path: root/doc/regsub.n

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.TH regsub n 8.3 Tcl "Tcl Built-In Commands"
.so man.macros
.BS
'\" Note:  do not modify the .SH NAME line immediately below!
.SH NAME
regsub \- Perform substitutions based on regular expression pattern matching
.SH SYNOPSIS
\fBregsub \fR?\fIswitches\fR? \fIexp string subSpec \fR?\fIvarName\fR?
.BE
.SH DESCRIPTION
.PP
This command matches the regular expression \fIexp\fR against
\fIstring\fR,
and either copies \fIstring\fR to the variable whose name is
given by \fIvarName\fR or returns \fIstring\fR if \fIvarName\fR is not
present.
(Regular expression matching is described in the \fBre_syntax\fR
reference page.)
If there is a match, then while copying \fIstring\fR to \fIvarName\fR
(or to the result of this command if \fIvarName\fR is not present)
the portion of \fIstring\fR that
matched \fIexp\fR is replaced with \fIsubSpec\fR.
If \fIsubSpec\fR contains a
.QW &
or
.QW \e0 ,
then it is replaced in the substitution with the portion of
\fIstring\fR that matched \fIexp\fR.
If \fIsubSpec\fR contains a
.QW \e\fIn\fR ,
where \fIn\fR is a digit
between 1 and 9, then it is replaced in the substitution with
the portion of \fIstring\fR that matched the \fIn\fR'th
parenthesized subexpression of \fIexp\fR.
Additional backslashes may be used in \fIsubSpec\fR to prevent special
interpretation of
.QW & ,
.QW \e0 ,
.QW \e\fIn\fR
and backslashes.
The use of backslashes in \fIsubSpec\fR tends to interact badly
with the Tcl parser's use of backslashes, so it is generally
safest to enclose \fIsubSpec\fR in braces if it includes
backslashes.
.LP
If the initial arguments to \fBregsub\fR start with \fB\-\fR then
they are treated as switches.  The following switches are
currently supported:
.TP
\fB\-all\fR
.
All ranges in \fIstring\fR that match \fIexp\fR are found and
substitution is performed for each of these ranges.
Without this switch only the first
matching range is found and substituted.
If \fB\-all\fR is specified, then
.QW &
and
.QW \e\fIn\fR
sequences are handled for each substitution using the information
from the corresponding match.
.TP
\fB\-command\fR
.VS 8.7
Changes the handling of the substitution string so that it no longer treats
.QW &
and
.QW \e
as special characters, but instead uses them as a non-empty list of words.
Each time a substitution is processed, another complete Tcl word is appended
to that list for each substitution value (the first such argument represents
the overall matched substring, the subsequent arguments will be one per
capturing sub-RE, much as are returned from \fBregexp\fR \fB\-inline\fR) and
the overall list is then evaluated as a Tcl command call. If the command
finishes successfully, the result of command call is substituted into the
resulting string.
.RS
.PP
If \fB\-all\fR is not also given, the command callback will be invoked at most
once (exactly when the regular expression matches). If \fB\-all\fR is given,
the command callback will be invoked for each matched location, in sequence.
The exact location indices that matched are not made available to the script.
.PP
See \fBEXAMPLES\fR below for illustrative cases.
.RE
.VE 8.7
.TP
\fB\-expanded\fR
.
Enables use of the expanded regular expression syntax where
whitespace and comments are ignored.  This is the same as specifying
the \fB(?x)\fR embedded option (see the \fBre_syntax\fR manual page).
.TP
\fB\-line\fR
.
Enables newline-sensitive matching.  By default, newline is a
completely ordinary character with no special meaning.  With this flag,
.QW [^
bracket expressions and
.QW .
never match newline,
.QW ^
matches an empty string after any newline in addition to its normal
function, and
.QW $
matches an empty string before any newline in
addition to its normal function.  This flag is equivalent to
specifying both \fB\-linestop\fR and \fB\-lineanchor\fR, or the
\fB(?n)\fR embedded option (see the \fBre_syntax\fR manual page).
.TP
\fB\-linestop\fR
.
Changes the behavior of
.QW [^
bracket expressions and
.QW .
so that they
stop at newlines.  This is the same as specifying the \fB(?p)\fR
embedded option (see the \fBre_syntax\fR manual page).
.TP
\fB\-lineanchor\fR
.
Changes the behavior of
.QW ^
and
.QW $
(the
.QW anchors )
so they match the
beginning and end of a line respectively.  This is the same as
specifying the \fB(?w)\fR embedded option (see the \fBre_syntax\fR
manual page).
.TP
\fB\-nocase\fR
.
Upper-case characters in \fIstring\fR will be converted to lower-case
before matching against \fIexp\fR;  however, substitutions specified
by \fIsubSpec\fR use the original unconverted form of \fIstring\fR.
.TP
\fB\-start\fR \fIindex\fR
.
Specifies a character index offset into the string to start
matching the regular expression at.
The \fIindex\fR value is interpreted in the same manner
as the \fIindex\fR argument to \fBstring index\fR.
When using this switch,
.QW ^
will not match the beginning of the line, and \eA will still
match the start of the string at \fIindex\fR.
\fIindex\fR will be constrained to the bounds of the input string.
.TP
\fB\-\|\-\fR
.
Marks the end of switches.  The argument following this one will
be treated as \fIexp\fR even if it starts with a \fB\-\fR.
.PP
If \fIvarName\fR is supplied, the command returns a count of the
number of matching ranges that were found and replaced, otherwise the
string after replacement is returned.
See the manual entry for \fBregexp\fR for details on the interpretation
of regular expressions.
.SH EXAMPLES
.PP
Replace (in the string in variable \fIstring\fR) every instance of
\fBfoo\fR which is a word by itself with \fBbar\fR:
.PP
.CS
\fBregsub\fR -all {\emfoo\eM} $string bar string
.CE
.PP
or (using the
.QW "basic regular expression"
syntax):
.PP
.CS
\fBregsub\fR -all {(?b)\e<foo\e>} $string bar string
.CE
.PP
Insert double-quotes around the first instance of the word
\fBinteresting\fR, however it is capitalized.
.PP
.CS
\fBregsub\fR -nocase {\eyinteresting\ey} $string {"&"} string
.CE
.PP
Convert all non-ASCII and Tcl-significant characters into \eu escape
sequences by using \fBregsub\fR and \fBsubst\fR in combination:
.PP
.CS
# This RE is just a character class for almost everything "bad"
set RE {[][{};#\e\e\e$ \er\et\eu0080-\euffff]}

