pyRCV2/pyRCV2/cli/stv.py

#   pyRCV2: Preferential vote counting
#   Copyright © 2020–2021  Lee Yingtong Li (RunasSudo)
#
#   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 <https://www.gnu.org/licenses/>.

import pyRCV2.blt
import pyRCV2.model
import pyRCV2.numbers

from pyRCV2.method.gregory import UIGSTVCounter, WIGSTVCounter, EGSTVCounter
from pyRCV2.method.meek import MeekSTVCounter
from pyRCV2.ties import TiesBackwards, TiesForwards, TiesPrompt, TiesRandom

import sys

def add_parser(subparsers):
	parser = subparsers.add_parser('stv', help='single transferable vote')
	parser.add_argument('file', help='path to BLT file')
	
	parser.add_argument('--quota', '-q', choices=['droop', 'droop_exact', 'hare', 'hare_exact'], default='droop', help='quota calculation (default: droop)')
	parser.add_argument('--quota-criterion', '-c', choices=['geq', 'gt'], default='geq', help='quota criterion (default: geq)')
	parser.add_argument('--quota-mode', choices=['static', 'progressive', 'ers97'], default='static', help='whether to apply a form of progressive quota (default: static)')
	parser.add_argument('--no-bulk-elect', action='store_true', help='disable bulk election unless absolutely required')
	parser.add_argument('--bulk-exclude', action='store_true', help='use bulk exclusion')
	parser.add_argument('--defer-surpluses', action='store_true', help='defer surplus transfers if possible')
	parser.add_argument('--numbers', '-n', choices=['fixed', 'gfixed', 'rational', 'native'], default='fixed', help='numbers mode (default: fixed)')
	parser.add_argument('--decimals', type=int, default=5, help='decimal places if --numbers fixed (default: 5)')
	#parser.add_argument('--no-round-quota', action='store_true', help='do not round the quota')
	parser.add_argument('--round-quota', type=int, help='round quota to specified decimal places')
	parser.add_argument('--round-votes', type=int, help='round votes to specified decimal places')
	parser.add_argument('--round-tvs', type=int, help='round transfer values to specified decimal places')
	parser.add_argument('--round-weights', type=int, help='round ballot weights to specified decimal places')
	parser.add_argument('--surplus-order', '-s', choices=['size', 'order'], default='size', help='whether to distribute surpluses by size or by order of election (default: size)')
	parser.add_argument('--method', '-m', choices=['wig', 'uig', 'eg', 'meek'], default='wig', help='method of transferring surpluses (default: wig - weighted inclusive Gregory)')
	parser.add_argument('--transferable-only', action='store_true', help='examine only transferable papers during surplus distributions')
	parser.add_argument('--exclusion', choices=['one_round', 'parcels_by_order', 'by_value', 'wright'], default='one_round', help='how to perform exclusions (default: one_round)')
	parser.add_argument('--ties', '-t', action='append', choices=['backwards', 'forwards', 'prompt', 'random'], default=None, help='how to resolve ties (default: prompt)')
	parser.add_argument('--random-seed', default=None, help='arbitrary string used to seed the RNG for random tie breaking')
	parser.add_argument('--hide-excluded', action='store_true', help='hide excluded candidates from results report')
	parser.add_argument('--sort-votes', action='store_true', help='sort candidates by votes in results report')
	parser.add_argument('--pp-decimals', type=int, default=2, help='print votes to specified decimal places in results report (default: 2)')

def print_step(args, stage, result):
	print('{}. {}'.format(stage, result.comment))
	
	if result.logs:
		print(' '.join(result.logs))
	
	results = list(result.candidates.items())
	if args.sort_votes:
		results.sort(key=lambda x: x[1].votes, reverse=True)
	
