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Fixing scalar shape handling: treat (1,) as vectors #4214

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8092eed
change tests to expect scalar results for (1,) shapes
michaelosthege Nov 9, 2020
fbb6fe2
only treat () as scalar shapes
michaelosthege Nov 9, 2020
0589203
fixes shape tests with new scalar behavior
michaelosthege Nov 9, 2020
d89f879
fix BetaBinomial new scalar shape handling
michaelosthege Nov 9, 2020
08caafa
remove sample reshaping
michaelosthege Nov 9, 2020
21de446
adaptions for timeseries distributions
michaelosthege Nov 9, 2020
3095071
take out old (1,) shape handling
michaelosthege Nov 10, 2020
2e38d89
black formatting
michaelosthege Nov 11, 2020
fac09f8
Merge branch 'master' into fix-4206
michaelosthege Nov 26, 2020
b81397e
Merge branch 'master' into fix-4206
michaelosthege Dec 8, 2020
21bf324
Merge branch 'fix-4206' of https://github.com/michaelosthege/pymc3 in…
michaelosthege Dec 8, 2020
bf0757b
Merge branch 'master' into fix-4206
michaelosthege Dec 12, 2020
81465b0
Merge branch 'master' into fix-4206
michaelosthege Dec 13, 2020
eb0fcf8
raise ValueError when Distribution is initialized with a 0-length dim…
michaelosthege Dec 13, 2020
7eb78a7
Don't match ValueError message because some distributions use differe…
michaelosthege Dec 14, 2020
3ff4959
Update releasenotes and apply review feedback
michaelosthege Dec 14, 2020
25f6108
Merge latest master & clean up release notes conflict
michaelosthege Dec 14, 2020
1652e4b
Removed xfail tests while testing mvnormal random
Sayam753 Dec 18, 2020
ec796ad
Merge branch 'master' into fix-4206
michaelosthege Dec 19, 2020
3e52058
Take out size=1 special case from MixtureSameFamily
michaelosthege Dec 20, 2020
0a5b04b
Merge branch 'fix-4206' of https://github.com/michaelosthege/pymc3 in…
michaelosthege Dec 20, 2020
39ac694
Use more professional terminology
michaelosthege Dec 20, 2020
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16 changes: 13 additions & 3 deletions RELEASE-NOTES.md
Original file line number Diff line number Diff line change
@@ -1,7 +1,19 @@
# Release Notes

## PyMC3 vNext (on deck)
This is the first release to support Python3.9 and to drop Python3.6.
This release breaks some APIs w.r.t. `3.10.0`.
It also brings some dreadfully awaited fixes, so be sure to go through the changes below.
(Or latest when you run into problems.)

### Breaking Changes
- Python 3.6 support was dropped (by no longer testing) and Python 3.9 was added (see [#4332](https://github.com/pymc-devs/pymc3/pull/4332)).
- Changed shape behavior: __No longer collapse length 1 vector shape into scalars.__ (see [#4206](https://github.com/pymc-devs/pymc3/issue/4206) and [#4214](https://github.com/pymc-devs/pymc3/pull/4214))
- __Applies to random variables and also the `.random(size=...)` kwarg!__
- To create scalar variables you must now use `shape=None` or `shape=()`.
- __`shape=(1,)` and `shape=1` now become vectors.__ Previously they were collapsed into scalars
- 0-length dimensions are now ruled illegal for random variables and raise a `ValueError`.
- In `sample_prior_predictive` the `vars` kwarg was removed in favor of `var_names` (see [#4327](https://github.com/pymc-devs/pymc3/pull/4327)).
- Removed `theanof.set_theano_config` because it illegally touched Theano's privates (see [#4329](https://github.com/pymc-devs/pymc3/pull/4329)).
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### New Features
- `OrderedProbit` distribution added (see [#4232](https://github.com/pymc-devs/pymc3/pull/4232)).
Expand All @@ -10,8 +22,6 @@ This is the first release to support Python3.9 and to drop Python3.6.
### Maintenance
- Fixed bug whereby partial traces returns after keyboard interrupt during parallel sampling had fewer draws than would've been available [#4318](https://github.com/pymc-devs/pymc3/pull/4318)
- Make `sample_shape` same across all contexts in `draw_values` (see [#4305](https://github.com/pymc-devs/pymc3/pull/4305)).
- Removed `theanof.set_theano_config` because it illegally touched Theano's privates (see [#4329](https://github.com/pymc-devs/pymc3/pull/4329)).
- In `sample_posterior_predictive` the `vars` kwarg was removed in favor of `var_names` (see [#4343](https://github.com/pymc-devs/pymc3/pull/4343)).
- The notebook gallery has been moved to https://github.com/pymc-devs/pymc-examples (see [#4348](https://github.com/pymc-devs/pymc3/pull/4348)).


