Provided by: ncurses-doc_6.4+20240113-1ubuntu2_all bug

NAME

       del_curterm,  mvcur,  putp,  restartterm,  set_curterm,  setupterm,  tigetflag,  tigetnum,
       tigetstr, tiparm, tiparm_s, tiscan_s, tparm, tputs, vid_attr, vid_puts, vidattr, vidputs -
       curses interfaces to terminfo database

SYNOPSIS

       #include <curses.h>
       #include <term.h>

       TERMINAL *cur_term;

       const char * const boolnames[];
       const char * const boolcodes[];
       const char * const boolfnames[];
       const char * const numnames[];
       const char * const numcodes[];
       const char * const numfnames[];
       const char * const strnames[];
       const char * const strcodes[];
       const char * const strfnames[];

       int setupterm(const char *term, int filedes, int *errret);
       TERMINAL *set_curterm(TERMINAL *nterm);
       int del_curterm(TERMINAL *oterm);
       int restartterm(const char *term, int filedes, int *errret);

       char *tparm(const char *str, ...);
            /* or */
       char *tparm(const char *str, long p1 ... long p9);

       int tputs(const char *str, int affcnt, int (*putc)(int));
       int putp(const char *str);

       int vidputs(chtype attrs, int (*putc)(int));
       int vidattr(chtype attrs);
       int vid_puts(attr_t attrs, short pair, void *opts, int (*putc)(int));
       int vid_attr(attr_t attrs, short pair, void *opts);

       int mvcur(int oldrow, int oldcol, int newrow, int newcol);

       int tigetflag(const char *cap-code);
       int tigetnum(const char *cap-code);
       char *tigetstr(const char *cap-code);

       char *tiparm(const char *str, ...);

       /* extensions */
       char *tiparm_s(int expected, int mask, const char *str, ...);
       int tiscan_s(int *expected, int *mask, const char *str);

       /* deprecated */
       int setterm(const char *term);

DESCRIPTION

       These  low-level functions must be called by programs that deal directly with the terminfo
       database to handle certain terminal capabilities, such as programming function keys.   For
       all other functionality, curses functions are more suitable and their use is recommended.

       None of these functions use (or are aware of) multibyte character strings such as UTF-8.

       •   Capability names and codes use the POSIX portable character set.

       •   Capability  string  values  have  no  associated  encoding;  they are strings of 8-bit
           characters.

   Initialization
       Initially, setupterm should be  called.   The  high-level  curses  functions  initscr  and
       newterm  call  setupterm  to  initialize the low-level set of terminal-dependent variables
       listed in terminfo_variables(3NCURSES).

       Applications can use the terminal capabilities either directly (via  header  definitions),
       or by special functions.  The header files curses.h and term.h should be included (in that
       order) to get the definitions for these strings, numbers, and flags.

       The terminfo variables lines and columns are initialized by setupterm as follows.

       •   If use_env(FALSE) has been called, values for lines and columns specified in  terminfo
           are used.

       •   Otherwise,  if  the  environment  variables  LINES and COLUMNS exist, their values are
           used.  If these environment variables do not exist and the program  is  running  in  a
           window,  the  current window size is used.  Otherwise, if the environment variables do
           not exist, the values for lines and columns specified in  the  terminfo  database  are
           used.

       Parameterized  strings  should  be passed through tparm to instantiate them.  All terminfo
       strings (including the output of tparm) should be sent to the terminal device  with  tputs
       or  putp.   Call  reset_shell_mode  to  restore  the  terminal  modes  before exiting; see
       kernel(3NCURSES).

       Programs that use cursor addressing should

       •   output enter_ca_mode upon startup and

       •   output exit_ca_mode before exiting.

       Programs that execute shell subprocesses should

       •   call reset_shell_mode and output exit_ca_mode before the shell is called and

       •   output enter_ca_mode and call reset_prog_mode after returning from the shell.

       setupterm reads in the terminfo database, initializing the terminfo structures,  but  does
       not set up the output virtualization structures used by curses.  Its parameters follow.

          term is  the  terminal  type,  a  character  string.   If term is null, the environment
               variable TERM is read.

          filedes
               is the file descriptor used for getting and setting terminal I/O modes.

               Higher-level  applications  use  newterm(3NCURSES)  to  initialize  the  terminal,
               passing  an  output  stream  rather than a descriptor.  In curses, the two are the
               same because newterm calls setupterm, passing the file descriptor derived from its
               output stream parameter.

          errret
               points  to  an  optional  location  where  an  error status can be returned to the
               caller.  If errret is not null, then setupterm returns OK  or  ERR  and  stores  a
               status  value  in the integer pointed to by errret.  A return value of OK combined
               with status of 1 in errret is normal.

