/*------------------------------------------------------------------------- * * pg_aggregate.h * definition of the system "aggregate" relation (pg_aggregate) * along with the relation's initial contents. * * * Portions Copyright (c) 1996-2015, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/catalog/pg_aggregate.h * * NOTES * the genbki.pl script reads this file and generates .bki * information from the DATA() statements. * *------------------------------------------------------------------------- */ #ifndef PG_AGGREGATE_H #define PG_AGGREGATE_H #include "catalog/genbki.h" #include "catalog/objectaddress.h" #include "nodes/pg_list.h" /* ---------------------------------------------------------------- * pg_aggregate definition. * * cpp turns this into typedef struct FormData_pg_aggregate * * aggfnoid pg_proc OID of the aggregate itself * aggkind aggregate kind, see AGGKIND_ categories below * aggnumdirectargs number of arguments that are "direct" arguments * aggtransfn transition function * aggfinalfn final function (0 if none) * aggmtransfn forward function for moving-aggregate mode (0 if none) * aggminvtransfn inverse function for moving-aggregate mode (0 if none) * aggmfinalfn final function for moving-aggregate mode (0 if none) * aggfinalextra true to pass extra dummy arguments to aggfinalfn * aggmfinalextra true to pass extra dummy arguments to aggmfinalfn * aggsortop associated sort operator (0 if none) * aggtranstype type of aggregate's transition (state) data * aggtransspace estimated size of state data (0 for default estimate) * aggmtranstype type of moving-aggregate state data (0 if none) * aggmtransspace estimated size of moving-agg state (0 for default est) * agginitval initial value for transition state (can be NULL) * aggminitval initial value for moving-agg state (can be NULL) * ---------------------------------------------------------------- */ #define AggregateRelationId 2600 CATALOG(pg_aggregate,2600) BKI_WITHOUT_OIDS { regproc aggfnoid; char aggkind; int16 aggnumdirectargs; regproc aggtransfn; regproc aggfinalfn; regproc aggmtransfn; regproc aggminvtransfn; regproc aggmfinalfn; bool aggfinalextra; bool aggmfinalextra; Oid aggsortop; Oid aggtranstype; int32 aggtransspace; Oid aggmtranstype; int32 aggmtransspace; #ifdef CATALOG_VARLEN /* variable-length fields start here */ text agginitval; text aggminitval; #endif } FormData_pg_aggregate; /* ---------------- * Form_pg_aggregate corresponds to a pointer to a tuple with * the format of pg_aggregate relation. * ---------------- */ typedef FormData_pg_aggregate *Form_pg_aggregate; /* ---------------- * compiler constants for pg_aggregate * ---------------- */ #define Natts_pg_aggregate 17 #define Anum_pg_aggregate_aggfnoid 1 #define Anum_pg_aggregate_aggkind 2 #define