defined(__CYGWIN__) /* cygwin chokes on xrandr stuff */ # if RANDR_MAJOR < 1 # error XRandR versions less than 1.0 are not supported #endif # if RANDR_MAJOR >= 1 # if RANDR_MINOR >= 2 # define SWM_XRR_HAS_CRTC # endif # endif #endif /* __CYGWIN__ */ #ifndef XCB_ICCCM_NUM_WM_HINTS_ELEMENTS #define XCB_ICCCM_SIZE_HINT_P_MIN_SIZE XCB_SIZE_HINT_P_MIN_SIZE #define XCB_ICCCM_SIZE_HINT_P_MAX_SIZE XCB_SIZE_HINT_P_MAX_SIZE #define XCB_ICCCM_SIZE_HINT_P_RESIZE_INC XCB_SIZE_HINT_P_RESIZE_INC #define XCB_ICCCM_WM_HINT_INPUT XCB_WM_HINT_INPUT #define XCB_ICCCM_WM_HINT_X_URGENCY XCB_WM_HINT_X_URGENCY #define XCB_ICCCM_WM_STATE_ICONIC XCB_WM_STATE_ICONIC #define XCB_ICCCM_WM_STATE_WITHDRAWN XCB_WM_STATE_WITHDRAWN #define XCB_ICCCM_WM_STATE_NORMAL XCB_WM_STATE_NORMAL #define xcb_icccm_get_text_property_reply_t xcb_get_text_property_reply_t #define xcb_icccm_get_text_property_reply_wipe xcb_get_text_property_reply_wipe #define xcb_icccm_get_wm_class xcb_get_wm_class #define xcb_icccm_get_wm_class_reply xcb_get_wm_class_reply #define xcb_icccm_get_wm_class_reply_t xcb_get_wm_class_reply_t #define xcb_icccm_get_wm_class_reply_wipe xcb_get_wm_class_reply_wipe #define xcb_icccm_get_wm_hints xcb_get_wm_hints #define xcb_icccm_get_wm_hints_reply xcb_get_wm_hints_reply #define xcb_icccm_get_wm_name xcb_get_wm_name #define xcb_icccm_get_wm_name_reply xcb_get_wm_name_reply #define xcb_icccm_get_wm_normal_hints xcb_get_wm_normal_hints #define xcb_icccm_get_wm_normal_hints_reply xcb_get_wm_normal_hints_reply #define xcb_icccm_get_wm_protocols xcb_get_wm_protocols #define xcb_icccm_get_wm_protocols_reply xcb_get_wm_protocols_reply #define xcb_icccm_get_wm_protocols_reply_t xcb_get_wm_protocols_reply_t #define xcb_icccm_get_wm_protocols_reply_wipe xcb_get_wm_protocols_reply_wipe #define xcb_icccm_get_wm_transient_for xcb_get_wm_transient_for #define xcb_icccm_get_wm_transient_for_reply xcb_get_wm_transient_for_reply #define xcb_icccm_wm_hints_t xcb_wm_hints_t #endif /*#define SWM_DEBUG*/ #ifdef SWM_DEBUG #define DPRINTF(x...) do { \ if (swm_debug) \ fprintf(stderr, x); \ } while (0) #define DNPRINTF(n,x...) do { \ if (swm_debug & n) { \ fprintf(stderr, "%ld ", (long)(time(NULL) - time_started)); \ fprintf(stderr, x); \ } \ } while (0) #define SWM_D_MISC 0x0001 #define SWM_D_EVENT 0x0002 #define SWM_D_WS 0x0004 #define SWM_D_FOCUS 0x0008 #define SWM_D_MOVE 0x0010 #define SWM_D_STACK 0x0020 #define SWM_D_MOUSE 0x0040 #define SWM_D_PROP 0x0080 #define SWM_D_CLASS 0x0100 #define SWM_D_KEY 0x0200 #define SWM_D_QUIRK 0x0400 #define SWM_D_SPAWN 0x0800 #define SWM_D_EVENTQ 0x1000 #define SWM_D_CONF 0x2000 #define SWM_D_BAR 0x4000 #define SWM_D_INIT 0x8000 u_int32_t swm_debug = 0 | SWM_D_MISC | SWM_D_EVENT | SWM_D_WS | SWM_D_FOCUS | SWM_D_MOVE | SWM_D_STACK | SWM_D_MOUSE | SWM_D_PROP | SWM_D_CLASS | SWM_D_KEY | SWM_D_QUIRK | SWM_D_SPAWN | SWM_D_EVENTQ | SWM_D_CONF | SWM_D_BAR | SWM_D_INIT ; #else #define DPRINTF(x...) #define DNPRINTF(n,x...) #endif /* convert 8-bit to 16-bit */ #define RGB_8_TO_16(col) ((col) << 8) + (col) #define PIXEL_TO_XRENDERCOLOR(px, xrc) \ xrc.red = RGB_8_TO_16((px) >> 16 & 0xff); \ xrc.green = RGB_8_TO_16((px) >> 8 & 0xff); \ xrc.blue = RGB_8_TO_16((px) & 0xff); \ xrc.alpha = 0xffff; #define LENGTH(x) (int)(sizeof (x) / sizeof (x)[0]) #define MODKEY XCB_MOD_MASK_1 #define CLEANMASK(mask) ((mask) & ~(numlockmask | XCB_MOD_MASK_LOCK)) #define BUTTONMASK (XCB_EVENT_MASK_BUTTON_PRESS | \ XCB_EVENT_MASK_BUTTON_RELEASE) #define MOUSEMASK (BUTTONMASK|XCB_EVENT_MASK_POINTER_MOTION) #define SWM_PROPLEN (16) #define SWM_FUNCNAME_LEN (32) #define SWM_KEYS_LEN (255) #define SWM_QUIRK_LEN (64) #define X(r) (r)->g.x #define Y(r) (r)->g.y #define WIDTH(r) (r)->g.w #define HEIGHT(r) (r)->g.h #define BORDER(w) ((w)->bordered ? border_width : 0) #define MAX_X(r) ((r)->g.x + (r)->g.w) #define MAX_Y(r) ((r)->g.y + (r)->g.h) #define SH_MIN(w) (w)->sh.flags & XCB_ICCCM_SIZE_HINT_P_MIN_SIZE #define SH_MIN_W(w) (w)->sh.min_width #define SH_MIN_H(w) (w)->sh.min_height #define SH_MAX(w) (w)->sh.flags & XCB_ICCCM_SIZE_HINT_P_MAX_SIZE #define SH_MAX_W(w) (w)->sh.max_width #define SH_MAX_H(w) (w)->sh.max_height #define SH_INC(w) (w)->sh.flags & XCB_ICCCM_SIZE_HINT_P_RESIZE_INC #define SH_INC_W(w) (w)->sh.width_inc #define SH_INC_H(w) (w)->sh.height_inc #define SWM_MAX_FONT_STEPS (3) #define WINID(w) ((w) ? (w)->id : 0) #define YESNO(x) ((x) ? "yes" : "no") #define SWM_FOCUS_DEFAULT (0) #define SWM_FOCUS_FOLLOW (1) #define SWM_FOCUS_MANUAL (2) #define SWM_CK_NONE 0 #define SWM_CK_ALL 0xf #define SWM_CK_FOCUS 0x1 #define SWM_CK_POINTER 0x2 #define SWM_CK_FALLBACK 0x4 #define SWM_CK_REGION 0x8 #define SWM_CONF_DEFAULT (0) #define SWM_CONF_KEYMAPPING (1) #ifndef SWM_LIB #define SWM_LIB "/usr/local/lib/libswmhack.so" #endif char **start_argv; xcb_atom_t a_state; xcb_atom_t a_prot; xcb_atom_t a_delete; xcb_atom_t a_takefocus; xcb_atom_t a_wmname; xcb_atom_t a_netwmname; xcb_atom_t a_utf8_string; xcb_atom_t a_string; xcb_atom_t a_swm_iconic; xcb_atom_t a_swm_ws; volatile sig_atomic_t running = 1; volatile sig_atomic_t restart_wm = 0; xcb_timestamp_t last_event_time = 0; int outputs = 0; int other_wm; int xrandr_support; int xrandr_eventbase; unsigned int numlockmask = 0; Display *display; xcb_connection_t *conn; xcb_key_symbols_t *syms; int cycle_empty = 0; int cycle_visible = 0; int term_width = 0; int font_adjusted = 0; unsigned int mod_key = MODKEY; /* dmenu search */ struct swm_region *search_r; int select_list_pipe[2]; int select_resp_pipe[2]; pid_t searchpid; volatile sig_atomic_t search_resp; int search_resp_action; struct search_window { TAILQ_ENTRY(search_window) entry; int idx; struct ws_win *win; xcb_gcontext_t gc; xcb_window_t indicator; }; TAILQ_HEAD(search_winlist, search_window); struct search_winlist search_wl; /* search actions */ enum { SWM_SEARCH_NONE, SWM_SEARCH_UNICONIFY, SWM_SEARCH_NAME_WORKSPACE, SWM_SEARCH_SEARCH_WORKSPACE, SWM_SEARCH_SEARCH_WINDOW }; #define SWM_STACK_TOP (0) #define SWM_STACK_BOTTOM (1) #define SWM_STACK_ABOVE (2) #define SWM_STACK_BELOW (3) /* dialog windows */ double dialog_ratio = 0.6; /* status bar */ #define SWM_BAR_MAX (256) #define SWM_BAR_JUSTIFY_LEFT (0) #define SWM_BAR_JUSTIFY_CENTER (1) #define SWM_BAR_JUSTIFY_RIGHT (2) #define SWM_BAR_OFFSET (4) #define SWM_BAR_FONTS "-*-terminus-medium-*-*-*-12-*-*-*-*-*-*-*," \ "-*-profont-*-*-*-*-12-*-*-*-*-*-*-*," \ "-*-times-medium-r-*-*-12-*-*-*-*-*-*-*," \ "-misc-fixed-medium-r-*-*-12-*-*-*-*-*-*-*," \ "-*-*-*-r-*-*-*-*-*-*-*-*-*-*" #ifdef X_HAVE_UTF8_STRING #define DRAWSTRING(x...) Xutf8DrawString(x) #else #define DRAWSTRING(x...) XmbDrawString(x) #endif char *bar_argv[] = { NULL, NULL }; int bar_pipe[2]; char bar_ext[SWM_BAR_MAX]; char bar_ext_buf[SWM_BAR_MAX]; char bar_vertext[SWM_BAR_MAX]; int bar_version = 0; int bar_enabled = 1; int bar_border_width = 1; int bar_at_bottom = 0; int bar_extra = 0; int bar_verbose = 1; int bar_height = 0; int bar_justify = SWM_BAR_JUSTIFY_LEFT; char *bar_format = NULL; int stack_enabled = 1; int clock_enabled = 1; int urgent_enabled = 0; char *clock_format = NULL; int title_name_enabled = 0; int title_class_enabled = 0; int window_name_enabled = 0; int focus_mode = SWM_FOCUS_DEFAULT; int focus_close = SWM_STACK_BELOW; int focus_close_wrap = 1; int focus_default = SWM_STACK_TOP; int spawn_position = SWM_STACK_TOP; int disable_border = 0; int border_width = 1; int region_padding = 0; int tile_gap = 0; int verbose_layout = 0; time_t time_started; pid_t bar_pid; XFontSet bar_fs; XFontSetExtents *bar_fs_extents; XftFont *bar_font; int bar_font_legacy = 1; char *bar_fonts; XftColor bar_font_color; struct passwd *pwd; char *startup_exception; unsigned int nr_exceptions = 0; /* layout manager data */ struct swm_geometry { int x; int y; int w; int h; }; struct swm_screen; struct workspace; struct swm_bar { xcb_window_t id; xcb_pixmap_t buffer; struct swm_geometry g; }; /* virtual "screens" */ struct swm_region { TAILQ_ENTRY(swm_region) entry; xcb_window_t id; struct swm_geometry g; struct workspace *ws; /* current workspace on this region */ struct workspace *ws_prior; /* prior workspace on this region */ struct swm_screen *s; /* screen idx */ struct swm_bar *bar; }; TAILQ_HEAD(swm_region_list, swm_region); struct ws_win { TAILQ_ENTRY(ws_win) entry; xcb_window_t id; xcb_window_t transient; struct ws_win *focus_child; /* focus on child transient */ struct swm_geometry g; /* current geometry */ struct swm_geometry g_float; /* region coordinates */ int g_floatvalid; /* g_float geometry validity */ int floatmaxed; /* whether maxed by max_stack */ int floating; int manual; int32_t mapped; int32_t iconic; int bordered; unsigned int ewmh_flags; int font_size_boundary[SWM_MAX_FONT_STEPS]; int font_steps; int last_inc; int can_delete; int take_focus; int java; unsigned long quirks; struct workspace *ws; /* always valid */ struct swm_screen *s; /* always valid, never changes */ xcb_get_geometry_reply_t *wa; xcb_size_hints_t sh; xcb_icccm_get_wm_class_reply_t ch; xcb_icccm_wm_hints_t hints; }; TAILQ_HEAD(ws_win_list, ws_win); /* pid goo */ struct pid_e { TAILQ_ENTRY(pid_e) entry; pid_t pid; int ws; }; TAILQ_HEAD(pid_list, pid_e); struct pid_list pidlist = TAILQ_HEAD_INITIALIZER(pidlist); /* layout handlers */ void stack(void); void vertical_config(struct workspace *, int); void vertical_stack(struct workspace *, struct swm_geometry *); void horizontal_config(struct workspace *, int); void horizontal_stack(struct workspace *, struct swm_geometry *); void max_stack(struct workspace *, struct swm_geometry *); void plain_stacker(struct workspace *); void fancy_stacker(struct workspace *); struct layout { void (*l_stack)(struct workspace *, struct swm_geometry *); void (*l_config)(struct workspace *, int); u_int32_t flags; #define SWM_L_FOCUSPREV (1<<0) #define SWM_L_MAPONFOCUS (1<<1) void (*l_string)(struct workspace *); } layouts[] = { /* stack, configure */ { vertical_stack, vertical_config, 0, plain_stacker }, { horizontal_stack, horizontal_config, 0, plain_stacker }, { max_stack, NULL, SWM_L_MAPONFOCUS | SWM_L_FOCUSPREV, plain_stacker }, { NULL, NULL, 0, NULL }, }; /* position of max_stack mode in the layouts array, index into layouts! */ #define SWM_V_STACK (0) #define SWM_H_STACK (1) #define SWM_MAX_STACK (2) #define SWM_H_SLICE (32) #define SWM_V_SLICE (32) /* define work spaces */ struct workspace { int idx; /* workspace index */ char *name; /* workspace name */ int always_raise; /* raise windows on focus */ int bar_enabled; /* bar visibility */ struct layout *cur_layout; /* current layout handlers */ struct ws_win *focus; /* may be NULL */ struct ws_win *focus_prev; /* may be NULL */ struct ws_win *focus_pending; /* may be NULL */ struct swm_region *r; /* may be NULL */ struct swm_region *old_r; /* may be NULL */ struct ws_win_list winlist; /* list of windows in ws */ struct ws_win_list unmanagedlist; /* list of dead windows in ws */ char stacker[10]; /* display stacker and layout */ /* stacker state */ struct { int horizontal_msize; int horizontal_mwin; int horizontal_stacks; int horizontal_flip; int vertical_msize; int vertical_mwin; int vertical_stacks; int vertical_flip; } l_state; }; enum { SWM_S_COLOR_BAR, SWM_S_COLOR_BAR_BORDER, SWM_S_COLOR_BAR_BORDER_UNFOCUS, SWM_S_COLOR_BAR_FONT, SWM_S_COLOR_FOCUS, SWM_S_COLOR_UNFOCUS, SWM_S_COLOR_MAX }; /* physical screen mapping */ #define SWM_WS_MAX (22) /* hard limit */ int workspace_limit = 10; /* soft limit */ struct swm_screen { int idx; /* screen index */ struct swm_region_list rl; /* list of regions on this screen */ struct swm_region_list orl; /* list of old regions */ xcb_window_t root; struct workspace ws[SWM_WS_MAX]; struct swm_region *r_focus; /* colors */ struct { uint32_t pixel; char *name; } c[SWM_S_COLOR_MAX]; xcb_gcontext_t bar_gc; GC bar_gc_legacy; }; struct swm_screen *screens; /* args to functions */ union arg { int id; #define SWM_ARG_ID_FOCUSNEXT (0) #define SWM_ARG_ID_FOCUSPREV (1) #define SWM_ARG_ID_FOCUSMAIN (2) #define SWM_ARG_ID_SWAPNEXT (10) #define SWM_ARG_ID_SWAPPREV (11) #define SWM_ARG_ID_SWAPMAIN (12) #define SWM_ARG_ID_MOVELAST (13) #define SWM_ARG_ID_MASTERSHRINK (20) #define SWM_ARG_ID_MASTERGROW (21) #define SWM_ARG_ID_MASTERADD (22) #define SWM_ARG_ID_MASTERDEL (23) #define SWM_ARG_ID_FLIPLAYOUT (24) #define SWM_ARG_ID_STACKRESET (30) #define SWM_ARG_ID_STACKINIT (31) #define SWM_ARG_ID_CYCLEWS_UP (40) #define SWM_ARG_ID_CYCLEWS_DOWN (41) #define SWM_ARG_ID_CYCLERG_UP (42) #define SWM_ARG_ID_CYCLERG_DOWN (43) #define SWM_ARG_ID_CYCLEWS_UP_ALL (44) #define SWM_ARG_ID_CYCLEWS_DOWN_ALL (45) #define SWM_ARG_ID_STACKINC (50) #define SWM_ARG_ID_STACKDEC (51) #define SWM_ARG_ID_SS_ALL (60) #define SWM_ARG_ID_SS_WINDOW (61) #define SWM_ARG_ID_DONTCENTER (70) #define SWM_ARG_ID_CENTER (71) #define SWM_ARG_ID_KILLWINDOW (80) #define SWM_ARG_ID_DELETEWINDOW (81) #define SWM_ARG_ID_WIDTHGROW (90) #define SWM_ARG_ID_WIDTHSHRINK (91) #define SWM_ARG_ID_HEIGHTGROW (92) #define SWM_ARG_ID_HEIGHTSHRINK (93) #define SWM_ARG_ID_MOVEUP (100) #define SWM_ARG_ID_MOVEDOWN (101) #define SWM_ARG_ID_MOVELEFT (102) #define SWM_ARG_ID_MOVERIGHT (103) #define SWM_ARG_ID_BAR_TOGGLE (110) #define SWM_ARG_ID_BAR_TOGGLE_WS (111) char **argv; }; /* quirks */ struct quirk { TAILQ_ENTRY(quirk) entry; char *class; char *name; unsigned long quirk; #define SWM_Q_FLOAT (1<<0) /* float this window */ #define SWM_Q_TRANSSZ (1<<1) /* transiend window size too small */ #define SWM_Q_ANYWHERE (1<<2) /* don't position this window */ #define SWM_Q_XTERM_FONTADJ (1<<3) /* adjust xterm fonts when resizing */ #define SWM_Q_FULLSCREEN (1<<4) /* remove border */ #define SWM_Q_FOCUSPREV (1<<5) /* focus on caller */ #define SWM_Q_NOFOCUSONMAP (1<<6) /* Don't focus on window when mapped. */ #define SWM_Q_FOCUSONMAP_SINGLE (1<<7) /* Only focus if single win of type. */ }; TAILQ_HEAD(quirk_list, quirk); struct quirk_list quirks = TAILQ_HEAD_INITIALIZER(quirks); /* * Supported EWMH hints should be added to * both the enum and the ewmh array */ enum { _NET_ACTIVE_WINDOW, _NET_CLOSE_WINDOW, _NET_MOVERESIZE_WINDOW, _NET_WM_ACTION_ABOVE, _NET_WM_ACTION_CLOSE, _NET_WM_ACTION_FULLSCREEN, _NET_WM_ACTION_MOVE, _NET_WM_ACTION_RESIZE, _NET_WM_ALLOWED_ACTIONS, _NET_WM_NAME, _NET_WM_STATE, _NET_WM_STATE_ABOVE, _NET_WM_STATE_FULLSCREEN, _NET_WM_STATE_HIDDEN, _NET_WM_STATE_MAXIMIZED_HORZ, _NET_WM_STATE_MAXIMIZED_VERT, _NET_WM_STATE_SKIP_PAGER, _NET_WM_STATE_SKIP_TASKBAR, _NET_WM_WINDOW_TYPE, _NET_WM_WINDOW_TYPE_DIALOG, _NET_WM_WINDOW_TYPE_DOCK, _NET_WM_WINDOW_TYPE_NORMAL, _NET_WM_WINDOW_TYPE_SPLASH, _NET_WM_WINDOW_TYPE_TOOLBAR, _NET_WM_WINDOW_TYPE_UTILITY, _SWM_WM_STATE_MANUAL, SWM_EWMH_HINT_MAX }; struct ewmh_hint { char *name; xcb_atom_t atom; } ewmh[SWM_EWMH_HINT_MAX] = { /* must be in same order as in the enum */ {"_NET_ACTIVE_WINDOW", XCB_ATOM_NONE}, {"_NET_CLOSE_WINDOW", XCB_ATOM_NONE}, {"_NET_MOVERESIZE_WINDOW", XCB_ATOM_NONE}, {"_NET_WM_ACTION_ABOVE", XCB_ATOM_NONE}, {"_NET_WM_ACTION_CLOSE", XCB_ATOM_NONE}, {"_NET_WM_ACTION_FULLSCREEN", XCB_ATOM_NONE}, {"_NET_WM_ACTION_MOVE", XCB_ATOM_NONE}, {"_NET_WM_ACTION_RESIZE", XCB_ATOM_NONE}, {"_NET_WM_ALLOWED_ACTIONS", XCB_ATOM_NONE}, {"_NET_WM_NAME", XCB_ATOM_NONE}, {"_NET_WM_STATE", XCB_ATOM_NONE}, {"_NET_WM_STATE_ABOVE", XCB_ATOM_NONE}, {"_NET_WM_STATE_FULLSCREEN", XCB_ATOM_NONE}, {"_NET_WM_STATE_HIDDEN", XCB_ATOM_NONE}, {"_NET_WM_STATE_MAXIMIZED_HORZ", XCB_ATOM_NONE}, {"_NET_WM_STATE_MAXIMIZED_VERT", XCB_ATOM_NONE}, {"_NET_WM_STATE_SKIP_PAGER", XCB_ATOM_NONE}, {"_NET_WM_STATE_SKIP_TASKBAR", XCB_ATOM_NONE}, {"_NET_WM_WINDOW_TYPE", XCB_ATOM_NONE}, {"_NET_WM_WINDOW_TYPE_DIALOG", XCB_ATOM_NONE}, {"_NET_WM_WINDOW_TYPE_DOCK", XCB_ATOM_NONE}, {"_NET_WM_WINDOW_TYPE_NORMAL", XCB_ATOM_NONE}, {"_NET_WM_WINDOW_TYPE_SPLASH", XCB_ATOM_NONE}, {"_NET_WM_WINDOW_TYPE_TOOLBAR", XCB_ATOM_NONE}, {"_NET_WM_WINDOW_TYPE_UTILITY", XCB_ATOM_NONE}, {"_SWM_WM_STATE_MANUAL", XCB_ATOM_NONE}, }; /* Cursors */ enum { XC_FLEUR, XC_LEFT_PTR, XC_BOTTOM_LEFT_CORNER, XC_BOTTOM_RIGHT_CORNER, XC_SIZING, XC_TOP_LEFT_CORNER, XC_TOP_RIGHT_CORNER, XC_MAX }; struct cursors { char *name; /* Name used by Xcursor .*/ uint8_t cf_char; /* cursorfont index. */ xcb_cursor_t cid; } cursors[XC_MAX] = { {"fleur", XC_fleur, XCB_CURSOR_NONE}, {"left_ptr", XC_left_ptr, XCB_CURSOR_NONE}, {"bottom_left_corner", XC_bottom_left_corner, XCB_CURSOR_NONE}, {"bottom_right_corner", XC_bottom_right_corner, XCB_CURSOR_NONE}, {"sizing", XC_sizing, XCB_CURSOR_NONE}, {"top_left_corner", XC_top_left_corner, XCB_CURSOR_NONE}, {"top_right_corner", XC_top_right_corner, XCB_CURSOR_NONE}, }; #define SWM_SPAWN_OPTIONAL 0x1 /* spawn */ struct spawn_prog { TAILQ_ENTRY(spawn_prog) entry; char *name; int argc; char **argv; int flags; }; TAILQ_HEAD(spawn_list, spawn_prog); struct spawn_list spawns = TAILQ_HEAD_INITIALIZER(spawns); /* user/key callable function IDs */ enum keyfuncid { KF_BAR_TOGGLE, KF_BAR_TOGGLE_WS, KF_BUTTON2, KF_CYCLE_LAYOUT, KF_FLIP_LAYOUT, KF_FLOAT_TOGGLE, KF_FOCUS_MAIN, KF_FOCUS_NEXT, KF_FOCUS_PREV, KF_HEIGHT_GROW, KF_HEIGHT_SHRINK, KF_ICONIFY, KF_MASTER_SHRINK, KF_MASTER_GROW, KF_MASTER_ADD, KF_MASTER_DEL, KF_MOVE_DOWN, KF_MOVE_LEFT, KF_MOVE_RIGHT, KF_MOVE_UP, KF_MVRG_1, KF_MVRG_2, KF_MVRG_3, KF_MVRG_4, KF_MVRG_5, KF_MVRG_6, KF_MVRG_7, KF_MVRG_8, KF_MVRG_9, KF_MVWS_1, KF_MVWS_2, KF_MVWS_3, KF_MVWS_4, KF_MVWS_5, KF_MVWS_6, KF_MVWS_7, KF_MVWS_8, KF_MVWS_9, KF_MVWS_10, KF_MVWS_11, KF_MVWS_12, KF_MVWS_13, KF_MVWS_14, KF_MVWS_15, KF_MVWS_16, KF_MVWS_17, KF_MVWS_18, KF_MVWS_19, KF_MVWS_20, KF_MVWS_21, KF_MVWS_22, KF_NAME_WORKSPACE, KF_QUIT, KF_RAISE_TOGGLE, KF_RESTART, KF_RG_1, KF_RG_2, KF_RG_3, KF_RG_4, KF_RG_5, KF_RG_6, KF_RG_7, KF_RG_8, KF_RG_9, KF_RG_NEXT, KF_RG_PREV, KF_SCREEN_NEXT, KF_SCREEN_PREV, KF_SEARCH_WIN, KF_SEARCH_WORKSPACE, KF_SPAWN_CUSTOM, KF_STACK_INC, KF_STACK_DEC, KF_STACK_RESET, KF_SWAP_MAIN, KF_SWAP_NEXT, KF_SWAP_PREV, KF_UNICONIFY, KF_VERSION, KF_WIDTH_GROW, KF_WIDTH_SHRINK, KF_WIND_DEL, KF_WIND_KILL, KF_WS_1, KF_WS_2, KF_WS_3, KF_WS_4, KF_WS_5, KF_WS_6, KF_WS_7, KF_WS_8, KF_WS_9, KF_WS_10, KF_WS_11, KF_WS_12, KF_WS_13, KF_WS_14, KF_WS_15, KF_WS_16, KF_WS_17, KF_WS_18, KF_WS_19, KF_WS_20, KF_WS_21, KF_WS_22, KF_WS_NEXT, KF_WS_NEXT_ALL, KF_WS_PREV, KF_WS_PREV_ALL, KF_WS_PRIOR, KF_DUMPWINS, /* MUST BE LAST */ KF_INVALID }; struct key { RB_ENTRY(key) entry; unsigned int mod; KeySym keysym; enum keyfuncid funcid; char *spawn_name; }; RB_HEAD(key_tree, key); /* function prototypes */ void adjust_font(struct ws_win *); void bar_class_name(char *, size_t, struct swm_region *); void bar_class_title_name(char *, size_t, struct swm_region *); void bar_cleanup(struct swm_region *); void bar_extra_setup(void); void bar_extra_stop(void); int bar_extra_update(void); void bar_fmt(const char *, char *, struct swm_region *, size_t); void bar_fmt_expand(char *, size_t); void bar_draw(void); void bar_print(struct swm_region *, const char *); void bar_print_legacy(struct swm_region *, const char *); void bar_replace(char *, char *, struct swm_region *, size_t); void bar_replace_pad(char *, int *, size_t); char *bar_replace_seq(char *, char *, struct swm_region *, size_t *, size_t); void bar_setup(struct swm_region *); void bar_title_name(char *, size_t, struct swm_region *); void bar_toggle(struct swm_region *, union arg *); void bar_urgent(char *, size_t); void bar_window_float(char *, size_t, struct swm_region *); void bar_window_name(char *, size_t, struct swm_region *); void bar_workspace_name(char *, size_t, struct swm_region *); void buttonpress(xcb_button_press_event_t *); void check_conn(void); void clear_keys(void); void clientmessage(xcb_client_message_event_t *); void client_msg(struct ws_win *, xcb_atom_t, xcb_timestamp_t); int conf_load(const char *, int); void configurenotify(xcb_configure_notify_event_t *); void configurerequest(xcb_configure_request_event_t *); void config_win(struct ws_win *, xcb_configure_request_event_t *); void constrain_window(struct ws_win *, struct swm_region *, int); int count_win(struct workspace *, int); void cursors_cleanup(void); void cursors_load(void); void custom_region(char *); void cyclerg(struct swm_region *, union arg *); void cyclews(struct swm_region *, union arg *); void cycle_layout(struct swm_region *, union arg *); void destroynotify(xcb_destroy_notify_event_t *); void dumpwins(struct swm_region *, union arg *); int enable_wm(void); void enternotify(xcb_enter_notify_event_t *); void event_drain(uint8_t); void event_error(xcb_generic_error_t *); void event_handle(xcb_generic_event_t *); void ewmh_autoquirk(struct ws_win *); void ewmh_get_win_state(struct ws_win *); int ewmh_set_win_fullscreen(struct ws_win *, int); void ewmh_update_actions(struct ws_win *); void ewmh_update_win_state(struct ws_win *, xcb_atom_t, long); char *expand_tilde(const char *); void expose(xcb_expose_event_t *); void fake_keypress(struct ws_win *, xcb_keysym_t, uint16_t); struct pid_e *find_pid(pid_t); struct ws_win *find_unmanaged_window(xcb_window_t); struct ws_win *find_window(xcb_window_t); void floating_toggle(struct swm_region *, union arg *); int floating_toggle_win(struct ws_win *); void focus(struct swm_region *, union arg *); #ifdef SWM_DEBUG void focusin(xcb_focus_in_event_t *); void focusout(xcb_focus_out_event_t *); #endif void focus_flush(void); void focus_region(struct swm_region *); void focusrg(struct swm_region *, union arg *); void focus_win(struct ws_win *); void fontset_init(void); void free_window(struct ws_win *); xcb_atom_t get_atom_from_string(const char *); #ifdef SWM_DEBUG char *get_atom_name(xcb_atom_t); #endif struct ws_win *get_focus_magic(struct ws_win *); struct ws_win *get_focus_prev(struct ws_win *); #ifdef SWM_DEBUG char *get_notify_detail_label(uint8_t); char *get_notify_mode_label(uint8_t); #endif struct ws_win *get_pointer_win(xcb_window_t); struct ws_win *get_region_focus(struct swm_region *); int get_region_index(struct swm_region *); xcb_screen_t *get_screen(int); #ifdef SWM_DEBUG char *get_stack_mode_name(uint8_t); #endif int32_t get_swm_iconic(struct ws_win *); char *get_win_name(xcb_window_t); int get_ws_idx(xcb_window_t); uint32_t getstate(xcb_window_t); void grabbuttons(struct ws_win *); void grabkeys(void); void grab_windows(void); void iconify(struct swm_region *, union arg *); int isxlfd(char *); void keypress(xcb_key_press_event_t *); int key_cmp(struct key *, struct key *); void key_insert(unsigned int, KeySym, enum keyfuncid, const char *); struct key *key_lookup(unsigned int, KeySym); void key_remove(struct key *); void key_replace(struct key *, unsigned int, KeySym, enum keyfuncid, const char *); void kill_bar_extra_atexit(void); void kill_refs(struct ws_win *); #ifdef SWM_DEBUG void leavenotify(xcb_leave_notify_event_t *); #endif void load_float_geom(struct ws_win *, struct swm_region *); struct ws_win *manage_window(xcb_window_t, uint16_t); void map_window(struct ws_win *); void mapnotify(xcb_map_notify_event_t *); void mappingnotify(xcb_mapping_notify_event_t *); void maprequest(xcb_map_request_event_t *); void motionnotify(xcb_motion_notify_event_t *); void move(struct ws_win *, union arg *); void move_step(struct swm_region *, union arg *); uint32_t name_to_pixel(const char *); void name_workspace(struct swm_region *, union arg *); void new_region(struct swm_screen *, int, int, int, int); int parsekeys(char *, unsigned int, unsigned int *, KeySym *); int parsequirks(char *, unsigned long *); int parse_rgb(const char *, uint16_t *, uint16_t *, uint16_t *); void pressbutton(struct swm_region *, union arg *); void priorws(struct swm_region *, union arg *); #ifdef SWM_DEBUG void print_win_geom(xcb_window_t); #endif void propertynotify(xcb_property_notify_event_t *); void quirk_insert(const char *, const char *, unsigned long); void quirk_remove(struct quirk *); void quirk_replace(struct quirk *, const char *, const char *, unsigned long); void quit(struct swm_region *, union arg *); void raise_toggle(struct swm_region *, union arg *); void resize(struct ws_win *, union arg *); void resize_step(struct swm_region *, union arg *); void restart(struct swm_region *, union arg *); struct swm_region *root_to_region(xcb_window_t, int); void screenchange(xcb_randr_screen_change_notify_event_t *); void scan_xrandr(int); void search_do_resp(void); void search_resp_name_workspace(const char *, unsigned long); void search_resp_search_window(const char *); void search_resp_search_workspace(const char *); void search_resp_uniconify(const char *, unsigned long); void search_win(struct swm_region *, union arg *); void search_win_cleanup(void); void search_workspace(struct swm_region *, union arg *); void send_to_rg(struct swm_region *, union arg *); void send_to_ws(struct swm_region *, union arg *); void set_region(struct swm_region *); int setautorun(char *, char *, int); int setconfbinding(char *, char *, int); int setconfcolor(char *, char *, int); int setconfmodkey(char *, char *, int); int setconfquirk(char *, char *, int); int setconfregion(char *, char *, int); int setconfspawn(char *, char *, int); int setconfvalue(char *, char *, int); void setkeybinding(unsigned int, KeySym, enum keyfuncid, const char *); int setkeymapping(char *, char *, int); int setlayout(char *, char *, int); void setquirk(const char *, const char *, unsigned long); void setscreencolor(char *, int, int); void setspawn(const char *, const char *, int); void setup_ewmh(void); void setup_globals(void); void setup_keys(void); void setup_quirks(void); void setup_screens(void); void setup_spawn(void); void set_child_transient(struct ws_win *, xcb_window_t *); void set_swm_iconic(struct ws_win *, int); void set_win_state(struct ws_win *, uint16_t); void shutdown_cleanup(void); void sighdlr(int); void socket_setnonblock(int); void sort_windows(struct ws_win_list *); void spawn(int, union arg *, int); void spawn_custom(struct swm_region *, union arg *, const char *); int spawn_expand(struct swm_region *, union arg *, const char *, char ***); void spawn_insert(const char *, const char *, int); void spawn_remove(struct spawn_prog *); void spawn_replace(struct spawn_prog *, const char *, const char *, int); void spawn_select(struct swm_region *, union arg *, const char *, int *); void stack_config(struct swm_region *, union arg *); void stack_floater(struct ws_win *, struct swm_region *); void stack_master(struct workspace *, struct swm_geometry *, int, int); void store_float_geom(struct ws_win *, struct swm_region *); char *strdupsafe(const char *); void swapwin(struct swm_region *, union arg *); void switchws(struct swm_region *, union arg *); void teardown_ewmh(void); void unfocus_win(struct ws_win *); void uniconify(struct swm_region *, union arg *); void unmanage_window(struct