Type Conversion Functions

Common Issues of Numeric Conversions

When you convert a value from one to another data type, you should remember that in common case, it is an unsafe operation that can lead to a data loss. A data loss can occur if you try to fit value from a larger data type to a smaller data type, or if you convert values between different data types.

ClickHouse has the same behavior as C++ programs.

toInt(8|16|32|64)

Converts an input value to the Int data type. This function family includes:

  • toInt8(expr) — Results in the Int8 data type.
  • toInt16(expr) — Results in the Int16 data type.
  • toInt32(expr) — Results in the Int32 data type.
  • toInt64(expr) — Results in the Int64 data type.

Parameters

  • exprExpression returning a number or a string with the decimal representation of a number. Binary, octal, and hexadecimal representations of numbers are not supported. Leading zeroes are stripped.

Returned value

Integer value in the Int8, Int16, Int32, or Int64 data type.

Functions use rounding towards zero, meaning they truncate fractional digits of numbers.

The behavior of functions for the NaN and Inf arguments is undefined. Remember about numeric convertions issues, when using the functions.

Example

  1. SELECT toInt64(nan), toInt32(32), toInt16('16'), toInt8(8.8)
  1. ┌─────────toInt64(nan)─┬─toInt32(32)─┬─toInt16('16')─┬─toInt8(8.8)─┐
  2.  -9223372036854775808           32             16            8 
  3. └──────────────────────┴─────────────┴───────────────┴─────────────┘

toInt(8|16|32|64)OrZero

It takes an argument of type String and tries to parse it into Int (8 | 16 | 32 | 64). If failed, returns 0.

Example

  1. select toInt64OrZero('123123'), toInt8OrZero('123qwe123')
  1. ┌─toInt64OrZero('123123')─┬─toInt8OrZero('123qwe123')─┐
  2.                   123123                          0 
  3. └─────────────────────────┴───────────────────────────┘

toInt(8|16|32|64)OrNull

It takes an argument of type String and tries to parse it into Int (8 | 16 | 32 | 64). If failed, returns NULL.

Example

  1. select toInt64OrNull('123123'), toInt8OrNull('123qwe123')
  1. ┌─toInt64OrNull('123123')─┬─toInt8OrNull('123qwe123')─┐
  2.                   123123                       ᴺᵁᴸᴸ 
  3. └─────────────────────────┴───────────────────────────┘

toUInt(8|16|32|64)

Converts an input value to the UInt data type. This function family includes:

  • toUInt8(expr) — Results in the UInt8 data type.
  • toUInt16(expr) — Results in the UInt16 data type.
  • toUInt32(expr) — Results in the UInt32 data type.
  • toUInt64(expr) — Results in the UInt64 data type.

Parameters

  • exprExpression returning a number or a string with the decimal representation of a number. Binary, octal, and hexadecimal representations of numbers are not supported. Leading zeroes are stripped.

Returned value

Integer value in the UInt8, UInt16, UInt32, or UInt64 data type.

Functions use rounding towards zero, meaning they truncate fractional digits of numbers.

The behavior of functions for negative agruments and for the NaN and Inf arguments is undefined. If you pass a string with a negative number, for example '-32', ClickHouse raises an exception. Remember about numeric convertions issues, when using the functions.

Example

  1. SELECT toUInt64(nan), toUInt32(-32), toUInt16('16'), toUInt8(8.8)
  1. ┌───────toUInt64(nan)─┬─toUInt32(-32)─┬─toUInt16('16')─┬─toUInt8(8.8)─┐
  2.  9223372036854775808     4294967264              16             8 
  3. └─────────────────────┴───────────────┴────────────────┴──────────────┘

toUInt(8|16|32|64)OrZero

toUInt(8|16|32|64)OrNull

toFloat(32|64)

toFloat(32|64)OrZero

toFloat(32|64)OrNull

toDate

toDateOrZero

toDateOrNull

toDateTime

toDateTimeOrZero

toDateTimeOrNull

toDecimal(32|64|128)

Converts value to the Decimal data type with precision of S. The value can be a number or a string. The S (scale) parameter specifies the number of decimal places.

  • toDecimal32(value, S)
  • toDecimal64(value, S)
  • toDecimal128(value, S)

toDecimal(32|64|128)OrNull

Converts an input string to a Nullable(Decimal(P,S)) data type value. This family of functions include:

  • toDecimal32OrNull(expr, S) — Results in Nullable(Decimal32(S)) data type.
  • toDecimal64OrNull(expr, S) — Results in Nullable(Decimal64(S)) data type.
  • toDecimal128OrNull(expr, S) — Results in Nullable(Decimal128(S)) data type.

These functions should be used instead of toDecimal*() functions, if you prefer to get a NULL value instead of an exception in the event of an input value parsing error.

