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提交 0c7a9dec 编写于 作者: A antirez
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Merge remote branch 'pietern/list-test'

上级 673e1fb7 715c801a
隐藏空白更改
内联 并排
Showing with 102 addition and 90 deletion
tests/support/test.tcl
浏览文件 @ 0c7a9dec
......@@ -33,9 +33,14 @@ proc assert_error {pattern code} {
}
proc assert_encoding {enc key} {
# swapped out value doesn't have encoding, so swap in first
r debug swapin $key
assert_match "* encoding:$enc *" [r debug object $key]
# Swapped out values don't have an encoding, so make sure that
# the value is swapped in before checking the encoding.
set dbg [r debug object $key]
while {[string match "* swapped:*" $dbg]} {
[r debug swapin $key]
set dbg [r debug object $key]
}
assert_match "* encoding:$enc *" $dbg
}
proc assert_type {type key} {
......
tests/unit/type/list.tcl
浏览文件 @ 0c7a9dec
......@@ -5,6 +5,12 @@ start_server {
"list-max-ziplist-entries" 256
}
} {
# We need a value larger than list-max-ziplist-value to make sure
# the list has the right encoding when it is swapped in again.
array set largevalue {}
set largevalue(ziplist) "hello"
set largevalue(linkedlist) [string repeat "hello" 4]
test {LPUSH, RPUSH, LLENGTH, LINDEX - ziplist} {
# first lpush then rpush
assert_equal 1 [r lpush myziplist1 a]
......@@ -28,28 +34,25 @@ start_server {
}
test {LPUSH, RPUSH, LLENGTH, LINDEX - regular list} {
# use a string of length 17 to ensure a regular list is used
set large_value "aaaaaaaaaaaaaaaaa"
# first lpush then rpush
assert_equal 1 [r lpush mylist1 $large_value]
assert_equal 1 [r lpush mylist1 $largevalue(linkedlist)]
assert_encoding linkedlist mylist1
assert_equal 2 [r rpush mylist1 b]
assert_equal 3 [r rpush mylist1 c]
assert_equal 3 [r llen mylist1]
assert_equal $large_value [r lindex mylist1 0]
assert_equal $largevalue(linkedlist) [r lindex mylist1 0]
assert_equal b [r lindex mylist1 1]
assert_equal c [r lindex mylist1 2]
# first rpush then lpush
assert_equal 1 [r rpush mylist2 $large_value]
assert_equal 1 [r rpush mylist2 $largevalue(linkedlist)]
assert_encoding linkedlist mylist2
assert_equal 2 [r lpush mylist2 b]
assert_equal 3 [r lpush mylist2 c]
assert_equal 3 [r llen mylist2]
assert_equal c [r lindex mylist2 0]
assert_equal b [r lindex mylist2 1]
assert_equal $large_value [r lindex mylist2 2]
assert_equal $largevalue(linkedlist) [r lindex mylist2 2]
}
test {DEL a list - ziplist} {
......@@ -72,16 +75,14 @@ start_server {
proc create_linkedlist {key entries} {
r del $key
r rpush $key "aaaaaaaaaaaaaaaaa"
foreach entry $entries { r rpush $key $entry }
assert_equal "aaaaaaaaaaaaaaaaa" [r lpop $key]
assert_encoding linkedlist $key
}
foreach type {ziplist linkedlist} {
foreach {type large} [array get largevalue] {
test "BLPOP, BRPOP: single existing list - $type" {
set rd [redis_deferring_client]
create_$type blist {a b c d}
create_$type blist "a b $large c d"
$rd blpop blist 1
assert_equal {blist a} [$rd read]
......@@ -96,8 +97,8 @@ start_server {
test "BLPOP, BRPOP: multiple existing lists - $type" {
set rd [redis_deferring_client]
create_$type blist1 {a b c}
create_$type blist2 {d e f}
create_$type blist1 "a $large c"
create_$type blist2 "d $large f"
$rd blpop blist1 blist2 1
assert_equal {blist1 a} [$rd read]
......@@ -117,7 +118,7 @@ start_server {
test "BLPOP, BRPOP: second list has an entry - $type" {
set rd [redis_deferring_client]
r del blist1
create_$type blist2 {d e f}
create_$type blist2 "d $large f"
$rd blpop blist1 blist2 1
assert_equal {blist2 d} [$rd read]
......@@ -179,26 +180,26 @@ start_server {
assert_equal 0 [r llen xlist]
}
foreach type {ziplist linkedlist} {
foreach {type large} [array get largevalue] {
test "LPUSHX, RPUSHX - $type" {
create_$type xlist {b c}
