Hare-Clark is an electoral system used in Tasmania and the Australian Capital Territory. To read more on how the preferential votes are distributed, please refer to the Wikipedia article, which is what this implementation is mostly based off of.
Additional sources:
- https://www.tec.tas.gov.au/info/Publications/HareClark.html
- https://www.aec.gov.au/learn/files/poster-count-senate-pref-voting.pdf
- https://www.aec.gov.au/learn/files/poster-counting-hor-pref-voting.pdf
- https://facultycouncil.utexas.edu/hare-clark-preferential-voting-system
This is a single-header library. To use this, simply download the src/hare-clark.hpp file into your project and #include "hare-clark.hpp".
However, it is recommended that you add this repository as a submodule using git submodule add https://github.com/tinnamchoi/hare-clark-cpp to make updating the library easier. Read more on Git submodules here.
Construct a new Hare Clark object
| Parameters | Description |
|---|---|
number_of_vacancies |
Number of vacancies, defaulted to 1 |
Add to the list of candidates
| Parameters | Description |
|---|---|
candidates |
List of candidates to be added |
Add to the list of ballots
| Parameters | Description |
|---|---|
ballots |
List of ballots to be added |
Each ballot is a list of integers, where each integer represents the index of the candidate in the list of candidates.
e.g. with a candidate list of {"A", "B", "C"}, a ballot of {2, 0, 1} would represent a ballot with "C" as the first preference, "A" as the second preference, and "B" as the third preference.
Run the Hare-Clark process
| Returns | Description |
|---|---|
elected_candidates |
List of elected candidates |
For a practical example of the library being applied, see example/README.md
- Let
$v$ ,$b$ , and$c$ be the number of vacancies, ballots, and candidates respectively. -
HareClark()uses$O(1)$ time as it only has a single variable assignment -
add_candidates()uses$O(c)$ time as it has to insert each of the$c$ candidates to the private variable -
add_ballots()uses$O(bc)$ time as each ballot must have exactly$c$ values, and each of the$b$ ballots must be inserted to the private variable -
run()It takes$O(bc)$ time and auxilliary space for preprocessing and creating a copy of the private variables. It will then take$O(bb+bc)$ time to calculate the results.$O(bb)$ since there can be a maximum of$b$ loops which each go through each of the$b$ ballots, and an additional$O(bc)$ since there can be at most$bc$ pop_back()operations on the ballots. Note that it is not$O(bbc)$ despite there being$O(b)$ calls to an$O(bc)$ function (process_candidate()) as thepop_back()operations are amortized.