#   pyRCV2: Preferential vote counting
#   Copyright © 2020  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.numbers
from pyRCV2.method.base_stv import UIGSTVCounter
from pyRCV2.model import CandidateState, CountCompleted

import csv
import gzip

def test_aec_tas19():
	"""Compare count of aec-senate-formalpreferences-24310-TAS.blt.gz with model result at https://results.aec.gov.au/24310/Website/External/SenateStateDop-24310-TAS.pdf"""
	
	pyRCV2.numbers.set_numclass(pyRCV2.numbers.NativeInt)
	
	with gzip.open('tests/aec-senate-formalpreferences-24310-TAS.blt.gz', 'rt') as f:
		election = pyRCV2.blt.readBLT(f.read())
	
	# Read model CSV
	
	with open('tests/aec-senate-formalpreferences-24310-TAS.csv', 'r', newline='') as f:
		reader = csv.reader(f)
		data = [x for x in reader]
	
	candidates = [data[i][0] for i in range(2, len(data) - 2)]
	
	assert len(election.candidates) == len(candidates)
	
	counter = UIGSTVCounter(election, {
		'surplus_order': 'order',
		'exclusion': 'by_value'
	})
	result = counter.reset()
	
	for i in range(1, len(data[0]), 2):
		stage = int(data[0][i])
		
		while len(counter.step_results) < stage:
			result = counter.step()
		
		comment = data[1][i]
		assert result.comment == comment, 'Failed to verify stage {} comment'.format(stage)
		
		for j, cand in enumerate(candidates):
			votes = pyRCV2.numbers.Num(data[j + 2][i])
			cc = next(cc for c, cc in result.candidates.items() if c.name == cand)
			assert cc.votes == votes, 'Failed to verify stage {} candidate "{}" votes, got {} expected {}'.format(stage, cand, cc.votes.pp(0), votes.pp(0))
			
			state = data[j + 2][i + 1] if len(data[j + 2]) > (i + 1) else ''
			accept = {'': CandidateState.HOPEFUL, 'PEL': CandidateState.PROVISIONALLY_ELECTED, 'EL': CandidateState.ELECTED, 'EX': CandidateState.EXCLUDED, 'EXCLUDING': CandidateState.EXCLUDING}
			assert cc.state == accept[state], 'Failed to verify stage {} candidate "{}" state'.format(stage, cand)
		
		exhausted = pyRCV2.numbers.Num(data[len(candidates) + 2][i])
		assert result.exhausted.votes == exhausted, 'Failed to verify stage {} exhausted votes, got {} expected {}'.format(stage, result.exhausted.votes.pp(0), exhausted.pp(0))
		
		loss_fraction = pyRCV2.numbers.Num(data[len(candidates) + 3][i])
		assert result.loss_fraction.votes == loss_fraction, 'Failed to verify stage {} loss to fraction, got {} expected {}'.format(stage, result.loss_fraction.votes.pp(0), loss_fraction.pp(0))