- class svvamp.RuleCondorcetSumDefeats(**kwargs)[source]
Condorcet with sum of defeats.
Options
>>> RuleCondorcetSumDefeats.print_options_parameters() cm_option: ['lazy', 'exact']. Default: 'lazy'. icm_option: ['lazy']. Default: 'lazy'. iia_subset_maximum_size: is_number. Default: 2. im_option: ['lazy', 'exact']. Default: 'lazy'. tm_option: ['lazy', 'exact']. Default: 'exact'. um_option: ['lazy', 'exact']. Default: 'lazy'.
Notes
An elementary move consists of reversing a voter’s preference about a pair of candidate
(c, d)(without demanding that her whole relation of preference stays transitive). The score for candidatecis minus the number of elementary moves needed so thatcbecomes a Condorcet winner. It is the same principle as Dodgson’s method, but without looking for a transitive profile.In practice:
\[\texttt{scores}[c] = - \sum_{c \text{ does not beat } d}\left( \left\lfloor\frac{V}{2}\right\rfloor + 1 - \texttt{matrix_duels_rk}[c, d] \right)\]In particular, for
n_vodd:\[\texttt{scores}[c] = - \sum_{c \text{ does not beat } d}\left( \left\lceil\frac{V}{2}\right\rceil - \texttt{matrix_duels_rk}[c, d] \right)\]is_cm_(): Non-polynomial or non-exact algorithms from superclassRule.is_icm_(): Algorithm from superclassRule. It is polynomial and has a window of error of 1 manipulator.is_im_(): Non-polynomial or non-exact algorithms from superclassRule.is_iia_(): Non-polynomial or non-exact algorithms from superclassRule. Ifiia_subset_maximum_size= 2, it runs in polynomial time and is exact up to ties (which can occur only ifn_vis even).is_tm_(): Exact in polynomial time.is_um_(): Non-polynomial or non-exact algorithms from superclassRule.
Examples
>>> profile = Profile(preferences_ut=[ ... [ 0. , -0.5, -1. ], ... [ 1. , -1. , 0.5], ... [ 0.5, 0.5, -0.5], ... [ 0.5, 0. , 1. ], ... [-1. , -1. , 1. ], ... ], preferences_rk=[ ... [0, 1, 2], ... [0, 2, 1], ... [1, 0, 2], ... [2, 0, 1], ... [2, 1, 0], ... ]) >>> rule = RuleCondorcetSumDefeats()(profile) >>> rule.demo_results_(log_depth=0) ************************ * * * Election Results * * * ************************ *************** * Results * *************** profile_.preferences_ut (reminder) = [[ 0. -0.5 -1. ] [ 1. -1. 0.5] [ 0.5 0.5 -0.5] [ 0.5 0. 1. ] [-1. -1. 1. ]] profile_.preferences_rk (reminder) = [[0 1 2] [0 2 1] [1 0 2] [2 0 1] [2 1 0]] ballots = [[0 1 2] [0 2 1] [1 0 2] [2 0 1] [2 1 0]] scores = [-0. -2. -1.] candidates_by_scores_best_to_worst [0 2 1] scores_best_to_worst [-0. -1. -2.] w = 0 score_w = -0.0 total_utility_w = 1.0 ********************************* * Condorcet efficiency (rk) * ********************************* w (reminder) = 0 condorcet_winner_rk_ctb = 0 w_is_condorcet_winner_rk_ctb = True w_is_not_condorcet_winner_rk_ctb = False w_missed_condorcet_winner_rk_ctb = False condorcet_winner_rk = 0 w_is_condorcet_winner_rk = True w_is_not_condorcet_winner_rk = False w_missed_condorcet_winner_rk = False *************************************** * Condorcet efficiency (relative) * *************************************** w (reminder) = 0 condorcet_winner_ut_rel_ctb = 0 w_is_condorcet_winner_ut_rel_ctb = True w_is_not_condorcet_winner_ut_rel_ctb = False w_missed_condorcet_winner_ut_rel_ctb = False condorcet_winner_ut_rel = 0 w_is_condorcet_winner_ut_rel = True w_is_not_condorcet_winner_ut_rel = False w_missed_condorcet_winner_ut_rel = False *************************************** * Condorcet efficiency (absolute) * *************************************** w (reminder) = 0 condorcet_admissible_candidates = [ True False False] w_is_condorcet_admissible = True