.. _Unipotent_Packets_All_Types.at_index: Unipotent_Packets_All_Types.at Function Index ======================================================= | Functions .. list-table:: :widths: 10 20 :header-rows: 1 * - Function - Argument(s) -> Results * - :ref:`get_non_empty_block_indices_realform_g->[[int]]1` - ``RealForm G->[[int]]`` * - :ref:`vec_as_int_vec_v->[int]1` - ``vec v->[int]`` * - :ref:`vecs_as_int_[vec]_v->[[int]]1` - ``[vec] V->[[int]]`` * - :ref:`find_[(kgbelt,_kgbelt)]_k,_(kgbelt,_kgbelt)_k->int1` - ``[(KGBElt, KGBElt)] K, (KGBElt, KGBElt) k->int`` * - :ref:`find_reps_in_cells_[[int]]_w_cells,_param_t->int1` - ``[[int]] W_Cells, Param t->int`` * - :ref:`vec_as_int_vec_v->[int]2` - ``vec v->[int]`` * - :ref:`vecs_as_int_[vec]_v->[[int]]2` - ``[vec] V->[[int]]`` * - :ref:`x_min_parabolic_in_dis_fiber_step1_realform_g,[int]_h->([kgbelt])1` - ``RealForm G,[int] H->([KGBElt])`` * - :ref:`x_min_parabolic_in_dis_fiber_realform_g,[int]_h->([kgbelt])1` - ``RealForm G,[int] H->([KGBElt])`` * - :ref:`closed_real_parabolics_associated_to_a_lambda_realform_g,_[int]_h->[parabolic]1` - ``RealForm G, [int] H->[Parabolic]`` * - :ref:`partition_from_multiplicity_[int]_p->[int]1` - ``[int] p->[int]`` * - :ref:`h_gl_int_n->[int]1` - ``int n->[int]`` * - :ref:`h_sp_int_n->[int]1` - ``int n->[int]`` * - :ref:`h_so_int_n->[int]1` - ``int n->[int]`` * - :ref:`h_so_pair_int_n,_int_m->[int]1` - ``int n, int m->[int]`` * - :ref:`one_dimensionals_realform_g->([param])1` - ``RealForm G->([Param])`` * - :ref:`ind_one_dim_from_parabolic_parabolic_q->([param])1` - ``Parabolic Q->([Param])`` * - :ref:`closed_real_parabolics_associated_to_a_lambda_realform_g,_[int]_h->[parabolic]2` - ``RealForm G, [int] H->[Parabolic]`` * - :ref:`dual_cell_block_b,_int_cell->int1` - ``Block B, int Cell->int`` * - :ref:`cells_with_given_av_[int]_o,_[[int]]_av_cells->(int,_[int])1` - ``[int] O, [[int]] AV_Cells->(int, [int])`` * - :ref:`subset_[int]_v,_[int]_w->bool1` - ``[int] V, [int] W->bool`` * - :ref:`delete_sub_vector_[int]_q,_[int]_w->[int]1` - ``[int] Q, [int] W->[int]`` * - :ref:`good_kgb_c_realform_g->[kgbelt]1` - ``RealForm G->[KGBElt]`` * - :ref:`if_same_len_b_[int]_r,_[int]_s->([int],_[int])1` - ``[int] R, [int] S->([int], [int])`` * - :ref:`orbit_from_w_rep_b_wrep_w->[int]1` - ``Wrep W->[int]`` * - :ref:`av_for_given_block_b_block_b->[[int]]1` - ``Block B->[[int]]`` * - :ref:`orbit_h_bn_step1_realform_g,_[int]_p->([int],_[int])1` - ``RealForm G, [int] p->([int], [int])`` * - :ref:`orbit_h_bn_realform_g,_[int]_r->[int]1` - ``RealForm G, [int] r->[int]`` * - :ref:`induced_from_closed_parabolics_b_realform_g,_[int]_p->[param]1` - ``RealForm G, [int] P->[Param]`` * - :ref:`real_forms_of_complex_orbit_as_reps_b_block_b,_[int]_p->[param]1` - ``Block B, [int] P->[Param]`` * - :ref:`real_forms_of_complex_orbit_as_cells_b_block_b,_[int]_p->[int]1` - ``Block B, [int] P->[int]`` * - :ref:`all_cells_with_aq_lambda_b_block_b,_[int]_p->[int]1` - ``Block B, [int] P->[int]`` * - :ref:`all_cells_with_aq_lambda_as_real_forms_b_block_b,_[int]_p->[[int]]1` - ``Block B, [int] P->[[int]]`` * - :ref:`unipotent_algo_test_b_block_b,_[int]_p->bool1` - ``Block B, [int] P->bool`` * - :ref:`unipotent_packet_b_block_b,_[int]_p->[[param]]1` - ``Block B, [int] P->[[Param]]`` * - :ref:`missing_parts_of_uni_packet_b_block_b,_[int]_p->[[param]]1` - ``Block B, [int] P->[[Param]]`` * - :ref:`if_same_len_c_[int]_r,_[int]_s->([int],_[int])1` - ``[int] R, [int] S->([int], [int])`` * - :ref:`orbit_from_w_rep_c_wrep_w->[int]1` - ``Wrep W->[int]`` * - :ref:`av_for_given_block_c_block_b->[[int]]1` - ``Block B->[[int]]`` * - :ref:`orbit_h_cn_realform_g,_[int]_p->[int]1` - ``RealForm G, [int] P->[int]`` * - :ref:`induced_from_closed_parabolics_c_realform_g,_[int]_p->[param]1` - ``RealForm G, [int] P->[Param]`` * - :ref:`real_forms_of_complex_orbit_as_reps_c_block_b,_[int]_p->[param]1` - ``Block B, [int] P->[Param]`` * - :ref:`real_forms_of_complex_orbit_as_cells_c_block_b,_[int]_p->[int]1` - ``Block B, [int] P->[int]`` * - :ref:`all_cells_with_aq_lambda_c_block_b,_[int]_p->[int]1` - ``Block B, [int] P->[int]`` * - :ref:`all_cells_with_aq_lambda_as_real_forms_c_block_b,_[int]_p->[[int]]1` - ``Block B, [int] P->[[int]]`` * - :ref:`unipotent_algo_test_c_block_b,_[int]_p->bool1` - ``Block B, [int] P->bool`` * - :ref:`unipotent_packet_c_block_b,_[int]_p->[[param]]1` - ``Block B, [int] P->[[Param]]`` * - :ref:`missing_parts_of_uni_packet_c_block_b,_[int]_p->[[param]]1` - ``Block B, [int] P->[[Param]]`` * - :ref:`is_valid_pair_block_b,_[int]_p->bool1` - ``Block B, [int] P->bool`` * - :ref:`unipotent_packets_block_b,_[int]_p->[[param]]1` - ``Block B, [int] P->[[Param]]``