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Allow parametrization through either shape, dims or size
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Always treats `size` as being in addition to dimensions implied by RV parameters.

All resizing beyond parameter-implied dimensionality is done from:
- `shape` or `size` in `Distribution.dist()`
- `dims` or `observed` in `Distribution.__new__`
and only in those two places.

Closes pymc-devs#4552.
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michaelosthege committed Apr 20, 2021
1 parent fd3f730 commit 7837696
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5 changes: 5 additions & 0 deletions RELEASE-NOTES.md
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### New Features
- The `CAR` distribution has been added to allow for use of conditional autoregressions which often are used in spatial and network models.
- The dimensionality of model variables can now be parametrized through either of `shape`, `dims` or `size` (see [#4625](https://github.com/pymc-devs/pymc3/pull/4625)):
- With `shape` the length of dimensions must be given numerically or as scalar Aesara `Variables`. Using `shape` restricts the model variable to the exact length and re-sizing is no longer possible.
- `dims` keeps model variables re-sizeable (for example through `pm.Data`) and leads to well defined coordinates in `InferenceData` objects.
- The `size` kwarg creates new dimensions in addition to what is implied by RV parameters.
- An `Ellipsis` (`...`) in the last position of `shape` or `dims` can be used as short-hand notation for implied dimensions.
- ...

### Maintenance
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235 changes: 209 additions & 26 deletions pymc3/distributions/distribution.py
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Expand Up @@ -20,21 +20,17 @@

from abc import ABCMeta
from copy import copy
from typing import TYPE_CHECKING
from typing import Any, Optional, Sequence, Tuple, Union

import aesara
import aesara.tensor as at
import dill

from aesara.graph.basic import Variable
from aesara.tensor.random.op import RandomVariable

from pymc3.aesaraf import change_rv_size, pandas_to_array
from pymc3.distributions import _logcdf, _logp

if TYPE_CHECKING:
from typing import Optional, Callable

import aesara
import aesara.graph.basic
import aesara.tensor as at

from pymc3.util import UNSET, get_repr_for_variable
from pymc3.vartypes import string_types

Expand All @@ -52,6 +48,10 @@

PLATFORM = sys.platform

Shape = Union[int, Sequence[Union[str, type(Ellipsis)]], Variable]
Dims = Union[str, Sequence[Union[str, None, type(Ellipsis)]]]
Size = Union[int, Tuple[int, ...]]


class _Unpickling:
pass
Expand Down Expand Up @@ -122,13 +122,111 @@ def logcdf(op, var, rvs_to_values, *dist_params, **kwargs):
return new_cls


def _valid_ellipsis_position(items: Union[None, Shape, Dims, Size]) -> bool:
if items is not None and not isinstance(items, Variable) and Ellipsis in items:
if any(i == Ellipsis for i in items[:-1]):
return False
return True


def _validate_shape_dims_size(
shape: Any = None, dims: Any = None, size: Any = None
) -> Tuple[Optional[Shape], Optional[Dims], Optional[Size]]:
# Raise on unsupported parametrization
if shape is not None and dims is not None:
raise ValueError("Passing both `shape` ({shape}) and `dims` ({dims}) is not supported!")
if dims is not None and size is not None:
raise ValueError("Passing both `dims` ({dims}) and `size` ({size}) is not supported!")
if shape is not None and size is not None:
raise ValueError("Passing both `shape` ({shape}) and `size` ({size}) is not supported!")

# Raise on invalid types
if not isinstance(shape, (type(None), int, list, tuple, Variable)):
raise ValueError("The `shape` parameter must be an int, list or tuple.")
if not isinstance(dims, (type(None), str, list, tuple)):
raise ValueError("The `dims` parameter must be a str, list or tuple.")
if not isinstance(size, (type(None), int, list, tuple)):
raise ValueError("The `size` parameter must be an int, list or tuple.")

# Auto-convert non-tupled parameters
if isinstance(shape, int):
shape = (shape,)
if isinstance(dims, str):
dims = (dims,)
if isinstance(size, int):
size = (size,)

# Convert to actual tuples
if not isinstance(shape, (type(None), tuple, Variable)):
shape = tuple(shape)
if not isinstance(dims, (type(None), tuple)):
dims = tuple(dims)
if not isinstance(size, (type(None), tuple)):
size = tuple(size)

if not _valid_ellipsis_position(shape):
raise ValueError(
f"Ellipsis in `shape` may only appear in the last position. Actual: {shape}"
)
if not _valid_ellipsis_position(dims):
raise ValueError(f"Ellipsis in `dims` may only appear in the last position. Actual: {dims}")
if size is not None and Ellipsis in size:
raise ValueError("The `size` parameter cannot contain an Ellipsis. Actual: {size}")
return shape, dims, size


class Distribution(metaclass=DistributionMeta):
"""Statistical distribution"""

rv_class = None
rv_op = None

def __new__(cls, name, *args, **kwargs):
def __new__(
cls,
name: str,
*args,
rng=None,
dims: Optional[Dims] = None,
testval=None,
observed=None,
total_size=None,
transform=UNSET,
**kwargs,
) -> RandomVariable:
"""Adds a RandomVariable corresponding to a PyMC3 distribution to the current model.
Note that all remaining kwargs must be compatible with ``.dist()``
Parameters
----------
cls : type
A PyMC3 distribution.
name : str
Name for the new model variable.
rng : optional
Random number generator to use with the RandomVariable.
dims : tuple, optional
A tuple of dimension names known to the model.
testval : optional
Test value to be attached to the output RV.
Must match its shape exactly.
observed : optional
Observed data to be passed when registering the random variable in the model.
See ``Model.register_rv``.
total_size : float, optional
See ``Model.register_rv``.
transform : optional
See ``Model.register_rv``.
**kwargs
Keyword arguments that will be forwarded to ``.dist()``.
Most prominently: ``shape`` and ``size``
Returns
-------
rv : RandomVariable
The created RV, registered in the Model.
"""