Anum_pg_aggregate_aggnumdirectargs 3 #define Anum_pg_aggregate_aggtransfn 4 #define Anum_pg_aggregate_aggfinalfn 5 #define Anum_pg_aggregate_aggmtransfn 6 #define Anum_pg_aggregate_aggminvtransfn 7 #define Anum_pg_aggregate_aggmfinalfn 8 #define Anum_pg_aggregate_aggfinalextra 9 #define Anum_pg_aggregate_aggmfinalextra 10 #define Anum_pg_aggregate_aggsortop 11 #define Anum_pg_aggregate_aggtranstype 12 #define Anum_pg_aggregate_aggtransspace 13 #define Anum_pg_aggregate_aggmtranstype 14 #define Anum_pg_aggregate_aggmtransspace 15 #define Anum_pg_aggregate_agginitval 16 #define Anum_pg_aggregate_aggminitval 17 /* * Symbolic values for aggkind column. We distinguish normal aggregates * from ordered-set aggregates (which have two sets of arguments, namely * direct and aggregated arguments) and from hypothetical-set aggregates * (which are a subclass of ordered-set aggregates in which the last * direct arguments have to match up in number and datatypes with the * aggregated arguments). */ #define AGGKIND_NORMAL 'n' #define AGGKIND_ORDERED_SET 'o' #define AGGKIND_HYPOTHETICAL 'h' /* Use this macro to test for "ordered-set agg including hypothetical case" */ #define AGGKIND_IS_ORDERED_SET(kind) ((kind) != AGGKIND_NORMAL) /* ---------------- * initial contents of pg_aggregate * --------------- */ /* avg */ DATA(insert ( 2100 n 0 int8_avg_accum numeric_poly_avg int8_avg_accum int8_avg_accum_inv numeric_poly_avg f f 0 2281 48 2281 48 _null_ _null_ )); DATA(insert ( 2101 n 0 int4_avg_accum int8_avg int4_avg_accum int4_avg_accum_inv int8_avg f f 0 1016 0 1016 0 "{0,0}" "{0,0}" )); DATA(insert ( 2102 n 0 int2_avg_accum int8_avg int2_avg_accum int2_avg_accum_inv int8_avg f f 0 1016 0 1016 0 "{0,0}" "{0,0}" )); DATA(insert ( 2103 n 0 numeric_avg_accum numeric_avg numeric_avg_accum numeric_accum_inv numeric_avg f f 0 2281 128 2281 128 _null_ _null_ )); DATA(insert ( 2104 n 0 float4_accum float8_avg - - - f f 0 1022 0 0 0 "{0,0,0}" _null_ )); DATA(insert ( 2105 n 0 float8_accum float8_avg - - - f f 0 1022 0 0 0 "{0,0,0}" _null_ )); DATA(insert ( 2106 n 0 interval_accum interval_avg interval_accum interval_accum_inv interval_avg f f 0 1187 0 1187 0 "{0 second,0 second}" "{0 second,0 second}" )); /* sum */ DATA(insert ( 2107 n 0 int8_avg_accum numeric_poly_sum int8_avg_accum int8_avg_accum_inv numeric_poly_sum f f 0 2281 48 2281 48 _null_ _null_ )); DATA(insert ( 2108 n 0 int4_sum - int4_avg_accum int4_avg_accum_inv int2int4_sum f f 0 20 0 1016 0 _null_ "{0,0}" )); DATA(insert ( 2109 n 0 int2_sum - int2_avg_accum int2_avg_accum_inv int2int4_sum f f 0 20 0 1016 0 _null_ "{0,0}" )); DATA(insert ( 2110 n 0 float4pl - - - - f f 0 700 0 0 0 _null_ _null_ )); DATA(insert ( 2111 n 0 float8pl - - - - f f 0 701 0 0 0 _null_ _null_ )); DATA(insert ( 2112 n 0 cash_pl - cash_pl