# We will substitute with a fragment of Tcl script in brackets
set substitution {[format \e\e\e\eu%04x [scan "\e\e&" %c]]}

# Now we apply the substitution to get a subst-string that
# will perform the computational parts of the conversion. Note
# that newline is handled specially through \fBstring map\fR since
# backslash-newline is a special sequence.
set quoted [subst [string map {\en {\e\eu000a}} \e
        [\fBregsub\fR -all $RE $string $substitution]]]
.CE
.PP
.VS 8.7
The above operation can be done using \fBregsub \-command\fR instead, which is
often faster. (A full pre-computed \fBstring map\fR would be faster still, but
the cost of computing the map for a transformation as complex as this can be
quite large.)
.PP
.CS
# This RE is just a character class for everything "bad"
set RE {[][{};#\e\e\e$\es\eu0080-\euffff]}

# This encodes what the RE described above matches
proc encodeChar {ch} {
    # newline is handled specially since backslash-newline is a
    # special sequence.
    if {$ch eq "\en"} {
        return "\e\eu000a"
    }
    # No point in writing this as a one-liner
    scan $ch %c charNumber
    format "\e\eu%04x" $charNumber
}

set quoted [\fBregsub\fR -all -command $RE $string encodeChar]
.CE
.PP
Decoding a URL-encoded string using \fBregsub \-command\fR, a lambda term and
the \fBapply\fR command.
.PP
.CS
# Match one of the sequences in a URL-encoded string that needs
# fixing, converting + to space and %XX to the right character
# (e.g., %7e becomes ~)
set RE {(\e+)|%([0-9A-Fa-f]{2})}

# Note that -command uses a command prefix, not a command name
set decoded [\fBregsub\fR -all -command $RE $string {apply {{- p h} {
    # + is a special case; handle directly
    if {$p eq "+"} {
        return " "
    }
    # convert hex to a char
    scan $h %x charNumber
    format %c $charNumber
}}}]
.CE
.VE 8.7
.SH "SEE ALSO"
regexp(n), re_syntax(n), subst(n), string(n)
.SH KEYWORDS
match, pattern, quoting, regular expression, substitution
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