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# Match words by the style given below. The matching depends on the
# cursor position. The matched_words array is set to the matched portions
# separately. These look like:
# <stuff-at-start> <word-before-cursor> <whitespace-before-cursor>
# <whitespace-after-cursor> <word-after-cursor> <whitespace-after-word>
# <stuff-at-end>
# where the cursor position is always after the third item and `after'
# is to be interpreted as `after or on'. Some
# of the array elements will be empty; this depends on the style.
# For example
# foo bar rod stick
# ^
# with the cursor where indicated will with typical settings produce the
# elements `foo ', `bar', ` ', ` ', `rod', ` ' and `stick'.
#
# The style word-style can be set to indicate what a word is.
# The three possibilities are:
#
# shell Words are shell words, i.e. elements of a command line.
# whitespace Words are space delimited words; only space or tab characters
# are considered to terminated a word.
# normal (the default): the usual zle logic is applied, with all
# alphanumeric characters plus any characters in $WORDCHARS
# considered parts of a word. The style word-chars overrides
# the parameter. (Any currently undefined value will be
# treated as `normal', but this should not be relied upon.)
# specified Similar to normal, except that only the words given
# in the string (and not also alphanumeric characters)
# are to be considered parts of words.
# unspecified The negation of `specified': the characters given
# are those that aren't to be considered parts of a word.
# They should probably include white space.
#
# In the case of the `normal' or `(un)specified', more control on the
# behaviour can be obtained by setting the style `word-chars' for the
# current context. The value is used to override $WORDCHARS locally.
# Hence,
# zstyle ':zle:transpose-words*' word-style normal
# zstyle ':zle:transpose-words*' word-chars ''
# will force bash-style word recognition, i.e only alphanumeric characters
# are considered parts of a word. It is up to the function which calls
# match-words-by-style to set the context in the variable curcontext,
# else a default context will be used (not recommended).
#
# You can override the use of word-chars with the style word-class.
# This specifies the same information, but as a character class.
# The surrounding square brackets shouldn't be given, but anything
# which can appear inside is allowed. For example,
# zstyle ':zle:*' word-class '-:[:alnum:]'
# is valid. Note the usual care with `]' , `^' and `-' must be taken if
# they need to appear as individual characters rather than for grouping.
#
# The final style is `skip-chars'. This is an integer; that many
# characters counting the one under the cursor will be treated as
# whitespace regardless and added to the front of the fourth element of
# matched_words. The default is zero, i.e. the character under the cursor
# will appear in <whitespace-after-cursor> if it is whitespace, else in
# <word-after-cursor>. This style is mostly useful for forcing
# transposition to ignore the current character.
emulate -L zsh
setopt extendedglob
local wordstyle spacepat wordpat1 wordpat2 opt charskip
local match mbegin mend pat1 pat2 word1 word2 ws1 ws2 ws3 skip
local MATCH MBEGIN MEND
if [[ -z $curcontext ]]; then
local curcontext=:zle:match-words-by-style
fi
zstyle -s $curcontext word-style wordstyle
zstyle -s $curcontext skip-chars skip
[[ -z $skip ]] && skip=0
case $wordstyle in
(shell) local bufwords
# This splits the line into words as the shell understands them.
bufwords=(${(z)LBUFFER})
# Work around bug: if stripping quotes failed, a bogus
# space is appended. Not a good test, since this may
# be a quoted space, but it's hard to get right.
wordpat1=${bufwords[-1]}
if [[ ${wordpat1[-1]} = ' ' ]]; then
wordpat1=${(q)wordpat1[1,-2]}
else
wordpat1="${(q)wordpat1}"
fi
# Take substring of RBUFFER to skip over $skip characters
# from the cursor position.
bufwords=(${(z)RBUFFER[1+$skip,-1]})
# Work around bug again.
wordpat2=${bufwords[1]}
if [[ ${wordpat2[-1]} = ' ' ]]
then
wordpat2=${(q)wordpat2[1,-2]}
else
wordpat2="${(q)wordpat2}"
fi
spacepat='[[:space:]]#'
;;
(*space) spacepat='[[:space:]]#'
wordpat1='[^[:space:]]##'
wordpat2=$wordpat1
;;
(*) local wc
# See if there is a character class.
if zstyle -s $curcontext word-class wc; then
# Treat as a character class: do minimal quoting.
wc=${wc//(#m)[\'\"\`\$\(\)\^]/\\$MATCH}
else
# See if there is a local version of $WORDCHARS.
zstyle -s $curcontext word-chars wc ||
wc=$WORDCHARS
if [[ $wc = (#b)(?*)-(*) ]]; then
# We need to bring any `-' to the front to avoid confusing
# character classes... we get away with `]' since in zsh
# this isn't a pattern character if it's quoted.
wc=-$match[1]$match[2]
fi
wc="${(q)wc}"
fi
# Quote $wc where necessary, because we don't want those
# characters to be considered as pattern characters later on.
if [[ $wordstyle = *specified ]]; then
if [[ $wordstyle != un* ]]; then
# The given set of characters are the word characters, nothing else
wordpat1="[${wc}]##"
# anything else is a space.
spacepat="[^${wc}]#"
else
# The other way round.
wordpat1="[^${wc}]##"
spacepat="[${wc}]#"
fi
else
# Normal: similar, but add alphanumerics.
wordpat1="[${wc}[:alnum:]]##"
spacepat="[^${wc}[:alnum:]]#"
fi
wordpat2=$wordpat1
;;
esac
# The eval makes any special characters in the parameters active.
# In particular, we need the surrounding `[' s to be `real'.
# This is why we quoted the wordpats in the `shell' option, where
# they have to be treated as literal strings at this point.
match=()
eval pat1='${LBUFFER%%(#b)('${wordpat1}')('${spacepat}')}'
word1=$match[1]
ws1=$match[2]
match=()
charskip=
repeat $skip charskip+=\?
eval pat2='${RBUFFER##(#b)('${charskip}${spacepat}')('\
${wordpat2}')('${spacepat}')}'
ws2=$match[1]
word2=$match[2]
ws3=$match[3]
matched_words=("$pat1" "$word1" "$ws1" "$ws2" "$word2" "$ws3" "$pat2")
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