Implement --exclusion by_value
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parent
f4fdf64072
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4f661722e4
10
src/main.rs
10
src/main.rs
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@ -57,7 +57,7 @@ struct STV {
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// -- 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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#[clap(help_heading=Some("NUMBERS"), short, long, possible_values=&["rational", "float64"], default_value="rational", value_name="mode")]
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numbers: String,
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// -- Rounding settings --
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@ -66,6 +66,12 @@ struct STV {
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#[clap(help_heading=Some("ROUNDING"), long, value_name="dps")]
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round_votes: Option<usize>,
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// -- STV variants --
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/// Method of exclusions
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#[clap(help_heading=Some("STV VARIANTS"), long, possible_values=&["one_round", "by_value"], default_value="one_round", value_name="mode")]
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exclusion: String,
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// -- Display settings --
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/// Hide excluded candidates from results report
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@ -101,11 +107,13 @@ fn main() {
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fn count_election<N: Number>(election: Election<N>, cmd_opts: STV)
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where
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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>
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{
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// Copy applicable options
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let stv_opts = stv::STVOptions {
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round_votes: cmd_opts.round_votes,
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exclusion: &cmd_opts.exclusion,
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};
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// Initialise count state
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@ -21,12 +21,12 @@ mod rational;
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use num_traits::{NumAssignRef, NumRef};
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use rug::{self, Assign};
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use std::cmp::{PartialOrd};
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use std::cmp::Ord;
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use std::fmt;
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use std::ops;
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//pub trait Number: NumRef + NumAssignRef + PartialOrd + Assign + Clone + fmt::Display where for<'a> &'a Self: RefNum<&'a Self> {
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pub trait Number: NumRef + NumAssignRef + ops::Neg<Output=Self> + PartialOrd + Assign + Clone + fmt::Display where for<'a> Self: Assign<&'a Self>{
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pub trait Number: NumRef + NumAssignRef + ops::Neg<Output=Self> + Ord + Assign + Clone + fmt::Display where for<'a> Self: Assign<&'a Self>{
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fn new() -> Self;
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fn from(n: usize) -> Self;
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@ -20,7 +20,7 @@ use super::Number;
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use num_traits::{Num, One, Zero};
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use rug::Assign;
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use std::cmp::{Ordering, PartialEq, PartialOrd};
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use std::cmp::{Ord, Ordering, PartialEq, PartialOrd};
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use std::num::ParseIntError;
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use std::fmt;
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use std::ops;
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@ -76,10 +76,13 @@ impl Zero for NativeFloat64 {
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fn is_zero(&self) -> bool { self.0.is_zero() }
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}
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impl Eq for NativeFloat64 {}
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impl PartialEq for NativeFloat64 {
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fn eq(&self, _other: &Self) -> bool {
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todo!()
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}
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fn eq(&self, other: &Self) -> bool { self.0 == other.0 }
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}
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impl Ord for NativeFloat64 {
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fn cmp(&self, other: &Self) -> Ordering { self.0.partial_cmp(&other.0).unwrap() }
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}
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impl PartialOrd for NativeFloat64 {
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@ -234,9 +237,7 @@ impl ops::Mul<&NativeFloat64> for &NativeFloat64 {
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impl ops::Div<&NativeFloat64> for &NativeFloat64 {
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type Output = NativeFloat64;
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fn div(self, _rhs: &NativeFloat64) -> Self::Output {
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todo!()
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}
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fn div(self, rhs: &NativeFloat64) -> Self::Output { NativeFloat64(&self.0 / &rhs.0) }
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}
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impl ops::Rem<&NativeFloat64> for &NativeFloat64 {
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@ -20,7 +20,7 @@ use super::Number;
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use num_traits::{Num, One, Zero};
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use rug::{self, Assign, ops::Pow, rational::ParseRationalError};
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use std::cmp::{Ordering, PartialEq, PartialOrd};
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use std::cmp::{Ord, Ordering, PartialEq, PartialOrd};
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use std::fmt;
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use std::ops;
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@ -106,10 +106,13 @@ impl Zero for Rational {
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fn is_zero(&self) -> bool { self.0 == rug::Rational::new() }
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}
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impl Eq for Rational {}
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impl PartialEq for Rational {
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fn eq(&self, _other: &Self) -> bool {
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todo!()
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}
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fn eq(&self, other: &Self) -> bool { self.0 == other.0 }
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}
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impl Ord for Rational {
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fn cmp(&self, other: &Self) -> Ordering { self.0.cmp(&other.0) }
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}