ws_win *); void unmapnotify(xcb_unmap_notify_event_t *); void unmap_all(void); void unmap_window(struct ws_win *); void updatenumlockmask(void); void update_modkey(unsigned int); void update_window(struct ws_win *); void validate_spawns(void); int validate_win(struct ws_win *); int validate_ws(struct workspace *); /*void visibilitynotify(xcb_visibility_notify_event_t *);*/ void version(struct swm_region *, union arg *); pid_t window_get_pid(xcb_window_t); void wkill(struct swm_region *, union arg *); void workaround(void); void xft_init(struct swm_region *); void _add_startup_exception(const char *, va_list); void add_startup_exception(const char *, ...); RB_PROTOTYPE(key_tree, key, entry, key_cmp); RB_GENERATE(key_tree, key, entry, key_cmp); struct key_tree keys; void cursors_load(void) { xcb_font_t cf = XCB_NONE; int i; for (i = 0; i < LENGTH(cursors); ++i) { /* try to load Xcursor first. */ cursors[i].cid = XcursorLibraryLoadCursor(display, cursors[i].name); /* fallback to cursorfont. */ if (cursors[i].cid == XCB_CURSOR_NONE) { if (cf == XCB_NONE) { cf = xcb_generate_id(conn); xcb_open_font(conn, cf, strlen("cursor"), "cursor"); } cursors[i].cid = xcb_generate_id(conn); xcb_create_glyph_cursor(conn, cursors[i].cid, cf, cf, cursors[i].cf_char, cursors[i].cf_char + 1, 0, 0, 0, 0xffff, 0xffff, 0xffff); } } if (cf != XCB_NONE) xcb_close_font(conn, cf); } void cursors_cleanup(void) { int i; for (i = 0; i < LENGTH(cursors); ++i) xcb_free_cursor(conn, cursors[i].cid); } char * expand_tilde(const char *s) { struct passwd *ppwd; int i; long max; char *user; const char *sc = s; char *result; if (s == NULL) errx(1, "expand_tilde: NULL string."); if (s[0] != '~') { result = strdup(sc); goto out; } ++s; if ((max = sysconf(_SC_LOGIN_NAME_MAX)) == -1) errx(1, "expand_tilde: sysconf"); if ((user = calloc(1, max + 1)) == NULL) errx(1, "expand_tilde: calloc"); for (i = 0; s[i] != '/' && s[i] != '\0'; ++i) user[i] = s[i]; user[i] = '\0'; s = &s[i]; ppwd = strlen(user) == 0 ? getpwuid(getuid()) : getpwnam(user); free(user); if (ppwd == NULL) result = strdup(sc); else if (asprintf(&result, "%s%s", ppwd->pw_dir, s) == -1) result = NULL; out: if (result == NULL) errx(1, "expand_tilde: failed to allocate memory."); return result; } int parse_rgb(const char *rgb, uint16_t *rr, uint16_t *gg, uint16_t *bb) { unsigned int tmpr, tmpg, tmpb; if (sscanf(rgb, "rgb:%x/%x/%x", &tmpr, &tmpg, &tmpb) != 3) return (-1); *rr = RGB_8_TO_16(tmpr); *gg = RGB_8_TO_16(tmpg); *bb = RGB_8_TO_16(tmpb); return (0); } xcb_screen_t * get_screen(int screen) { const xcb_setup_t *r; xcb_screen_iterator_t iter; if ((r = xcb_get_setup(conn)) == NULL) { DNPRINTF(SWM_D_MISC, "get_screen: xcb_get_setup\n"); check_conn(); } iter = xcb_setup_roots_iterator(r); for (; iter.rem; --screen, xcb_screen_next(&iter)) if (screen == 0) return (iter.data); return (NULL); } int get_region_index(struct swm_region *r) { struct swm_region *rr; int ridx = 0; if (r == NULL) return -1; TAILQ_FOREACH(rr, &r->s->rl, entry) { if (rr == r) break; ++ridx; } if (rr == NULL) return -1; return ridx; } void focus_flush(void) { if (focus_mode == SWM_FOCUS_DEFAULT) event_drain(XCB_ENTER_NOTIFY); else xcb_flush(conn); } xcb_atom_t get_atom_from_string(const char *str) { xcb_intern_atom_cookie_t c; xcb_intern_atom_reply_t *r; xcb_atom_t atom; c = xcb_intern_atom(conn, 0, strlen(str), str); r = xcb_intern_atom_reply(conn, c, NULL); if (r) { atom = r->atom; free(r); return (atom); } return (XCB_ATOM_NONE); } void set_swm_iconic(struct ws_win *win, int newv) { int32_t v = newv; win->iconic = newv; if (newv) xcb_change_property(conn, XCB_PROP_MODE_REPLACE, win->id, a_swm_iconic, XCB_ATOM_INTEGER, 32, 1, &v); else xcb_delete_property(conn, win->id, a_swm_iconic); } int32_t get_swm_iconic(struct ws_win *win) { int32_t v = 0; xcb_get_property_reply_t *pr = NULL; pr = xcb_get_property_reply(conn, xcb_get_property(conn, 0, win->id, a_swm_iconic, XCB_ATOM_INTEGER, 0, 1), NULL); if (!pr) goto out; if (pr->type != XCB_ATOM_INTEGER || pr->format != 32) goto out; v = *((int32_t *)xcb_get_property_value(pr)); out: if (pr) free(pr); return (v); } void setup_ewmh(void) { xcb_atom_t sup_list; int i, j, num_screens; sup_list = get_atom_from_string("_NET_SUPPORTED"); for (i = 0; i < LENGTH(ewmh); i++) ewmh[i].atom = get_atom_from_string(ewmh[i].name); num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) { /* Support check window will be created by workaround(). */ /* Report supported atoms */ xcb_delete_property(conn, screens[i].root, sup_list); for (j = 0; j < LENGTH(ewmh); j++) xcb_change_property(conn, XCB_PROP_MODE_APPEND, screens[i].root, sup_list, XCB_ATOM_ATOM, 32, 1, &ewmh[j].atom); } } void teardown_ewmh(void) { int i, num_screens; xcb_atom_t sup_check, sup_list; xcb_window_t id; xcb_get_property_cookie_t pc; xcb_get_property_reply_t *pr; sup_check = get_atom_from_string("_NET_SUPPORTING_WM_CHECK"); sup_list = get_atom_from_string("_NET_SUPPORTED"); num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) { /* Get the support check window and destroy it */ pc = xcb_get_property(conn, 0, screens[i].root, sup_check, XCB_ATOM_WINDOW, 0, 1); pr = xcb_get_property_reply(conn, pc, NULL); if (!pr) continue; if (pr->format == sup_check) { id = *((xcb_window_t *)xcb_get_property_value(pr)); xcb_destroy_window(conn, id); xcb_delete_property(conn, screens[i].root, sup_check); xcb_delete_property(conn, screens[i].root, sup_list); } free(pr); } } void ewmh_autoquirk(struct ws_win *win) { uint32_t i, n; xcb_atom_t *type; xcb_get_property_cookie_t c; xcb_get_property_reply_t *r; c = xcb_get_property(conn, 0, win->id, ewmh[_NET_WM_WINDOW_TYPE].atom, XCB_ATOM_ATOM, 0, UINT32_MAX); r = xcb_get_property_reply(conn, c, NULL); if (!r) return; n = xcb_get_property_value_length(r); type = xcb_get_property_value(r); for (i = 0; i < n; i++) { if (type[i] == ewmh[_NET_WM_WINDOW_TYPE_NORMAL].atom) break; if (type[i] == ewmh[_NET_WM_WINDOW_TYPE_DOCK].atom || type[i] == ewmh[_NET_WM_WINDOW_TYPE_TOOLBAR].atom || type[i] == ewmh[_NET_WM_WINDOW_TYPE_UTILITY].atom) { win->floating = 1; win->quirks = SWM_Q_FLOAT | SWM_Q_ANYWHERE; break; } if (type[i] == ewmh[_NET_WM_WINDOW_TYPE_SPLASH].atom || type[i] == ewmh[_NET_WM_WINDOW_TYPE_DIALOG].atom) { win->floating = 1; win->quirks = SWM_Q_FLOAT; break; } } free(r); } #define SWM_EWMH_ACTION_COUNT_MAX (6) #define EWMH_F_FULLSCREEN (1<<0) #define EWMH_F_ABOVE (1<<1) #define EWMH_F_HIDDEN (1<<2) #define EWMH_F_SKIP_PAGER (1<<3) #define EWMH_F_SKIP_TASKBAR (1<<4) #define SWM_F_MANUAL (1<<5) int ewmh_set_win_fullscreen(struct ws_win *win, int fs) { if (!win->ws->r) return (0); if (!win->floating) return (0); DNPRINTF(SWM_D_MISC, "ewmh_set_win_fullscreen: window: 0x%x, " "fullscreen %s\n", win->id, YESNO(fs)); if (fs) { if (!win->g_floatvalid) store_float_geom(win, win->ws->r); win->g = win->ws->r->g; win->bordered = 0; } else { load_float_geom(win, win->ws->r); } return (1); } void ewmh_update_actions(struct ws_win *win) { xcb_atom_t actions[SWM_EWMH_ACTION_COUNT_MAX]; int n = 0; if (win == NULL) return; actions[n++] = ewmh[_NET_WM_ACTION_CLOSE].atom; if (win->floating) { actions[n++] = ewmh[_NET_WM_ACTION_MOVE].atom; actions[n++] = ewmh[_NET_WM_ACTION_RESIZE].atom; actions[n++] = ewmh[_NET_WM_ACTION_ABOVE].atom; } xcb_change_property(conn, XCB_PROP_MODE_REPLACE, win->id, ewmh[_NET_WM_ALLOWED_ACTIONS].atom, XCB_ATOM_ATOM, 32, 1, actions); } #define _NET_WM_STATE_REMOVE 0 /* remove/unset property */ #define _NET_WM_STATE_ADD 1 /* add/set property */ #define _NET_WM_STATE_TOGGLE 2 /* toggle property */ void ewmh_update_win_state(struct ws_win *win, xcb_atom_t state, long action) { unsigned int mask = 0; unsigned int changed = 0; unsigned int orig_flags; if (win == NULL) return; DNPRINTF(SWM_D_PROP, "ewmh_update_win_state: window: 0x%x, state: %ld, " "action: %ld\n", win->id, (unsigned long)state, action); if (state == ewmh[_NET_WM_STATE_FULLSCREEN].atom) mask = EWMH_F_FULLSCREEN; else if (state == ewmh[_NET_WM_STATE_ABOVE].atom) mask = EWMH_F_ABOVE; else if (state == ewmh[_SWM_WM_STATE_MANUAL].atom) mask = SWM_F_MANUAL; else if (state == ewmh[_NET_WM_STATE_SKIP_PAGER].atom) mask = EWMH_F_SKIP_PAGER; else if (state == ewmh[_NET_WM_STATE_SKIP_TASKBAR].atom) mask = EWMH_F_SKIP_TASKBAR; orig_flags = win->ewmh_flags; switch (action) { case _NET_WM_STATE_REMOVE: win->ewmh_flags &= ~mask; break; case _NET_WM_STATE_ADD: win->ewmh_flags |= mask; break; case _NET_WM_STATE_TOGGLE: win->ewmh_flags ^= mask; break; } changed = (win->ewmh_flags & mask) ^ (orig_flags & mask) ? 1 : 0; if (state == ewmh[_NET_WM_STATE_ABOVE].atom) { if (changed && !floating_toggle_win(win)) win->ewmh_flags = orig_flags; /* revert */ } else if (state == ewmh[_SWM_WM_STATE_MANUAL].atom) { if (changed) win->manual = (win->ewmh_flags & SWM_F_MANUAL) != 0; } else if (state == ewmh[_NET_WM_STATE_FULLSCREEN].atom) { if (changed && !ewmh_set_win_fullscreen(win, win->ewmh_flags & EWMH_F_FULLSCREEN)) win->ewmh_flags = orig_flags; /* revert */ } xcb_delete_property(conn, win->id, ewmh[_NET_WM_STATE].atom); if (win->ewmh_flags & EWMH_F_FULLSCREEN) xcb_change_property(conn, XCB_PROP_MODE_APPEND, win->id, ewmh[_NET_WM_STATE].atom, XCB_ATOM_ATOM, 32, 1, &ewmh[_NET_WM_STATE_FULLSCREEN].atom); else if (win->ewmh_flags & EWMH_F_SKIP_PAGER) xcb_change_property(conn, XCB_PROP_MODE_APPEND, win->id, ewmh[_NET_WM_STATE].atom, XCB_ATOM_ATOM, 32, 1, &ewmh[_NET_WM_STATE_SKIP_PAGER].atom); else if (win->ewmh_flags & EWMH_F_SKIP_TASKBAR) xcb_change_property(conn, XCB_PROP_MODE_APPEND, win->id, ewmh[_NET_WM_STATE].atom, XCB_ATOM_ATOM, 32, 1, &ewmh[_NET_WM_STATE_SKIP_TASKBAR].atom); else if (win->ewmh_flags & EWMH_F_ABOVE) xcb_change_property(conn, XCB_PROP_MODE_APPEND, win->id, ewmh[_NET_WM_STATE].atom, XCB_ATOM_ATOM, 32, 1, &ewmh[_NET_WM_STATE_ABOVE].atom); else if (win->ewmh_flags & SWM_F_MANUAL) xcb_change_property(conn, XCB_PROP_MODE_APPEND, win->id, ewmh[_NET_WM_STATE].atom, XCB_ATOM_ATOM, 32, 1, &ewmh[_SWM_WM_STATE_MANUAL].atom); } void ewmh_get_win_state(struct ws_win *win) { xcb_atom_t *states; xcb_get_property_cookie_t c; xcb_get_property_reply_t *r; int i, n; if (win == NULL) return; win->ewmh_flags = 0; if (win->floating) win->ewmh_flags |= EWMH_F_ABOVE; if (win->manual) win->ewmh_flags |= SWM_F_MANUAL; c = xcb_get_property(conn, 0, win->id, ewmh[_NET_WM_STATE].atom, XCB_ATOM_ATOM, 0, UINT32_MAX); r = xcb_get_property_reply(conn, c, NULL); if (!r) return; states = xcb_get_property_value(r); n = xcb_get_property_value_length(r); for (i = 0; i < n; i++) ewmh_update_win_state(win, states[i], _NET_WM_STATE_ADD); free(r); } /* events */ #ifdef SWM_DEBUG void dumpwins(struct swm_region *r, union arg *args) { struct ws_win *win; uint32_t state; xcb_get_window_attributes_cookie_t c; xcb_get_window_attributes_reply_t *wa; /* suppress unused warning since var is needed */ (void)args; if (r->ws == NULL) { warnx("dumpwins: invalid workspace"); return; } warnx("=== managed window list ws %02d ===", r->ws->idx); TAILQ_FOREACH(win, &r->ws->winlist, entry) { state = getstate(win->id); c = xcb_get_window_attributes(conn, win->id); wa = xcb_get_window_attributes_reply(conn, c, NULL); if (wa) { warnx("window: 0x%x, map_state: %d, state: %u, " "transient: 0x%x", win->id, wa->map_state, state, win->transient); free(wa); } else warnx("window: 0x%x, failed xcb_get_window_attributes", win->id); } warnx("===== unmanaged window list ====="); TAILQ_FOREACH(win, &r->ws->unmanagedlist, entry) { state = getstate(win->id); c = xcb_get_window_attributes(conn, win->id); wa = xcb_get_window_attributes_reply(conn, c, NULL); if (wa) { warnx("window: 0x%x, map_state: %d, state: %u, " "transient: 0x%x", win->id, wa->map_state, state, win->transient); free(wa); } else warnx("window: 0x%x, failed xcb_get_window_attributes", win->id); } warnx("================================="); } #else void dumpwins(struct swm_region *r, union arg *s) { (void)r; (void)s; } #endif /* SWM_DEBUG */ void sighdlr(int sig) { int saved_errno, status; pid_t pid; saved_errno = errno; switch (sig) { case SIGCHLD: while ((pid = waitpid(WAIT_ANY, &status, WNOHANG)) != 0) { if (pid == -1) { if (errno == EINTR) continue; #ifdef SWM_DEBUG if (errno != ECHILD) warn("sighdlr: waitpid"); #endif /* SWM_DEBUG */ break; } if (pid == searchpid) search_resp = 1; #ifdef SWM_DEBUG if (WIFEXITED(status)) { if (WEXITSTATUS(status) != 0) warnx("sighdlr: child exit status: %d", WEXITSTATUS(status)); } else warnx("sighdlr: child is terminated " "abnormally"); #endif /* SWM_DEBUG */ } break; case SIGHUP: restart_wm = 1; break; case SIGINT: case SIGTERM: case SIGQUIT: running = 0; break; } errno = saved_errno; } struct pid_e * find_pid(pid_t pid) { struct pid_e *p = NULL; DNPRINTF(SWM_D_MISC, "find_pid: %d\n", pid); if (pid == 0) return (NULL); TAILQ_FOREACH(p, &pidlist, entry) { if (p->pid == pid) return (p); } return (NULL); } uint32_t name_to_pixel(const char *colorname) { uint32_t result = 0; char cname[32] = "#"; xcb_screen_t *screen; xcb_colormap_t cmap; xcb_alloc_color_reply_t *cr; xcb_alloc_named_color_reply_t *nr; uint16_t rr, gg, bb; screen = xcb_setup_roots_iterator(xcb_get_setup(conn)).data; cmap = screen->default_colormap; /* color is in format rgb://rr/gg/bb */ if (strncmp(colorname, "rgb:", 4) == 0) { if (parse_rgb(colorname, &rr, &gg, &bb) == -1) warnx("could not parse rgb %s", colorname); else { cr = xcb_alloc_color_reply(conn, xcb_alloc_color(conn, cmap, rr, gg, bb), NULL); if (cr) { result = cr->pixel; free(cr); } else warnx("color '%s' not found", colorname); } } else { nr = xcb_alloc_named_color_reply(conn, xcb_alloc_named_color(conn, cmap, strlen(colorname), colorname), NULL); if (!nr) { strlcat(cname, colorname + 2, sizeof cname - 1); nr = xcb_alloc_named_color_reply(conn, xcb_alloc_named_color(conn, cmap, strlen(cname), cname), NULL); } if (nr) { result = nr->pixel; free(nr); } else warnx("color '%s' not found", colorname); } return (result); } void setscreencolor(char *val, int i, int c) { int num_screens; num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); if (i > 0 && i <= num_screens) { screens[i - 1].c[c].pixel = name_to_pixel(val); free(screens[i - 1].c[c].name); if ((screens[i - 1].c[c].name = strdup(val)) == NULL) err(1, "strdup"); } else if (i == -1) { for (i = 0; i < num_screens; i++) { screens[i].c[c].pixel = name_to_pixel(val); free(screens[i].c[c].name); if ((screens[i].c[c].name = strdup(val)) == NULL) err(1, "strdup"); } } else errx(1, "invalid screen index: %d out of bounds (maximum %d)", i, num_screens); } void fancy_stacker(struct workspace *ws) { strlcpy(ws->stacker, "[ ]", sizeof ws->stacker); if (ws->cur_layout->l_stack == vertical_stack) snprintf(ws->stacker, sizeof ws->stacker, ws->l_state.vertical_flip ? "[%d>%d]" : "[%d|%d]", ws->l_state.vertical_mwin, ws->l_state.vertical_stacks); if (ws->cur_layout->l_stack == horizontal_stack) snprintf(ws->stacker, sizeof ws->stacker, ws->l_state.horizontal_flip ? "[%dv%d]" : "[%d-%d]", ws->l_state.horizontal_mwin, ws->l_state.horizontal_stacks); } void plain_stacker(struct workspace *ws) { strlcpy(ws->stacker, "[ ]", sizeof ws->stacker); if (ws->cur_layout->l_stack == vertical_stack) strlcpy(ws->stacker, ws->l_state.vertical_flip ? "[>]" : "[|]", sizeof ws->stacker); if (ws->cur_layout->l_stack == horizontal_stack) strlcpy(ws->stacker, ws->l_state.horizontal_flip ? "[v]" : "[-]", sizeof ws->stacker); } void custom_region(char *val) { unsigned int x, y, w, h; int sidx, num_screens; xcb_screen_t *screen; num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); if (sscanf(val, "screen[%d]:%ux%u+%u+%u", &sidx, &w, &h, &x, &y) != 5) errx(1, "invalid custom region, " "should be 'screen[]:x++"); if (sidx < 1 || sidx > num_screens) errx(1, "invalid screen index: %d out of bounds (maximum %d)", sidx, num_screens); sidx--; if ((screen = get_screen(sidx)) == NULL) errx(1, "ERROR: can't get screen %d.", sidx); if (w < 1 || h < 1) errx(1, "region %ux%u+%u+%u too small", w, h, x, y); if (x > screen->width_in_pixels || y > screen->height_in_pixels || w + x > screen->width_in_pixels || h + y > screen->height_in_pixels) { warnx("ignoring region %ux%u+%u+%u - not within screen " "boundaries (%ux%u)", w, h, x, y, screen->width_in_pixels, screen->height_in_pixels); return; } new_region(&screens[sidx], x, y, w, h); } void socket_setnonblock(int fd) { int flags; if ((flags = fcntl(fd, F_GETFL, 0)) == -1) err(1, "fcntl F_GETFL"); flags |= O_NONBLOCK; if ((flags = fcntl(fd, F_SETFL, flags)) == -1) err(1, "fcntl F_SETFL"); } void bar_print_legacy(struct swm_region *r, const char *s) { xcb_rectangle_t rect; uint32_t gcv[1]; XGCValues gcvd; int x = 0; size_t len; XRectangle ibox, lbox; GC draw; len = strlen(s); XmbTextExtents(bar_fs, s, len, &ibox, &lbox); switch (bar_justify) { case SWM_BAR_JUSTIFY_LEFT: x = SWM_BAR_OFFSET; break; case SWM_BAR_JUSTIFY_CENTER: x = (WIDTH(r) - lbox.width) / 2; break; case SWM_BAR_JUSTIFY_RIGHT: x = WIDTH(r) - lbox.width - SWM_BAR_OFFSET; break; } if (x < SWM_BAR_OFFSET) x = SWM_BAR_OFFSET; rect.x = 0; rect.y = 0; rect.width = WIDTH(r->bar); rect.height = HEIGHT(r->bar); /* clear back buffer */ gcv[0] = r->s->c[SWM_S_COLOR_BAR].pixel; xcb_change_gc(conn, r->s->bar_gc, XCB_GC_FOREGROUND, gcv); xcb_poly_fill_rectangle(conn, r->bar->buffer, r->s->bar_gc, 1, &rect); /* draw back buffer */ gcvd.graphics_exposures = 0; draw = XCreateGC(display, r->bar->buffer, GCGraphicsExposures, &gcvd); XSetForeground(display, draw, r->s->c[SWM_S_COLOR_BAR_FONT].pixel); DRAWSTRING(display, r->bar->buffer, bar_fs, draw, x, (bar_fs_extents->max_logical_extent.height - lbox.height) / 2 - lbox.y, s, len); XFreeGC(display, draw); /* blt */ xcb_copy_area(conn, r->bar->buffer, r->bar->id, r->s->bar_gc, 0, 0, 0, 0, WIDTH(r->bar), HEIGHT(r->bar)); } void bar_print(struct swm_region *r, const char *s) { size_t len; xcb_rectangle_t rect; uint32_t gcv[1]; int32_t x = 0; XGlyphInfo info; XftDraw *draw; len = strlen(s); XftTextExtentsUtf8(display, bar_font, (FcChar8 *)s, len, &info); switch (bar_justify) { case SWM_BAR_JUSTIFY_LEFT: x = SWM_BAR_OFFSET; break; case SWM_BAR_JUSTIFY_CENTER: x = (WIDTH(r) - info.width) / 2; break; case SWM_BAR_JUSTIFY_RIGHT: x = WIDTH(r) - info.width - SWM_BAR_OFFSET; break; } if (x < SWM_BAR_OFFSET) x = SWM_BAR_OFFSET; rect.x = 0; rect.y = 0; rect.width = WIDTH(r->bar); rect.height = HEIGHT(r->bar); /* clear back buffer */ gcv[0] = r->s->c[SWM_S_COLOR_BAR].pixel; xcb_change_gc(conn, r->s->bar_gc, XCB_GC_FOREGROUND, gcv); xcb_poly_fill_rectangle(conn, r->bar->buffer, r->s->bar_gc, 1, &rect); /* draw back buffer */ draw = XftDrawCreate(display, r->bar->buffer, DefaultVisual(display, r->s->idx), DefaultColormap(display, r->s->idx)); XftDrawStringUtf8(draw, &bar_font_color, bar_font, x, (HEIGHT(r->bar) + bar_font->height) / 2 - bar_font->descent, (FcChar8 *)s, len); XftDrawDestroy(draw); /* blt */ xcb_copy_area(conn, r->bar->buffer, r->bar->id, r->s->bar_gc, 0, 0, 0, 0, WIDTH(r->bar), HEIGHT(r->bar)); } void bar_extra_stop(void) { if (bar_pipe[0]) { close(bar_pipe[0]); bzero(bar_pipe, sizeof bar_pipe); } if (bar_pid) { kill(bar_pid, SIGTERM); bar_pid = 0; } strlcpy(bar_ext, "", sizeof bar_ext); bar_extra = 0; } void bar_class_name(char *s, size_t sz, struct swm_region *r) { if (r == NULL || r->ws == NULL || r->ws->focus == NULL) return; if (r->ws->focus->ch.class_name != NULL) strlcat(s, r->ws->focus->ch.class_name, sz); } void bar_title_name(char *s, size_t sz, struct swm_region *r) { if (r == NULL || r->ws == NULL || r->ws->focus == NULL) return; if (r->ws->focus->ch.instance_name != NULL) strlcat(s, r->ws->focus->ch.instance_name, sz); } void bar_class_title_name(char *s, size_t sz, struct swm_region *r) { if (r == NULL || r->ws == NULL || r->ws->focus == NULL) return; bar_class_name(s, sz, r); strlcat(s, ":", sz); bar_title_name(s, sz, r); } void bar_window_float(char *s, size_t sz, struct swm_region *r) { if (r == NULL || r ->ws == NULL || r->ws->focus == NULL) return; if (r->ws->focus->floating) strlcat(s, "(f)", sz); } void bar_window_name(char *s, size_t sz, struct swm_region *r) { char *title; if (r == NULL || r->ws == NULL || r->ws->focus == NULL) return; if ((title = get_win_name(r->ws->focus->id)) == NULL) return; strlcat(s, title, sz); free(title); } int urgent[SWM_WS_MAX]; void bar_urgent(char *s, size_t sz) { struct ws_win *win; int i, j, num_screens; char b[8]; xcb_get_property_cookie_t c; xcb_icccm_wm_hints_t hints; for (i = 0; i < workspace_limit; i++) urgent[i] = 0; num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) for (j = 0; j < workspace_limit; j++) TAILQ_FOREACH(win, &screens[i].ws[j].winlist, entry) { c = xcb_icccm_get_wm_hints(conn, win->id); if (xcb_icccm_get_wm_hints_reply(conn, c, &hints, NULL) == 0) continue; if (hints.flags & XCB_ICCCM_WM_HINT_X_URGENCY) urgent[j] = 1; } for (i = 0; i < workspace_limit; i++) { if (urgent[i]) snprintf(b, sizeof b, "%d ", i + 1); else snprintf(b, sizeof b, "- "); strlcat(s, b, sz); } } void bar_workspace_name(char *s, size_t sz, struct swm_region *r) { if (r == NULL || r->ws == NULL) return; if (r->ws->name != NULL) strlcat(s, r->ws->name, sz); } /* build the default bar format according to the defined enabled options */ void bar_fmt(const char *fmtexp, char *fmtnew, struct swm_region *r, size_t sz) { /* if format provided, just copy the buffers */ if (bar_format != NULL) { strlcpy(fmtnew, fmtexp, sz); return; } /* reset the output buffer */ *fmtnew = '\0'; strlcat(fmtnew, "+N:+I ", sz); if (stack_enabled) strlcat(fmtnew, "+S", sz); strlcat(fmtnew, " ", sz); /* only show the workspace name if there's actually one */ if (r != NULL && r->ws != NULL && r->ws->name != NULL) strlcat(fmtnew, "<+D>", sz); strlcat(fmtnew, "+3<", sz); if (clock_enabled) { strlcat(fmtnew, fmtexp, sz); strlcat(fmtnew, "+4<", sz); } /* bar_urgent already adds the space before the last asterisk */ if (urgent_enabled) strlcat(fmtnew, "* +U*+4<", sz); if (title_class_enabled) { strlcat(fmtnew, "+C", sz); if (!title_name_enabled) strlcat(fmtnew, "+4<", sz); } /* checks needed by the colon and floating strlcat(3) calls below */ if (r != NULL && r->ws != NULL && r->ws->focus != NULL) { if (title_name_enabled) { if (title_class_enabled) strlcat(fmtnew, ":", sz); strlcat(fmtnew, "+T+4<", sz); } if (window_name_enabled) { if (r->ws->focus->floating) strlcat(fmtnew, "+F ", sz); strlcat(fmtnew, "+64W ", sz); } } /* finally add the action script output and the version */ strlcat(fmtnew, "+4<+A+4<+V", sz); } void bar_replace_pad(char *tmp, int *limit, size_t sz) { /* special case; no limit given, pad one space, instead */ if (*limit == (int)sz - 1) *limit = 1; snprintf(tmp, sz, "%*s", *limit, " "); } /* replaces the bar format character sequences (like in tmux(1)) */ char * bar_replace_seq(char *fmt, char *fmtrep, struct swm_region *r, size_t *offrep, size_t sz) { char *ptr; char tmp[SWM_BAR_MAX]; int limit, size; size_t len; /* reset strlcat(3) buffer */ *tmp = '\0'; /* get number, if any */ fmt++; size = 0; if (sscanf(fmt, "%d%n", &limit, &size) != 1) limit = sizeof tmp - 1; if (limit <= 0 || limit >= (int)sizeof tmp) limit = sizeof tmp - 1; /* there is nothing to replace (ie EOL) */ fmt += size; if (*fmt == '\0') return (fmt); switch (*fmt) { case '<': bar_replace_pad(tmp, &limit, sizeof tmp); break; case 'A': snprintf(tmp, sizeof tmp, "%s", bar_ext); break; case 'C': bar_class_name(tmp, sizeof tmp, r); break; case 'D': bar_workspace_name(tmp, sizeof tmp, r); break; case 'F': bar_window_float(tmp, sizeof tmp, r); break; case 'I': snprintf(tmp, sizeof tmp, "%d", r->ws->idx + 1); break; case 'N': snprintf(tmp, sizeof tmp, "%d", r->s->idx + 1); break; case 'P': bar_class_title_name(tmp, sizeof tmp, r); break; case 'S': snprintf(tmp, sizeof tmp, "%s", r->ws->stacker); break; case 'T': bar_title_name(tmp, sizeof tmp, r); break; case 'U': bar_urgent(tmp, sizeof tmp); break; case 'V': snprintf(tmp, sizeof tmp, "%s", bar_vertext); break; case 'W': bar_window_name(tmp, sizeof tmp, r); break; default: /* unknown character sequence; copy as-is */ snprintf(tmp, sizeof tmp, "+%c", *fmt); break; } len = strlen(tmp); ptr = tmp; if ((int)len < limit) limit = len; while (limit-- > 0) { if (*offrep >= sz - 1) break; fmtrep[(*offrep)++] = *ptr++; } fmt++; return (fmt); } void bar_replace(char *fmt, char *fmtrep, struct swm_region *r, size_t sz) { size_t off; off = 0; while (*fmt != '\0') { if (*fmt != '+') { /* skip ordinary characters */ if (off >= sz - 1) break; fmtrep[off++] = *fmt++; continue; } /* character sequence found; replace it */ fmt = bar_replace_seq(fmt, fmtrep, r, &off, sz); if (off >= sz - 1) break; } fmtrep[off] = '\0'; } void bar_fmt_expand(char *fmtexp, size_t sz) { char *fmt = NULL; size_t len; struct tm tm; time_t tmt; /* start by grabbing the current time and date */ time(&tmt); localtime_r(&tmt, &tm); /* figure out what to expand */ if (bar_format != NULL) fmt = bar_format; else if (bar_format == NULL && clock_enabled) fmt = clock_format; /* if nothing to expand bail out */ if (fmt == NULL) { *fmtexp = '\0'; return; } /* copy as-is, just in case the format shouldn't be expanded below */ strlcpy(fmtexp, fmt, sz); /* finally pass the string through strftime(3) */ #ifndef SWM_DENY_CLOCK_FORMAT if ((len = strftime(fmtexp, sz, fmt, &tm)) == 0) warnx("format too long"); fmtexp[len] = '\0'; #endif } /* Redraws the bar; need to follow with xcb_flush() or focus_flush(). */ void bar_draw(void) { char fmtexp[SWM_BAR_MAX], fmtnew[SWM_BAR_MAX]; char fmtrep[SWM_BAR_MAX]; int i, num_screens; struct swm_region *r; /* expand the format by first passing it through strftime(3) */ bar_fmt_expand(fmtexp, sizeof fmtexp); num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) { TAILQ_FOREACH(r, &screens[i].rl, entry) { if (r->bar == NULL) continue; if (bar_enabled && r->ws->bar_enabled) xcb_map_window(conn, r->bar->id); else { xcb_unmap_window(conn, r->bar->id); continue; } if (startup_exception) snprintf(fmtrep, sizeof fmtrep, "total " "exceptions: %d, first exception: %s", nr_exceptions, startup_exception); else { bar_fmt(fmtexp, fmtnew, r, sizeof fmtnew); bar_replace(fmtnew, fmtrep, r, sizeof fmtrep); } if (bar_font_legacy) bar_print_legacy(r, fmtrep); else bar_print(r, fmtrep); } } } /* * Reads external script output; call when stdin is readable. * Returns 1 if bar_ext was updated; otherwise 0. */ int bar_extra_update(void) { size_t len; char b[SWM_BAR_MAX]; int changed = 0; if (!bar_extra) return changed; while (fgets(b, sizeof(b), stdin) != NULL) { if (bar_enabled) { len = strlen(b); if (b[len - 1] == '\n') { /* Remove newline. */ b[--len] = '\0'; /* "Clear" bar_ext. */ bar_ext[0] = '\0'; /* Flush buffered output. */ strlcpy(bar_ext, bar_ext_buf, sizeof(bar_ext)); bar_ext_buf[0] = '\0'; /* Append