ClickHouse/docs/en/sql-reference/functions/arithmetic-functions.md
2023-07-20 14:17:33 +00:00

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/en/sql-reference/functions/arithmetic-functions 5 Arithmetic

Arithmetic Functions

Arithmetic functions work for any two operands of type UInt8, UInt16, UInt32, UInt64, Int8, Int16, Int32, Int64, Float32, or Float64.

Before performing the operation, both operands are casted to the result type. The result type is determined as follows (unless specified differently in the function documentation below):

  • If both operands are up to 32 bits wide, the size of the result type will be the size of the next bigger type following the bigger of the two operands (integer size promotion). For example, UInt8 + UInt16 = UInt32 or Float32 * Float32 = Float64.
  • If one of the operands has 64 or more bits, the size of the result type will be the same size as the bigger of the two operands. For example, UInt32 + UInt128 = UInt128 or Float32 * Float64 = Float64.
  • If one of the operands is signed, the result type will also be signed, otherwise it will be signed. For example, UInt32 * Int32 = Int64.

These rules make sure that the result type will be the smallest type which can represent all possible results. While this introduces a risk of overflows around the value range boundary, it ensures that calculations are performed quickly using the maximum native integer width of 64 bit. This behavior also guarantees compatibility with many other databases which provide 64 bit integers (BIGINT) as the biggest integer type.

Example:

SELECT toTypeName(0), toTypeName(0 + 0), toTypeName(0 + 0 + 0), toTypeName(0 + 0 + 0 + 0)
┌─toTypeName(0)─┬─toTypeName(plus(0, 0))─┬─toTypeName(plus(plus(0, 0), 0))─┬─toTypeName(plus(plus(plus(0, 0), 0), 0))─┐
│ UInt8         │ UInt16                 │ UInt32                          │ UInt64                                   │
└───────────────┴────────────────────────┴─────────────────────────────────┴──────────────────────────────────────────┘

Overflows are produced the same way as in C++.

plus

Calculates the sum of two values a and b.

Syntax

plus(a, b)

It is possible to add an integer and a date or date with time. The former operation increments the number of days in the date, the latter operation increments the number of seconds in the date with time.

Alias: a + b (operator)

minus

Calculates the difference of two values a and b. The result is always signed.

Similar to plus, it is possible to subtract an integer from a date or date with time.

Syntax

minus(a, b)

Alias: a - b (operator)

multiply

Calculates the product of two values a and b.

Syntax

multiply(a, b)

Alias: a \* b (operator)

divide

Calculates the quotient of two values a and b. The result type is always Float64. Integer division is provided by the intDiv function.

Division by 0 returns inf, -inf, or nan.

Syntax

divide(a, b)

Alias: a / b (operator)

intDiv

Performs an integer division of two values a by b, i.e. computes the quotient rounded down to the next smallest integer.

The result has the same width as the dividend (the first parameter).

An exception is thrown when dividing by zero, when the quotient does not fit in the range of the dividend, or when dividing a minimal negative number by minus one.

Syntax

intDiv(a, b)

Example

Query:

SELECT
    intDiv(toFloat64(1), 0.001) AS res,
    toTypeName(res)
┌──res─┬─toTypeName(intDiv(toFloat64(1), 0.001))─┐
│ 1000 │ Int64                                   │
└──────┴─────────────────────────────────────────┘
SELECT
    intDiv(1, 0.001) AS res,
    toTypeName(res)
Received exception from server (version 23.2.1):
Code: 153. DB::Exception: Received from localhost:9000. DB::Exception: Cannot perform integer division, because it will produce infinite or too large number: While processing intDiv(1, 0.001) AS res, toTypeName(res). (ILLEGAL_DIVISION)

intDivOrZero

Same as intDiv but returns zero when dividing by zero or when dividing a minimal negative number by minus one.

Syntax

intDivOrZero(a, b)

modulo

Calculates the remainder of the division of two values a by b.

The result type is an integer if both inputs are integers. If one of the inputs is a floating-point number, the result type is Float64.

The remainder is computed like in C++. Truncated division is used for negative numbers.

An exception is thrown when dividing by zero or when dividing a minimal negative number by minus one.

Syntax

modulo(a, b)

Alias: a % b (operator)

moduloOrZero

Like modulo but returns zero when the divisor is zero.

Syntax

moduloOrZero(a, b)

positiveModulo(a, b)

Like modulo but always returns a non-negative number.

This function is 4-5 times slower than modulo.

Syntax

positiveModulo(a, b)

Alias:

  • positive_modulo(a, b)
  • pmod(a, b)

Example

Query:

SELECT positiveModulo(-1, 10)

Result:

┌─positiveModulo(-1, 10)─┐
│                      9 │
└────────────────────────┘

negate

Negates a value a. The result is always signed.

Syntax

negate(a)

Alias: -a

abs

Calculates the absolute value of a. Has no effect if a is of an unsigned type. If a is of a signed type, it returns an unsigned number.

Syntax

abs(a)

gcd

Returns the greatest common divisor of two values a and b.

An exception is thrown when dividing by zero or when dividing a minimal negative number by minus one.

Syntax

gcd(a, b)

lcm(a, b)

Returns the least common multiple of two values a and b.

An exception is thrown when dividing by zero or when dividing a minimal negative number by minus one.

