cudf.Decimal64Dtype#

class cudf.Decimal64Dtype(precision, scale=0)#

Type to represent a decimal64 data.

Parameters
precisionint

The total number of digits in each value of this dtype

scaleint, optional

The scale of the dtype. See Notes below.

Notes

When the scale is positive:
  • numbers with fractional parts (e.g., 0.0042) can be represented

  • the scale is the total number of digits to the right of the

decimal point

When the scale is negative:
  • only multiples of powers of 10 (including 10**0) can be

represented (e.g., 1729, 4200, 1000000) - the scale represents the number of trailing zeros in the value.

For example, 42 is representable with precision=2 and scale=0. 13.0051 is representable with precision=6 and scale=4, and not representable with precision<6 or scale<4.

Examples

>>> import cudf
>>> decimal64_dtype = cudf.Decimal64Dtype(precision=9, scale=2)
>>> decimal64_dtype
Decimal64Dtype(precision=9, scale=2)

Attributes

itemsize

Length of one column element in bytes.

precision

The decimal precision, in number of decimal digits (an integer).

scale

The decimal scale (an integer).

Methods

from_arrow(typ)

Construct a cudf decimal dtype from a pyarrow dtype

to_arrow()

Return the equivalent pyarrow dtype.

classmethod from_arrow(typ)#

Construct a cudf decimal dtype from a pyarrow dtype

Examples

>>> import cudf
>>> import pyarrow as pa
>>> pa_type = pa.decimal128(precision=9, scale=2)

Constructing a Decimal32Dtype:

>>> cudf.Decimal32Dtype.from_arrow(pa_type)
Decimal64Dtype(precision=9, scale=2)

Constructing a Decimal64Dtype:

>>> cudf.Decimal64Dtype.from_arrow(pa_type)
Decimal64Dtype(precision=9, scale=2)

Constructing a Decimal128Dtype:

>>> cudf.Decimal128Dtype.from_arrow(pa_type)
Decimal128Dtype(precision=9, scale=2)
property itemsize#

Length of one column element in bytes.

property precision#

The decimal precision, in number of decimal digits (an integer).

property scale#

The decimal scale (an integer).

to_arrow()#

Return the equivalent pyarrow dtype.