some more constraints are described later, under \helpref{Escapes}{wxresynescapes}.
\begin{twocollist}\twocolwidtha{4cm}
-\twocolitem{{\bf $^$}}{matches at the beginning of a line}
+\twocolitem{{\bf \caret}}{matches at the beginning of a line}
\twocolitem{{\bf \$}}{matches at the end of a line}
\twocolitem{{\bf (?=re)}}{{\it positive lookahead}
(AREs only), matches at any point where a substring matching {\it re} begins}
A {\it bracket expression} is a list
of characters enclosed in `{\bf $[]$}'. It normally matches any single character from
-the list (but see below). If the list begins with `{\bf $^$}', it matches any single
+the list (but see below). If the list begins with `{\bf \caret}', it matches any single
character (but see below) {\it not} from the rest of the list.
If two characters
To include a literal {\bf $]$} or {\bf -} in the
list, the simplest method is to enclose it in {\bf $[.$} and {\bf $.]$} to make it a collating
element (see below). Alternatively, make it the first character (following
-a possible `{\bf $^$}'), or (AREs only) precede it with `{\bf $\backslash$}'.
+a possible `{\bf \caret}'), or (AREs only) precede it with `{\bf $\backslash$}'.
Alternatively, for `{\bf -}', make
it the last character, or the second endpoint of a range. To use a literal
{\bf -} as the first endpoint of a range, make it a collating element or (AREs
name for either) enclosed in {\bf $[.$} and {\bf $.]$} stands for the
sequence of characters of that collating element.
-{\it wxWindows}: Currently no multi-character collating elements are defined.
+{\it wxWidgets}: Currently no multi-character collating elements are defined.
So in {\bf $[.X.]$}, {\it X} can either be a single character literal or
the name of a character. For example, the following are both identical
{\bf $[[.0.]-[.9.]]$} and {\bf $[[.zero.]-[.nine.]]$} and mean the same as
%The sequence is a single element of the bracket
%expression's list. A bracket expression in a locale that has multi-character
%collating elements can thus match more than one character. So (insidiously),
-%a bracket expression that starts with {\bf $^$} can match multi-character collating
+%a bracket expression that starts with {\bf \caret} can match multi-character collating
%elements even if none of them appear in the bracket expression! ({\it Note:}
%Tcl currently has no multi-character collating elements. This information
%is only for illustration.)
%(If there are
%no other equivalent collating elements, the treatment is as if the enclosing
%delimiters were `{\bf $[.$}' and `{\bf $.]$}'.) For example, if {\bf o}
-%and {\bf $^$} are the members of an
-%equivalence class, then `{\bf $[[$=o=$]]$}', `{\bf $[[$=$^$=$]]$}',
+%and {\bf \caret} are the members of an
+%equivalence class, then `{\bf $[[$=o=$]]$}', `{\bf $[[$=\caret=$]]$}',
%and `{\bf $[o^]$}' are all synonymous.
An equivalence class may not be an endpoint of a range.
%implements only the Unicode locale. It doesn't define any equivalence classes.
%The examples above are just illustrations.)
-{\it wxWindows}: Currently no equivalence classes are defined, so
+{\it wxWidgets}: Currently no equivalence classes are defined, so
{\bf $[=X=]$} stands for just the single character {\it X}.
{\it X} can either be a single character literal or the name of a character,
see \helpref{Character Names}{wxresynchars}.
%implementation has only one locale: the Unicode locale.)
A character class may not be used as an endpoint of a range.
-{\it wxWindows:} In a non-Unicode build, these character classifications depend on the
+{\it wxWidgets}: In a non-Unicode build, these character classifications depend on the
current locale, and correspond to the values return by the ANSI C 'is'
functions: isalpha, isupper, etc. In Unicode mode they are based on
Unicode classifications, and are not affected by the current locale.
\begin{twocollist}\twocolwidtha{4cm}
\twocolitem{{\bf $\backslash$A}}{matches only at the beginning of the string
(see \helpref{Matching}{wxresynmatching}, below,
-for how this differs from `{\bf $^$}')}
+for how this differs from `{\bf \caret}')}
\twocolitem{{\bf $\backslash$m}}{matches only at the beginning of a word}
\twocolitem{{\bf $\backslash$M}}{matches only at the end of a word}
\twocolitem{{\bf $\backslash$y}}{matches only at the beginning or end of a word}
bracket expression, so that {\bf $[x]$} becomes {\bf $[xX]$} and {\bf $[^x]$} becomes `{\bf $[^xX]$}'.
If newline-sensitive
-matching is specified, {\bf .} and bracket expressions using {\bf $^$} will never match
+matching is specified, {\bf .} and bracket expressions using {\bf \caret} will never match
the newline character (so that matches will never cross newlines unless
-the RE explicitly arranges it) and {\bf $^$} and {\bf \$} will match the empty string after
+the RE explicitly arranges it) and {\bf \caret} and {\bf \$} will match the empty string after
and before a newline respectively, in addition to matching at beginning
and end of string respectively. ARE {\bf $\backslash$A} and {\bf $\backslash$Z} continue to match beginning
or end of string {\it only}.
If partial newline-sensitive matching is specified,
this affects {\bf .} and bracket expressions as with newline-sensitive matching,
-but not {\bf $^$} and `{\bf \$}'.
+but not {\bf \caret} and `{\bf \$}'.
If inverse partial newline-sensitive matching is specified,
-this affects {\bf $^$} and {\bf \$} as with newline-sensitive matching, but not {\bf .} and bracket
+this affects {\bf \caret} and {\bf \$} as with newline-sensitive matching, but not {\bf .} and bracket
expressions. This isn't very useful but is provided for symmetry.
\subsection{Limits And Compatibility}
are {\bf $\backslash$\{} and `{\bf $\backslash$\}}', with {\bf \{} and
{\bf \}} by themselves ordinary characters. The parentheses for nested subexpressions
are {\bf $\backslash$(} and `{\bf $\backslash$)}', with {\bf (} and {\bf )} by themselves
-ordinary characters. {\bf $^$} is an ordinary
+ordinary characters. {\bf \caret} is an ordinary
character except at the beginning of the RE or the beginning of a parenthesized
subexpression, {\bf \$} is an ordinary character except at the end of the RE or
the end of a parenthesized subexpression, and {\bf *} is an ordinary character
if it appears at the beginning of the RE or the beginning of a parenthesized
-subexpression (after a possible leading `{\bf $^$}'). Finally, single-digit back references
+subexpression (after a possible leading `{\bf \caret}'). Finally, single-digit back references
are available, and {\bf $\backslash<$} and {\bf $\backslash>$} are synonyms
for {\bf $[[:<:]]$} and {\bf $[[:>:]]$} respectively;
no other escapes are available.
\twocolitem{backslash}{'$\backslash$'}
\twocolitem{reverse-solidus}{'$\backslash$'}
\twocolitem{right-square-bracket}{'$]$'}
-\twocolitem{circumflex}{'$^$'}
-\twocolitem{circumflex-accent}{'$^$'}
+\twocolitem{circumflex}{'\caret'}
+\twocolitem{circumflex-accent}{'\caret'}
\twocolitem{underscore}{'\_'}
\twocolitem{low-line}{'\_'}
\twocolitem{grave-accent}{'`'}
\twocolitem{vertical-line}{'$|$'}
\twocolitem{right-brace}{'\}'}
\twocolitem{right-curly-bracket}{'\}'}
-\twocolitem{tilde}{'$~$'}
+\twocolitem{tilde}{'\destruct{}'}
\twocolitem{DEL}{'$\backslash$177'}
\end{twocollist}