Parameters

  • exprExpression, returns a value in the String data type. ClickHouse expects the textual representation of the decimal number. For example, '1.111'.
  • S — Scale, the number of decimal places in the resulting value.

Returned value

A value in the Nullable(Decimal(P,S)) data type. The value contains:

  • Number with S decimal places, if ClickHouse interprets the input string as a number.
  • NULL, if ClickHouse can’t interpret the input string as a number or if the input number contains more than S decimal places.

Examples

  1. SELECT toDecimal32OrNull(toString(-1.111), 5) AS val, toTypeName(val)
  1. ┌──────val─┬─toTypeName(toDecimal32OrNull(toString(-1.111), 5))─┐
  2.  -1.11100  Nullable(Decimal(9, 5))                            
  3. └──────────┴────────────────────────────────────────────────────┘
  1. SELECT toDecimal32OrNull(toString(-1.111), 2) AS val, toTypeName(val)
  1. ┌──val─┬─toTypeName(toDecimal32OrNull(toString(-1.111), 2))─┐
  2.  ᴺᵁᴸᴸ  Nullable(Decimal(9, 2))                            
  3. └──────┴────────────────────────────────────────────────────┘

toDecimal(32|64|128)OrZero

Converts an input value to the Decimal(P,S) data type. This family of functions include:

  • toDecimal32OrZero( expr, S) — Results in Decimal32(S) data type.
  • toDecimal64OrZero( expr, S) — Results in Decimal64(S) data type.
  • toDecimal128OrZero( expr, S) — Results in Decimal128(S) data type.

These functions should be used instead of toDecimal*() functions, if you prefer to get a 0 value instead of an exception in the event of an input value parsing error.

Parameters

  • exprExpression, returns a value in the String data type. ClickHouse expects the textual representation of the decimal number. For example, '1.111'.
  • S — Scale, the number of decimal places in the resulting value.

Returned value

A value in the Nullable(Decimal(P,S)) data type. The value contains:

  • Number with S decimal places, if ClickHouse interprets the input string as a number.
  • 0 with S decimal places, if ClickHouse can’t interpret the input string as a number or if the input number contains more than S decimal places.

Example

  1. SELECT toDecimal32OrZero(toString(-1.111), 5) AS val, toTypeName(val)
  1. ┌──────val─┬─toTypeName(toDecimal32OrZero(toString(-1.111), 5))─┐
  2.  -1.11100  Decimal(9, 5)                                      
  3. └──────────┴────────────────────────────────────────────────────┘
  1. SELECT toDecimal32OrZero(toString(-1.111), 2) AS val, toTypeName(val)
  1. ┌──val─┬─toTypeName(toDecimal32OrZero(toString(-1.111), 2))─┐
  2.  0.00  Decimal(9, 2)                                      
  3. └──────┴────────────────────────────────────────────────────┘

toString

Functions for converting between numbers, strings (but not fixed strings), dates, and dates with times.
All these functions accept one argument.

When converting to or from a string, the value is formatted or parsed using the same rules as for the TabSeparated format (and almost all other text formats). If the string can’t be parsed, an exception is thrown and the request is canceled.

When converting dates to numbers or vice versa, the date corresponds to the number of days since the beginning of the Unix epoch.
When converting dates with times to numbers or vice versa, the date with time corresponds to the number of seconds since the beginning of the Unix epoch.

The date and date-with-time formats for the toDate/toDateTime functions are defined as follows:

  1. YYYY-MM-DD
  2. YYYY-MM-DD hh:mm:ss

As an exception, if converting from UInt32, Int32, UInt64, or Int64 numeric types to Date, and if the number is greater than or equal to 65536, the number is interpreted as a Unix timestamp (and not as the number of days) and is rounded to the date. This allows support for the common occurrence of writing ‘toDate(unix_timestamp)’, which otherwise would be an error and would require writing the more cumbersome ‘toDate(toDateTime(unix_timestamp))’.

Conversion between a date and date with time is performed the natural way: by adding a null time or dropping the time.

Conversion between numeric types uses the same rules as assignments between different numeric types in C++.

Additionally, the toString function of the DateTime argument can take a second String argument containing the name of the time zone. Example: Asia/Yekaterinburg In this case, the time is formatted according to the specified time zone.

  1. SELECT
  2.     now() AS now_local,
  3.     toString(now(), 'Asia/Yekaterinburg') AS now_yekat
  1. ┌───────────now_local─┬─now_yekat───────────┐
  2.  2016-06-15 00:11:21  2016-06-15 02:11:21 
  3. └─────────────────────┴─────────────────────┘

Also see the toUnixTimestamp function.

toFixedString(s, N)

Converts a String type argument to a FixedString(N) type (a string with fixed length N). N must be a constant.
If the string has fewer bytes than N, it is passed with null bytes to the right. If the string has more bytes than N, an exception is thrown.

toStringCutToZero(s)

Accepts a String or FixedString argument. Returns the String with the content truncated at the first zero byte found.