new output to bar. */ strlcat(bar_ext, b, sizeof(bar_ext)); changed = 1; } else { /* Buffer output. */ strlcat(bar_ext_buf, b, sizeof(bar_ext_buf)); } } } if (errno != EAGAIN) { warn("bar_action failed"); bar_extra_stop(); changed = 1; } return changed; } void bar_toggle(struct swm_region *r, union arg *args) { struct swm_region *tmpr; int i, num_screens; /* suppress unused warnings since vars are needed */ (void)r; (void)args; DNPRINTF(SWM_D_BAR, "bar_toggle\n"); switch (args->id) { case SWM_ARG_ID_BAR_TOGGLE_WS: /* Only change if master switch is enabled. */ if (bar_enabled) r->ws->bar_enabled = !r->ws->bar_enabled; else bar_enabled = r->ws->bar_enabled = 1; break; case SWM_ARG_ID_BAR_TOGGLE: bar_enabled = !bar_enabled; break; } /* update bars as necessary */ num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) TAILQ_FOREACH(tmpr, &screens[i].rl, entry) if (tmpr->bar) { if (bar_enabled && tmpr->ws->bar_enabled) xcb_map_window(conn, tmpr->bar->id); else xcb_unmap_window(conn, tmpr->bar->id); } stack(); /* must be after stack */ bar_draw(); focus_flush(); } void bar_extra_setup(void) { /* do this here because the conf file is in memory */ if (!bar_extra && bar_argv[0]) { /* launch external status app */ bar_extra = 1; if (pipe(bar_pipe) == -1) err(1, "pipe error"); socket_setnonblock(bar_pipe[0]); socket_setnonblock(bar_pipe[1]); /* XXX hmmm, really? */ /* Set stdin to read from the pipe. */ if (dup2(bar_pipe[0], STDIN_FILENO) == -1) err(1, "dup2"); /* Set stdout to write to the pipe. */ if (dup2(bar_pipe[1], STDOUT_FILENO) == -1) err(1, "dup2"); if (signal(SIGPIPE, SIG_IGN) == SIG_ERR) err(1, "could not disable SIGPIPE"); switch (bar_pid = fork()) { case -1: err(1, "cannot fork"); break; case 0: /* child */ close(bar_pipe[0]); execvp(bar_argv[0], bar_argv); err(1, "%s external app failed", bar_argv[0]); break; default: /* parent */ close(bar_pipe[1]); break; } atexit(kill_bar_extra_atexit); } } void kill_bar_extra_atexit(void) { if (bar_pid) kill(bar_pid, SIGTERM); } int isxlfd(char *s) { int count = 0; while ((s = index(s, '-'))) { ++count; ++s; } return (count == 14); } void fontset_init(void) { char *default_string; char **missing_charsets; int num_missing_charsets = 0; int i; if (bar_fs) { XFreeFontSet(display, bar_fs); bar_fs = NULL; } DNPRINTF(SWM_D_INIT, "fontset_init: loading bar_fonts: %s\n", bar_fonts); bar_fs = XCreateFontSet(display, bar_fonts, &missing_charsets, &num_missing_charsets, &default_string); if (num_missing_charsets > 0) { warnx("Unable to load charset(s):"); for (i = 0; i < num_missing_charsets; ++i) warnx("%s", missing_charsets[i]); XFreeStringList(missing_charsets); if (strcmp(default_string, "")) warnx("Glyphs from those sets will be replaced " "by '%s'.", default_string); else warnx("Glyphs from those sets won't be drawn."); } if (bar_fs == NULL) errx(1, "Error creating font set structure."); bar_fs_extents = XExtentsOfFontSet(bar_fs); bar_height = bar_fs_extents->max_logical_extent.height + 2 * bar_border_width; if (bar_height < 1) bar_height = 1; } void xft_init(struct swm_region *r) { char *font, *d, *search; XRenderColor color; if (bar_font == NULL) { if ((d = strdup(bar_fonts)) == NULL) errx(1, "insufficient memory."); search = d; while ((font = strsep(&search, ",")) != NULL) { if (*font == '\0') continue; DNPRINTF(SWM_D_INIT, "xft_init: try font %s\n", font); if (isxlfd(font)) { bar_font = XftFontOpenXlfd(display, r->s->idx, font); } else { bar_font = XftFontOpenName(display, r->s->idx, font); } if (!bar_font) { warnx("unable to load font %s", font); continue; } else { DNPRINTF(SWM_D_INIT, "successfully opened " "font %s\n", font); break; } } free(d); } if (bar_font == NULL) errx(1, "unable to open a font"); PIXEL_TO_XRENDERCOLOR(r->s->c[SWM_S_COLOR_BAR_FONT].pixel, color); if (!XftColorAllocValue(display, DefaultVisual(display, r->s->idx), DefaultColormap(display, r->s->idx), &color, &bar_font_color)) warn("Xft error: unable to allocate color."); bar_height = bar_font->height + 2 * bar_border_width; if (bar_height < 1) bar_height = 1; } void bar_setup(struct swm_region *r) { xcb_screen_t *screen; uint32_t wa[3]; DNPRINTF(SWM_D_BAR, "bar_setup: screen %d.\n", r->s->idx); if ((screen = get_screen(r->s->idx)) == NULL) errx(1, "ERROR: can't get screen %d.", r->s->idx); if (r->bar != NULL) return; if ((r->bar = calloc(1, sizeof(struct swm_bar))) == NULL) err(1, "bar_setup: calloc: failed to allocate memory."); if (bar_font_legacy) fontset_init(); else xft_init(r); X(r->bar) = X(r); Y(r->bar) = bar_at_bottom ? (Y(r) + HEIGHT(r) - bar_height) : Y(r); WIDTH(r->bar) = WIDTH(r) - 2 * bar_border_width; HEIGHT(r->bar) = bar_height - 2 * bar_border_width; /* Assume region is unfocused when we create the bar. */ r->bar->id = xcb_generate_id(conn); wa[0] = r->s->c[SWM_S_COLOR_BAR].pixel; wa[1] = r->s->c[SWM_S_COLOR_BAR_BORDER_UNFOCUS].pixel; wa[2] = XCB_EVENT_MASK_EXPOSURE | XCB_EVENT_MASK_POINTER_MOTION | XCB_EVENT_MASK_POINTER_MOTION_HINT; xcb_create_window(conn, XCB_COPY_FROM_PARENT, r->bar->id, r->s->root, X(r->bar), Y(r->bar), WIDTH(r->bar), HEIGHT(r->bar), bar_border_width, XCB_WINDOW_CLASS_INPUT_OUTPUT, XCB_COPY_FROM_PARENT, XCB_CW_BACK_PIXEL | XCB_CW_BORDER_PIXEL | XCB_CW_EVENT_MASK, wa); r->bar->buffer = xcb_generate_id(conn); xcb_create_pixmap(conn, screen->root_depth, r->bar->buffer, r->bar->id, WIDTH(r->bar), HEIGHT(r->bar)); if (xrandr_support) xcb_randr_select_input(conn, r->bar->id, XCB_RANDR_NOTIFY_MASK_OUTPUT_CHANGE); if (bar_enabled) xcb_map_window(conn, r->bar->id); DNPRINTF(SWM_D_BAR, "bar_setup: window: 0x%x, (x,y) w x h: (%d,%d) " "%d x %d\n", WINID(r->bar), X(r->bar), Y(r->bar), WIDTH(r->bar), HEIGHT(r->bar)); bar_extra_setup(); } void bar_cleanup(struct swm_region *r) { if (r->bar == NULL) return; xcb_destroy_window(conn, r->bar->id); xcb_free_pixmap(conn, r->bar->buffer); free(r->bar); r->bar = NULL; } void set_win_state(struct ws_win *win, uint16_t state) { uint16_t data[2] = { state, XCB_ATOM_NONE }; DNPRINTF(SWM_D_EVENT, "set_win_state: window: 0x%x, state: %u\n", win->id, state); if (win == NULL) return; xcb_change_property(conn, XCB_PROP_MODE_REPLACE, win->id, a_state, a_state, 32, 2, data); } uint32_t getstate(xcb_window_t w) { uint32_t result = 0; xcb_get_property_cookie_t c; xcb_get_property_reply_t *r; c = xcb_get_property(conn, 0, w, a_state, a_state, 0L, 2L); r = xcb_get_property_reply(conn, c, NULL); if (r) { if (r->type == a_state && r->format == 32 && r->length == 2) result = *((uint32_t *)xcb_get_property_value(r)); free(r); } DNPRINTF(SWM_D_MISC, "getstate property: win 0x%x state %u\n", w, result); return (result); } void version(struct swm_region *r, union arg *args) { /* suppress unused warnings since vars are needed */ (void)r; (void)args; bar_version = !bar_version; if (bar_version) snprintf(bar_vertext, sizeof bar_vertext, "Version: %s Build: %s", SPECTRWM_VERSION, buildstr); else strlcpy(bar_vertext, "", sizeof bar_vertext); bar_draw(); xcb_flush(conn); } void client_msg(struct ws_win *win, xcb_atom_t a, xcb_timestamp_t t) { xcb_client_message_event_t ev; #ifdef SWM_DEBUG char *name; #endif if (win == NULL) return; #ifdef SWM_DEBUG name = get_atom_name(a); DNPRINTF(SWM_D_EVENT, "client_msg: window: 0x%x, atom: %s(%u), " "time: %#x\n", win->id, name, a, t); free(name); #endif bzero(&ev, sizeof ev); ev.response_type = XCB_CLIENT_MESSAGE; ev.window = win->id; ev.type = a_prot; ev.format = 32; ev.data.data32[0] = a; ev.data.data32[1] = t; xcb_send_event(conn, 0, win->id, XCB_EVENT_MASK_NO_EVENT, (const char *)&ev); } /* synthetic response to a ConfigureRequest when not making a change */ void config_win(struct ws_win *win, xcb_configure_request_event_t *ev) { xcb_configure_notify_event_t ce; if (win == NULL) return; /* send notification of unchanged state. */ bzero(&ce, sizeof(ce)); ce.response_type = XCB_CONFIGURE_NOTIFY; ce.x = X(win); ce.y = Y(win); ce.width = WIDTH(win); ce.height = HEIGHT(win); ce.override_redirect = 0; if (ev == NULL) { /* EWMH */ ce.event = win->id; ce.window = win->id; ce.border_width = BORDER(win); ce.above_sibling = XCB_WINDOW_NONE; } else { /* normal */ ce.event = ev->window; ce.window = ev->window; /* make response appear more WM_SIZE_HINTS-compliant */ if (win->sh.flags) { DNPRINTF(SWM_D_MISC, "config_win: hints: window: 0x%x," " sh.flags: %u, min: %d x %d, max: %d x %d, inc: " "%d x %d\n", win->id, win->sh.flags, SH_MIN_W(win), SH_MIN_H(win), SH_MAX_W(win), SH_MAX_H(win), SH_INC_W(win), SH_INC_H(win)); } /* min size */ if (SH_MIN(win)) { /* the hint may be set... to 0! */ if (SH_MIN_W(win) > 0 && ce.width < SH_MIN_W(win)) ce.width = SH_MIN_W(win); if (SH_MIN_H(win) > 0 && ce.height < SH_MIN_H(win)) ce.height = SH_MIN_H(win); } /* max size */ if (SH_MAX(win)) { /* may also be advertized as 0 */ if (SH_MAX_W(win) > 0 && ce.width > SH_MAX_W(win)) ce.width = SH_MAX_W(win); if (SH_MAX_H(win) > 0 && ce.height > SH_MAX_H(win)) ce.height = SH_MAX_H(win); } /* resize increment. */ if (SH_INC(win)) { if (SH_INC_W(win) > 1 && ce.width > SH_INC_W(win)) ce.width -= (ce.width - SH_MIN_W(win)) % SH_INC_W(win); if (SH_INC_H(win) > 1 && ce.height > SH_INC_H(win)) ce.height -= (ce.height - SH_MIN_H(win)) % SH_INC_H(win); } /* adjust x and y for requested border_width. */ ce.x += BORDER(win) - ev->border_width; ce.y += BORDER(win) - ev->border_width; ce.border_width = ev->border_width; ce.above_sibling = ev->sibling; } DNPRINTF(SWM_D_MISC, "config_win: ewmh: %s, window: 0x%x, (x,y) w x h: " "(%d,%d) %d x %d, border: %d\n", YESNO(ev == NULL), win->id, ce.x, ce.y, ce.width, ce.height, ce.border_width); xcb_send_event(conn, 0, win->id, XCB_EVENT_MASK_STRUCTURE_NOTIFY, (char *)&ce); } int count_win(struct workspace *ws, int count_transient) { struct ws_win *win; int count = 0; TAILQ_FOREACH(win, &ws->winlist, entry) { if (!count_transient && win->floating) continue; if (!count_transient && win->transient) continue; if (win->iconic) continue; count++; } DNPRINTF(SWM_D_MISC, "count_win: %d\n", count); return (count); } void quit(struct swm_region *r, union arg *args) { /* suppress unused warnings since vars are needed */ (void)r; (void)args; DNPRINTF(SWM_D_MISC, "quit\n"); running = 0; } void map_window(struct ws_win *win) { uint32_t val = XCB_STACK_MODE_ABOVE; if (win == NULL) return; DNPRINTF(SWM_D_EVENT, "map_window: win 0x%x, mapped: %s\n", win->id, YESNO(win->mapped)); xcb_configure_window(conn, win->id, XCB_CONFIG_WINDOW_STACK_MODE, &val); if (win->mapped) return; xcb_map_window(conn, win->id); set_win_state(win, XCB_ICCCM_WM_STATE_NORMAL); win->mapped = 1; } void unmap_window(struct ws_win *win) { if (win == NULL) return; DNPRINTF(SWM_D_EVENT, "unmap_window: win 0x%x, mapped: %s\n", win->id, YESNO(win->mapped)); if (!win->mapped) return; xcb_unmap_window(conn, win->id); set_win_state(win, XCB_ICCCM_WM_STATE_ICONIC); win->mapped = 0; } void unmap_all(void) { struct ws_win *win; int i, j, num_screens; num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) for (j = 0; j < workspace_limit; j++) TAILQ_FOREACH(win, &screens[i].ws[j].winlist, entry) unmap_window(win); } void fake_keypress(struct ws_win *win, xcb_keysym_t keysym, uint16_t modifiers) { xcb_key_press_event_t event; xcb_keycode_t *keycode; if (win == NULL) return; keycode = xcb_key_symbols_get_keycode(syms, keysym); DNPRINTF(SWM_D_MISC, "fake_keypress: win 0x%x keycode %u\n", win->id, *keycode); bzero(&event, sizeof(event)); event.event = win->id; event.root = win->s->root; event.child = XCB_WINDOW_NONE; event.time = XCB_CURRENT_TIME; event.event_x = X(win); event.event_y = Y(win); event.root_x = 1; event.root_y = 1; event.same_screen = 1; event.detail = *keycode; event.state = modifiers; event.response_type = XCB_KEY_PRESS; xcb_send_event(conn, 1, win->id, XCB_EVENT_MASK_KEY_PRESS, (const char *)&event); event.response_type = XCB_KEY_RELEASE; xcb_send_event(conn, 1, win->id, XCB_EVENT_MASK_KEY_RELEASE, (const char *)&event); free(keycode); } void restart(struct swm_region *r, union arg *args) { /* suppress unused warning since var is needed */ (void)r; (void)args; DNPRINTF(SWM_D_MISC, "restart: %s\n", start_argv[0]); shutdown_cleanup(); execvp(start_argv[0], start_argv); warn("execvp failed"); quit(NULL, NULL); } struct ws_win * get_pointer_win(xcb_window_t root) { struct ws_win *win = NULL; xcb_query_pointer_reply_t *r; DNPRINTF(SWM_D_EVENT, "get_pointer_win: root: 0x%x.\n", root); r = xcb_query_pointer_reply(conn, xcb_query_pointer(conn, root), NULL); if (r) { win = find_window(r->child); if (win) { DNPRINTF(SWM_D_EVENT, "get_pointer_win: 0x%x.\n", win->id); } else { DNPRINTF(SWM_D_EVENT, "get_pointer_win: none.\n"); } free(r); } return win; } struct swm_region * root_to_region(xcb_window_t root, int check) { struct ws_win *cfw; struct swm_region *r = NULL; int i, num_screens; xcb_query_pointer_reply_t *qpr; xcb_get_input_focus_reply_t *gifr; DNPRINTF(SWM_D_MISC, "root_to_region: window: 0x%x\n", root); num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) if (screens[i].root == root) break; if (check & SWM_CK_REGION) r = screens[i].r_focus; if (r == NULL && check & SWM_CK_FOCUS) { /* Try to find an actively focused window */ gifr = xcb_get_input_focus_reply(conn, xcb_get_input_focus(conn), NULL); if (gifr) { cfw = find_window(gifr->focus); if (cfw && cfw->ws->r) r = cfw->ws->r; free(gifr); } } if (r == NULL && check & SWM_CK_POINTER) { /* No region with an active focus; try to use pointer. */ qpr = xcb_query_pointer_reply(conn, xcb_query_pointer(conn, screens[i].root), NULL); if (qpr) { DNPRINTF(SWM_D_MISC, "root_to_region: pointer: " "(%d,%d)\n", qpr->root_x, qpr->root_y); TAILQ_FOREACH(r, &screens[i].rl, entry) if (X(r) <= qpr->root_x && qpr->root_x < MAX_X(r) && Y(r) <= qpr->root_y && qpr->root_y < MAX_Y(r)) break; free(qpr); } } /* Last resort. */ if (r == NULL && check & SWM_CK_FALLBACK) r = TAILQ_FIRST(&screens[i].rl); return (r); } struct ws_win * find_unmanaged_window(xcb_window_t id) { struct ws_win *win; int i, j, num_screens; num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) for (j = 0; j < workspace_limit; j++) TAILQ_FOREACH(win, &screens[i].ws[j].unmanagedlist, entry) if (id == win->id) return (win); return (NULL); } struct ws_win * find_window(xcb_window_t id) { struct ws_win *win; int i, j, num_screens; xcb_query_tree_reply_t *r; num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) for (j = 0; j < workspace_limit; j++) TAILQ_FOREACH(win, &screens[i].ws[j].winlist, entry) if (id == win->id) return (win); r = xcb_query_tree_reply(conn, xcb_query_tree(conn, id), NULL); if (!r) return (NULL); /* if we were looking for the parent return that window instead */ if (r->parent == 0 || r->root == r->parent) { free(r); return (NULL); } /* look for parent */ for (i = 0; i < num_screens; i++) for (j = 0; j < workspace_limit; j++) TAILQ_FOREACH(win, &screens[i].ws[j].winlist, entry) if (r->parent == win->id) { free(r); return (win); } free(r); return (NULL); } void spawn(int ws_idx, union arg *args, int close_fd) { int fd; char *ret = NULL; DNPRINTF(SWM_D_MISC, "spawn: %s\n", args->argv[0]); close(xcb_get_file_descriptor(conn)); setenv("LD_PRELOAD", SWM_LIB, 1); if (asprintf(&ret, "%d", ws_idx) == -1) { warn("spawn: asprintf SWM_WS"); _exit(1); } setenv("_SWM_WS", ret, 1); free(ret); ret = NULL; if (asprintf(&ret, "%d", getpid()) == -1) { warn("spawn: asprintf _SWM_PID"); _exit(1); } setenv("_SWM_PID", ret, 1); free(ret); ret = NULL; if (setsid() == -1) { warn("spawn: setsid"); _exit(1); } if (close_fd) { /* * close stdin and stdout to prevent interaction between apps * and the baraction script * leave stderr open to record errors */ if ((fd = open(_PATH_DEVNULL, O_RDWR, 0)) == -1) { warn("spawn: open"); _exit(1); } dup2(fd, STDIN_FILENO); dup2(fd, STDOUT_FILENO); if (fd > 2) close(fd); } execvp(args->argv[0], args->argv); warn("spawn: execvp"); _exit(1); } void kill_refs(struct ws_win *win) { int i, x, num_screens; struct swm_region *r; struct workspace *ws; if (win == NULL) return; num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) TAILQ_FOREACH(r, &screens[i].rl, entry) for (x = 0; x < workspace_limit; x++) { ws = &r->s->ws[x]; if (win == ws->focus) ws->focus = NULL; if (win == ws->focus_prev) ws->focus_prev = NULL; } } int validate_win(struct ws_win *testwin) { struct ws_win *win; struct workspace *ws; struct swm_region *r; int i, x, num_screens; if (testwin == NULL) return (0); num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) TAILQ_FOREACH(r, &screens[i].rl, entry) for (x = 0; x < workspace_limit; x++) { ws = &r->s->ws[x]; TAILQ_FOREACH(win, &ws->winlist, entry) if (win == testwin) return (0); } return (1); } int validate_ws(struct workspace *testws) { struct swm_region *r; struct workspace *ws; int i, x, num_screens; /* validate all ws */ num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) TAILQ_FOREACH(r, &screens[i].rl, entry) for (x = 0; x < workspace_limit; x++) { ws = &r->s->ws[x]; if (ws == testws) return (0); } return (1); } void unfocus_win(struct ws_win *win) { xcb_window_t none = XCB_WINDOW_NONE; DNPRINTF(SWM_D_FOCUS, "unfocus_win: window: 0x%x\n", WINID(win)); if (win == NULL) return; if (win->ws == NULL) { DNPRINTF(SWM_D_FOCUS, "unfocus_win: NULL ws.\n"); return; } if (validate_ws(win->ws)) { DNPRINTF(SWM_D_FOCUS, "unfocus_win: invalid ws.\n"); return; } if (win->ws->r == NULL) { DNPRINTF(SWM_D_FOCUS, "unfocus_win: NULL region.\n"); return; } if (validate_win(win)) { DNPRINTF(SWM_D_FOCUS, "unfocus_win: invalid win.\n"); kill_refs(win); return; } if (win->ws->focus == win) { win->ws->focus = NULL; win->ws->focus_prev = win; } if (validate_win(win->ws->focus)) { kill_refs(win->ws->focus); win->ws->focus = NULL; } if (validate_win(win->ws->focus_prev)) { kill_refs(win->ws->focus_prev); win->ws->focus_prev = NULL; } xcb_change_window_attributes(conn, win->id, XCB_CW_BORDER_PIXEL, &win->ws->r->s->c[SWM_S_COLOR_UNFOCUS].pixel); xcb_change_property(conn, XCB_PROP_MODE_REPLACE, win->s->root, ewmh[_NET_ACTIVE_WINDOW].atom, XCB_ATOM_WINDOW, 32, 1, &none); DNPRINTF(SWM_D_FOCUS, "unfocus_win: done.\n"); } void focus_win(struct ws_win *win) { struct ws_win *cfw = NULL, *parent = NULL, *w; struct workspace *ws; xcb_get_input_focus_reply_t *r; DNPRINTF(SWM_D_FOCUS, "focus_win: window: 0x%x\n", WINID(win)); if (win == NULL) goto out; if (win->ws == NULL) goto out; if (!win->mapped) goto out; ws = win->ws; if (validate_ws(ws)) goto out; if (validate_win(win)) { kill_refs(win); goto out; } r = xcb_get_input_focus_reply(conn, xcb_get_input_focus(conn), NULL); if (r) { cfw = find_window(r->focus); if (cfw != win) unfocus_win(cfw); free(r); } if (ws->focus != win) { if (ws->focus && ws->focus != cfw) unfocus_win(ws->focus); ws->focus = win; } /* If this window directs focus to a child window, then clear. */ if (win->focus_child) win->focus_child = NULL; /* If transient, adjust parent's focus child for focus_magic. */ if (win->transient) { parent = find_window(win->transient); if (parent && parent->focus_child != win) parent->focus_child = win; } if (cfw != win && ws->r != NULL) { /* Set input focus if no input hint, or indicated by hint. */ if (!(win->hints.flags & XCB_ICCCM_WM_HINT_INPUT) || (win->hints.flags & XCB_ICCCM_WM_HINT_INPUT && win->hints.input)) xcb_set_input_focus(conn, XCB_INPUT_FOCUS_PARENT, win->id, last_event_time); /* Tell app it can adjust focus to a specific window. */ if (win->take_focus) { /* java is special; always tell parent */ if (win->transient && win->java) client_msg(parent, a_takefocus, last_event_time); else client_msg(win, a_takefocus, last_event_time); } xcb_change_window_attributes(conn, win->id, XCB_CW_BORDER_PIXEL, &ws->r->s->c[SWM_S_COLOR_FOCUS].pixel); if (ws->cur_layout->flags & SWM_L_MAPONFOCUS || ws->always_raise) { /* If a parent exists, map it first. */ if (parent) { map_window(parent); /* Map siblings next. */ TAILQ_FOREACH(w, &ws->winlist, entry) if (w != win && !w->iconic && w->transient == parent->id) map_window(w); } /* Map focused window. */ map_window(win); /* Finally, map children of focus window. */ TAILQ_FOREACH(w, &ws->winlist, entry) if (w->transient == win->id && !w->iconic) map_window(w); } set_region(ws->r); xcb_change_property(conn, XCB_PROP_MODE_REPLACE, win->s->root, ewmh[_NET_ACTIVE_WINDOW].atom, XCB_ATOM_WINDOW, 32, 1, &win->id); } out: bar_draw(); DNPRINTF(SWM_D_FOCUS, "focus_win: done.\n"); } /* If a child window should have focus instead, return it. */ struct ws_win * get_focus_magic(struct ws_win *win) { struct ws_win *parent = NULL; struct ws_win *child = NULL; DNPRINTF(SWM_D_FOCUS, "get_focus_magic: window: 0x%x\n", WINID(win)); if (win == NULL) return win; if (win->transient) { parent = find_window(win->transient); /* If parent prefers focus elsewhere, then try to do so. */ if (parent && (child = parent->focus_child)) { if (validate_win(child) == 0 && child->mapped) win = child; else parent->focus_child = NULL; } } /* If this window prefers focus elsewhere, then try to do so. */ if ((child = win->focus_child)) { if (validate_win(child) == 0 && child->mapped) win = child; else win->focus_child = NULL; } return win; } void event_drain(uint8_t rt) { xcb_generic_event_t *evt; /* ensure all pending requests have been processed before filtering. */ xcb_aux_sync(conn); while ((evt = xcb_poll_for_event(conn))) { if (XCB_EVENT_RESPONSE_TYPE(evt) != rt) event_handle(evt); free(evt); } } void set_region(struct swm_region *r) { struct swm_region *rf; if (r == NULL) return; rf = r->s->r_focus; /* Unfocus old region bar. */ if (rf) { if (rf == r) return; xcb_change_window_attributes(conn, rf->bar->id, XCB_CW_BORDER_PIXEL, &r->s->c[SWM_S_COLOR_BAR_BORDER_UNFOCUS].pixel); } /* Set region bar border to focus_color. */ xcb_change_window_attributes(conn, r->bar->id, XCB_CW_BORDER_PIXEL, &r->s->c[SWM_S_COLOR_BAR_BORDER].pixel); r->s->r_focus = r; } void focus_region(struct swm_region *r) { struct ws_win *nfw; struct swm_region *old_r; if (r == NULL) return; old_r = r->s->r_focus; set_region(r); nfw = get_region_focus(r); if (nfw) { focus_win(nfw); } else { /* New region is empty; need to manually unfocus win. */ if (old_r) unfocus_win(old_r->ws->focus); xcb_set_input_focus(conn, XCB_INPUT_FOCUS_PARENT, r->s->root, XCB_CURRENT_TIME); /* Clear bar since empty. */ bar_draw(); } } void switchws(struct swm_region *r, union arg *args) { int wsid = args->id, unmap_old = 0; struct swm_region *this_r, *other_r; struct ws_win *win; struct workspace *new_ws, *old_ws; if (!(r && r->s)) return; if (wsid >= workspace_limit) return; this_r = r; old_ws = this_r->ws; new_ws = &this_r->s->ws[wsid]; DNPRINTF(SWM_D_WS, "switchws: screen[%d]:%dx%d+%d+%d: %d -> %d\n", r->s->idx, WIDTH(r), HEIGHT(r), X(r), Y(r), old_ws->idx, wsid); if (new_ws == NULL || old_ws == NULL) return; if (new_ws == old_ws) return; unfocus_win(old_ws->focus); other_r = new_ws->r; if (other_r == NULL) { /* the other workspace is hidden, hide this one */ old_ws->r = NULL; unmap_old = 1; } else { /* the other ws is visible in another region, exchange them */ other_r->ws_prior = new_ws; other_r->ws = old_ws; old_ws->r = other_r; } this_r->ws_prior = old_ws; this_r->ws = new_ws; new_ws->r = this_r; /* Set focus_pending before stacking. */ if (focus_mode != SWM_FOCUS_FOLLOW) new_ws->focus_pending = get_region_focus(new_ws->r); stack(); /* unmap old windows */ if (unmap_old) TAILQ_FOREACH(win, &old_ws->winlist, entry) unmap_window(win); /* if workspaces were swapped, then don't wait to set focus */ if (old_ws->r && focus_mode != SWM_FOCUS_FOLLOW) { if (new_ws->focus_pending) { focus_win(new_ws->focus_pending); } else { /* Empty region, focus on root. */ xcb_set_input_focus(conn, XCB_INPUT_FOCUS_PARENT, new_ws->r->s[new_ws->r->s->idx].root, XCB_CURRENT_TIME); } } /* Clear bar if new ws is empty. */ if (new_ws->focus_pending == NULL) bar_draw(); focus_flush(); DNPRINTF(SWM_D_WS, "switchws: done.\n"); } void cyclews(struct swm_region *r, union arg *args) { union arg a; struct swm_screen *s = r->s; int cycle_all = 0; DNPRINTF(SWM_D_WS, "cyclews: id: %d, screen[%d]:%dx%d+%d+%d, ws: %d\n", args->id, r->s->idx, WIDTH(r), HEIGHT(r), X(r), Y(r), r->ws->idx); a.id = r->ws->idx; do { switch (args->id) { case SWM_ARG_ID_CYCLEWS_UP_ALL: cycle_all = 1; /* FALLTHROUGH */ case SWM_ARG_ID_CYCLEWS_UP: if (a.id < workspace_limit - 1) a.id++; else a.id = 0; break; case SWM_ARG_ID_CYCLEWS_DOWN_ALL: cycle_all = 1; /* FALLTHROUGH */ case SWM_ARG_ID_CYCLEWS_DOWN: if (a.id > 0) a.id--; else a.id = workspace_limit - 1; break; default: return; }; if (!cycle_all && (!cycle_empty && TAILQ_EMPTY(&s->ws[a.id].winlist))) continue; if (!cycle_visible && s->ws[a.id].r != NULL) continue; switchws(r, &a); } while (a.id != r->ws->idx); } void priorws(struct swm_region *r, union arg *args) { union arg a; (void)args; DNPRINTF(SWM_D_WS, "priorws: id: %d, screen[%d]:%dx%d+%d+%d, ws: %d\n", args->id, r->s->idx, WIDTH(r), HEIGHT(r), X(r), Y(r), r->ws->idx); if (r->ws_prior == NULL) return; a.id = r->ws_prior->idx; switchws(r, &a); } void focusrg(struct swm_region *r, union arg *args) { int ridx = args->id, i, num_screens; struct swm_region *rr = NULL; num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); /* do nothing if we don't have more than one screen */ if (!(num_screens > 1 || outputs > 1)) return; DNPRINTF(SWM_D_FOCUS, "focusrg: id: %d\n", ridx); rr = TAILQ_FIRST(&r->s->rl); for (i = 0; i < ridx; ++i) rr = TAILQ_NEXT(rr, entry); if (rr == NULL) return; focus_region(rr); focus_flush(); } void cyclerg(struct swm_region *r, union arg *args) { struct swm_region *rr = NULL; int i, num_screens; num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); /* do nothing if we don't have more than one screen */ if (!