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impl PartialOrd for Rational {
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@ -264,9 +267,7 @@ impl ops::Mul<&Rational> for &Rational {
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impl ops::Div<&Rational> for &Rational {
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type Output = Rational;
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fn div(self, _rhs: &Rational) -> Self::Output {
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todo!()
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}
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fn div(self, rhs: &Rational) -> Self::Output { Rational(rug::Rational::from(&self.0 / &rhs.0)) }
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}
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impl ops::Rem<&Rational> for &Rational {
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100
src/stv/mod.rs
100
src/stv/mod.rs
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@ -21,10 +21,11 @@ use crate::numbers::Number;
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use crate::election::{Candidate, CandidateState, CountCard, CountState, Parcel, Vote};
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use std::collections::HashMap;
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use std::ops::{Neg, Sub};
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use std::ops;
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pub struct STVOptions {
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pub struct STVOptions<'a> {
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pub round_votes: Option<usize>,
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pub exclusion: &'a str,
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}
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pub fn count_init<N: Number>(mut state: &mut CountState<'_, N>, _opts: &STVOptions) {
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@ -35,8 +36,9 @@ pub fn count_init<N: Number>(mut state: &mut CountState<'_, N>, _opts: &STVOptio
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pub fn count_one_stage<N: Number>(mut state: &mut CountState<'_, N>, opts: &STVOptions) -> bool
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where
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for<'r> &'r N: Sub<&'r N, Output=N>,
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for<'r> &'r N: Neg<Output=N>
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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>,
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{
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state.logger.entries.clear();
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state.step_all();
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@ -77,6 +79,7 @@ struct NextPreferencesResult<'a, N> {
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candidates: HashMap<&'a Candidate, NextPreferencesEntry<'a, N>>,
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exhausted: NextPreferencesEntry<'a, N>,
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total_ballots: N,
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total_votes: N,
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}
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struct NextPreferencesEntry<'a, N> {
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@ -95,10 +98,12 @@ fn next_preferences<'a, N: Number>(state: &CountState<'a, N>, votes: Vec<Vote<'a
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num_votes: N::new(),
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},
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total_ballots: N::new(),
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total_votes: N::new(),
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};
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for mut vote in votes.into_iter() {
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result.total_ballots += &vote.ballot.orig_value;
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result.total_votes += &vote.value;
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let mut next_candidate = None;
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@ -214,8 +219,8 @@ fn elect_meeting_quota<N: Number>(state: &mut CountState<N>) {
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fn distribute_surpluses<N: Number>(state: &mut CountState<N>, opts: &STVOptions) -> bool
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where
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for<'r> &'r N: Sub<&'r N, Output=N>,
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for<'r> &'r N: Neg<Output=N>
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for<'r> &'r N: ops::Sub<&'r N, Output=N>,
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for<'r> &'r N: ops::Neg<Output=N>
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{
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let mut has_surplus: Vec<(&&Candidate, &CountCard<N>)> = state.candidates.iter()
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.filter(|(_, cc)| cc.votes > state.quota)
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@ -237,8 +242,8 @@ where
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fn distribute_surplus<N: Number>(state: &mut CountState<N>, opts: &STVOptions, elected_candidate: &Candidate)
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where
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for<'r> &'r N: Sub<&'r N, Output=N>,
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for<'r> &'r N: Neg<Output=N>
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for<'r> &'r N: ops::Sub<&'r N, Output=N>,
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for<'r> &'r N: ops::Neg<Output=N>
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{
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let count_card = state.candidates.get(elected_candidate).unwrap();
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let surplus = &count_card.votes - &state.quota;
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@ -333,7 +338,10 @@ fn bulk_elect<N: Number>(state: &mut CountState<N>) -> bool {
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return false;
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}
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fn exclude_hopefuls<N: Number>(state: &mut CountState<N>, opts: &STVOptions) -> bool {
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fn exclude_hopefuls<N: Number>(state: &mut CountState<N>, opts: &STVOptions) -> bool
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where
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for<'r> &'r N: ops::Div<&'r N, Output=N>,
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{
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let mut hopefuls: Vec<(&&Candidate, &CountCard<N>)> = state.candidates.iter()
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.filter(|(_, cc)| cc.state == CandidateState::HOPEFUL)
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.collect();
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@ -358,9 +366,14 @@ fn exclude_hopefuls<N: Number>(state: &mut CountState<N>, opts: &STVOptions) ->
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return true;
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}
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fn continue_exclusion<N: Number>(state: &mut CountState<N>, opts: &STVOptions) -> bool {
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fn continue_exclusion<N: Number>(state: &mut CountState<N>, opts: &STVOptions) -> bool
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where
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for<'r> &'r N: ops::Div<&'r N, Output=N>,
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{
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// Cannot filter by raw vote count, as candidates may have 0.00 votes but still have recorded ballot papers