create_$type xlist "$large c"
assert_equal 3 [r rpushx xlist d]
assert_equal 4 [r lpushx xlist a]
assert_equal {a b c d} [r lrange xlist 0 -1]
assert_equal "a $large c d" [r lrange xlist 0 -1]
}
test "LINSERT - $type" {
create_$type xlist {a b c d}
create_$type xlist "a $large c d"
assert_equal 5 [r linsert xlist before c zz]
assert_equal {a b zz c d} [r lrange xlist 0 10]
assert_equal "a $large zz c d" [r lrange xlist 0 10]
assert_equal 6 [r linsert xlist after c yy]
assert_equal {a b zz c yy d} [r lrange xlist 0 10]
assert_equal "a $large zz c yy d" [r lrange xlist 0 10]
assert_equal 7 [r linsert xlist after d dd]
assert_equal -1 [r linsert xlist after bad ddd]
assert_equal {a b zz c yy d dd} [r lrange xlist 0 10]
assert_equal "a $large zz c yy d dd" [r lrange xlist 0 10]
assert_equal 8 [r linsert xlist before a aa]
assert_equal -1 [r linsert xlist before bad aaa]
assert_equal {aa a b zz c yy d dd} [r lrange xlist 0 10]
assert_equal "aa a $large zz c yy d dd" [r lrange xlist 0 10]
# check inserting integer encoded value
assert_equal 9 [r linsert xlist before aa 42]
......@@ -207,14 +208,14 @@ start_server {
}
test {LPUSHX, RPUSHX convert from ziplist to list} {
set large_value "aaaaaaaaaaaaaaaaa"
set large $largevalue(linkedlist)
# convert when a large value is pushed
create_ziplist xlist a
assert_equal 2 [r rpushx xlist $large_value]
assert_equal 2 [r rpushx xlist $large]
assert_encoding linkedlist xlist
create_ziplist xlist a
assert_equal 2 [r lpushx xlist $large_value]
assert_equal 2 [r lpushx xlist $large]
assert_encoding linkedlist xlist
# convert when the length threshold is exceeded
......@@ -227,14 +228,14 @@ start_server {
}
test {LINSERT convert from ziplist to list} {
set large_value "aaaaaaaaaaaaaaaaa"
set large $largevalue(linkedlist)
# convert when a large value is inserted
create_ziplist xlist a
assert_equal 2 [r linsert xlist before a $large_value]
assert_equal 2 [r linsert xlist before a $large]
assert_encoding linkedlist xlist
create_ziplist xlist a
assert_equal 2 [r linsert xlist after a $large_value]
assert_equal 2 [r linsert xlist after a $large]
assert_encoding linkedlist xlist
# convert when the length threshold is exceeded
......@@ -320,32 +321,38 @@ start_server {
assert_error ERR* {r rpush mylist 0}
}
foreach type {ziplist linkedlist} {
foreach {type large} [array get largevalue] {
test "RPOPLPUSH base case - $type" {
r del mylist1 mylist2
create_$type mylist1 {a b c d}
create_$type mylist1 "a $large c d"
assert_equal d [r rpoplpush mylist1 mylist2]
assert_equal c [r rpoplpush mylist1 mylist2]
assert_equal {a b} [r lrange mylist1 0 -1]
assert_equal {c d} [r lrange mylist2 0 -1]
assert_equal "a $large" [r lrange mylist1 0 -1]
assert_equal "c d" [r lrange mylist2 0 -1]
assert_encoding ziplist mylist2
}
test "RPOPLPUSH with the same list as src and dst - $type" {
create_$type mylist {a b c}
assert_equal {a b c} [r lrange mylist 0 -1]
create_$type mylist "a $large c"
assert_equal "a $large c" [r lrange mylist 0 -1]
assert_equal c [r rpoplpush mylist mylist]
assert_equal {c a b} [r lrange mylist 0 -1]
assert_equal "c a $large" [r lrange mylist 0 -1]
}
foreach othertype {ziplist linkedlist} {
foreach {othertype otherlarge} [array get largevalue] {
test "RPOPLPUSH with $type source and existing target $othertype" {
create_$type srclist {a b c d}
create_$othertype dstlist {x}
assert_equal d [r rpoplpush srclist dstlist]
create_$type srclist "a b c $large"
create_$othertype dstlist "$otherlarge"
assert_equal $large [r rpoplpush srclist dstlist]
assert_equal c [r rpoplpush srclist dstlist]
assert_equal {a b} [r lrange srclist 0 -1]
assert_equal {c d x} [r lrange dstlist 0 -1]
assert_equal "a b" [r lrange srclist 0 -1]
assert_equal "c $large $otherlarge" [r lrange dstlist 0 -1]
