1curs_termcap(3X) curs_termcap(3X)
2
3
4
6 PC, UP, BC, ospeed, tgetent, tgetflag, tgetnum, tgetstr, tgoto, tputs -
7 curses emulation of termcap
8
10 #include <curses.h>
11 #include <term.h>
12
13 extern char PC;
14 extern char * UP;
15 extern char * BC;
16 extern unsigned ospeed;
17
18 int tgetent(char *bp, const char *name);
19 int tgetflag(const char *id);
20 int tgetnum(const char *id);
21 char *tgetstr(const char *id, char **area);
22 char *tgoto(const char *cap, int col, int row);
23 int tputs(const char *str, int affcnt, int (*putc)(int));
24
26 These routines are included as a conversion aid for programs that use
27 the termcap library. Their parameters are the same, but the routines
28 are emulated using the terminfo database. Thus, they can only be used
29 to query the capabilities of entries for which a terminfo entry has
30 been compiled.
31
32 INITIALIZATION
33 The tgetent routine loads the entry for name. It returns:
34
35 1 on success,
36
37 0 if there is no such entry (or that it is a generic type, having
38 too little information for curses applications to run), and
39
40 -1 if the terminfo database could not be found.
41
42 This differs from the termcap library in two ways:
43
44 • The emulation ignores the buffer pointer bp. The termcap li‐
45 brary would store a copy of the terminal description in the area
46 referenced by this pointer. However, ncurses stores its termi‐
47 nal descriptions in compiled binary form, which is not the same
48 thing.
49
50 • There is a difference in return codes. The termcap library does
51 not check if the terminal description is marked with the generic
52 capability, or if the terminal description has cursor-address‐
53 ing.
54
55 CAPABILITY VALUES
56 The tgetflag routine gets the boolean entry for id, or zero if it is
57 not available.
58
59 The tgetnum routine gets the numeric entry for id, or -1 if it is not
60 available.
61
62 The tgetstr routine returns the string entry for id, or zero if it is
63 not available. Use tputs to output the returned string. The area pa‐
64 rameter is used as follows:
65
66 • It is assumed to be the address of a pointer to a buffer managed
67 by the calling application.
68
69 • However, ncurses checks to ensure that area is not NULL, and al‐
70 so that the resulting buffer pointer is not NULL. If either
71 check fails, the area parameter is ignored.
72
73 • If the checks succeed, ncurses also copies the return value to
74 the buffer pointed to by area, and the area value will be updat‐
75 ed to point past the null ending this value.
76
77 • The return value itself is an address in the terminal descrip‐
78 tion which is loaded into memory.
79
80 Only the first two characters of the id parameter of tgetflag, tgetnum
81 and tgetstr are compared in lookups.
82
83 FORMATTING CAPABILITIES
84 The tgoto routine expands the given capability using the parameters.
85
86 • Because the capability may have padding characters, the output of
87 tgoto should be passed to tputs rather than some other output func‐
88 tion such as printf.
89
90 • While tgoto is assumed to be used for the two-parameter cursor po‐
91 sitioning capability, termcap applications also use it for single-
92 parameter capabilities.
93
94 Doing this shows a quirk in tgoto: most hardware terminals use cur‐
95 sor addressing with row first, but the original developers of the
96 termcap interface chose to put the column parameter first. The
97 tgoto function swaps the order of parameters. It does this also
98 for calls requiring only a single parameter. In that case, the
99 first parameter is merely a placeholder.
100
101 • Normally the ncurses library is compiled with terminfo support. In
102 that case, tgoto uses tparm(3X) (a more capable formatter).
103
104 However, tparm is not a termcap feature, and portable termcap ap‐
105 plications should not rely upon its availability.
106
107 The tputs routine is described on the curs_terminfo(3X) manual page.
108 It can retrieve capabilities by either termcap or terminfo name.
109
110 GLOBAL VARIABLES
111 The variables PC, UP and BC are set by tgetent to the terminfo entry's
112 data for pad_char, cursor_up and backspace_if_not_bs, respectively. UP
113 is not used by ncurses. PC is used in the tdelay_output function. BC
114 is used in the tgoto emulation. The variable ospeed is set by ncurses
115 in a system-specific coding to reflect the terminal speed.
116
118 Except where explicitly noted, routines that return an integer return
119 ERR upon failure and OK (SVr4 only specifies "an integer value other
120 than ERR") upon successful completion.
121
122 Routines that return pointers return NULL on error.
123
125 If you call tgetstr to fetch ca or any other parameterized string, be
126 aware that it will be returned in terminfo notation, not the older and
127 not-quite-compatible termcap notation. This will not cause problems if
128 all you do with it is call tgoto or tparm, which both expand terminfo-
129 style strings as terminfo. (The tgoto function, if configured to sup‐
130 port termcap, will check if the string is indeed terminfo-style by
131 looking for "%p" parameters or "$<..>" delays, and invoke a termcap-
132 style parser if the string does not appear to be terminfo).
133
134 Because terminfo conventions for representing padding in string capa‐
135 bilities differ from termcap's, users can be surprised:
136
137 • tputs("50") in a terminfo system will put out a literal “50” rather
138 than busy-waiting for 50 milliseconds.
