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$Id: curs_inopts.3x,v 1.29 2020/02/02 23:34:34 tom Exp $
int cbreak(void);
int nocbreak(void);
int echo(void);
int noecho(void);
int halfdelay(int tenths);
int intrflush(WINDOW *win, bool bf);
int keypad(WINDOW *win, bool bf);
int meta(WINDOW *win, bool bf);
int nodelay(WINDOW *win, bool bf);
int raw(void);
int noraw(void);
void noqiflush(void);
void qiflush(void);
int notimeout(WINDOW *win, bool bf);
void timeout(int delay);
void wtimeout(WINDOW *win, int delay);
int typeahead(int fd);
Initially the terminal may or may not be in cbreak mode, as the mode is
inherited; therefore, a program should call cbreak or nocbreak
explicitly.
Most interactive programs using curses set the cbreak
mode.
Note that cbreak overrides raw.
[See curs_getch(3X) for a
discussion of how these routines interact with echo and noecho.]
The echo and noecho routines control whether characters typed by
the user are echoed by getch(3X) as they are typed.
Echoing by the tty
driver is always disabled, but initially getch is in echo mode, so
characters typed are echoed.
Authors of most interactive programs prefer to do
their own echoing in a controlled area of the screen, or not to echo at all, so
they disable echoing by calling noecho.
[See curs_getch(3X) for a
discussion of how these routines interact with cbreak and
nocbreak.]
The halfdelay routine is used for half-delay mode, which is similar to
cbreak mode in that characters typed by the user are immediately
available to the program.
However, after blocking for tenths tenths of
seconds, ERR is returned if nothing has been typed.
The value of tenths
must be a number between 1 and 255.
Use nocbreak to leave half-delay
mode.
If the intrflush option is enabled (bf is TRUE), and an
interrupt key is pressed on the keyboard (interrupt, break, quit), all output in
the tty driver queue will be flushed, giving the effect of faster response to
the interrupt, but causing curses to have the wrong idea of what is on
the screen.
Disabling the option (bf is FALSE) prevents the
flush.
The default for the option is inherited from the tty driver settings.
The window argument is ignored.
The keypad option enables the keypad of the user's terminal.
If
enabled (bf is TRUE), the user can press a function key
(such as an arrow key) and wgetch(3X) returns a single value
representing the function key, as in KEY_LEFT.
If disabled
(bf is FALSE), curses does not treat function keys
specially and the program has to interpret the escape sequences
itself.
If the keypad in the terminal can be turned on (made to
transmit) and off (made to work locally), turning on this option
causes the terminal keypad to be turned on when wgetch(3X) is
called.
The default value for keypad is FALSE.
Initially, whether the terminal returns 7 or 8 significant bits on
input depends on the control mode of the tty driver [see termios(3)].
To force 8 bits to be returned, invoke meta(win,
TRUE); this is equivalent, under POSIX, to setting the CS8 flag
on the terminal.
To force 7 bits to be returned, invoke
meta(win, FALSE); this is equivalent, under POSIX,
to setting the CS7 flag on the terminal.
The window argument,
win, is always ignored.
If the terminfo capabilities smm
(meta_on) and rmm (meta_off) are defined for the terminal,
smm is sent to the terminal when meta(win,
TRUE) is called and rmm is sent when meta(win,
FALSE) is called.
The nodelay option causes getch to be a non-blocking call. If no input is ready, getch returns ERR. If disabled (bf is FALSE), getch waits until a key is pressed.
While interpreting an input escape sequence, wgetch(3X) sets a timer
while waiting for the next character.
If notimeout(win,
TRUE) is called, then wgetch does not set a timer.
The
purpose of the timeout is to differentiate between sequences received
from a function key and those typed by a user.
The raw and noraw routines place the terminal into or out of raw
mode.
Raw mode is similar to cbreak mode, in that characters typed are
immediately passed through to the user program.
The differences are that in
raw mode, the interrupt, quit, suspend, and flow control characters are all
passed through uninterpreted, instead of generating a signal.
The behavior of
the BREAK key depends on other bits in the tty driver that are not set by
curses.
When the noqiflush routine is used, normal flush of input and
output queues associated with the INTR, QUIT and
SUSP characters will not be done [see termios(3)].
When
qiflush is called, the queues will be flushed when these control
characters are read.
You may want to call noqiflush in a signal
handler if you want output to continue as though the interrupt
had not occurred, after the handler exits.
The timeout and wtimeout routines set blocking or
non-blocking read for a given window.
If delay is negative,
blocking read is used (i.e., waits indefinitely for
input).
If delay is zero, then non-blocking read is used
(i.e., read returns ERR if no input is waiting).
If
delay is positive, then read blocks for delay
milliseconds, and returns ERR if there is still no input.
Hence, these routines provide the same functionality as nodelay,
plus the additional capability of being able to block for only
delay milliseconds (where delay is positive).
The curses library does \*(``line-breakout optimization\*(''
by looking for typeahead periodically while updating the screen.
If input is found, and it is coming from a tty,
the current update is postponed until
refresh(3X) or doupdate is called again.
This allows faster response to commands typed in advance.
Normally, the input FILE
pointer passed to newterm, or stdin in the case that
initscr was used, will be used to do this typeahead checking.
The typeahead routine specifies that the file descriptor
fd is to be used to check for typeahead instead.
If fd is
-1, then no typeahead checking is done.
X/Open does not define any error conditions. In this implementation, functions with a window parameter will return an error if it is null. Any function will also return an error if the terminal was not initialized. Also,
5 halfdelay returns an error if its parameter is outside the range 1..255.
The ncurses library obeys the XPG4 standard and the historical practice of the AT&T curses implementations, in that the echo bit is cleared when curses initializes the terminal state. BSD curses differed from this slightly; it left the echo bit on at initialization, but the BSD raw call turned it off as a side-effect. For best portability, set echo or noecho explicitly just after initialization, even if your program remains in cooked mode.
When keypad is first enabled, ncurses loads the key-definitions for the current terminal description. If the terminal description includes extended string capabilities, e.g., from using the -x option of @TIC@, then ncurses also defines keys for the capabilities whose names begin with \*(``k\*(''. The corresponding keycodes are generated and (depending on previous loads of terminal descriptions) may differ from one execution of a program to the next. The generated keycodes are recognized by the keyname function (which will then return a name beginning with \*(``k\*('' denoting the terminfo capability name rather than \*(``K\*('', used for curses key-names). On the other hand, an application can use define_key to establish a specific keycode for a given string. This makes it possible for an application to check for an extended capability's presence with tigetstr, and reassign the keycode to match its own needs.
Low-level applications can use tigetstr to obtain the definition of any particular string capability. Higher-level applications which use the curses wgetch and similar functions to return keycodes rely upon the order in which the strings are loaded. If more than one key definition has the same string value, then wgetch can return only one keycode. Most curses implementations (including ncurses) load key definitions in the order defined by the array of string capability names. The last key to be loaded determines the keycode which will be returned. In ncurses, you may also have extended capabilities interpreted as key definitions. These are loaded after the predefined keys, and if a capability's value is the same as a previously-loaded key definition, the later definition is the one used.
The noraw and nocbreak calls follow historical practice in that they attempt to restore to normal (\*(``cooked\*('') mode from raw and cbreak modes respectively. Mixing raw/noraw and cbreak/nocbreak calls leads to tty driver control states that are hard to predict or understand; it is not recommended.