valkey/tests/unit/bitops.tcl

# Compare Redis commadns against Tcl implementations of the same commands.
proc count_bits s {
    binary scan $s b* bits
    string length [regsub -all {0} $bits {}]
}

proc simulate_bit_op {op args} {
    set maxlen 0
    set j 0
    set count [llength $args]
    foreach a $args {
        binary scan $a b* bits
        set b($j) $bits
        if {[string length $bits] > $maxlen} {
            set maxlen [string length $bits]
        }
        incr j
    }
    for {set j 0} {$j < $count} {incr j} {
        if {[string length $b($j)] < $maxlen} {
            append b($j) [string repeat 0 [expr $maxlen-[string length $b($j)]]]
        }
    }
    set out {}
    for {set x 0} {$x < $maxlen} {incr x} {
        set bit [string range $b(0) $x $x]
        if {$op eq {not}} {set bit [expr {!$bit}]}
        for {set j 1} {$j < $count} {incr j} {
            set bit2 [string range $b($j) $x $x]
            switch $op {
                and {set bit [expr {$bit & $bit2}]}
                or  {set bit [expr {$bit | $bit2}]}
                xor {set bit [expr {$bit ^ $bit2}]}
            }
        }
        append out $bit
    }
    binary format b* $out
}

start_server {tags {"bitops"}} {
    test {BITCOUNT returns 0 against non existing key} {
        r bitcount no-key
    } 0

    catch {unset num}
    foreach vec [list "" "\xaa" "\x00\x00\xff" "foobar" "123"] {
        incr num
        test "BITCOUNT against test vector #$num" {
            r set str $vec
            assert {[r bitcount str] == [count_bits $vec]}
        }
    }

    test {BITCOUNT fuzzing} {
        for {set j 0} {$j < 100} {incr j} {
            set str [randstring 0 3000]
            r set str $str
            assert {[r bitcount str] == [count_bits $str]}
        }
    }

    test {BITCOUNT with start, end} {
        r set s "foobar"
        assert_equal [r bitcount s 0 -1] [count_bits "foobar"]
        assert_equal [r bitcount s 1 -2] [count_bits "ooba"]
        assert_equal [r bitcount s -2 1] [count_bits ""]
        assert_equal [r bitcount s 0 1000] [count_bits "foobar"]
    }

    test {BITCOUNT syntax error #1} {
        catch {r bitcount s 0} e
        set e
    } {ERR*syntax*}

    test {BITOP NOT (empty string)} {
        r set s ""
        r bitop not dest s
        r get dest
    } {}

    test {BITOP NOT (known string)} {
        r set s "\xaa\x00\xff\x55"
        r bitop not dest s
        r get dest
    } "\x55\xff\x00\xaa"

    test {BITOP where dest and target are the same key} {
        r set s "\xaa\x00\xff\x55"
        r bitop not s s
        r get s 
    } "\x55\xff\x00\xaa"

    test {BITOP AND|OR|XOR don't change the string with single input key} {
        r set a "\x01\x02\xff"
        r bitop and res1 a
        r bitop or  res2 a
        r bitop xor res3 a
        list [r get res1] [r get res2] [r get res3]
    } [list "\x01\x02\xff" "\x01\x02\xff" "\x01\x02\xff"]

    test {BITOP missing key is considered a stream of zero} {
        r set a "\x01\x02\xff"
        r bitop and res1 no-suck-key a
        r bitop or  res2 no-suck-key a no-such-key
        r bitop xor res3 no-such-key a
        list [r get res1] [r get res2] [r get res3]
    } [list "\x00\x00\x00" "\x01\x02\xff" "\x01\x02\xff"]

    test {BITOP shorter keys are zero-padded to the key with max length} {
        r set a "\x01\x02\xff\xff"
        r set b "\x01\x02\xff"
        r bitop and res1 a b
        r bitop or  res2 a b
        r bitop xor res3 a b
        list [r get res1] [r get res2] [r get res3]
    } [list "\x01\x02\xff\x00" "\x01\x02\xff\xff" "\x00\x00\x00\xff"]