Expand Down
4 changes: 2 additions & 2 deletions pymc3/distributions/discrete.py
Original file line number Diff line number Diff line change
Expand Up @@ -212,7 +212,7 @@ def __init__(self, alpha, beta, n, *args, **kwargs):
self.mode = tt.cast(tround(alpha / (alpha + beta)), "int8")

def _random(self, alpha, beta, n, size=None):
size = size or 1
size = size or ()
p = stats.beta.rvs(a=alpha, b=beta, size=size).flatten()
# Sometimes scipy.beta returns nan. Ugh.
while np.any(np.isnan(p)):
Expand Down Expand Up @@ -1096,7 +1096,7 @@ def random(self, point=None, size=None):
return generate_samples(
random_choice,
p=p,
broadcast_shape=p.shape[:-1] or (1,),
broadcast_shape=p.shape[:-1],
dist_shape=self.shape,
size=size,
)
Expand Down
33 changes: 6 additions & 27 deletions pymc3/distributions/distribution.py
Original file line number Diff line number Diff line change
Expand Up @@ -107,6 +107,12 @@ def __new__(cls, name, *args, **kwargs):
dims = (dims,)
shape = model.shape_from_dims(dims)

# failsafe against 0-shapes
if shape is not None and any(np.atleast_1d(shape) <= 0):
raise ValueError(
f"Distribution initialized with invalid shape {shape}. This is not allowed."
)

# Some distributions do not accept shape=None
if has_shape or shape is not None:
dist = cls.dist(*args, **kwargs, shape=shape)
Expand Down Expand Up @@ -1001,16 +1007,6 @@ def _draw_value(param, point=None, givens=None, size=None):
raise ValueError("Unexpected type in draw_value: %s" % type(param))


def _is_one_d(dist_shape):
if hasattr(dist_shape, "dshape") and dist_shape.dshape in ((), (0,), (1,)):
return True
elif hasattr(dist_shape, "shape") and dist_shape.shape in ((), (0,), (1,)):
return True
elif to_tuple(dist_shape) == ():
return True
return False


def generate_samples(generator, *args, **kwargs):
"""Generate samples from the distribution of a random variable.

Expand Down Expand Up @@ -1044,7 +1040,6 @@ def generate_samples(generator, *args, **kwargs):
Any remaining args and kwargs are passed on to the generator function.
"""
dist_shape = kwargs.pop("dist_shape", ())
one_d = _is_one_d(dist_shape)
size = kwargs.pop("size", None)
broadcast_shape = kwargs.pop("broadcast_shape", None)
not_broadcast_kwargs = kwargs.pop("not_broadcast_kwargs", None)
Expand Down Expand Up @@ -1120,21 +1115,5 @@ def generate_samples(generator, *args, **kwargs):
samples = generator(size=dist_bcast_shape, *args, **kwargs)
else:
samples = generator(size=size_tup + dist_bcast_shape, *args, **kwargs)
samples = np.asarray(samples)