try:
from pymc3.model import Model

Expand All @@ -141,40 +239,125 @@ def __new__(cls, name, *args, **kwargs):
"for a standalone distribution."
)

rng = kwargs.pop("rng", None)
if not isinstance(name, string_types):
raise TypeError(f"Name needs to be a string but got: {name}")

if rng is None:
rng = model.default_rng

if not isinstance(name, string_types):
raise TypeError(f"Name needs to be a string but got: {name}")
_, dims, _ = _validate_shape_dims_size(dims=dims)
resize = None

data = kwargs.pop("observed", None)
# Create the RV without specifying testval, because the testval may have a shape
# that only matches after replicating with a size implied by dims (see below).
rv_out = cls.dist(*args, rng=rng, testval=None, **kwargs)
n_implied = rv_out.ndim

total_size = kwargs.pop("total_size", None)
# `dims` are only available with this API, because `.dist()` can be used
# without a modelcontext and dims are not tracked at the Aesara level.
if dims is not None:
if Ellipsis in dims:
# Auto-complete the dims tuple to the full length
dims = (*dims[:-1], *[None] * rv_out.ndim)

dims = kwargs.pop("dims", None)
n_resize = len(dims) - n_implied

if "shape" in kwargs:
raise DeprecationWarning("The `shape` keyword is deprecated; use `size`.")
# All resize dims must be known already (numerically or symbolically).
unknown_resize_dims = set(dims[:n_resize]) - set(model.dim_lengths)
if unknown_resize_dims:
raise KeyError(
f"Dimensions {unknown_resize_dims} are unknown to the model and cannot be used to specify a `size`."
)

transform = kwargs.pop("transform", UNSET)
# The numeric/symbolic resize tuple can be created using model.RV_dim_lengths
resize = tuple(model.dim_lengths[dname] for dname in dims[:n_resize])
elif observed is not None:
if not hasattr(observed, "shape"):
observed = pandas_to_array(observed)
n_resize = observed.ndim - n_implied
resize = tuple(observed.shape[d] for d in range(n_resize))

if resize:
# A batch size was specified through `dims`, or implied by `observed`.
rv_out = change_rv_size(rv_var=rv_out, new_size=resize, expand=True)

if dims is not None:
# Now that we have a handle on the output RV, we can register named implied dimensions that
# were not yet known to the model, such that they can be used for size further downstream.
for di, dname in enumerate(dims[n_resize:]):
if not dname in model.dim_lengths:
model.add_coord(dname, values=None, length=rv_out.shape[n_resize + di])

rv_out = cls.dist(*args, rng=rng, **kwargs)
if testval is not None:
# Assigning the testval earlier causes trouble because the RV may not be created with the final shape already.
rv_out.tag.test_value = testval

return model.register_rv(rv_out, name, data, total_size, dims=dims, transform=transform)
return model.register_rv(rv_out, name, observed, total_size, dims=dims, transform=transform)

@classmethod
def dist(cls, dist_params, **kwargs):
def dist(
cls,
dist_params,
*,
shape: Optional[Shape] = None,
size: Optional[Size] = None,
testval=None,
**kwargs,
) -> RandomVariable:
"""Creates a RandomVariable corresponding to the `cls` distribution.
testval = kwargs.pop("testval", None)
Parameters
----------
dist_params
shape : tuple, optional
A tuple of sizes for each dimension of the new RV.
Ellipsis (...) may be used in the last position of the tuple,
and automatically expand to the shape implied by RV inputs.
size : int, tuple, Variable, optional
A scalar or tuple for replicating the RV in addition
to its implied shape/dimensionality.
testval : optional
Test value to be attached to the output RV.
Must match its shape exactly.
Returns
-------
rv : RandomVariable
The created RV.
"""
if "dims" in kwargs:
raise NotImplementedError("The use of a `.dist(dims=...)` API is not yet supported.")

shape, _, size = _validate_shape_dims_size(shape=shape, size=size)

# Create the RV without specifying size or testval.
# The size will be expanded later (if necessary) and only then the testval fits.
rv_native = cls.rv_op(*dist_params, size=None, **kwargs)

rv_var = cls.rv_op(*dist_params, **kwargs)
if shape is None and size is None:
size = ()
elif shape is not None:
if isinstance(shape, Variable):
size = ()
else:
if Ellipsis in shape:
size = tuple(shape[:-1])
else:
size = tuple(shape[: len(shape) - rv_native.ndim])
# no-op conditions:
# `elif size is not None` (User already specified how to expand the RV)
# `else` (Unreachable)

if size:
rv_out = change_rv_size(rv_var=rv_native, new_size=size, expand=True)
else:
rv_out = rv_native

if testval is not None:
rv_var.tag.test_value = testval
rv_out.tag.test_value = testval

return rv_var
return rv_out

def _distr_parameters_for_repr(self):
"""Return the names of the parameters for this distribution (e.g. "mu"
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