322 lines
8.0 KiB
C
322 lines
8.0 KiB
C
/* Public Domain Curses */
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#include <curspriv.h>
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RCSID("$Id: inopts.c,v 1.43 2008/07/13 16:08:18 wmcbrine Exp $")
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/*man-start**************************************************************
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Name: inopts
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Synopsis:
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int cbreak(void);
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int nocbreak(void);
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int echo(void);
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int noecho(void);
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int halfdelay(int tenths);
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int intrflush(WINDOW *win, bool bf);
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int keypad(WINDOW *win, bool bf);
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int meta(WINDOW *win, bool bf);
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int nl(void);
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int nonl(void);
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int nodelay(WINDOW *win, bool bf);
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int notimeout(WINDOW *win, bool bf);
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int raw(void);
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int noraw(void);
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void noqiflush(void);
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void qiflush(void);
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void timeout(int delay);
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void wtimeout(WINDOW *win, int delay);
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int typeahead(int fildes);
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int crmode(void);
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int nocrmode(void);
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Description:
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cbreak() and nocbreak() toggle cbreak mode. In cbreak mode,
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characters typed by the user are made available immediately, and
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erase/kill character processing is not performed. In nocbreak
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mode, typed characters are buffered until a newline or carriage
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return. Interrupt and flow control characters are unaffected by
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this mode. PDCurses always starts in cbreak mode.
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echo() and noecho() control whether typed characters are echoed
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by the input routine. Initially, input characters are echoed.
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Subsequent calls to echo() and noecho() do not flush type-ahead.
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halfdelay() is similar to cbreak(), but allows for a time limit
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to be specified, in tenths of a second. This causes getch() to
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block for that period before returning ERR if no key has been
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received. tenths must be between 1 and 255.
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keypad() controls whether getch() returns function/special keys
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as single key codes (e.g., the left arrow key as KEY_LEFT). Per
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X/Open, the default for keypad mode is OFF. You'll probably want
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it on. With keypad mode off, if a special key is pressed,
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getch() does nothing or returns ERR.
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nodelay() controls whether wgetch() is a non-blocking call. If
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the option is enabled, and no input is ready, wgetch() will
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return ERR. If disabled, wgetch() will hang until input is
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ready.
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nl() enables the translation of a carriage return into a newline
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on input. nonl() disables this. Initially, the translation does
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occur.
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raw() and noraw() toggle raw mode. Raw mode is similar to cbreak
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mode, in that characters typed are immediately passed through to
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the user program. The difference is that in raw mode, the INTR,
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QUIT, SUSP, and STOP characters are passed through without being
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interpreted, and without generating a signal.
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In PDCurses, the meta() function sets raw mode on or off.
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timeout() and wtimeout() set blocking or non-blocking reads for
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the specified window. The delay is measured in milliseconds. If
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it's negative, a blocking read is used; if zero, then non-
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blocking reads are done -- if no input is waiting, ERR is
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returned immediately. If the delay is positive, the read blocks
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for the delay period; if the period expires, ERR is returned.
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intrflush(), notimeout(), noqiflush(), qiflush() and typeahead()
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do nothing in PDCurses, but are included for compatibility with
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other curses implementations.
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crmode() and nocrmode() are archaic equivalents to cbreak() and
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nocbreak(), respectively.
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Return Value:
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All functions return OK on success and ERR on error.
