Binary Functions and Operators
Binary Operators
The ||
operator performs concatenation.
Binary Functions
length(binary) -> bigint()
Returns the length of binary
in bytes.
concat(binary1, …, binaryN) -> varbinary()
Returns the concatenation of binary1
, binary2
, ...
, binaryN
. This function provides the same functionality as the SQL-standard concatenation operator (||
).
substr(binary, start) -> varbinary()
Returns the rest of binary
from the starting position start
, measured in bytes. Positions start with 1
. A negative starting position is interpreted as being relative to the end of the string.
substr(binary, start, length) -> varbinary()
Returns a substring from binary
of length length
from the starting position start
, measured in bytes. Positions start with 1
. A negative starting position is interpreted as being relative to the end of the string.
to_base64(binary) -> varchar()
Encodes binary
into a base64 string representation.
from_base64(string) -> varbinary()
Decodes binary data from the base64 encoded string
.
to_base64url(binary) -> varchar()
Encodes binary
into a base64 string representation using the URL safe alphabet.
from_base64url(string) -> varbinary()
Decodes binary data from the base64 encoded string
using the URL safe alphabet.
from_base32(string) -> varbinary()
Decodes binary data from the base32 encoded string
.
to_base32(binary) -> varchar()
Encodes binary
into a base32 string representation.
to_hex(binary) -> varchar()
Encodes binary
into a hex string representation.
from_hex(string) -> varbinary()
Decodes binary data from the hex encoded string
.
to_big_endian_64(bigint) -> varbinary()
Encodes bigint
in a 64-bit 2’s complement big endian format.
from_big_endian_64(binary) -> bigint()
Decodes bigint
value from a 64-bit 2’s complement big endian binary
.
to_big_endian_32(integer) -> varbinary()
Encodes integer
in a 32-bit 2’s complement big endian format.
from_big_endian_32(binary) -> integer()
Decodes integer
value from a 32-bit 2’s complement big endian binary
.
to_ieee754_32(real) -> varbinary()
Encodes real
in a 32-bit big-endian binary according to IEEE 754 single-precision floating-point format.
from_ieee754_32(binary) -> real()
Decodes the 32-bit big-endian binary
in IEEE 754 single-precision floating-point format.
to_ieee754_64(double) -> varbinary()
Encodes double
in a 64-bit big-endian binary according to IEEE 754 double-precision floating-point format.
from_ieee754_64(binary) -> double()
Decodes the 64-bit big-endian binary
in IEEE 754 double-precision floating-point format.
lpad(binary, size, padbinary) -> varbinary()
Left pads binary
to size
bytes with padbinary
. If size
is less than the length of binary
, the result is truncated to size
characters. size
must not be negative and padbinary
must be non-empty.
rpad(binary, size, padbinary) -> varbinary()
Right pads binary
to size
bytes with padbinary
. If size
is less than the length of binary
, the result is truncated to size
characters. size
must not be negative and padbinary
must be non-empty.
crc32(binary) -> bigint()
Computes the CRC-32 of binary
. For general purpose hashing, use xxhash64()
, as it is much faster and produces a better quality hash.
md5(binary) -> varbinary()
Computes the md5 hash of binary
.
murmur3_x64_128(binary) -> varbinary()
Computes a hash of binary
that is equivalent to C++ MurmurHash3_x64_128 (Murmur3F) of the same binary
.
sha1(binary) -> varbinary()
Computes the sha1 hash of binary
.
sha256(binary) -> varbinary()
Computes the sha256 hash of binary
.
sha512(binary) -> varbinary()
Computes the sha512 hash of binary
.
xxhash64(binary) -> varbinary()
Computes the xxhash64 hash of binary
.
spooky_hash_v2_32(binary) -> varbinary()
Computes the 32-bit SpookyHashV2 hash of binary
.
spooky_hash_v2_64(binary) -> varbinary()
Computes the 64-bit SpookyHashV2 hash of binary
.
hmac_md5(binary, key) -> varbinary()
Computes HMAC with md5 of binary
with the given key
.
hmac_sha1(binary, key) -> varbinary()
Computes HMAC with sha1 of binary
with the given key
.
hmac_sha256(binary, key) -> varbinary()
Computes HMAC with sha256 of binary
with the given key
.
hmac_sha512(binary, key) -> varbinary()
Computes HMAC with sha512 of binary
with the given key
.
reverse(binary) -> varbinary()
Returns binary
with the bytes in reverse order.