X-Git-Url: https://git.saurik.com/redis.git/blobdiff_plain/b8b8501d70770465adc67d4effb4dbae2899f3a8..890a2ed989274cb09b5cde1def3935e110ec3cb9:/tests/unit/type/zset.tcl diff --git a/tests/unit/type/zset.tcl b/tests/unit/type/zset.tcl index da264845..761cac49 100644 --- a/tests/unit/type/zset.tcl +++ b/tests/unit/type/zset.tcl @@ -6,227 +6,577 @@ start_server {tags {"zset"}} { } } - test {ZSET basic ZADD and score update} { - r zadd ztmp 10 x - r zadd ztmp 20 y - r zadd ztmp 30 z - set aux1 [r zrange ztmp 0 -1] - r zadd ztmp 1 y - set aux2 [r zrange ztmp 0 -1] - list $aux1 $aux2 - } {{x y z} {y x z}} - - test {ZCARD basics} { - r zcard ztmp - } {3} - - test {ZCARD non existing key} { - r zcard ztmp-blabla - } {0} + proc basics {encoding} { + if {$encoding == "ziplist"} { + r config set zset-max-ziplist-entries 128 + r config set zset-max-ziplist-value 64 + } elseif {$encoding == "skiplist"} { + r config set zset-max-ziplist-entries 0 + r config set zset-max-ziplist-value 0 + } else { + puts "Unknown sorted set encoding" + exit + } - test "ZRANGE basics" { - r del ztmp - r zadd ztmp 1 a - r zadd ztmp 2 b - r zadd ztmp 3 c - r zadd ztmp 4 d - - assert_equal {a b c d} [r zrange ztmp 0 -1] - assert_equal {a b c} [r zrange ztmp 0 -2] - assert_equal {b c d} [r zrange ztmp 1 -1] - assert_equal {b c} [r zrange ztmp 1 -2] - assert_equal {c d} [r zrange ztmp -2 -1] - assert_equal {c} [r zrange ztmp -2 -2] - - # out of range start index - assert_equal {a b c} [r zrange ztmp -5 2] - assert_equal {a b} [r zrange ztmp -5 1] - assert_equal {} [r zrange ztmp 5 -1] - assert_equal {} [r zrange ztmp 5 -2] - - # out of range end index - assert_equal {a b c d} [r zrange ztmp 0 5] - assert_equal {b c d} [r zrange ztmp 1 5] - assert_equal {} [r zrange ztmp 0 -5] - assert_equal {} [r zrange ztmp 1 -5] - - # withscores - assert_equal {a 1 b 2 c 3 d 4} [r zrange ztmp 0 -1 withscores] - } + test "Check encoding - $encoding" { + r del ztmp + r zadd ztmp 10 x + assert_encoding $encoding ztmp + } - test "ZREVRANGE basics" { - r del ztmp - r zadd ztmp 1 a - r zadd ztmp 2 b - r zadd ztmp 3 c - r zadd ztmp 4 d - - assert_equal {d c b a} [r zrevrange ztmp 0 -1] - assert_equal {d c b} [r zrevrange ztmp 0 -2] - assert_equal {c b a} [r zrevrange ztmp 1 -1] - assert_equal {c b} [r zrevrange ztmp 1 -2] - assert_equal {b a} [r zrevrange ztmp -2 -1] - assert_equal {b} [r zrevrange ztmp -2 -2] - - # out of range start index - assert_equal {d c b} [r zrevrange ztmp -5 2] - assert_equal {d c} [r zrevrange ztmp -5 1] - assert_equal {} [r zrevrange ztmp 5 -1] - assert_equal {} [r zrevrange ztmp 5 -2] - - # out of range end index - assert_equal {d c b a} [r zrevrange ztmp 0 5] - assert_equal {c b a} [r zrevrange ztmp 1 5] - assert_equal {} [r zrevrange ztmp 0 -5] - assert_equal {} [r zrevrange ztmp 1 -5] - - # withscores - assert_equal {d 4 c 3 b 2 a 1} [r zrevrange ztmp 0 -1 withscores] - } + test "ZSET basic ZADD and score update - $encoding" { + r del ztmp + r zadd ztmp 10 x + r zadd ztmp 20 y + r zadd ztmp 30 z + assert_equal {x y z} [r zrange ztmp 0 -1] + + r zadd ztmp 1 y + assert_equal {y x z} [r zrange ztmp 0 -1] + } + + test "ZSET element can't be set to NaN with ZADD - $encoding" { + assert_error "*not a double*" {r zadd myzset nan abc} + } + + test "ZSET element can't be set to NaN with ZINCRBY" { + assert_error "*not a double*" {r zadd myzset nan abc} + } + + test "ZINCRBY calls leading to NaN result