APPROX_COUNT ( ( * | expr ) [ , 'MAX_ERROR' ] ) APPROX_COUNT_DISTINCT(expr) APPROX_COUNT_DISTINCT_AGG( detail ) APPROX_COUNT_DISTINCT_DETAIL( expr ) APPROX_MEDIAN( expr [ DETERMINISTIC ] [, { 'ERROR_RATE' | 'CONFIDENCE' } ] ) APPROX_PERCENTILE( expr [ DETERMINISTIC ] [, { 'ERROR_RATE' | 'CONFIDENCE' } ] )
WITHIN GROUP ( ORDER BY expr [ DESC | ASC ] )
APPROX_PERCENTILE_AGG(expr) APPROX_PERCENTILE_DETAIL( expr [ DETERMINISTIC ] ) APPROX_RANK ( expr [ PARTITION BY partition_by_clause ] [ ORDER BY order_by_clause DESC] ) APPROX_SUM ( ( * | expr )[ , 'MAX_ERROR' ] ) AVG([ DISTINCT | ALL ] expr) [ OVER(analytic_clause) ] COLLECT( [ DISTINCT | UNIQUE ] column [ ORDER BY expr ] ) CORR(expr1, expr2) [ OVER (analytic_clause) ] CORR_K(expr1, expr2 [, { COEFFICIENT | ONE_SIDED_SIG | ONE_SIDED_SIG_POS | ONE_SIDED_SIG_NEG
| TWO_SIDED_SIG } ] )
CORR_S(expr1, expr2 [, { COEFFICIENT | ONE_SIDED_SIG | ONE_SIDED_SIG_POS | ONE_SIDED_SIG_NEG
| TWO_SIDED_SIG } ] )
COUNT({ * | [ DISTINCT | ALL ] expr }) [ OVER (analytic_clause) ] COVAR_POP(expr1, expr2) [ OVER (analytic_clause) ] COVAR_SAMP(expr1, expr2) [ OVER (analytic_clause) ] CUME_DIST(expr[,expr ]...) WITHIN GROUP (ORDER BY expr [ DESC | ASC ] [ NULLS { FIRST | LAST } ]
[, expr [ DESC | ASC ] [ NULLS { FIRST | LAST } ] ]... )
DENSE_RANK(expr [, expr ]...) WITHIN GROUP (ORDER BY expr [ DESC | ASC ] [ NULLS { FIRST | LAST } ]
[,expr [ DESC | ASC ] [ NULLS { FIRST | LAST } ] ]... )
aggregate_function KEEP ( DENSE_RANK FIRST ORDER BY expr [ DESC | ASC ] [ NULLS { FIRST | LAST } ]
[, expr [ DESC | ASC ] [ NULLS { FIRST | LAST } ] ]... )
[ OVER ( [query_partition_clause] ) ]
GROUP_ID( ) GROUPING(expr) GROUPING_ID(expr [, expr ]...) JSON_ARRAYAGG( expr [ FORMAT JSON ] [ order_by_clause ] [ JSON_on_null_clause ]
[ JSON_agg_returning_clause ] [ STRICT ] )
JSON_OBJECTAGG( [ KEY ] key_expr VALUE val_expr [ JSON_on_null_clause ]
[ JSON_agg_returning_clause ]
[ STRICT ] [ WITH UNIQUE KEYS ] )
aggregate_function KEEP(DENSE_RANK LAST ORDER BY expr [ DESC | ASC ] [ NULLS { FIRST | LAST } ]
[, expr [ DESC | ASC ] [ NULLS { FIRST | LAST } ] ]... )
[ OVER ( [query_partition_clause] ) ]
LISTAGG( [ ALL | DISTINCT ] measure_expr [, ' delimiter ' ] [ listagg_overflow_clause ] )
[ WITHIN GROUP ( order_by_clause ) ] [ OVER ( [ query_partition_clause ] ) ]
MAX([ DISTINCT | ALL ] expr) [ OVER (analytic_clause) ] MEDIAN(expr) [ OVER ( [ query_partition_clause ] ) ] MIN([ DISTINCT | ALL ] expr) [ OVER (analytic_clause) ] PERCENT_RANK(expr [, expr ]...) WITHIN GROUP (ORDER BY expr [ DESC | ASC ] [NULLS { FIRST | LAST } ]