(num_screens > 1 || outputs > 1)) return; i = r->s->idx; switch (args->id) { case SWM_ARG_ID_CYCLERG_UP: rr = TAILQ_NEXT(r, entry); if (rr == NULL) rr = TAILQ_FIRST(&screens[i].rl); break; case SWM_ARG_ID_CYCLERG_DOWN: rr = TAILQ_PREV(r, swm_region_list, entry); if (rr == NULL) rr = TAILQ_LAST(&screens[i].rl, swm_region_list); break; default: return; }; if (rr == NULL) return; focus_region(rr); focus_flush(); } void sort_windows(struct ws_win_list *wl) { struct ws_win *win, *parent, *nxt; if (wl == NULL) return; for (win = TAILQ_FIRST(wl); win != TAILQ_END(wl); win = nxt) { nxt = TAILQ_NEXT(win, entry); if (win->transient) { parent = find_window(win->transient); if (parent == NULL) { warnx("not possible bug"); continue; } TAILQ_REMOVE(wl, win, entry); TAILQ_INSERT_AFTER(wl, parent, win, entry); } } } void swapwin(struct swm_region *r, union arg *args) { struct ws_win *target, *source; struct ws_win *cur_focus; struct ws_win_list *wl; DNPRINTF(SWM_D_WS, "swapwin: id: %d, screen[%d]:%dx%d+%d+%d, ws: %d\n", args->id, r->s->idx, WIDTH(r), HEIGHT(r), X(r), Y(r), r->ws->idx); cur_focus = r->ws->focus; if (cur_focus == NULL) return; source = cur_focus; wl = &source->ws->winlist; switch (args->id) { case SWM_ARG_ID_SWAPPREV: if (source->transient) source = find_window(source->transient); target = TAILQ_PREV(source, ws_win_list, entry); if (target && target->transient) target = find_window(target->transient); TAILQ_REMOVE(wl, source, entry); if (target == NULL) TAILQ_INSERT_TAIL(wl, source, entry); else TAILQ_INSERT_BEFORE(target, source, entry); break; case SWM_ARG_ID_SWAPNEXT: target = TAILQ_NEXT(source, entry); /* move the parent and let the sort handle the move */ if (source->transient) source = find_window(source->transient); TAILQ_REMOVE(wl, source, entry); if (target == NULL) TAILQ_INSERT_HEAD(wl, source, entry); else TAILQ_INSERT_AFTER(wl, target, source, entry); break; case SWM_ARG_ID_SWAPMAIN: target = TAILQ_FIRST(wl); if (target == source) { if (source->ws->focus_prev != NULL && source->ws->focus_prev != target) source = source->ws->focus_prev; else return; } if (target == NULL || source == NULL) return; source->ws->focus_prev = target; TAILQ_REMOVE(wl, target, entry); TAILQ_INSERT_BEFORE(source, target, entry); TAILQ_REMOVE(wl, source, entry); TAILQ_INSERT_HEAD(wl, source, entry); break; case SWM_ARG_ID_MOVELAST: TAILQ_REMOVE(wl, source, entry); TAILQ_INSERT_TAIL(wl, source, entry); break; default: DNPRINTF(SWM_D_MOVE, "swapwin: invalid id: %d\n", args->id); return; } sort_windows(wl); stack(); focus_flush(); } struct ws_win * get_focus_prev(struct ws_win *win) { struct ws_win *winfocus = NULL; struct ws_win *cur_focus = NULL; struct ws_win_list *wl = NULL; struct workspace *ws = NULL; if (!(win && win->ws)) return NULL; ws = win->ws; wl = &ws->winlist; cur_focus = ws->focus; DNPRINTF(SWM_D_FOCUS, "get_focus_prev: window: 0x%x, cur_focus: 0x%x\n", WINID(win), WINID(cur_focus)); /* pickle, just focus on whatever */ if (cur_focus == NULL) { /* use prev_focus if valid */ if (ws->focus_prev && ws->focus_prev != cur_focus && find_window(WINID(ws->focus_prev))) winfocus = ws->focus_prev; goto done; } /* if transient focus on parent */ if (cur_focus->transient) { winfocus = find_window(cur_focus->transient); goto done; } /* if in max_stack try harder */ if ((win->quirks & SWM_Q_FOCUSPREV) || (ws->cur_layout->flags & SWM_L_FOCUSPREV)) { if (cur_focus != ws->focus_prev) winfocus = ws->focus_prev; else winfocus = TAILQ_PREV(win, ws_win_list, entry); if (winfocus) goto done; } DNPRINTF(SWM_D_FOCUS, "get_focus_prev: focus_close: %d\n", focus_close); if (winfocus == NULL || winfocus == win) { switch (focus_close) { case SWM_STACK_BOTTOM: TAILQ_FOREACH(winfocus, wl, entry) if (!winfocus->iconic && winfocus != cur_focus) break; break; case SWM_STACK_TOP: TAILQ_FOREACH_REVERSE(winfocus, wl, ws_win_list, entry) if (!winfocus->iconic && winfocus != cur_focus) break; break; case SWM_STACK_ABOVE: winfocus = TAILQ_NEXT(cur_focus, entry); while (winfocus && winfocus->iconic) winfocus = TAILQ_NEXT(winfocus, entry); if (winfocus == NULL) { if (focus_close_wrap) { TAILQ_FOREACH(winfocus, wl, entry) if (!winfocus->iconic && winfocus != cur_focus) break; } else { TAILQ_FOREACH_REVERSE(winfocus, wl, ws_win_list, entry) if (!winfocus->iconic && winfocus != cur_focus) break; } } break; case SWM_STACK_BELOW: winfocus = TAILQ_PREV(cur_focus, ws_win_list, entry); while (winfocus && winfocus->iconic) winfocus = TAILQ_PREV(winfocus, ws_win_list, entry); if (winfocus == NULL) { if (focus_close_wrap) { TAILQ_FOREACH_REVERSE(winfocus, wl, ws_win_list, entry) if (!winfocus->iconic && winfocus != cur_focus) break; } else { TAILQ_FOREACH(winfocus, wl, entry) if (!winfocus->iconic && winfocus != cur_focus) break; } } break; } } done: if (winfocus == NULL || (winfocus && (winfocus->iconic || winfocus == cur_focus))) { if (focus_default == SWM_STACK_TOP) { TAILQ_FOREACH_REVERSE(winfocus, wl, ws_win_list, entry) if (!winfocus->iconic && winfocus != cur_focus) break; } else { TAILQ_FOREACH(winfocus, wl, entry) if (!winfocus->iconic && winfocus != cur_focus) break; } } kill_refs(win); return get_focus_magic(winfocus); } struct ws_win * get_region_focus(struct swm_region *r) { struct ws_win *winfocus = NULL; if (!(r && r->ws)) return NULL; if (r->ws->focus && !r->ws->focus->iconic) winfocus = r->ws->focus; else if (r->ws->focus_prev && !r->ws->focus_prev->iconic) winfocus = r->ws->focus_prev; else TAILQ_FOREACH(winfocus, &r->ws->winlist, entry) if (!winfocus->iconic) break; return get_focus_magic(winfocus); } void focus(struct swm_region *r, union arg *args) { struct ws_win *head, *cur_focus = NULL, *winfocus = NULL; struct ws_win_list *wl = NULL; struct workspace *ws = NULL; int all_iconics; if (!(r && r->ws)) return; DNPRINTF(SWM_D_FOCUS, "focus: id: %d\n", args->id); if ((cur_focus = r->ws->focus) == NULL) return; ws = r->ws; wl = &ws->winlist; if (TAILQ_EMPTY(wl)) return; /* make sure there is at least one uniconified window */ all_iconics = 1; TAILQ_FOREACH(winfocus, wl, entry) if (!winfocus->iconic) { all_iconics = 0; break; } if (all_iconics) return; switch (args->id) { case SWM_ARG_ID_FOCUSPREV: head = TAILQ_PREV(cur_focus, ws_win_list, entry); if (head == NULL) head = TAILQ_LAST(wl, ws_win_list); winfocus = head; if (WINID(winfocus) == cur_focus->transient) { head = TAILQ_PREV(winfocus, ws_win_list, entry); if (head == NULL) head = TAILQ_LAST(wl, ws_win_list); winfocus = head; } /* skip iconics */ if (winfocus && winfocus->iconic) { while (winfocus != cur_focus) { if (winfocus == NULL) winfocus = TAILQ_LAST(wl, ws_win_list); if (!winfocus->iconic) break; winfocus = TAILQ_PREV(winfocus, ws_win_list, entry); } } break; case SWM_ARG_ID_FOCUSNEXT: head = TAILQ_NEXT(cur_focus, entry); if (head == NULL) head = TAILQ_FIRST(wl); winfocus = head; /* skip iconics */ if (winfocus && winfocus->iconic) { while (winfocus != cur_focus) { if (winfocus == NULL) winfocus = TAILQ_FIRST(wl); if (!winfocus->iconic) break; winfocus = TAILQ_NEXT(winfocus, entry); } } break; case SWM_ARG_ID_FOCUSMAIN: winfocus = TAILQ_FIRST(wl); if (winfocus == cur_focus) winfocus = cur_focus->ws->focus_prev; break; default: return; } focus_win(get_focus_magic(winfocus)); focus_flush(); } void cycle_layout(struct swm_region *r, union arg *args) { struct workspace *ws = r->ws; /* suppress unused warning since var is needed */ (void)args; DNPRINTF(SWM_D_EVENT, "cycle_layout: workspace: %d\n", ws->idx); ws->cur_layout++; if (ws->cur_layout->l_stack == NULL) ws->cur_layout = &layouts[0]; stack(); bar_draw(); focus_win(get_region_focus(r)); focus_flush(); } void stack_config(struct swm_region *r, union arg *args) { struct workspace *ws = r->ws; DNPRINTF(SWM_D_STACK, "stack_config: id: %d workspace: %d\n", args->id, ws->idx); if (ws->cur_layout->l_config != NULL) ws->cur_layout->l_config(ws, args->id); if (args->id != SWM_ARG_ID_STACKINIT) stack(); bar_draw(); focus_flush(); } void stack(void) { struct swm_geometry g; struct swm_region *r; int i, num_screens; #ifdef SWM_DEBUG int j; #endif DNPRINTF(SWM_D_STACK, "stack: begin\n"); num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) { #ifdef SWM_DEBUG j = 0; #endif TAILQ_FOREACH(r, &screens[i].rl, entry) { DNPRINTF(SWM_D_STACK, "stack: workspace: %d " "(screen: %d, region: %d)\n", r->ws->idx, i, j++); /* Adjust stack area for region bar and padding. */ g = r->g; g.x += region_padding; g.y += region_padding; g.w -= 2 * border_width + 2 * region_padding; g.h -= 2 * border_width + 2 * region_padding; if (bar_enabled && r->ws->bar_enabled) { if (!bar_at_bottom) g.y += bar_height; g.h -= bar_height; } r->ws->cur_layout->l_stack(r->ws, &g); r->ws->cur_layout->l_string(r->ws); /* save r so we can track region changes */ r->ws->old_r = r; } } if (font_adjusted) font_adjusted--; DNPRINTF(SWM_D_STACK, "stack: end\n"); } void store_float_geom(struct ws_win *win, struct swm_region *r) { if (win == NULL || r == NULL) return; /* retain window geom and region geom */ win->g_float = win->g; win->g_float.x -= X(r); win->g_float.y -= Y(r); win->g_floatvalid = 1; DNPRINTF(SWM_D_MISC, "store_float_geom: window: 0x%x, g: (%d,%d)" " %d x %d, g_float: (%d,%d) %d x %d\n", win->id, X(win), Y(win), WIDTH(win), HEIGHT(win), win->g_float.x, win->g_float.y, win->g_float.w, win->g_float.h); } void load_float_geom(struct ws_win *win, struct swm_region *r) { if (win == NULL || r == NULL) return; if (win->g_floatvalid) { win->g = win->g_float; X(win) += X(r); Y(win) += Y(r); DNPRINTF(SWM_D_MISC, "load_float_geom: window: 0x%x, g: (%d,%d)" "%d x %d\n", win->id, X(win), Y(win), WIDTH(win), HEIGHT(win)); } else { DNPRINTF(SWM_D_MISC, "load_float_geom: window: 0x%x, g_float " "is not set.\n", win->id); } } void stack_floater(struct ws_win *win, struct swm_region *r) { if (win == NULL) return; DNPRINTF(SWM_D_MISC, "stack_floater: window: 0x%x\n", win->id); /* * to allow windows to change their size (e.g. mplayer fs) only retrieve * geom on ws switches or return from max mode */ if (win->floatmaxed || (r != r->ws->old_r && !(win->ewmh_flags & EWMH_F_FULLSCREEN))) { /* update geometry for the new region */ load_float_geom(win, r); } win->floatmaxed = 0; /* * if set to fullscreen mode, configure window to maximum size. */ if (win->ewmh_flags & EWMH_F_FULLSCREEN) { if (!win->g_floatvalid) store_float_geom(win, win->ws->r); win->g = r->g; } /* * remove border on fullscreen floater when in fullscreen mode or when * the quirk is present. */ if ((win->ewmh_flags & EWMH_F_FULLSCREEN) || ((win->quirks & SWM_Q_FULLSCREEN) && (WIDTH(win) >= WIDTH(r)) && (HEIGHT(win) >= HEIGHT(r)))) { if (win->bordered) { win->bordered = 0; X(win) += border_width; Y(win) += border_width; } } else if (!win->bordered) { win->bordered = 1; X(win) -= border_width; Y(win) -= border_width; } if (win->transient && (win->quirks & SWM_Q_TRANSSZ)) { WIDTH(win) = (double)WIDTH(r) * dialog_ratio; HEIGHT(win) = (double)HEIGHT(r) * dialog_ratio; } if (!win->manual && !(win->ewmh_flags & EWMH_F_FULLSCREEN) && !(win->quirks & SWM_Q_ANYWHERE)) { /* * floaters and transients are auto-centred unless moved, * resized or ANYWHERE quirk is set. */ X(win) = X(r) + (WIDTH(r) - WIDTH(win)) / 2 - BORDER(win); Y(win) = Y(r) + (HEIGHT(r) - HEIGHT(win)) / 2 - BORDER(win); store_float_geom(win, r); } /* keep window within region bounds */ constrain_window(win, r, 0); update_window(win); } /* * Send keystrokes to terminal to decrease/increase the font size as the * window size changes. */ void adjust_font(struct ws_win *win) { if (!(win->quirks & SWM_Q_XTERM_FONTADJ) || win->floating || win->transient) return; if (win->sh.width_inc && win->last_inc != win->sh.width_inc && WIDTH(win) / win->sh.width_inc < term_width && win->font_steps < SWM_MAX_FONT_STEPS) { win->font_size_boundary[win->font_steps] = (win->sh.width_inc * term_width) + win->sh.base_width; win->font_steps++; font_adjusted++; win->last_inc = win->sh.width_inc; fake_keypress(win, XK_KP_Subtract, XCB_MOD_MASK_SHIFT); } else if (win->font_steps && win->last_inc != win->sh.width_inc && WIDTH(win) > win->font_size_boundary[win->font_steps - 1]) { win->font_steps--; font_adjusted++; win->last_inc = win->sh.width_inc; fake_keypress(win, XK_KP_Add, XCB_MOD_MASK_SHIFT); } } #define SWAPXY(g) do { \ int tmp; \ tmp = (g)->y; (g)->y = (g)->x; (g)->x = tmp; \ tmp = (g)->h; (g)->h = (g)->w; (g)->w = tmp; \ } while (0) void stack_master(struct workspace *ws, struct swm_geometry *g, int rot, int flip) { struct swm_geometry win_g, r_g = *g; struct ws_win *win, *fs_win = NULL; int i, j, s, stacks; int w_inc = 1, h_inc, w_base = 1, h_base; int hrh, extra = 0, h_slice, last_h = 0; int split, colno, winno, mwin, msize, mscale; int remain, missing, v_slice, reconfigure = 0; int bordered = 1; DNPRINTF(SWM_D_STACK, "stack_master: workspace: %d, rot: %s, " "flip: %s\n", ws->idx, YESNO(rot), YESNO(flip)); winno = count_win(ws, 0); if (winno == 0 && count_win(ws, 1) == 0) return; TAILQ_FOREACH(win, &ws->winlist, entry) if (!win->transient && !win->floating && !win->iconic) break; if (win == NULL) goto notiles; if (rot) { w_inc = win->sh.width_inc; w_base = win->sh.base_width; mwin = ws->l_state.horizontal_mwin; mscale = ws->l_state.horizontal_msize; stacks = ws->l_state.horizontal_stacks; SWAPXY(&r_g); } else { w_inc = win->sh.height_inc; w_base = win->sh.base_height; mwin = ws->l_state.vertical_mwin; mscale = ws->l_state.vertical_msize; stacks = ws->l_state.vertical_stacks; } win_g = r_g; if (stacks > winno - mwin) stacks = winno - mwin; if (stacks < 1) stacks = 1; h_slice = r_g.h / SWM_H_SLICE; if (mwin && winno > mwin) { v_slice = r_g.w / SWM_V_SLICE; split = mwin; colno = split; win_g.w = v_slice * mscale; if (w_inc > 1 && w_inc < v_slice) { /* adjust for window's requested size increment */ remain = (win_g.w - w_base) % w_inc; win_g.w -= remain; } msize = win_g.w; if (flip) win_g.x += r_g.w - msize; } else { msize = -2; colno = split = winno / stacks; win_g.w = ((r_g.w - (stacks * 2 * border_width) + 2 * border_width) / stacks); } hrh = r_g.h / colno; extra = r_g.h - (colno * hrh); win_g.h = hrh - 2 * border_width; /* stack all the tiled windows */ i = j = 0, s = stacks; TAILQ_FOREACH(win, &ws->winlist, entry) { if (win->transient || win->floating || win->iconic) continue; if (win->ewmh_flags & EWMH_F_FULLSCREEN) { fs_win = win; continue; } if (split && i == split) { colno = (winno - mwin) / stacks; if (s <= (winno - mwin) % stacks) colno++; split = split + colno; hrh = (r_g.h / colno); extra = r_g.h - (colno * hrh); if (flip) win_g.x = r_g.x; else win_g.x += win_g.w + 2 * border_width + tile_gap; win_g.w = (r_g.w - msize - (stacks * (2 * border_width + tile_gap))) / stacks; if (s == 1) win_g.w += (r_g.w - msize - (stacks * (2 * border_width + tile_gap))) % stacks; s--; j = 0; } win_g.h = hrh - 2 * border_width - tile_gap; if (rot) { h_inc = win->sh.width_inc; h_base = win->sh.base_width; } else { h_inc = win->sh.height_inc; h_base = win->sh.base_height; } if (j == colno - 1) { win_g.h = hrh + extra; } else if (h_inc > 1 && h_inc < h_slice) { /* adjust for window's requested size increment */ remain = (win_g.h - h_base) % h_inc; missing = h_inc - remain; if (missing <= extra || j == 0) { extra -= missing; win_g.h += missing; } else { win_g.h -= remain; extra += remain; } } if (j == 0) win_g.y = r_g.y; else win_g.y += last_h + 2 * border_width + tile_gap; if (disable_border && !(bar_enabled && ws->bar_enabled) && winno == 1){ bordered = 0; win_g.w += 2 * border_width; win_g.h += 2 * border_width; } else { bordered = 1; } if (rot) { if (X(win) != win_g.y || Y(win) != win_g.x || WIDTH(win) != win_g.h || HEIGHT(win) != win_g.w) { reconfigure = 1; X(win) = win_g.y; Y(win) = win_g.x; WIDTH(win) = win_g.h; HEIGHT(win) = win_g.w; } } else { if (X(win) != win_g.x || Y(win) != win_g.y || WIDTH(win) != win_g.w || HEIGHT(win) != win_g.h) { reconfigure = 1; X(win) = win_g.x; Y(win) = win_g.y; WIDTH(win) = win_g.w; HEIGHT(win) = win_g.h; } } if (bordered != win->bordered) { reconfigure = 1; win->bordered = bordered; } if (reconfigure) { adjust_font(win); update_window(win); } map_window(win); last_h = win_g.h; i++; j++; } notiles: /* now, stack all the floaters and transients */ TAILQ_FOREACH(win, &ws->winlist, entry) { if (!win->transient && !win->floating) continue; if (win->iconic) continue; if (win->ewmh_flags & EWMH_F_FULLSCREEN) { fs_win = win; continue; } stack_floater(win, ws->r); map_window(win); } /* Make sure fs_win is stacked last so it's on top. */ if (fs_win) { stack_floater(fs_win, ws->r); map_window(fs_win); } } void vertical_config(struct workspace *ws, int id) { DNPRINTF(SWM_D_STACK, "vertical_config: id: %d, workspace: %d\n", id, ws->idx); switch (id) { case SWM_ARG_ID_STACKRESET: case SWM_ARG_ID_STACKINIT: ws->l_state.vertical_msize = SWM_V_SLICE / 2; ws->l_state.vertical_mwin = 1; ws->l_state.vertical_stacks = 1; break; case SWM_ARG_ID_MASTERSHRINK: if (ws->l_state.vertical_msize > 1) ws->l_state.vertical_msize--; break; case SWM_ARG_ID_MASTERGROW: if (ws->l_state.vertical_msize < SWM_V_SLICE - 1) ws->l_state.vertical_msize++; break; case SWM_ARG_ID_MASTERADD: ws->l_state.vertical_mwin++; break; case SWM_ARG_ID_MASTERDEL: if (ws->l_state.vertical_mwin > 0) ws->l_state.vertical_mwin--; break; case SWM_ARG_ID_STACKINC: ws->l_state.vertical_stacks++; break; case SWM_ARG_ID_STACKDEC: if (ws->l_state.vertical_stacks > 1) ws->l_state.vertical_stacks--; break; case SWM_ARG_ID_FLIPLAYOUT: ws->l_state.vertical_flip = !ws->l_state.vertical_flip; break; default: return; } } void vertical_stack(struct workspace *ws, struct swm_geometry *g) { DNPRINTF(SWM_D_STACK, "vertical_stack: workspace: %d\n", ws->idx); stack_master(ws, g, 0, ws->l_state.vertical_flip); } void horizontal_config(struct workspace *ws, int id) { DNPRINTF(SWM_D_STACK, "horizontal_config: workspace: %d\n", ws->idx); switch (id) { case SWM_ARG_ID_STACKRESET: case SWM_ARG_ID_STACKINIT: ws->l_state.horizontal_mwin = 1; ws->l_state.horizontal_msize = SWM_H_SLICE / 2; ws->l_state.horizontal_stacks = 1; break; case SWM_ARG_ID_MASTERSHRINK: if (ws->l_state.horizontal_msize > 1) ws->l_state.horizontal_msize--; break; case SWM_ARG_ID_MASTERGROW: if (ws->l_state.horizontal_msize < SWM_H_SLICE - 1) ws->l_state.horizontal_msize++; break; case SWM_ARG_ID_MASTERADD: ws->l_state.horizontal_mwin++; break; case SWM_ARG_ID_MASTERDEL: if (ws->l_state.horizontal_mwin > 0) ws->l_state.horizontal_mwin--; break; case SWM_ARG_ID_STACKINC: ws->l_state.horizontal_stacks++; break; case SWM_ARG_ID_STACKDEC: if (ws->l_state.horizontal_stacks > 1) ws->l_state.horizontal_stacks--; break; case SWM_ARG_ID_FLIPLAYOUT: ws->l_state.horizontal_flip = !ws->l_state.horizontal_flip; break; default: return; } } void horizontal_stack(struct workspace *ws, struct swm_geometry *g) { DNPRINTF(SWM_D_STACK, "horizontal_stack: workspace: %d\n", ws->idx); stack_master(ws, g, 1, ws->l_state.horizontal_flip); } /* fullscreen view */ void max_stack(struct workspace *ws, struct swm_geometry *g) { struct swm_geometry gg = *g; struct ws_win *w, *win = NULL, *parent = NULL; int winno; DNPRINTF(SWM_D_STACK, "max_stack: workspace: %d\n", ws->idx); if (ws == NULL) return; winno = count_win(ws, 0); if (winno == 0 && count_win(ws, 1) == 0) return; /* Figure out which top level window should be visible. */ if (ws->focus_pending) win = ws->focus_pending; else if (ws->focus) win = ws->focus; else win = TAILQ_FIRST(&ws->winlist); if (win->transient) parent = find_window(win->transient); DNPRINTF(SWM_D_STACK, "max_stack: win: 0x%x\n", win->id); /* maximize all top level windows */ TAILQ_FOREACH(w, &ws->winlist, entry) { if (w->transient || w->iconic) continue; if (!w->mapped && w != win) map_window(w); if (w->floating && !w->floatmaxed) { /* * retain geometry for retrieval on exit from * max_stack mode */ store_float_geom(w, ws->r); w->floatmaxed = 1; } /* only reconfigure if necessary */ if (X(w) != gg.x || Y(w) != gg.y || WIDTH(w) != gg.w || HEIGHT(w) != gg.h) { w->g = gg; if (bar_enabled && ws->bar_enabled){ w->bordered = 1; } else { w->bordered = 0; WIDTH(w) += 2 * border_width; HEIGHT(w) += 2 * border_width; } update_window(w); } } /* If a parent exists, map/raise it first. */ if (parent) { map_window(parent); /* Map siblings next. */ TAILQ_FOREACH(w, &ws->winlist, entry) if (w != win && !w->iconic && w->transient == parent->id) { stack_floater(w, ws->r); map_window(w); } } /* Map/raise focused window. */ map_window(win); /* Finally, map/raise children of focus window. */ TAILQ_FOREACH(w, &ws->winlist, entry) if (w->transient == win->id && !w->iconic) { stack_floater(w, ws->r); map_window(w); } } void send_to_rg(struct swm_region *r, union arg *args) { int ridx = args->id, i, num_screens; struct swm_region *rr = NULL; union arg a; num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); /* do nothing if we don't have more than one screen */ if (!(num_screens > 1 || outputs > 1)) return; DNPRINTF(SWM_D_FOCUS, "send_to_rg: id: %d\n", ridx); rr = TAILQ_FIRST(&r->s->rl); for (i = 0; i < ridx; ++i) rr = TAILQ_NEXT(rr, entry); if (rr == NULL) return; a.id = rr->ws->idx; send_to_ws(r, &a); } void send_to_ws(struct swm_region *r, union arg *args) { int wsid = args->id; struct ws_win *win = NULL, *parent; struct workspace *ws, *nws, *pws; char ws_idx_str[SWM_PROPLEN]; if (wsid >= workspace_limit) return; if (r && r->ws && r->ws->focus) win = r->ws->focus; else return; if (win->ws->idx == wsid) return; DNPRINTF(SWM_D_MOVE, "send_to_ws: win 0x%x, ws %d -> %d\n", win->id, win->ws->idx, wsid); ws = win->ws; nws = &win->s->ws[wsid]; /* Update the window's workspace property: _SWM_WS */ if (snprintf(ws_idx_str, SWM_PROPLEN, "%d", nws->idx) < SWM_PROPLEN) { if (focus_mode != SWM_FOCUS_FOLLOW) ws->focus_pending = get_focus_prev(win); /* Move the parent if this is a transient window. */ if (win->transient) { parent = find_window(win->transient); if (parent) { pws = parent->ws; /* Set new focus in parent's ws if needed. */ if (pws->focus == parent) { if (focus_mode != SWM_FOCUS_FOLLOW) pws->focus_pending = get_focus_prev(parent); unfocus_win(parent); if (focus_mode != SWM_FOCUS_FOLLOW) pws->focus = pws->focus_pending; if (focus_mode != SWM_FOCUS_FOLLOW) pws->focus_pending = NULL; } /* Don't unmap parent if new ws is visible */ if (nws->r == NULL) unmap_window(parent); /* Transfer */ TAILQ_REMOVE(&ws->winlist, parent, entry); TAILQ_INSERT_TAIL(&nws->winlist, parent, entry); parent->ws = nws; DNPRINTF(SWM_D_PROP, "send_to_ws: set " "property: _SWM_WS: %s\n", ws_idx_str); xcb_change_property(conn, XCB_PROP_MODE_REPLACE, parent->id, a_swm_ws, XCB_ATOM_STRING, 8, strlen(ws_idx_str), ws_idx_str); } } unfocus_win(win); /* Don't unmap if new ws is visible */ if (nws->r == NULL) unmap_window(win); /* Transfer */ TAILQ_REMOVE(&ws->winlist, win, entry); TAILQ_INSERT_TAIL(&nws->winlist, win, entry); win->ws = nws; /* Set focus on new ws. */ unfocus_win(nws->focus); nws->focus = win; DNPRINTF(SWM_D_PROP, "send_to_ws: set property: _SWM_WS: %s\n", ws_idx_str); xcb_change_property(conn, XCB_PROP_MODE_REPLACE, win->id, a_swm_ws, XCB_ATOM_STRING, 8, strlen(ws_idx_str), ws_idx_str); /* Restack and set new focus. */ stack(); if (focus_mode != SWM_FOCUS_FOLLOW) { focus_win(ws->focus_pending); ws->focus_pending = NULL; } focus_flush(); } DNPRINTF(SWM_D_MOVE, "send_to_ws: done.\n"); } void pressbutton(struct swm_region *r, union arg *args) { /* suppress unused warning since var is needed */ (void)r; xcb_test_fake_input(conn, XCB_BUTTON_PRESS, args->id, XCB_CURRENT_TIME, XCB_WINDOW_NONE, 0, 0, 0); xcb_test_fake_input(conn, XCB_BUTTON_RELEASE, args->id, XCB_CURRENT_TIME, XCB_WINDOW_NONE, 0, 0, 0); } void raise_toggle(struct swm_region *r, union arg *args) { /* suppress unused warning since var is needed */ (void)args; if (r == NULL || r->ws == NULL) return; r->ws->always_raise = !r->ws->always_raise; /* bring floaters back to top */ if (!r->ws->always_raise) stack(); focus_flush(); } void iconify(struct swm_region *r, union arg *args) { /* suppress unused warning since var is needed */ (void)args; if (r->ws->focus == NULL) return; set_swm_iconic(r->ws->focus, 1); xcb_flush(conn); } char * get_win_name(xcb_window_t win) { char *name = NULL; xcb_get_property_cookie_t c; xcb_get_property_reply_t *r; /* First try _NET_WM_NAME for UTF-8. */ c = xcb_get_property(conn, 0, win, a_netwmname, XCB_GET_PROPERTY_TYPE_ANY, 0, UINT_MAX); r = xcb_get_property_reply(conn, c, NULL); if (r) { if (r->type == XCB_NONE) { free(r); /* Use WM_NAME instead; no UTF-8. */ c = xcb_get_property(conn, 0, win, XCB_ATOM_WM_NAME, XCB_GET_PROPERTY_TYPE_ANY, 0, UINT_MAX); r = xcb_get_property_reply(conn, c, NULL); if (!r) return (NULL); if (r->type == XCB_NONE) { free(r); return (NULL); } } if (r->length > 0) name = strndup(xcb_get_property_value(r), xcb_get_property_value_length(r)); free(r); } return (name); } void uniconify(struct swm_region *r, union arg *args) { struct ws_win *win; FILE *lfile; char *name; int count = 0; DNPRINTF(SWM_D_MISC, "uniconify\n"); if (r == NULL || r->ws == NULL) return; /* make sure we have anything to uniconify */ TAILQ_FOREACH(win, &r->ws->winlist, entry) { if (win->ws == NULL) continue; /* should never happen */ if (!win->iconic) continue; count++; } if (count == 0) return; search_r = r; search_resp_action = SWM_SEARCH_UNICONIFY; spawn_select(r, args, "search", &searchpid); if ((lfile = fdopen(select_list_pipe[1], "w")) == NULL) return; TAILQ_FOREACH(win, &r->ws->winlist, entry) { if (win->ws == NULL) continue; /* should never happen */ if (!win->iconic) continue; name = get_win_name(win->id); if (name == NULL) continue; fprintf(lfile, "%s.%u\n", name, win->id); free(name); } fclose(lfile); } void name_workspace(struct swm_region *r, union arg *args) { FILE *lfile; DNPRINTF(SWM_D_MISC, "name_workspace\n"); if (r == NULL) return; search_r = r; search_resp_action = SWM_SEARCH_NAME_WORKSPACE; spawn_select(r, args, "name_workspace", &searchpid); if ((lfile = fdopen(select_list_pipe[1], "w")) == NULL) return; fprintf(lfile, "%s", ""); fclose(lfile); } void search_workspace(struct swm_region *r, union arg *args) { int i; struct workspace *ws; FILE *lfile; DNPRINTF(SWM_D_MISC, "search_workspace\n"); if (r == NULL) return; search_r = r; search_resp_action = SWM_SEARCH_SEARCH_WORKSPACE; spawn_select(r, args, "search", &searchpid); if ((lfile = fdopen(select_list_pipe[1], "w")) == NULL) return; for (i = 0; i < workspace_limit; i++) { ws = &r->s->ws[i]; if (ws == NULL) continue; fprintf(lfile, "%d%s%s\n", ws->idx + 1, (ws->name ? ":" : ""), (ws->name ? ws->name : "")); } fclose(lfile); } void search_win_cleanup(void) { struct search_window *sw = NULL; while ((sw = TAILQ_FIRST(&search_wl)) != NULL) { xcb_destroy_window(conn, sw->indicator); TAILQ_REMOVE(&search_wl, sw, entry); free(sw); } } void search_win(struct swm_region *r, union arg *args) { struct ws_win *win = NULL; struct search_window *sw = NULL; xcb_window_t w; uint32_t wa[2]; int i, width, height; char s[8]; FILE *lfile; size_t len; XftDraw *draw; XGlyphInfo info; GC l_draw; XGCValues l_gcv; XRectangle l_ibox, l_lbox; DNPRINTF(SWM_D_MISC, "search_win\n"); search_r = r; search_resp_action = SWM_SEARCH_SEARCH_WINDOW; spawn_select(r, args, "search", &searchpid); if ((lfile = fdopen(select_list_pipe[1], "w")) == NULL) return; TAILQ_INIT(&search_wl); i = 1; TAILQ_FOREACH(win, &r->ws->winlist, entry) { if (win->iconic) continue; sw = calloc(1, sizeof(struct search_window)); if (sw == NULL) { warn("search_win: calloc"); fclose(lfile); search_win_cleanup(); return; } sw->idx = i; sw->win = win; snprintf(s, sizeof s, "%d", i); len = strlen(s); w = xcb_generate_id(conn); wa[0] = r->s->c[SWM_S_COLOR_FOCUS].pixel; wa[1] = r->s->c[SWM_S_COLOR_UNFOCUS].pixel; if (bar_font_legacy) { XmbTextExtents(bar_fs, s, len, &l_ibox, &l_lbox); width = l_lbox.width + 4; height = bar_fs_extents->max_logical_extent.height + 4; } else { XftTextExtentsUtf8(display, bar_font, (FcChar8 *)s, len, &info); width = info.width + 4; height = bar_font->height + 4; } xcb_create_window(conn, XCB_COPY_FROM_PARENT, w, win->id, 0, 0, width, height, 1, XCB_WINDOW_CLASS_INPUT_OUTPUT, XCB_COPY_FROM_PARENT, XCB_CW_BACK_PIXEL | XCB_CW_BORDER_PIXEL, wa); xcb_map_window(conn, w); sw->indicator = w; TAILQ_INSERT_TAIL(&search_wl, sw, entry); if (bar_font_legacy) { l_gcv.graphics_exposures = 0; l_draw = XCreateGC(display, w, 0, &l_gcv); XSetForeground(display, l_draw, r->s->c[SWM_S_COLOR_BAR].pixel); DRAWSTRING(display, w, bar_fs, l_draw, 2, (bar_fs_extents->max_logical_extent.height - l_lbox.height) / 2 - l_lbox.y, s, len); XFreeGC(display, l_draw); } else { draw = XftDrawCreate(display, w, DefaultVisual(display, r->s->idx), DefaultColormap(display, r->s->idx)); XftDrawStringUtf8(draw, &bar_font_color, bar_font, 2, (HEIGHT(r->bar) + bar_font->height) / 2 - bar_font->descent, (FcChar8 *)s, len); XftDrawDestroy(draw); } DNPRINTF(SWM_D_MISC, "search_win: mapped window: 0x%x\n", w); fprintf(lfile, "%d\n", i); i++; } fclose(lfile); xcb_flush(conn); } void search_resp_uniconify(const char *resp, unsigned long len) { char *name; struct ws_win *win; char *s; DNPRINTF(SWM_D_MISC, "search_resp_uniconify: resp: %s\n", resp); TAILQ_FOREACH(win, &search_r->ws->winlist, entry) { if (!win->iconic) continue; name = get_win_name(win->id); if (name == NULL) continue; if (asprintf(&s, "%s.