in error" { + r zincrby myzset +inf abc + assert_error "*NaN*" {r zincrby myzset -inf abc} + } + + test "ZCARD basics - $encoding" { + assert_equal 3 [r zcard ztmp] + assert_equal 0 [r zcard zdoesntexist] + } + + test "ZREM removes key after last element is removed" { + r del ztmp + r zadd ztmp 10 x + r zadd ztmp 20 y + + assert_equal 1 [r exists ztmp] + assert_equal 0 [r zrem ztmp z] + assert_equal 1 [r zrem ztmp y] + assert_equal 1 [r zrem ztmp x] + assert_equal 0 [r exists ztmp] + } + + test "ZRANGE basics - $encoding" { + r del ztmp + r zadd ztmp 1 a + r zadd ztmp 2 b + r zadd ztmp 3 c + r zadd ztmp 4 d + + assert_equal {a b c d} [r zrange ztmp 0 -1] + assert_equal {a b c} [r zrange ztmp 0 -2] + assert_equal {b c d} [r zrange ztmp 1 -1] + assert_equal {b c} [r zrange ztmp 1 -2] + assert_equal {c d} [r zrange ztmp -2 -1] + assert_equal {c} [r zrange ztmp -2 -2] + + # out of range start index + assert_equal {a b c} [r zrange ztmp -5 2] + assert_equal {a b} [r zrange ztmp -5 1] + assert_equal {} [r zrange ztmp 5 -1] + assert_equal {} [r zrange ztmp 5 -2] + + # out of range end index + assert_equal {a b c d} [r zrange ztmp 0 5] + assert_equal {b c d} [r zrange ztmp 1 5] + assert_equal {} [r zrange ztmp 0 -5] + assert_equal {} [r zrange ztmp 1 -5] + + # withscores + assert_equal {a 1 b 2 c 3 d 4} [r zrange ztmp 0 -1 withscores] + } + + test "ZREVRANGE basics - $encoding" { + r del ztmp + r zadd ztmp 1 a + r zadd ztmp 2 b + r zadd ztmp 3 c + r zadd ztmp 4 d + + assert_equal {d c b a} [r zrevrange ztmp 0 -1] + assert_equal {d c b} [r zrevrange ztmp 0 -2] + assert_equal {c b a} [r zrevrange ztmp 1 -1] + assert_equal {c b} [r zrevrange ztmp 1 -2] + assert_equal {b a} [r zrevrange ztmp -2 -1] + assert_equal {b} [r zrevrange ztmp -2 -2] + + # out of range start index + assert_equal {d c b} [r zrevrange ztmp -5 2] + assert_equal {d c} [r zrevrange ztmp -5 1] + assert_equal {} [r zrevrange ztmp 5 -1] + assert_equal {} [r zrevrange ztmp 5 -2] + + # out of range end index + assert_equal {d c b a} [r zrevrange ztmp 0 5] + assert_equal {c b a} [r zrevrange ztmp 1 5] + assert_equal {} [r zrevrange ztmp 0 -5] + assert_equal {} [r zrevrange ztmp 1 -5] + + # withscores + assert_equal {d 4 c 3 b 2 a 1} [r zrevrange ztmp 0 -1 withscores] + } + + test "ZRANK/ZREVRANK basics - $encoding" { + r del zranktmp + r zadd zranktmp 10 x + r zadd zranktmp 20 y + r zadd zranktmp 30 z + assert_equal 0 [r zrank zranktmp x] + assert_equal 1 [r zrank zranktmp y] + assert_equal 2 [r zrank zranktmp z] + assert_equal "" [r zrank zranktmp foo] + assert_equal 2 [r zrevrank zranktmp x] + assert_equal 1 [r zrevrank zranktmp y] + assert_equal 0 [r zrevrank zranktmp z] + assert_equal "" [r zrevrank zranktmp foo] + } + + test "ZRANK - after deletion - $encoding" { + r zrem zranktmp y + assert_equal 0 [r zrank zranktmp x] + assert_equal 1 [r zrank zranktmp z] + } + + test "ZINCRBY - can create a new sorted set - $encoding" { + r del zset + r zincrby zset 1 foo + assert_equal {foo} [r zrange zset 0 -1] + assert_equal 1 [r zscore zset foo] + } + + test "ZINCRBY - increment and decrement - $encoding" { + r zincrby zset 2 foo + r zincrby zset 1 bar + assert_equal {bar foo} [r zrange zset 0 -1] + + r zincrby zset 10 bar + r zincrby zset -5 foo + r zincrby zset -5 bar + assert_equal {foo bar} [r zrange zset 0 -1] + + assert_equal -2 [r zscore zset foo] + assert_equal 6 [r zscore zset bar] + } - test {ZRANK basics} { - r