Example:

  1. SELECT toFixedString('foo', 8) AS s, toStringCutToZero(s) AS s_cut
  1. ┌─s─────────────┬─s_cut─┐
  2.  foo\0\0\0\0\0  foo   
  3. └───────────────┴───────┘
  1. SELECT toFixedString('foo\0bar', 8) AS s, toStringCutToZero(s) AS s_cut
  1. ┌─s──────────┬─s_cut─┐
  2.  foo\0bar\0  foo   
  3. └────────────┴───────┘

reinterpretAsUInt(8|16|32|64)

reinterpretAsInt(8|16|32|64)

reinterpretAsFloat(32|64)

reinterpretAsDate

reinterpretAsDateTime

These functions accept a string and interpret the bytes placed at the beginning of the string as a number in host order (little endian). If the string isn’t long enough, the functions work as if the string is padded with the necessary number of null bytes. If the string is longer than needed, the extra bytes are ignored. A date is interpreted as the number of days since the beginning of the Unix Epoch, and a date with time is interpreted as the number of seconds since the beginning of the Unix Epoch.

reinterpretAsString

This function accepts a number or date or date with time, and returns a string containing bytes representing the corresponding value in host order (little endian). Null bytes are dropped from the end. For example, a UInt32 type value of 255 is a string that is one byte long.

reinterpretAsFixedString

This function accepts a number or date or date with time, and returns a FixedString containing bytes representing the corresponding value in host order (little endian). Null bytes are dropped from the end. For example, a UInt32 type value of 255 is a FixedString that is one byte long.

CAST(x, t)

Converts ‘x’ to the ‘t’ data type. The syntax CAST(x AS t) is also supported.

Example:

  1. SELECT
  2.     '2016-06-15 23:00:00' AS timestamp,
  3.     CAST(timestamp AS DateTime) AS datetime,
  4.     CAST(timestamp AS Date) AS date,
  5.     CAST(timestamp, 'String') AS string,
  6.     CAST(timestamp, 'FixedString(22)') AS fixed_string
  1. ┌─timestamp───────────┬────────────datetime─┬───────date─┬─string──────────────┬─fixed_string──────────────┐
  2.  2016-06-15 23:00:00  2016-06-15 23:00:00  2016-06-15  2016-06-15 23:00:00  2016-06-15 23:00:00\0\0\0 
  3. └─────────────────────┴─────────────────────┴────────────┴─────────────────────┴───────────────────────────┘

Conversion to FixedString(N) only works for arguments of type String or FixedString(N).

Type conversion to Nullable and back is supported. Example:

  1. SELECT toTypeName(x) FROM t_null
  1. ┌─toTypeName(x)─┐
  2.  Int8          
  3.  Int8          
  4. └───────────────┘
  1. SELECT toTypeName(CAST(x, 'Nullable(UInt16)')) FROM t_null
  1. ┌─toTypeName(CAST(x, 'Nullable(UInt16)'))─┐
  2.  Nullable(UInt16)                        
  3.  Nullable(UInt16)                        
  4. └─────────────────────────────────────────┘

toInterval(Year|Quarter|Month|Week|Day|Hour|Minute|Second)

Converts a Number type argument to an Interval data type.

Syntax

  1. toIntervalSecond(number)
  2. toIntervalMinute(number)
  3. toIntervalHour(number)
  4. toIntervalDay(number)
  5. toIntervalWeek(number)
  6. toIntervalMonth(number)
  7. toIntervalQuarter(number)
  8. toIntervalYear(number)

Parameters

  • number — Duration of interval. Positive integer number.

Returned values

  • The value in Interval data type.

Example

  1. WITH
  2.     toDate('2019-01-01') AS date,
  3.     INTERVAL 1 WEEK AS interval_week,
  4.     toIntervalWeek(1) AS interval_to_week
  5. SELECT
  6.     date + interval_week,
  7.     date + interval_to_week
  1. ┌─plus(date, interval_week)─┬─plus(date, interval_to_week)─┐
  2.                 2019-01-08                    2019-01-08 
  3. └───────────────────────────┴──────────────────────────────┘

parseDateTimeBestEffort

Parse a number type argument to a Date or DateTime type.
different from toDate and toDateTime, parseDateTimeBestEffort can progress more complex date format.
For more information, see the link: Complex Date Format

parseDateTimeBestEffortOrNull

Same as for parseDateTimeBestEffort except that it returns null when it encounters a date format that cannot be processed.

parseDateTimeBestEffortOrZero

Same as for parseDateTimeBestEffort except that it returns zero date or zero date time when it encounters a date format that cannot be processed.