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zstd: vendor python-zstandard 0.7.0...
zstd: vendor python-zstandard 0.7.0 Commit 3054ae3a66112970a091d3939fee32c2d0c1a23e from https://github.com/indygreg/python-zstandard is imported without modifications (other than removing unwanted files). The vendored zstd library within has been upgraded from 1.1.2 to 1.1.3. This version introduced new APIs for threads, thread pools, multi-threaded compression, and a new dictionary builder (COVER). These features are not yet used by python-zstandard (or Mercurial for that matter). However, that will likely change in the next python-zstandard release (and I think there are opportunities for Mercurial to take advantage of the multi-threaded APIs). Relevant to Mercurial, the CFFI bindings are now fully implemented. This means zstd should "just work" with PyPy (although I haven't tried). The python-zstandard test suite also runs all tests against both the C extension and CFFI bindings to ensure feature parity. There is also a "decompress_content_dict_chain()" API. This was derived from discussions with Yann Collet on list about alternate ways of encoding delta chains. The change most relevant to Mercurial is a performance enhancement in the simple decompression API to reuse a data structure across operations. This makes decompression of multiple inputs significantly faster. (This scenario occurs when reading revlog delta chains, for example.) Using python-zstandard's bench.py to measure the performance difference... On changelog chunks in the mozilla-unified repo: decompress discrete decompress() reuse zctx 1.262243 wall; 1.260000 CPU; 1.260000 user; 0.000000 sys 170.43 MB/s (best of 3) 0.949106 wall; 0.950000 CPU; 0.950000 user; 0.000000 sys 226.66 MB/s (best of 4) decompress discrete dict decompress() reuse zctx 0.692170 wall; 0.690000 CPU; 0.690000 user; 0.000000 sys 310.80 MB/s (best of 5) 0.437088 wall; 0.440000 CPU; 0.440000 user; 0.000000 sys 492.17 MB/s (best of 7) On manifest chunks in the mozilla-unified repo: decompress discrete decompress() reuse zctx 1.367284 wall; 1.370000 CPU; 1.370000 user; 0.000000 sys 274.01 MB/s (best of 3) 1.086831 wall; 1.080000 CPU; 1.080000 user; 0.000000 sys 344.72 MB/s (best of 3) decompress discrete dict decompress() reuse zctx 0.993272 wall; 0.990000 CPU; 0.990000 user; 0.000000 sys 377.19 MB/s (best of 3) 0.678651 wall; 0.680000 CPU; 0.680000 user; 0.000000 sys 552.06 MB/s (best of 5) That should make reads on zstd revlogs a bit faster ;) # no-check-commit
Mathias De Maré - - Load All Authors

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bash_completion
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# bash completion for the Mercurial distributed SCM -*- sh -*-
