/**************************************************************************** * Copyright (c) 1998-2016,2017 Free Software Foundation, Inc. * * * * 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, distribute with modifications, 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 ABOVE 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. * * * * Except as contained in this notice, the name(s) of the above copyright * * holders shall not be used in advertising or otherwise to promote the * * sale, use or other dealings in this Software without prior written * * authorization. * ****************************************************************************/ /**************************************************************************** * Author: Zeyd M. Ben-Halim 1992,1995 * * and: Eric S. Raymond * * and: Thomas E. Dickey 1996-on * * and: Juergen Pfeifer 2008 * ****************************************************************************/ /* * This module is intended to encapsulate ncurses's interface to pointing * devices. * * The primary method used is xterm's internal mouse-tracking facility. * Additional methods depend on the platform: * Alessandro Rubini's GPM server (Linux) * sysmouse (FreeBSD) * special-purpose mouse interface for OS/2 EMX. * * Notes for implementors of new mouse-interface methods: * * The code is logically split into a lower level that accepts event reports * in a device-dependent format and an upper level that parses mouse gestures * and filters events. The mediating data structure is a circular queue of * MEVENT structures. * * Functionally, the lower level's job is to pick up primitive events and * put them on the circular queue. This can happen in one of two ways: * either (a) _nc_mouse_event() detects a series of incoming mouse reports * and queues them, or (b) code in lib_getch.c detects the kmous prefix in * the keyboard input stream and calls _nc_mouse_inline to queue up a series * of adjacent mouse reports. * * In either case, _nc_mouse_parse() should be called after the series is * accepted to parse the digested mouse reports (low-level MEVENTs) into * a gesture (a high-level or composite MEVENT). * * Don't be too shy about adding new event types or modifiers, if you can find * room for them in the 32-bit mask. The API is written so that users get * feedback on which theoretical event types they won't see when they call * mousemask. There's one bit per button (the RESERVED_EVENT bit) not being * used yet, and a couple of bits open at the high end. */ #ifdef __EMX__ # include # define INCL_DOS # define INCL_VIO # define INCL_KBD # define INCL_MOU # define INCL_DOSPROCESS # include /* Need to include before the others */ #endif #include #ifndef CUR #define CUR SP_TERMTYPE #endif MODULE_ID("$Id: lib_mouse.c,v 1.175 2017/06/17 22:05:15 tom Exp $") #include #if USE_GPM_SUPPORT #include /* defines KG_* macros */ #ifdef HAVE_LIBDL /* use dynamic loader to avoid linkage dependency */ #include #ifdef RTLD_NOW #define my_RTLD RTLD_NOW #else #ifdef RTLD_LAZY #define my_RTLD RTLD_LAZY #else make an error #endif #endif /* RTLD_NOW */ #endif /* HAVE_LIBDL */ #endif /* USE_GPM_SUPPORT */ #if USE_SYSMOUSE #undef buttons /* symbol conflict in consio.h */ #undef mouse_info /* symbol conflict in consio.h */ #include #if defined(__DragonFly_version) || (defined(__FreeBSD__) && (__FreeBSD_version >= 400017)) #include #include #else #include #endif #endif /* use_SYSMOUSE */ #if USE_KLIBC_MOUSE #include #define pipe(handles) socketpair(AF_LOCAL, SOCK_STREAM, 0, handles) #define DosWrite(hfile, pbuffer, cbwrite, pcbactual) \ write(hfile, pbuffer, cbwrite) #define DosExit(action, result ) /* do nothing */ #define DosCreateThread(ptid, pfn, param, flag, cbStack) \ (*(ptid) = _beginthread(pfn, NULL, cbStack, \ (void *)param), (*(ptid) == -1)) #endif #define MY_TRACE TRACE_ICALLS|TRACE_IEVENT #define MASK_RELEASE(x) (mmask_t) NCURSES_MOUSE_MASK(x, 001) #define MASK_PRESS(x) (mmask_t) NCURSES_MOUSE_MASK(x, 002) #define MASK_CLICK(x) (mmask_t) NCURSES_MOUSE_MASK(x, 004) #define MASK_DOUBLE_CLICK(x) (mmask_t) NCURSES_MOUSE_MASK(x, 010) #define MASK_TRIPLE_CLICK(x) (mmask_t) NCURSES_MOUSE_MASK(x, 020) #define MASK_RESERVED_EVENT(x) (mmask_t) NCURSES_MOUSE_MASK(x, 040) #if NCURSES_MOUSE_VERSION == 1 #define BUTTON_CLICKED (BUTTON1_CLICKED | BUTTON2_CLICKED | BUTTON3_CLICKED | BUTTON4_CLICKED) #define BUTTON_PRESSED (BUTTON1_PRESSED | BUTTON2_PRESSED | BUTTON3_PRESSED | BUTTON4_PRESSED) #define BUTTON_RELEASED (BUTTON1_RELEASED | BUTTON2_RELEASED | BUTTON3_RELEASED | BUTTON4_RELEASED) #define BUTTON_DOUBLE_CLICKED (BUTTON1_DOUBLE_CLICKED | BUTTON2_DOUBLE_CLICKED | BUTTON3_DOUBLE_CLICKED | BUTTON4_DOUBLE_CLICKED) #define BUTTON_TRIPLE_CLICKED (BUTTON1_TRIPLE_CLICKED | BUTTON2_TRIPLE_CLICKED | BUTTON3_TRIPLE_CLICKED | BUTTON4_TRIPLE_CLICKED) #define MAX_BUTTONS 4 #else #define BUTTON_CLICKED (BUTTON1_CLICKED | BUTTON2_CLICKED | BUTTON3_CLICKED | BUTTON4_CLICKED | BUTTON5_CLICKED) #define BUTTON_PRESSED (BUTTON1_PRESSED | BUTTON2_PRESSED | BUTTON3_PRESSED | BUTTON4_PRESSED | BUTTON5_PRESSED) #define BUTTON_RELEASED (BUTTON1_RELEASED | BUTTON2_RELEASED | BUTTON3_RELEASED | BUTTON4_RELEASED | BUTTON5_RELEASED) #define BUTTON_DOUBLE_CLICKED (BUTTON1_DOUBLE_CLICKED | BUTTON2_DOUBLE_CLICKED | BUTTON3_DOUBLE_CLICKED | BUTTON4_DOUBLE_CLICKED | BUTTON5_DOUBLE_CLICKED) #define BUTTON_TRIPLE_CLICKED (BUTTON1_TRIPLE_CLICKED | BUTTON2_TRIPLE_CLICKED | BUTTON3_TRIPLE_CLICKED | BUTTON4_TRIPLE_CLICKED | BUTTON5_TRIPLE_CLICKED) #define MAX_BUTTONS 5 #endif #define INVALID_EVENT -1 #define NORMAL_EVENT 0 #define ValidEvent(ep) ((ep)->id != INVALID_EVENT) #define Invalidate(ep) (ep)->id = INVALID_EVENT #if USE_GPM_SUPPORT #ifndef LIBGPM_SONAME #define LIBGPM_SONAME "libgpm.so" #endif #define GET_DLSYM(name) (my_##name = (TYPE_##name) dlsym(sp->_dlopen_gpm, #name)) #endif /* USE_GPM_SUPPORT */ static bool _nc_mouse_parse(SCREEN *, int); static void _nc_mouse_resume(SCREEN *); static void _nc_mouse_wrap(SCREEN *); /* maintain a circular list of mouse events */ #define FirstEV(sp) ((sp)->_mouse_events) #define LastEV(sp) ((sp)->_mouse_events + EV_MAX - 1) #undef NEXT #define NEXT(ep) ((ep >= LastEV(SP_PARM)) \ ? FirstEV(SP_PARM) \ : ep + 1) #undef PREV #define PREV(ep) ((ep <= FirstEV(SP_PARM)) \ ? LastEV(SP_PARM) \ : ep - 1) #define IndexEV(sp, ep) (ep - FirstEV(sp)) #define RunParams(sp, eventp, runp) \ (long) IndexEV(sp, runp), \ (long) (IndexEV(sp, eventp) + (EV_MAX - 1)) % EV_MAX #ifdef TRACE static void _trace_slot(SCREEN *sp, const char *tag) { MEVENT *ep; _tracef("%s", tag); for (ep = FirstEV(sp); ep <= LastEV(sp); ep++) _tracef("mouse event queue slot %ld = %s", (long) IndexEV(sp, ep), _nc_tracemouse(sp, ep)); } #endif #if USE_EMX_MOUSE # define TOP_ROW 0 # define LEFT_COL 0 # define M_FD(sp) sp->_mouse_fd static void write_event(SCREEN *sp, int down, int button, int x, int y) { char buf[6]; unsigned long ignore; _nc_STRCPY(buf, "\033[M", sizeof(buf)); /* should be the same as key_mouse */ buf[3] = ' ' + (button - 1) + (down ? 0 : 0x40); buf[4] = ' ' + x - LEFT_COL + 1; buf[5] = ' ' + y - TOP_ROW + 1; DosWrite(sp->_emxmouse_wfd, buf, 6, &ignore); } static void #if USE_KLIBC_MOUSE mouse_server(void *param) #else mouse_server(unsigned long param) #endif { SCREEN *sp = (SCREEN *) param; unsigned short fWait = MOU_WAIT; /* NOPTRRECT mourt = { 0,0,24,79 }; */ MOUEVENTINFO mouev; HMOU hmou; unsigned short mask = MOUSE_BN1_DOWN | MOUSE_BN2_DOWN | MOUSE_BN3_DOWN; int nbuttons = 3; int oldstate = 0; char err[80]; unsigned long rc; /* open the handle for the mouse */ if (MouOpen(NULL, &hmou) == 0) { rc = MouSetEventMask(&mask, hmou); if (rc) { /* retry with 2 buttons */ mask = MOUSE_BN1_DOWN | MOUSE_BN2_DOWN; rc = MouSetEventMask(&mask, hmou); nbuttons = 2; } if (rc == 0 && MouDrawPtr(hmou) == 0) { for (;;) { /* sit and wait on the event queue */ rc = MouReadEventQue(&mouev, &fWait, hmou); if (rc) { _nc_SPRINTF(err, _nc_SLIMIT(sizeof(err)) "Error reading mouse queue, rc=%lu.\r\n", rc); break; } if (!sp->_emxmouse_activated) goto finish; /* * OS/2 numbers a 3-button mouse inconsistently from other * platforms: * 1 = left * 2 = right * 3 = middle. */ if ((mouev.fs ^ oldstate) & MOUSE_BN1_DOWN) write_event(sp, mouev.fs & MOUSE_BN1_DOWN, sp->_emxmouse_buttons[1], mouev.col, mouev.row); if ((mouev.fs ^ oldstate) & MOUSE_BN2_DOWN) write_event(sp, mouev.fs & MOUSE_BN2_DOWN, sp->_emxmouse_buttons[3], mouev.col, mouev.row); if ((mouev.fs ^ oldstate) & MOUSE_BN3_DOWN) write_event(sp, mouev.fs & MOUSE_BN3_DOWN, sp->_emxmouse_buttons[2], mouev.col, mouev.row); finish: oldstate = mouev.fs; } } else { _nc_SPRINTF(err, _nc_SLIMIT(sizeof(err)) "Error setting event mask, buttons=%d, rc=%lu.\r\n", nbuttons, rc); } DosWrite(2, err, strlen(err), &rc); MouClose(hmou); } DosExit(EXIT_THREAD, 0L); } #endif /* USE_EMX_MOUSE */ #if USE_SYSMOUSE static void sysmouse_server(SCREEN *sp) { struct mouse_info the_mouse; MEVENT *work; the_mouse.operation = MOUSE_GETINFO; if (sp != 0 && sp->_mouse_fd >= 0 && sp->_sysmouse_tail < FIFO_SIZE && ioctl(sp->_mouse_fd, CONS_MOUSECTL, &the_mouse) != -1) { if (sp->_sysmouse_head > sp->_sysmouse_tail) { sp->_sysmouse_tail = 0; sp->_sysmouse_head = 0; } work = &(sp->_sysmouse_fifo[sp->_sysmouse_tail]); memset(work, 0, sizeof(*work)); work->id = NORMAL_EVENT; /* there's only one mouse... */ sp->_sysmouse_old_buttons = sp->_sysmouse_new_buttons; sp->_sysmouse_new_buttons = the_mouse.u.data.buttons & 0x7; if (sp->_sysmouse_new_buttons) { if (sp->_sysmouse_new_buttons & 1) work->bstate |= BUTTON1_PRESSED; if (sp->_sysmouse_new_buttons & 2) work->bstate |= BUTTON2_PRESSED; if (sp->_sysmouse_new_buttons & 4) work->bstate |= BUTTON3_PRESSED; } else { if (sp->_sysmouse_old_buttons & 1) work->bstate |= BUTTON1_RELEASED; if (sp->_sysmouse_old_buttons & 2) work->bstate |= BUTTON2_RELEASED; if (sp->_sysmouse_old_buttons & 4) work->bstate |= BUTTON3_RELEASED; } /* for cosmetic bug in syscons.c on FreeBSD 3.[34] */ the_mouse.operation = MOUSE_HIDE; ioctl(sp->_mouse_fd, CONS_MOUSECTL, &the_mouse); the_mouse.operation = MOUSE_SHOW; ioctl(sp->_mouse_fd, CONS_MOUSECTL, &the_mouse); /* * We're only interested if the button is pressed or released. * FIXME: implement continuous event-tracking. */ if (sp->_sysmouse_new_buttons != sp->_sysmouse_old_buttons) { sp->_sysmouse_tail += 1; } work->x = the_mouse.u.data.x / sp->_sysmouse_char_width; work->y = the_mouse.u.data.y / sp->_sysmouse_char_height; } } static void handle_sysmouse(int sig GCC_UNUSED) { sysmouse_server(CURRENT_SCREEN); } #endif /* USE_SYSMOUSE */ #ifndef USE_TERM_DRIVER #define xterm_kmous "\033[M" static void init_xterm_mouse(SCREEN *sp) { sp->_mouse_type = M_XTERM; sp->_mouse_format = MF_X10; sp->_mouse_xtermcap = tigetstr("XM"); if (VALID_STRING(sp->_mouse_xtermcap)) { char *code = strstr(sp->_mouse_xtermcap, "[?"); if (code != 0) { code += 2; while ((*code >= '0') && (*code <= '9')) { char *next = code; while ((*next >= '0') && (*next <= '9')) { ++next; } if (!strncmp(code, "1006", (size_t) (next - code))) { sp->_mouse_format = MF_SGR1006; } #ifdef EXP_XTERM_1005 if (!strncmp(code, "1005", (size_t) (next - code))) { sp->_mouse_format = MF_XTERM_1005; } #endif if (*next == ';') { while (*next == ';') { ++next; } code = next; } else { break; } } } } else { int code = tigetnum("XM"); switch (code) { case 1006: break; default: code = 1000; break; } sp->_mouse_xtermcap = "\033[?1000%?