zadd zranktmp 10 x - r zadd zranktmp 20 y - r zadd zranktmp 30 z - list [r zrank zranktmp x] [r zrank zranktmp y] [r zrank zranktmp z] - } {0 1 2} - - test {ZREVRANK basics} { - list [r zrevrank zranktmp x] [r zrevrank zranktmp y] [r zrevrank zranktmp z] - } {2 1 0} - - test {ZRANK - after deletion} { - r zrem zranktmp y - list [r zrank zranktmp x] [r zrank zranktmp z] - } {0 1} - - test {ZSCORE} { - set aux {} - set err {} - for {set i 0} {$i < 1000} {incr i} { - set score [expr rand()] - lappend aux $score - r zadd zscoretest $score $i - } - for {set i 0} {$i < 1000} {incr i} { - if {[r zscore zscoretest $i] != [lindex $aux $i]} { - set err "Expected score was [lindex $aux $i] but got [r zscore zscoretest $i] for element $i" - break + proc create_default_zset {} { + create_zset zset {-inf a 1 b 2 c 3 d 4 e 5 f +inf g} + } + + test "ZRANGEBYSCORE/ZREVRANGEBYSCORE/ZCOUNT basics" { + create_default_zset + + # inclusive range + assert_equal {a b c} [r zrangebyscore zset -inf 2] + assert_equal {b c d} [r zrangebyscore zset 0 3] + assert_equal {d e f} [r zrangebyscore zset 3 6] + assert_equal {e f g} [r zrangebyscore zset 4 +inf] + assert_equal {c b a} [r zrevrangebyscore zset 2 -inf] + assert_equal {d c b} [r zrevrangebyscore zset 3 0] + assert_equal {f e d} [r zrevrangebyscore zset 6 3] + assert_equal {g f e} [r zrevrangebyscore zset +inf 4] + assert_equal 3 [r zcount zset 0 3] + + # exclusive range + assert_equal {b} [r zrangebyscore zset (-inf (2] + assert_equal {b c} [r zrangebyscore zset (0 (3] + assert_equal {e f} [r zrangebyscore zset (3 (6] + assert_equal {f} [r zrangebyscore zset (4 (+inf] + assert_equal {b} [r zrevrangebyscore zset (2 (-inf] + assert_equal {c b} [r zrevrangebyscore zset (3 (0] + assert_equal {f e} [r zrevrangebyscore zset (6 (3] + assert_equal {f} [r zrevrangebyscore zset (+inf (4] + assert_equal 2 [r zcount zset (0 (3] + + # test empty ranges + r zrem zset a + r zrem zset g + + # inclusive + assert_equal {} [r zrangebyscore zset 4 2] + assert_equal {} [r zrangebyscore zset 6 +inf] + assert_equal {} [r zrangebyscore zset -inf -6] + assert_equal {} [r zrevrangebyscore zset +inf 6] + assert_equal {} [r zrevrangebyscore zset -6 -inf] + + # exclusive + assert_equal {} [r zrangebyscore zset (4 (2] + assert_equal {} [r zrangebyscore zset 2 (2] + assert_equal {} [r zrangebyscore zset (2 2] + assert_equal {} [r zrangebyscore zset (6 (+inf] + assert_equal {} [r zrangebyscore zset (-inf (-6] + assert_equal {} [r zrevrangebyscore zset (+inf (6] + assert_equal {} [r zrevrangebyscore zset (-6 (-inf] + + # empty inner range + assert_equal {} [r zrangebyscore zset 2.4 2.6] + assert_equal {} [r zrangebyscore zset (2.4 2.6] + assert_equal {} [r zrangebyscore zset 2.4 (2.6] + assert_equal {} [r zrangebyscore zset (2.4 (2.6] + } + + test "ZRANGEBYSCORE with WITHSCORES" { + create_default_zset + assert_equal {b 1 c 2 d 3} [r zrangebyscore zset 0 3 withscores] + assert_equal {d 3 c 2 b 1} [r zrevrangebyscore zset 3 0 withscores] + } + + test "ZRANGEBYSCORE with LIMIT" { + create_default_zset + assert_equal {b c} [r zrangebyscore zset 0 10 LIMIT 0 2] + assert_equal {d e f} [r zrangebyscore zset 0 10 LIMIT 2 3] + assert_equal {d e f} [r zrangebyscore zset 0 10 LIMIT 2 10] + assert_equal {} [r zrangebyscore zset 0 10 LIMIT 20 10] + assert_equal {f e} [r zrevrangebyscore zset 10 0 LIMIT 0 2] + assert_equal {d c b} [r zrevrangebyscore zset 10 0 LIMIT 2 3] + assert_equal {d c b} [r zrevrangebyscore zset 10 0 LIMIT 2 10] + assert_equal {} [r zrevrangebyscore zset 10 0 LIMIT 20 10] + } + + test "ZRANGEBYSCORE with LIMIT and WITHSCORES" { + create_default_zset + assert_equal {e 4 f 5} [r zrangebyscore zset 2 5 LIMIT 2 3 WITHSCORES] + assert_equal {d 3 c 2} [r zrevrangebyscore zset 5 2 LIMIT 2 3 WITHSCORES] + } + + test "ZRANGEBYSCORE with non-value min or max" { + assert_error "*not a double*" {r zrangebyscore fooz str 1} + assert_error "*not a double*" {r zrangebyscore fooz 1 str} + assert_error "*not a double*" {r zrangebyscore fooz 1 NaN} + } + + test "ZREMRANGEBYSCORE basics" { + proc remrangebyscore {min max} { + create_zset zset {1 a 2 b 3 c 4 d 5 e} + assert_equal 1 [r exists zset] + r zremrangebyscore zset $min $max } + + # inner range + assert_equal 3 [remrangebyscore 2 4] + assert_equal {a e} [r zrange zset 0 -1] + + # start underflow + assert_equal 1 [remrangebyscore -10 1] + assert_equal {b c d e} [r zrange zset 0 -1] + + # end overflow + assert_equal 1 [remrangebyscore 5 10] + assert_equal {a b c d} [r zrange zset 0 -1] + + # switch min and max + assert_equal 0 [remrangebyscore 4 2] + assert_equal {a b c d e} [r zrange zset 0 -1] + + # -inf to mid + assert_equal 3 [remrangebyscore -inf 3] + assert_equal {d e} [r zrange zset 0 -1] + + # mid to +inf + assert_equal 3 [remrangebyscore 3 +inf] + assert_equal {a b} [r zrange zset 0 -1] + + # -inf to +inf + assert_equal 5 [remrangebyscore -inf +inf] + assert_equal {} [r zrange zset 0 -1] + + # exclusive min + assert_equal 4 [remrangebyscore (1 5] + assert_equal {a} [r zrange zset 0 -1] + assert_equal 3 [remrangebyscore (2 5] + assert_equal {a b} [r zrange zset 0 -1] + + # exclusive max + assert_equal 4 [remrangebyscore 1 (5] + assert_equal {e} [r zrange zset 0 -1] + assert_equal 3 [remrangebyscore 1 (4] + assert_equal {d e} [r zrange zset 0 -1] + + # exclusive min and max + assert_equal 3 [remrangebyscore (1 (5] + assert_equal {a e} [r zrange zset 0 -1] + + # destroy when empty + assert_equal 5 [remrangebyscore 1 5] + assert_equal 0 [r exists zset] + } + + test "ZREMRANGEBYSCORE with non-value min or max" { + assert_error "*not a double*" {r zremrangebyscore fooz str 1} + assert_error "*not a double*" {r zremrangebyscore fooz 1 str} + assert_error "*not a double*" {r zremrangebyscore fooz 1 NaN} } - set _ $err - } {} - - test {ZSCORE after a DEBUG RELOAD} { - set aux {} - set err {} - r del zscoretest - for {set i 0} {$i < 1000} {incr i} { - set score [expr rand()] - lappend aux $score - r zadd zscoretest $score $i - } - r debug reload - for {set i 0} {$i < 1000} {incr i} { - if {[r zscore zscoretest $i] != [lindex $aux $i]} { - set err "Expected score was [lindex $aux $i] but got [r zscore zscoretest $i] for element $i" - break + + test "ZREMRANGEBYRANK basics" { + proc remrangebyrank {min max} { + create_zset zset {1 a 2 b 3 c 4 d 5 e} + assert_equal 1 [r exists zset] + r zremrangebyrank zset $min $max } + + # inner range + assert_equal 3 [remrangebyrank 1 3] + assert_equal {a e} [r zrange zset 0 -1] + + # start underflow + assert_equal 1 [remrangebyrank -10 0] + assert_equal {b c d e} [r zrange zset 0 -1] + + # start overflow + assert_equal 0 [remrangebyrank 10 -1] + assert_equal {a b c d e} [r zrange zset 0 -1] + + # end underflow + assert_equal 0 [remrangebyrank 0 -10] + assert_equal {a b c d e} [r zrange zset 0 -1] + + # end overflow + assert_equal 5 [remrangebyrank 0 10] + assert_equal {} [r zrange zset 0 -1] + + # destroy when empty + assert_equal 5 [remrangebyrank 0 4] + assert_equal 0 [r exists zset] } - set _ $err - } {} - test {ZSETs stress tester - sorting is working well?