%u", name, win->id) == -1) { free(name); continue; } free(name); if (strncmp(s, resp, len) == 0) { /* XXX this should be a callback to generalize */ set_swm_iconic(win, 0); free(s); break; } free(s); } } void search_resp_name_workspace(const char *resp, unsigned long len) { struct workspace *ws; DNPRINTF(SWM_D_MISC, "search_resp_name_workspace: resp: %s\n", resp); if (search_r->ws == NULL) return; ws = search_r->ws; if (ws->name) { free(search_r->ws->name); search_r->ws->name = NULL; } if (len > 1) { ws->name = strdup(resp); if (ws->name == NULL) { DNPRINTF(SWM_D_MISC, "search_resp_name_workspace: " "strdup: %s", strerror(errno)); return; } } } void search_resp_search_workspace(const char *resp) { char *p, *q; int ws_idx; const char *errstr; union arg a; DNPRINTF(SWM_D_MISC, "search_resp_search_workspace: resp: %s\n", resp); q = strdup(resp); if (!q) { DNPRINTF(SWM_D_MISC, "search_resp_search_workspace: strdup: %s", strerror(errno)); return; } p = strchr(q, ':'); if (p != NULL) *p = '\0'; ws_idx = (int)strtonum(q, 1, workspace_limit, &errstr); if (errstr) { DNPRINTF(SWM_D_MISC, "workspace idx is %s: %s", errstr, q); free(q); return; } free(q); a.id = ws_idx - 1; switchws(search_r, &a); } void search_resp_search_window(const char *resp) { char *s; int idx; const char *errstr; struct search_window *sw; DNPRINTF(SWM_D_MISC, "search_resp_search_window: resp: %s\n", resp); s = strdup(resp); if (!s) { DNPRINTF(SWM_D_MISC, "search_resp_search_window: strdup: %s", strerror(errno)); return; } idx = (int)strtonum(s, 1, INT_MAX, &errstr); if (errstr) { DNPRINTF(SWM_D_MISC, "window idx is %s: %s", errstr, s); free(s); return; } free(s); TAILQ_FOREACH(sw, &search_wl, entry) if (idx == sw->idx) { focus_win(sw->win); break; } } #define MAX_RESP_LEN 1024 void search_do_resp(void) { ssize_t rbytes; char *resp; unsigned long len; DNPRINTF(SWM_D_MISC, "search_do_resp:\n"); search_resp = 0; searchpid = 0; if ((resp = calloc(1, MAX_RESP_LEN + 1)) == NULL) { warn("search: calloc"); goto done; } rbytes = read(select_resp_pipe[0], resp, MAX_RESP_LEN); if (rbytes <= 0) { warn("search: read error"); goto done; } resp[rbytes] = '\0'; /* XXX: * Older versions of dmenu (Atleast pre 4.4.1) do not send a * newline, so work around that by sanitizing the resp now. */ resp[strcspn(resp, "\n")] = '\0'; len = strlen(resp); switch (search_resp_action) { case SWM_SEARCH_UNICONIFY: search_resp_uniconify(resp, len); break; case SWM_SEARCH_NAME_WORKSPACE: search_resp_name_workspace(resp, len); break; case SWM_SEARCH_SEARCH_WORKSPACE: search_resp_search_workspace(resp); break; case SWM_SEARCH_SEARCH_WINDOW: search_resp_search_window(resp); break; } done: if (search_resp_action == SWM_SEARCH_SEARCH_WINDOW) search_win_cleanup(); search_resp_action = SWM_SEARCH_NONE; close(select_resp_pipe[0]); free(resp); xcb_flush(conn); } void wkill(struct swm_region *r, union arg *args) { DNPRINTF(SWM_D_MISC, "wkill: id: %d\n", args->id); if (r->ws->focus == NULL) return; if (args->id == SWM_ARG_ID_KILLWINDOW) xcb_kill_client(conn, r->ws->focus->id); else if (r->ws->focus->can_delete) client_msg(r->ws->focus, a_delete, 0); focus_flush(); } int floating_toggle_win(struct ws_win *win) { struct swm_region *r; if (win == NULL) return (0); if (!win->ws->r) return (0); r = win->ws->r; /* reject floating toggles in max stack mode */ if (win->ws->cur_layout == &layouts[SWM_MAX_STACK]) return (0); if (win->floating) { if (!win->floatmaxed) { /* retain position for refloat */ store_float_geom(win, r); } win->floating = 0; } else { load_float_geom(win, r); win->floating = 1; } ewmh_update_actions(win); return (1); } void floating_toggle(struct swm_region *r, union arg *args) { struct ws_win *win = r->ws->focus; /* suppress unused warning since var is needed */ (void)args; if (win == NULL) return; if (win->ewmh_flags & EWMH_F_FULLSCREEN) return; ewmh_update_win_state(win, ewmh[_NET_WM_STATE_ABOVE].atom, _NET_WM_STATE_TOGGLE); stack(); if (win == win->ws->focus) focus_win(win); focus_flush(); } void constrain_window(struct ws_win *win, struct swm_region *r, int resizable) { if (MAX_X(win) + BORDER(win) > MAX_X(r)) { if (resizable) WIDTH(win) = MAX_X(r) - X(win) - BORDER(win); else X(win) = MAX_X(r)- WIDTH(win) - BORDER(win); } if (X(win) + BORDER(win) < X(r)) { if (resizable) WIDTH(win) -= X(r) - X(win) - BORDER(win); X(win) = X(r) - BORDER(win); } if (MAX_Y(win) + BORDER(win) > MAX_Y(r)) { if (resizable) HEIGHT(win) = MAX_Y(r) - Y(win) - BORDER(win); else Y(win) = MAX_Y(r) - HEIGHT(win) - BORDER(win); } if (Y(win) + BORDER(win) < Y(r)) { if (resizable) HEIGHT(win) -= Y(r) - Y(win) - BORDER(win); Y(win) = Y(r) - BORDER(win); } if (resizable) { if (WIDTH(win) < 1) WIDTH(win) = 1; if (HEIGHT(win) < 1) HEIGHT(win) = 1; } } void update_window(struct ws_win *win) { uint16_t mask; uint32_t wc[5]; mask = XCB_CONFIG_WINDOW_X | XCB_CONFIG_WINDOW_Y | XCB_CONFIG_WINDOW_WIDTH | XCB_CONFIG_WINDOW_HEIGHT | XCB_CONFIG_WINDOW_BORDER_WIDTH; wc[0] = X(win); wc[1] = Y(win); wc[2] = WIDTH(win); wc[3] = HEIGHT(win); wc[4] = BORDER(win); DNPRINTF(SWM_D_EVENT, "update_window: window: 0x%x, (x,y) w x h: " "(%d,%d) %d x %d, bordered: %s\n", win->id, wc[0], wc[1], wc[2], wc[3], YESNO(win->bordered)); xcb_configure_window(conn, win->id, mask, wc); } #define SWM_RESIZE_STEPS (50) void resize(struct ws_win *win, union arg *args) { xcb_timestamp_t timestamp = 0; struct swm_region *r = NULL; int resize_stp = 0; struct swm_geometry g; int top = 0, left = 0, resizing; int dx, dy; xcb_cursor_t cursor; xcb_query_pointer_reply_t *xpr; xcb_generic_event_t *evt; xcb_motion_notify_event_t *mne; if (win == NULL) return; r = win->ws->r; if (win->ewmh_flags & EWMH_F_FULLSCREEN) return; DNPRINTF(SWM_D_EVENT, "resize: window: 0x%x, floating: %s, " "transient: 0x%x\n", win->id, YESNO(win->floating), win->transient); if (!win->transient && !win->floating) return; /* reject resizes in max mode for floaters (transient ok) */ if (win->floatmaxed) return; win->manual = 1; ewmh_update_win_state(win, ewmh[_SWM_WM_STATE_MANUAL].atom, _NET_WM_STATE_ADD); stack(); focus_flush(); /* It's possible for win to have been freed during focus_flush(). */ if (validate_win(win)) { DNPRINTF(SWM_D_EVENT, "move: invalid win.\n"); goto out; } switch (args->id) { case SWM_ARG_ID_WIDTHSHRINK: WIDTH(win) -= SWM_RESIZE_STEPS; resize_stp = 1; break; case SWM_ARG_ID_WIDTHGROW: WIDTH(win) += SWM_RESIZE_STEPS; resize_stp = 1; break; case SWM_ARG_ID_HEIGHTSHRINK: HEIGHT(win) -= SWM_RESIZE_STEPS; resize_stp = 1; break; case SWM_ARG_ID_HEIGHTGROW: HEIGHT(win) += SWM_RESIZE_STEPS; resize_stp = 1; break; default: break; } if (resize_stp) { constrain_window(win, r, 1); update_window(win); store_float_geom(win,r); return; } /* get cursor offset from window root */ xpr = xcb_query_pointer_reply(conn, xcb_query_pointer(conn, win->id), NULL); if (!xpr) return; g = win->g; if (xpr->win_x < WIDTH(win) / 2) left = 1; if (xpr->win_y < HEIGHT(win) / 2) top = 1; if (args->id == SWM_ARG_ID_CENTER) cursor = cursors[XC_SIZING].cid; else if (top) cursor = cursors[left ? XC_TOP_LEFT_CORNER : XC_TOP_RIGHT_CORNER].cid; else cursor = cursors[left ? XC_BOTTOM_LEFT_CORNER : XC_BOTTOM_RIGHT_CORNER].cid; xcb_grab_pointer(conn, 0, win->id, MOUSEMASK, XCB_GRAB_MODE_ASYNC, XCB_GRAB_MODE_ASYNC, XCB_WINDOW_NONE, cursor, XCB_CURRENT_TIME), xcb_flush(conn); resizing = 1; while (resizing && (evt = xcb_wait_for_event(conn))) { switch (XCB_EVENT_RESPONSE_TYPE(evt)) { case XCB_BUTTON_RELEASE: DNPRINTF(SWM_D_EVENT, "resize: BUTTON_RELEASE\n"); resizing = 0; break; case XCB_MOTION_NOTIFY: mne = (xcb_motion_notify_event_t *)evt; /* cursor offset/delta from start of the operation */ dx = mne->root_x - xpr->root_x; dy = mne->root_y - xpr->root_y; /* vertical */ if (top) dy = -dy; if (args->id == SWM_ARG_ID_CENTER) { if (g.h / 2 + dy < 1) dy = 1 - g.h / 2; Y(win) = g.y - dy; HEIGHT(win) = g.h + 2 * dy; } else { if (g.h + dy < 1) dy = 1 - g.h; if (top) Y(win) = g.y - dy; HEIGHT(win) = g.h + dy; } /* horizontal */ if (left) dx = -dx; if (args->id == SWM_ARG_ID_CENTER) { if (g.w / 2 + dx < 1) dx = 1 - g.w / 2; X(win) = g.x - dx; WIDTH(win) = g.w + 2 * dx; } else { if (g.w + dx < 1) dx = 1 - g.w; if (left) X(win) = g.x - dx; WIDTH(win) = g.w + dx; } constrain_window(win, r, 1); /* not free, don't sync more than 120 times / second */ if ((mne->time - timestamp) > (1000 / 120) ) { timestamp = mne->time; update_window(win); xcb_flush(conn); } break; default: event_handle(evt); /* It's possible for win to have been freed above. */ if (validate_win(win)) { DNPRINTF(SWM_D_EVENT, "move: invalid win.\n"); goto out; } break; } free(evt); } if (timestamp) { update_window(win); xcb_flush(conn); } store_float_geom(win,r); out: xcb_ungrab_pointer(conn, XCB_CURRENT_TIME); free(xpr); DNPRINTF(SWM_D_EVENT, "resize: done.\n"); } void resize_step(struct swm_region *r, union arg *args) { struct ws_win *win = NULL; if (r && r->ws && r->ws->focus) win = r->ws->focus; else return; resize(win, args); focus_flush(); } #define SWM_MOVE_STEPS (50) void move(struct ws_win *win, union arg *args) { xcb_timestamp_t timestamp = 0; int move_stp = 0, moving; struct swm_region *r = NULL; xcb_query_pointer_reply_t *qpr; xcb_generic_event_t *evt; xcb_motion_notify_event_t *mne; if (win == NULL) return; r = win->ws->r; if (win->ewmh_flags & EWMH_F_FULLSCREEN) return; DNPRINTF(SWM_D_EVENT, "move: window: 0x%x, floating: %s, transient: " "0x%x\n", win->id, YESNO(win->floating), win->transient); /* in max_stack mode should only move transients */ if (win->ws->cur_layout == &layouts[SWM_MAX_STACK] && !win->transient) return; win->manual = 1; if (!win->floating && !win->transient) { store_float_geom(win, r); ewmh_update_win_state(win, ewmh[_NET_WM_STATE_ABOVE].atom, _NET_WM_STATE_ADD); } ewmh_update_win_state(win, ewmh[_SWM_WM_STATE_MANUAL].atom, _NET_WM_STATE_ADD); stack(); focus_flush(); /* It's possible for win to have been freed during focus_flush(). */ if (validate_win(win)) { DNPRINTF(SWM_D_EVENT, "move: invalid win.\n"); goto out; } move_stp = 0; switch (args->id) { case SWM_ARG_ID_MOVELEFT: X(win) -= (SWM_MOVE_STEPS - border_width); move_stp = 1; break; case SWM_ARG_ID_MOVERIGHT: X(win) += (SWM_MOVE_STEPS - border_width); move_stp = 1; break; case SWM_ARG_ID_MOVEUP: Y(win) -= (SWM_MOVE_STEPS - border_width); move_stp = 1; break; case SWM_ARG_ID_MOVEDOWN: Y(win) += (SWM_MOVE_STEPS - border_width); move_stp = 1; break; default: break; } if (move_stp) { constrain_window(win, r, 0); update_window(win); store_float_geom(win, r); return; } xcb_grab_pointer(conn, 0, win->id, MOUSEMASK, XCB_GRAB_MODE_ASYNC, XCB_GRAB_MODE_ASYNC, XCB_WINDOW_NONE, cursors[XC_FLEUR].cid, XCB_CURRENT_TIME); /* get cursor offset from window root */ qpr = xcb_query_pointer_reply(conn, xcb_query_pointer(conn, win->id), NULL); if (!qpr) { xcb_ungrab_pointer(conn, XCB_CURRENT_TIME); return; } xcb_flush(conn); moving = 1; while (moving && (evt = xcb_wait_for_event(conn))) { switch (XCB_EVENT_RESPONSE_TYPE(evt)) { case XCB_BUTTON_RELEASE: DNPRINTF(SWM_D_EVENT, "move: BUTTON_RELEASE\n"); moving = 0; break; case XCB_MOTION_NOTIFY: mne = (xcb_motion_notify_event_t *)evt; X(win) = mne->root_x - qpr->win_x - border_width; Y(win) = mne->root_y - qpr->win_y - border_width; constrain_window(win, r, 0); /* not free, don't sync more than 120 times / second */ if ((mne->time - timestamp) > (1000 / 120) ) { timestamp = mne->time; update_window(win); xcb_flush(conn); } break; default: event_handle(evt); /* It's possible for win to have been freed above. */ if (validate_win(win)) { DNPRINTF(SWM_D_EVENT, "move: invalid win.\n"); goto out; } break; } free(evt); } if (timestamp) { update_window(win); xcb_flush(conn); } store_float_geom(win, r); out: free(qpr); xcb_ungrab_pointer(conn, XCB_CURRENT_TIME); DNPRINTF(SWM_D_EVENT, "move: done.\n"); } void move_step(struct swm_region *r, union arg *args) { struct ws_win *win = NULL; if (r && r->ws && r->ws->focus) win = r->ws->focus; else return; if (!win->transient && !win->floating) return; move(win, args); focus_flush(); } /* key definitions */ struct keyfunc { char name[SWM_FUNCNAME_LEN]; void (*func)(struct swm_region *r, union arg *); union arg args; } keyfuncs[KF_INVALID + 1] = { /* name function argument */ { "bar_toggle", bar_toggle, {.id = SWM_ARG_ID_BAR_TOGGLE} }, { "bar_toggle_ws", bar_toggle, {.id = SWM_ARG_ID_BAR_TOGGLE_WS} }, { "button2", pressbutton, {2} }, { "cycle_layout", cycle_layout, {0} }, { "flip_layout", stack_config, {.id = SWM_ARG_ID_FLIPLAYOUT} }, { "float_toggle", floating_toggle,{0} }, { "focus_main", focus, {.id = SWM_ARG_ID_FOCUSMAIN} }, { "focus_next", focus, {.id = SWM_ARG_ID_FOCUSNEXT} }, { "focus_prev", focus, {.id = SWM_ARG_ID_FOCUSPREV} }, { "height_grow", resize_step, {.id = SWM_ARG_ID_HEIGHTGROW} }, { "height_shrink", resize_step, {.id = SWM_ARG_ID_HEIGHTSHRINK} }, { "iconify", iconify, {0} }, { "master_shrink", stack_config, {.id = SWM_ARG_ID_MASTERSHRINK} }, { "master_grow", stack_config, {.id = SWM_ARG_ID_MASTERGROW} }, { "master_add", stack_config, {.id = SWM_ARG_ID_MASTERADD} }, { "master_del", stack_config, {.id = SWM_ARG_ID_MASTERDEL} }, { "move_down", move_step, {.id = SWM_ARG_ID_MOVEDOWN} }, { "move_left", move_step, {.id = SWM_ARG_ID_MOVELEFT} }, { "move_right", move_step, {.id = SWM_ARG_ID_MOVERIGHT} }, { "move_up", move_step, {.id = SWM_ARG_ID_MOVEUP} }, { "mvrg_1", send_to_rg, {.id = 0} }, { "mvrg_2", send_to_rg, {.id = 1} }, { "mvrg_3", send_to_rg, {.id = 2} }, { "mvrg_4", send_to_rg, {.id = 3} }, { "mvrg_5", send_to_rg, {.id = 4} }, { "mvrg_6", send_to_rg, {.id = 5} }, { "mvrg_7", send_to_rg, {.id = 6} }, { "mvrg_8", send_to_rg, {.id = 7} }, { "mvrg_9", send_to_rg, {.id = 8} }, { "mvws_1", send_to_ws, {.id = 0} }, { "mvws_2", send_to_ws, {.id = 1} }, { "mvws_3", send_to_ws, {.id = 2} }, { "mvws_4", send_to_ws, {.id = 3} }, { "mvws_5", send_to_ws, {.id = 4} }, { "mvws_6", send_to_ws, {.id = 5} }, { "mvws_7", send_to_ws, {.id = 6} }, { "mvws_8", send_to_ws, {.id = 7} }, { "mvws_9", send_to_ws, {.id = 8} }, { "mvws_10", send_to_ws, {.id = 9} }, { "mvws_11", send_to_ws, {.id = 10} }, { "mvws_12", send_to_ws, {.id = 11} }, { "mvws_13", send_to_ws, {.id = 12} }, { "mvws_14", send_to_ws, {.id = 13} }, { "mvws_15", send_to_ws, {.id = 14} }, { "mvws_16", send_to_ws, {.id = 15} }, { "mvws_17", send_to_ws, {.id = 16} }, { "mvws_18", send_to_ws, {.id = 17} }, { "mvws_19", send_to_ws, {.id = 18} }, { "mvws_20", send_to_ws, {.id = 19} }, { "mvws_21", send_to_ws, {.id = 20} }, { "mvws_22", send_to_ws, {.id = 21} }, { "name_workspace", name_workspace, {0} }, { "quit", quit, {0} }, { "raise_toggle", raise_toggle, {0} }, { "restart", restart, {0} }, { "rg_1", focusrg, {.id = 0} }, { "rg_2", focusrg, {.id = 1} }, { "rg_3", focusrg, {.id = 2} }, { "rg_4", focusrg, {.id = 3} }, { "rg_5", focusrg, {.id = 4} }, { "rg_6", focusrg, {.id = 5} }, { "rg_7", focusrg, {.id = 6} }, { "rg_8", focusrg, {.id = 7} }, { "rg_9", focusrg, {.id = 8} }, { "rg_next", cyclerg, {.id = SWM_ARG_ID_CYCLERG_UP} }, { "rg_prev", cyclerg, {.id = SWM_ARG_ID_CYCLERG_DOWN} }, { "screen_next", cyclerg, {.id = SWM_ARG_ID_CYCLERG_UP} }, { "screen_prev", cyclerg, {.id = SWM_ARG_ID_CYCLERG_DOWN} }, { "search_win", search_win, {0} }, { "search_workspace", search_workspace, {0} }, { "spawn_custom", NULL, {0} }, { "stack_inc", stack_config, {.id = SWM_ARG_ID_STACKINC} }, { "stack_dec", stack_config, {.id = SWM_ARG_ID_STACKDEC} }, { "stack_reset", stack_config, {.id = SWM_ARG_ID_STACKRESET} }, { "swap_main", swapwin, {.id = SWM_ARG_ID_SWAPMAIN} }, { "swap_next", swapwin, {.id = SWM_ARG_ID_SWAPNEXT} }, { "swap_prev", swapwin, {.id = SWM_ARG_ID_SWAPPREV} }, { "uniconify", uniconify, {0} }, { "version", version, {0} }, { "width_grow", resize_step, {.id = SWM_ARG_ID_WIDTHGROW} }, { "width_shrink", resize_step, {.id = SWM_ARG_ID_WIDTHSHRINK} }, { "wind_del", wkill, {.id = SWM_ARG_ID_DELETEWINDOW} }, { "wind_kill", wkill, {.id = SWM_ARG_ID_KILLWINDOW} }, { "ws_1", switchws, {.id = 0} }, { "ws_2", switchws, {.id = 1} }, { "ws_3", switchws, {.id = 2} }, { "ws_4", switchws, {.id = 3} }, { "ws_5", switchws, {.id = 4} }, { "ws_6", switchws, {.id = 5} }, { "ws_7", switchws, {.id = 6} }, { "ws_8", switchws, {.id = 7} }, { "ws_9", switchws, {.id = 8} }, { "ws_10", switchws, {.id = 9} }, { "ws_11", switchws, {.id = 10} }, { "ws_12", switchws, {.id = 11} }, { "ws_13", switchws, {.id = 12} }, { "ws_14", switchws, {.id = 13} }, { "ws_15", switchws, {.id = 14} }, { "ws_16", switchws, {.id = 15} }, { "ws_17", switchws, {.id = 16} }, { "ws_18", switchws, {.id = 17} }, { "ws_19", switchws, {.id = 18} }, { "ws_20", switchws, {.id = 19} }, { "ws_21", switchws, {.id = 20} }, { "ws_22", switchws, {.id = 21} }, { "ws_next", cyclews, {.id = SWM_ARG_ID_CYCLEWS_UP} }, { "ws_next_all", cyclews, {.id = SWM_ARG_ID_CYCLEWS_UP_ALL} }, { "ws_prev", cyclews, {.id = SWM_ARG_ID_CYCLEWS_DOWN} }, { "ws_prev_all", cyclews, {.id = SWM_ARG_ID_CYCLEWS_DOWN_ALL} }, { "ws_prior", priorws, {0} }, { "dumpwins", dumpwins, {0} }, /* MUST BE LAST */ { "invalid key func", NULL, {0} }, }; int key_cmp(struct key *kp1, struct key *kp2) { if (kp1->keysym < kp2->keysym) return (-1); if (kp1->keysym > kp2->keysym) return (1); if (kp1->mod < kp2->mod) return (-1); if (kp1->mod > kp2->mod) return (1); return (0); } /* mouse */ enum { client_click, root_click }; struct button { unsigned int action; unsigned int mask; unsigned int button; void (*func)(struct ws_win *, union arg *); union arg args; } buttons[] = { #define MODKEY_SHIFT MODKEY | XCB_MOD_MASK_SHIFT /* action key mouse button func args */ { client_click, MODKEY, XCB_BUTTON_INDEX_3, resize, {.id = SWM_ARG_ID_DONTCENTER} }, { client_click, MODKEY_SHIFT, XCB_BUTTON_INDEX_3, resize, {.id = SWM_ARG_ID_CENTER} }, { client_click, MODKEY, XCB_BUTTON_INDEX_1, move, {0} }, #undef MODKEY_SHIFT }; void update_modkey(unsigned int mod) { int i; struct key *kp; mod_key = mod; RB_FOREACH(kp, key_tree, &keys) if (kp->mod & XCB_MOD_MASK_SHIFT) kp->mod = mod | XCB_MOD_MASK_SHIFT; else kp->mod = mod; for (i = 0; i < LENGTH(buttons); i++) if (buttons[i].mask & XCB_MOD_MASK_SHIFT) buttons[i].mask = mod | XCB_MOD_MASK_SHIFT; else buttons[i].mask = mod; } int spawn_expand(struct swm_region *r, union arg *args, const char *spawn_name, char ***ret_args) { struct spawn_prog *prog = NULL; int i; char *ap, **real_args; /* suppress unused warning since var is needed */ (void)args; DNPRINTF(SWM_D_SPAWN, "spawn_expand: %s\n", spawn_name); /* find program */ TAILQ_FOREACH(prog, &spawns, entry) { if (!strcasecmp(spawn_name, prog->name)) break; } if (prog == NULL) { warnx("spawn_custom: program %s not found", spawn_name); return (-1); } /* make room for expanded args */ if ((real_args = calloc(prog->argc + 1, sizeof(char *))) == NULL) err(1, "spawn_custom: calloc real_args"); /* expand spawn_args into real_args */ for (i = 0; i < prog->argc; i++) { ap = prog->argv[i]; DNPRINTF(SWM_D_SPAWN, "spawn_custom: raw arg: %s\n", ap); if (!strcasecmp(ap, "$bar_border")) { if ((real_args[i] = strdup(r->s->c[SWM_S_COLOR_BAR_BORDER].name)) == NULL) err(1, "spawn_custom border color"); } else if (!strcasecmp(ap, "$bar_color")) { if ((real_args[i] = strdup(r->s->c[SWM_S_COLOR_BAR].name)) == NULL) err(1, "spawn_custom bar color"); } else if (!strcasecmp(ap, "$bar_font")) { if ((real_args[i] = strdup(bar_fonts)) == NULL) err(1, "spawn_custom bar fonts"); } else if (!strcasecmp(ap, "$bar_font_color")) { if ((real_args[i] = strdup(r->s->c[SWM_S_COLOR_BAR_FONT].name)) == NULL) err(1, "spawn_custom color font"); } else if (!strcasecmp(ap, "$color_focus")) { if ((real_args[i] = strdup(r->s->c[SWM_S_COLOR_FOCUS].name)) == NULL) err(1, "spawn_custom color focus"); } else if (!strcasecmp(ap, "$color_unfocus")) { if ((real_args[i] = strdup(r->s->c[SWM_S_COLOR_UNFOCUS].name)) == NULL) err(1, "spawn_custom color unfocus"); } else if (!strcasecmp(ap, "$region_index")) { if (asprintf(&real_args[i], "%d", get_region_index(r) + 1) < 1) err(1, "spawn_custom region index"); } else if (!strcasecmp(ap, "$workspace_index")) { if (asprintf(&real_args[i], "%d", r->ws->idx + 1) < 1) err(1, "spawn_custom workspace index"); } else { /* no match --> copy as is */ if ((real_args[i] = strdup(ap)) == NULL) err(1, "spawn_custom strdup(ap)"); } DNPRINTF(SWM_D_SPAWN, "spawn_custom: cooked arg: %s\n", real_args[i]); } #ifdef SWM_DEBUG DNPRINTF(SWM_D_SPAWN, "spawn_custom: result: "); for (i = 0; i < prog->argc; i++) DNPRINTF(SWM_D_SPAWN, "\"%s\" ", real_args[i]); DNPRINTF(SWM_D_SPAWN, "\n"); #endif *ret_args = real_args; return (prog->argc); } void spawn_custom(struct swm_region *r, union arg *args, const char *spawn_name) { union arg a; char **real_args; int spawn_argc, i; if ((spawn_argc = spawn_expand(r, args, spawn_name, &real_args)) < 0) return; a.argv = real_args; if (fork() == 0) spawn(r->ws->idx, &a, 1); for (i = 0; i < spawn_argc; i++) free(real_args[i]); free(real_args); } void spawn_select(struct swm_region *r, union arg *args, const char *spawn_name, int *pid) { union arg a; char **real_args; int i, spawn_argc; if ((spawn_argc = spawn_expand(r, args, spawn_name, &real_args)) < 0) return; a.argv = real_args; if (pipe(select_list_pipe) == -1) err(1, "pipe error"); if (pipe(select_resp_pipe) == -1) err(1, "pipe error"); if (signal(SIGPIPE, SIG_IGN) == SIG_ERR) err(1, "could not disable SIGPIPE"); switch (*pid = fork()) { case -1: err(1, "cannot fork"); break; case 0: /* child */ if (dup2(select_list_pipe[0], STDIN_FILENO) == -1) err(1, "dup2"); if (dup2(select_resp_pipe[1], STDOUT_FILENO) == -1) err(1, "dup2"); close(select_list_pipe[1]); close(select_resp_pipe[0]); spawn(r->ws->idx, &a, 0); break; default: /* parent */ close(select_list_pipe[0]); close(select_resp_pipe[1]); break; } for (i = 0; i < spawn_argc; i++) free(real_args[i]); free(real_args); } void spawn_insert(const char *name, const char *args, int flags) { char *arg, *cp, *ptr; struct spawn_prog *sp; DNPRINTF(SWM_D_SPAWN, "spawn_insert: %s\n", name); if ((sp = calloc(1, sizeof *sp)) == NULL) err(1, "spawn_insert: calloc"); if ((sp->name = strdup(name)) == NULL) err(1, "spawn_insert: strdup"); /* convert the arguments to an argument list */ if ((ptr = cp = strdup(args)) == NULL) err(1, "spawn_insert: strdup"); while ((arg = strsep(&ptr, " \t")) != NULL) { /* empty field; skip it */ if (*arg == '\0') continue; sp->argc++; if ((sp->argv = realloc(sp->argv, sp->argc * sizeof *sp->argv)) == NULL) err(1, "spawn_insert: realloc"); if ((sp->argv[sp->argc - 1] = strdup(arg)) == NULL) err(1, "spawn_insert: strdup"); } free(cp); sp->flags = flags; TAILQ_INSERT_TAIL(&spawns, sp, entry); DNPRINTF(SWM_D_SPAWN, "spawn_insert: leave\n"); } void spawn_remove(struct spawn_prog *sp) { int i; DNPRINTF(SWM_D_SPAWN, "spawn_remove: %s\n", sp->name); TAILQ_REMOVE(&spawns, sp, entry); for (i = 0; i < sp->argc; i++) free(sp->argv[i]); free(sp->argv); free(sp->name); free(sp); DNPRINTF(SWM_D_SPAWN, "spawn_remove: leave\n"); } void setspawn(const char *name, const char *args, int flags) { struct spawn_prog *sp; DNPRINTF(SWM_D_SPAWN, "setspawn: %s\n", name); if (name == NULL) return; /* Remove any old spawn under the same name. */ TAILQ_FOREACH(sp, &spawns, entry) if (!strcmp(sp->name, name)) { spawn_remove(sp); break; } if (*args != '\0') spawn_insert(name, args, flags); else warnx("error: setspawn: cannot find program: %s", name); DNPRINTF(SWM_D_SPAWN, "setspawn: leave\n"); } int setconfspawn(char *selector, char *value, int flags) { char *args; args = expand_tilde(value); DNPRINTF(SWM_D_SPAWN, "setconfspawn: [%s] [%s]\n", selector, args); setspawn(selector, args, flags); free(args); DNPRINTF(SWM_D_SPAWN, "setconfspawn: done.