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Portability X/Open BSD SYS V
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cbreak Y Y Y
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nocbreak Y Y Y
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echo Y Y Y
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noecho Y Y Y
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halfdelay Y - Y
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intrflush Y - Y
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keypad Y - Y
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meta Y - Y
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nl Y Y Y
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nonl Y Y Y
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nodelay Y - Y
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notimeout Y - Y
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raw Y Y Y
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noraw Y Y Y
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noqiflush Y - Y
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qiflush Y - Y
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timeout Y - Y
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wtimeout Y - Y
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typeahead Y - Y
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crmode -
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nocrmode -
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**man-end****************************************************************/
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int cbreak(void)
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{
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PDC_LOG(("cbreak() - called\n"));
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SP->cbreak = TRUE;
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return OK;
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}
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int nocbreak(void)
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{
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PDC_LOG(("nocbreak() - called\n"));
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SP->cbreak = FALSE;
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SP->delaytenths = 0;
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return OK;
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}
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int echo(void)
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{
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PDC_LOG(("echo() - called\n"));
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SP->echo = TRUE;
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return OK;
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}
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int noecho(void)
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{
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PDC_LOG(("noecho() - called\n"));
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SP->echo = FALSE;
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return OK;
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}
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int halfdelay(int tenths)
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{
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PDC_LOG(("halfdelay() - called\n"));
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if (tenths < 1 || tenths > 255)
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return ERR;
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SP->delaytenths = tenths;
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return OK;
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}
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int intrflush(WINDOW *win, bool bf)
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{
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PDC_LOG(("intrflush() - called\n"));
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return OK;
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}
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int keypad(WINDOW *win, bool bf)
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{
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PDC_LOG(("keypad() - called\n"));
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if (!win)
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return ERR;
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win->_use_keypad = bf;
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return OK;
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}
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int meta(WINDOW *win, bool bf)
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{
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PDC_LOG(("meta() - called\n"));
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SP->raw_inp = bf;
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return OK;
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}
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int nl(void)
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{
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PDC_LOG(("nl() - called\n"));
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SP->autocr = TRUE;
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return OK;
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}
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int nonl(void)
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{
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PDC_LOG(("nonl() - called\n"));
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SP->autocr = FALSE;
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return OK;
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}
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int nodelay(WINDOW *win, bool flag)
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{
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PDC_LOG(("nodelay() - called\n"));
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if (!win)
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return ERR;
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win->_nodelay = flag;
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return OK;
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}
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int notimeout(WINDOW *win, bool flag)
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{
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PDC_LOG(("notimeout() - called\n"));
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return OK;
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}
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int raw(void)
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{
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PDC_LOG(("raw() - called\n"));
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PDC_set_keyboard_binary(TRUE);
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SP->raw_inp = TRUE;
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return OK;
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}
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int noraw(void)
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{
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PDC_LOG(("noraw() - called\n"));
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PDC_set_keyboard_binary(FALSE);
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SP->raw_inp = FALSE;
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return OK;
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}
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void noqiflush(void)
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{
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PDC_LOG(("noqiflush() - called\n"));
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}
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void qiflush(void)
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{
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PDC_LOG(("qiflush() - called\n"));
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}
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int typeahead(int fildes)
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{
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PDC_LOG(("typeahead() - called\n"));
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return OK;
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}
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void wtimeout(WINDOW *win, int delay)
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{
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PDC_LOG(("wtimeout() - called\n"));
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if (!win)
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return;
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if (delay < 0)
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{
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/* This causes a blocking read on the window, so turn on delay
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mode */
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win->_nodelay = FALSE;
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win->_delayms = 0;
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}
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else if (!delay)
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{
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/* This causes a non-blocking read on the window, so turn off
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delay mode */
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win->_nodelay = TRUE;
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win->_delayms = 0;
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}
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else
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{
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/* This causes the read on the window to delay for the number of
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milliseconds. Also forces the window into non-blocking read
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mode */
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/*win->_nodelay = TRUE;*/
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win->_delayms = delay;
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}
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}
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void timeout(int delay)
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{
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PDC_LOG(("timeout() - called\n"));
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wtimeout(stdscr, delay);
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}
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int crmode(void)
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{
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PDC_LOG(("crmode() - called\n"));
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return cbreak();
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}
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int nocrmode(void)
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{
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PDC_LOG(("nocrmode() - called\n"));
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return nocbreak();
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}
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