[, expr [ DESC | ASC ] [NULLS { FIRST | LAST } ] ]... )
PERCENTILE_CONT(expr) WITHIN GROUP (ORDER BY expr [ DESC | ASC ]) [ OVER (query_partition_clause) ] PERCENTILE_DISC(expr) WITHIN GROUP (ORDER BY expr [ DESC | ASC ]) [ OVER (query_partition_clause) ] RANK(expr [, expr ]...) WITHIN GROUP (ORDER BY expr [ DESC | ASC ] [ NULLS { FIRST | LAST } ]
[, expr [ DESC | ASC ] [ NULLS { FIRST | LAST } ] ]... )
REGR_SLOPE(expr1 , expr2) [ OVER (analytic_clause) ] REGR_INTERCEPT(expr1 , expr2) [ OVER (analytic_clause) ] REGR_COUNT(expr1 , expr2) [ OVER (analytic_clause) ] REGR_R2(expr1 , expr2) [ OVER (analytic_clause) ] REGR_AVGX(expr1 , expr2) [ OVER (analytic_clause) ] REGR_AVGY(expr1 , expr2) [ OVER (analytic_clause) ] REGR_SXX(expr1 , expr2) [ OVER (analytic_clause) ] REGR_SYY(expr1 , expr2) [ OVER (analytic_clause) ] REGR_SXY(expr1 , expr2) [ OVER (analytic_clause) ] STATS_BINOMIAL_TEST(expr1, expr2, p [, { 'TWO_SIDED_PROB' | 'EXACT_PROB' |
'ONE_SIDED_PROB_OR_MORE' |
'ONE_SIDED_PROB_OR_LESS' } ] )
STATS_CROSSTAB(expr1, expr2 [, { 'CHISQ_OBS' | 'CHISQ_SIG' | 'CHISQ_DF' | 'PHI_COEFFICIENT'
| 'CRAMERS_V' | 'CONT_COEFFICIENT' | 'COHENS_K' } ] )
STATS_F_TEST(expr1, expr2
[, { { 'STATISTIC' | 'DF_NUM' | 'DF_DEN' | 'ONE_SIDED_SIG' } , expr3 | 'TWO_SIDED_SIG' } ] )
STATS_KS_TEST(expr1, expr2 [, { 'STATISTIC' | 'SIG' } ] ) STATS_MODE(expr) STATS_MW_TEST(expr1, expr2 [, { 'STATISTIC' | 'U_STATISTIC' | 'ONE_SIDED_SIG' ,
expr3 | 'TWO_SIDED_SIG' } ] )
STATS_ONE_WAY_ANOVA(expr1, expr2 [, { 'SUM_SQUARES_BETWEEN' | 'SUM_SQUARES_WITHIN'
| 'DF_BETWEEN' | 'DF_WITHIN'
| 'MEAN_SQUARES_BETWEEN' | 'MEAN_SQUARES_WITHIN'
| 'F_RATIO' | 'SIG' } ] )
STATS_T_TEST_* STATS_WSR_TEST(expr1, expr2 [, { 'STATISTIC' | 'ONE_SIDED_SIG' | 'TWO_SIDED_SIG' } ] ) STDDEV([ DISTINCT | ALL ] expr) [ OVER (analytic_clause) ] STDDEV_POP(expr) [ OVER (analytic_clause) ] STDDEV_SAMP(expr) [ OVER (analytic_clause) ] SUM([ DISTINCT | ALL ] expr) [ OVER (analytic_clause) ] SYS_OP_ZONE_ID( [ [ schema. ] table. | t_alias. ] rowid [, scale ] ) SYS_XMLAGG(expr [, fmt ]) TO_APPROX_COUNT_DISTINCT(detail) TO_APPROX_PERCENTILE(detail, expr, 'datatype' [, { 'DESC' | 'ASC' | 'ERROR_RATE' | 'CONFIDENCE' } ]) VAR_POP(expr) [ OVER (analytic_clause) ] VAR_SAMP(expr) [ OVER (analytic_clause) ] VARIANCE([ DISTINCT | ALL ] expr) [ OVER (analytic_clause) ] XMLAGG(XMLType_instance [ order_by_clause ])