Syntax

lcm(a, b)

max2

Returns the bigger of two values a and b. The returned value is of type Float64.

Syntax

max2(a, b)

Example

Query:

SELECT max2(-1, 2);

Result:

┌─max2(-1, 2)─┐
│           2 │
└─────────────┘

min2

Returns the smaller of two values a and b. The returned value is of type Float64.

Syntax

min2(a, b)

Example

Query:

SELECT min2(-1, 2);

Result:

┌─min2(-1, 2)─┐
│          -1 │
└─────────────┘

multiplyDecimal

Multiplies two decimals a and b. The result value will be of type Decimal256.

The scale of the result can be explicitly specified by result_scale. If result_scale is not specified, it is assumed to be the maximum scale of the input values.

This function work significantly slower than usual multiply. In case no control over the result precision is needed and/or fast computation is desired, consider using multiply.

Syntax

multiplyDecimal(a, b[, result_scale])

Arguments

Returned value

  • The result of multiplication with given scale.

Type: Decimal256.

Example

┌─multiplyDecimal(toDecimal256(-12, 0), toDecimal32(-2.1, 1), 1)─┐
│                                                           25.2 │
└────────────────────────────────────────────────────────────────┘

Differences compared to regular multiplication:

SELECT toDecimal64(-12.647, 3) * toDecimal32(2.1239, 4);
SELECT toDecimal64(-12.647, 3) as a, toDecimal32(2.1239, 4) as b, multiplyDecimal(a, b);

Result:

┌─multiply(toDecimal64(-12.647, 3), toDecimal32(2.1239, 4))─┐
│                                               -26.8609633 │
└───────────────────────────────────────────────────────────┘
┌─multiplyDecimal(toDecimal64(-12.647, 3), toDecimal32(2.1239, 4))─┐
│                                                         -26.8609 │
└──────────────────────────────────────────────────────────────────┘
SELECT
    toDecimal64(-12.647987876, 9) AS a,
    toDecimal64(123.967645643, 9) AS b,
    multiplyDecimal(a, b);

SELECT
    toDecimal64(-12.647987876, 9) AS a,
    toDecimal64(123.967645643, 9) AS b,
    a * b;

Result:

┌─────────────a─┬─────────────b─┬─multiplyDecimal(toDecimal64(-12.647987876, 9), toDecimal64(123.967645643, 9))─┐
│ -12.647987876 │ 123.967645643 │                                                               -1567.941279108 │
└───────────────┴───────────────┴───────────────────────────────────────────────────────────────────────────────┘

Received exception from server (version 22.11.1):
Code: 407. DB::Exception: Received from localhost:9000. DB::Exception: Decimal math overflow: While processing toDecimal64(-12.647987876, 9) AS a, toDecimal64(123.967645643, 9) AS b, a * b. (DECIMAL_OVERFLOW)

divideDecimal

Divides two decimals a and b. The result value will be of type Decimal256.

The scale of the result can be explicitly specified by result_scale. If result_scale is not specified, it is assumed to be the maximum scale of the input values.

This function work significantly slower than usual divide. In case no control over the result precision is needed and/or fast computation is desired, consider using divide.

Syntax

divideDecimal(a, b[, result_scale])

Arguments

Returned value

  • The result of division with given scale.

Type: Decimal256.

Example

┌─divideDecimal(toDecimal256(-12, 0), toDecimal32(2.1, 1), 10)─┐
│                                                -5.7142857142 │
└──────────────────────────────────────────────────────────────┘

Differences compared to regular division:

SELECT toDecimal64(-12, 1) / toDecimal32(2.1, 1);
SELECT toDecimal64(-12, 1) as a, toDecimal32(2.1, 1) as b, divideDecimal(a, b, 1), divideDecimal(a, b, 5);

Result:

┌─divide(toDecimal64(-12, 1), toDecimal32(2.1, 1))─┐
│                                             -5.7 │
└──────────────────────────────────────────────────┘

┌───a─┬───b─┬─divideDecimal(toDecimal64(-12, 1), toDecimal32(2.1, 1), 1)─┬─divideDecimal(toDecimal64(-12, 1), toDecimal32(2.1, 1), 5)─┐
│ -12 │ 2.1 │                                                       -5.7 │                                                   -5.71428 │
└─────┴─────┴────────────────────────────────────────────────────────────┴────────────────────────────────────────────────────────────┘
SELECT toDecimal64(-12, 0) / toDecimal32(2.1, 1);
SELECT toDecimal64(-12, 0) as a, toDecimal32(2.1, 1) as b, divideDecimal(a, b, 1), divideDecimal(a, b, 5);

Result:

DB::Exception: Decimal result's scale is less than argument's one: While processing toDecimal64(-12, 0) / toDecimal32(2.1, 1). (ARGUMENT_OUT_OF_BOUND)

┌───a─┬───b─┬─divideDecimal(toDecimal64(-12, 0), toDecimal32(2.1, 1), 1)─┬─divideDecimal(toDecimal64(-12, 0), toDecimal32(2.1, 1), 5)─┐
│ -12 │ 2.1 │                                                       -5.7 │                                                   -5.71428 │
└─────┴─────┴────────────────────────────────────────────────────────────┴────────────────────────────────────────────────────────────┘