w_is_not_condorcet_admissible = False w_missed_condorcet_admissible = False weak_condorcet_winners = [ True False False] w_is_weak_condorcet_winner = True w_is_not_weak_condorcet_winner = False w_missed_weak_condorcet_winner = False condorcet_winner_ut_abs_ctb = 0 w_is_condorcet_winner_ut_abs_ctb = True w_is_not_condorcet_winner_ut_abs_ctb = False w_missed_condorcet_winner_ut_abs_ctb = False condorcet_winner_ut_abs = 0 w_is_condorcet_winner_ut_abs = True w_is_not_condorcet_winner_ut_abs = False w_missed_condorcet_winner_ut_abs = False resistant_condorcet_winner = nan w_is_resistant_condorcet_winner = False w_is_not_resistant_condorcet_winner = True w_missed_resistant_condorcet_winner = False >>> rule.demo_manipulation_(log_depth=0) ***************************** * * * Election Manipulation * * * ***************************** ********************************************* * Basic properties of the voting system * ********************************************* with_two_candidates_reduces_to_plurality = True is_based_on_rk = True is_based_on_ut_minus1_1 = False meets_iia = False **************************************************** * Manipulation properties of the voting system * **************************************************** Condorcet_c_ut_rel_ctb (False) ==> Condorcet_c_ut_rel (False) || || || Condorcet_c_rk_ctb (False) ==> Condorcet_c_rk (True) || || || || || || || V V || || V V Condorcet_c_ut_abs_ctb (False) ==> Condorcet_ut_abs_c (True) || || || || || V V || || maj_fav_c_rk_ctb (False) ==> maj_fav_c_rk (True) || || || || || V V V V majority_favorite_c_ut_ctb (False) ==> majority_favorite_c_ut (True) || || V V IgnMC_c_ctb (False) ==> IgnMC_c (True) || || V V InfMC_c_ctb (True) ==> InfMC_c (True) ***************************************************** * Independence of Irrelevant Alternatives (IIA) * ***************************************************** w (reminder) = 0 is_iia = True log_iia: iia_subset_maximum_size = 2.0 example_winner_iia = nan example_subset_iia = nan ********************** * c-Manipulators * ********************** w (reminder) = 0 preferences_ut (reminder) = [[ 0. -0.5 -1. ] [ 1. -1. 0.5] [ 0.5 0.5 -0.5] [ 0.5 0. 1. ] [-1. -1. 1. ]] v_wants_to_help_c = [[False False False] [False False False] [False False False] [False False True] [False False True]] ************************************ * Individual Manipulation (IM) * ************************************ is_im = nan log_im: im_option = lazy candidates_im = [ 0. 0. nan] ********************************* * Trivial Manipulation (TM) * ********************************* is_tm = False log_tm: tm_option = exact candidates_tm = [0. 0. 0.] ******************************** * Unison Manipulation (UM) * ******************************** is_um = nan log_um: um_option = lazy candidates_um = [ 0. 0. nan] ********************************************* * Ignorant-Coalition Manipulation (ICM) * ********************************************* is_icm = False log_icm: icm_option = lazy candidates_icm = [0. 0. 0.] necessary_coalition_size_icm = [0. 6. 4.] sufficient_coalition_size_icm = [0. 6. 4.] *********************************** * Coalition Manipulation (CM) * *********************************** is_cm = nan log_cm: cm_option = lazy, um_option = lazy, tm_option = exact candidates_cm = [ 0. 0. nan] necessary_coalition_size_cm = [0. 1. 1.] sufficient_coalition_size_cm = [0. 2. 3.]
- property scores_
1d array of integers.
\[\texttt{scores}[c] = - \sum_{c \text{ does not beat } d}\left( \left\lfloor\frac{V}{2}\right\rfloor + 1 - \texttt{matrix_duels_rk}[c, d] \right)\]