# Docs:
#
# If you source this file from your .bashrc, bash should be able to
# complete a command line that uses hg with all the available commands
# and options and sometimes even arguments.
#
# Mercurial allows you to define additional commands through extensions.
# Bash should be able to automatically figure out the name of these new
# commands and their options. See below for how to define _hg_opt_foo
# and _hg_cmd_foo functions to fine-tune the completion for option and
# non-option arguments, respectively.
#
#
# Notes about completion for specific commands:
#
# - the completion function for the email command from the patchbomb
# extension will try to call _hg_emails to get a list of e-mail
# addresses. It's up to the user to define this function. For
# example, put the addresses of the lists that you usually patchbomb
# in ~/.patchbomb-to and the addresses that you usually use to send
# the patchbombs in ~/.patchbomb-from and use something like this:
#
# _hg_emails()
# {
# if [ -r ~/.patchbomb-$1 ]; then
# cat ~/.patchbomb-$1
# fi
# }
#
#
# Writing completion functions for additional commands:
#
# If it exists, the function _hg_cmd_foo will be called without
# arguments to generate the completion candidates for the hg command
# "foo". If the command receives some arguments that aren't options
# even though they start with a "-", you can define a function called
# _hg_opt_foo to generate the completion candidates. If _hg_opt_foo
# doesn't return 0, regular completion for options is attempted.
#
# In addition to the regular completion variables provided by bash,
# the following variables are also set:
# - $hg - the hg program being used (e.g. /usr/bin/hg)
# - $cmd - the name of the hg command being completed
# - $cmd_index - the index of $cmd in $COMP_WORDS
# - $cur - the current argument being completed
# - $prev - the argument before $cur
# - $global_args - "|"-separated list of global options that accept
# an argument (e.g. '--cwd|-R|--repository')
# - $canonical - 1 if we canonicalized $cmd before calling the function
# 0 otherwise
#
shopt -s extglob
_hg_cmd()
{
HGPLAIN=1 "$hg" "$@" 2>/dev/null
}
_hg_commands()
{
local commands
commands="$(HGPLAINEXCEPT=alias _hg_cmd debugcomplete "$cur")" || commands=""
COMPREPLY=(${COMPREPLY[@]:-} $(compgen -W '$commands' -- "$cur"))
}
_hg_paths()
{
local paths="$(_hg_cmd paths -q)"
COMPREPLY=(${COMPREPLY[@]:-} $(compgen -W '$paths' -- "$cur"))
}
_hg_repos()
{
local i
for i in $(compgen -d -- "$cur"); do
test ! -d "$i"/.hg || COMPREPLY=(${COMPREPLY[@]:-} "$i")
done
}
_hg_debugpathcomplete()
{
local files="$(_hg_cmd debugpathcomplete $1 "$cur")"
local IFS=$'\n'
COMPREPLY=(${COMPREPLY[@]:-} $(compgen -W '$files' -- "$cur"))
}
_hg_status()
{
if [ -z "$HGCOMPLETE_NOSTATUS" ]; then
local files="$(_hg_cmd status -n$1 "glob:$cur**")"
local IFS=$'\n'
COMPREPLY=(${COMPREPLY[@]:-} $(compgen -W '$files' -- "$cur"))
fi
}
_hg_branches()
{
local branches="$(_hg_cmd branches -q)"
local IFS=$'\n'
COMPREPLY=(${COMPREPLY[@]:-} $(compgen -W '$branches' -- "$cur"))
}
_hg_bookmarks()
{
local bookmarks="$(_hg_cmd bookmarks -q)"
local IFS=$'\n'
COMPREPLY=(${COMPREPLY[@]:-} $(compgen -W '$bookmarks' -- "$cur"))
}
_hg_labels()
{
local labels="$(_hg_cmd debugnamecomplete "$cur")"
local IFS=$'\n'
COMPREPLY=(${COMPREPLY[@]:-} $(compgen -W '$labels' -- "$cur"))
}
# this is "kind of" ugly...
_hg_count_non_option()
{
local i count=0
local filters="$1"
for ((i=1; $i<=$COMP_CWORD; i++)); do
if [[ "${COMP_WORDS[i]}" != -* ]]; then
if [[ ${COMP_WORDS[i-1]} == @($filters|$global_args) ]]; then
continue
fi
count=$(($count + 1))
fi
done
echo $(($count - 1))
}
_hg_fix_wordlist()
{
local LASTCHAR=' '
if [ ${#COMPREPLY[@]} = 1 ]; then
[ -d "$COMPREPLY" ] && LASTCHAR=/
COMPREPLY=$(printf %q%s "$COMPREPLY" "$LASTCHAR")
else