               If ERR is returned, examine errret:

               1    means  that  the  terminal  is  hardcopy,  and  cannot  be  used  for  curses
                    applications.

                    setupterm determines if the entry is a hardcopy type by checking the hardcopy
                    (hc) capability.

               0    means that the terminal could not be found, or that it  is  a  generic  type,
                    having too little information for curses applications to run.

                    setupterm  determines  if  the  entry  is  a  generic  type  by  checking the
                    generic_type (gn) capability.

               -1   means that the terminfo database could not be found.

               If errret is null, setupterm reports an error message upon finding  an  error  and
               exits.  Thus, the simplest call is:

                      setupterm((char *)0, 1, (int *)0);

               which uses all the defaults and sends the output to stdout.

   The Terminal State
       setupterm  stores its information about the terminal in a TERMINAL structure pointed to by
       the global variable cur_term.  If it detects an error, or decides  that  the  terminal  is
       unsuitable (hardcopy or generic), it discards this information, making it not available to
       applications.

       If setupterm is  called  repeatedly  for  the  same  terminal  type,  it  will  reuse  the
       information.  It maintains only one copy of a given terminal's capabilities in memory.  If
       it is called for different terminal types, setupterm allocates new storage for each set of
       terminal capabilities.

       set_curterm  sets  cur_term  to nterm, and makes all of the terminfo Boolean, numeric, and
       string variables use the values from nterm.  It returns the old value of cur_term.

       del_curterm frees the space pointed to by oterm and makes it available  for  further  use.
       If  oterm is the same as cur_term, references to any of the terminfo Boolean, numeric, and
       string variables thereafter may refer to invalid memory locations until another  setupterm
       has been called.

       restartterm  is similar to setupterm and initscr, except that it is called after restoring
       memory to a previous state (for example, when reloading a  game  saved  as  a  core  image
       dump).  restartterm assumes that the windows and the input and output options are the same
       as when memory was  saved,  but  the  terminal  type  and  baud  rate  may  be  different.
       Accordingly,  restartterm  saves  various  terminal  state bits, calls setupterm, and then
       restores the bits.

   Formatting Output
       tparm instantiates the string str with parameters pi.  A pointer is returned to the result
       of  str  with  the  parameters  applied.  Application developers should keep in mind these
       quirks of the interface:

       •   Although tparm's actual parameters may be integers or strings, the  prototype  expects
           long (integer) values.

       •   Aside  from the set_attributes (sgr) capability, most terminal capabilities require no
           more than one or two parameters.

       •   Padding information is ignored by tparm; it is interpreted by tputs.

       •   The capability string is null-terminated.  Use “\200” where an ASCII NUL is needed  in
           the output.

       tiparm  is  a  newer form of tparm which uses stdarg.h rather than a fixed-parameter list.
       Its numeric parameters are ints rather than longs.

       Both tparm and tiparm assume that the application passes parameters  consistent  with  the
       terminal  description.  Two extensions are provided as alternatives to deal with untrusted
       data.

       •   tiparm_s is an extension which is a safer formatting function than  tparm  or  tiparm,
           because  it  allows  the  developer  to tell the curses library how many parameters to
           expect in the parameter list, and which may be string parameters.

           The mask parameter has one bit set for each of the parameters (up to 9) passed as char
           pointers rather than numbers.

       •   The  extension  tiscan_s  allows the application to inspect a formatting capability to
           see what the curses library would assume.

   Output Functions
       String  capabilities  can  contain  padding  information,  a  time  delay   (accommodating
       performance limitations of hardware terminals) expressed as $<n>, where n is a nonnegative
       integral count of milliseconds.  If n exceeds 30,000 (thirty seconds),  it  is  capped  at
       that value.

       tputs  interprets  time-delay  information in the string str and outputs it, executing the
       delays:

       •   The str parameter must be a terminfo string variable or the  return  value  of  tparm,
           tiparm, tgetstr, or tgoto.

           The  tgetstr  and  tgoto functions are part of the termcap interface, which happens to
           share these function names with the terminfo API.

       •   affcnt is the number of lines affected, or 1 if not applicable.

       •   putc is a putchar-like function to which the characters are passed, one at a time.