\n"); return (0); } void validate_spawns(void) { struct spawn_prog *sp; char which[PATH_MAX]; size_t i; struct key *kp; RB_FOREACH(kp, key_tree, &keys) { if (kp->funcid != KF_SPAWN_CUSTOM) continue; /* find program */ TAILQ_FOREACH(sp, &spawns, entry) { if (!strcasecmp(kp->spawn_name, sp->name)) break; } if (sp == NULL || sp->flags & SWM_SPAWN_OPTIONAL) continue; /* verify we have the goods */ snprintf(which, sizeof which, "which %s", sp->argv[0]); DNPRINTF(SWM_D_CONF, "validate_spawns: which %s\n", sp->argv[0]); for (i = strlen("which "); i < strlen(which); i++) if (which[i] == ' ') { which[i] = '\0'; break; } if (system(which) != 0) add_startup_exception("could not find %s", &which[strlen("which ")]); } } void setup_spawn(void) { setconfspawn("lock", "xlock", 0); setconfspawn("term", "xterm", 0); setconfspawn("spawn_term", "xterm", 0); setconfspawn("menu", "dmenu_run" " -fn $bar_font" " -nb $bar_color" " -nf $bar_font_color" " -sb $bar_border" " -sf $bar_color", 0); setconfspawn("search", "dmenu" " -i" " -fn $bar_font" " -nb $bar_color" " -nf $bar_font_color" " -sb $bar_border" " -sf $bar_color", 0); setconfspawn("name_workspace", "dmenu" " -p Workspace" " -fn $bar_font" " -nb $bar_color" " -nf $bar_font_color" " -sb $bar_border" " -sf $bar_color", 0); /* These are not verified for existence, even with a binding set. */ setconfspawn("screenshot_all", "screenshot.sh full", SWM_SPAWN_OPTIONAL); setconfspawn("screenshot_wind", "screenshot.sh window", SWM_SPAWN_OPTIONAL); setconfspawn("initscr", "initscreen.sh", SWM_SPAWN_OPTIONAL); } /* key bindings */ #define SWM_MODNAME_SIZE 32 #define SWM_KEY_WS "\n+ \t" int parsekeys(char *keystr, unsigned int currmod, unsigned int *mod, KeySym *ks) { char *cp, *name; KeySym uks; DNPRINTF(SWM_D_KEY, "parsekeys: enter [%s]\n", keystr); if (mod == NULL || ks == NULL) { DNPRINTF(SWM_D_KEY, "parsekeys: no mod or key vars\n"); return (1); } if (keystr == NULL || strlen(keystr) == 0) { DNPRINTF(SWM_D_KEY, "parsekeys: no keystr\n"); return (1); } cp = keystr; *ks = XCB_NO_SYMBOL; *mod = 0; while ((name = strsep(&cp, SWM_KEY_WS)) != NULL) { DNPRINTF(SWM_D_KEY, "parsekeys: key [%s]\n", name); if (cp) cp += (long)strspn(cp, SWM_KEY_WS); if (strncasecmp(name, "MOD", SWM_MODNAME_SIZE) == 0) *mod |= currmod; else if (!strncasecmp(name, "Mod1", SWM_MODNAME_SIZE)) *mod |= XCB_MOD_MASK_1; else if (!strncasecmp(name, "Mod2", SWM_MODNAME_SIZE)) *mod += XCB_MOD_MASK_2; else if (!strncmp(name, "Mod3", SWM_MODNAME_SIZE)) *mod |= XCB_MOD_MASK_3; else if (!strncmp(name, "Mod4", SWM_MODNAME_SIZE)) *mod |= XCB_MOD_MASK_4; else if (strncasecmp(name, "SHIFT", SWM_MODNAME_SIZE) == 0) *mod |= XCB_MOD_MASK_SHIFT; else if (strncasecmp(name, "CONTROL", SWM_MODNAME_SIZE) == 0) *mod |= XCB_MOD_MASK_CONTROL; else { *ks = XStringToKeysym(name); XConvertCase(*ks, ks, &uks); if (ks == XCB_NO_SYMBOL) { DNPRINTF(SWM_D_KEY, "parsekeys: invalid key %s\n", name); return (1); } } } DNPRINTF(SWM_D_KEY, "parsekeys: leave ok\n"); return (0); } char * strdupsafe(const char *str) { if (str == NULL) return (NULL); else return (strdup(str)); } void key_insert(unsigned int mod, KeySym ks, enum keyfuncid kfid, const char *spawn_name) { struct key *kp; DNPRINTF(SWM_D_KEY, "key_insert: enter %s [%s]\n", keyfuncs[kfid].name, spawn_name); if ((kp = malloc(sizeof *kp)) == NULL) err(1, "key_insert: malloc"); kp->mod = mod; kp->keysym = ks; kp->funcid = kfid; kp->spawn_name = strdupsafe(spawn_name); RB_INSERT(key_tree, &keys, kp); DNPRINTF(SWM_D_KEY, "key_insert: leave\n"); } struct key * key_lookup(unsigned int mod, KeySym ks) { struct key kp; kp.keysym = ks; kp.mod = mod; return (RB_FIND(key_tree, &keys, &kp)); } void key_remove(struct key *kp) { DNPRINTF(SWM_D_KEY, "key_remove: %s\n", keyfuncs[kp->funcid].name); RB_REMOVE(key_tree, &keys, kp); free(kp->spawn_name); free(kp); DNPRINTF(SWM_D_KEY, "key_remove: leave\n"); } void key_replace(struct key *kp, unsigned int mod, KeySym ks, enum keyfuncid kfid, const char *spawn_name) { DNPRINTF(SWM_D_KEY, "key_replace: %s [%s]\n", keyfuncs[kp->funcid].name, spawn_name); key_remove(kp); key_insert(mod, ks, kfid, spawn_name); DNPRINTF(SWM_D_KEY, "key_replace: leave\n"); } void setkeybinding(unsigned int mod, KeySym ks, enum keyfuncid kfid, const char *spawn_name) { struct key *kp; DNPRINTF(SWM_D_KEY, "setkeybinding: enter %s [%s]\n", keyfuncs[kfid].name, spawn_name); if ((kp = key_lookup(mod, ks)) != NULL) { if (kfid == KF_INVALID) key_remove(kp); else key_replace(kp, mod, ks, kfid, spawn_name); DNPRINTF(SWM_D_KEY, "setkeybinding: leave\n"); return; } if (kfid == KF_INVALID) { warnx("bind: Key combination already unbound."); DNPRINTF(SWM_D_KEY, "setkeybinding: leave\n"); return; } key_insert(mod, ks, kfid, spawn_name); DNPRINTF(SWM_D_KEY, "setkeybinding: leave\n"); } int setconfbinding(char *selector, char *value, int flags) { enum keyfuncid kfid; unsigned int mod; KeySym ks; struct spawn_prog *sp; /* suppress unused warning since var is needed */ (void)flags; DNPRINTF(SWM_D_KEY, "setconfbinding: enter\n"); if (selector == NULL) { DNPRINTF(SWM_D_KEY, "setconfbinding: unbind %s\n", value); if (parsekeys(value, mod_key, &mod, &ks) == 0) { kfid = KF_INVALID; setkeybinding(mod, ks, kfid, NULL); return (0); } else return (1); } /* search by key function name */ for (kfid = 0; kfid < KF_INVALID; (kfid)++) { if (strncasecmp(selector, keyfuncs[kfid].name, SWM_FUNCNAME_LEN) == 0) { DNPRINTF(SWM_D_KEY, "setconfbinding: %s: match " "keyfunc\n", selector); if (parsekeys(value, mod_key, &mod, &ks) == 0) { setkeybinding(mod, ks, kfid, NULL); return (0); } else return (1); } } /* search by custom spawn name */ TAILQ_FOREACH(sp, &spawns, entry) { if (strcasecmp(selector, sp->name) == 0) { DNPRINTF(SWM_D_KEY, "setconfbinding: %s: match " "spawn\n", selector); if (parsekeys(value, mod_key, &mod, &ks) == 0) { setkeybinding(mod, ks, KF_SPAWN_CUSTOM, sp->name); return (0); } else return (1); } } DNPRINTF(SWM_D_KEY, "setconfbinding: no match\n"); return (1); } void setup_keys(void) { #define MODKEY_SHIFT MODKEY | XCB_MOD_MASK_SHIFT setkeybinding(MODKEY, XK_b, KF_BAR_TOGGLE, NULL); setkeybinding(MODKEY_SHIFT, XK_b, KF_BAR_TOGGLE_WS,NULL); setkeybinding(MODKEY, XK_v, KF_BUTTON2, NULL); setkeybinding(MODKEY, XK_space, KF_CYCLE_LAYOUT,NULL); setkeybinding(MODKEY_SHIFT, XK_backslash, KF_FLIP_LAYOUT, NULL); setkeybinding(MODKEY, XK_t, KF_FLOAT_TOGGLE,NULL); setkeybinding(MODKEY, XK_m, KF_FOCUS_MAIN, NULL); setkeybinding(MODKEY, XK_j, KF_FOCUS_NEXT, NULL); setkeybinding(MODKEY, XK_Tab, KF_FOCUS_NEXT, NULL); setkeybinding(MODKEY, XK_k, KF_FOCUS_PREV, NULL); setkeybinding(MODKEY_SHIFT, XK_Tab, KF_FOCUS_PREV, NULL); setkeybinding(MODKEY_SHIFT, XK_equal, KF_HEIGHT_GROW,NULL); setkeybinding(MODKEY_SHIFT, XK_minus, KF_HEIGHT_SHRINK,NULL); setkeybinding(MODKEY, XK_w, KF_ICONIFY, NULL); setkeybinding(MODKEY, XK_h, KF_MASTER_SHRINK, NULL); setkeybinding(MODKEY, XK_l, KF_MASTER_GROW, NULL); setkeybinding(MODKEY, XK_comma, KF_MASTER_ADD, NULL); setkeybinding(MODKEY, XK_period, KF_MASTER_DEL, NULL); setkeybinding(MODKEY_SHIFT, XK_bracketright,KF_MOVE_DOWN,NULL); setkeybinding(MODKEY, XK_bracketleft, KF_MOVE_LEFT,NULL); setkeybinding(MODKEY, XK_bracketright,KF_MOVE_RIGHT,NULL); setkeybinding(MODKEY_SHIFT, XK_bracketleft, KF_MOVE_UP, NULL); setkeybinding(MODKEY_SHIFT, XK_KP_End, KF_MVRG_1, NULL); setkeybinding(MODKEY_SHIFT, XK_KP_Down, KF_MVRG_2, NULL); setkeybinding(MODKEY_SHIFT, XK_KP_Next, KF_MVRG_3, NULL); setkeybinding(MODKEY_SHIFT, XK_KP_Left, KF_MVRG_4, NULL); setkeybinding(MODKEY_SHIFT, XK_KP_Begin, KF_MVRG_5, NULL); setkeybinding(MODKEY_SHIFT, XK_KP_Right, KF_MVRG_6, NULL); setkeybinding(MODKEY_SHIFT, XK_KP_Home, KF_MVRG_7, NULL); setkeybinding(MODKEY_SHIFT, XK_KP_Up, KF_MVRG_8, NULL); setkeybinding(MODKEY_SHIFT, XK_KP_Prior, KF_MVRG_9, NULL); setkeybinding(MODKEY_SHIFT, XK_1, KF_MVWS_1, NULL); setkeybinding(MODKEY_SHIFT, XK_2, KF_MVWS_2, NULL); setkeybinding(MODKEY_SHIFT, XK_3, KF_MVWS_3, NULL); setkeybinding(MODKEY_SHIFT, XK_4, KF_MVWS_4, NULL); setkeybinding(MODKEY_SHIFT, XK_5, KF_MVWS_5, NULL); setkeybinding(MODKEY_SHIFT, XK_6, KF_MVWS_6, NULL); setkeybinding(MODKEY_SHIFT, XK_7, KF_MVWS_7, NULL); setkeybinding(MODKEY_SHIFT, XK_8, KF_MVWS_8, NULL); setkeybinding(MODKEY_SHIFT, XK_9, KF_MVWS_9, NULL); setkeybinding(MODKEY_SHIFT, XK_0, KF_MVWS_10, NULL); setkeybinding(MODKEY_SHIFT, XK_F1, KF_MVWS_11, NULL); setkeybinding(MODKEY_SHIFT, XK_F2, KF_MVWS_12, NULL); setkeybinding(MODKEY_SHIFT, XK_F3, KF_MVWS_13, NULL); setkeybinding(MODKEY_SHIFT, XK_F4, KF_MVWS_14, NULL); setkeybinding(MODKEY_SHIFT, XK_F5, KF_MVWS_15, NULL); setkeybinding(MODKEY_SHIFT, XK_F6, KF_MVWS_16, NULL); setkeybinding(MODKEY_SHIFT, XK_F7, KF_MVWS_17, NULL); setkeybinding(MODKEY_SHIFT, XK_F8, KF_MVWS_18, NULL); setkeybinding(MODKEY_SHIFT, XK_F9, KF_MVWS_19, NULL); setkeybinding(MODKEY_SHIFT, XK_F10, KF_MVWS_20, NULL); setkeybinding(MODKEY_SHIFT, XK_F11, KF_MVWS_21, NULL); setkeybinding(MODKEY_SHIFT, XK_F12, KF_MVWS_22, NULL); setkeybinding(MODKEY_SHIFT, XK_slash, KF_NAME_WORKSPACE,NULL); setkeybinding(MODKEY_SHIFT, XK_q, KF_QUIT, NULL); setkeybinding(MODKEY_SHIFT, XK_r, KF_RAISE_TOGGLE,NULL); setkeybinding(MODKEY, XK_q, KF_RESTART, NULL); setkeybinding(MODKEY, XK_KP_End, KF_RG_1, NULL); setkeybinding(MODKEY, XK_KP_Down, KF_RG_2, NULL); setkeybinding(MODKEY, XK_KP_Next, KF_RG_3, NULL); setkeybinding(MODKEY, XK_KP_Left, KF_RG_4, NULL); setkeybinding(MODKEY, XK_KP_Begin, KF_RG_5, NULL); setkeybinding(MODKEY, XK_KP_Right, KF_RG_6, NULL); setkeybinding(MODKEY, XK_KP_Home, KF_RG_7, NULL); setkeybinding(MODKEY, XK_KP_Up, KF_RG_8, NULL); setkeybinding(MODKEY, XK_KP_Prior, KF_RG_9, NULL); setkeybinding(MODKEY_SHIFT, XK_Right, KF_RG_NEXT, NULL); setkeybinding(MODKEY_SHIFT, XK_Left, KF_RG_PREV, NULL); setkeybinding(MODKEY, XK_f, KF_SEARCH_WIN, NULL); setkeybinding(MODKEY, XK_slash, KF_SEARCH_WORKSPACE,NULL); setkeybinding(MODKEY_SHIFT, XK_i, KF_SPAWN_CUSTOM,"initscr"); setkeybinding(MODKEY_SHIFT, XK_Delete, KF_SPAWN_CUSTOM,"lock"); setkeybinding(MODKEY, XK_p, KF_SPAWN_CUSTOM,"menu"); setkeybinding(MODKEY, XK_s, KF_SPAWN_CUSTOM,"screenshot_all"); setkeybinding(MODKEY_SHIFT, XK_s, KF_SPAWN_CUSTOM,"screenshot_wind"); setkeybinding(MODKEY_SHIFT, XK_Return, KF_SPAWN_CUSTOM,"term"); setkeybinding(MODKEY_SHIFT, XK_comma, KF_STACK_INC, NULL); setkeybinding(MODKEY_SHIFT, XK_period, KF_STACK_DEC, NULL); setkeybinding(MODKEY_SHIFT, XK_space, KF_STACK_RESET, NULL); setkeybinding(MODKEY, XK_Return, KF_SWAP_MAIN, NULL); setkeybinding(MODKEY_SHIFT, XK_j, KF_SWAP_NEXT, NULL); setkeybinding(MODKEY_SHIFT, XK_k, KF_SWAP_PREV, NULL); setkeybinding(MODKEY_SHIFT, XK_w, KF_UNICONIFY, NULL); setkeybinding(MODKEY_SHIFT, XK_v, KF_VERSION, NULL); setkeybinding(MODKEY, XK_equal, KF_WIDTH_GROW, NULL); setkeybinding(MODKEY, XK_minus, KF_WIDTH_SHRINK,NULL); setkeybinding(MODKEY, XK_x, KF_WIND_DEL, NULL); setkeybinding(MODKEY_SHIFT, XK_x, KF_WIND_KILL, NULL); setkeybinding(MODKEY, XK_1, KF_WS_1, NULL); setkeybinding(MODKEY, XK_2, KF_WS_2, NULL); setkeybinding(MODKEY, XK_3, KF_WS_3, NULL); setkeybinding(MODKEY, XK_4, KF_WS_4, NULL); setkeybinding(MODKEY, XK_5, KF_WS_5, NULL); setkeybinding(MODKEY, XK_6, KF_WS_6, NULL); setkeybinding(MODKEY, XK_7, KF_WS_7, NULL); setkeybinding(MODKEY, XK_8, KF_WS_8, NULL); setkeybinding(MODKEY, XK_9, KF_WS_9, NULL); setkeybinding(MODKEY, XK_0, KF_WS_10, NULL); setkeybinding(MODKEY, XK_F1, KF_WS_11, NULL); setkeybinding(MODKEY, XK_F2, KF_WS_12, NULL); setkeybinding(MODKEY, XK_F3, KF_WS_13, NULL); setkeybinding(MODKEY, XK_F4, KF_WS_14, NULL); setkeybinding(MODKEY, XK_F5, KF_WS_15, NULL); setkeybinding(MODKEY, XK_F6, KF_WS_16, NULL); setkeybinding(MODKEY, XK_F7, KF_WS_17, NULL); setkeybinding(MODKEY, XK_F8, KF_WS_18, NULL); setkeybinding(MODKEY, XK_F9, KF_WS_19, NULL); setkeybinding(MODKEY, XK_F10, KF_WS_20, NULL); setkeybinding(MODKEY, XK_F11, KF_WS_21, NULL); setkeybinding(MODKEY, XK_F12, KF_WS_22, NULL); setkeybinding(MODKEY, XK_Right, KF_WS_NEXT, NULL); setkeybinding(MODKEY, XK_Left, KF_WS_PREV, NULL); setkeybinding(MODKEY, XK_Up, KF_WS_NEXT_ALL, NULL); setkeybinding(MODKEY, XK_Down, KF_WS_PREV_ALL, NULL); setkeybinding(MODKEY, XK_a, KF_WS_PRIOR, NULL); #ifdef SWM_DEBUG setkeybinding(MODKEY_SHIFT, XK_d, KF_DUMPWINS, NULL); #endif #undef MODKEY_SHIFT } void clear_keys(void) { struct key *kp; while (RB_EMPTY(&keys) == 0) { kp = RB_ROOT(&keys); key_remove(kp); } } int setkeymapping(char *selector, char *value, int flags) { char *keymapping_file; /* suppress unused warnings since vars are needed */ (void)selector; (void)flags; DNPRINTF(SWM_D_KEY, "setkeymapping: enter\n"); keymapping_file = expand_tilde(value); clear_keys(); /* load new key bindings; if it fails, revert to default bindings */ if (conf_load(keymapping_file, SWM_CONF_KEYMAPPING)) { clear_keys(); setup_keys(); } free(keymapping_file); DNPRINTF(SWM_D_KEY, "setkeymapping: leave\n"); return (0); } void updatenumlockmask(void) { unsigned int i, j; xcb_get_modifier_mapping_reply_t *modmap_r; xcb_keycode_t *modmap, kc, *keycode; numlockmask = 0; modmap_r = xcb_get_modifier_mapping_reply(conn, xcb_get_modifier_mapping(conn), NULL); if (modmap_r) { modmap = xcb_get_modifier_mapping_keycodes(modmap_r); for (i = 0; i < 8; i++) { for (j = 0; j < modmap_r->keycodes_per_modifier; j++) { kc = modmap[i * modmap_r->keycodes_per_modifier + j]; keycode = xcb_key_symbols_get_keycode(syms, XK_Num_Lock); if (kc == *keycode) numlockmask = (1 << i); free(keycode); } } free(modmap_r); } DNPRINTF(SWM_D_MISC, "updatenumlockmask: %d\n", numlockmask); } void grabkeys(void) { struct key *kp; int num_screens, k, j; unsigned int modifiers[4]; xcb_keycode_t *code; DNPRINTF(SWM_D_MISC, "grabkeys\n"); updatenumlockmask(); modifiers[0] = 0; modifiers[1] = numlockmask; modifiers[2] = XCB_MOD_MASK_LOCK; modifiers[3] = numlockmask | XCB_MOD_MASK_LOCK; num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (k = 0; k < num_screens; k++) { if (TAILQ_EMPTY(&screens[k].rl)) continue; xcb_ungrab_key(conn, XCB_GRAB_ANY, screens[k].root, XCB_MOD_MASK_ANY); RB_FOREACH(kp, key_tree, &keys) { if ((code = xcb_key_symbols_get_keycode(syms, kp->keysym))) { for (j = 0; j < LENGTH(modifiers); j++) xcb_grab_key(conn, 1, screens[k].root, kp->mod | modifiers[j], *code, XCB_GRAB_MODE_SYNC, XCB_GRAB_MODE_SYNC); free(code); } } } } void grabbuttons(struct ws_win *win) { unsigned int modifiers[4]; int i, j; DNPRINTF(SWM_D_MOUSE, "grabbuttons: win 0x%x\n", win->id); updatenumlockmask(); modifiers[0] = 0; modifiers[1] = numlockmask; modifiers[2] = XCB_MOD_MASK_LOCK; modifiers[3] = numlockmask | XCB_MOD_MASK_LOCK; for (i = 0; i < LENGTH(buttons); i++) if (buttons[i].action == client_click) for (j = 0; j < LENGTH(modifiers); ++j) xcb_grab_button(conn, 0, win->id, BUTTONMASK, XCB_GRAB_MODE_SYNC, XCB_GRAB_MODE_ASYNC, XCB_WINDOW_NONE, XCB_CURSOR_NONE, buttons[i].button, buttons[i].mask | modifiers[j]); } const char *quirkname[] = { "NONE", /* config string for "no value" */ "FLOAT", "TRANSSZ", "ANYWHERE", "XTERM_FONTADJ", "FULLSCREEN", "FOCUSPREV", "NOFOCUSONMAP", "FOCUSONMAP_SINGLE", }; /* SWM_Q_WS: retain '|' for back compat for now (2009-08-11) */ #define SWM_Q_WS "\n|+ \t" int parsequirks(char *qstr, unsigned long *quirk) { char *cp, *name; int i; if (quirk == NULL) return (1); cp = qstr; *quirk = 0; while ((name = strsep(&cp, SWM_Q_WS)) != NULL) { if (cp) cp += (long)strspn(cp, SWM_Q_WS); for (i = 0; i < LENGTH(quirkname); i++) { if (!strncasecmp(name, quirkname[i], SWM_QUIRK_LEN)) { DNPRINTF(SWM_D_QUIRK, "parsequirks: %s\n", name); if (i == 0) { *quirk = 0; return (0); } *quirk |= 1 << (i-1); break; } } if (i >= LENGTH(quirkname)) { DNPRINTF(SWM_D_QUIRK, "parsequirks: invalid quirk [%s]\n", name); return (1); } } return (0); } void quirk_insert(const char *class, const char *name, unsigned long quirk) { struct quirk *qp; DNPRINTF(SWM_D_QUIRK, "quirk_insert: %s:%s [%lu]\n", class, name, quirk); if ((qp = malloc(sizeof *qp)) == NULL) err(1, "quirk_insert: malloc"); if ((qp->class = strdup(class)) == NULL) err(1, "quirk_insert: strdup"); if ((qp->name = strdup(name)) == NULL) err(1, "quirk_insert: strdup"); qp->quirk = quirk; TAILQ_INSERT_TAIL(&quirks, qp, entry); DNPRINTF(SWM_D_QUIRK, "quirk_insert: leave\n"); } void quirk_remove(struct quirk *qp) { DNPRINTF(SWM_D_QUIRK, "quirk_remove: %s:%s [%lu]\n", qp->class, qp->name, qp->quirk); TAILQ_REMOVE(&quirks, qp, entry); free(qp->class); free(qp->name); free(qp); DNPRINTF(SWM_D_QUIRK, "quirk_remove: leave\n"); } void quirk_replace(struct quirk *qp, const char *class, const char *name, unsigned long quirk) { DNPRINTF(SWM_D_QUIRK, "quirk_replace: %s:%s [%lu]\n", qp->class, qp->name, qp->quirk); quirk_remove(qp); quirk_insert(class, name, quirk); DNPRINTF(SWM_D_QUIRK, "quirk_replace: leave\n"); } void setquirk(const char *class, const char *name, unsigned long quirk) { struct quirk *qp; DNPRINTF(SWM_D_QUIRK, "setquirk: enter %s:%s [%lu]\n", class, name, quirk); /* Remove/replace existing quirk. */ TAILQ_FOREACH(qp, &quirks, entry) { if (!strcmp(qp->class, class) && !strcmp(qp->name, name)) { if (!quirk) quirk_remove(qp); else quirk_replace(qp, class, name, quirk); DNPRINTF(SWM_D_QUIRK, "setquirk: leave\n"); return; } } /* Only insert if quirk is not NONE. */ if (quirk) quirk_insert(class, name, quirk); DNPRINTF(SWM_D_QUIRK, "setquirk: leave\n"); } int setconfquirk(char *selector, char *value, int flags) { char *cp, *class, *name; int retval; unsigned long qrks; /* suppress unused warning since var is needed */ (void)flags; if (selector == NULL) return (0); if ((cp = strchr(selector, ':')) == NULL) return (0); *cp = '\0'; class = selector; name = cp + 1; if ((retval = parsequirks(value, &qrks)) == 0) setquirk(class, name, qrks); return (retval); } void setup_quirks(void) { setquirk("MPlayer", "xv", SWM_Q_FLOAT | SWM_Q_FULLSCREEN | SWM_Q_FOCUSPREV); setquirk("OpenOffice.org 3.2", "VCLSalFrame", SWM_Q_FLOAT); setquirk("Firefox-bin", "firefox-bin", SWM_Q_TRANSSZ); setquirk("Firefox", "Dialog", SWM_Q_FLOAT); setquirk("Gimp", "gimp", SWM_Q_FLOAT | SWM_Q_ANYWHERE); setquirk("XTerm", "xterm", SWM_Q_XTERM_FONTADJ); setquirk("xine", "Xine Window", SWM_Q_FLOAT | SWM_Q_ANYWHERE); setquirk("Xitk", "Xitk Combo", SWM_Q_FLOAT | SWM_Q_ANYWHERE); setquirk("xine", "xine Panel", SWM_Q_FLOAT | SWM_Q_ANYWHERE); setquirk("Xitk", "Xine Window", SWM_Q_FLOAT | SWM_Q_ANYWHERE); setquirk("xine", "xine Video Fullscreen Window", SWM_Q_FULLSCREEN | SWM_Q_FLOAT); setquirk("pcb", "pcb", SWM_Q_FLOAT); setquirk("SDL_App", "SDL_App", SWM_Q_FLOAT | SWM_Q_FULLSCREEN); } /* conf file stuff */ #define SWM_CONF_FILE "spectrwm.conf" #define SWM_CONF_FILE_OLD "scrotwm.conf" enum { SWM_S_BAR_ACTION, SWM_S_BAR_AT_BOTTOM, SWM_S_BAR_BORDER_WIDTH, SWM_S_BAR_DELAY, SWM_S_BAR_ENABLED, SWM_S_BAR_ENABLED_WS, SWM_S_BAR_FONT, SWM_S_BAR_FORMAT, SWM_S_BAR_JUSTIFY, SWM_S_BORDER_WIDTH, SWM_S_CLOCK_ENABLED, SWM_S_CLOCK_FORMAT, SWM_S_CYCLE_EMPTY, SWM_S_CYCLE_VISIBLE, SWM_S_DIALOG_RATIO, SWM_S_DISABLE_BORDER, SWM_S_FOCUS_CLOSE, SWM_S_FOCUS_CLOSE_WRAP, SWM_S_FOCUS_DEFAULT, SWM_S_FOCUS_MODE, SWM_S_REGION_PADDING, SWM_S_SPAWN_ORDER, SWM_S_SPAWN_TERM, SWM_S_SS_APP, SWM_S_SS_ENABLED, SWM_S_STACK_ENABLED, SWM_S_TERM_WIDTH, SWM_S_TILE_GAP, SWM_S_TITLE_CLASS_ENABLED, SWM_S_TITLE_NAME_ENABLED, SWM_S_URGENT_ENABLED, SWM_S_VERBOSE_LAYOUT, SWM_S_WINDOW_NAME_ENABLED, SWM_S_WORKSPACE_LIMIT }; int setconfvalue(char *selector, char *value, int flags) { struct workspace *ws; int i, ws_id, num_screens; char *b; /* suppress unused warning since var is needed */ (void)selector; switch (flags) { case SWM_S_BAR_ACTION: free(bar_argv[0]); if ((bar_argv[0] = expand_tilde(value)) == NULL) err(1, "setconfvalue: bar_action"); break; case SWM_S_BAR_AT_BOTTOM: bar_at_bottom = atoi(value); break; case SWM_S_BAR_BORDER_WIDTH: bar_border_width = atoi(value); if (bar_border_width < 0) bar_border_width = 0; break; case SWM_S_BAR_DELAY: /* No longer needed; leave to not break old conf files. */ break; case SWM_S_BAR_ENABLED: bar_enabled = atoi(value); break; case SWM_S_BAR_ENABLED_WS: ws_id = atoi(selector) - 1; if (ws_id < 0 || ws_id >= workspace_limit) errx(1, "setconfvalue: bar_enabled_ws: invalid " "workspace %d.", ws_id + 1); num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) { ws = (struct workspace *)&screens[i].ws; ws[ws_id].bar_enabled = atoi(value); } break; case SWM_S_BAR_FONT: b = bar_fonts; if (asprintf(&bar_fonts, "%s,%s", value, bar_fonts) == -1) err(1, "setconfvalue: asprintf: failed to allocate " "memory for bar_fonts."); free(b); /* If already in xft mode, then we are done. */ if (!bar_font_legacy) break; /* If there are any non-XLFD entries, switch to Xft mode. */ while ((b = strsep(&value, ",")) != NULL) { if (*b == '\0') continue; if (!isxlfd(b)) { bar_font_legacy = 0; break; } } break; case SWM_S_BAR_FORMAT: free(bar_format); if ((bar_format = strdup(value)) == NULL) err(1, "setconfvalue: bar_format"); break; case SWM_S_BAR_JUSTIFY: if (!strcmp(value, "left")) bar_justify = SWM_BAR_JUSTIFY_LEFT; else if (!strcmp(value, "center")) bar_justify = SWM_BAR_JUSTIFY_CENTER; else if (!strcmp(value, "right")) bar_justify = SWM_BAR_JUSTIFY_RIGHT; else errx(1, "invalid bar_justify"); break; case SWM_S_BORDER_WIDTH: border_width = atoi(value); if (border_width < 0) border_width = 0; break; case SWM_S_CLOCK_ENABLED: clock_enabled = atoi(value); break; case SWM_S_CLOCK_FORMAT: #ifndef SWM_DENY_CLOCK_FORMAT free(clock_format); if ((clock_format = strdup(value)) == NULL) err(1, "setconfvalue: clock_format"); #endif break; case SWM_S_CYCLE_EMPTY: cycle_empty = atoi(value); break; case SWM_S_CYCLE_VISIBLE: cycle_visible = atoi(value); break; case SWM_S_DIALOG_RATIO: dialog_ratio = atof(value); if (dialog_ratio > 1.0 || dialog_ratio <= .3) dialog_ratio = .6; break; case SWM_S_DISABLE_BORDER: disable_border = atoi(value); break; case SWM_S_FOCUS_CLOSE: if (!strcmp(value, "first")) focus_close = SWM_STACK_BOTTOM; else if (!strcmp(value, "last")) focus_close = SWM_STACK_TOP; else if (!strcmp(value, "next")) focus_close = SWM_STACK_ABOVE; else if (!strcmp(value, "previous")) focus_close = SWM_STACK_BELOW; else errx(1, "focus_close"); break; case SWM_S_FOCUS_CLOSE_WRAP: focus_close_wrap = atoi(value); break; case SWM_S_FOCUS_DEFAULT: if (!strcmp(value, "last")) focus_default = SWM_STACK_TOP; else if (!strcmp(value, "first")) focus_default = SWM_STACK_BOTTOM; else errx(1, "focus_default"); break; case SWM_S_FOCUS_MODE: if (!strcmp(value, "default")) focus_mode = SWM_FOCUS_DEFAULT; else if (!strcmp(value, "follow") || !strcmp(value, "follow_cursor")) focus_mode = SWM_FOCUS_FOLLOW; else if (!strcmp(value, "manual")) focus_mode = SWM_FOCUS_MANUAL; else errx(1, "focus_mode"); break; case SWM_S_REGION_PADDING: region_padding = atoi(value); if (region_padding < 0) region_padding = 0; break; case SWM_S_SPAWN_ORDER: if (!strcmp(value, "first")) spawn_position = SWM_STACK_BOTTOM; else if (!strcmp(value, "last")) spawn_position = SWM_STACK_TOP; else if (!strcmp(value, "next")) spawn_position = SWM_STACK_ABOVE; else if (!strcmp(value, "previous")) spawn_position = SWM_STACK_BELOW; else errx(1, "spawn_position"); break; case SWM_S_SPAWN_TERM: setconfspawn("term", value, 0); setconfspawn("spawn_term", value, 0); break; case SWM_S_SS_APP: /* No longer needed; leave to not break old conf files. */ break; case SWM_S_SS_ENABLED: /* No longer needed; leave to not break old conf files. */ break; case SWM_S_STACK_ENABLED: stack_enabled = atoi(value); break; case SWM_S_TERM_WIDTH: term_width = atoi(value); if (term_width < 0) term_width = 0; break; case SWM_S_TILE_GAP: tile_gap = atoi(value); if (tile_gap < 0) tile_gap = 0; break; case SWM_S_TITLE_CLASS_ENABLED: title_class_enabled = atoi(value); break; case SWM_S_TITLE_NAME_ENABLED: title_name_enabled = atoi(value); break; case SWM_S_URGENT_ENABLED: urgent_enabled = atoi(value); break; case SWM_S_VERBOSE_LAYOUT: verbose_layout = atoi(value); for (i = 0; layouts[i].l_stack != NULL; i++) { if (verbose_layout) layouts[i].l_string = fancy_stacker; else layouts[i].l_string = plain_stacker; } break; case SWM_S_WINDOW_NAME_ENABLED: window_name_enabled = atoi(value); break; case SWM_S_WORKSPACE_LIMIT: workspace_limit = atoi(value); if (workspace_limit > SWM_WS_MAX) workspace_limit = SWM_WS_MAX; else if (workspace_limit < 1) workspace_limit = 1; break; default: return (1); } return (0); } int setconfmodkey(char *selector, char *value, int flags) { /* suppress unused warnings since vars are needed */ (void)selector; (void)flags; if (!strncasecmp(value, "Mod1", strlen("Mod1"))) update_modkey(XCB_MOD_MASK_1); else if (!strncasecmp(value, "Mod2", strlen("Mod2"))) update_modkey(XCB_MOD_MASK_2); else if (!strncasecmp(value, "Mod3", strlen("Mod3"))) update_modkey(XCB_MOD_MASK_3); else if (!strncasecmp(value, "Mod4", strlen("Mod4"))) update_modkey(XCB_MOD_MASK_4); else return (1); return (0); } int setconfcolor(char *selector, char *value, int flags) { setscreencolor(value, ((selector == NULL)?