OpenTally/src/main.rs

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/* OpenTally: Open-source election vote counting
* Copyright © 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/>.
*/
mod election;
mod logger;
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mod numbers;
mod stv;
use crate::election::{Candidate, CandidateState, CountCard, CountState, CountStateOrRef, Election, StageResult};
use crate::numbers::{NativeFloat64, Number, Rational};
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use clap::{AppSettings, Clap};
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use git_version::git_version;
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use std::fs::File;
use std::io::{self, BufRead};
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use std::ops;
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const VERSION: &str = git_version!(args=["--always", "--dirty=-dev"], fallback="unknown");
/// Open-source election vote counting
#[derive(Clap)]
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#[clap(name="OpenTally", version=VERSION)]
struct Opts {
#[clap(subcommand)]
command: Command,
}
#[derive(Clap)]
enum Command {
STV(STV),
}
/// Count a single transferable vote (STV) election
#[derive(Clap)]
#[clap(setting=AppSettings::DeriveDisplayOrder)]
struct STV {
// -- File input --
/// Path to the BLT file to be counted
filename: String,
// -- Numbers settings --
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/// Numbers mode
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#[clap(help_heading=Some("NUMBERS"), short, long, possible_values=&["rational", "float64"], default_value="rational", value_name="mode")]
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numbers: String,
// -- Rounding settings --
/// Round votes to specified decimal places
#[clap(help_heading=Some("ROUNDING"), long, value_name="dps")]
round_votes: Option<usize>,
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// -- STV variants --
/// Method of exclusions
#[clap(help_heading=Some("STV VARIANTS"), long, possible_values=&["one_round", "by_value"], default_value="one_round", value_name="mode")]
exclusion: String,
// -- Display settings --
/// Hide excluded candidates from results report
#[clap(help_heading=Some("DISPLAY"), long)]
hide_excluded: bool,
/// Sort candidates by votes in results report
#[clap(help_heading=Some("DISPLAY"), long)]
sort_votes: bool,
/// Print votes to specified decimal places in results report
#[clap(help_heading=Some("DISPLAY"), long, default_value="2", value_name="dps")]
pp_decimals: usize,
}
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fn main() {
// Read arguments
let opts: Opts = Opts::parse();
let Command::STV(cmd_opts) = opts.command;
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// Read BLT file
let file = File::open(&cmd_opts.filename).expect("IO Error");
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let lines = io::BufReader::new(file).lines();
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// Create and count election according to --numbers
if cmd_opts.numbers == "rational" {
let election: Election<Rational> = Election::from_blt(lines);
count_election(election, cmd_opts);
} else if cmd_opts.numbers == "float64" {
let election: Election<NativeFloat64> = Election::from_blt(lines);
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count_election(election, cmd_opts);
}
}
fn count_election<N: Number>(election: Election<N>, cmd_opts: STV)
where
for<'r> &'r N: ops::Sub<&'r N, Output=N>,
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for<'r> &'r N: ops::Div<&'r N, Output=N>,
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for<'r> &'r N: ops::Neg<Output=N>
{
// Copy applicable options
let stv_opts = stv::STVOptions {
round_votes: cmd_opts.round_votes,
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exclusion: &cmd_opts.exclusion,
};
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// Initialise count state
let mut state = CountState::new(&election);
// Distribute first preferences
stv::count_init(&mut state, &stv_opts);
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let mut stage_num = 1;
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make_and_print_result(stage_num, &state, &cmd_opts);
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loop {
let is_done = stv::count_one_stage(&mut state, &stv_opts);
if is_done {
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break;
}
stage_num += 1;
make_and_print_result(stage_num, &state, &cmd_opts);
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}
println!("Count complete. The winning candidates are, in order of election:");
let mut winners = Vec::new();
for (candidate, count_card) in state.candidates.iter() {
if count_card.state == CandidateState::ELECTED {
winners.push((candidate, count_card.order_elected));
}
}
winners.sort_unstable_by(|a, b| a.1.partial_cmp(&b.1).unwrap());
for (i, (winner, _)) in winners.into_iter().enumerate() {
println!("{}. {}", i + 1, winner.name);
}
}
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fn print_candidates<'a, N: 'a + Number, I: Iterator<Item=(&'a Candidate, &'a CountCard<'a, N>)>>(candidates: I, cmd_opts: &STV) {
for (candidate, count_card) in candidates {
if count_card.state == CandidateState::ELECTED {
println!("- {}: {:.dps$} ({:.dps$}) - ELECTED {}", candidate.name, count_card.votes, count_card.transfers, count_card.order_elected, dps=cmd_opts.pp_decimals);
} else if count_card.state == CandidateState::EXCLUDED {
// If --hide-excluded, hide unless nonzero votes or nonzero transfers
if !cmd_opts.hide_excluded || !count_card.votes.is_zero() || !count_card.transfers.is_zero() {
println!("- {}: {:.dps$} ({:.dps$}) - Excluded {}", candidate.name, count_card.votes, count_card.transfers, -count_card.order_elected, dps=cmd_opts.pp_decimals);
}
} else {
println!("- {}: {:.dps$} ({:.dps$})", candidate.name, count_card.votes, count_card.transfers, dps=cmd_opts.pp_decimals);
}
}
}
fn print_stage<N: Number>(stage_num: usize, result: &StageResult<N>, cmd_opts: &STV) {
// Print stage details
match result.kind {
None => { println!("{}. {}", stage_num, result.title); }
Some(kind) => { println!("{}. {} {}", stage_num, kind, result.title); }
};
println!("{}", result.logs.join(" "));
let state = result.state.as_ref();
// Print candidates
if cmd_opts.sort_votes {
// Sort by votes if requested
let mut candidates: Vec<(&Candidate, &CountCard<N>)> = state.candidates.iter()
.map(|(c, cc)| (*c, cc)).collect();
// First sort by order of election (as a tie-breaker, if votes are equal)
candidates.sort_unstable_by(|a, b| b.1.order_elected.partial_cmp(&a.1.order_elected).unwrap());
// Then sort by votes
candidates.sort_by(|a, b| a.1.votes.partial_cmp(&b.1.votes).unwrap());
print_candidates(candidates.into_iter().rev(), cmd_opts);
} else {
let candidates = state.election.candidates.iter()
.map(|c| (c, state.candidates.get(c).unwrap()));
print_candidates(candidates, cmd_opts);
}
// Print summary rows
println!("Exhausted: {:.dps$} ({:.dps$})", state.exhausted.votes, state.exhausted.transfers, dps=cmd_opts.pp_decimals);
println!("Loss by fraction: {:.dps$} ({:.dps$})", state.loss_fraction.votes, state.loss_fraction.transfers, dps=cmd_opts.pp_decimals);
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let mut total_vote = state.candidates.values().fold(N::zero(), |acc, cc| { acc + &cc.votes });
total_vote += &state.exhausted.votes;
total_vote += &state.loss_fraction.votes;
println!("Total votes: {:.dps$}", total_vote, dps=cmd_opts.pp_decimals);
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println!("Quota: {:.dps$}", state.quota, dps=cmd_opts.pp_decimals);
println!("");
}
fn make_and_print_result<N: Number>(stage_num: usize, state: &CountState<N>, cmd_opts: &STV) {
let result = StageResult {
kind: state.kind,
title: &state.title,
logs: state.logger.render(),
state: CountStateOrRef::from(&state),
};
print_stage(stage_num, &result, &cmd_opts);
}