cash_mi - f f 0 790 0 790 0 _null_ _null_ )); DATA(insert ( 2113 n 0 interval_pl - interval_pl interval_mi - f f 0 1186 0 1186 0 _null_ _null_ )); DATA(insert ( 2114 n 0 numeric_avg_accum numeric_sum numeric_avg_accum numeric_accum_inv numeric_sum f f 0 2281 128 2281 128 _null_ _null_ )); /* max */ DATA(insert ( 2115 n 0 int8larger - - - - f f 413 20 0 0 0 _null_ _null_ )); DATA(insert ( 2116 n 0 int4larger - - - - f f 521 23 0 0 0 _null_ _null_ )); DATA(insert ( 2117 n 0 int2larger - - - - f f 520 21 0 0 0 _null_ _null_ )); DATA(insert ( 2118 n 0 oidlarger - - - - f f 610 26 0 0 0 _null_ _null_ )); DATA(insert ( 2119 n 0 float4larger - - - - f f 623 700 0 0 0 _null_ _null_ )); DATA(insert ( 2120 n 0 float8larger - - - - f f 674 701 0 0 0 _null_ _null_ )); DATA(insert ( 2121 n 0 int4larger - - - - f f 563 702 0 0 0 _null_ _null_ )); DATA(insert ( 2122 n 0 date_larger - - - - f f 1097 1082 0 0 0 _null_ _null_ )); DATA(insert ( 2123 n 0 time_larger - - - - f f 1112 1083 0 0 0 _null_ _null_ )); DATA(insert ( 2124 n 0 timetz_larger - - - - f f 1554 1266 0 0 0 _null_ _null_ )); DATA(insert ( 2125 n 0 cashlarger - - - - f f 903 790 0 0 0 _null_ _null_ )); DATA(insert ( 2126 n 0 timestamp_larger - - - - f f 2064 1114 0 0 0 _null_ _null_ )); DATA(insert ( 2127 n 0 timestamptz_larger - - - - f f 1324 1184 0 0 0 _null_ _null_ )); DATA(insert ( 2128 n 0 interval_larger - - - - f f 1334 1186 0 0 0 _null_ _null_ )); DATA(insert ( 2129 n 0 text_larger - - - - f f 666 25 0 0 0 _null_ _null_ )); DATA(insert ( 2130 n 0 numeric_larger - - - - f f 1756 1700 0 0 0 _null_ _null_ )); DATA(insert ( 2050 n 0 array_larger - - - - f f 1073 2277 0 0 0 _null_ _null_ )); DATA(insert ( 2244 n 0 bpchar_larger - - - - f f 1060 1042 0 0 0 _null_ _null_ )); DATA(insert ( 2797 n 0 tidlarger - - - - f f 2800 27 0 0 0 _null_ _null_ )); DATA(insert ( 3526 n 0 enum_larger - - - - f f 3519 3500 0 0 0 _null_ _null_ )); DATA(insert ( 3564 n 0 network_larger - - - - f f 1205 869 0 0 0 _null_ _null_ )); /* min */ DATA(insert ( 2131 n 0 int8smaller - - - - f f 412 20 0 0 0 _null_ _null_ )); DATA(insert ( 2132 n 0 int4smaller - - - - f f 97 23 0 0 0 _null_ _null_ )); DATA(insert ( 2133 n 0 int2smaller - - - - f f 95 21 0 0 0 _null_ _null_ )); DATA(insert ( 2134 n 0 oidsmaller - - - - f f 609 26 0 0 0 _null_ _null_ )); DATA(insert ( 2135 n 0 float4smaller - - - - f f 622 700 0 0 0 _null_ _null_ )); DATA(insert ( 2136 n 0 float8smaller - - - - f f 672 701 0 0 0 _null_ _null_ )); DATA(insert ( 2137 n 0 int4smaller - - - - f f 562 702 0 0 0 _null_ _null_ )); DATA(insert ( 2138 n 0 date_smaller - - - - f f 1095 1082 0 0 0 _null_ _null_ )); DATA(insert ( 2139 n 0 time_smaller - - - - f f 1110 1083 0 0 0 _null_ _null_ )); DATA(insert ( 2140 n 0 timetz_smaller - - - - f f 1552 1266 0 0 0 _null_ _null_ )); DATA(insert ( 2141 n 0 cashsmaller - - - - f f 902 790 0 0 0 _null_ _null_ )); DATA(insert ( 2142 n 0 timestamp_smaller - - - - f f 2062 1114 0 0 0 _null_ _null_ )); DATA(insert ( 2143 n 0 timestamptz_smaller - - - - f f 1322 1184 0 0 0 _null_ _null_ )); DATA(insert ( 2144 n 0 interval_smaller - - - - f f 1332 1186 0 0 0 _null_ _null_ )); DATA(insert ( 2145 n 0 text_smaller - - - - f f 664 25 0 0 0 _null_ _null_ )); DATA(insert ( 2146 n 0 numeric_smaller - - - - f f 1754 1700 0 0 0 _null_ _null_ )); DATA(insert ( 2051 n 0 array_smaller - - - - f f 1072 2277 0 0 0 _null_ _null_ )); DATA(insert ( 2245 n 0 bpchar_smaller - - - - f f 1058 1042 0 0 0 _null_ _null_ )); DATA(insert ( 2798 n 0 tidsmaller - - - - f f 2799 27 0 0 0 _null_ _null_ )); DATA(insert ( 3527 n 0 enum_smaller - - - - f f 3518 3500 0 0 0 _null_ _null_ )); DATA(insert ( 3565 n 0 network_smaller - - - - f f 1203 869 0 0 0 _null_ _null_ )); /* count */ DATA(insert ( 2147 n 0 int8inc_any - int8inc_any int8dec_any - f f 0 20 0 20 0 "0" "0" )); DATA(insert ( 2803 n 0 int8inc - int8inc int8dec - f f 0 20 0 20 0 "0" "0" )); /* var_pop */ DATA(insert ( 2718 n 0 int8_accum numeric_var_pop int8_accum int8_accum_inv numeric_var_pop f f 0 2281 128 2281 128 _null_ _null_ )); DATA(insert ( 2719 n 0 int4_accum numeric_poly_var_pop int4_accum int4_accum_inv numeric_poly_var_pop f f 0 2281 48 2281 48 _null_ _null_ )); DATA(insert ( 2720 n 0 int2_accum numeric_poly_var_pop int2_accum int2_accum_inv numeric_poly_var_pop f f 0 2281 48 2281 48 _null_ _null_ )); DATA(insert ( 2721 n 0 float4_accum float8_var_pop - - - f f 0 1022 0 0 0 "{0,0,0}" _null_ )); DATA(insert ( 2722 n 0 float8_accum float8_var_pop - - - f f 0 1022 0 0 0 "{0,0,0}" _null_ )); DATA(insert ( 2723 n 0 numeric_accum numeric_var_pop numeric_accum numeric_accum_inv numeric_var_pop f f 0 2281 128 2281 128 _null_ _null_ )); /* var_samp */ DATA(insert ( 2641 n 0 int8_accum numeric_var_samp int8_accum int8_accum_inv numeric_var_samp f f 0 2281 128 2281 128 _null_ _null_ )); DATA(insert ( 2642 n 0 int4_accum numeric_poly_var_samp int4_accum int4_accum_inv numeric_poly_var_samp f f 0 2281 48 2281 48 _null_ _null_ )); DATA(insert ( 2643 n 0 int2_accum numeric_poly_var_samp int2_accum int2_accum_inv numeric_poly_var_samp f f 0 2281 48 2281 48 _null_ _null_ )); DATA(insert ( 2644 n 0 float4_accum float8_var_samp - - - f f 0 1022 0 0 0 "{0,0,0}" _null_ )); DATA(insert ( 2645 n 0 float8_accum float8_var_samp - - - f f 0 1022 0 0 0 "{0,0,0}" _null_ )); DATA(insert ( 2646 n 0 numeric_accum numeric_var_samp numeric_accum numeric_accum_inv numeric_var_samp f f 0 2281 128 2281 128 _null_ _null_ )); /* variance: historical Postgres syntax for var_samp */ DATA(insert ( 2148 n 0 int8_accum numeric_var_samp int8_accum int8_accum_inv