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380 lines
7.7 KiB
Groff
380 lines
7.7 KiB
Groff
.deEX
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.ift .ft5
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.nf
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..
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.deEE
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.ft1
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.fi
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..
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.TH FMTINSTALL 3
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.SH NAME
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fmtinstall, dofmt, dorfmt, fmtprint, fmtvprint, fmtrune, fmtstrcpy, fmtrunestrcpy, fmtfdinit, fmtfdflush, fmtstrinit, fmtstrflush, runefmtstrinit, runefmtstrflush, errfmt \- support for user-defined print formats and output routines
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.SH SYNOPSIS
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.B #include <utf.h>
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.br
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.B #include <fmt.h>
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.PP
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.ft L
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.nf
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.ta \w' 'u +\w' 'u +\w' 'u +\w' 'u +\w' 'u
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typedef struct Fmt Fmt;
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struct Fmt{
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uchar runes; /* output buffer is runes or chars? */
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void *start; /* of buffer */
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void *to; /* current place in the buffer */
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void *stop; /* end of the buffer; overwritten if flush fails */
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int (*flush)(Fmt*); /* called when to == stop */
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void *farg; /* to make flush a closure */
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int nfmt; /* num chars formatted so far */
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va_list args; /* args passed to dofmt */
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int r; /* % format Rune */
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int width;
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int prec;
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ulong flags;
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};
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enum{
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FmtWidth = 1,
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FmtLeft = FmtWidth << 1,
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FmtPrec = FmtLeft << 1,
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FmtSharp = FmtPrec << 1,
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FmtSpace = FmtSharp << 1,
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FmtSign = FmtSpace << 1,
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FmtZero = FmtSign << 1,
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FmtUnsigned = FmtZero << 1,
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FmtShort = FmtUnsigned << 1,
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FmtLong = FmtShort << 1,
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FmtVLong = FmtLong << 1,
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FmtComma = FmtVLong << 1,
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FmtFlag = FmtComma << 1
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};
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.fi
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.PP
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.B
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.ta \w'\fLchar* 'u
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.PP
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.B
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int fmtfdinit(Fmt *f, int fd, char *buf, int nbuf);
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.PP
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.B
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int fmtfdflush(Fmt *f);
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.PP
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.B
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int fmtstrinit(Fmt *f);
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.PP
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.B
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char* fmtstrflush(Fmt *f);
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.PP
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.B
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int runefmtstrinit(Fmt *f);
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.PP
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.B
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Rune* runefmtstrflush(Fmt *f);
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.PP
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.B
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int fmtinstall(int c, int (*fn)(Fmt*));
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.PP
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.B
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int dofmt(Fmt *f, char *fmt);
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.PP
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.B
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int dorfmt(Fmt*, Rune *fmt);
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.PP
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.B
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int fmtprint(Fmt *f, char *fmt, ...);
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.PP
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.B
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int fmtvprint(Fmt *f, char *fmt, va_list v);
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.PP
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.B
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int fmtrune(Fmt *f, int r);
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.PP
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.B
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int fmtstrcpy(Fmt *f, char *s);
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.PP
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.B
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int fmtrunestrcpy(Fmt *f, Rune *s);
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.PP
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.B
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int errfmt(Fmt *f);
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.SH DESCRIPTION
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The interface described here allows the construction of custom
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.IR print (3)
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verbs and output routines.
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In essence, they provide access to the workings of the formatted print code.
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.PP
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The
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.IR print (3)
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suite maintains its state with a data structure called
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.BR Fmt .
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A typical call to
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.IR print (3)
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or its relatives initializes a
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.B Fmt
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structure, passes it to subsidiary routines to process the output,
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and finishes by emitting any saved state recorded in the
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.BR Fmt .
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The details of the
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.B Fmt
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are unimportant to outside users, except insofar as the general
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design influences the interface.
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The
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.B Fmt
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records whether the output is in runes or bytes,
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the verb being processed, its precision and width,
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and buffering parameters.
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Most important, it also records a
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.I flush
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routine that the library will call if a buffer overflows.
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When printing to a file descriptor, the flush routine will
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emit saved characters and reset the buffer; when printing
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to an allocated string, it will resize the string to receive more output.
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The flush routine is nil when printing to fixed-size buffers.
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User code need never provide a flush routine; this is done internally
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by the library.
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.SS Custom output routines
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To write a custom output routine, such as an error handler that
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formats and prints custom error messages, the output sequence can be run
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from outside the library using the routines described here.
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There are two main cases: output to an open file descriptor
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and output to a string.
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.PP
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To write to a file descriptor, call
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.I fmtfdinit
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to initialize the local
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.B Fmt
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structure
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.IR f ,
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giving the file descriptor
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.IR fd ,
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the buffer
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.IR buf ,
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and its size
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.IR nbuf .
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Then call
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.IR fmtprint
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or
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.IR fmtvprint
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to generate the output.
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These behave like
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.B fprint
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(see
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.IR print (3))
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or
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.B vfprint
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except that the characters are buffered until
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.I fmtfdflush
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is called and the return value is either 0 or \-1.
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A typical example of this sequence appears in the Examples section.
