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start_server {tags {"hll"}} {
test {HyperLogLog self test passes} {
catch {r pfselftest} e
set e
} {OK} {needs:pfdebug}
test {PFADD without arguments creates an HLL value} {
r pfadd hll
r exists hll
} {1}
test {Approximated cardinality after creation is zero} {
r pfcount hll
} {0}
test {PFADD returns 1 when at least 1 reg was modified} {
r pfadd hll a b c
} {1}
test {PFADD returns 0 when no reg was modified} {
r pfadd hll a b c
} {0}
test {PFADD works with empty string (regression)} {
r pfadd hll ""
}
# Note that the self test stresses much better the
# cardinality estimation error. We are testing just the
# command implementation itself here.
test {PFCOUNT returns approximated cardinality of set} {
r del hll
set res {}
r pfadd hll 1 2 3 4 5
lappend res [r pfcount hll]
# Call it again to test cached value invalidation.
r pfadd hll 6 7 8 8 9 10
lappend res [r pfcount hll]
set res
} {5 10}
test {HyperLogLogs are promote from sparse to dense} {
r del hll
r config set hll-sparse-max-bytes 3000
set n 0
while {$n < 100000} {
set elements {}
for {set j 0} {$j < 100} {incr j} {lappend elements [expr rand()]}
incr n 100
r pfadd hll {*}$elements
set card [r pfcount hll]
set err [expr {abs($card-$n)}]
assert {$err < (double($card)/100)*5}
if {$n < 1000} {
assert {[r pfdebug encoding hll] eq {sparse}}
} elseif {$n > 10000} {
assert {[r pfdebug encoding hll] eq {dense}}
}
}
} {} {needs:pfdebug}
test {Change hll-sparse-max-bytes} {
r config set hll-sparse-max-bytes 3000
r del hll
r pfadd hll a b c d e d g h i j k
assert {[r pfdebug encoding hll] eq {sparse}}
r config set hll-sparse-max-bytes 30
r pfadd hll new_element
assert {[r pfdebug encoding hll] eq {dense}}
} {} {needs:pfdebug}
test {Hyperloglog promote to dense well in different hll-sparse-max-bytes} {
set max(0) 100
set max(1) 500
set max(2) 3000
for {set i 0} {$i < [array size max]} {incr i} {
r config set hll-sparse-max-bytes $max($i)
r del hll
r pfadd hll
set len [r strlen hll]
while {$len <= $max($i)} {
assert {[r pfdebug encoding hll] eq {sparse}}
set elements {}
for {set j 0} {$j < 10} {incr j} { lappend elements [expr rand()]}
r pfadd hll {*}$elements
set len [r strlen hll]
}
assert {[r pfdebug encoding hll] eq {dense}}
}
} {} {needs:pfdebug}
test {HyperLogLog sparse encoding stress test} {
for {set x 0} {$x < 1000} {incr x} {
r del hll1
r del hll2
set numele [randomInt 100]
set elements {}
for {set j 0} {$j < $numele} {incr j} {
lappend elements [expr rand()]
}
# Force dense representation of hll2
r pfadd hll2
r pfdebug todense hll2
r pfadd hll1 {*}$elements
r pfadd hll2 {*}$elements
assert {[r pfdebug encoding hll1] eq {sparse}}
assert {[r pfdebug encoding hll2] eq {dense}}
# Cardinality estimated should match exactly.
assert {[r pfcount hll1] eq [r pfcount hll2]}
}
} {} {needs:pfdebug}
test {Corrupted sparse HyperLogLogs are detected: Additional at tail} {
r del hll
r pfadd hll a b c
r append hll "hello"
set e {}
catch {r pfcount hll} e
set e
} {*INVALIDOBJ*}
test {Corrupted sparse HyperLogLogs are detected: Broken magic} {
r del hll
r pfadd hll a b c
r setrange hll 0 "0123"
set e {}
catch {r pfcount hll} e
set e
} {*WRONGTYPE*}
test {Corrupted sparse HyperLogLogs are detected: Invalid encoding} {
r del hll
r pfadd hll a b c
r setrange hll 4 "x"
set e {}
catch {r pfcount hll} e
set e
} {*WRONGTYPE*}
test {Corrupted dense HyperLogLogs are detected: Wrong length} {
r del hll
r pfadd hll a b c
r setrange hll 4 "\x00"
set e {}
catch {r pfcount hll} e
set e
} {*WRONGTYPE*}
test {Fuzzing dense/sparse encoding: Redis should always detect errors} {
for {set j 0} {$j < 1000} {incr j} {
r del hll
set items {}
set numitems [randomInt 3000]
for {set i 0} {$i < $numitems} {incr i} {
lappend items [expr {rand()}]
