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ohmyzsh/lib/functions.zsh
Marc Cornellà 095d56b5ea Fix WSL check for WSL 2 and simplify nohup in open_command
WSL 2 changes the output of `uname -r`. For instance,

  WSL 1: 4.4.0-18980-Microsoft
  WSL 2: 4.19.67-microsoft-standard

Since WSL 2 lowercases the M, we can match for the rest of the string
which remains lowercase throughout both versions. Another option would
be to match for both upper- and lower-case Ms, like that:

  $(uname -r) = *[Mm]icrosoft*

Fixed use of nohup in open_command where it was only necessary for
xdg-open (and actually harmful for cmd.exe in WSL 2). The current logic
is simpler and more future-proof.
2019-09-19 16:20:02 +02:00

225 lines
6.0 KiB
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function zsh_stats() {
fc -l 1 | awk '{CMD[$2]++;count++;}END { for (a in CMD)print CMD[a] " " CMD[a]/count*100 "% " a;}' | grep -v "./" | column -c3 -s " " -t | sort -nr | nl | head -n20
}
function uninstall_oh_my_zsh() {
env ZSH=$ZSH sh $ZSH/tools/uninstall.sh
}
function upgrade_oh_my_zsh() {
env ZSH=$ZSH sh $ZSH/tools/upgrade.sh
}
function take() {
mkdir -p $@ && cd ${@:$#}
}
function open_command() {
local open_cmd
# define the open command
case "$OSTYPE" in
darwin*) open_cmd='open' ;;
cygwin*) open_cmd='cygstart' ;;
linux*) [[ "$(uname -r)" != *icrosoft* ]] && open_cmd='nohup xdg-open' || {
open_cmd='cmd.exe /c start ""'
[[ -e "$1" ]] && { 1="$(wslpath -w "${1:a}")" || return 1 }
} ;;
msys*) open_cmd='start ""' ;;
*) echo "Platform $OSTYPE not supported"
return 1
;;
esac
${=open_cmd} "$@" &>/dev/null
}
#
# Get the value of an alias.
#
# Arguments:
# 1. alias - The alias to get its value from
# STDOUT:
# The value of alias $1 (if it has one).
# Return value:
# 0 if the alias was found,
# 1 if it does not exist
#
function alias_value() {
(( $+aliases[$1] )) && echo $aliases[$1]
}
#
# Try to get the value of an alias,
# otherwise return the input.
#
# Arguments:
# 1. alias - The alias to get its value from
# STDOUT:
# The value of alias $1, or $1 if there is no alias $1.
# Return value:
# Always 0
#
function try_alias_value() {
alias_value "$1" || echo "$1"
}
#
# Set variable "$1" to default value "$2" if "$1" is not yet defined.
#
# Arguments:
# 1. name - The variable to set
# 2. val - The default value
# Return value:
# 0 if the variable exists, 3 if it was set
#
function default() {
(( $+parameters[$1] )) && return 0
typeset -g "$1"="$2" && return 3
}
#
# Set environment variable "$1" to default value "$2" if "$1" is not yet defined.
#
# Arguments:
# 1. name - The env variable to set
# 2. val - The default value
# Return value:
# 0 if the env variable exists, 3 if it was set
#
function env_default() {
(( ${${(@f):-$(typeset +xg)}[(I)$1]} )) && return 0
export "$1=$2" && return 3
}
# Required for $langinfo
zmodload zsh/langinfo