%p1%{1}%=%th%el%;"; } } #endif static void enable_xterm_mouse(SCREEN *sp, int enable) { #if USE_EMX_MOUSE sp->_emxmouse_activated = enable; #else NCURSES_PUTP2("xterm-mouse", TPARM_1(sp->_mouse_xtermcap, enable)); #endif sp->_mouse_active = enable; } #if USE_GPM_SUPPORT static bool allow_gpm_mouse(SCREEN *sp GCC_UNUSED) { bool result = FALSE; #if USE_WEAK_SYMBOLS /* Danger Robinson: do not use dlopen for libgpm if already loaded */ if ((Gpm_Wgetch)) { if (!sp->_mouse_gpm_loaded) { T(("GPM library was already dlopen'd, not by us")); } } else #endif /* GPM does printf's without checking if stdout is a terminal */ if (NC_ISATTY(fileno(stdout))) { const char *list = getenv("NCURSES_GPM_TERMS"); const char *env = getenv("TERM"); if (list != 0) { if (env != 0) { result = _nc_name_match(list, env, "|:"); } } else { /* GPM checks the beginning of the $TERM variable to decide if it * should pass xterm events through. There is no real advantage in * allowing GPM to do this. Recent versions relax that check, and * pretend that GPM can work with any terminal having the kmous * capability. Perhaps that works for someone. If so, they can * set the environment variable (above). */ if (env != 0 && strstr(env, "linux") != 0) { result = TRUE; } } } return result; } #ifdef HAVE_LIBDL static void unload_gpm_library(SCREEN *sp) { if (sp->_dlopen_gpm != 0) { T(("unload GPM library")); sp->_mouse_gpm_loaded = FALSE; sp->_mouse_fd = -1; dlclose(sp->_dlopen_gpm); sp->_dlopen_gpm = 0; } } static void load_gpm_library(SCREEN *sp) { sp->_mouse_gpm_found = FALSE; if ((sp->_dlopen_gpm = dlopen(LIBGPM_SONAME, my_RTLD)) != 0) { #pragma GCC diagnostic push #if (defined(__GNUC__) && (__GNUC__ >= 5)) || defined(__clang__) #pragma GCC diagnostic ignored "-Wpedantic" #endif if (GET_DLSYM(gpm_fd) == 0 || GET_DLSYM(Gpm_Open) == 0 || GET_DLSYM(Gpm_Close) == 0 || GET_DLSYM(Gpm_GetEvent) == 0) { #pragma GCC diagnostic pop T(("GPM initialization failed: %s", dlerror())); unload_gpm_library(sp); } else { sp->_mouse_gpm_found = TRUE; sp->_mouse_gpm_loaded = TRUE; } } } #endif static bool enable_gpm_mouse(SCREEN *sp, bool enable) { bool result; T((T_CALLED("enable_gpm_mouse(%d)"), enable)); if (enable && !sp->_mouse_active) { #ifdef HAVE_LIBDL if (sp->_mouse_gpm_found && !sp->_mouse_gpm_loaded) { load_gpm_library(sp); } #endif if (sp->_mouse_gpm_loaded) { int code; /* GPM: initialize connection to gpm server */ sp->_mouse_gpm_connect.eventMask = GPM_DOWN | GPM_UP; sp->_mouse_gpm_connect.defaultMask = (unsigned short) (~(sp->_mouse_gpm_connect.eventMask | GPM_HARD)); sp->_mouse_gpm_connect.minMod = 0; sp->_mouse_gpm_connect.maxMod = (unsigned short) (~((1 << KG_SHIFT) | (1 << KG_SHIFTL) | (1 << KG_SHIFTR))); /* * Note: GPM hardcodes \E[?1001s and \E[?1000h during its open. * The former is recognized by wscons (SunOS), and the latter by * xterm. Those will not show up in ncurses' traces. */ code = my_Gpm_Open(&sp->_mouse_gpm_connect, 0); result = (code >= 0); /* * GPM can return a -2 if it is trying to do something with xterm. * Ignore that, since it conflicts with our use of stdin. */ if (code == -2) { my_Gpm_Close(); } } else { result = FALSE; } sp->_mouse_active = result; T(("GPM open %s", result ? "succeeded" : "failed")); } else { if (!enable && sp->_mouse_active) { /* GPM: close connection to gpm server */ my_Gpm_Close(); sp->_mouse_active = FALSE; T(("GPM closed")); } result = enable; } #ifdef HAVE_LIBDL if (!result) { unload_gpm_library(sp); } #endif returnBool(result); } #endif /* USE_GPM_SUPPORT */ static void initialize_mousetype(SCREEN *sp) { T((T_CALLED("initialize_mousetype()"))); /* Try gpm first, because gpm may be configured to run in xterm */ #if USE_GPM_SUPPORT if (allow_gpm_mouse(sp)) { if (!sp->_mouse_gpm_loaded) { #ifdef HAVE_LIBDL load_gpm_library(sp); #else /* !HAVE_LIBDL */ sp->_mouse_gpm_found = TRUE; sp->_mouse_gpm_loaded = TRUE; #endif } /* * The gpm_fd file-descriptor may be negative (xterm). So we have to * maintain our notion of whether the mouse connection is active * without testing the file-descriptor. */ if (sp->_mouse_gpm_found && enable_gpm_mouse(sp, TRUE)) { sp->_mouse_type = M_GPM; sp->_mouse_fd = *(my_gpm_fd); T(("GPM mouse_fd %d", sp->_mouse_fd)); returnVoid; } } #endif /* USE_GPM_SUPPORT */ /* OS/2 VIO */ #if USE_EMX_MOUSE if (!sp->_emxmouse_thread && strstr(SP_TERMTYPE term_names, "xterm") == 0 && key_mouse) { int handles[2]; if (pipe(handles) < 0) { perror("mouse pipe error"); returnVoid; } else { int rc; if (!sp->_emxmouse_buttons[0]) { const char *s = getenv("MOUSE_BUTTONS_123"); sp->_emxmouse_buttons[0] = 1; if (s && strlen(s) >= 3) { sp->_emxmouse_buttons[1] = s[0] - '0'; sp->_emxmouse_buttons[2] = s[1] - '0'; sp->_emxmouse_buttons[3] = s[2] - '0'; } else { sp->_emxmouse_buttons[1] = 1; sp->_emxmouse_buttons[2] = 3; sp->_emxmouse_buttons[3] = 2; } } sp->_emxmouse_wfd = handles[1]; M_FD(sp) = handles[0]; /* Needed? */ setmode(handles[0], O_BINARY); setmode(handles[1], O_BINARY); /* Do not use CRT functions, we may single-threaded. */ rc = DosCreateThread((unsigned long *) &sp->_emxmouse_thread, mouse_server, (long) sp, 0, 8192); if (rc) { printf("mouse thread error %d=%#x", rc, rc); } else { sp->_mouse_type = M_XTERM; } returnVoid; } } #endif /* USE_EMX_MOUSE */ #if USE_SYSMOUSE { static char dev_tty[] = "/dev/tty"; struct mouse_info the_mouse; char *the_device = 0; if (NC_ISATTY(sp->_ifd)) the_device = ttyname(sp->_ifd); if (the_device == 0) the_device = dev_tty; sp->_mouse_fd = open(the_device, O_RDWR); if (sp->_mouse_fd >= 0) { /* * sysmouse does not have a usable user interface for obtaining * mouse events. The logical way to proceed (reading data on a * stream) only works if one opens the device as root. Even in * that mode, careful examination shows we lose events * occasionally. The interface provided for user programs is to * establish a signal handler. really. * * Take over SIGUSR2 for this purpose since SIGUSR1 is more * likely to be used by an application. getch() will have to * handle the misleading EINTR's. */ signal(SIGUSR2, SIG_IGN); the_mouse.operation = MOUSE_MODE; the_mouse.u.mode.mode = 0; the_mouse.u.mode.signal = SIGUSR2; if (ioctl(sp->_mouse_fd, CONS_MOUSECTL, &the_mouse) != -1) { signal(SIGUSR2, handle_sysmouse); the_mouse.operation = MOUSE_SHOW; ioctl(sp->_mouse_fd, CONS_MOUSECTL, &the_mouse); #if defined(FBIO_MODEINFO) || defined(CONS_MODEINFO) /* FreeBSD > 2.x */ { #ifndef FBIO_GETMODE /* FreeBSD 3.x */ #define FBIO_GETMODE CONS_GET #define FBIO_MODEINFO CONS_MODEINFO #endif /* FBIO_GETMODE */ video_info_t the_video; if (ioctl(sp->_mouse_fd, FBIO_GETMODE, &the_video.vi_mode) != -1 && ioctl(sp->_mouse_fd, FBIO_MODEINFO, &the_video) != -1) { sp->_sysmouse_char_width = the_video.vi_cwidth; sp->_sysmouse_char_height = the_video.vi_cheight; } } #endif /* defined(FBIO_MODEINFO) || defined(CONS_MODEINFO) */ if (sp->_sysmouse_char_width <= 0) sp->_sysmouse_char_width = 8; if (sp->_sysmouse_char_height <= 0) sp->_sysmouse_char_height = 16; sp->_mouse_type = M_SYSMOUSE; returnVoid; } } } #endif /* USE_SYSMOUSE */ #ifdef USE_TERM_DRIVER CallDriver(sp, td_initmouse); #else /* we know how to recognize mouse events under "xterm" */ if (key_mouse != 0) { if (!strcmp(key_mouse, xterm_kmous) || strstr(SP_TERMTYPE term_names, "xterm") != 0) { init_xterm_mouse(sp); } } else if (strstr(SP_TERMTYPE term_names, "xterm") != 0) { if (_nc_add_to_try(&(sp->_keytry), xterm_kmous, KEY_MOUSE) == OK) init_xterm_mouse(sp); } #endif returnVoid; } static bool _nc_mouse_init(SCREEN *sp) /* initialize the mouse */ { bool result = FALSE; if (sp != 0) { if (!sp->_mouse_initialized) { int i; sp->_mouse_initialized = TRUE; TR(MY_TRACE, ("_nc_mouse_init() called")); sp->_mouse_eventp = FirstEV(sp); for (i = 0; i < EV_MAX; i++) Invalidate(sp->_mouse_events + i); initialize_mousetype(sp); T(("_nc_mouse_init() set mousetype to %d", sp->_mouse_type)); } result = sp->_mouse_initialized; } return result; } /* * Query to see if there is a pending mouse event. This is called from * fifo_push() in lib_getch.c */ static bool _nc_mouse_event(SCREEN *sp) { MEVENT *eventp = sp->_mouse_eventp; bool result = FALSE; (void) eventp; switch (sp->_mouse_type) { case M_XTERM: /* xterm: never have to query, mouse events are in the keyboard stream */ #if USE_EMX_MOUSE { char kbuf[3]; int i, res = read(M_FD(sp), &kbuf, 3); /* Eat the prefix */ if (res != 3) printf("Got %d chars instead of 3 for prefix.\n", res); for (i = 0; i < res; i++) { if (kbuf[i] != key_mouse[i]) printf("Got char %d instead of %d for prefix.\n", (int) kbuf[i], (int) key_mouse[i]); } result = TRUE; } #endif /* USE_EMX_MOUSE */ break; #if USE_GPM_SUPPORT case M_GPM: if (sp->_mouse_fd >= 0) { /* query server for event, return TRUE if we find one */ Gpm_Event ev; switch (my_Gpm_GetEvent(&ev)) { case 0: /* Connection closed, drop the mouse. */ sp->_mouse_fd = -1; break; case 1: /* there's only one mouse... */ eventp->id = NORMAL_EVENT; eventp->bstate = 0; switch (ev.type & 0x0f) { case (GPM_DOWN): if (ev.buttons & GPM_B_LEFT) eventp->bstate |= BUTTON1_PRESSED; if (ev.buttons & GPM_B_MIDDLE) eventp->bstate |= BUTTON2_PRESSED; if (ev.buttons & GPM_B_RIGHT) eventp->bstate |= BUTTON3_PRESSED; break; case (GPM_UP): if (ev.buttons & GPM_B_LEFT) eventp->bstate |= BUTTON1_RELEASED; if (ev.buttons & GPM_B_MIDDLE) eventp->bstate |= BUTTON2_RELEASED; if (ev.buttons & GPM_B_RIGHT) eventp->bstate |= BUTTON3_RELEASED; break; default: eventp->bstate |= REPORT_MOUSE_POSITION; break; } eventp->x = ev.x - 1; eventp->y = ev.y - 1; eventp->z = 0; /* bump the next-free pointer into the circular list */ sp->_mouse_eventp = NEXT(eventp); result = TRUE; break; } } break; #endif #if USE_SYSMOUSE case M_SYSMOUSE: if (sp->_sysmouse_head < sp->_sysmouse_tail) { *eventp = sp->_sysmouse_fifo[sp->_sysmouse_head]; /* * Point the fifo-head to the next possible location. If there * are none, reset the indices. This may be interrupted by the * signal handler, doing essentially the same reset. */ sp->_sysmouse_head += 1; if (sp->_sysmouse_head == sp->_sysmouse_tail) { sp->_sysmouse_tail = 0; sp->_sysmouse_head = 0; } /* bump the next-free pointer into the circular list */ sp->_mouse_eventp = eventp = NEXT(eventp); result = TRUE; } break; #endif /* USE_SYSMOUSE */ #ifdef USE_TERM_DRIVER case M_TERM_DRIVER: while (sp->_drv_mouse_head < sp->_drv_mouse_tail) { *eventp = sp->_drv_mouse_fifo[sp->_drv_mouse_head]; /* * Point the fifo-head to the next possible location. If there * are none, reset the indices. */ sp->_drv_mouse_head += 1; if (sp->_drv_mouse_head == sp->_drv_mouse_tail) { sp->_drv_mouse_tail = 0; sp->_drv_mouse_head = 0; } /* bump the next-free pointer into the circular list */ sp->_mouse_eventp = eventp = NEXT(eventp); result = TRUE; } break; #endif case M_NONE: break; } return result; /* true if we found an event */ } #if USE_EMX_MOUSE #define PRESS_POSITION(n) \ do { \ eventp->bstate = MASK_PRESS(n); \ sp->_mouse_bstate |= MASK_PRESS(n); \ if (button & 0x40) { \ eventp->bstate = MASK_RELEASE(n); \ sp->_mouse_bstate &= ~MASK_PRESS(n); \ } \ } while (0) #else #define PRESS_POSITION(n) \ do { \ eventp->bstate = (mmask_t) ((sp->_mouse_bstate & MASK_PRESS(n)) \ ? REPORT_MOUSE_POSITION \ : MASK_PRESS(n)); \ sp->_mouse_bstate |= MASK_PRESS(n); \ } while (0) #endif static bool handle_wheel(SCREEN *sp, MEVENT * eventp, int button, int wheel) { bool result = TRUE; switch (button & 3) { case 0: if (wheel) { eventp->bstate = MASK_PRESS(4); /* Do not record in sp->_mouse_bstate; there will be no * corresponding release event. */ } else { PRESS_POSITION(1); } break; case 1: if (wheel) { #if NCURSES_MOUSE_VERSION == 2 eventp->bstate = MASK_PRESS(5); /* See comment above for button 4 */ #else /* Ignore this event as it is not a true press of the button */ eventp->bstate = REPORT_MOUSE_POSITION; #endif } else { PRESS_POSITION(2); } break; case 2: PRESS_POSITION(3); break; default: result = FALSE; break; } return result; } static bool decode_X10_bstate(SCREEN *sp, MEVENT * eventp, unsigned intro) { bool result; eventp->bstate = 0; if (!handle_wheel(sp, eventp, (int) intro, (intro & 96) == 96)) { /* * Release events aren't reported for individual buttons, just for * the button set as a whole. However, because there are normally * no mouse events under xterm that intervene between press and * release, we can infer the button actually released by looking at * the previous event. */ if (sp->_mouse_bstate & BUTTON_PRESSED) { int b; eventp->bstate = BUTTON_RELEASED; for (b = 1; b <= MAX_BUTTONS; ++b) { if (!