numeric_var_samp f f 0 2281 128 2281 128 _null_ _null_ )); DATA(insert ( 2149 n 0 int4_accum numeric_poly_var_samp int4_accum int4_accum_inv numeric_poly_var_samp f f 0 2281 48 2281 48 _null_ _null_ )); DATA(insert ( 2150 n 0 int2_accum numeric_poly_var_samp int2_accum int2_accum_inv numeric_poly_var_samp f f 0 2281 48 2281 48 _null_ _null_ )); DATA(insert ( 2151 n 0 float4_accum float8_var_samp - - - f f 0 1022 0 0 0 "{0,0,0}" _null_ )); DATA(insert ( 2152 n 0 float8_accum float8_var_samp - - - f f 0 1022 0 0 0 "{0,0,0}" _null_ )); DATA(insert ( 2153 n 0 numeric_accum numeric_var_samp numeric_accum numeric_accum_inv numeric_var_samp f f 0 2281 128 2281 128 _null_ _null_ )); /* stddev_pop */ DATA(insert ( 2724 n 0 int8_accum numeric_stddev_pop int8_accum int8_accum_inv numeric_stddev_pop f f 0 2281 128 2281 128 _null_ _null_ )); DATA(insert ( 2725 n 0 int4_accum numeric_poly_stddev_pop int4_accum int4_accum_inv numeric_poly_stddev_pop f f 0 2281 48 2281 48 _null_ _null_ )); DATA(insert ( 2726 n 0 int2_accum numeric_poly_stddev_pop int2_accum int2_accum_inv numeric_poly_stddev_pop f f 0 2281 48 2281 48 _null_ _null_ )); DATA(insert ( 2727 n 0 float4_accum float8_stddev_pop - - - f f 0 1022 0 0 0 "{0,0,0}" _null_ )); DATA(insert ( 2728 n 0 float8_accum float8_stddev_pop - - - f f 0 1022 0 0 0 "{0,0,0}" _null_ )); DATA(insert ( 2729 n 0 numeric_accum numeric_stddev_pop numeric_accum numeric_accum_inv numeric_stddev_pop f f 0 2281 128 2281 128 _null_ _null_ )); /* stddev_samp */ DATA(insert ( 2712 n 0 int8_accum numeric_stddev_samp int8_accum int8_accum_inv numeric_stddev_samp f f 0 2281 128 2281 128 _null_ _null_ )); DATA(insert ( 2713 n 0 int4_accum numeric_poly_stddev_samp int4_accum int4_accum_inv numeric_poly_stddev_samp f f 0 2281 48 2281 48 _null_ _null_ )); DATA(insert ( 2714 n 0 int2_accum numeric_poly_stddev_samp int2_accum int2_accum_inv numeric_poly_stddev_samp f f 0 2281 48 2281 48 _null_ _null_ )); DATA(insert ( 2715 n 0 float4_accum float8_stddev_samp - - - f f 0 1022 0 0 0 "{0,0,0}" _null_ )); DATA(insert ( 2716 n 0 float8_accum float8_stddev_samp - - - f f 0 1022 0 0 0 "{0,0,0}" _null_ )); DATA(insert ( 2717 n 0 numeric_accum numeric_stddev_samp numeric_accum numeric_accum_inv numeric_stddev_samp f f 0 2281 128 2281 128 _null_ _null_ )); /* stddev: historical Postgres syntax for stddev_samp */ DATA(insert ( 2154 n 0 int8_accum numeric_stddev_samp int8_accum int8_accum_inv numeric_stddev_samp f f 0 2281 128 2281 128 _null_ _null_ )); DATA(insert ( 2155 n 0 int4_accum numeric_poly_stddev_samp int4_accum int4_accum_inv numeric_poly_stddev_samp f f 0 2281 48 2281 48 _null_ _null_ )); DATA(insert ( 2156 n 0 int2_accum numeric_poly_stddev_samp int2_accum int2_accum_inv numeric_poly_stddev_samp f f 0 2281 48 2281 48 _null_ _null_ )); DATA(insert ( 2157 n 0 float4_accum float8_stddev_samp - - - f f 0 1022 0 0 0 "{0,0,0}" _null_ )); DATA(insert ( 2158 n 0 float8_accum float8_stddev_samp - - - f f 0 1022 0 0 0 "{0,0,0}" _null_ )); DATA(insert ( 2159 n 0 numeric_accum numeric_stddev_samp numeric_accum numeric_accum_inv numeric_stddev_samp f f 0 2281 128 2281 128 _null_ _null_ )); /* SQL2003 binary regression aggregates */ DATA(insert ( 2818 n 0 int8inc_float8_float8 - - - - f f 0 20 0 0 0 "0" _null_ )); DATA(insert ( 2819 n 0 float8_regr_accum float8_regr_sxx - - - f f 0 1022 0 0 0 "{0,0,0,0,0,0}" _null_ )); DATA(insert ( 2820 n 0 float8_regr_accum float8_regr_syy - - - f f 0 1022 0 0 0 "{0,0,0,0,0,0}" _null_ )); DATA(insert ( 2821 n 0 float8_regr_accum float8_regr_sxy - - - f f 0 1022 0 0 0 "{0,0,0,0,0,0}" _null_ )); DATA(insert ( 2822 n 0 float8_regr_accum float8_regr_avgx - - - f f 0 1022 0 0 0 "{0,0,0,0,0,0}" _null_ )); DATA(insert ( 2823 n 0 float8_regr_accum float8_regr_avgy - - - f f 0 1022 0 0 0 "{0,0,0,0,0,0}" _null_ )); DATA(insert ( 2824 n 0 float8_regr_accum float8_regr_r2 - - - f f 0 1022 0 0 0 "{0,0,0,0,0,0}" _null_ )); DATA(insert ( 2825 n 0 float8_regr_accum float8_regr_slope - - - f f 0 1022 0 0 0 "{0,0,0,0,0,0}" _null_ )); DATA(insert ( 2826 n 0 float8_regr_accum float8_regr_intercept - - - f f 0 1022 0 0 0 "{0,0,0,0,0,0}" _null_ )); DATA(insert ( 2827 n 0 float8_regr_accum float8_covar_pop - - - f f 0 1022 0 0 0 "{0,0,0,0,0,0}" _null_ )); DATA(insert ( 2828 n 0 float8_regr_accum float8_covar_samp - - - f f 0 1022 0 0 0 "{0,0,0,0,0,0}" _null_ )); DATA(insert ( 2829 n 0 float8_regr_accum float8_corr - - - f f 0 1022 0 0 0 "{0,0,0,0,0,0}" _null_ )); /* boolean-and and boolean-or */ DATA(insert ( 2517 n 0 booland_statefunc - bool_accum bool_accum_inv bool_alltrue f f 58 16 0 2281 16 _null_ _null_ )); DATA(insert ( 2518 n 0 boolor_statefunc - bool_accum bool_accum_inv bool_anytrue f f 59 16 0 2281 16 _null_ _null_ )); DATA(insert ( 2519 n 0 booland_statefunc - bool_accum bool_accum_inv bool_alltrue f f 58 16 0 2281 16 _null_ _null_ )); /* bitwise integer */ DATA(insert ( 2236 n 0 int2and - - - - f f 0 21 0 0 0 _null_ _null_ )); DATA(insert ( 2237 n 0 int2or - - - - f f 0 21 0 0 0 _null_ _null_ )); DATA(insert ( 2238 n 0 int4and - - - - f f 0 23 0 0 0 _null_ _null_ )); DATA(insert ( 2239 n 0 int4or - - - - f f 0 23 0 0 0 _null_ _null_ )); DATA(insert ( 2240 n 0 int8and - - - - f f 0 20 0 0 0 _null_ _null_ )); DATA(insert ( 2241 n 0 int8or - - - - f f 0 20 0 0 0 _null_ _null_ )); DATA(insert ( 2242 n 0 bitand - - - - f f 0 1560 0 0 0 _null_ _null_ )); DATA(insert ( 2243 n 0 bitor - - - - f f 0 1560 0 0 0 _null_ _null_ )); /* xml */ DATA(insert ( 2901 n 0 xmlconcat2 - - - - f f 0 142 0 0 0 _null_ _null_ )); /* array */ DATA(insert ( 2335 n 0 array_agg_transfn array_agg_finalfn - - - t f 0 2281 0 0 0 _null_ _null_ )); DATA(insert ( 4053 n 0 array_agg_array_transfn array_agg_array_finalfn - - - t f 0 2281 0 0 0 _null_ _null_ )); /* text */ DATA(insert ( 3538 n 0 string_agg_transfn string_agg_finalfn - - - f f 0 2281 0 0 0 _null_ _null_ )); /* bytea */ DATA(insert ( 3545 n 0 bytea_string_agg_transfn bytea_string_agg_finalfn - - - f f 0 2281 0 0 0 _null_ _null_ )); /* json */ DATA(insert ( 3175 n 0 json_agg_transfn json_agg_finalfn - - - f f 0 2281 0 0 0 _null_ _null_ )); DATA(insert ( 3197 n 0 json_object_agg_transfn json_object_agg_finalfn - - - f f 0 2281 0 0 0 _null_ _null_ )); /* jsonb */ DATA(insert ( 3267 n 0 jsonb_agg_transfn jsonb_agg_finalfn - - - f f 0 2281 0 0 0 _null_ _null_ )); DATA(insert ( 3270 n 0 jsonb_object_agg_transfn jsonb_object_agg_finalfn - - - f f 0 2281 0 0 0 _null_ _null_ )); /* ordered-set and hypothetical-set aggregates */ DATA(insert ( 3972 o 1 ordered_set_transition percentile_disc_final - - - t f 0 2281 0 0 0 _null_ _null_ )); DATA(insert ( 3974 o 1 ordered_set_transition percentile_cont_float8_final - - - f f 0 2281 0 0 0 _null_ _null_ )); DATA(insert ( 3976 o 1 ordered_set_transition percentile_cont_interval_final - - - f f 0 2281 0 0 0 _null_ _null_ )); DATA(insert ( 3978 o 1 ordered_set_transition percentile_disc_multi_final - - - t f 0 2281 0 0 0 _null_ _null_ )); DATA(insert ( 3980 o 1 ordered_set_transition percentile_cont_float8_multi_final - - - f f 0 2281 0 0 0 _null_ _null_ )); DATA(insert ( 3982 o 1 ordered_set_transition percentile_cont_interval_multi_final - - - f f 0 2281 0 0 0 _null_ _null_ )); DATA(insert ( 3984 o 0 ordered_set_transition mode_final - - - t f 0 2281 0 0 0 _null_ _null_ )); DATA(insert ( 3986 h 1 ordered_set_transition_multi rank_final - - - t f 0 2281 0 0 0 _null_ _null_ )); DATA(insert ( 3988 h 1 ordered_set_transition_multi percent_rank_final - - - t f 0 2281 0 0 0 _null_ _null_ )); DATA(insert ( 3990 h 1 ordered_set_transition_multi cume_dist_final - - - t f 0 2281 0 0 0 _null_ _null_ )); DATA(insert ( 3992 h 1 ordered_set_transition_multi dense_rank_final - - - t f 0 2281 0 0 0 _null_ _null_ )); /* * prototypes for functions in pg_aggregate.c */ extern ObjectAddress AggregateCreate(const char *aggName, Oid aggNamespace, char aggKind, int numArgs, int numDirectArgs, oidvector *parameterTypes, Datum allParameterTypes, Datum parameterModes, Datum parameterNames, List *parameterDefaults, Oid variadicArgType, List *aggtransfnName, List *aggfinalfnName, List *aggmtransfnName, List *aggminvtransfnName, List *aggmfinalfnName, bool finalfnExtraArgs, bool mfinalfnExtraArgs, List *aggsortopName, Oid aggTransType, int32 aggTransSpace, Oid aggmTransType, int32 aggmTransSpace, const char *agginitval, const char *aggminitval); #endif /* PG_AGGREGATE_H */