view misc/_jp @ 3045:6af44ca3beac

tools (common): helping method to calculate luminance: - a new `utils` module has been added for backend and frontends generic utilities - per_luminance method calculate the perceived luminance of a colour (is it dark or light?). This is useful to automatically select the suitable colour in a theme.
author Goffi <goffi@goffi.org>
date Tue, 01 Oct 2019 22:49:10 +0200
parents d17772b0fe22
children
line wrap: on
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#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 "$@"