Encoding Functions
char
Returns the string with the length as the number of passed arguments and each byte has the value of corresponding argument. Accepts multiple arguments of numeric types. If the value of argument is out of range of UInt8 data type, it is converted to UInt8 with possible rounding and overflow.
Syntax
char(number_1, [number_2, ..., number_n]);
Arguments
Returned value
- a string of given bytes.
Type: String
.
Example
Query:
SELECT char(104.1, 101, 108.9, 108.9, 111) AS hello
Result:
┌─hello─┐
│ hello │
└───────┘
You can construct a string of arbitrary encoding by passing the corresponding bytes. Here is example for UTF-8:
Query:
SELECT char(0xD0, 0xBF, 0xD1, 0x80, 0xD0, 0xB8, 0xD0, 0xB2, 0xD0, 0xB5, 0xD1, 0x82) AS hello;
Result:
┌─hello──┐
│ привет │
└────────┘
Query:
SELECT char(0xE4, 0xBD, 0xA0, 0xE5, 0xA5, 0xBD) AS hello;
Result:
┌─hello─┐
│ 你好 │
└───────┘
hex
Returns a string containing the argument’s hexadecimal representation.
Alias: HEX
.
Syntax
hex(arg)
The function is using uppercase letters A-F
and not using any prefixes (like 0x
) or suffixes (like h
).
For integer arguments, it prints hex digits (“nibbles”) from the most significant to least significant (big endian or “human readable” order). It starts with the most significant non-zero byte (leading zero bytes are omitted) but always prints both digits of every byte even if leading digit is zero.
Example:
Example
Query:
SELECT hex(1);
Result:
01
Values of type Date
and DateTime
are formatted as corresponding integers (the number of days since Epoch for Date and the value of Unix Timestamp for DateTime).
For String
and FixedString
, all bytes are simply encoded as two hexadecimal numbers. Zero bytes are not omitted.
Values of floating point and Decimal types are encoded as their representation in memory. As we support little endian architecture, they are encoded in little endian. Zero leading/trailing bytes are not omitted.
Arguments
Returned value
- A string with the hexadecimal representation of the argument.
Type: String
.
Example
Query:
SELECT hex(toFloat32(number)) as hex_presentation FROM numbers(15, 2);
Result:
┌─hex_presentation─┐
│ 00007041 │
│ 00008041 │
└──────────────────┘
Query:
SELECT hex(toFloat64(number)) as hex_presentation FROM numbers(15, 2);
Result:
┌─hex_presentation─┐
│ 0000000000002E40 │
│ 0000000000003040 │
└──────────────────┘
unhex(str)
Accepts a string containing any number of hexadecimal digits, and returns a string containing the corresponding bytes. Supports both uppercase and lowercase letters A-F. The number of hexadecimal digits does not have to be even. If it is odd, the last digit is interpreted as the least significant half of the 00-0F byte. If the argument string contains anything other than hexadecimal digits, some implementation-defined result is returned (an exception isn’t thrown).
If you want to convert the result to a number, you can use the ‘reverse’ and ‘reinterpretAsType’ functions.
UUIDStringToNum(str)
Accepts a string containing 36 characters in the format 123e4567-e89b-12d3-a456-426655440000
, and returns it as a set of bytes in a FixedString(16).
UUIDNumToString(str)
Accepts a FixedString(16) value. Returns a string containing 36 characters in text format.
bitmaskToList(num)
Accepts an integer. Returns a string containing the list of powers of two that total the source number when summed. They are comma-separated without spaces in text format, in ascending order.
bitmaskToArray(num)
Accepts an integer. Returns an array of UInt64 numbers containing the list of powers of two that total the source number when summed. Numbers in the array are in ascending order.