-1:atoi(selector)), flags); return (0); } int setconfregion(char *selector, char *value, int flags) { /* suppress unused warnings since vars are needed */ (void)selector; (void)flags; custom_region(value); return (0); } int setautorun(char *selector, char *value, int flags) { int ws_id; char s[1024]; char *ap, *sp; union arg a; int argc = 0; pid_t pid; struct pid_e *p; /* suppress unused warnings since vars are needed */ (void)selector; (void)flags; if (getenv("SWM_STARTED")) return (0); bzero(s, sizeof s); if (sscanf(value, "ws[%d]:%1023c", &ws_id, s) != 2) errx(1, "invalid autorun entry, should be 'ws[]:command'"); ws_id--; if (ws_id < 0 || ws_id >= workspace_limit) errx(1, "autorun: invalid workspace %d", ws_id + 1); sp = expand_tilde((char *)&s); /* * This is a little intricate * * If the pid already exists we simply reuse it because it means it was * used before AND not claimed by manage_window. We get away with * altering it in the parent after INSERT because this can not be a race */ a.argv = NULL; while ((ap = strsep(&sp, " \t")) != NULL) { if (*ap == '\0') continue; DNPRINTF(SWM_D_SPAWN, "setautorun: arg [%s]\n", ap); argc++; if ((a.argv = realloc(a.argv, argc * sizeof(char *))) == NULL) err(1, "setautorun: realloc"); a.argv[argc - 1] = ap; } free(sp); if ((a.argv = realloc(a.argv, (argc + 1) * sizeof(char *))) == NULL) err(1, "setautorun: realloc"); a.argv[argc] = NULL; if ((pid = fork()) == 0) { spawn(ws_id, &a, 1); /* NOTREACHED */ _exit(1); } free(a.argv); /* parent */ p = find_pid(pid); if (p == NULL) { p = calloc(1, sizeof *p); if (p == NULL) return (1); TAILQ_INSERT_TAIL(&pidlist, p, entry); } p->pid = pid; p->ws = ws_id; return (0); } int setlayout(char *selector, char *value, int flags) { int ws_id, i, x, mg, ma, si, ar, f = 0; int st = SWM_V_STACK, num_screens; char s[1024]; struct workspace *ws; /* suppress unused warnings since vars are needed */ (void)selector; (void)flags; if (getenv("SWM_STARTED")) return (0); bzero(s, sizeof s); if (sscanf(value, "ws[%d]:%d:%d:%d:%d:%1023c", &ws_id, &mg, &ma, &si, &ar, s) != 6) errx(1, "invalid layout entry, should be 'ws[]:" "::::" "'"); ws_id--; if (ws_id < 0 || ws_id >= workspace_limit) errx(1, "layout: invalid workspace %d", ws_id + 1); if (!strcasecmp(s, "vertical")) st = SWM_V_STACK; else if (!strcasecmp(s, "vertical_flip")) { st = SWM_V_STACK; f = 1; } else if (!strcasecmp(s, "horizontal")) st = SWM_H_STACK; else if (!strcasecmp(s, "horizontal_flip")) { st = SWM_H_STACK; f = 1; } else if (!strcasecmp(s, "fullscreen")) st = SWM_MAX_STACK; else errx(1, "invalid layout entry, should be 'ws[]:" "::::" "'"); num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) { ws = (struct workspace *)&screens[i].ws; ws[ws_id].cur_layout = &layouts[st]; ws[ws_id].always_raise = ar; if (st == SWM_MAX_STACK) continue; /* master grow */ for (x = 0; x < abs(mg); x++) { ws[ws_id].cur_layout->l_config(&ws[ws_id], mg >= 0 ? SWM_ARG_ID_MASTERGROW : SWM_ARG_ID_MASTERSHRINK); stack(); } /* master add */ for (x = 0; x < abs(ma); x++) { ws[ws_id].cur_layout->l_config(&ws[ws_id], ma >= 0 ? SWM_ARG_ID_MASTERADD : SWM_ARG_ID_MASTERDEL); stack(); } /* stack inc */ for (x = 0; x < abs(si); x++) { ws[ws_id].cur_layout->l_config(&ws[ws_id], si >= 0 ? SWM_ARG_ID_STACKINC : SWM_ARG_ID_STACKDEC); stack(); } /* Apply flip */ if (f) { ws[ws_id].cur_layout->l_config(&ws[ws_id], SWM_ARG_ID_FLIPLAYOUT); stack(); } } focus_flush(); return (0); } /* config options */ struct config_option { char *optname; int (*func)(char*, char*, int); int funcflags; }; struct config_option configopt[] = { { "autorun", setautorun, 0 }, { "bar_action", setconfvalue, SWM_S_BAR_ACTION }, { "bar_at_bottom", setconfvalue, SWM_S_BAR_AT_BOTTOM }, { "bar_border", setconfcolor, SWM_S_COLOR_BAR_BORDER }, { "bar_border_unfocus", setconfcolor, SWM_S_COLOR_BAR_BORDER_UNFOCUS }, { "bar_border_width", setconfvalue, SWM_S_BAR_BORDER_WIDTH }, { "bar_color", setconfcolor, SWM_S_COLOR_BAR }, { "bar_delay", setconfvalue, SWM_S_BAR_DELAY }, { "bar_enabled", setconfvalue, SWM_S_BAR_ENABLED }, { "bar_enabled_ws", setconfvalue, SWM_S_BAR_ENABLED_WS }, { "bar_font", setconfvalue, SWM_S_BAR_FONT }, { "bar_font_color", setconfcolor, SWM_S_COLOR_BAR_FONT }, { "bar_format", setconfvalue, SWM_S_BAR_FORMAT }, { "bar_justify", setconfvalue, SWM_S_BAR_JUSTIFY }, { "bind", setconfbinding, 0 }, { "border_width", setconfvalue, SWM_S_BORDER_WIDTH }, { "clock_enabled", setconfvalue, SWM_S_CLOCK_ENABLED }, { "clock_format", setconfvalue, SWM_S_CLOCK_FORMAT }, { "color_focus", setconfcolor, SWM_S_COLOR_FOCUS }, { "color_unfocus", setconfcolor, SWM_S_COLOR_UNFOCUS }, { "cycle_empty", setconfvalue, SWM_S_CYCLE_EMPTY }, { "cycle_visible", setconfvalue, SWM_S_CYCLE_VISIBLE }, { "dialog_ratio", setconfvalue, SWM_S_DIALOG_RATIO }, { "disable_border", setconfvalue, SWM_S_DISABLE_BORDER }, { "focus_close", setconfvalue, SWM_S_FOCUS_CLOSE }, { "focus_close_wrap", setconfvalue, SWM_S_FOCUS_CLOSE_WRAP }, { "focus_default", setconfvalue, SWM_S_FOCUS_DEFAULT }, { "focus_mode", setconfvalue, SWM_S_FOCUS_MODE }, { "keyboard_mapping", setkeymapping, 0 }, { "layout", setlayout, 0 }, { "modkey", setconfmodkey, 0 }, { "program", setconfspawn, 0 }, { "quirk", setconfquirk, 0 }, { "region", setconfregion, 0 }, { "region_padding", setconfvalue, SWM_S_REGION_PADDING }, { "screenshot_app", setconfvalue, SWM_S_SS_APP }, { "screenshot_enabled", setconfvalue, SWM_S_SS_ENABLED }, { "spawn_position", setconfvalue, SWM_S_SPAWN_ORDER }, { "spawn_term", setconfvalue, SWM_S_SPAWN_TERM }, { "stack_enabled", setconfvalue, SWM_S_STACK_ENABLED }, { "term_width", setconfvalue, SWM_S_TERM_WIDTH }, { "tile_gap", setconfvalue, SWM_S_TILE_GAP }, { "title_class_enabled", setconfvalue, SWM_S_TITLE_CLASS_ENABLED }, { "title_name_enabled", setconfvalue, SWM_S_TITLE_NAME_ENABLED }, { "urgent_enabled", setconfvalue, SWM_S_URGENT_ENABLED }, { "verbose_layout", setconfvalue, SWM_S_VERBOSE_LAYOUT }, { "window_name_enabled", setconfvalue, SWM_S_WINDOW_NAME_ENABLED }, { "workspace_limit", setconfvalue, SWM_S_WORKSPACE_LIMIT }, }; void _add_startup_exception(const char *fmt, va_list ap) { if (vasprintf(&startup_exception, fmt, ap) == -1) warn("%s: asprintf", __func__); } void add_startup_exception(const char *fmt, ...) { va_list ap; nr_exceptions++; if (startup_exception) return; /* force bar to be enabled due to exception */ bar_enabled = 1; va_start(ap, fmt); _add_startup_exception(fmt, ap); va_end(ap); } int conf_load(const char *filename, int keymapping) { FILE *config; char *line = NULL, *cp, *optsub, *optval = NULL; size_t linelen, lineno = 0; int wordlen, i, optidx; struct config_option *opt = NULL; DNPRINTF(SWM_D_CONF, "conf_load: begin\n"); if (filename == NULL) { warnx("conf_load: no filename"); return (1); } DNPRINTF(SWM_D_CONF, "conf_load: open %s\n", filename); if ((config = fopen(filename, "r")) == NULL) { warn("conf_load: fopen: %s", filename); return (1); } while (!feof(config)) { if (line) free(line); if ((line = fparseln(config, &linelen, &lineno, NULL, FPARSELN_UNESCCOMM | FPARSELN_UNESCCONT)) == NULL) { if (ferror(config)) err(1, "%s", filename); else continue; } cp = line; cp += strspn(cp, " \t\n"); /* eat whitespace */ if (cp[0] == '\0') { /* empty line */ continue; } /* get config option */ wordlen = strcspn(cp, "=[ \t\n"); if (wordlen == 0) { add_startup_exception("%s: line %zd: no option found", filename, lineno); continue; } optidx = -1; for (i = 0; i < LENGTH(configopt); i++) { opt = &configopt[i]; if (!strncasecmp(cp, opt->optname, wordlen) && (int)strlen(opt->optname) == wordlen) { optidx = i; break; } } if (optidx == -1) { add_startup_exception("%s: line %zd: unknown option " "%.*s", filename, lineno, wordlen, cp); continue; } if (keymapping && opt && strcmp(opt->optname, "bind")) { add_startup_exception("%s: line %zd: invalid option " "%.*s", filename, lineno, wordlen, cp); continue; } cp += wordlen; cp += strspn(cp, " \t\n"); /* eat whitespace */ /* from here on out we call goto invalid to continue */ /* get [selector] if any */ optsub = NULL; if (*cp == '[') { cp++; wordlen = strcspn(cp, "]"); if (*cp != ']') { if (wordlen == 0) { add_startup_exception("%s: line %zd: " "syntax error", filename, lineno); goto invalid; } if (asprintf(&optsub, "%.*s", wordlen, cp) == -1) { add_startup_exception("%s: line %zd: " "unable to allocatememory for " "selector", filename, lineno); goto invalid; } } cp += wordlen; cp += strspn(cp, "] \t\n"); /* eat trailing */ } cp += strspn(cp, "= \t\n"); /* eat trailing */ /* get RHS value */ optval = strdup(cp); if (strlen(optval) == 0) { add_startup_exception("%s: line %zd: must supply value " "to %s", filename, lineno, configopt[optidx].optname); goto invalid; } /* call function to deal with it all */ if (configopt[optidx].func(optsub, optval, configopt[optidx].funcflags) != 0) { add_startup_exception("%s: line %zd: invalid data for " "%s", filename, lineno, configopt[optidx].optname); goto invalid; } invalid: if (optval) { free(optval); optval = NULL; } if (optsub) { free(optsub); optsub = NULL; } } if (line) free(line); fclose(config); DNPRINTF(SWM_D_CONF, "conf_load: end\n"); return (0); } void set_child_transient(struct ws_win *win, xcb_window_t *trans) { struct ws_win *parent, *w; struct swm_region *r; struct workspace *ws; xcb_icccm_wm_hints_t wmh; parent = find_window(win->transient); if (parent) parent->focus_child = win; else { DNPRINTF(SWM_D_MISC, "set_child_transient: parent doesn't exist" " for 0x%x trans 0x%x\n", win->id, win->transient); r = root_to_region(win->wa->root, SWM_CK_ALL); ws = r->ws; /* parent doen't exist in our window list */ TAILQ_FOREACH(w, &ws->winlist, entry) { if (xcb_icccm_get_wm_hints_reply(conn, xcb_icccm_get_wm_hints(conn, w->id), &wmh, NULL) != 1) { warnx("can't get hints for 0x%x", w->id); continue; } if (win->hints.window_group != wmh.window_group) continue; w->focus_child = win; win->transient = w->id; *trans = w->id; DNPRINTF(SWM_D_MISC, "set_child_transient: adjusting " "transient to 0x%x\n", win->transient); break; } } } pid_t window_get_pid(xcb_window_t win) { pid_t ret = 0; const char *errstr; xcb_atom_t apid; xcb_get_property_cookie_t pc; xcb_get_property_reply_t *pr; apid = get_atom_from_string("_NET_WM_PID"); if (apid == XCB_ATOM_NONE) goto tryharder; pc = xcb_get_property(conn, 0, win, apid, XCB_ATOM_CARDINAL, 0, 1); pr = xcb_get_property_reply(conn, pc, NULL); if (!pr) goto tryharder; if (pr->type != XCB_ATOM_CARDINAL) { free(pr); goto tryharder; } if (pr->type == apid && pr->format == 32) ret = *((pid_t *)xcb_get_property_value(pr)); free(pr); return (ret); tryharder: apid = get_atom_from_string("_SWM_PID"); pc = xcb_get_property(conn, 0, win, apid, XCB_ATOM_STRING, 0, SWM_PROPLEN); pr = xcb_get_property_reply(conn, pc, NULL); if (!pr) return (0); if (pr->type != apid) { free(pr); return (0); } ret = (pid_t)strtonum(xcb_get_property_value(pr), 0, INT_MAX, &errstr); free(pr); return (ret); } int get_ws_idx(xcb_window_t id) { int ws_idx = -1; char *prop = NULL; size_t proplen; const char *errstr; xcb_get_property_reply_t *gpr; gpr = xcb_get_property_reply(conn, xcb_get_property(conn, 0, id, a_swm_ws, XCB_ATOM_STRING, 0, SWM_PROPLEN), NULL); if (!gpr) return (-1); if (gpr->type) { proplen = xcb_get_property_value_length(gpr); if (proplen > 0) { prop = malloc(proplen + 1); if (prop) { memcpy(prop, xcb_get_property_value(gpr), proplen); prop[proplen] = '\0'; } } } free(gpr); if (prop) { DNPRINTF(SWM_D_PROP, "get_ws_idx: _SWM_WS: %s\n", prop); ws_idx = (int)strtonum(prop, 0, workspace_limit - 1, &errstr); if (errstr) { DNPRINTF(SWM_D_PROP, "get_ws_idx: window: #%s: %s", errstr, prop); } free(prop); } return ws_idx; } struct ws_win * manage_window(xcb_window_t id, uint16_t mapped) { xcb_window_t trans = XCB_WINDOW_NONE; struct ws_win *win, *ww; int ws_idx; char ws_idx_str[SWM_PROPLEN]; struct swm_region *r; struct pid_e *p; struct quirk *qp; uint32_t i, wa[2]; xcb_icccm_get_wm_protocols_reply_t wpr; if ((win = find_window(id)) != NULL) { DNPRINTF(SWM_D_MISC, "manage_window: win 0x%x already " "managed; skipping.)\n", id); return (win); /* Already managed. */ } /* See if window is on the unmanaged list. */ if ((win = find_unmanaged_window(id)) != NULL) { DNPRINTF(SWM_D_MISC, "manage_window: win 0x%x found on " "unmanaged list.\n", id); TAILQ_REMOVE(&win->ws->unmanagedlist, win, entry); if (win->transient) set_child_transient(win, &trans); goto out; } else { DNPRINTF(SWM_D_MISC, "manage_window: win 0x%x is new.\n", id); } /* Create and initialize ws_win object. */ if ((win = calloc(1, sizeof(struct ws_win))) == NULL) err(1, "manage_window: calloc: failed to allocate memory for " "new window"); win->id = id; /* Get window geometry. */ win->wa = xcb_get_geometry_reply(conn, xcb_get_geometry(conn, win->id), NULL); /* Figure out which region the window belongs to. */ r = root_to_region(win->wa->root, SWM_CK_ALL); /* Ignore window border if there is one. */ WIDTH(win) = win->wa->width; HEIGHT(win) = win->wa->height; X(win) = win->wa->x + win->wa->border_width - border_width; Y(win) = win->wa->y + win->wa->border_width - border_width; win->bordered = 1; win->mapped = mapped; win->floatmaxed = 0; win->ewmh_flags = 0; win->s = r->s; /* this never changes */ store_float_geom(win, r); /* Get WM_SIZE_HINTS. */ xcb_icccm_get_wm_normal_hints_reply(conn, xcb_icccm_get_wm_normal_hints(conn, win->id), &win->sh, NULL); /* Get WM_HINTS. */ xcb_icccm_get_wm_hints_reply(conn, xcb_icccm_get_wm_hints(conn, win->id), &win->hints, NULL); /* Get WM_TRANSIENT_FOR; see if window is a transient. */ xcb_icccm_get_wm_transient_for_reply(conn, xcb_icccm_get_wm_transient_for(conn, win->id), &trans, NULL); if (trans) { win->transient = trans; set_child_transient(win, &win->transient); } /* Get supported protocols. */ if (xcb_icccm_get_wm_protocols_reply(conn, xcb_icccm_get_wm_protocols(conn, win->id, a_prot), &wpr, NULL)) { for (i = 0; i < wpr.atoms_len; i++) { if (wpr.atoms[i] == a_takefocus) win->take_focus = 1; if (wpr.atoms[i] == a_delete) win->can_delete = 1; } xcb_icccm_get_wm_protocols_reply_wipe(&wpr); } win->iconic = get_swm_iconic(win); /* Figure out which workspace the window belongs to. */ if ((p = find_pid(window_get_pid(win->id))) != NULL) { win->ws = &r->s->ws[p->ws]; TAILQ_REMOVE(&pidlist, p, entry); free(p); p = NULL; } else if ((ws_idx = get_ws_idx(win->id)) != -1 && !win->transient) { /* _SWM_WS is set; use that. */ win->ws = &r->s->ws[ws_idx]; } else if (trans && (ww = find_window(trans)) != NULL) { /* Launch transients in the same ws as parent. */ win->ws = ww->ws; } else { win->ws = r->ws; } /* Set the _SWM_WS atom so we can remember this after reincarnation. */ if (snprintf(ws_idx_str, SWM_PROPLEN, "%d", win->ws->idx) < SWM_PROPLEN) { DNPRINTF(SWM_D_PROP, "manage_window: set _SWM_WS: %s\n", ws_idx_str); xcb_change_property(conn, XCB_PROP_MODE_REPLACE, win->id, a_swm_ws, XCB_ATOM_STRING, 8, strlen(ws_idx_str), ws_idx_str); } /* Handle EWMH */ ewmh_autoquirk(win); /* Determine initial quirks. */ if (xcb_icccm_get_wm_class_reply(conn, xcb_icccm_get_wm_class(conn, win->id), &win->ch, NULL)) { DNPRINTF(SWM_D_CLASS, "manage_window: class: %s, name: %s\n", win->ch.class_name, win->ch.instance_name); /* java is retarded so treat it special */ if (strstr(win->ch.instance_name, "sun-awt")) { DNPRINTF(SWM_D_CLASS, "manage_window: java window " "detected.\n"); win->java = 1; } TAILQ_FOREACH(qp, &quirks, entry) { if (!strcmp(win->ch.class_name, qp->class) && !strcmp(win->ch.instance_name, qp->name)) { DNPRINTF(SWM_D_CLASS, "manage_window: on quirks" "list; mask: 0x%lx\n", qp->quirk); if (qp->quirk & SWM_Q_FLOAT) win->floating = 1; win->quirks = qp->quirk; } } } /* Alter window position if quirky */ if (win->quirks & SWM_Q_ANYWHERE) win->manual = 1; /* Reset font sizes (the bruteforce way; no default keybinding). */ if (win->quirks & SWM_Q_XTERM_FONTADJ) { for (i = 0; i < SWM_MAX_FONT_STEPS; i++) fake_keypress(win, XK_KP_Subtract, XCB_MOD_MASK_SHIFT); for (i = 0; i < SWM_MAX_FONT_STEPS; i++) fake_keypress(win, XK_KP_Add, XCB_MOD_MASK_SHIFT); } /* Make sure window is positioned inside its region, if its active. */ if (win->ws->r) { constrain_window(win, win->ws->r, 0); update_window(win); } /* Select which X events to monitor and set border pixel color. */ wa[0] = win->s->c[SWM_S_COLOR_UNFOCUS].pixel; wa[1] = XCB_EVENT_MASK_ENTER_WINDOW | XCB_EVENT_MASK_PROPERTY_CHANGE | XCB_EVENT_MASK_STRUCTURE_NOTIFY; #ifdef SWM_DEBUG wa[1] |= XCB_EVENT_MASK_LEAVE_WINDOW | XCB_EVENT_MASK_FOCUS_CHANGE; #endif xcb_change_window_attributes(conn, win->id, XCB_CW_BORDER_PIXEL | XCB_CW_EVENT_MASK, wa); out: /* Figure out where to stack the window in the workspace. */ if (trans && (ww = find_window(trans))) TAILQ_INSERT_AFTER(&win->ws->winlist, ww, win, entry); else if (win->ws->focus && spawn_position == SWM_STACK_ABOVE) TAILQ_INSERT_AFTER(&win->ws->winlist, win->ws->focus, win, entry); else if (win->ws->focus && spawn_position == SWM_STACK_BELOW) TAILQ_INSERT_BEFORE(win->ws->focus, win, entry); else switch (spawn_position) { default: case SWM_STACK_TOP: case SWM_STACK_ABOVE: TAILQ_INSERT_TAIL(&win->ws->winlist, win, entry); break; case SWM_STACK_BOTTOM: case SWM_STACK_BELOW: TAILQ_INSERT_HEAD(&win->ws->winlist, win, entry); } /* Get initial _NET_WM_STATE */ ewmh_get_win_state(win); /* Set initial _NET_WM_ALLOWED_ACTIONS */ ewmh_update_actions(win); grabbuttons(win); DNPRINTF(SWM_D_MISC, "manage_window: done. window: 0x%x, (x,y) w x h: " "(%d,%d) %d x %d, ws: %d, iconic: %s, transient: 0x%x\n", win->id, X(win), Y(win), WIDTH(win), HEIGHT(win), win->ws->idx, YESNO(win->iconic), win->transient); return (win); } void free_window(struct ws_win *win) { DNPRINTF(SWM_D_MISC, "free_window: window: 0x%x\n", win->id); if (win == NULL) return; TAILQ_REMOVE(&win->ws->unmanagedlist, win, entry); if (win->wa) free(win->wa); xcb_icccm_get_wm_class_reply_wipe(&win->ch); kill_refs(win); /* paint memory */ memset(win, 0xff, sizeof *win); /* XXX kill later */ free(win); DNPRINTF(SWM_D_MISC, "free_window: done.\n"); } void unmanage_window(struct ws_win *win) { struct ws_win *parent; if (win == NULL) return; DNPRINTF(SWM_D_MISC, "unmanage_window: window: 0x%x\n", win->id); if (win->transient) { parent = find_window(win->transient); if (parent) parent->focus_child = NULL; } TAILQ_REMOVE(&win->ws->winlist, win, entry); TAILQ_INSERT_TAIL(&win->ws->unmanagedlist, win, entry); } void expose(xcb_expose_event_t *e) { int i, num_screens; struct swm_region *r; DNPRINTF(SWM_D_EVENT, "expose: window: 0x%x\n", e->window); num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) TAILQ_FOREACH(r, &screens[i].rl, entry) if (e->window == WINID(r->bar)) bar_draw(); xcb_flush(conn); } #ifdef SWM_DEBUG void focusin(xcb_focus_in_event_t *e) { DNPRINTF(SWM_D_EVENT, "focusin: window: 0x%x, mode: %s(%u), " "detail: %s(%u)\n", e->event, get_notify_mode_label(e->mode), e->mode, get_notify_detail_label(e->detail), e->detail); } void focusout(xcb_focus_out_event_t *e) { DNPRINTF(SWM_D_EVENT, "focusout: window: 0x%x, mode: %s(%u), " "detail: %s(%u)\n", e->event, get_notify_mode_label(e->mode), e->mode, get_notify_detail_label(e->detail), e->detail); } #endif void keypress(xcb_key_press_event_t *e) { xcb_keysym_t keysym; struct key *kp; keysym = xcb_key_press_lookup_keysym(syms, e, 0); DNPRINTF(SWM_D_EVENT, "keypress: keysym: %u, win (x,y): 0x%x (%d,%d), " "detail: %u, time: %u, root (x,y): 0x%x (%d,%d), child: 0x%x, " "state: %u, same_screen: %s\n", keysym, e->event, e->event_x, e->event_y, e->detail, e->time, e->root, e->root_x, e->root_y, e->child, e->state, YESNO(e->same_screen)); if ((kp = key_lookup(CLEANMASK(e->state), keysym)) == NULL) goto out; last_event_time = e->time; if (kp->funcid == KF_SPAWN_CUSTOM) spawn_custom(root_to_region(e->root, SWM_CK_ALL), &(keyfuncs[kp->funcid].args), kp->spawn_name); else if (keyfuncs[kp->funcid].func) keyfuncs[kp->funcid].func(root_to_region(e->root, SWM_CK_ALL), &(keyfuncs[kp->funcid].args)); out: /* Unfreeze grab events. */ xcb_allow_events(conn, XCB_ALLOW_ASYNC_KEYBOARD, e->time); xcb_flush(conn); DNPRINTF(SWM_D_EVENT, "keypress: done.\n"); } void buttonpress(xcb_button_press_event_t *e) { struct ws_win *win = NULL; struct swm_region *r, *old_r; int i; int handled = 0; DNPRINTF(SWM_D_EVENT, "buttonpress: win (x,y): 0x%x (%d,%d), " "detail: %u, time: %u, root (x,y): 0x%x (%d,%d), child: 0x%x, " "state: %u, same_screen: %s\n", e->event, e->event_x, e->event_y, e->detail, e->time, e->root, e->root_x, e->root_y, e->child, e->state, YESNO(e->same_screen)); if (e->event == e->root) { if (e->child != 0) { win = find_window(e->child); /* Pass ButtonPress to window if it isn't managed. */ if (win == NULL) goto out; } else { /* Focus on empty region */ /* If no windows on region if its empty. */ r = root_to_region(e->root, SWM_CK_POINTER); if (r == NULL) { DNPRINTF(SWM_D_EVENT, "buttonpress: " "NULL region; ignoring.\n"); goto out; } if (TAILQ_EMPTY(&r->ws->winlist)) { old_r = root_to_region(e->root, SWM_CK_FOCUS); if (old_r && old_r != r) unfocus_win(old_r->ws->focus); xcb_set_input_focus(conn, XCB_INPUT_FOCUS_PARENT, e->root, e->time); /* Clear bar since empty. */ bar_draw(); handled = 1; goto out; } } } else { win = find_window(e->event); } if (win == NULL) goto out; last_event_time = e->time; focus_win(get_focus_magic(win)); for (i = 0; i < LENGTH(buttons); i++) if (client_click == buttons[i].action && buttons[i].func && buttons[i].button == e->detail && CLEANMASK(buttons[i].mask) == CLEANMASK(e->state)) { buttons[i].func(win, &buttons[i].args); handled = 1; } out: if (!handled) { DNPRINTF(SWM_D_EVENT, "buttonpress: passing to window.\n"); /* Replay event to event window */ xcb_allow_events(conn, XCB_ALLOW_REPLAY_POINTER, e->time); } else { DNPRINTF(SWM_D_EVENT, "buttonpress: handled.\n"); /* Unfreeze grab events. */ xcb_allow_events(conn, XCB_ALLOW_SYNC_POINTER, e->time); } xcb_flush(conn); } #ifdef SWM_DEBUG void print_win_geom(xcb_window_t w) { xcb_get_geometry_reply_t *wa; wa = xcb_get_geometry_reply(conn, xcb_get_geometry(conn, w), NULL); if (!wa) { DNPRINTF(SWM_D_MISC, "print_win_geom: window not found: 0x%x\n", w); return; } DNPRINTF(SWM_D_MISC, "print_win_geom: window: 0x%x, root: 0x%x, " "depth: %u, (x,y) w x h: (%d,%d) %d x %d, border: %d\n", w, wa->root, wa->depth, wa->x, wa->y, wa->width, wa->height, wa->border_width); free(wa); } #endif #ifdef SWM_DEBUG char * get_stack_mode_name(uint8_t mode) { char *name; switch(mode) { case XCB_STACK_MODE_ABOVE: name = "Above"; break; case XCB_STACK_MODE_BELOW: name = "Below"; break; case XCB_STACK_MODE_TOP_IF: name = "TopIf"; break; case XCB_STACK_MODE_BOTTOM_IF: name = "BottomIf"; break; case XCB_STACK_MODE_OPPOSITE: name = "Opposite"; break; default: name = "Unknown"; } return name; } #endif void configurerequest(xcb_configure_request_event_t *e) { struct ws_win *win; struct swm_region *r = NULL; int new = 0, i = 0; uint16_t mask = 0; uint32_t wc[7] = {0}; if ((win = find_window(e->window)) == NULL) if ((win = find_unmanaged_window(e->window)) == NULL) new = 1; #ifdef SWM_DEBUG if (swm_debug & SWM_D_EVENT) { print_win_geom(e->window); DNPRINTF(SWM_D_EVENT, "configurerequest: window: 0x%x, " "parent: 0x%x, new: %s, value_mask: %u { ", e->window, e->parent, YESNO(new), e->value_mask); if (e->value_mask & XCB_CONFIG_WINDOW_X) DPRINTF("X: %d ", e->x); if (e->value_mask & XCB_CONFIG_WINDOW_Y) DPRINTF("Y: %d ", e->y); if (e->value_mask & XCB_CONFIG_WINDOW_WIDTH) DPRINTF("W: %u ", e->width); if (e->value_mask & XCB_CONFIG_WINDOW_HEIGHT) DPRINTF("H: %u ", e->height); if (e->value_mask & XCB_CONFIG_WINDOW_BORDER_WIDTH) DPRINTF("Border: %u ", e->border_width); if (e->value_mask & XCB_CONFIG_WINDOW_SIBLING) DPRINTF("Sibling: 0x%x ", e->sibling); if (e->value_mask & XCB_CONFIG_WINDOW_STACK_MODE) DPRINTF("StackMode: %s(%u) ", get_stack_mode_name(e->stack_mode), e->stack_mode); DPRINTF("}\n"); } #endif if (new) { if (e->value_mask & XCB_CONFIG_WINDOW_X) { mask |= XCB_CONFIG_WINDOW_X; wc[i++] = e->x; } if (e->value_mask & XCB_CONFIG_WINDOW_Y) { mask |= XCB_CONFIG_WINDOW_Y; wc[i++] = e->y; } if (e->value_mask & XCB_CONFIG_WINDOW_WIDTH) { mask |= XCB_CONFIG_WINDOW_WIDTH; wc[i++] = e->width; } if (e->value_mask & XCB_CONFIG_WINDOW_HEIGHT) { mask |= XCB_CONFIG_WINDOW_HEIGHT; wc[i++] = e->height; } if (e->value_mask & XCB_CONFIG_WINDOW_BORDER_WIDTH) { mask |= XCB_CONFIG_WINDOW_BORDER_WIDTH; wc[i++] = e->border_width; } if (e->value_mask & XCB_CONFIG_WINDOW_SIBLING) { mask |= XCB_CONFIG_WINDOW_SIBLING; wc[i++] = e->sibling; } if (e->value_mask & XCB_CONFIG_WINDOW_STACK_MODE) { mask |= XCB_CONFIG_WINDOW_STACK_MODE; wc[i++] = e->stack_mode; } if (mask != 0) { xcb_configure_window(conn, e->window, mask, wc); xcb_flush(conn); } } else if ((!win->manual || win->quirks & SWM_Q_ANYWHERE) && !(win->ewmh_flags & EWMH_F_FULLSCREEN)) { if (win->ws->r) r = win->ws->r; else if (win->ws->old_r) r = win->ws->old_r; /* windows are centered unless ANYWHERE quirk is set. */ if (win->quirks & SWM_Q_ANYWHERE) { if (e->value_mask & XCB_CONFIG_WINDOW_X) { win->g_float.x = e->x; if (r) win->g_float.x -= X(r); } if (e->value_mask & XCB_CONFIG_WINDOW_Y) { win->g_float.y = e->y; if (r) win->g_float.y -= Y(r); } } if (e->value_mask & XCB_CONFIG_WINDOW_WIDTH) win->g_float.w = e->width; if (e->value_mask & XCB_CONFIG_WINDOW_HEIGHT) win->g_float.h = e->height; win->g_floatvalid = 1; if (win->floating && r && (win->transient || win->ws->cur_layout != &layouts[SWM_MAX_STACK])) { WIDTH(win) = win->g_float.w; HEIGHT(win) = win->g_float.h; if (r) { stack_floater(win, r); focus_flush(); } } else { config_win(win, e); xcb_flush(conn); } } else { config_win(win, e); xcb_flush(conn); } DNPRINTF(SWM_D_EVENT, "configurerequest: done.\n"); } void configurenotify(xcb_configure_notify_event_t *e) { struct ws_win *win; DNPRINTF(SWM_D_EVENT, "configurenotify: win 0x%x, event win: 0x%x, " "(x,y) WxH: (%d,%d) %ux%u, border: %u, above_sibling: 0x%x, " "override_redirect: %s\n", e->window, e->event, e->x, e->y, e->width, e->height, e->border_width, e->above_sibling, YESNO(e->override_redirect)); win = find_window(e->window); if (win) { xcb_icccm_get_wm_normal_hints_reply(conn, xcb_icccm_get_wm_normal_hints(conn, win->id), &win->sh, NULL); adjust_font(win); if (font_adjusted) { stack(); xcb_flush(conn); } } } void destroynotify(xcb_destroy_notify_event_t *e) { struct ws_win *win; DNPRINTF(SWM_D_EVENT, "destroynotify: window: 0x%x\n", e->window); if ((win = find_window(e->window)) == NULL) { if ((win = find_unmanaged_window(e->window)) == NULL) return; free_window(win); return; } if (focus_mode != SWM_FOCUS_FOLLOW) { /* If we were focused, make sure we focus on something else. */ if (win == win->ws->focus) win->ws->focus_pending = get_focus_prev(win); } unmanage_window(win); stack(); if (focus_mode != SWM_FOCUS_FOLLOW) { if (win->ws->focus_pending) { focus_win(win->ws->focus_pending); win->ws->focus_pending = NULL; } } free_window(win); focus_flush(); } #ifdef SWM_DEBUG char * get_notify_detail_label(uint8_t detail) { char *label; switch (detail) { case XCB_NOTIFY_DETAIL_ANCESTOR: label = "Ancestor"; break; case XCB_NOTIFY_DETAIL_VIRTUAL: label = "Virtual"; break; case XCB_NOTIFY_DETAIL_INFERIOR: label = "Inferior"; break; case XCB_NOTIFY_DETAIL_NONLINEAR: label = "Nonlinear"; break; case XCB_NOTIFY_DETAIL_NONLINEAR_VIRTUAL: label = "NonlinearVirtual"; break; case XCB_NOTIFY_DETAIL_POINTER: label = "Pointer"; break; case XCB_NOTIFY_DETAIL_POINTER_ROOT: label = "PointerRoot"; break; case XCB_NOTIFY_DETAIL_NONE: label = "None"; break; default: label = "Unknown"; } return label; } char * get_notify_mode_label(uint8_t mode) { char *label; switch (mode) { case XCB_NOTIFY_MODE_NORMAL: label = "Normal"; break; case XCB_NOTIFY_MODE_GRAB: label = "Grab"; break; case XCB_NOTIFY_MODE_UNGRAB: label = "Ungrab"; break; case XCB_NOTIFY_MODE_WHILE_GRABBED: label = "WhileGrabbed"; break; default: label = "Unknown"; } return label; } #endif void enternotify(xcb_enter_notify_event_t *e) { struct ws_win *win; struct swm_region *r; DNPRINTF(SWM_D_FOCUS, "enternotify: time: %u, win (x,y): 0x%x " "(%d,%d), mode: %s(%d), detail: %s(%d), root (x,y): 0x%x (%d,%d), " "child: 0x%x, same_screen_focus: %s, state: %d\n", e->time, e->event, e->event_x, e->event_y, get_notify_mode_label(e->mode), e->mode, get_notify_detail_label(e->detail), e->detail, e->root, e->root_x, e->root_y, e->child, YESNO(e->same_screen_focus), e->state); if (focus_mode == SWM_FOCUS_MANUAL && e->mode == XCB_NOTIFY_MODE_NORMAL) { DNPRINTF(SWM_D_EVENT, "enternotify: manual focus; ignoring.\n"); return; } last_event_time = e->time; if ((win = find_window(e->event)) == NULL) { if (e->event == e->root) { /* If no windows on pointer region, then focus root. */ r = root_to_region(e->root, SWM_CK_POINTER); if (r == NULL) { DNPRINTF(SWM_D_EVENT, "enternotify: " "NULL region; ignoring.\n"); return; } focus_region(r); } else { DNPRINTF(SWM_D_EVENT, "enternotify: window is NULL; " "ignoring\n"); return; } } else { focus_win(get_focus_magic(win)); } xcb_flush(conn); } #ifdef SWM_DEBUG void leavenotify(xcb_leave_notify_event_t *e) { DNPRINTF(SWM_D_FOCUS, "leavenotify: time: %u, win (x,y): 0x%x " "(%d,%d), mode: %s(%d), detail: %s(%d), root (x,y): 0x%x (%d,%d), " "child: 0x%x, same_screen_focus: %s, state: %d\n", e->time, e->event, e->event_x, e->event_y, get_notify_mode_label(e->mode), e->mode, get_notify_detail_label(e->detail), e->detail, e->root, e->root_x, e->root_y, e->child, YESNO(e->same_screen_focus), e->state); } #endif void mapnotify(xcb_map_notify_event_t *e) { struct ws_win *win; DNPRINTF(SWM_D_EVENT, "mapnotify: window: 0x%x\n", e->window); if ((win = find_window(e->window)) == NULL) win = manage_window(e->window, 1); win->mapped = 1; set_win_state(win, XCB_ICCCM_WM_STATE_NORMAL); if (focus_mode != SWM_FOCUS_FOLLOW) { if (win->ws->focus_pending == win) { focus_win(win); win->ws->focus_pending = NULL; focus_flush(); } } xcb_flush(conn); } void mappingnotify(xcb_mapping_notify_event_t *e) { xcb_refresh_keyboard_mapping(syms, e); if (e->request == XCB_MAPPING_KEYBOARD) grabkeys(); } void maprequest(xcb_map_request_event_t *e) { struct ws_win *win, *w = NULL; xcb_get_window_attributes_reply_t *war; DNPRINTF(SWM_D_EVENT, "maprequest: win 0x%x\n", e->window); war = xcb_get_window_attributes_reply(conn, xcb_get_window_attributes(conn, e->window), NULL); if (war == NULL) { DNPRINTF(SWM_D_EVENT, "maprequest: window lost.