    foreach op {and or xor} {
        test "BITOP $op fuzzing" {
            for {set i 0} {$i < 10} {incr i} {
                r flushall
                set vec {}
                set veckeys {}
                set numvec [expr {[randomInt 10]+1}]
                for {set j 0} {$j < $numvec} {incr j} {
                    set str [randstring 0 1000]
                    lappend vec $str
                    lappend veckeys vector_$j
                    r set vector_$j $str
                }
                r bitop $op target {*}$veckeys
                assert_equal [r get target] [simulate_bit_op $op {*}$vec]
            }
        }
    }

    test {BITOP NOT fuzzing} {
        for {set i 0} {$i < 10} {incr i} {
            r flushall
            set str [randstring 0 1000]
            r set str $str
            r bitop not target str
            assert_equal [r get target] [simulate_bit_op not $str]
        }
    }

    test {BITOP with integer encoded source objects} {
        r set a 1
        r set b 2
        r bitop xor dest a b a
        r get dest
    } {2}

    test {BITOP with non string source key} {
        r del c
        r set a 1
        r set b 2
        r lpush c foo
        catch {r bitop xor dest a b c d} e
        set e
    } {*ERR*}
}
BITOP and BITCOUNT tests. The Redis implementation is tested against Tcl implementations of the same operation. Both fuzzing and testing of specific aspects of the commands behavior are performed. 2012-05-17 13:50:44 +00:00			`# Compare Redis commadns against Tcl implementations of the same commands.`
			`proc count_bits s {`
			`binary scan $s b* bits`
			`string length [regsub -all {0} $bits {}]`
			`}`

			`proc simulate_bit_op {op args} {`
			`set maxlen 0`
			`set j 0`
			`set count [llength $args]`
			`foreach a $args {`
			`binary scan $a b* bits`
			`set b($j) $bits`
			`if {[string length $bits] > $maxlen} {`
			`set maxlen [string length $bits]`
			`}`
			`incr j`
			`}`
			`for {set j 0} {$j < $count} {incr j} {`
			`if {[string length $b($j)] < $maxlen} {`
			`append b($j) [string repeat 0 [expr $maxlen-[string length $b($j)]]]`
			`}`
			`}`
			`set out {}`
			`for {set x 0} {$x < $maxlen} {incr x} {`
			`set bit [string range $b(0) $x $x]`
BITOP command 10x speed improvement. This commit adds a fast-path to the BITOP that can be used for all the bytes from 0 to the minimal length of the string, and if there are at max 16 input keys. Often the intersected bitmaps are roughly the same size, so this optimization can provide a 10x speed boost to most real world usages of the command. Bytes are processed four full words at a time, in loops specialized for the specific BITOP sub-command, without the need to check for length issues with the inputs (since we run this algorithm only as far as there is data from all the keys at the same time). The remaining part of the string is intersected in the usual way using the slow but generic algorith. It is possible to do better than this with inputs that are not roughly the same size, sorting the input keys by length, by initializing the result string in a smarter way, and noticing that the final part of the output string composed of only data from the longest string does not need any proecessing since AND, OR and XOR against an empty string does not alter the output (zero in the first case, and the original string in the other two cases). More implementations will be implemented later likely, but this should be enough to release Redis 2.6-RC4 with bitops merged in. Note: this commit also adds better testing for BITOP NOT command, that is currently the faster and hard to optimize further since it just flips the bits of a single input string. 2012-05-23 20:12:50 +00:00			`if {$op eq {not}} {set bit [expr {!$bit}]}`
BITOP and BITCOUNT tests. The Redis implementation is tested against Tcl implementations of the same operation. Both fuzzing and testing of specific aspects of the commands behavior are performed. 2012-05-17 13:50:44 +00:00			`for {set j 1} {$j < $count} {incr j} {`
			`set bit2 [string range $b($j) $x $x]`
			`switch $op {`
			`and {set bit [expr {$bit & $bit2}]}`
			`or {set bit [expr {$bit \| $bit2}]}`
			`xor {set bit [expr {$bit ^ $bit2}]}`
			`}`
			`}`
			`append out $bit`
			`}`
			`binary format b* $out`
			`}`

			`start_server {tags {"bitops"}} {`
			`test {BITCOUNT returns 0 against non existing key} {`
			`r bitcount no-key`
			`} 0`