for ((i=0; i < ${#COMPREPLY[@]}; i++)); do
[ -d "${COMPREPLY[$i]}" ] && COMPREPLY[$i]=${COMPREPLY[$i]}/
done
fi
}
_hg()
{
local cur prev cmd cmd_index opts i aliashg
# global options that receive an argument
local global_args='--cwd|-R|--repository'
local hg="$1"
local canonical=0
aliashg=$(alias $hg 2>/dev/null)
if [[ -n "$aliashg" ]]; then
aliashg=${aliashg#"alias $hg='"}
aliashg=${aliashg%"'"}
hg=$aliashg
fi
COMPREPLY=()
cur="$2"
prev="$3"
# searching for the command
# (first non-option argument that doesn't follow a global option that
# receives an argument)
for ((i=1; $i<=$COMP_CWORD; i++)); do
if [[ ${COMP_WORDS[i]} != -* ]]; then
if [[ ${COMP_WORDS[i-1]} != @($global_args) ]]; then
cmd="${COMP_WORDS[i]}"
cmd_index=$i
break
fi
fi
done
if [[ "$cur" == -* ]]; then
if [ "$(type -t "_hg_opt_$cmd")" = function ] && "_hg_opt_$cmd"; then
_hg_fix_wordlist
return
fi
opts=$(HGPLAINEXCEPT=alias _hg_cmd debugcomplete --options "$cmd")
COMPREPLY=(${COMPREPLY[@]:-} $(compgen -W '$opts' -- "$cur"))
_hg_fix_wordlist
return
fi
# global options
case "$prev" in
-R|--repository)
_hg_paths
_hg_repos
_hg_fix_wordlist
return
;;
--cwd)
# Stick with default bash completion
_hg_fix_wordlist
return
;;
esac
if [ -z "$cmd" ] || [ $COMP_CWORD -eq $i ]; then
_hg_commands
_hg_fix_wordlist
return
fi
# try to generate completion candidates for whatever command the user typed
local help
if _hg_command_specific; then
_hg_fix_wordlist
return
fi
# canonicalize the command name and try again
help=$(_hg_cmd help "$cmd")
if [ $? -ne 0 ]; then
# Probably either the command doesn't exist or it's ambiguous
return
fi
cmd=${help#hg }
cmd=${cmd%%[$' \n']*}
canonical=1
_hg_command_specific
_hg_fix_wordlist
}
_hg_command_specific()
{
if [ "$(type -t "_hg_cmd_$cmd")" = function ]; then
"_hg_cmd_$cmd"
return 0
fi
if [ "$cmd" != status ]; then
case "$prev" in
-r|--rev)
if [[ $canonical = 1 || status != "$cmd"* ]]; then
_hg_labels
return 0
fi
return 1
;;
-B|--bookmark)
if [[ $canonical = 1 || status != "$cmd"* ]]; then
_hg_bookmarks
return 0
fi
return 1
;;
-b|--branch)
if [[ $canonical = 1 || status != "$cmd"* ]]; then
_hg_branches
return 0
fi
return 1
;;
esac
fi
local aliascmd=$(_hg_cmd showconfig alias.$cmd | awk '{print $1}')
[ -n "$aliascmd" ] && cmd=$aliascmd
case "$cmd" in
help)
_hg_commands
;;
export)
if _hg_ext_mq_patchlist qapplied && [ "${COMPREPLY[*]}" ]; then
return 0
fi
_hg_labels
;;
manifest|update|up|checkout|co)
_hg_labels
;;
pull|push|outgoing|incoming)
_hg_paths
_hg_repos
;;
paths)
_hg_paths
;;
add)
_hg_status "u"
;;
merge)
_hg_labels
;;
commit|ci|record)
_hg_status "mar"
;;
remove|rm)
_hg_debugpathcomplete -n
;;
forget)
_hg_debugpathcomplete -fa
;;
diff)
_hg_status "mar"
;;
revert)
_hg_debugpathcomplete
;;
clone)
local count=$(_hg_count_non_option)
if [ $count = 1 ]; then
_hg_paths
fi
_hg_repos
;;
debugindex|debugindexdot)
COMPREPLY=(${COMPREPLY[@]:-} $(compgen -f -X "!*.i" -- "$cur"))
;;
debugdata)
COMPREPLY=(${COMPREPLY[@]:-} $(compgen -f -X "!*.d" -- "$cur"))
;;
*)
return 1
;;
esac
return 0
}
complete -o bashdefault -o default -o nospace -F _hg hg \
|| complete -o default -o nospace -F _hg hg
# Completion for commands provided by extensions
# bookmarks
_hg_cmd_bookmarks()
{
_hg_bookmarks
return
}
# mq
_hg_ext_mq_patchlist()
{
local patches
patches=$(_hg_cmd $1)
if [ $? -eq 0 ] && [ "$patches" ]; then
COMPREPLY=(${COMPREPLY[@]:-} $(compgen -W '$patches' -- "$cur"))
return 0
fi
return 1
}
_hg_ext_mq_queues()
{
local root=$(_hg_cmd root)
local n
for n in $(cd "$root"/.hg && compgen -d -- "$cur"); do
# I think we're usually not interested in the regular "patches" queue
# so just filter it.
if [ "$n" != patches ] && [ -e "$root/.hg/$n/series" ]; then
COMPREPLY=(${COMPREPLY[@]:-} "$n")
fi
done
}
_hg_cmd_qpop()
{
if [[ "$prev" = @(-n|--name) ]]; then
_hg_ext_mq_queues
return
fi