# URL-encode a string
#
# Encodes a string using RFC 2396 URL-encoding (%-escaped).
# See: https://www.ietf.org/rfc/rfc2396.txt
#
# By default, reserved characters and unreserved "mark" characters are
# not escaped by this function. This allows the common usage of passing
# an entire URL in, and encoding just special characters in it, with
# the expectation that reserved and mark characters are used appropriately.
# The -r and -m options turn on escaping of the reserved and mark characters,
# respectively, which allows arbitrary strings to be fully escaped for
# embedding inside URLs, where reserved characters might be misinterpreted.
#
# Prints the encoded string on stdout.
# Returns nonzero if encoding failed.
#
# Usage:
# omz_urlencode [-r] [-m] [-P] <string>
#
# -r causes reserved characters (;/?:@&=+$,) to be escaped
#
# -m causes "mark" characters (_.!~*''()-) to be escaped
#
# -P causes spaces to be encoded as '%20' instead of '+'
function omz_urlencode() {
emulate -L zsh
zparseopts -D -E -a opts r m P
local in_str=$1
local url_str=""
local spaces_as_plus
if [[ -z $opts[(r)-P] ]]; then spaces_as_plus=1; fi
local str="$in_str"
# URLs must use UTF-8 encoding; convert str to UTF-8 if required
local encoding=$langinfo[CODESET]
local safe_encodings
safe_encodings=(UTF-8 utf8 US-ASCII)
if [[ -z ${safe_encodings[(r)$encoding]} ]]; then
str=$(echo -E "$str" | iconv -f $encoding -t UTF-8)
if [[ $? != 0 ]]; then
echo "Error converting string from $encoding to UTF-8" >&2
return 1
fi
fi
# Use LC_CTYPE=C to process text byte-by-byte
local i byte ord LC_ALL=C
export LC_ALL
local reserved=';/?:@&=+$,'
local mark='_.!~*''()-'
local dont_escape="[A-Za-z0-9"
if [[ -z $opts[(r)-r] ]]; then
dont_escape+=$reserved
fi
# $mark must be last because of the "-"
if [[ -z $opts[(r)-m] ]]; then
dont_escape+=$mark
fi
dont_escape+="]"
# Implemented to use a single printf call and avoid subshells in the loop,
# for performance (primarily on Windows).
local url_str=""
for (( i = 1; i <= ${#str}; ++i )); do
byte="$str[i]"
if [[ "$byte" =~ "$dont_escape" ]]; then
url_str+="$byte"
else
if [[ "$byte" == " " && -n $spaces_as_plus ]]; then
url_str+="+"
else
ord=$(( [##16] #byte ))
url_str+="%$ord"
fi
fi
done
echo -E "$url_str"
}
# URL-decode a string
#
# Decodes a RFC 2396 URL-encoded (%-escaped) string.
# This decodes the '+' and '%' escapes in the input string, and leaves
# other characters unchanged. Does not enforce that the input is a
# valid URL-encoded string. This is a convenience to allow callers to
# pass in a full URL or similar strings and decode them for human
# presentation.
#
# Outputs the encoded string on stdout.
# Returns nonzero if encoding failed.
#
# Usage:
# omz_urldecode <urlstring> - prints decoded string followed by a newline
function omz_urldecode {
emulate -L zsh
local encoded_url=$1
# Work bytewise, since URLs escape UTF-8 octets
local caller_encoding=$langinfo[CODESET]
local LC_ALL=C
export LC_ALL
# Change + back to ' '
local tmp=${encoded_url:gs/+/ /}
# Protect other escapes to pass through the printf unchanged
tmp=${tmp:gs/\\/\\\\/}
# Handle %-escapes by turning them into `\xXX` printf escapes
tmp=${tmp:gs/%/\\x/}
local decoded
eval "decoded=\$'$tmp'"
# Now we have a UTF-8 encoded string in the variable. We need to re-encode
# it if caller is in a non-UTF-8 locale.
local safe_encodings
safe_encodings=(UTF-8 utf8 US-ASCII)
if [[ -z ${safe_encodings[(r)$caller_encoding]} ]]; then
decoded=$(echo -E "$decoded" | iconv -f UTF-8 -t $caller_encoding)
if [[ $? != 0 ]]; then
echo "Error converting string from UTF-8 to $caller_encoding" >&2
return 1
fi
fi
echo -E "$decoded"
}