139
140 • However, if ncurses is configured to support termcap, it may also
141 have been configured to support the BSD-style padding.
142
143 In that case, tputs inspects strings passed to it, looking for dig‐
144 its at the beginning of the string.
145
146 tputs("50") in a termcap system may wait for 50 milliseconds rather
147 than put out a literal “50”
148
149 Note that termcap has nothing analogous to terminfo's sgr string. One
150 consequence of this is that termcap applications assume me (terminfo
151 sgr0) does not reset the alternate character set. This implementation
152 checks for, and modifies the data shown to the termcap interface to ac‐
153 commodate termcap's limitation in this respect.
154
156 Standards
157 These functions are provided for supporting legacy applications, and
158 should not be used in new programs:
159
160 • The XSI Curses standard, Issue 4 describes these functions. Howev‐
161 er, they are marked TO BE WITHDRAWN and may be removed in future
162 versions.
163
164 • X/Open Curses, Issue 5 (December 2007) marked the termcap interface
165 (along with vwprintw and vwscanw) as withdrawn.
166
167 Neither the XSI Curses standard nor the SVr4 man pages documented the
168 return values of tgetent correctly, though all three were in fact re‐
169 turned ever since SVr1. In particular, an omission in the XSI Curses
170 documentation has been misinterpreted to mean that tgetent returns OK
171 or ERR. Because the purpose of these functions is to provide compati‐
172 bility with the termcap library, that is a defect in XCurses, Issue 4,
173 Version 2 rather than in ncurses.
174
175 Compatibility with BSD Termcap
176 External variables are provided for support of certain termcap applica‐
177 tions. However, termcap applications' use of those variables is poorly
178 documented, e.g., not distinguishing between input and output. In par‐
179 ticular, some applications are reported to declare and/or modify os‐
180 peed.
181
182 The comment that only the first two characters of the id parameter are
183 used escapes many application developers. The original BSD 4.2 termcap
184 library (and historical relics thereof) did not require a trailing null
185 NUL on the parameter name passed to tgetstr, tgetnum and tgetflag.
186 Some applications assume that the termcap interface does not require
187 the trailing NUL for the parameter name. Taking into account these is‐
188 sues:
189
190 • As a special case, tgetflag matched against a single-character
191 identifier provided that was at the end of the terminal descrip‐
192 tion. You should not rely upon this behavior in portable programs.
193 This implementation disallows matches against single-character ca‐
194 pability names.
195
196 • This implementation disallows matches by the termcap interface
197 against extended capability names which are longer than two charac‐
198 ters.
199
200 The BSD termcap function tgetent returns the text of a termcap entry in
201 the buffer passed as an argument. This library (like other terminfo
202 implementations) does not store terminal descriptions as text. It sets
203 the buffer contents to a null-terminated string.
204
205 Other Compatibility
206 This library includes a termcap.h header, for compatibility with other
207 implementations. But the header is rarely used because the other im‐
208 plementations are not strictly compatible.
209
210 The original BSD termcap (through 4.3BSD) had no header file which gave
211 function prototypes, because that was a feature of ANSI C. BSD termcap
212 was written several years before C was standardized. However, there
213 were two different termcap.h header files in the BSD sources:
214
215 • One was used internally by the jove editor in 2BSD through 4.4BSD.
216 It defined global symbols for the termcap variables which it used.
217
218 • The other appeared in 4.4BSD Lite Release 2 (mid-1993) as part of
219 libedit (also known as the editline library). The CSRG source his‐
220 tory shows that this was added in mid-1992. The libedit header
221 file was used internally, as a convenience for compiling the edit‐
222 line library. It declared function prototypes, but no global vari‐
223 ables.
224
225 The header file from libedit was added to NetBSD's termcap library in
226 mid-1994.
227
228 Meanwhile, GNU termcap was under development, starting in 1990. The
229 first release (termcap 1.0) in 1991 included a termcap.h header. The
230 second release (termcap 1.1) in September 1992 modified the header to
231 use const for the function prototypes in the header where one would ex‐
232 pect the parameters to be read-only. This was a difference versus the
233 original BSD termcap. The prototype for tputs also differed, but in
234 that instance, it was libedit which differed from BSD termcap.
235
236 A copy of GNU termcap 1.3 was bundled with bash in mid-1993, to support
237 the readline library.
238
239 A termcap.h file was provided in ncurses 1.8.1 (November 1993). That
240 reflected influence by emacs (rather than jove) and GNU termcap:
241
242 • it provided declarations for a few global symbols used by emacs
243
244 • it provided function prototypes (using const).
245
246 • a prototype for tparam (a GNU termcap feature) was provided.
247
248 Later (in mid-1996) the tparam function was removed from ncurses. As a
249 result, there are differences between any of the four implementations,
250 which must be taken into account by programs which can work with all
251 termcap library interfaces.
252
254 curses(3X), putc(3), term_variables(3X), terminfo(5).
255
256 https://invisible-island.net/ncurses/tctest.html
257
258
259
260 curs_termcap(3X)