} { - set delta 0 - for {set test 0} {$test < 2} {incr test} { - unset -nocomplain auxarray - array set auxarray {} - set auxlist {} - r del myzset - for {set i 0} {$i < 1000} {incr i} { - if {$test == 0} { - set score [expr rand()] - } else { - set score [expr int(rand()*10)] + test "ZUNIONSTORE against non-existing key doesn't set destination - $encoding" { + r del zseta + assert_equal 0 [r zunionstore dst_key 1 zseta] + assert_equal 0 [r exists dst_key] + } + + test "ZUNIONSTORE with empty set - $encoding" { + r del zseta zsetb + r zadd zseta 1 a + r zadd zseta 2 b + r zunionstore zsetc 2 zseta zsetb + r zrange zsetc 0 -1 withscores + } {a 1 b 2} + + test "ZUNIONSTORE basics - $encoding" { + r del zseta zsetb zsetc + r zadd zseta 1 a + r zadd zseta 2 b + r zadd zseta 3 c + r zadd zsetb 1 b + r zadd zsetb 2 c + r zadd zsetb 3 d + + assert_equal 4 [r zunionstore zsetc 2 zseta zsetb] + assert_equal {a 1 b 3 d 3 c 5} [r zrange zsetc 0 -1 withscores] + } + + test "ZUNIONSTORE with weights - $encoding" { + assert_equal 4 [r zunionstore zsetc 2 zseta zsetb weights 2 3] + assert_equal {a 2 b 7 d 9 c 12} [r zrange zsetc 0 -1 withscores] + } + + test "ZUNIONSTORE with a regular set and weights - $encoding" { + r del seta + r sadd seta a + r sadd seta b + r sadd seta c + + assert_equal 4 [r zunionstore zsetc 2 seta zsetb weights 2 3] + assert_equal {a 2 b 5 c 8 d 9} [r zrange zsetc 0 -1 withscores] + } + + test "ZUNIONSTORE with AGGREGATE MIN - $encoding" { + assert_equal 4 [r zunionstore zsetc 2 zseta zsetb aggregate min] + assert_equal {a 1 b 1 c 2 d 3} [r zrange zsetc 0 -1 withscores] + } + + test "ZUNIONSTORE with AGGREGATE MAX - $encoding" { + assert_equal 4 [r zunionstore zsetc 2 zseta zsetb aggregate max] + assert_equal {a 1 b 2 c 3 d 3} [r zrange zsetc 0 -1 withscores] + } + + test "ZINTERSTORE basics - $encoding" { + assert_equal 2 [r zinterstore zsetc 2 zseta zsetb] + assert_equal {b 3 c 5} [r zrange zsetc 0 -1 withscores] + } + + test "ZINTERSTORE with weights - $encoding" { + assert_equal 2 [r zinterstore zsetc 2 zseta zsetb weights 2 3] + assert_equal {b 7 c 12} [r zrange zsetc 0 -1 withscores] + } + + test "ZINTERSTORE with a regular set and weights - $encoding" { + r del seta + r sadd seta a + r sadd seta b + r sadd seta c + assert_equal 2 [r zinterstore zsetc 2 seta zsetb weights 2 3] + assert_equal {b 5 c 8} [r zrange zsetc 0 -1 withscores] + } + + test "ZINTERSTORE with AGGREGATE MIN - $encoding" { + assert_equal 2 [r zinterstore zsetc 2 zseta zsetb aggregate min] + assert_equal {b 1 c 2} [r zrange zsetc 0 -1 withscores] + } + + test "ZINTERSTORE with AGGREGATE MAX - $encoding" { + assert_equal 2 [r zinterstore zsetc 2 zseta zsetb aggregate max] + assert_equal {b 2 c 3} [r zrange zsetc 0 -1 withscores] + } + + foreach cmd {ZUNIONSTORE ZINTERSTORE} { + test "$cmd with +inf/-inf scores - $encoding" { + r del zsetinf1 zsetinf2 + + r zadd zsetinf1 +inf key + r zadd zsetinf2 +inf key + r $cmd zsetinf3 2 zsetinf1 zsetinf2 + assert_equal inf [r zscore zsetinf3 key] + + r zadd zsetinf1 -inf key + r zadd zsetinf2 +inf key + r $cmd zsetinf3 2 zsetinf1 zsetinf2 + assert_equal 0 [r zscore zsetinf3 key] + + r zadd zsetinf1 +inf key + r zadd zsetinf2 -inf key + r $cmd zsetinf3 2 zsetinf1 zsetinf2 + assert_equal 0 [r zscore zsetinf3 key] + + r zadd zsetinf1 -inf key + r zadd zsetinf2 -inf key + r $cmd zsetinf3 2 zsetinf1 zsetinf2 + assert_equal -inf [r zscore zsetinf3 key] + } + + test "$cmd with NaN weights $encoding" { + r del zsetinf1 zsetinf2 + + r zadd zsetinf1 1.0 key + r zadd zsetinf2 1.0 key + assert_error "*weight value is not a double*" { + r $cmd zsetinf3 2 zsetinf1 zsetinf2 weights nan nan } - set auxarray($i) $score - r zadd myzset $score $i - # Random update - if {[expr rand()] < .2} { - set j [expr int(rand()*1000)] + } + } + } + + basics ziplist + basics skiplist + + test {ZINTERSTORE regression with two sets, intset+hashtable} { + r del seta setb setc + r sadd set1 a + r sadd set2 10 + r zinterstore set3 2 set1 set2 + } {0} + + proc stressers {encoding} { + if {$encoding == "ziplist"} { + # Little extra to allow proper fuzzing in the sorting stresser + r config set zset-max-ziplist-entries 256 + r config set zset-max-ziplist-value 64 + set elements 128 + } elseif {$encoding == "skiplist"} { + r config set zset-max-ziplist-entries 0 + r config set zset-max-ziplist-value 0 + set elements 1000 + } else { + puts "Unknown sorted set encoding" + exit + } + + test "ZSCORE - $encoding" { + r del zscoretest + set aux {} + for {set i 0} {$i < $elements} {incr i} { + set score [expr rand()] + lappend aux $score + r zadd zscoretest $score $i + } + + assert_encoding $encoding zscoretest + for {set i 0} {$i < $elements} {incr i} { + assert_equal [lindex $aux $i] [r zscore zscoretest $i] + } + } + + test "ZSCORE after a DEBUG RELOAD - $encoding" { + r del zscoretest + set aux {} + for {set i 0} {$i < $elements} {incr i} { + set score [expr rand()] + lappend aux $score + r zadd zscoretest $score $i + } + + r debug reload + assert_encoding $encoding zscoretest + for {set i 0} {$i < $elements} {incr i} { + assert_equal [lindex $aux $i] [r zscore zscoretest $i] + } + } + + test "ZSET sorting stresser - $encoding" { + set delta 0 + for {set test 0} {$test < 2} {incr test} { + unset -nocomplain auxarray + array set auxarray {} + set auxlist {} + r del myzset + for {set i 0} {$i < $elements} {incr i} { if {$test == 0} { set score [expr rand()] } else { set score [expr int(rand()*10)] } - set auxarray($j) $score - r zadd myzset $score $j + set auxarray($i) $score + r zadd myzset $score $i + # Random update + if {[expr rand()] < .2} { + set j [expr int(rand()*1000)] + if {$test == 0} { + set score [expr rand()] + } else { + set score [expr int(rand()*10)] + } + set auxarray($j) $score + r zadd myzset $score $j + } } - } - foreach {item score} [array get auxarray] { - lappend auxlist [list $score $item] - } - set sorted [lsort -command zlistAlikeSort $auxlist] - set auxlist {} - foreach x $sorted { - lappend auxlist [lindex $x 1] - } - set fromredis [r zrange myzset 0 -1] - set delta 0 - for {set i 0} {$i < [llength $fromredis]} {incr i} { - if {[lindex $fromredis $i] != [lindex $auxlist $i]} { - incr delta + foreach {item score} [array get auxarray] { + lappend auxlist [list $score $item] + } + set sorted [lsort -command zlistAlikeSort $auxlist] + set auxlist {} + foreach x $sorted { + lappend auxlist [lindex $x 1] + } + + assert_encoding $encoding myzset + set fromredis [r zrange myzset 0 -1] + set delta 0 + for {set i 0} {$i < [llength $fromredis]} {incr i} { + if {[lindex $fromredis $i] != [lindex $auxlist $i]} { + incr delta + } } } + assert_equal 0 $delta } - format $delta - } {0} - test {ZINCRBY - can create a new sorted set} { - r del zset - r zincrby zset 1 foo - list [r zrange zset 0 -1] [r zscore zset foo] - } {foo 1} - - test {ZINCRBY - increment and decrement} { - r zincrby zset 2 foo - r zincrby zset 1 bar - set v1 [r zrange zset 0 -1] - r zincrby zset 10 bar - r zincrby zset -5 foo - r zincrby zset -5 bar - set v2 [r zrange zset 0 -1] - list $v1 $v2 [r zscore zset foo] [r zscore zset bar] - } {{bar foo} {foo bar} -2 6} - - test {ZRANGEBYSCORE and ZCOUNT basics} { - r del zset - r zadd zset 1 a - r zadd zset 2 b - r zadd zset 3 c - r zadd zset 4 d - r zadd zset 5 e - list [r zrangebyscore zset 2 4] [r zrangebyscore zset (2 (4] \ - [r zcount zset 2 4] [r zcount zset (2 (4] - } {{b c d} c 3 1} - - test {ZRANGEBYSCORE withscores} { - r del zset - r zadd zset 1 a - r zadd zset 2 b - r zadd zset 3 c - r zadd zset 4 d - r zadd zset 5 e - r zrangebyscore zset 2 4 withscores - } {b 2 c 3 d 4} - - tags {"slow"} { - test {ZRANGEBYSCORE fuzzy test, 100 ranges in 1000 elements sorted set} { + test "ZRANGEBYSCORE fuzzy test, 100 ranges in $elements element sorted set - $encoding" { set err {} r del zset - for {set i 0} {$i < 1000} {incr i} { + for {set i 0} {$i < $elements} {incr i} { r zadd zset [expr rand()] $i } + + assert_encoding $encoding zset for {set i 0} {$i < 100} {incr i} { set min [expr rand()] set max [expr rand()] @@ -298,149 +648,17 @@ start_server {tags {"zset"}} { } } } - set _ $err - } {} - } - - test {ZRANGEBYSCORE with LIMIT} { - r del zset - r zadd zset 1 a - r zadd zset 2 b - r zadd zset 3 c - r zadd zset 4 d - r zadd zset 5 e - list \ - [r zrangebyscore zset 0 10 LIMIT 0 2] \ - [r zrangebyscore zset 0 10 LIMIT 2 3] \ - [r zrangebyscore zset 0 10 LIMIT 2 10] \ - [r zrangebyscore zset 0 10 LIMIT 20 10] - } {{a b} {c d e} {c d e} {}} - - test {ZRANGEBYSCORE with LIMIT and withscores} { - r del zset - r zadd zset 10 a - r zadd zset 20 b - r zadd zset 30 c - r zadd zset 40 d - r zadd zset 50 e - r zrangebyscore zset 20 50 LIMIT 2 3 withscores - } {d 40 e 50} - - test {ZREMRANGEBYSCORE basics} { - r del zset - r zadd zset 1 a - r zadd zset 2 b - r zadd zset 3 c - r zadd zset 4 d - r zadd zset 5 e - list [r zremrangebyscore zset 2 4] [r zrange zset 0 -1] - } {3 {a e}} - - test {ZREMRANGEBYSCORE from -inf to +inf} { - r del zset - r zadd zset 1 a - r zadd zset 2 b - r zadd zset 3 c - r zadd zset 4 d - r zadd zset 5 e - list [r zremrangebyscore zset -inf +inf] [r zrange zset 0 -1] - } {5 {}} - - test "ZREMRANGEBYRANK basics" { - proc remrangebyrank {min max} { - create_zset zset {1 a 2 b 3 c 4 d 5 e} - r zremrangebyrank zset $min $max - } - - # inner range - assert_equal 3 [remrangebyrank 1 3] - assert_equal {a e} [r zrange zset 0 -1] - - # start underflow - assert_equal 1 [remrangebyrank -10 0] - assert_equal {b c d e} [r zrange zset 0 -1] - - # start overflow - assert_equal 0 [remrangebyrank 10 -1] - assert_equal {a b c d e} [r zrange zset 0 -1] - - # end underflow - assert_equal 0 [remrangebyrank 0 -10] - assert_equal {a b c d e} [r zrange zset 0 -1] - - # end overflow - assert_equal 5 [remrangebyrank 0 10] - assert_equal {} [r zrange zset 0 -1] - } + assert_equal {} $err + } - test {ZUNIONSTORE against non-existing key doesn't set destination} { - r del zseta - list [r zunionstore dst_key 1 zseta] [r exists dst_key] - } {0 0} - - test {ZUNIONSTORE basics} { - r del zseta