test {SADD against non set} {
r lpush mylist foo
- assert_error ERR*kind* {r sadd mylist bar}
+ assert_error WRONGTYPE* {r sadd mylist bar}
}
test "SADD a non-integer against an intset" {
}
}
+ test "SDIFF with first set empty" {
+ r del set1 set2 set3
+ r sadd set2 1 2 3 4
+ r sadd set3 a b c d
+ r sdiff set1 set2 set3
+ } {}
+
+ test "SDIFF fuzzing" {
+ for {set j 0} {$j < 100} {incr j} {
+ unset -nocomplain s
+ array set s {}
+ set args {}
+ set num_sets [expr {[randomInt 10]+1}]
+ for {set i 0} {$i < $num_sets} {incr i} {
+ set num_elements [randomInt 100]
+ r del set_$i
+ lappend args set_$i
+ while {$num_elements} {
+ set ele [randomValue]
+ r sadd set_$i $ele
+ if {$i == 0} {
+ set s($ele) x
+ } else {
+ unset -nocomplain s($ele)
+ }
+ incr num_elements -1
+ }
+ }
+ set result [lsort [r sdiff {*}$args]]
+ assert_equal $result [lsort [array names s]]
+ }
+ }
+
test "SINTER against non-set should throw error" {
r set key1 x
- assert_error "ERR*wrong kind*" {r sinter key1 noset}
+ assert_error "WRONGTYPE*" {r sinter key1 noset}
}
test "SUNION against non-set should throw error" {
r set key1 x
- assert_error "ERR*wrong kind*" {r sunion key1 noset}
+ assert_error "WRONGTYPE*" {r sunion key1 noset}
}
+ test "SINTER should handle non existing key as empty" {
+ r del set1 set2 set3
+ r sadd set1 a b c
+ r sadd set2 b c d
+ r sinter set1 set2 set3
+ } {}
+
+ test "SINTER with same integer elements but different encoding" {
+ r del set1 set2
+ r sadd set1 1 2 3
+ r sadd set2 1 2 3 a
+ r srem set2 a
+ assert_encoding intset set1
+ assert_encoding hashtable set2
+ lsort [r sinter set1 set2]
+ } {1 2 3}
+
test "SINTERSTORE against non existing keys should delete dstkey" {
r set setres xxx
assert_equal 0 [r sinterstore setres foo111 bar222]
}
}
+ test "SRANDMEMBER with <count> against non existing key" {
+ r srandmember nonexisting_key 100
+ } {}
+
+ foreach {type contents} {
+ hashtable {
+ 1 5 10 50 125 50000 33959417 4775547 65434162
+ 12098459 427716 483706 2726473884 72615637475
+ MARY PATRICIA LINDA BARBARA ELIZABETH JENNIFER MARIA
+ SUSAN MARGARET DOROTHY LISA NANCY KAREN BETTY HELEN
+ SANDRA DONNA CAROL RUTH SHARON MICHELLE LAURA SARAH
+ KIMBERLY DEBORAH JESSICA SHIRLEY CYNTHIA ANGELA MELISSA
+ BRENDA AMY ANNA REBECCA VIRGINIA KATHLEEN
+ }
+ intset {
+ 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
+ 20 21 22 23 24 25 26 27 28 29
+ 30 31 32 33 34 35 36 37 38 39
+ 40 41 42 43 44 45 46 47 48 49
+ }
+ } {
+ test "SRANDMEMBER with <count> - $type" {
+ create_set myset $contents
+ unset -nocomplain myset
+ array set myset {}
+ foreach ele [r smembers myset] {
+ set myset($ele) 1
+ }
+ assert_equal [lsort $contents] [lsort [array names myset]]
+
+ # Make sure that a count of 0 is handled correctly.
+ assert_equal [r srandmember myset 0] {}
+
+ # We'll stress different parts of the code, see the implementation
+ # of SRANDMEMBER for more information, but basically there are
+ # four different code paths.
+ #
+ # PATH 1: Use negative count.
+ #
+ # 1) Check that it returns repeated elements.
+ set res [r srandmember myset -100]
+ assert_equal [llength $res] 100
+
+ # 2) Check that all the elements actually belong to the
+ # original set.
+ foreach ele $res {
+ assert {[info exists myset($ele)]}
+ }
+
+ # 3) Check that eventually all the elements are returned.
+ unset -nocomplain auxset
+ set iterations 1000
+ while {$iterations != 0} {
+ incr iterations -1
+ set res [r srandmember myset -10]
+ foreach ele $res {
+ set auxset($ele) 1
+ }
+ if {[lsort [array names myset]] eq
+ [lsort [array names auxset]]} {
+ break;
+ }
+ }
+ assert {$iterations != 0}
+
+ # PATH 2: positive count (unique behavior) with requested size
+ # equal or greater than set size.
+ foreach size {50 100} {
+ set res [r srandmember myset $size]
+ assert_equal [llength $res] 50
+ assert_equal [lsort $res] [lsort [array names myset]]
+ }
+
+ # PATH 3: Ask almost as elements as there are in the set.
+ # In this case the implementation will duplicate the original
+ # set and will remove random elements up to the requested size.
+ #
+ # PATH 4: Ask a number of elements definitely smaller than
+ # the set size.
+ #
+ # We can test both the code paths just changing the size but
+ # using the same code.
+
+ foreach size {45 5} {
+ set res [r srandmember myset $size]
+ assert_equal [llength $res] $size
+
+ # 1) Check that all the elements actually belong to the
+ # original set.
+ foreach ele $res {
+ assert {[info exists myset($ele)]}
+ }
+
+ # 2) Check that eventually all the elements are returned.
+ unset -nocomplain auxset
+ set iterations 1000
+ while {$iterations != 0} {
+ incr iterations -1
+ set res [r srandmember myset -10]
+ foreach ele $res {
+ set auxset($ele) 1
+ }
+ if {[lsort [array names myset]] eq
+ [lsort [array names auxset]]} {
+ break;
+ }
+ }
+ assert {$iterations != 0}
+ }
+ }
+ }
+
proc setup_move {} {
r del myset3 myset4
create_set myset1 {1 a b}
test "SMOVE wrong src key type" {
r set x 10
- assert_error "ERR*wrong kind*" {r smove x myset2 foo}
+ assert_error "WRONGTYPE*" {r smove x myset2 foo}
}
test "SMOVE wrong dst key type" {
r set x 10
- assert_error "ERR*wrong kind*" {r smove myset2 x foo}
+ assert_error "WRONGTYPE*" {r smove myset2 x foo}
}
test "SMOVE with identical source and destination" {