			`catch {unset num}`
BITOP: handle integer encoded objects correctly. A bug in the implementation caused BITOP to crash the server if at least one one of the source objects was integer encoded. The new implementation takes an additional array of Redis objects pointers and calls getDecodedObject() to get a reference to a string encoded object, and then uses decrRefCount() to release the object. Tests modified to cover the regression and improve coverage. 2012-05-22 15:40:20 +00:00			`foreach vec [list "" "\xaa" "\x00\x00\xff" "foobar" "123"] {`
BITOP and BITCOUNT tests. The Redis implementation is tested against Tcl implementations of the same operation. Both fuzzing and testing of specific aspects of the commands behavior are performed. 2012-05-17 13:50:44 +00:00			`incr num`
			`test "BITCOUNT against test vector #$num" {`
			`r set str $vec`
			`assert {[r bitcount str] == [count_bits $vec]}`
			`}`
			`}`

Bit operations tests improved. Fuzzing tests of BITCOUNT / BITOP are iterated multiple times. The new BITCOUNT fuzzing test uses random strings in a wider interval of lengths including zero-len strings. 2012-05-20 09:03:54 +00:00			`test {BITCOUNT fuzzing} {`
			`for {set j 0} {$j < 100} {incr j} {`
			`set str [randstring 0 3000]`
			`r set str $str`
			`assert {[r bitcount str] == [count_bits $str]}`
			`}`
			`}`

BITOP and BITCOUNT tests. The Redis implementation is tested against Tcl implementations of the same operation. Both fuzzing and testing of specific aspects of the commands behavior are performed. 2012-05-17 13:50:44 +00:00			`test {BITCOUNT with start, end} {`
			`r set s "foobar"`
			`assert_equal [r bitcount s 0 -1] [count_bits "foobar"]`
			`assert_equal [r bitcount s 1 -2] [count_bits "ooba"]`
			`assert_equal [r bitcount s -2 1] [count_bits ""]`
			`assert_equal [r bitcount s 0 1000] [count_bits "foobar"]`
			`}`

			`test {BITCOUNT syntax error #1} {`
			`catch {r bitcount s 0} e`
			`set e`
			`} {ERRsyntax}`

			`test {BITOP NOT (empty string)} {`
			`r set s ""`
			`r bitop not dest s`
			`r get dest`
			`} {}`

			`test {BITOP NOT (known string)} {`
			`r set s "\xaa\x00\xff\x55"`
			`r bitop not dest s`
			`r get dest`
			`} "\x55\xff\x00\xaa"`

			`test {BITOP where dest and target are the same key} {`
			`r set s "\xaa\x00\xff\x55"`
			`r bitop not s s`
			`r get s`
			`} "\x55\xff\x00\xaa"`

			`test {BITOP AND\|OR\|XOR don't change the string with single input key} {`
			`r set a "\x01\x02\xff"`
			`r bitop and res1 a`
			`r bitop or res2 a`
			`r bitop xor res3 a`
			`list [r get res1] [r get res2] [r get res3]`
			`} [list "\x01\x02\xff" "\x01\x02\xff" "\x01\x02\xff"]`

			`test {BITOP missing key is considered a stream of zero} {`
			`r set a "\x01\x02\xff"`
			`r bitop and res1 no-suck-key a`
			`r bitop or res2 no-suck-key a no-such-key`
			`r bitop xor res3 no-such-key a`
			`list [r get res1] [r get res2] [r get res3]`
			`} [list "\x00\x00\x00" "\x01\x02\xff" "\x01\x02\xff"]`

			`test {BITOP shorter keys are zero-padded to the key with max length} {`
			`r set a "\x01\x02\xff\xff"`
			`r set b "\x01\x02\xff"`
			`r bitop and res1 a b`
			`r bitop or res2 a b`
			`r bitop xor res3 a b`
			`list [r get res1] [r get res2] [r get res3]`
			`} [list "\x01\x02\xff\x00" "\x01\x02\xff\xff" "\x00\x00\x00\xff"]`