zsetb zsetc - r zadd zseta 1 a - r zadd zseta 2 b - r zadd zseta 3 c - r zadd zsetb 1 b - r zadd zsetb 2 c - r zadd zsetb 3 d - list [r zunionstore zsetc 2 zseta zsetb] [r zrange zsetc 0 -1 withscores] - } {4 {a 1 b 3 d 3 c 5}} - - test {ZUNIONSTORE with weights} { - list [r zunionstore zsetc 2 zseta zsetb weights 2 3] [r zrange zsetc 0 -1 withscores] - } {4 {a 2 b 7 d 9 c 12}} - - test {ZUNIONSTORE with a regular set and weights} { - r del seta - r sadd seta a - r sadd seta b - r sadd seta c - list [r zunionstore zsetc 2 seta zsetb weights 2 3] [r zrange zsetc 0 -1 withscores] - } {4 {a 2 b 5 c 8 d 9}} - - test {ZUNIONSTORE with AGGREGATE MIN} { - list [r zunionstore zsetc 2 zseta zsetb aggregate min] [r zrange zsetc 0 -1 withscores] - } {4 {a 1 b 1 c 2 d 3}} - - test {ZUNIONSTORE with AGGREGATE MAX} { - list [r zunionstore zsetc 2 zseta zsetb aggregate max] [r zrange zsetc 0 -1 withscores] - } {4 {a 1 b 2 c 3 d 3}} - - test {ZINTERSTORE basics} { - list [r zinterstore zsetc 2 zseta zsetb] [r zrange zsetc 0 -1 withscores] - } {2 {b 3 c 5}} - - test {ZINTERSTORE with weights} { - list [r zinterstore zsetc 2 zseta zsetb weights 2 3] [r zrange zsetc 0 -1 withscores] - } {2 {b 7 c 12}} - - test {ZINTERSTORE with a regular set and weights} { - r del seta - r sadd seta a - r sadd seta b - r sadd seta c - list [r zinterstore zsetc 2 seta zsetb weights 2 3] [r zrange zsetc 0 -1 withscores] - } {2 {b 5 c 8}} - - test {ZINTERSTORE with AGGREGATE MIN} { - list [r zinterstore zsetc 2 zseta zsetb aggregate min] [r zrange zsetc 0 -1 withscores] - } {2 {b 1 c 2}} - - test {ZINTERSTORE with AGGREGATE MAX} { - list [r zinterstore zsetc 2 zseta zsetb aggregate max] [r zrange zsetc 0 -1 withscores] - } {2 {b 2 c 3}} - - tags {"slow"} { - test {ZSETs skiplist implementation backlink consistency test} { + test "ZSETs skiplist implementation backlink consistency test - $encoding" { set diff 0 - set elements 10000 for {set j 0} {$j < $elements} {incr j} { r zadd myzset [expr rand()] "Element-$j" r zrem myzset "Element-[expr int(rand()*$elements)]" } + + assert_encoding $encoding myzset set l1 [r zrange myzset 0 -1] set l2 [r zrevrange myzset 0 -1] for {set j 0} {$j < [llength $l1]} {incr j} { @@ -448,20 +666,22 @@ start_server {tags {"zset"}} { incr diff } } - format $diff - } {0} + assert_equal 0 $diff + } - test {ZSETs ZRANK augmented skip list stress testing} { + test "ZSETs ZRANK augmented skip list stress testing - $encoding" { set err {} r del myzset - for {set k 0} {$k < 10000} {incr k} { - set i [expr {$k%1000}] + for {set k 0} {$k < 2000} {incr k} { + set i [expr {$k % $elements}] if {[expr rand()] < .2} { r zrem myzset $i } else { set score [expr rand()] r zadd myzset $score $i + assert_encoding $encoding myzset } + set card [r zcard myzset] if {$card > 0} { set index [randomInt $card] @@ -473,26 +693,12 @@ start_server {tags {"zset"}} { } } } - set _ $err - } {} + assert_equal {} $err + } } - test {ZSET element can't be set to nan with ZADD} { - set e {} - catch {r zadd myzset nan abc} e - set _ $e - } {*Not A Number*} - - test {ZSET element can't be set to nan with ZINCRBY} { - set e {} - catch {r zincrby myzset nan abc} e - set _ $e - } {*Not A Number*} - - test {ZINCRBY calls leading to Nan are refused} { - set e {} - r zincrby myzset +inf abc - catch {r zincrby myzset -inf abc} e - set _ $e - } {*Not A Number*} + tags {"slow"} { + stressers ziplist + stressers skiplist + } }