"""
Missing data handling for arithmetic operations.
In particular, pandas conventions regarding division by zero differ
from numpy in the following ways:
1) np.array([-1, 0, 1], dtype=dtype1) // np.array([0, 0, 0], dtype=dtype2)
gives [nan, nan, nan] for most dtype combinations, and [0, 0, 0] for
the remaining pairs
(the remaining being dtype1==dtype2==intN and dtype==dtype2==uintN).
pandas convention is to return [-inf, nan, inf] for all dtype
combinations.
Note: the numpy behavior described here is py3-specific.
2) np.array([-1, 0, 1], dtype=dtype1) % np.array([0, 0, 0], dtype=dtype2)
gives precisely the same results as the // operation.
pandas convention is to return [nan, nan, nan] for all dtype
combinations.
3) divmod behavior consistent with 1) and 2).
"""
import operator
import numpy as np
from pandas.core.dtypes.common import is_float_dtype, is_integer_dtype, is_scalar
from pandas.core.ops.roperator import rdivmod, rfloordiv, rmod
def fill_zeros(result, x, y):
"""
If this is a reversed op, then flip x,y
If we have an integer value (or array in y)
and we have 0's, fill them with np.nan,
return the result.
Mask the nan's from x.
"""
if is_float_dtype(result.dtype):
return result
is_variable_type = hasattr(y, "dtype") or hasattr(y, "type")
is_scalar_type = is_scalar(y)
if not is_variable_type and not is_scalar_type:
return result
if is_scalar_type:
y = np.array(y)
if is_integer_dtype(y.dtype):
if (y == 0).any():
# GH#7325, mask and nans must be broadcastable (also: GH#9308)
# Raveling and then reshaping makes np.putmask faster
mask = ((y == 0) & ~np.isnan(result)).ravel()
shape = result.shape
result = result.astype("float64", copy=False).ravel()
np.putmask(result, mask, np.nan)
result = result.reshape(shape)
return result
def mask_zero_div_zero(x, y, result):
"""
Set results of 0 // 0 to np.nan, regardless of the dtypes
of the numerator or the denominator.
Parameters
----------
x : ndarray
y : ndarray
result : ndarray
Returns
-------
ndarray
The filled result.
Examples
--------
>>> x = np.array([1, 0, -1], dtype=np.int64)
>>> x
array([ 1, 0, -1])
>>> y = 0 # int 0; numpy behavior is different with float
>>> result = x // y
>>> result # raw numpy result does not fill division by zero
array([0, 0, 0])
>>> mask_zero_div_zero(x, y, result)
array([ inf, nan, -inf])
"""
if not isinstance(result, np.ndarray):
# FIXME: SparseArray would raise TypeError with np.putmask
return result
if is_scalar(y):
y = np.array(y)
zmask = y == 0
if isinstance(zmask, bool):
# FIXME: numpy did not evaluate pointwise, seen in docs build
return result
if zmask.any():
# Flip sign if necessary for -0.0
zneg_mask = zmask & np.signbit(y)
zpos_mask = zmask & ~zneg_mask
nan_mask = zmask & (x == 0)
with np.errstate(invalid="ignore"):
neginf_mask = (zpos_mask & (x < 0)) | (zneg_mask & (x > 0))
posinf_mask = (zpos_mask & (x > 0)) | (zneg_mask & (x < 0))
if nan_mask.any() or neginf_mask.any() or posinf_mask.any():
# Fill negative/0 with -inf, positive/0 with +inf, 0/0 with NaN
result = result.astype("float64", copy=False)
result[nan_mask] = np.nan
result[posinf_mask] = np.inf
result[neginf_mask] = -np.inf
return result
def dispatch_fill_zeros(op, left, right, result):
"""
Call fill_zeros with the appropriate fill value depending on the operation,
with special logic for divmod and rdivmod.
Parameters
----------
op : function (operator.add, operator.div, ...)
left : object (np.ndarray for non-reversed ops)
right : object (np.ndarray for reversed ops)
result : ndarray
Returns
-------
result : np.ndarray
Notes
-----
For divmod and rdivmod, the `result` parameter and returned `result`
is a 2-tuple of ndarray objects.
"""
if op is divmod:
result = (
mask_zero_div_zero(left, right, result[0]),
fill_zeros(result[1], left, right),
)
elif op is rdivmod:
result = (
mask_zero_div_zero(right, left, result[0]),
fill_zeros(result[1], right, left),
)
elif op is operator.floordiv:
# Note: no need to do this for truediv; in py3 numpy behaves the way
# we want.
result = mask_zero_div_zero(left, right, result)
elif op is rfloordiv:
# Note: no need to do this for rtruediv; in py3 numpy behaves the way
# we want.
result = mask_zero_div_zero(right, left, result)
elif op is operator.mod:
result = fill_zeros(result, left, right)
elif op is rmod:
result = fill_zeros(result, right, left)
return result