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let mut excluded_with_votes: Vec<(&&Candidate, &CountCard<N>)> = state.candidates.iter()
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.filter(|(_, cc)| cc.state == CandidateState::EXCLUDED && !cc.votes.is_zero())
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//.filter(|(_, cc)| cc.state == CandidateState::EXCLUDED && !cc.votes.is_zero())
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.filter(|(_, cc)| cc.state == CandidateState::EXCLUDED && cc.parcels.iter().any(|p| p.len() > 0))
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.collect();
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if excluded_with_votes.len() > 0 {
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@ -382,19 +395,67 @@ fn continue_exclusion<N: Number>(state: &mut CountState<N>, opts: &STVOptions) -
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return false;
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}
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fn exclude_candidate<N: Number>(state: &mut CountState<N>, opts: &STVOptions, excluded_candidate: &Candidate) {
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fn exclude_candidate<N: Number>(state: &mut CountState<N>, opts: &STVOptions, excluded_candidate: &Candidate)
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where
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for<'r> &'r N: ops::Div<&'r N, Output=N>,
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{
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let count_card = state.candidates.get_mut(excluded_candidate).unwrap();
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// Rust borrow checker is unhappy if we try to put this in exclude_hopefuls ??!
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if count_card.state != CandidateState::EXCLUDED {
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count_card.state = CandidateState::EXCLUDED;
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state.num_excluded += 1;
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count_card.order_elected = -(state.num_excluded as isize);
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}
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// Determine votes to transfer in this stage
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let mut votes;
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let votes_remaining;
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if opts.exclusion == "one_round" {
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// Exclude in one round
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votes = count_card.parcels.concat();
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votes_remaining = 0;
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} else if opts.exclusion == "by_value" {
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// Exclude by value
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let all_votes = count_card.parcels.concat();
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// TODO: Write a multiple min/max function
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let min_value = all_votes.iter().map(|v| &v.value / &v.ballot.orig_value).max().unwrap();
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votes = Vec::new();
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let mut remaining_votes = Vec::new();
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// This could be implemented using Vec.drain_filter, but that is experimental currently
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for vote in all_votes.into_iter() {
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if &vote.value / &vote.ballot.orig_value == min_value {
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votes.push(vote);
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} else {
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remaining_votes.push(vote);
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}
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}
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votes_remaining = remaining_votes.len();
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// Leave remaining votes with candidate (as one parcel)
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count_card.parcels = vec![remaining_votes];
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} else {
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// TODO: Exclude by parcel
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let votes = state.candidates.get(excluded_candidate).unwrap().parcels.concat();
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panic!("Invalid --exclusion");
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}
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let value = &votes[0].value / &votes[0].ballot.orig_value;
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// Count next preferences
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let result = next_preferences(state, votes);
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if opts.exclusion == "one_round" {
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state.logger.log_literal(format!("Transferring {:.0} ballot papers, totalling {:.2} votes.", result.total_ballots, result.total_votes));
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} else if opts.exclusion == "by_value" {
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state.logger.log_literal(format!("Transferring {:.0} ballot papers, totalling {:.2} votes, received at value {:.2}.", result.total_ballots, result.total_votes, value));
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}
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// Transfer candidate votes
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let mut checksum = N::new();
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@ -423,6 +484,14 @@ fn exclude_candidate<N: Number>(state: &mut CountState<N>, opts: &STVOptions, ex
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state.exhausted.transfer(&exhausted_transfers);
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checksum += exhausted_transfers;
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if votes_remaining > 0 {
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// Subtract from candidate tally
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let count_card = state.candidates.get_mut(excluded_candidate).unwrap();
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checksum -= &result.total_votes;
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count_card.transfer(&-result.total_votes);
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// By definition, there is no loss by fraction
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} else {
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// Finalise candidate votes
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let count_card = state.candidates.get_mut(excluded_candidate).unwrap();
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checksum -= &count_card.votes;
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@ -431,6 +500,11 @@ fn exclude_candidate<N: Number>(state: &mut CountState<N>, opts: &STVOptions, ex
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// Update loss by fraction
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state.loss_fraction.transfer(&-checksum);
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if opts.exclusion != "one_round" {
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state.logger.log_literal("Exclusion complete.".to_string());
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}
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}
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}
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fn finished_before_stage<N: Number>(state: &CountState<N>) -> bool {
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