\n"); goto out; } if (war->override_redirect) { DNPRINTF(SWM_D_EVENT, "maprequest: override_redirect; " "skipping.\n"); goto out; } win = manage_window(e->window, (war->map_state == XCB_MAP_STATE_VIEWABLE)); /* The new window should get focus; prepare. */ if (focus_mode != SWM_FOCUS_FOLLOW && !(win->quirks & SWM_Q_NOFOCUSONMAP)) { if (win->quirks & SWM_Q_FOCUSONMAP_SINGLE) { /* See if other wins of same type are already mapped. */ TAILQ_FOREACH(w, &win->ws->winlist, entry) { if (w == win || !w->mapped) continue; if (!strcmp(w->ch.class_name, win->ch.class_name) && !strcmp(w->ch.instance_name, win->ch.instance_name)) break; } } if (w == NULL) win->ws->focus_pending = get_focus_magic(win); } /* All windows need to be mapped if they are in the current workspace.*/ if (win->ws->r) stack(); /* Ignore EnterNotify to handle the mapnotify without interference. */ if (focus_mode == SWM_FOCUS_DEFAULT) event_drain(XCB_ENTER_NOTIFY); out: free(war); DNPRINTF(SWM_D_EVENT, "maprequest: done.\n"); } void motionnotify(xcb_motion_notify_event_t *e) { struct swm_region *r; int i, num_screens; DNPRINTF(SWM_D_FOCUS, "motionnotify: time: %u, win (x,y): 0x%x " "(%d,%d), detail: %s(%d), root (x,y): 0x%x (%d,%d), " "child: 0x%x, same_screen_focus: %s, state: %d\n", e->time, e->event, e->event_x, e->event_y, get_notify_detail_label(e->detail), e->detail, e->root, e->root_x, e->root_y, e->child, YESNO(e->same_screen), e->state); last_event_time = e->time; num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) if (screens[i].root == e->root) break; TAILQ_FOREACH(r, &screens[i].rl, entry) if (X(r) <= e->root_x && e->root_x < MAX_X(r) && Y(r) <= e->root_y && e->root_y < MAX_Y(r)) break; focus_region(r); } #ifdef SWM_DEBUG char * get_atom_name(xcb_atom_t atom) { char *name = NULL; #if 0 /* * This should be disabled during most debugging since * xcb_get_* causes an xcb_flush. */ size_t len; xcb_get_atom_name_reply_t *r; r = xcb_get_atom_name_reply(conn, xcb_get_atom_name(conn, atom), NULL); if (r) { len = xcb_get_atom_name_name_length(r); if (len > 0) { name = malloc(len + 1); if (name) { memcpy(name, xcb_get_atom_name_name(r), len); name[len] = '\0'; } } free(r); } #else (void)atom; #endif return (name); } #endif void propertynotify(xcb_property_notify_event_t *e) { struct ws_win *win; #ifdef SWM_DEBUG char *name; name = get_atom_name(e->atom); DNPRINTF(SWM_D_EVENT, "propertynotify: window: 0x%x, atom: %s(%u), " "time: %#x, state: %u\n", e->window, name, e->atom, e->time, e->state); free(name); #endif win = find_window(e->window); if (win == NULL) return; last_event_time = e->time; if (e->atom == a_swm_iconic) { if (e->state == XCB_PROPERTY_NEW_VALUE) { if (focus_mode != SWM_FOCUS_FOLLOW) win->ws->focus_pending = get_focus_prev(win); unfocus_win(win); unmap_window(win); if (win->ws->r) { stack(); if (focus_mode != SWM_FOCUS_FOLLOW) { focus_win(win->ws->focus_pending); win->ws->focus_pending = NULL; } focus_flush(); } } else if (e->state == XCB_PROPERTY_DELETE) { /* The window is no longer iconic, restack ws. */ if (focus_mode != SWM_FOCUS_FOLLOW) win->ws->focus_pending = get_focus_magic(win); stack(); /* Flush EnterNotify for mapnotify, if needed. */ focus_flush(); } } else if (e->atom == a_state) { /* State just changed, make sure it gets focused if mapped. */ if (e->state == XCB_PROPERTY_NEW_VALUE) { if (focus_mode != SWM_FOCUS_FOLLOW) { if (win->mapped && win->ws->focus_pending == win) { focus_win(win->ws->focus_pending); win->ws->focus_pending = NULL; } } } } else if (e->atom == XCB_ATOM_WM_CLASS || e->atom == XCB_ATOM_WM_NAME) { bar_draw(); } xcb_flush(conn); } void unmapnotify(xcb_unmap_notify_event_t *e) { struct ws_win *win; struct workspace *ws; DNPRINTF(SWM_D_EVENT, "unmapnotify: window: 0x%x\n", e->window); /* If we aren't managing the window, then ignore. */ win = find_window(e->window); if (win == NULL || win->id != e->window) return; ws = win->ws; if (getstate(e->window) != XCB_ICCCM_WM_STATE_ICONIC) set_win_state(win, XCB_ICCCM_WM_STATE_ICONIC); if (win->mapped) { /* window unmapped itself */ /* do unmap/unfocus/restack and unmanage */ win->mapped = 0; /* If win was focused, make sure to focus on something else. */ if (win == ws->focus) { if (focus_mode != SWM_FOCUS_FOLLOW) { ws->focus_pending = get_focus_prev(win); DNPRINTF(SWM_D_EVENT, "unmapnotify: " "focus_pending: 0x%x\n", WINID(ws->focus_pending)); } unfocus_win(win); } unmanage_window(win); if (ws->r) stack(); if (focus_mode == SWM_FOCUS_FOLLOW) { if (ws->r) focus_win(get_pointer_win(ws->r->s->root)); } else { if (ws->focus_pending) { focus_win(ws->focus_pending); ws->focus_pending = NULL; } } } if (getstate(e->window) == XCB_ICCCM_WM_STATE_NORMAL) set_win_state(win, XCB_ICCCM_WM_STATE_ICONIC); focus_flush(); } #if 0 void visibilitynotify(xcb_visibility_notify_event_t *e) { DNPRINTF(SWM_D_EVENT, "visibilitynotify: window: 0x%x\n", e->window); } #endif void clientmessage(xcb_client_message_event_t *e) { struct ws_win *win; xcb_map_request_event_t mre; #ifdef SWM_DEBUG char *name; name = get_atom_name(e->type); DNPRINTF(SWM_D_EVENT, "clientmessage: window: 0x%x, atom: %s(%u)\n", e->window, name, e->type); free(name); #endif win = find_window(e->window); if (win == NULL) { if (e->type == ewmh[_NET_ACTIVE_WINDOW].atom) { /* Manage the window with maprequest. */ DNPRINTF(SWM_D_EVENT, "clientmessage: request focus on " "unmanaged window.\n"); mre.window = e->window; maprequest(&mre); } return; } if (e->type == ewmh[_NET_ACTIVE_WINDOW].atom) { DNPRINTF(SWM_D_EVENT, "clientmessage: _NET_ACTIVE_WINDOW\n"); focus_win(win); } if (e->type == ewmh[_NET_CLOSE_WINDOW].atom) { DNPRINTF(SWM_D_EVENT, "clientmessage: _NET_CLOSE_WINDOW\n"); if (win->can_delete) client_msg(win, a_delete, 0); else xcb_kill_client(conn, win->id); } if (e->type == ewmh[_NET_MOVERESIZE_WINDOW].atom) { DNPRINTF(SWM_D_EVENT, "clientmessage: _NET_MOVERESIZE_WINDOW\n"); if (win->floating) { if (e->data.data32[0] & (1<<8)) /* x */ X(win) = e->data.data32[1]; if (e->data.data32[0] & (1<<9)) /* y */ Y(win) = e->data.data32[2]; if (e->data.data32[0] & (1<<10)) /* width */ WIDTH(win) = e->data.data32[3]; if (e->data.data32[0] & (1<<11)) /* height */ HEIGHT(win) = e->data.data32[4]; update_window(win); } else { /* TODO: Change stack sizes */ /* notify no change was made. */ config_win(win, NULL); } } if (e->type == ewmh[_NET_WM_STATE].atom) { DNPRINTF(SWM_D_EVENT, "clientmessage: _NET_WM_STATE\n"); ewmh_update_win_state(win, e->data.data32[1], e->data.data32[0]); if (e->data.data32[2]) ewmh_update_win_state(win, e->data.data32[2], e->data.data32[0]); stack(); } focus_flush(); } void check_conn(void) { int errcode = xcb_connection_has_error(conn); #ifdef XCB_CONN_ERROR char *s; switch (errcode) { case XCB_CONN_ERROR: s = "Socket error, pipe error or other stream error."; break; case XCB_CONN_CLOSED_EXT_NOTSUPPORTED: s = "Extension not supported."; break; case XCB_CONN_CLOSED_MEM_INSUFFICIENT: s = "Insufficient memory."; break; case XCB_CONN_CLOSED_REQ_LEN_EXCEED: s = "Request length was exceeded."; break; case XCB_CONN_CLOSED_PARSE_ERR: s = "Error parsing display string."; break; default: s = "Unknown error."; } if (errcode) errx(errcode, "X CONNECTION ERROR: %s", s); #else if (errcode) errx(errcode, "X CONNECTION ERROR"); #endif } int enable_wm(void) { int num_screens, i; const uint32_t val = XCB_EVENT_MASK_SUBSTRUCTURE_REDIRECT | XCB_EVENT_MASK_ENTER_WINDOW; xcb_screen_t *sc; xcb_void_cookie_t wac; xcb_generic_error_t *error; /* this causes an error if some other window manager is running */ num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) { if ((sc = get_screen(i)) == NULL) errx(1, "ERROR: can't get screen %d.", i); DNPRINTF(SWM_D_INIT, "enable_wm: screen %d, root: 0x%x\n", i, sc->root); wac = xcb_change_window_attributes_checked(conn, sc->root, XCB_CW_EVENT_MASK, &val); if ((error = xcb_request_check(conn, wac))) { DNPRINTF(SWM_D_INIT, "enable_wm: error_code: %u\n", error->error_code); free(error); return 1; } /* click to focus on empty region */ xcb_grab_button(conn, 1, sc->root, BUTTONMASK, XCB_GRAB_MODE_SYNC, XCB_GRAB_MODE_ASYNC, XCB_WINDOW_NONE, XCB_CURSOR_NONE, XCB_BUTTON_INDEX_1, XCB_BUTTON_MASK_ANY); } return 0; } void new_region(struct swm_screen *s, int x, int y, int w, int h) { struct swm_region *r, *n; struct workspace *ws = NULL; int i; uint32_t wa[1]; DNPRINTF(SWM_D_MISC, "new region: screen[%d]:%dx%d+%d+%d\n", s->idx, w, h, x, y); /* remove any conflicting regions */ n = TAILQ_FIRST(&s->rl); while (n) { r = n; n = TAILQ_NEXT(r, entry); if (X(r) < (x + w) && (X(r) + WIDTH(r)) > x && Y(r) < (y + h) && (Y(r) + HEIGHT(r)) > y) { if (r->ws->r != NULL) r->ws->old_r = r->ws->r; r->ws->r = NULL; bar_cleanup(r); xcb_destroy_window(conn, r->id); TAILQ_REMOVE(&s->rl, r, entry); TAILQ_INSERT_TAIL(&s->orl, r, entry); } } /* search old regions for one to reuse */ /* size + location match */ TAILQ_FOREACH(r, &s->orl, entry) if (X(r) == x && Y(r) == y && HEIGHT(r) == h && WIDTH(r) == w) break; /* size match */ TAILQ_FOREACH(r, &s->orl, entry) if (HEIGHT(r) == h && WIDTH(r) == w) break; if (r != NULL) { TAILQ_REMOVE(&s->orl, r, entry); /* try to use old region's workspace */ if (r->ws->r == NULL) ws = r->ws; } else if ((r = calloc(1, sizeof(struct swm_region))) == NULL) err(1, "new_region: calloc: failed to allocate memory " "for screen"); /* if we don't have a workspace already, find one */ if (ws == NULL) { for (i = 0; i < workspace_limit; i++) if (s->ws[i].r == NULL) { ws = &s->ws[i]; break; } } if (ws == NULL) errx(1, "new_region: no free workspaces"); X(r) = x; Y(r) = y; WIDTH(r) = w; HEIGHT(r) = h; r->s = s; r->ws = ws; r->ws_prior = NULL; ws->r = r; outputs++; TAILQ_INSERT_TAIL(&s->rl, r, entry); /* Invisible region window to detect pointer events on empty regions. */ r->id = xcb_generate_id(conn); wa[0] = XCB_EVENT_MASK_POINTER_MOTION | XCB_EVENT_MASK_POINTER_MOTION_HINT; xcb_create_window(conn, XCB_COPY_FROM_PARENT, r->id, r->s->root, X(r), Y(r), WIDTH(r), HEIGHT(r), 0, XCB_WINDOW_CLASS_INPUT_ONLY, XCB_COPY_FROM_PARENT, XCB_CW_EVENT_MASK, wa); xcb_map_window(conn, r->id); } void scan_xrandr(int i) { #ifdef SWM_XRR_HAS_CRTC int c; int ncrtc = 0; #endif /* SWM_XRR_HAS_CRTC */ struct swm_region *r; struct ws_win *win; int num_screens; xcb_randr_get_screen_resources_current_cookie_t src; xcb_randr_get_screen_resources_current_reply_t *srr; xcb_randr_get_crtc_info_cookie_t cic; xcb_randr_get_crtc_info_reply_t *cir = NULL; xcb_randr_crtc_t *crtc; xcb_screen_t *screen; DNPRINTF(SWM_D_MISC, "scan_xrandr: screen: %d\n", i); if ((screen = get_screen(i)) == NULL) errx(1, "ERROR: can't get screen %d.", i); num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); if (i >= num_screens) errx(1, "scan_xrandr: invalid screen"); /* remove any old regions */ while ((r = TAILQ_FIRST(&screens[i].rl)) != NULL) { r->ws->old_r = r->ws->r = NULL; bar_cleanup(r); xcb_destroy_window(conn, r->id); TAILQ_REMOVE(&screens[i].rl, r, entry); TAILQ_INSERT_TAIL(&screens[i].orl, r, entry); } outputs = 0; /* map virtual screens onto physical screens */ #ifdef SWM_XRR_HAS_CRTC if (xrandr_support) { src = xcb_randr_get_screen_resources_current(conn, screens[i].root); srr = xcb_randr_get_screen_resources_current_reply(conn, src, NULL); if (srr == NULL) { new_region(&screens[i], 0, 0, screen->width_in_pixels, screen->height_in_pixels); goto out; } else ncrtc = srr->num_crtcs; crtc = xcb_randr_get_screen_resources_current_crtcs(srr); for (c = 0; c < ncrtc; c++) { cic = xcb_randr_get_crtc_info(conn, crtc[c], XCB_CURRENT_TIME); cir = xcb_randr_get_crtc_info_reply(conn, cic, NULL); if (cir == NULL) continue; if (cir->num_outputs == 0) { free(cir); continue; } if (cir->mode == 0) new_region(&screens[i], 0, 0, screen->width_in_pixels, screen->height_in_pixels); else new_region(&screens[i], cir->x, cir->y, cir->width, cir->height); free(cir); } free(srr); } #endif /* SWM_XRR_HAS_CRTC */ /* If detection failed, create a single region that spans the screen. */ if (TAILQ_EMPTY(&screens[i].rl)) new_region(&screens[i], 0, 0, screen->width_in_pixels, screen->height_in_pixels); out: /* Cleanup unused previously visible workspaces. */ TAILQ_FOREACH(r, &screens[i].orl, entry) { TAILQ_FOREACH(win, &r->ws->winlist, entry) unmap_window(win); /* The screen shouldn't focus on an unused region. */ if (screens[i].r_focus == r) screens[i].r_focus = NULL; } DNPRINTF(SWM_D_MISC, "scan_xrandr: done.\n"); } void screenchange(xcb_randr_screen_change_notify_event_t *e) { struct swm_region *r; int i, num_screens; DNPRINTF(SWM_D_EVENT, "screenchange: root: 0x%x\n", e->root); num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); /* silly event doesn't include the screen index */ for (i = 0; i < num_screens; i++) if (screens[i].root == e->root) break; if (i >= num_screens) errx(1, "screenchange: screen not found"); /* brute force for now, just re-enumerate the regions */ scan_xrandr(i); #ifdef SWM_DEBUG print_win_geom(e->root); #endif /* add bars to all regions */ for (i = 0; i < num_screens; i++) { TAILQ_FOREACH(r, &screens[i].rl, entry) bar_setup(r); } stack(); /* Make sure a region has focus on each screen. */ for (i = 0; i < num_screens; i++) { if (screens[i].r_focus == NULL) { r = TAILQ_FIRST(&screens[i].rl); if (r != NULL) focus_region(r); } } bar_draw(); focus_flush(); } void grab_windows(void) { struct swm_region *r = NULL; xcb_window_t *wins = NULL, trans; int no; int i, j, num_screens; uint16_t state, manage, mapped; xcb_query_tree_cookie_t qtc; xcb_query_tree_reply_t *qtr; xcb_get_window_attributes_cookie_t gac; xcb_get_window_attributes_reply_t *gar; xcb_get_property_cookie_t pc; DNPRINTF(SWM_D_INIT, "grab_windows: begin\n"); num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) { qtc = xcb_query_tree(conn, screens[i].root); qtr = xcb_query_tree_reply(conn, qtc, NULL); if (!qtr) continue; wins = xcb_query_tree_children(qtr); no = xcb_query_tree_children_length(qtr); /* attach windows to a region */ /* normal windows */ DNPRINTF(SWM_D_INIT, "grab_windows: grab top level windows.\n"); for (j = 0; j < no; j++) { TAILQ_FOREACH(r, &screens[i].rl, entry) { if (r->id == wins[j]) { DNPRINTF(SWM_D_INIT, "grab_windows: " "skip %#x; region input window.\n", wins[j]); break; } } if (r) continue; gac = xcb_get_window_attributes(conn, wins[j]); gar = xcb_get_window_attributes_reply(conn, gac, NULL); if (!gar) { DNPRINTF(SWM_D_INIT, "grab_windows: skip %#x; " "doesn't exist.\n", wins[j]); continue; } if (gar->override_redirect) { DNPRINTF(SWM_D_INIT, "grab_windows: skip %#x; " "override_redirect set.\n", wins[j]); free(gar); continue; } pc = xcb_icccm_get_wm_transient_for(conn, wins[j]); if (xcb_icccm_get_wm_transient_for_reply(conn, pc, &trans, NULL)) { DNPRINTF(SWM_D_INIT, "grab_windows: skip %#x; " "is transient for %#x.\n", wins[j], trans); free(gar); continue; } state = getstate(wins[j]); manage = state != XCB_ICCCM_WM_STATE_WITHDRAWN; mapped = gar->map_state != XCB_MAP_STATE_UNMAPPED; if (mapped || manage) manage_window(wins[j], mapped); free(gar); } /* transient windows */ DNPRINTF(SWM_D_INIT, "grab_windows: grab transient windows.\n"); for (j = 0; j < no; j++) { gac = xcb_get_window_attributes(conn, wins[j]); gar = xcb_get_window_attributes_reply(conn, gac, NULL); if (!gar) { DNPRINTF(SWM_D_INIT, "grab_windows: skip %#x; " "doesn't exist.\n", wins[j]); continue; } if (gar->override_redirect) { DNPRINTF(SWM_D_INIT, "grab_windows: skip %#x; " "override_redirect set.\n", wins[j]); free(gar); continue; } state = getstate(wins[j]); manage = state != XCB_ICCCM_WM_STATE_WITHDRAWN; mapped = gar->map_state != XCB_MAP_STATE_UNMAPPED; pc = xcb_icccm_get_wm_transient_for(conn, wins[j]); if (xcb_icccm_get_wm_transient_for_reply(conn, pc, &trans, NULL) && manage) manage_window(wins[j], mapped); free(gar); } free(qtr); } DNPRINTF(SWM_D_INIT, "grab_windows: done.\n"); } void setup_screens(void) { int i, j, k, num_screens; struct workspace *ws; uint32_t gcv[1], wa[1]; const xcb_query_extension_reply_t *qep; xcb_screen_t *screen; xcb_randr_query_version_cookie_t c; xcb_randr_query_version_reply_t *r; num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); if ((screens = calloc(num_screens, sizeof(struct swm_screen))) == NULL) err(1, "setup_screens: calloc: failed to allocate memory for " "screens"); /* initial Xrandr setup */ xrandr_support = 0; qep = xcb_get_extension_data(conn, &xcb_randr_id); if (qep->present) { c = xcb_randr_query_version(conn, 1, 1); r = xcb_randr_query_version_reply(conn, c, NULL); if (r) { if (r->major_version >= 1) { xrandr_support = 1; xrandr_eventbase = qep->first_event; } free(r); } } wa[0] = cursors[XC_LEFT_PTR].cid; /* map physical screens */ for (i = 0; i < num_screens; i++) { DNPRINTF(SWM_D_WS, "setup_screens: init screen: %d\n", i); screens[i].idx = i; screens[i].r_focus = NULL; TAILQ_INIT(&screens[i].rl); TAILQ_INIT(&screens[i].orl); if ((screen = get_screen(i)) == NULL) errx(1, "ERROR: can't get screen %d.", i); screens[i].root = screen->root; /* set default colors */ setscreencolor("red", i + 1, SWM_S_COLOR_FOCUS); setscreencolor("rgb:88/88/88", i + 1, SWM_S_COLOR_UNFOCUS); setscreencolor("rgb:00/80/80", i + 1, SWM_S_COLOR_BAR_BORDER); setscreencolor("rgb:00/40/40", i + 1, SWM_S_COLOR_BAR_BORDER_UNFOCUS); setscreencolor("black", i + 1, SWM_S_COLOR_BAR); setscreencolor("rgb:a0/a0/a0", i + 1, SWM_S_COLOR_BAR_FONT); /* create graphics context on screen */ screens[i].bar_gc = xcb_generate_id(conn); gcv[0] = 0; xcb_create_gc(conn, screens[i].bar_gc, screens[i].root, XCB_GC_GRAPHICS_EXPOSURES, gcv); /* set default cursor */ xcb_change_window_attributes(conn, screens[i].root, XCB_CW_CURSOR, wa); /* init all workspaces */ /* XXX these should be dynamically allocated too */ for (j = 0; j < SWM_WS_MAX; j++) { ws = &screens[i].ws[j]; ws->idx = j; ws->name = NULL; ws->bar_enabled = 1; ws->focus = NULL; ws->focus_prev = NULL; ws->focus_pending = NULL; ws->r = NULL; ws->old_r = NULL; TAILQ_INIT(&ws->winlist); TAILQ_INIT(&ws->unmanagedlist); for (k = 0; layouts[k].l_stack != NULL; k++) if (layouts[k].l_config != NULL) layouts[k].l_config(ws, SWM_ARG_ID_STACKINIT); ws->cur_layout = &layouts[0]; ws->cur_layout->l_string(ws); } scan_xrandr(i); if (xrandr_support) xcb_randr_select_input(conn, screens[i].root, XCB_RANDR_NOTIFY_MASK_SCREEN_CHANGE); } } void setup_globals(void) { if ((bar_fonts = strdup(SWM_BAR_FONTS)) == NULL) err(1, "setup_globals: strdup: failed to allocate memory."); if ((clock_format = strdup("%a %b %d %R %Z %Y")) == NULL) err(1, "setup_globals: strdup: failed to allocate memory."); if ((syms = xcb_key_symbols_alloc(conn)) == NULL) errx(1, "unable to allocate key symbols"); a_state = get_atom_from_string("WM_STATE"); a_prot = get_atom_from_string("WM_PROTOCOLS"); a_delete = get_atom_from_string("WM_DELETE_WINDOW"); a_takefocus = get_atom_from_string("WM_TAKE_FOCUS"); a_wmname = get_atom_from_string("WM_NAME"); a_netwmname = get_atom_from_string("_NET_WM_NAME"); a_utf8_string = get_atom_from_string("UTF8_STRING"); a_string = get_atom_from_string("STRING"); a_swm_iconic = get_atom_from_string("_SWM_ICONIC"); a_swm_ws = get_atom_from_string("_SWM_WS"); } void workaround(void) { int i, num_screens; xcb_atom_t netwmcheck; xcb_window_t root, win; /* work around sun jdk bugs, code from wmname */ netwmcheck = get_atom_from_string("_NET_SUPPORTING_WM_CHECK"); num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) { root = screens[i].root; win = xcb_generate_id(conn); xcb_create_window(conn, XCB_COPY_FROM_PARENT, win, root, 0, 0, 1, 1, 0, XCB_WINDOW_CLASS_INPUT_OUTPUT, XCB_COPY_FROM_PARENT, 0, NULL); xcb_change_property(conn, XCB_PROP_MODE_REPLACE, root, netwmcheck, XCB_ATOM_WINDOW, 32, 1, &win); xcb_change_property(conn, XCB_PROP_MODE_REPLACE, win, netwmcheck, XCB_ATOM_WINDOW, 32, 1, &win); xcb_change_property(conn, XCB_PROP_MODE_REPLACE, win, a_netwmname, a_utf8_string, 8, strlen("LG3D"), "LG3D"); } } void shutdown_cleanup(void) { int i, num_screens; /* disable alarm because the following code may not be interrupted */ alarm(0); if (signal(SIGALRM, SIG_IGN) == SIG_ERR) err(1, "can't disable alarm"); bar_extra_stop(); unmap_all(); cursors_cleanup(); teardown_ewmh(); num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; ++i) { if (screens[i].bar_gc != 0) xcb_free_gc(conn, screens[i].bar_gc); if (!bar_font_legacy) XftColorFree(display, DefaultVisual(display, i), DefaultColormap(display, i), &bar_font_color); } if (bar_font_legacy) XFreeFontSet(display, bar_fs); else { XftFontClose(display, bar_font); } xcb_key_symbols_free(syms); xcb_flush(conn); xcb_disconnect(conn); } void event_error(xcb_generic_error_t *e) { (void)e; DNPRINTF(SWM_D_EVENT, "event_error: %s(%u) from %s(%u), sequence: %u, " "resource_id: %u, minor_code: %u\n", xcb_event_get_error_label(e->error_code), e->error_code, xcb_event_get_request_label(e->major_code), e->major_code, e->sequence, e->resource_id, e->minor_code); } void event_handle(xcb_generic_event_t *evt) { uint8_t type = XCB_EVENT_RESPONSE_TYPE(evt); DNPRINTF(SWM_D_EVENT, "XCB Event: %s(%d), seq %u\n", xcb_event_get_label(XCB_EVENT_RESPONSE_TYPE(evt)), XCB_EVENT_RESPONSE_TYPE(evt), evt->sequence); switch (type) { #define EVENT(type, callback) case type: callback((void *)evt); return EVENT(0, event_error); EVENT(XCB_BUTTON_PRESS, buttonpress); /*EVENT(XCB_BUTTON_RELEASE, buttonpress);*/ /*EVENT(XCB_CIRCULATE_NOTIFY, );*/ /*EVENT(XCB_CIRCULATE_REQUEST, );*/ EVENT(XCB_CLIENT_MESSAGE, clientmessage); /*EVENT(XCB_COLORMAP_NOTIFY, );*/ EVENT(XCB_CONFIGURE_NOTIFY, configurenotify); EVENT(XCB_CONFIGURE_REQUEST, configurerequest); /*EVENT(XCB_CREATE_NOTIFY, );*/ EVENT(XCB_DESTROY_NOTIFY, destroynotify); EVENT(XCB_ENTER_NOTIFY, enternotify); EVENT(XCB_EXPOSE, expose); #ifdef SWM_DEBUG EVENT(XCB_FOCUS_IN, focusin); EVENT(XCB_FOCUS_OUT, focusout); #endif /*EVENT(XCB_GRAPHICS_EXPOSURE, );*/ /*EVENT(XCB_GRAVITY_NOTIFY, );*/ EVENT(XCB_KEY_PRESS, keypress); /*EVENT(XCB_KEY_RELEASE, keypress);*/ /*EVENT(XCB_KEYMAP_NOTIFY, );*/ #ifdef SWM_DEBUG EVENT(XCB_LEAVE_NOTIFY, leavenotify); #endif EVENT(XCB_MAP_NOTIFY, mapnotify); EVENT(XCB_MAP_REQUEST, maprequest); EVENT(XCB_MAPPING_NOTIFY, mappingnotify); EVENT(XCB_MOTION_NOTIFY, motionnotify); /*EVENT(XCB_NO_EXPOSURE, );*/ EVENT(XCB_PROPERTY_NOTIFY, propertynotify); /*EVENT(XCB_REPARENT_NOTIFY, );*/ /*EVENT(XCB_RESIZE_REQUEST, );*/ /*EVENT(XCB_SELECTION_CLEAR, );*/ /*EVENT(XCB_SELECTION_NOTIFY, );*/ /*EVENT(XCB_SELECTION_REQUEST, );*/ EVENT(XCB_UNMAP_NOTIFY, unmapnotify); /*EVENT(XCB_VISIBILITY_NOTIFY, visibilitynotify);*/ #undef EVENT } if (type - xrandr_eventbase == XCB_RANDR_SCREEN_CHANGE_NOTIFY) screenchange((void *)evt); } int main(int argc, char *argv[]) { struct swm_region *r; char conf[PATH_MAX], *cfile = NULL; struct stat sb; int xfd, i, num_screens, startup = 1; struct sigaction sact; xcb_generic_event_t *evt; struct timeval tv; fd_set rd; int rd_max; int stdin_ready = 0; int num_readable; /* suppress unused warning since var is needed */ (void)argc; time_started = time(NULL); start_argv = argv; warnx("Welcome to spectrwm V%s Build: %s", SPECTRWM_VERSION, buildstr); if (!setlocale(LC_CTYPE, "") || !setlocale(LC_TIME, "")) warnx("no locale support"); /* handle some signals */ bzero(&sact, sizeof(sact)); sigemptyset(&sact.sa_mask); sact.sa_flags = 0; sact.sa_handler = sighdlr; sigaction(SIGINT, &sact, NULL); sigaction(SIGQUIT, &sact, NULL); sigaction(SIGTERM, &sact, NULL); sigaction(SIGHUP, &sact, NULL); sact.sa_handler = sighdlr; sact.sa_flags = SA_NOCLDSTOP; sigaction(SIGCHLD, &sact, NULL); if (!(display = XOpenDisplay(0))) errx(1, "can not open display"); conn = XGetXCBConnection(display); if (xcb_connection_has_error(conn)) errx(1, "can not get XCB connection"); XSetEventQueueOwner(display, XCBOwnsEventQueue); xcb_prefetch_extension_data(conn, &xcb_randr_id); xfd = xcb_get_file_descriptor(conn); /* look for local and global conf file */ pwd = getpwuid(getuid()); if (pwd == NULL) errx(1, "invalid user: %d", getuid()); xcb_grab_server(conn); xcb_aux_sync(conn); /* flush all events */ while ((evt = xcb_poll_for_event(conn))) { if (XCB_EVENT_RESPONSE_TYPE(evt) == 0) event_handle(evt); free(evt); } if (enable_wm() != 0) errx(1, "another window manager is currently running"); /* Load Xcursors and/or cursorfont glyph cursors. */ cursors_load(); xcb_aux_sync(conn); setup_globals(); setup_screens(); setup_keys(); setup_quirks(); setup_spawn(); /* load config */ for (i = 0; ; i++) { conf[0] = '\0'; switch (i) { case 0: /* ~ */ snprintf(conf, sizeof conf, "%s/.%s", pwd->pw_dir, SWM_CONF_FILE); break; case 1: /* global */ snprintf(conf, sizeof conf, "/etc/%s", SWM_CONF_FILE); break; case 2: /* ~ compat */ snprintf(conf, sizeof conf, "%s/.%s", pwd->pw_dir, SWM_CONF_FILE_OLD); break; case 3: /* global compat */ snprintf(conf, sizeof conf, "/etc/%s", SWM_CONF_FILE_OLD); break; default: goto noconfig; } if (strlen(conf) && stat(conf, &sb) != -1) if (S_ISREG(sb.st_mode)) { cfile = conf; break; } } noconfig: /* load conf (if any) */ if (cfile) conf_load(cfile, SWM_CONF_DEFAULT); validate_spawns(); setup_ewmh(); /* set some values to work around bad programs */ workaround(); /* grab existing windows (before we build the bars) */ grab_windows(); if (getenv("SWM_STARTED") == NULL) setenv("SWM_STARTED", "YES", 1); /* setup all bars */ num_screens = xcb_setup_roots_length(xcb_get_setup(conn)); for (i = 0; i < num_screens; i++) TAILQ_FOREACH(r, &screens[i].rl, entry) bar_setup(r); grabkeys(); stack(); bar_draw(); xcb_ungrab_server(conn); xcb_flush(conn); rd_max = xfd > STDIN_FILENO ? xfd : STDIN_FILENO; while (running) { while ((evt = xcb_poll_for_event(conn))) { if (!running) goto done; event_handle(evt); free(evt); } /* If just (re)started, set default focus if needed. */ if (startup) { startup = 0; if (focus_mode != SWM_FOCUS_FOLLOW) { r = TAILQ_FIRST(&screens[0].rl); if (r) { focus_region(r); focus_flush(); } continue; } } FD_ZERO(&rd); if (bar_extra) FD_SET(STDIN_FILENO, &rd); FD_SET(xfd, &rd); tv.tv_sec = 1; tv.tv_usec = 0; num_readable = select(rd_max + 1, &rd, NULL, NULL, &tv); if (num_readable == -1 && errno != EINTR) { DNPRINTF(SWM_D_MISC, "select failed"); } else if (num_readable > 0 && FD_ISSET(STDIN_FILENO, &rd)) { stdin_ready = 1; } if (restart_wm) restart(NULL, NULL); if (search_resp) search_do_resp(); if (!running) goto done; if (stdin_ready) { stdin_ready = 0; bar_extra_update(); } bar_draw(); xcb_flush(conn); } done: shutdown_cleanup(); return (0); }