}
r pfadd hll {*}$items
# Corrupt it in some random way.
for {set i 0} {$i < 5} {incr i} {
set len [r strlen hll]
set pos [randomInt $len]
set byte [randstring 1 1 binary]
r setrange hll $pos $byte
# Don't modify more bytes 50% of times
if {rand() < 0.5} break
}
# Use the hyperloglog to check if it crashes
# Redis in some way.
catch {
r pfcount hll
}
}
}
test {PFADD, PFCOUNT, PFMERGE type checking works} {
r set foo{t} bar
catch {r pfadd foo{t} 1} e
assert_match {*WRONGTYPE*} $e
catch {r pfcount foo{t}} e
assert_match {*WRONGTYPE*} $e
catch {r pfmerge bar{t} foo{t}} e
assert_match {*WRONGTYPE*} $e
catch {r pfmerge foo{t} bar{t}} e
assert_match {*WRONGTYPE*} $e
}
test {PFMERGE results on the cardinality of union of sets} {
r del hll{t} hll1{t} hll2{t} hll3{t}
r pfadd hll1{t} a b c
r pfadd hll2{t} b c d
r pfadd hll3{t} c d e
r pfmerge hll{t} hll1{t} hll2{t} hll3{t}
r pfcount hll{t}
} {5}
test {PFMERGE on missing source keys will create an empty destkey} {
r del sourcekey{t} sourcekey2{t} destkey{t} destkey2{t}
assert_equal {OK} [r pfmerge destkey{t} sourcekey{t}]
assert_equal 1 [r exists destkey{t}]
assert_equal 0 [r pfcount destkey{t}]
assert_equal {OK} [r pfmerge destkey2{t} sourcekey{t} sourcekey2{t}]
assert_equal 1 [r exists destkey2{t}]
assert_equal 0 [r pfcount destkey{t}]
}
test {PFMERGE with one empty input key, create an empty destkey} {
r del destkey
assert_equal {OK} [r pfmerge destkey]
assert_equal 1 [r exists destkey]
assert_equal 0 [r pfcount destkey]
}
test {PFMERGE with one non-empty input key, dest key is actually one of the source keys} {
r del destkey
assert_equal 1 [r pfadd destkey a b c]
assert_equal {OK} [r pfmerge destkey]
assert_equal 1 [r exists destkey]
assert_equal 3 [r pfcount destkey]
}
test {PFCOUNT multiple-keys merge returns cardinality of union #1} {
r del hll1{t} hll2{t} hll3{t}
for {set x 1} {$x < 10000} {incr x} {
r pfadd hll1{t} "foo-$x"
r pfadd hll2{t} "bar-$x"
r pfadd hll3{t} "zap-$x"
set card [r pfcount hll1{t} hll2{t} hll3{t}]
set realcard [expr {$x*3}]
set err [expr {abs($card-$realcard)}]
assert {$err < (double($card)/100)*5}
}
}
test {PFCOUNT multiple-keys merge returns cardinality of union #2} {
r del hll1{t} hll2{t} hll3{t}
set elements {}
for {set x 1} {$x < 10000} {incr x} {
for {set j 1} {$j <= 3} {incr j} {
set rint [randomInt 20000]
r pfadd hll$j{t} $rint
lappend elements $rint
}
}
set realcard [llength [lsort -unique $elements]]
set card [r pfcount hll1{t} hll2{t} hll3{t}]
set err [expr {abs($card-$realcard)}]
assert {$err < (double($card)/100)*5}
}
test {PFDEBUG GETREG returns the HyperLogLog raw registers} {
r del hll
r pfadd hll 1 2 3
llength [r pfdebug getreg hll]
} {16384} {needs:pfdebug}
test {PFADD / PFCOUNT cache invalidation works} {
r del hll
r pfadd hll a b c
r pfcount hll
assert {[r getrange hll 15 15] eq "\x00"}
r pfadd hll a b c
assert {[r getrange hll 15 15] eq "\x00"}
r pfadd hll 1 2 3
assert {[r getrange hll 15 15] eq "\x80"}
}
}
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