			`foreach op {and or xor} {`
			`test "BITOP $op fuzzing" {`
Bit operations tests improved. Fuzzing tests of BITCOUNT / BITOP are iterated multiple times. The new BITCOUNT fuzzing test uses random strings in a wider interval of lengths including zero-len strings. 2012-05-20 09:03:54 +00:00			`for {set i 0} {$i < 10} {incr i} {`
BITOP: handle integer encoded objects correctly. A bug in the implementation caused BITOP to crash the server if at least one one of the source objects was integer encoded. The new implementation takes an additional array of Redis objects pointers and calls getDecodedObject() to get a reference to a string encoded object, and then uses decrRefCount() to release the object. Tests modified to cover the regression and improve coverage. 2012-05-22 15:40:20 +00:00			`r flushall`
Bit operations tests improved. Fuzzing tests of BITCOUNT / BITOP are iterated multiple times. The new BITCOUNT fuzzing test uses random strings in a wider interval of lengths including zero-len strings. 2012-05-20 09:03:54 +00:00			`set vec {}`
			`set veckeys {}`
			`set numvec [expr {[randomInt 10]+1}]`
			`for {set j 0} {$j < $numvec} {incr j} {`
			`set str [randstring 0 1000]`
			`lappend vec $str`
			`lappend veckeys vector_$j`
			`r set vector_$j $str`
			`}`
			`r bitop $op target {*}$veckeys`
			`assert_equal [r get target] [simulate_bit_op $op {*}$vec]`
BITOP and BITCOUNT tests. The Redis implementation is tested against Tcl implementations of the same operation. Both fuzzing and testing of specific aspects of the commands behavior are performed. 2012-05-17 13:50:44 +00:00			`}`
			`}`
			`}`
BITOP: handle integer encoded objects correctly. A bug in the implementation caused BITOP to crash the server if at least one one of the source objects was integer encoded. The new implementation takes an additional array of Redis objects pointers and calls getDecodedObject() to get a reference to a string encoded object, and then uses decrRefCount() to release the object. Tests modified to cover the regression and improve coverage. 2012-05-22 15:40:20 +00:00
BITOP command 10x speed improvement. This commit adds a fast-path to the BITOP that can be used for all the bytes from 0 to the minimal length of the string, and if there are at max 16 input keys. Often the intersected bitmaps are roughly the same size, so this optimization can provide a 10x speed boost to most real world usages of the command. Bytes are processed four full words at a time, in loops specialized for the specific BITOP sub-command, without the need to check for length issues with the inputs (since we run this algorithm only as far as there is data from all the keys at the same time). The remaining part of the string is intersected in the usual way using the slow but generic algorith. It is possible to do better than this with inputs that are not roughly the same size, sorting the input keys by length, by initializing the result string in a smarter way, and noticing that the final part of the output string composed of only data from the longest string does not need any proecessing since AND, OR and XOR against an empty string does not alter the output (zero in the first case, and the original string in the other two cases). More implementations will be implemented later likely, but this should be enough to release Redis 2.6-RC4 with bitops merged in. Note: this commit also adds better testing for BITOP NOT command, that is currently the faster and hard to optimize further since it just flips the bits of a single input string. 2012-05-23 20:12:50 +00:00			`test {BITOP NOT fuzzing} {`
			`for {set i 0} {$i < 10} {incr i} {`
			`r flushall`
			`set str [randstring 0 1000]`
			`r set str $str`
			`r bitop not target str`
			`assert_equal [r get target] [simulate_bit_op not $str]`
			`}`
			`}`

BITOP: handle integer encoded objects correctly. A bug in the implementation caused BITOP to crash the server if at least one one of the source objects was integer encoded. The new implementation takes an additional array of Redis objects pointers and calls getDecodedObject() to get a reference to a string encoded object, and then uses decrRefCount() to release the object. Tests modified to cover the regression and improve coverage. 2012-05-22 15:40:20 +00:00			`test {BITOP with integer encoded source objects} {`
			`r set a 1`
			`r set b 2`
			`r bitop xor dest a b a`
			`r get dest`
			`} {2}`

			`test {BITOP with non string source key} {`
			`r del c`
			`r set a 1`
			`r set b 2`
			`r lpush c foo`
			`catch {r bitop xor dest a b c d} e`
			`set e`
			`} {ERR}`
BITOP and BITCOUNT tests. The Redis implementation is tested against Tcl implementations of the same operation. Both fuzzing and testing of specific aspects of the commands behavior are performed. 2012-05-17 13:50:44 +00:00			`}`