(sp->_mouse_bstate & MASK_PRESS(b))) eventp->bstate &= ~MASK_RELEASE(b); } sp->_mouse_bstate = 0; } else { /* * xterm will return a stream of release-events to let the * application know where the mouse is going, if private mode * 1002 or 1003 is enabled. */ eventp->bstate = REPORT_MOUSE_POSITION; } } if (intro & 4) { eventp->bstate |= BUTTON_SHIFT; } if (intro & 8) { eventp->bstate |= BUTTON_ALT; } if (intro & 16) { eventp->bstate |= BUTTON_CTRL; } result = (eventp->bstate & REPORT_MOUSE_POSITION) ? TRUE : FALSE; return result; } /* This code requires that your xterm entry contain the kmous capability and * that it be set to the \E[M documented in the Xterm Control Sequences * reference. This is how we arrange for mouse events to be reported via a * KEY_MOUSE return value from wgetch(). After this value is received, * _nc_mouse_inline() gets called and is immediately responsible for parsing * the mouse status information following the prefix. * * The following quotes from the ctlseqs.ms document in the XTerm distribution, * describing the mouse tracking feature: * * Parameters for all mouse tracking escape sequences generated by xterm encode * numeric parameters in a single character as value+040. For example, ! is * 1. * * On button press or release, xterm sends ESC [ M CbCxCy. The low two bits of * Cb encode button information: 0=MB1 pressed, 1=MB2 pressed, 2=MB3 pressed, * 3=release. The upper bits encode what modifiers were down when the button * was pressed and are added together. 4=Shift, 8=Meta, 16=Control. Cx and Cy * are the x and y coordinates of the mouse event. The upper left corner is * (1,1). * * (End quote) By the time we get here, we've eaten the key prefix. FYI, the * loop below is necessary because mouse click info isn't guaranteed to present * as a single clist item. * * Wheel mice may return buttons 4 and 5 when the wheel is turned. We encode * those as button presses. */ static bool decode_xterm_X10(SCREEN *sp, MEVENT * eventp) { #define MAX_KBUF 3 unsigned char kbuf[MAX_KBUF + 1]; size_t grabbed; int res; bool result; # if USE_PTHREADS_EINTR # if USE_WEAK_SYMBOLS if ((pthread_self) && (pthread_kill) && (pthread_equal)) # endif _nc_globals.read_thread = pthread_self(); # endif for (grabbed = 0; grabbed < MAX_KBUF; grabbed += (size_t) res) { /* For VIO mouse we add extra bit 64 to disambiguate button-up. */ res = (int) read( #if USE_EMX_MOUSE (M_FD(sp) >= 0) ? M_FD(sp) : sp->_ifd, #else sp->_ifd, #endif kbuf + grabbed, (size_t) (MAX_KBUF - (int) grabbed)); if (res == -1) break; } #if USE_PTHREADS_EINTR _nc_globals.read_thread = 0; #endif kbuf[MAX_KBUF] = '\0'; TR(TRACE_IEVENT, ("_nc_mouse_inline sees the following xterm data: '%s'", kbuf)); /* there's only one mouse... */ eventp->id = NORMAL_EVENT; result = decode_X10_bstate(sp, eventp, kbuf[0]); eventp->x = (kbuf[1] - ' ') - 1; eventp->y = (kbuf[2] - ' ') - 1; return result; } #ifdef EXP_XTERM_1005 /* * This is identical to X10/X11 responses except that there are two UTF-8 * characters storing the ordinates instead of two bytes. */ static bool decode_xterm_1005(SCREEN *sp, MEVENT * eventp) { char kbuf[80]; size_t grabbed; size_t limit = (sizeof(kbuf) - 1); unsigned coords[2]; bool result; coords[0] = 0; coords[1] = 0; # if USE_PTHREADS_EINTR # if USE_WEAK_SYMBOLS if ((pthread_self) && (pthread_kill) && (pthread_equal)) # endif _nc_globals.read_thread = pthread_self(); # endif for (grabbed = 0; grabbed < limit;) { int res; res = (int) read( #if USE_EMX_MOUSE (M_FD(sp) >= 0) ? M_FD(sp) : sp->_ifd, #else sp->_ifd, #endif kbuf + grabbed, 1); if (res == -1) break; grabbed += (size_t) res; if (grabbed > 1) { size_t check = 1; int n; for (n = 0; n < 2; ++n) { int rc; if (check >= grabbed) break; rc = _nc_conv_to_utf32(&coords[n], kbuf + check, (unsigned) (grabbed - check)); if (!rc) break; check += (size_t) rc; } if (n >= 2) break; } } #if USE_PTHREADS_EINTR _nc_globals.read_thread = 0; #endif TR(TRACE_IEVENT, ("_nc_mouse_inline sees the following xterm data: %s", _nc_visbufn(kbuf, (int) grabbed))); /* there's only one mouse... */ eventp->id = NORMAL_EVENT; result = decode_X10_bstate(sp, eventp, UChar(kbuf[0])); eventp->x = (int) (coords[0] - ' ') - 1; eventp->y = (int) (coords[1] - ' ') - 1; return result; } #endif /* EXP_XTERM_1005 */ /* * ECMA-48 section 5.4 */ #define isInter(c) ((c) >= 0x20 && (c) <= 0x2f) #define isParam(c) ((c) >= 0x30 && (c) <= 0x3f) #define isFinal(c) ((c) >= 0x40 && (c) <= 0x7e) #define MAX_PARAMS 9 typedef struct { int nerror; /* nonzero if there are unexpected chars */ int nparam; /* number of numeric parameters */ int params[MAX_PARAMS]; int final; /* the final-character */ } SGR_DATA; static bool read_SGR(SCREEN *sp, SGR_DATA * result) { char kbuf[80]; /* bigger than any possible mouse response */ int grabbed = 0; int ch = 0; int now = -1; int marker = 1; memset(result, 0, sizeof(*result)); # if USE_PTHREADS_EINTR # if USE_WEAK_SYMBOLS if ((pthread_self) && (pthread_kill) && (pthread_equal)) # endif _nc_globals.read_thread = pthread_self(); # endif do { int res; res = (int) read( #if USE_EMX_MOUSE (M_FD(sp) >= 0) ? M_FD(sp) : sp->_ifd, #else sp->_ifd, #endif kbuf + grabbed, 1); if (res == -1) break; if ((grabbed + MAX_KBUF) >= (int) sizeof(kbuf)) { result->nerror++; break; } ch = UChar(kbuf[grabbed]); kbuf[grabbed + 1] = 0; switch (ch) { case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': if (marker) { ++now; result->nparam = (now + 1); } marker = 0; result->params[now] = (result->params[now] * 10) + (ch - '0'); break; case ';': if (marker) { ++now; result->nparam = (now + 1); } marker = 1; break; default: if (ch < 32 || ch > 126) { /* * Technically other characters could be interspersed in the * response. Ignore those for now. */ result->nerror++; continue; } else if (isFinal(ch)) { if (marker) { result->nparam++; } result->final = ch; } else { result->nerror++; } break; } ++grabbed; } while (!isFinal(ch)); #if USE_PTHREADS_EINTR _nc_globals.read_thread = 0; #endif kbuf[++grabbed] = 0; TR(TRACE_IEVENT, ("_nc_mouse_inline sees the following xterm data: '%s'", kbuf)); return (grabbed > 0) && (result->nerror == 0); } static bool decode_xterm_SGR1006(SCREEN *sp, MEVENT * eventp) { SGR_DATA data; bool result = FALSE; if (read_SGR(sp, &data)) { int b = data.params[0]; int b3 = 1 + (b & 3); eventp->id = NORMAL_EVENT; if (data.final == 'M') { (void) handle_wheel(sp, eventp, b, (b & 64) == 64); } else { mmask_t pressed = (mmask_t) NCURSES_MOUSE_MASK(b3, NCURSES_BUTTON_PRESSED); mmask_t release = (mmask_t) NCURSES_MOUSE_MASK(b3, NCURSES_BUTTON_RELEASED); if (sp->_mouse_bstate & pressed) { eventp->bstate = release; sp->_mouse_bstate &= ~pressed; } else { eventp->bstate = REPORT_MOUSE_POSITION; } } result = (eventp->bstate & REPORT_MOUSE_POSITION) ? TRUE : FALSE; eventp->x = (data.params[1] ? (data.params[1] - 1) : 0); eventp->y = (data.params[2] ? (data.params[2] - 1) : 0); } return result; } static bool _nc_mouse_inline(SCREEN *sp) /* mouse report received in the keyboard stream -- parse its info */ { bool result = FALSE; MEVENT *eventp = sp->_mouse_eventp; TR(MY_TRACE, ("_nc_mouse_inline() called")); if (sp->_mouse_type == M_XTERM) { switch (sp->_mouse_format) { case MF_X10: result = decode_xterm_X10(sp, eventp); break; case MF_SGR1006: result = decode_xterm_SGR1006(sp, eventp); break; #ifdef EXP_XTERM_1005 case MF_XTERM_1005: result = decode_xterm_1005(sp, eventp); break; #endif } TR(MY_TRACE, ("_nc_mouse_inline: primitive mouse-event %s has slot %ld", _nc_tracemouse(sp, eventp), (long) IndexEV(sp, eventp))); /* bump the next-free pointer into the circular list */ sp->_mouse_eventp = NEXT(eventp); if (!result) { /* If this event is from a wheel-mouse, treat it like position * reports and avoid waiting for the release-events which will * never come. */ if (eventp->bstate & BUTTON_PRESSED) { int b; for (b = 4; b <= MAX_BUTTONS; ++b) { if ((eventp->bstate & MASK_PRESS(b))) { result = TRUE; break; } } } } } return (result); } static void mouse_activate(SCREEN *sp, int on) { if (!on && !sp->_mouse_initialized) return; if (!_nc_mouse_init(sp)) return; if (on) { sp->_mouse_bstate = 0; switch (sp->_mouse_type) { case M_XTERM: #if NCURSES_EXT_FUNCS NCURSES_SP_NAME(keyok) (NCURSES_SP_ARGx KEY_MOUSE, on); #endif TPUTS_TRACE("xterm mouse initialization"); enable_xterm_mouse(sp, 1); break; #if USE_GPM_SUPPORT case M_GPM: if (enable_gpm_mouse(sp, TRUE)) { sp->_mouse_fd = *(my_gpm_fd); T(("GPM mouse_fd %d", sp->_mouse_fd)); } break; #endif #if USE_SYSMOUSE case M_SYSMOUSE: signal(SIGUSR2, handle_sysmouse); sp->_mouse_active = TRUE; break; #endif #ifdef USE_TERM_DRIVER case M_TERM_DRIVER: sp->_mouse_active = TRUE; break; #endif case M_NONE: return; } /* Make runtime binding to cut down on object size of applications that * do not use the mouse (e.g., 'clear'). */ sp->_mouse_event = _nc_mouse_event; sp->_mouse_inline = _nc_mouse_inline; sp->_mouse_parse = _nc_mouse_parse; sp->_mouse_resume = _nc_mouse_resume; sp->_mouse_wrap = _nc_mouse_wrap; } else { switch (sp->_mouse_type) { case M_XTERM: TPUTS_TRACE("xterm mouse deinitialization"); enable_xterm_mouse(sp, 0); break; #if USE_GPM_SUPPORT case M_GPM: enable_gpm_mouse(sp, FALSE); break; #endif #if USE_SYSMOUSE case M_SYSMOUSE: signal(SIGUSR2, SIG_IGN); sp->_mouse_active = FALSE; break; #endif #ifdef USE_TERM_DRIVER case M_TERM_DRIVER: sp->_mouse_active = FALSE; break; #endif case M_NONE: return; } } NCURSES_SP_NAME(_nc_flush) (NCURSES_SP_ARG); } /************************************************************************** * * Device-independent code * **************************************************************************/ static bool _nc_mouse_parse(SCREEN *sp, int runcount) /* parse a run of atomic mouse events into a gesture */ { MEVENT *eventp = sp->_mouse_eventp; MEVENT *next, *ep; MEVENT *first_valid = NULL; MEVENT *first_invalid = NULL; int n; int b; bool merge; bool endLoop; TR(MY_TRACE, ("_nc_mouse_parse(%d) called", runcount)); /* * When we enter this routine, the event list next-free pointer * points just past a run of mouse events that we know were separated * in time by less than the critical click interval. The job of this * routine is to collapse this run into a single higher-level event * or gesture. * * We accomplish this in two passes. The first pass merges press/release * pairs into click events. The second merges runs of click events into * double or triple-click events. * * It's possible that the run may not resolve to a single event (for * example, if the user quadruple-clicks). If so, leading events * in the run are ignored if user does not call getmouse in a loop (getting * them from newest to older). * * Note that this routine is independent of the format of the specific * format of the pointing-device's reports. We can use it to parse * gestures on anything that reports press/release events on a per- * button basis, as long as the device-dependent mouse code puts stuff * on the queue in MEVENT format. */ /* * Reset all events that were not set, in case the user sometimes calls * getmouse only once and other times until there are no more events in * queue. * * This also allows reaching the beginning of the run. */ ep = eventp; for (n = runcount; n < EV_MAX; n++) { Invalidate(ep); ep = NEXT(ep); } #ifdef TRACE if (USE_TRACEF(TRACE_IEVENT)) { _trace_slot(sp, "before mouse press/release merge:"); _tracef("_nc_mouse_parse: run starts at %ld, ends at %ld, count %d", RunParams(sp, eventp, ep), runcount); _nc_unlock_global(tracef); } #endif /* TRACE */ /* first pass; merge press/release pairs */ endLoop = FALSE; while (!endLoop) { next = NEXT(ep); if (next == eventp) { /* Will end the loop, but compact before */ endLoop = TRUE; } else { #define MASK_CHANGED(x) (!