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.PP
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The same basic sequence applies when outputting to an allocated string:
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call
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.I fmtstrinit
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to initialize the
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.BR Fmt ,
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then call
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.I fmtprint
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and
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.I fmtvprint
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to generate the output.
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Finally,
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.I fmtstrflush
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will return the allocated string, which should be freed after use.
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To output to a rune string, use
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.I runefmtstrinit
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and
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.IR runefmtstrflush .
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Regardless of the output style or type,
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.I fmtprint
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or
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.I fmtvprint
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generates the characters.
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.SS Custom format verbs
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.I Fmtinstall
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is used to install custom verbs and flags labeled by character
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.IR c ,
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which may be any non-zero Unicode character.
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.I Fn
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should be declared as
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.IP
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.EX
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int fn(Fmt*)
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.EE
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.PP
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.IB Fp ->r
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is the flag or verb character to cause
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.I fn
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to be called.
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In
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.IR fn ,
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.IB fp ->width ,
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.IB fp ->prec
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are the width and precision, and
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.IB fp ->flags
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the decoded flags for the verb (see
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.IR print (3)
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for a description of these items).
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The standard flag values are:
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.B FmtSign
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.RB ( + ),
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.B FmtLeft
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.RB ( - ),
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.B FmtSpace
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.RB ( '\ ' ),
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.B FmtSharp
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.RB ( # ),
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.B FmtComma
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.RB ( , ),
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.B FmtLong
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.RB ( l ),
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.B FmtShort
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.RB ( h ),
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.B FmtUnsigned
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.RB ( u ),
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and
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.B FmtVLong
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.RB ( ll ).
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The flag bits
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.B FmtWidth
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and
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.B FmtPrec
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identify whether a width and precision were specified.
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.PP
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.I Fn
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is passed a pointer to the
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.B Fmt
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structure recording the state of the output.
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If
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.IB fp ->r
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is a verb (rather than a flag),
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.I fn
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should use
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.B Fmt->args
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to fetch its argument from the list,
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then format it, and return zero.
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If
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.IB fp ->r
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is a flag,
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.I fn
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should return one.
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All interpretation of
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.IB fp ->width\f1,
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.IB fp ->prec\f1,
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and
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.IB fp-> flags
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is left up to the conversion routine.
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.I Fmtinstall
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returns 0 if the installation succeeds, \-1 if it fails.
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.PP
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.IR Fmtprint
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and
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.IR fmtvprint
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may be called to
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help prepare output in custom conversion routines.
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However, these functions clear the width, precision, and flags.
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Both functions return 0 for success and \-1 for failure.
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.PP
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The functions
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.I dofmt
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and
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.I dorfmt
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are the underlying formatters; they
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use the existing contents of
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.B Fmt
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and should be called only by sophisticated conversion routines.
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These routines return the number of characters (bytes of UTF or runes)
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produced.
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.PP
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Some internal functions may be useful to format primitive types.
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They honor the width, precision and flags as described in
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.IR print (3).
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.I Fmtrune
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formats a single character
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.BR r .
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.I Fmtstrcpy
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formats a string
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.BR s ;
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.I fmtrunestrcpy
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formats a rune string
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.BR s .
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.I Errfmt
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formats the system error string.
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All these routines return zero for successful execution.
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Conversion routines that call these functions will work properly
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regardless of whether the output is bytes or runes.
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.\" .PP
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.\" .IR 2c (1)
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.\" describes the C directive
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.\" .B #pragma
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.\" .B varargck
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.\" that can be used to provide type-checking for custom print verbs and output routines.
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.SH EXAMPLES
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This function prints an error message with a variable
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number of arguments and then quits.
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Compared to the corresponding example in
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.IR print (3),
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this version uses a smaller buffer, will never truncate
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the output message, but might generate multiple
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.B write
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system calls to produce its output.
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.IP
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.EX
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.ta 6n +6n +6n +6n +6n +6n +6n +6n +6n
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#pragma varargck argpos error 1
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void fatal(char *fmt, ...)
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{
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Fmt f;
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char buf[64];
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va_list arg;
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fmtfdinit(&f, 1, buf, sizeof buf);
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fmtprint(&f, "fatal: ");
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va_start(arg, fmt);
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fmtvprint(&f, fmt, arg);
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va_end(arg);
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fmtprint(&f, "\en");
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fmtfdflush(&f);
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exits("fatal error");
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}
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.EE
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.PP
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This example adds a verb to print complex numbers.
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.IP
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.EX
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typedef
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struct {
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double r, i;
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} Complex;
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#pragma varargck type "X" Complex
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int
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Xfmt(Fmt *f)
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{
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Complex c;
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c = va_arg(f->args, Complex);
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return fmtprint(f, "(%g,%g)", c.r, c.i);
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}
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main(...)
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{
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Complex x = (Complex){ 1.5, -2.3 };
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fmtinstall('X', Xfmt);
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print("x = %X\en", x);
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}
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.EE
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.SH SOURCE
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.B http://swtch.com/plan9port/unix
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.SH SEE ALSO
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.IR print (3),
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.IR utf (7)
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.SH DIAGNOSTICS
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These routines return negative numbers or nil for errors and set
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.IR errstr .
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