This is a sample proposal and voting scenario using Ranked Pairs preferential voting.
There are 8 members, A through H, and they are debating whether and how to add Yak Handlers to Scheme. Yak Handlers are a fairly popular feature among implementations, and a very minimal specification of Yak Handlers has been given in SRFI -1, which has fairly widespread support.
After a general discussion period of different types of Yak Handlers, member A makes a proposal "A" for an extensive and rich set of Yak Handlers, which is essentially exactly what his preferred implementation has been using for years. Member B makes an alternate proposal "B", based on the existing library in his own preferred implementation. Member C then suggests both of these are too big, and suggests we just take SRFI -1 as is "SRFI".
No further proposals seem forthcoming, and discussion continues, this time more concretely addressing the 3 proposals and paying attention to specific details. Member A notices that the members are fairly divided between A and B, but everyone would be satisfied with the SRFI, which makes the it look like the SRFI will come out winning. However, he truly feels his proposal is the best and doesn't want to change it, so he makes an alternate proposal "A-Lite" which is basically a more restricted version of proposal "A", but holding some of the same ideas and still more featureful than the SRFI.
Discussion continues, final changes are made, and the four proposals are put to a vote. This is preferential voting, so members just vote for their preferences in order, honestly - there is no strategy involved at this point. In our votes there is always the implicit option "R5RS" which is the R5RS status-quo, and if a member doesn't explicitly rank all proposals, "R5RS" will come before those not listed. In particular, if a member chooses to abstain, he is effectively voting for R5RS over anything else. In other systems an abstained vote may not count either way, but we want to take a conservative approach. For the purposes of WG1, members are encouraged to abstain if they are unsure of the feature, or simply feel they don't understand it well enough to make a decision.
The votes are collected as follows:
Member A: A > A-Lite > SRFI > B > R5RS
Member A wants his full proposal to go through, but if not would rather have his lesser proposal. He prefers the SRFI to the B way of doing things, but definitely wants the feature no matter what so ranks R5RS last.
Member B: B > SRFI > R5RS > A-Lite > A
Member B also votes his own proposal highest, followed by the SRFI. His implementation can't efficiently implement either of A's proposals, so he ranks R5RS (not having the feature at all), over both of those.
Member C: SRFI > A-Lite > R5RS > A = B
Member C is very conservative, but still thinks the feature is desirable. He ranks the old-standby SRFI first, followed by A-Lite, but if not that would rather stick with R5RS and wait for WG2 or later standards to implement the SRFI.
Member D: R5RS
Member D is more conservative, and doesn't think the feature belongs in WG1 at all, so he votes R5RS over everything.
Member E: A-Lite > B > A > SRFI > R5RS
Member E is more practical, and wants the feature added. He uses multiple implementations, and would be happy with either A or B, but was convinced that A-Lite is a good compromise.
Member F: A > B > A-Lite > SRFI > R5RS
Member F is also practical, and simply wants the most featureful of any of the proposals, so he ranks them in that order.
Member G: B > A-Lite > A > SRFI
Member G prefers B to A in general, and would rather have A-Lite than A, but would take either over the minimal SRFI or R5RS.
Member H: A-Lite > SRFI > B > A > R5RS
Member H is similar to member E, but would rather have the SRFI than the full A or B proposals.
The resulting votes look like:
(define votes '((member-a (A) (A-Lite) (SRFI) (B) (R5RS)) (member-b (B) (SRFI) (R5RS) (A-Lite) (A)) (member-c (SRFI) (R5RS) (A-Lite) (A B)) (member-d (R5RS) (A B SRFI A-Lite)) (member-e (A-Lite) (A) (B) (SRFI) (R5RS)) (member-f (A) (B) (A-Lite) (SRFI) (R5RS)) (member-g (B) (A-Lite) (A) (SRFI) (R5RS)) (member-h (A-Lite) (SRFI) (B) (A) (R5RS)) ))which when tallied gives us
Winner |
Loser |
Count |
SRFI |
R5RS |
7 |
A-Lite |
R5RS |
6 |
B |
R5RS |
6 |
A-Lite |
A |
5 |
A-Lite |
SRFI |
5 |
A |
R5RS |
5 |
B |
A |
4 |
A |
SRFI |
4 |
A-Lite |
B |
4 |
B |
SRFI |
4 |
SRFI |
A |
3 |
SRFI |
B |
3 |
B |
A-Lite |
3 |
R5RS |
A |
3 |
A |
B |
2 |
A |
A-Lite |
2 |
SRFI |
A-Lite |
2 |
R5RS |
A-Lite |
2 |
R5RS |
B |
2 |
R5RS |
SRFI |
1 |
and with the ranked pairs algorithms gives a total ranking of:
Now, in this case A-Lite is the winner and beats R5RS 6 out of 8 times for a 75% approval rating. If 75% were the cut-off, this would pass, and we would include A-Lite in the first public draft. However, if the final standard is put to a public ratification vote by the Steering Committee, they will want an 85% approval, which suggests we might want an 85-90% approval internally for individual issues.
Keep in mind that Working Group 2 is likely to review and consider any proposals Working Group 1 makes, but should hold separate votes if it does so - members are likely to vote differently for inclusion in WG2 than they would for WG1.
In the case of the module proposal or parts thereof, "R5RS" does not make sense, because R5RS has no module system, but the Steering Committee mandates that we have one. So the approval-rating rule should not apply.
filename | time | description |
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ranked-pairs.scm | 2010-03-13 15:18:11 | portable ranked-pairs implementation |