_hg_ext_mq_patchlist qapplied
}
_hg_cmd_qpush()
{
if [[ "$prev" = @(-n|--name) ]]; then
_hg_ext_mq_queues
return
fi
_hg_ext_mq_patchlist qunapplied
}
_hg_cmd_qgoto()
{
if [[ "$prev" = @(-n|--name) ]]; then
_hg_ext_mq_queues
return
fi
_hg_ext_mq_patchlist qseries
}
_hg_cmd_qdelete()
{
local qcmd=qunapplied
if [[ "$prev" = @(-r|--rev) ]]; then
qcmd=qapplied
fi
_hg_ext_mq_patchlist $qcmd
}
_hg_cmd_qfinish()
{
if [[ "$prev" = @(-a|--applied) ]]; then
return
fi
_hg_ext_mq_patchlist qapplied
}
_hg_cmd_qsave()
{
if [[ "$prev" = @(-n|--name) ]]; then
_hg_ext_mq_queues
return
fi
}
_hg_cmd_rebase() {
if [[ "$prev" = @(-s|--source|-d|--dest|-b|--base|-r|--rev) ]]; then
_hg_labels
return
fi
}
_hg_cmd_strip()
{
if [[ "$prev" = @(-B|--bookmark) ]]; then
_hg_bookmarks
return
fi
_hg_labels
}
_hg_cmd_qcommit()
{
local root=$(_hg_cmd root)
# this is run in a sub-shell, so we can't use _hg_status
local files=$(cd "$root/.hg/patches" && _hg_cmd status -nmar)
COMPREPLY=(${COMPREPLY[@]:-} $(compgen -W '$files' -- "$cur"))
}
_hg_cmd_qfold()
{
_hg_ext_mq_patchlist qunapplied
}
_hg_cmd_qrename()
{
_hg_ext_mq_patchlist qseries
}
_hg_cmd_qheader()
{
_hg_ext_mq_patchlist qseries
}
_hg_cmd_qclone()
{
local count=$(_hg_count_non_option)
if [ $count = 1 ]; then
_hg_paths
fi
_hg_repos
}
_hg_ext_mq_guards()
{
_hg_cmd qselect --series | sed -e 's/^.//'
}
_hg_cmd_qselect()
{
local guards=$(_hg_ext_mq_guards)
COMPREPLY=(${COMPREPLY[@]:-} $(compgen -W '$guards' -- "$cur"))
}
_hg_cmd_qguard()
{
local prefix=''
if [[ "$cur" == +* ]]; then
prefix=+
elif [[ "$cur" == -* ]]; then
prefix=-
fi
local ncur=${cur#[-+]}
if ! [ "$prefix" ]; then
_hg_ext_mq_patchlist qseries
return
fi
local guards=$(_hg_ext_mq_guards)
COMPREPLY=(${COMPREPLY[@]:-} $(compgen -P $prefix -W '$guards' -- "$ncur"))
}
_hg_opt_qguard()
{
local i
for ((i=cmd_index+1; i<=COMP_CWORD; i++)); do
if [[ ${COMP_WORDS[i]} != -* ]]; then
if [[ ${COMP_WORDS[i-1]} != @($global_args) ]]; then
_hg_cmd_qguard
return 0
fi
elif [ "${COMP_WORDS[i]}" = -- ]; then
_hg_cmd_qguard
return 0
fi
done
return 1
}
_hg_cmd_qqueue()
{
local q
local queues
local opts="--list --create --rename --delete --purge"
queues=$( _hg_cmd qqueue --quiet )
COMPREPLY=( $( compgen -W "${opts} ${queues}" "${cur}" ) )
}
# hbisect
_hg_cmd_bisect()
{
local i subcmd
# find the sub-command
for ((i=cmd_index+1; i<=COMP_CWORD; i++)); do
if [[ ${COMP_WORDS[i]} != -* ]]; then
if [[ ${COMP_WORDS[i-1]} != @($global_args) ]]; then
subcmd="${COMP_WORDS[i]}"
break
fi
fi
done
if [ -z "$subcmd" ] || [ $COMP_CWORD -eq $i ] || [ "$subcmd" = help ]; then
COMPREPLY=(${COMPREPLY[@]:-}
$(compgen -W 'bad good help init next reset' -- "$cur"))
return
fi
case "$subcmd" in
good|bad)
_hg_labels
;;
esac
return
}
# patchbomb
_hg_cmd_email()
{
case "$prev" in
-c|--cc|-t|--to|-f|--from|--bcc)
# we need an e-mail address. let the user provide a function
# to get them
if [ "$(type -t _hg_emails)" = function ]; then
local arg=to
if [[ "$prev" == @(-f|--from) ]]; then
arg=from
fi
local addresses=$(_hg_emails $arg)
COMPREPLY=(${COMPREPLY[@]:-}
$(compgen -W '$addresses' -- "$cur"))
fi
return
;;
-m|--mbox)
# fallback to standard filename completion
return
;;
-s|--subject)
# free form string
return
;;
esac
_hg_labels
return
}
# gpg
_hg_cmd_sign()
{
_hg_labels
}
# transplant
_hg_cmd_transplant()
{
case "$prev" in
-s|--source)
_hg_paths
_hg_repos
return
;;
--filter)
# standard filename completion
return
;;
esac
# all other transplant options values and command parameters are revisions
_hg_labels
return
}
# shelve
_hg_shelves()
{
local shelves="$(_hg_cmd shelve -ql)"
local IFS=$'\n'
COMPREPLY=(${COMPREPLY[@]:-} $(compgen -W '$shelves' -- "$cur"))
}
_hg_cmd_shelve()
{
if [[ "$prev" = @(-d|--delete|-l|--list|-p|--patch|--stat) ]]; then
_hg_shelves
else
_hg_status "mard"
fi
}
_hg_cmd_unshelve()
{
_hg_shelves
}