# When we rpoplpush'ed a large value, dstlist should be
# converted to the same encoding as srclist.
if {$type eq "linkedlist"} {
assert_encoding linkedlist dstlist
}
}
}
}
......@@ -378,10 +385,10 @@ start_server {
assert_equal {} [r rpoplpush srclist dstlist]
} {}
foreach type {ziplist linkedlist} {
foreach {type large} [array get largevalue] {
test "Basic LPOP/RPOP - $type" {
create_$type mylist {0 1 2}
assert_equal 0 [r lpop mylist]
create_$type mylist "$large 1 2"
assert_equal $large [r lpop mylist]
assert_equal 2 [r rpop mylist]
assert_equal 1 [r lpop mylist]
assert_equal 0 [r llen mylist]
......@@ -416,28 +423,28 @@ start_server {
}
}
foreach type {ziplist linkedlist} {
foreach {type large} [array get largevalue] {
test "LRANGE basics - $type" {
create_$type mylist {0 1 2 3 4 5 6 7 8 9}
create_$type mylist "$large 1 2 3 4 5 6 7 8 9"
assert_equal {1 2 3 4 5 6 7 8} [r lrange mylist 1 -2]
assert_equal {7 8 9} [r lrange mylist -3 -1]
assert_equal {4} [r lrange mylist 4 4]
}
test "LRANGE inverted indexes - $type" {
create_$type mylist {0 1 2 3 4 5 6 7 8 9}
create_$type mylist "$large 1 2 3 4 5 6 7 8 9"
assert_equal {} [r lrange mylist 6 2]
}
test "LRANGE out of range indexes including the full list - $type" {
create_$type mylist {1 2 3}
assert_equal {1 2 3} [r lrange mylist -1000 1000]
create_$type mylist "$large 1 2 3"
assert_equal "$large 1 2 3" [r lrange mylist -1000 1000]
}
test "LRANGE out of range negative end index - $type" {
create_$type mylist {1 2 3}
assert_equal {1} [r lrange mylist 0 -3]
assert_equal {} [r lrange mylist 0 -4]
create_$type mylist "$large 1 2 3"
assert_equal $large [r lrange mylist 0 -4]
assert_equal {} [r lrange mylist 0 -5]
}
}
......@@ -445,27 +452,28 @@ start_server {
assert_equal {} [r lrange nosuchkey 0 1]
}
foreach type {ziplist linkedlist} {
foreach {type large} [array get largevalue] {
proc trim_list {type min max} {
upvar 1 large large
r del mylist
create_$type mylist {1 2 3 4 5}
create_$type mylist "1 2 3 4 $large"
r ltrim mylist $min $max
r lrange mylist 0 -1
}
test "LTRIM basics - $type" {
assert_equal {1} [trim_list $type 0 0]
assert_equal {1 2} [trim_list $type 0 1]
assert_equal {1 2 3} [trim_list $type 0 2]
assert_equal {2 3} [trim_list $type 1 2]
assert_equal {2 3 4 5} [trim_list $type 1 -1]
assert_equal {2 3 4} [trim_list $type 1 -2]
assert_equal {4 5} [trim_list $type -2 -1]
assert_equal {5} [trim_list $type -1 -1]
assert_equal {1 2 3 4 5} [trim_list $type -5 -1]
assert_equal {1 2 3 4 5} [trim_list $type -10 10]
assert_equal {1 2 3 4 5} [trim_list $type 0 5]
assert_equal {1 2 3 4 5} [trim_list $type 0 10]
assert_equal "1" [trim_list $type 0 0]
assert_equal "1 2" [trim_list $type 0 1]
assert_equal "1 2 3" [trim_list $type 0 2]
assert_equal "2 3" [trim_list $type 1 2]
assert_equal "2 3 4 $large" [trim_list $type 1 -1]
assert_equal "2 3 4" [trim_list $type 1 -2]
assert_equal "4 $large" [trim_list $type -2 -1]
assert_equal "$large" [trim_list $type -1 -1]
assert_equal "1 2 3 4 $large" [trim_list $type -5 -1]
assert_equal "1 2 3 4 $large" [trim_list $type -10 10]
assert_equal "1 2 3 4 $large" [trim_list $type 0 5]
assert_equal "1 2 3 4 $large" [trim_list $type 0 10]