(ep->bstate & MASK_PRESS(x)) \ == !(next->bstate & MASK_RELEASE(x))) if (ValidEvent(ep) && ValidEvent(next) && ep->x == next->x && ep->y == next->y && (ep->bstate & BUTTON_PRESSED) && (!(next->bstate & BUTTON_PRESSED))) { bool changed = TRUE; for (b = 1; b <= MAX_BUTTONS; ++b) { if (!MASK_CHANGED(b)) { changed = FALSE; break; } } if (changed) { merge = FALSE; for (b = 1; b <= MAX_BUTTONS; ++b) { if ((sp->_mouse_mask & MASK_CLICK(b)) && (ep->bstate & MASK_PRESS(b))) { next->bstate &= ~MASK_RELEASE(b); next->bstate |= MASK_CLICK(b); merge = TRUE; } } if (merge) { Invalidate(ep); } } } } /* Compact valid events */ if (!ValidEvent(ep)) { if ((first_valid != NULL) && (first_invalid == NULL)) { first_invalid = ep; } } else { if (first_valid == NULL) { first_valid = ep; } else if (first_invalid != NULL) { *first_invalid = *ep; Invalidate(ep); first_invalid = NEXT(first_invalid); } } ep = next; } if (first_invalid != NULL) { eventp = first_invalid; } #ifdef TRACE if (USE_TRACEF(TRACE_IEVENT)) { _trace_slot(sp, "before mouse click merge:"); if (first_valid == NULL) { _tracef("_nc_mouse_parse: no valid event"); } else { _tracef("_nc_mouse_parse: run starts at %ld, ends at %ld, count %d", RunParams(sp, eventp, first_valid), runcount); _nc_unlock_global(tracef); } } #endif /* TRACE */ /* * Second pass; merge click runs. We merge click events forward in the * queue. For example, double click can be changed to triple click. * * NOTE: There is a problem with this design! If the application * allows enough click events to pile up in the circular queue so * they wrap around, it will cheerfully merge the newest forward * into the oldest, creating a bogus doubleclick and confusing * the queue-traversal logic rather badly. Generally this won't * happen, because calling getmouse() marks old events invalid and * ineligible for merges. The true solution to this problem would * be to timestamp each MEVENT and perform the obvious sanity check, * but the timer element would have to have sub-second resolution, * which would get us into portability trouble. */ first_invalid = NULL; endLoop = (first_valid == NULL); ep = first_valid; while (!endLoop) { next = NEXT(ep); if (next == eventp) { /* Will end the loop, but check event type and compact before */ endLoop = TRUE; } else if (!ValidEvent(next)) { continue; } else { /* merge click events forward */ if ((ep->bstate & BUTTON_CLICKED) && (next->bstate & BUTTON_CLICKED)) { merge = FALSE; for (b = 1; b <= MAX_BUTTONS; ++b) { if ((sp->_mouse_mask & MASK_DOUBLE_CLICK(b)) && (ep->bstate & MASK_CLICK(b)) && (next->bstate & MASK_CLICK(b))) { next->bstate &= ~MASK_CLICK(b); next->bstate |= MASK_DOUBLE_CLICK(b); merge = TRUE; } } if (merge) { Invalidate(ep); } } /* merge double-click events forward */ if ((ep->bstate & BUTTON_DOUBLE_CLICKED) && (next->bstate & BUTTON_CLICKED)) { merge = FALSE; for (b = 1; b <= MAX_BUTTONS; ++b) { if ((sp->_mouse_mask & MASK_TRIPLE_CLICK(b)) && (ep->bstate & MASK_DOUBLE_CLICK(b)) && (next->bstate & MASK_CLICK(b))) { next->bstate &= ~MASK_CLICK(b); next->bstate |= MASK_TRIPLE_CLICK(b); merge = TRUE; } } if (merge) { Invalidate(ep); } } } /* Discard event if it does not match event mask */ if (!(ep->bstate & sp->_mouse_mask2)) { Invalidate(ep); } /* Compact valid events */ if (!ValidEvent(ep)) { if (ep == first_valid) { first_valid = next; } else if (first_invalid == NULL) { first_invalid = ep; } } else if (first_invalid != NULL) { *first_invalid = *ep; Invalidate(ep); first_invalid = NEXT(first_invalid); } ep = next; } if (first_invalid == NULL) { first_invalid = eventp; } sp->_mouse_eventp = first_invalid; #ifdef TRACE if (first_valid != NULL) { if (USE_TRACEF(TRACE_IEVENT)) { _trace_slot(sp, "after mouse event queue compaction:"); _tracef("_nc_mouse_parse: run starts at %ld, ends at %ld, count %d", RunParams(sp, first_invalid, first_valid), runcount); _nc_unlock_global(tracef); } for (ep = first_valid; ep != first_invalid; ep = NEXT(ep)) { if (ValidEvent(ep)) TR(MY_TRACE, ("_nc_mouse_parse: returning composite mouse event %s at slot %ld", _nc_tracemouse(sp, ep), (long) IndexEV(sp, ep))); } } #endif /* TRACE */ /* after all this, do we have a valid event? */ return ValidEvent(PREV(first_invalid)); } static void _nc_mouse_wrap(SCREEN *sp) /* release mouse -- called by endwin() before shellout/exit */ { TR(MY_TRACE, ("_nc_mouse_wrap() called")); switch (sp->_mouse_type) { case M_XTERM: if (sp->_mouse_mask) mouse_activate(sp, FALSE); break; #if USE_GPM_SUPPORT /* GPM: pass all mouse events to next client */ case M_GPM: if (sp->_mouse_mask) mouse_activate(sp, FALSE); break; #endif #if USE_SYSMOUSE case M_SYSMOUSE: mouse_activate(sp, FALSE); break; #endif #ifdef USE_TERM_DRIVER case M_TERM_DRIVER: mouse_activate(sp, FALSE); break; #endif case M_NONE: break; } } static void _nc_mouse_resume(SCREEN *sp) /* re-connect to mouse -- called by doupdate() after shellout */ { TR(MY_TRACE, ("_nc_mouse_resume() called")); switch (sp->_mouse_type) { case M_XTERM: /* xterm: re-enable reporting */ if (sp->_mouse_mask) mouse_activate(sp, TRUE); break; #if USE_GPM_SUPPORT case M_GPM: /* GPM: reclaim our event set */ if (sp->_mouse_mask) mouse_activate(sp, TRUE); break; #endif #if USE_SYSMOUSE case M_SYSMOUSE: mouse_activate(sp, TRUE); break; #endif #ifdef USE_TERM_DRIVER case M_TERM_DRIVER: mouse_activate(sp, TRUE); break; #endif case M_NONE: break; } } /************************************************************************** * * Mouse interface entry points for the API * **************************************************************************/ NCURSES_EXPORT(int) NCURSES_SP_NAME(getmouse) (NCURSES_SP_DCLx MEVENT * aevent) { int result = ERR; MEVENT *eventp; T((T_CALLED("getmouse(%p,%p)"), (void *) SP_PARM, (void *) aevent)); if ((aevent != 0) && (SP_PARM != 0) && (SP_PARM->_mouse_type != M_NONE) && (eventp = SP_PARM->_mouse_eventp) != 0) { /* compute the current-event pointer */ MEVENT *prev = PREV(eventp); /* * Discard events not matching mask (there could be still some if * _nc_mouse_parse was not called, e.g., when _nc_mouse_inline returns * false). */ while (ValidEvent(prev) && (!(prev->bstate & SP_PARM->_mouse_mask2))) { Invalidate(prev); prev = PREV(prev); } if (ValidEvent(prev)) { /* copy the event we find there */ *aevent = *prev; TR(TRACE_IEVENT, ("getmouse: returning event %s from slot %ld", _nc_tracemouse(SP_PARM, prev), (long) IndexEV(SP_PARM, prev))); Invalidate(prev); /* so the queue slot becomes free */ SP_PARM->_mouse_eventp = prev; result = OK; } else { /* Reset the provided event */ aevent->bstate = 0; Invalidate(aevent); aevent->x = 0; aevent->y = 0; aevent->z = 0; } } returnCode(result); } #if NCURSES_SP_FUNCS /* grab a copy of the current mouse event */ NCURSES_EXPORT(int) getmouse(MEVENT * aevent) { return NCURSES_SP_NAME(getmouse) (CURRENT_SCREEN, aevent); } #endif NCURSES_EXPORT(int) NCURSES_SP_NAME(ungetmouse) (NCURSES_SP_DCLx MEVENT * aevent) { int result = ERR; MEVENT *eventp; T((T_CALLED("ungetmouse(%p,%p)"), (void *) SP_PARM, (void *) aevent)); if (aevent != 0 && SP_PARM != 0 && (eventp = SP_PARM->_mouse_eventp) != 0) { /* stick the given event in the next-free slot */ *eventp = *aevent; /* bump the next-free pointer into the circular list */ SP_PARM->_mouse_eventp = NEXT(eventp); /* push back the notification event on the keyboard queue */ result = NCURSES_SP_NAME(ungetch) (NCURSES_SP_ARGx KEY_MOUSE); } returnCode(result); } #if NCURSES_SP_FUNCS /* enqueue a synthesized mouse event to be seen by the next wgetch() */ NCURSES_EXPORT(int) ungetmouse(MEVENT * aevent) { return NCURSES_SP_NAME(ungetmouse) (CURRENT_SCREEN, aevent); } #endif NCURSES_EXPORT(mmask_t) NCURSES_SP_NAME(mousemask) (NCURSES_SP_DCLx mmask_t newmask, mmask_t * oldmask) /* set the mouse event mask */ { mmask_t result = 0; T((T_CALLED("mousemask(%p,%#lx,%p)"), (void *) SP_PARM, (unsigned long) newmask, (void *) oldmask)); if (SP_PARM != 0) { if (oldmask) *oldmask = SP_PARM->_mouse_mask; if (newmask || SP_PARM->_mouse_initialized) { _nc_mouse_init(SP_PARM); if (SP_PARM->_mouse_type != M_NONE) { int b; result = newmask & (REPORT_MOUSE_POSITION | BUTTON_ALT | BUTTON_CTRL | BUTTON_SHIFT | BUTTON_PRESSED | BUTTON_RELEASED | BUTTON_CLICKED | BUTTON_DOUBLE_CLICKED | BUTTON_TRIPLE_CLICKED); mouse_activate(SP_PARM, (bool) (result != 0)); SP_PARM->_mouse_mask = result; SP_PARM->_mouse_mask2 = result; /* * Make a mask corresponding to the states we will need to * retain (temporarily) while building up the state that the * user asked for. */ for (b = 1; b <= MAX_BUTTONS; ++b) { if (SP_PARM->_mouse_mask2 & MASK_TRIPLE_CLICK(b)) SP_PARM->_mouse_mask2 |= MASK_DOUBLE_CLICK(b); if (SP_PARM->_mouse_mask2 & MASK_DOUBLE_CLICK(b)) SP_PARM->_mouse_mask2 |= MASK_CLICK(b); if (SP_PARM->_mouse_mask2 & MASK_CLICK(b)) SP_PARM->_mouse_mask2 |= (MASK_PRESS(b) | MASK_RELEASE(b)); } } } } returnMMask(result); } #if NCURSES_SP_FUNCS NCURSES_EXPORT(mmask_t) mousemask(mmask_t newmask, mmask_t * oldmask) { return NCURSES_SP_NAME(mousemask) (CURRENT_SCREEN, newmask, oldmask); } #endif NCURSES_EXPORT(bool) wenclose(const WINDOW *win, int y, int x) /* check to see if given window encloses given screen location */ { bool result = FALSE; T((T_CALLED("wenclose(%p,%d,%d)"), (const void *) win, y, x)); if (win != 0) { y -= win->_yoffset; result = ((win->_begy <= y && win->_begx <= x && (win->_begx + win->_maxx) >= x && (win->_begy + win->_maxy) >= y) ? TRUE : FALSE); } returnBool(result); } NCURSES_EXPORT(int) NCURSES_SP_NAME(mouseinterval) (NCURSES_SP_DCLx int maxclick) /* set the maximum mouse interval within which to recognize a click */ { int oldval; T((T_CALLED("mouseinterval(%p,%d)"), (void *) SP_PARM, maxclick)); if (SP_PARM != 0) { oldval = SP_PARM->_maxclick; if (maxclick >= 0) SP_PARM->_maxclick = maxclick; } else { oldval = DEFAULT_MAXCLICK; } returnCode(oldval); } #if NCURSES_SP_FUNCS NCURSES_EXPORT(int) mouseinterval(int maxclick) { return NCURSES_SP_NAME(mouseinterval) (CURRENT_SCREEN, maxclick); } #endif /* This may be used by other routines to ask for the existence of mouse support */ NCURSES_EXPORT(bool) _nc_has_mouse(SCREEN *sp) { return (((0 == sp) || (sp->_mouse_type == M_NONE)) ? FALSE : TRUE); } NCURSES_EXPORT(bool) NCURSES_SP_NAME(has_mouse) (NCURSES_SP_DCL0) { return _nc_has_mouse(SP_PARM); } #if NCURSES_SP_FUNCS NCURSES_EXPORT(bool) has_mouse(void) { return _nc_has_mouse(CURRENT_SCREEN); } #endif NCURSES_EXPORT(bool) wmouse_trafo(const WINDOW *win, int *pY, int *pX, bool to_screen) { bool result = FALSE; T((T_CALLED("wmouse_trafo(%p,%p,%p,%d)"), (const void *) win, (void *) pY, (void *) pX, to_screen)); if (win && pY && pX) { int y = *pY; int x = *pX; if (to_screen) { y += win->_begy + win->_yoffset; x += win->_begx; if (wenclose(win, y, x)) result = TRUE; } else { if (wenclose(win, y, x)) { y -= (win->_begy + win->_yoffset); x -= win->_begx; result = TRUE; } } if (result) { *pX = x; *pY = y; } } returnBool(result); }