// * this is for making emacs happy: -*-Mode: C++;-*- /* Copyright (C) 1989 Free Software Foundation written by Eric Newton (newton@rocky.oswego.edu) This file is part of the GNU C++ Library. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. modified by Ulrich Drepper (drepper@karlsruhe.gmd.de) and Anatoly Ivasyuk (anatoly@nick.csh.rit.edu) modified by Juergen Pfeifer (juergen.pfeifer@gmx.net) */ #include "cursesw.h" #include "internal.h" MODULE_ID("$From: cursesw.cc,v 1.18 2001/01/28 01:17:41 tom Exp $") #define COLORS_NEED_INITIALIZATION -1 #define COLORS_NOT_INITIALIZED 0 #define COLORS_MONOCHROME 1 #define COLORS_ARE_REALLY_THERE 2 // declare static variables for the class long NCursesWindow::count = 0L; bool NCursesWindow::b_initialized = FALSE; #if defined(__GNUG__) # ifndef _IO_va_list # define _IO_va_list char * # endif #endif int NCursesWindow::scanw(const char* fmt, ...) { #if defined(__GNUG__) va_list args; va_start(args, fmt); char buf[BUFSIZ]; int result = wgetstr(w, buf); if (result == OK) { strstreambuf ss(buf, sizeof(buf)); result = ss.vscan(fmt, (_IO_va_list)args); } va_end(args); return result; #else return ERR; #endif } int NCursesWindow::scanw(int y, int x, const char* fmt, ...) { #if defined(__GNUG__) va_list args; va_start(args, fmt); char buf[BUFSIZ]; int result = wmove(w, y, x); if (result == OK) { result = wgetstr(w, buf); if (result == OK) { strstreambuf ss(buf, sizeof(buf)); result = ss.vscan(fmt, (_IO_va_list)args); } } va_end(args); return result; #else return ERR; #endif } int NCursesWindow::printw(const char * fmt, ...) { va_list args; va_start(args, fmt); char buf[BUFSIZ]; vsnprintf(buf, sizeof(buf), fmt, args); va_end(args); return waddstr(w, buf); } int NCursesWindow::printw(int y, int x, const char * fmt, ...) { va_list args; va_start(args, fmt); int result = wmove(w, y, x); if (result == OK) { char buf[BUFSIZ]; vsnprintf(buf, sizeof(buf), fmt, args); result = waddstr(w, buf); } va_end(args); return result; } void NCursesWindow::init(void) { leaveok(0); keypad(1); meta(1); } void NCursesWindow::err_handler(const char *msg) const THROWS(NCursesException) { THROW(new NCursesException(msg)); } void NCursesWindow::initialize() { if (!b_initialized) { ::initscr(); b_initialized = TRUE; if (colorInitialized==COLORS_NEED_INITIALIZATION) { colorInitialized=COLORS_NOT_INITIALIZED; useColors(); } ::noecho(); ::cbreak(); } } NCursesWindow::NCursesWindow() { initialize(); w = (WINDOW *)0; init(); alloced = FALSE; subwins = par = sib = 0; count++; } NCursesWindow::NCursesWindow(int lines, int cols, int begin_y, int begin_x) { initialize(); w = ::newwin(lines, cols, begin_y, begin_x); if (w == 0) { err_handler("Cannot construct window"); } init(); alloced = TRUE; subwins = par = sib = 0; count++; } NCursesWindow::NCursesWindow(WINDOW* &window) { initialize(); w = window; init(); alloced = FALSE; subwins = par = sib = 0; count++; } NCursesWindow::NCursesWindow(NCursesWindow& win, int l, int c, int begin_y, int begin_x, char absrel) { initialize(); if (absrel == 'a') { // absolute origin begin_y -= win.begy(); begin_x -= win.begx(); } // Even though we treat subwindows as a tree, the standard curses // library needs the `subwin' call to link to the parent in // order to correctly perform refreshes, etc. // Friendly enough, this also works for pads. w = ::derwin(win.w, l, c, begin_y, begin_x); if (w == 0) { err_handler("Cannot construct subwindow"); } par = &win; sib = win.subwins; win.subwins = this; subwins = 0; alloced = TRUE; count++; } NCursesWindow::NCursesWindow(NCursesWindow& win, bool do_box NCURSES_PARAM_INIT(TRUE)) { initialize(); w = :: derwin(win.w,win.height()-2,win.width()-2,1,1); if (w == 0) { err_handler("Cannot construct subwindow"); } par = &win; sib = win.subwins; win.subwins = this; subwins = 0; alloced = TRUE; count++; if (do_box) { win.box(); win.touchwin(); } } NCursesWindow NCursesWindow::Clone() { WINDOW *d = ::dupwin(w); NCursesWindow W(d); W.subwins = subwins; W.sib = sib; W.par = par; W.alloced = alloced; return W; } typedef int (*RIPOFFINIT)(NCursesWindow&); static RIPOFFINIT R_INIT[5]; // There can't be more static int r_init_idx = 0; static RIPOFFINIT* prip = R_INIT; extern "C" int _nc_ripoffline(int,int (*init)(WINDOW*,int)); NCursesWindow::NCursesWindow(WINDOW *win, int cols) { initialize(); w = win; assert((w->_maxx+1)==cols); alloced = FALSE; subwins = par = sib = 0; } int NCursesWindow::ripoff_init(WINDOW *w, int cols) { int res = ERR; RIPOFFINIT init = *prip++; if (init) { NCursesWindow* W = new NCursesWindow(w,cols); res = init(*W); } return res; } int NCursesWindow::ripoffline(int ripoff_lines, int (*init)(NCursesWindow& win)) { int code = ::_nc_ripoffline(ripoff_lines,ripoff_init); if (code==OK && init && ripoff_lines) { R_INIT[r_init_idx++] = init; } return code; } bool NCursesWindow::isDescendant(NCursesWindow& win) { for (NCursesWindow* p = subwins; p != NULL; p = p->sib) { if (p==&win) return TRUE; else { if (p->isDescendant(win)) return TRUE; } } return FALSE; } void NCursesWindow::kill_subwindows() { for (NCursesWindow* p = subwins; p != 0; p = p->sib) { p->kill_subwindows(); if (p->alloced) { if (p->w != 0) ::delwin(p->w); p->alloced = FALSE; } p->w = 0; // cause a run-time error if anyone attempts to use... } } NCursesWindow::~NCursesWindow() { kill_subwindows(); if (par != 0) { // Snip us from the parent's list of subwindows. NCursesWindow * win = par->subwins; NCursesWindow * trail = 0; for (;;) { if (win == 0) break; else if (win == this) { if (trail != 0) trail->sib = win->sib; else par->subwins = win->sib; break; } else { trail = win; win = win->sib; } } } if (alloced && w != 0) delwin(w); if (alloced) { --count; if (count == 0) { ::endwin(); } else if (count < 0) { // cannot happen! err_handler("Too many windows destroyed"); } } } // --------------------------------------------------------------------- // Color stuff // int NCursesWindow::colorInitialized = COLORS_NOT_INITIALIZED; void NCursesWindow::useColors(void) { if (colorInitialized == COLORS_NOT_INITIALIZED) { if (b_initialized) { if (::has_colors()) { ::start_color(); colorInitialized = COLORS_ARE_REALLY_THERE; } else colorInitialized = COLORS_MONOCHROME; } else colorInitialized = COLORS_NEED_INITIALIZATION; } } short NCursesWindow::getcolor(int getback) const { short fore, back; if (colorInitialized==COLORS_ARE_REALLY_THERE) { if (pair_content((short)PAIR_NUMBER(w->_attrs), &fore, &back)) err_handler("Can't get color pair"); } else { // Monochrome means white on black back = COLOR_BLACK; fore = COLOR_WHITE; } return getback ? back : fore; } int NCursesWindow::NumberOfColors() { if (colorInitialized==COLORS_ARE_REALLY_THERE) return COLORS; else return 1; // monochrome (actually there are two ;-) } short NCursesWindow::getcolor() const { if (colorInitialized==COLORS_ARE_REALLY_THERE) return PAIR_NUMBER(w->_attrs); else return 0; // we only have pair zero } int NCursesWindow::setpalette(short fore, short back, short pair) { if (colorInitialized==COLORS_ARE_REALLY_THERE) return init_pair(pair, fore, back); else return OK; } int NCursesWindow::setpalette(short fore, short back) { if (colorInitialized==COLORS_ARE_REALLY_THERE) return setpalette(fore, back, (short)PAIR_NUMBER(w->_attrs)); else return OK; } int NCursesWindow::setcolor(short pair) { if (colorInitialized==COLORS_ARE_REALLY_THERE) { if ((pair < 1) || (pair > COLOR_PAIRS)) err_handler("Can't set color pair"); attroff(A_COLOR); attrset(COLOR_PAIR(pair)); } return OK; } #if HAVE_HAS_KEY extern "C" int _nc_has_mouse(void); bool NCursesWindow::has_mouse() const { return ((::has_key(KEY_MOUSE) || ::_nc_has_mouse()) ? TRUE : FALSE); } #endif