}
test "LTRIM out of range negative end index - $type" {
......@@ -478,20 +486,19 @@ start_server {
set mylist {}
set startlen 32
r del mylist
# Start with the large value to ensure the
# right encoding is used.
r rpush mylist $large
lappend mylist $large
for {set i 0} {$i < $startlen} {incr i} {
set str [randomInt 9223372036854775807]
r rpush mylist $str
lappend mylist $str
}
# do a push/pop of a large value to convert to a real list
if {$type eq "list"} {
r rpush mylist "aaaaaaaaaaaaaaaaa"
r rpop mylist
assert_encoding linkedlist mylist
}
for {set i 0} {$i < 10000} {incr i} {
for {set i 0} {$i < 1000} {incr i} {
set min [expr {int(rand()*$startlen)}]
set max [expr {$min+int(rand()*$startlen)}]
set mylist [lrange $mylist $min $max]
......@@ -508,12 +515,12 @@ start_server {
}
}
foreach type {ziplist linkedlist} {
foreach {type large} [array get largevalue] {
test "LSET - $type" {
create_$type mylist {99 98 97 96 95}
create_$type mylist "99 98 $large 96 95"
r lset mylist 1 foo
r lset mylist -1 bar
assert_equal {99 foo 97 96 bar} [r lrange mylist 0 -1]
assert_equal "99 foo $large 96 bar" [r lrange mylist 0 -1]
}
test "LSET out of range index - $type" {
......@@ -530,38 +537,38 @@ start_server {
assert_error ERR*value* {r lset nolist 0 foo}
}
foreach type {ziplist linkedlist} {
foreach {type e} [array get largevalue] {
test "LREM remove all the occurrences - $type" {
create_$type mylist {foo bar foobar foobared zap bar test foo}
create_$type mylist "$e foo bar foobar foobared zap bar test foo"
assert_equal 2 [r lrem mylist 0 bar]
assert_equal {foo foobar foobared zap test foo} [r lrange mylist 0 -1]
assert_equal "$e foo foobar foobared zap test foo" [r lrange mylist 0 -1]
}
test "LREM remove the first occurrence - $type" {
assert_equal 1 [r lrem mylist 1 foo]
assert_equal {foobar foobared zap test foo} [r lrange mylist 0 -1]
assert_equal "$e foobar foobared zap test foo" [r lrange mylist 0 -1]
}
test "LREM remove non existing element - $type" {
assert_equal 0 [r lrem mylist 1 nosuchelement]
assert_equal {foobar foobared zap test foo} [r lrange mylist 0 -1]
assert_equal "$e foobar foobared zap test foo" [r lrange mylist 0 -1]
}
test "LREM starting from tail with negative count - $type" {
create_$type mylist {foo bar foobar foobared zap bar test foo foo}
create_$type mylist "$e foo bar foobar foobared zap bar test foo foo"
assert_equal 1 [r lrem mylist -1 bar]
assert_equal {foo bar foobar foobared zap test foo foo} [r lrange mylist 0 -1]
assert_equal "$e foo bar foobar foobared zap test foo foo" [r lrange mylist 0 -1]
}
test "LREM starting from tail with negative count (2) - $type" {
assert_equal 2 [r lrem mylist -2 foo]
assert_equal {foo bar foobar foobared zap test} [r lrange mylist 0 -1]
assert_equal "$e foo bar foobar foobared zap test" [r lrange mylist 0 -1]
}
test "LREM deleting objects that may be int encoded - $type" {
create_$type myotherlist {1 2 3}
create_$type myotherlist "$e 1 2 3"
assert_equal 1 [r lrem myotherlist 1 2]
assert_equal 2 [r llen myotherlist]
assert_equal 3 [r llen myotherlist]
}
}
}
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