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
Length of one column element in bytes.
The decimal precision, in number of decimal digits (an integer).
The decimal scale (an integer).
Methods
from_arrow
(typ)Construct a cudf decimal dtype from a
pyarrow
dtypeto_arrow
()Return the equivalent
pyarrow
dtype.- classmethod from_arrow(typ)#
Construct a cudf decimal dtype from a
pyarrow
dtypeExamples
>>> 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.