	for candidate, count_card in results:
		state = None
		if count_card.state == pyRCV2.model.CandidateState.ELECTED or count_card.state == pyRCV2.model.CandidateState.PROVISIONALLY_ELECTED or count_card.state == pyRCV2.model.CandidateState.DISTRIBUTING_SURPLUS:
			if args.method == 'meek':
				state = 'ELECTED {} (kv = {})'.format(count_card.order_elected, count_card.keep_value.pp(args.pp_decimals))
			else:
				state = 'ELECTED {}'.format(count_card.order_elected)
		elif count_card.state == pyRCV2.model.CandidateState.EXCLUDED or count_card.state == pyRCV2.model.CandidateState.EXCLUDING:
			state = 'Excluded {}'.format(-count_card.order_elected)
		elif count_card.state == pyRCV2.model.CandidateState.WITHDRAWN:
			state = 'Withdrawn'
		
		ppVotes = count_card.votes.pp(args.pp_decimals)
		ppTransfers = count_card.transfers.pp(args.pp_decimals)
		
		if state is None:
			print('- {}: {} ({})'.format(candidate.name, ppVotes, ppTransfers))
		else:
			if not (args.hide_excluded and state == 'Excluded' and float(ppVotes) == 0 and float(ppTransfers) == 0):
				print('- {}: {} ({}) - {}'.format(candidate.name, ppVotes, ppTransfers, state))
	
	print('Exhausted: {} ({})'.format(result.exhausted.votes.pp(args.pp_decimals), result.exhausted.transfers.pp(args.pp_decimals)))
	print('Loss to fraction: {} ({})'.format(result.loss_fraction.votes.pp(args.pp_decimals), result.loss_fraction.transfers.pp(args.pp_decimals)))
	print('Total votes: {}'.format(result.total.pp(args.pp_decimals)))
	
	if args.quota_mode == 'ers97' and result.vote_required_election < result.quota:
		print('Vote required for election: {}'.format(result.vote_required_election.pp(args.pp_decimals)))
	else:
		print('Quota: {}'.format(result.quota.pp(args.pp_decimals)))
	
	print()

def main(args):
	# Set settings
	if args.numbers == 'native':
		pyRCV2.numbers.set_numclass(pyRCV2.numbers.Native)
	elif args.numbers == 'rational':
		pyRCV2.numbers.set_numclass(pyRCV2.numbers.Rational)
	elif args.numbers == 'fixed':
		pyRCV2.numbers.set_numclass(pyRCV2.numbers.Fixed)
		pyRCV2.numbers.set_dps(args.decimals)
	elif args.numbers == 'gfixed':
		pyRCV2.numbers.set_numclass(pyRCV2.numbers.FixedGuarded)
		pyRCV2.numbers.set_dps(args.decimals)
	
	with open(args.file, 'r') as f:
		election = pyRCV2.blt.readBLT(f.read())
	
	# Create counter
	if args.method == 'uig':
		counter = UIGSTVCounter(election, vars(args))
	elif args.method == 'eg':
		counter = EGSTVCounter(election, vars(args))
	elif args.method == 'meek':
		counter = MeekSTVCounter(election, vars(args))
	else:
		counter = WIGSTVCounter(election, vars(args))
	
	#if args.no_round_quota:
	#	counter.options['round_quota'] = None
	
	if args.ties is None:
		args.ties = ['prompt']
	
	counter.options['ties'] = []
	for t in args.ties:
		if t == 'backwards':
			counter.options['ties'].append(TiesBackwards(counter))
		elif t == 'forwards':
			counter.options['ties'].append(TiesForwards(counter))
		elif t == 'prompt':
			counter.options['ties'].append(TiesPrompt())
		elif t == 'random':
			if args.random_seed is None:
				print('A --random-seed is required to use random tie breaking.')
				sys.exit(1)
			counter.options['ties'].append(TiesRandom(args.random_seed))
	
	counter.options['bulk_elect'] = not args.no_bulk_elect
	counter.options['papers'] = 'transferable' if args.transferable_only else 'both'
	
	# Reset
	stage = 1
	result = counter.reset()
	
	print_step(args, stage, result)
	
	# Step election
	while True:
		stage += 1
		result = counter.step()
		
		if isinstance(result, pyRCV2.model.CountCompleted):
			break
		
		print_step(args, stage, result)