view misc/_jp @ 2160:e67e8cd24141

core (tools/common): data objects first draft: this module aims is to help manipulate complex data from bridge, mainly for the template system. It is in common and not only in frontends as it may be used in some case by backend, if it needs to use template system in the future.
author Goffi <goffi@goffi.org>
date Tue, 21 Feb 2017 21:01:40 +0100
parents d17772b0fe22
children
line wrap: on
line source

#compdef jp jp_dev
# jp: a SAT command line tool
# Copyright (C) 2009-2016 Jérôme Poisson (goffi@goffi.org)

# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.

# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU Affero General Public License for more details.

# You should have received a copy of the GNU Affero General Public License
# along with this program.  If not, see <http://www.gnu.org/licenses/>.


#TODO: - caching (see _store_cache en _retrieve_cache)
#      - filtering imposibles arguments
#      - arguments (jids, files)

PYTHON='python2'

local optionals subcommands arguments
local context state state_descr line
typeset -A val_args

_jp() {
	eval `/usr/bin/env $PYTHON 2> /dev/null <<- PYTHONEND
	import re
	from subprocess import check_output
	
	# import sys
	# words_raw="jp_dev " + ' '.join(sys.argv[1:]) # for debugging in a script
	words_raw="$words" # $words is the command line currently completed
	
	words_all = words_raw.split()
	prog_name = words_all[0]
	
	words_no_opt = [word for word in words_all if not word.startswith('-')] # command line without optional arguments
	
	choices_cache = {}
	
	ARG = r'[-a-z0-9_]' # charset accepted for an argument name
	subcommands_re = re.compile(r"^ +{((?:" + ARG + r"+)(?:," + ARG + r"+)*)}", re.MULTILINE)
	optionals_re = re.compile(r"^ {2,}(--?" + ARG + r"+(?: [A-Z_0-9]+)?(?:, --" + ARG + r"+(?: [A-Z_0-9]+)?)?)\n? {2,}(.*(?:\n {4,}.*)*$)", re.MULTILINE)
	arguments_re = re.compile(r"^ {2,}([a-z_]" + ARG + r"*) {2,}(.*$)", re.MULTILINE)
	clean_re = re.compile(r"(?P<prefix_spaces>^ +)|(?P<double_spaces> {2,})|(?P<newline>\n)|(?P<quote>')|(?P<suffix_spaces> +$)", re.MULTILINE)
	
	def _clean(desc):
	    def sub_clean(match):
	        matched_dict = match.groupdict()
	        matched = {matched for matched in matched_dict if matched_dict[matched]}
	        if matched.intersection(('prefix_spaces', 'suffix_spaces')):
	            return ''
	        elif matched.intersection(('double_spaces', 'newline')):
	            return ' '
	        elif matched.intersection(('quote',)):
	            return r"'\''"
	        else:
	            raise ValueError
	    return clean_re.sub(sub_clean, desc)
	
	def parse_help(jp_help):
	    # parse the help returning subcommands, optionals arguments, and mandatory arguments
	    subcommands = subcommands_re.findall(jp_help)
	    subcommands = {subcommand:"" for subcommand in subcommands[0].split(',')} if subcommands else {}
	    optionals = dict(optionals_re.findall(jp_help))
	    arguments = dict(arguments_re.findall(jp_help))
	    for subcommand in subcommands:
	        subcommands[subcommand] = arguments.pop(subcommand, '')
	    return subcommands, optionals, arguments
	
	def get_choice(opt_choice):
	    choices = choices_cache.get(opt_choice)
	    if choices is not None:
	        return choices
	    if opt_choice == 'PROFILE':
	        profiles = check_output([prog_name, 'profile', 'list'])
	        choices = ":profile:(%s)" % ' '.join(profiles.split('\n'))
	    if choices:
	        choices_cache[opt_choice] = choices
	        return choices
	    else:
	        return ""
	
	def construct_opt(opts, desc):
	    # construct zsh's _arguments line for optional arguments
	    arg_lines = []
	    for opt in opts.split(', '):
	        try:
	            opt_name, opt_choice = opt.split()
	        except ValueError:
	            # there is no argument
	            opt_name, opt_choice = opt, None
	        # arg_lines.append("'()%s[%s]%s'" % (opt_name+('=' if opt_name.startswith('--') else '+'),
	        arg_lines.append("'()%s[%s]%s'" % (opt_name,
	                                           _clean(desc),
	                                           "%s" % get_choice(opt_choice) if opt_choice else ''
	                                          ))
	    return ' '.join(arg_lines)
	
	current_args = []
	
	while True:
	    # parse jp's help recursively until words_no_opt doesn't correspond anymore to a subcommand
	    try:
	        current_args.append(words_no_opt.pop(0))
	        jp_help = check_output(current_args + ['--help'])
	        # print "jp_help (%s):\n%s\n\n---\n" % (' '.join(current_args), jp_help) # for debugging
	        subcommands, optionals, arguments = parse_help(jp_help)
	        if words_no_opt[0] not in subcommands:
	            break
	    except IndexError:
	        break
	
	# now we fill the arrays so zsh can use them
	env=[]
	env.append("optionals=(%s)" % ' '.join(construct_opt(opt, desc) for opt, desc in optionals.items()))
	env.append("subcommands=(%s)" % ' '.join(["'%s[%s]'" % (subcommand, _clean(desc)) for subcommand, desc in subcommands.items()]))
	env.append("arguments=(%s)" % ' '.join(["'%s[%s]'" % (argument, _clean(desc)) for argument, desc in arguments.items()]))
	
	print ";".join(env) # this line is for eval
	PYTHONEND
	`
	
	if [  -n "$optionals" ]; then
		_values optional $optionals
		
	fi
	if [  -n "$subcommands" ]; then
		_values subcommand $subcommands
	fi
	if [ -n "$arguments" ]; then
		#_values argument $arguments
	fi
}


_jp "$@"