           If tputs processes a time-delay, it uses the delay_output(3NCURSES) function,  routing
           any resulting padding characters through this function.

       putp  calls  “tputs(str,  1,  putchar)”.  The output of putp always goes to stdout, rather
       than the filedes specified in setupterm.

       vidputs displays the string on the terminal in the video attribute mode  attrs,  which  is
       any  combination of the attributes listed in ncurses(3NCURSES).  The characters are passed
       to the putchar-like function putc.

       vidattr is like vidputs, except that it outputs through putchar(3).

       vid_attr and vid_puts correspond to vidattr and vidputs, respectively.  They use  multiple
       parameters to represent the character attributes and color; namely,

       •   attrs, of type attr_t, for the attributes and

       •   pair, of type short, for the color pair number.

       Use the attribute constants prefixed with “WA_” with vid_attr and vid_puts.

       X/Open  Curses  reserves  the  opts argument for future use, saying that applications must
       provide a null pointer for that argument; but see section “EXTENSIONS” below.

       mvcur provides low-level cursor motion.  It takes effect immediately (rather than  at  the
       next  refresh).   Unlike  the  other low-level output functions, which either write to the
       standard output or pass an output function parameter, mvcur uses an output file descriptor
       derived from the output stream parameter of newterm(3NCURSES).

       While  putp  and  mvcur  are  low-level functions that do not use high-level curses state,
       ncurses declares them in curses.h because System V did this (see section “HISTORY” below).

   Terminal Capability Functions
       tigetflag, tigetnum, and tigetstr return the value of the capability corresponding to  the
       terminfo  cap-code,  such  as  xenl,  passed to them.  The cap-code for each capability is
       given in  the  table  column  entitled  cap-code  code  in  the  capabilities  section  of
       terminfo(5).

       These functions return special values to denote errors.

       tigetflag returns

       -1     if cap-code is not a Boolean capability, or

       0      if it is canceled or absent from the terminal description.

       tigetnum returns

       -2     if cap-code is not a numeric capability, or

       -1     if it is canceled or absent from the terminal description.

       tigetstr returns

       (char *)-1
              if cap-code is not a string capability, or

       0      if it is canceled or absent from the terminal description.

   Terminal Capability Names
       These null-terminated arrays contain

       •   the short terminfo names (“codes”),

       •   the termcap names (“names”), and

       •   the long terminfo names (“fnames”)

       for each of the predefined terminfo variables:

              const char *boolnames[], *boolcodes[], *boolfnames[]
              const char *numnames[], *numcodes[], *numfnames[]
              const char *strnames[], *strcodes[], *strfnames[]

   Releasing Memory
       Each successful call to setupterm allocates memory to hold the terminal description.  As a
       side effect, it sets cur_term to point to this memory.  If an application calls

              del_curterm(cur_term);

       the memory will be freed.

       The formatting functions tparm and tiparm extend the storage  allocated  by  setupterm  as
       follows.

       •   They add the “static” terminfo variables [a-z].  Before ncurses 6.3, those were shared
           by all screens.  With ncurses 6.3, those are allocated per screen.  See terminfo(5).

       •   To improve performance, ncurses 6.3 caches the result of  analyzing  terminfo  strings
           for  their  parameter  types.   That  is  stored  as a binary tree referenced from the
           TERMINAL structure.

       The higher-level initscr and newterm functions use setupterm.  Normally they do  not  free
       this memory, but it is possible to do that using the delscreen(3NCURSES) function.

RETURN VALUE

       X/Open Curses defines no failure conditions.  In ncurses,

       del_curtem
            fails if its terminal parameter is null.

       putp calls tputs, returning the same error codes.

       restartterm
            fails if the associated call to setupterm returns an error.

       setupterm
            fails  if  it  cannot  allocate enough memory, or create the initial windows (stdscr,
            curscr, and newscr) Other error conditions are documented above.

       tparm
            returns a null pointer if the capability would require  unexpected  parameters;  that
            is,  too  many,  too few, or incorrect types (strings where integers are expected, or
            vice versa).

       tputs
            fails if the string parameter is null.  It does not detect I/O errors: X/Open  Curses
            states that tputs ignores the return value of the output function putc.

NOTES

       The  vid_attr  function in ncurses is a special case.  It was originally implemented based
       on a draft of X/Open Curses, as a macro, before other parts of the ncurses  wide-character
       API were developed, and unlike the other wide-character functions, is also provided in the
       non-wide-character configuration.

EXTENSIONS

       The functions marked as extensions were designed for ncurses, and are not  found  in  SVr4
       curses, 4.4BSD curses, or any other previous curses implementation.

       ncurses allows opts to be a pointer to int, which overrides the pair (short) argument.

PORTABILITY

       setterm  is  not  described  by  X/Open  and  must  be considered non-portable.  All other
       functions are as described by X/Open.

   Compatibility Macros
       This implementation provides a few macros for compatibility with systems before SVr4  (see
       section   “HISTORY”   below).   They  include  Bcrmode,  Bfixterm,  Bgettmode,  Bnocrmode,
       Bresetterm, Bsaveterm, and Bsetterm.

       In SVr4, these are found in curses.h, but except for setterm, are  likewise  macros.   The
       one function, setterm, is mentioned in the manual page.  It further notes that setterm was
       replaced by setupterm, stating that the call
              setupterm(term, 1, (int *)0)
       provides the  same  functionality  as  setterm(term),  discouraging  the  latter  for  new
       programs.    ncurses   implements   each  of  these  symbols  as  macros  for  BSD  curses
       compatibility.

   Legacy Data
       setupterm copies the terminal name to the array ttytype.   This  is  not  part  of  X/Open
       Curses, but is assumed by some applications.

       Other implementions may not declare the capability name arrays.  Some provide them without
       declaring them.  X/Open does not specify them.

       Extended terminal capability names, as defined by “tic -x”, are not stored in  the  arrays
       described here.

   Output Buffering
       Older  versions  of  ncurses  assumed  that  the  file descriptor passed to setupterm from
       initscr or newterm uses buffered I/O, and would write to  the  corresponding  stream.   In
       addition to the limitation that the terminal was left in block-buffered mode on exit (like
       System V curses), it was problematic because ncurses did  not  allow  a  reliable  way  to
       cleanup on receiving SIGTSTP.

       The  current  version (ncurses6) uses output buffers managed directly by ncurses.  Some of
       the low-level functions described in this manual page write to the standard output.   They
       are  not  signal-safe.   The  high-level functions in ncurses employ alternate versions of
       these functions using the more reliable buffering scheme.

   Function Prototypes
       The X/Open Curses prototypes are based on the SVr4 curses header declarations, which  were
       defined at the same time the C language was first standardized in the late 1980s.

       •   X/Open  Curses  uses  const  less effectively than a later design might, in some cases
           applying it needlessly to values are already constant, and in most  cases  overlooking
           parameters  which  normally  would use const.  Using constant parameters for functions
           which do not use const may prevent the program from compiling.   On  the  other  hand,
           “writable strings” are an obsolescent feature.

           As  an  extension,  this  implementation  can  be  configured  to  change the function
           prototypes to use the const keyword.  The  ncurses  ABI  6  enables  this  feature  by
           default.

       •   X/Open  Curses  prototypes  tparm  with  a  fixed  number of parameters, rather than a
           variable argument list.

           This implementation uses a variable argument list, but can be configured  to  use  the
           fixed-parameter  list.  Portable applications should provide nine parameters after the
           format; zeroes are fine for this purpose.

           In response to review comments by Thomas E. Dickey, X/Open Curses Issue 7 proposed the
           tiparm function in mid-2009.

           While  tiparm  is  always  provided  in ncurses, the older form is only available as a
           build-time configuration option.  If not specially configured, tparm is  the  same  as
           tiparm.

       Both forms of tparm have drawbacks:

       •   Most  of the calls to tparm use only one or two parameters.  Passing nine on each call
           is awkward.

           Using long for the numeric parameter type is a workaround to make  the  parameter  use
           the  same  amount  of  stack as a pointer.  That approach dates back to the mid-1980s,
           before C was standardized.  Since then, there is a  standard  (and  pointers  are  not
           required to fit in a long).

       •   Providing the right number of parameters for a variadic function such as tiparm can be
           a problem, in  particular  for  string  parameters.   However,  only  a  few  terminfo
           capabilities  use  string  parameters  (for  instance,  the ones used for programmable
           function keys).

           The ncurses library checks usage of these capabilities, and returns an  error  if  the
           capability  mishandles  string  parameters.   But it cannot check if a calling program
           provides strings in the right places for the tparm calls.

           The tput(1) program checks its use of these capabilities with  a  table,  so  that  it
           calls tparm correctly.

   Special TERM treatment
       If configured to use the terminal driver, as with the MinGW port,

       •   setupterm interprets a missing/empty TERM variable as the special value “unknown”.

           SVr4 curses uses the special value “dumb”.

           The  difference between the two is that the former uses the generic_type (gn) terminfo
           capability, while the latter does not.  A generic terminal  is  unsuitable  for  full-
           screen applications.

       •   setupterm  allows  explicit use of the the windows console driver by checking if $TERM
           is set to “#win32con” or an abbreviation of that string.

   Other Portability Issues
       In SVr4, set_curterm returns an int, OK or ERR.  We have chosen to  implement  the  X/Open
       Curses semantics.

       In SVr4, the third argument of tputs has the type “int (*putc)(char)”.

       At  least  one  implementation of X/Open Curses (Solaris) returns a value other than OK or
       ERR from tputs.  It instead returns the length of the string, and does no error checking.

       X/Open Curses notes that after calling mvcur, the curses state may not  match  the  actual
       terminal  state,  and  that  an  application  should  touch  and refresh the window before
       resuming normal curses calls.  Both ncurses and SVr4  curses  implement  mvcur  using  the
       SCREEN data allocated in either initscr or newterm.  So though it is documented as a term‐
       info function, mvcur is really a curses function that is not well specified.

       X/Open notes that after calling mvcur, the curses state may not match the actual  terminal
       state,  and that an application should touch and refresh the window before resuming normal
       curses calls.  Both ncurses  and  SVr4  curses  implement  mvcur  using  the  SCREEN  data
       allocated  in  either  initscr  or  newterm.   So  though  it  is documented as a terminfo
       function, mvcur is really a curses function that is not well specified.

       X/Open Curses states that the  old  location  must  be  given  for  mvcur  to  accommodate
       terminals  that lack absolute cursor positioning.  ncurses allows the caller to use -1 for
       either or both old coordinates.  The -1 tells ncurses that the old  location  is  unknown,
       and  that  it  must use only absolute motion, as with the cursor_address (cup) capability,
       rather than the least costly combination of absolute and relative motion.

HISTORY

       SVr2 (1984) introduced  the  terminfo  feature.   Its  programming  manual  mentioned  the
       following low-level functions.

       Function    Description
       ───────────────────────────────────────────────────────────────────────────────────────────
       fixterm     restore terminal to “in curses” state
       gettmode    establish current terminal modes
       mvcur       low level cursor motion
       putp        use tputs to send characters via putchar
       resetterm   set terminal modes to “out of curses” state
       resetty     reset terminal flags to stored value
       saveterm    save current modes as “in curses” state
       savetty     store current terminal flags
       setterm     establish terminal with given type
       setupterm   establish terminal with given type
       tparm       interpolate parameters into string capability
       tputs       apply padding information to a string
       vidattr     like vidputs, but output through putchar
       vidputs     write string to terminal, applying specified attributes

       The  programming  manual  also  mentioned  functions  provided  for  termcap compatibility
       (commenting that they “may go away at a later date”).

       Function   Description
       ───────────────────────────────────────────────────────────────────────────────────────────
       tgetent    look up termcap entry for given name
       tgetflag   get Boolean entry for given id
       tgetnum    get numeric entry for given id
       tgetstr    get string entry for given id
       tgoto      apply parameters to given capability
       tputs      write characters via a function parameter, applying padding

       Early terminfo programs obtained capability values from the TERMINAL structure initialized
       by setupterm.

       SVr3  (1987) extended terminfo by adding functions to retrieve capability values (like the
       termcap interface), and reusing tgoto and tputs.

       Function    Description
       ───────────────────────────────────────────────────────────────────────────────────────────
       tigetflag   get Boolean entry for given id
       tigetnum    get numeric entry for given id
       tigetstr    get string entry for given id

       SVr3 also replaced several of the SVr2 terminfo functions that had no counterpart  in  the
       termcap interface, documenting them as obsolete.

       Function    Replaced by
       ───────────────────────────────────────────────────────────────────────────────────────────
       crmode      cbreak
       fixterm     reset_prog_mode
       gettmode    n/a
       nocrmode    nocbreak

       resetterm   reset_shell_mode
       saveterm    def_prog_mode
       setterm     setupterm

       SVr3  kept  the  mvcur, vidattr, and vidputs functions, along with putp, tparm, and tputs.
       The latter were needed  to  support  padding,  and  to  handle  capabilities  accessed  by
       functions such as vidattr (which used more than the two parameters supported by tgoto).

       SVr3  introduced  the  functions for switching between terminal descriptions; for example,
       set_curterm.  Some changes reflected incremental improvements to the SVr2 library.

       •   The TERMINAL type definition  was  introduced  in  SVr3.01,  for  the  term  structure
           provided in SVr2.

       •   Various global variables such as boolnames were mentioned in the programming manual at
           this point, though the variables had been provided in SVr2.

       SVr4 (1989) added the vid_attr and vid_puts functions.

       Other low-level functions are declared in the curses header files  of  Unix  systems,  but
       none  are  documented.   Those  noted  as “obsolete” by SVr3 remained in use by System V's
       vi(1) editor.

SEE ALSO

       ncurses(3NCURSES),      initscr(3NCURSES),      kernel(3NCURSES),      memleaks(3NCURSES),
       termcap(3NCURSES),   curses_variables(3NCURSES),   putc(3),  terminfo_variables(3NCURSES),
       terminfo(5)