# reshape samples here
if samples.ndim > 0 and samples.shape[0] == 1 and size_tup == (1,):
if (
len(samples.shape) > len(dist_shape)
and samples.shape[-len(dist_shape) :] == dist_shape[-len(dist_shape) :]
):
samples = samples.reshape(samples.shape[1:])

if (
one_d
and samples.ndim > 0
and samples.shape[-1] == 1
and (samples.shape != size_tup or size_tup == tuple() or size_tup == (1,))
):
samples = samples.reshape(samples.shape[:-1])
return np.asarray(samples)
2 changes: 0 additions & 2 deletions pymc3/distributions/posterior_predictive.py
Original file line number Diff line number Diff line change
Expand Up @@ -560,8 +560,6 @@ def random_sample(
shape: Tuple[int, ...],
) -> np.ndarray:
val = meth(point=point, size=size)
if size == 1:
val = np.expand_dims(val, axis=0)
try:
assert val.shape == (size,) + shape, (
"Sampling from random of %s yields wrong shape" % param
Expand Down
165 changes: 76 additions & 89 deletions pymc3/tests/test_distributions_random.py
Original file line number Diff line number Diff line change
Expand Up @@ -204,12 +204,19 @@ def test_blocking_context(self):
class BaseTestCases:
class BaseTestCase(SeededTest):
shape = 5
# the following are the default values of the distribution that take effect
# when the parametrized shape/size in the test case is None.
# For every distribution that defaults to non-scalar shapes they must be
# specified by the inheriting Test class. example: TestGaussianRandomWalk
default_shape = ()
default_size = ()

def setup_method(self, *args, **kwargs):
super().setup_method(*args, **kwargs)
self.model = pm.Model()

def get_random_variable(self, shape, with_vector_params=False, name=None):
""" Creates a RandomVariable of the parametrized distribution. """
if with_vector_params:
params = {
key: value * np.ones(self.shape, dtype=np.dtype(type(value)))
Expand All @@ -220,100 +227,87 @@ def get_random_variable(self, shape, with_vector_params=False, name=None):
if name is None:
name = self.distribution.__name__
with self.model:
if shape is None:
return self.distribution(name, transform=None, **params)
else:
try:
try:
if shape is None:
# in the test case parametrization "None" means "no specified (default)"
return self.distribution(name, transform=None, **params)
else:
return self.distribution(name, shape=shape, transform=None, **params)
except TypeError:
if np.sum(np.atleast_1d(shape)) == 0:
pytest.skip("Timeseries must have positive shape")
raise
except TypeError:
if np.sum(np.atleast_1d(shape)) == 0:
pytest.skip("Timeseries must have positive shape")
raise

@staticmethod
def sample_random_variable(random_variable, size):
""" Draws samples from a RandomVariable using its .random() method. """
try:
return random_variable.random(size=size)
if size is None:
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return random_variable.random()
else:
return random_variable.random(size=size)
except AttributeError:
return random_variable.distribution.random(size=size)

@pytest.mark.parametrize("size", [None, 5, (4, 5)], ids=str)
def test_scalar_parameter_shape(self, size):
rv = self.get_random_variable(None)
if size is None:
expected = (1,)
else:
expected = np.atleast_1d(size).tolist()
actual = np.atleast_1d(self.sample_random_variable(rv, size)).shape
assert tuple(expected) == actual
if size is None:
return random_variable.distribution.random()
else:
return random_variable.distribution.random(size=size)

@pytest.mark.parametrize("size", [None, 5, (4, 5)], ids=str)
def test_scalar_shape(self, size):
shape = 10
@pytest.mark.parametrize("size", [None, (), 1, (1,), 5, (4, 5)], ids=str)
@pytest.mark.parametrize("shape", [None, ()], ids=str)
def test_scalar_distribution_shape(self, shape, size):
""" Draws samples of different [size] from a scalar [shape] RV. """
rv = self.get_random_variable(shape)
exp_shape = self.default_shape if shape is None else tuple(np.atleast_1d(shape))
exp_size = self.default_size if size is None else tuple(np.atleast_1d(size))
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expected = exp_size + exp_shape
actual = np.shape(self.sample_random_variable(rv, size))
assert (
expected == actual
), f"Sample size {size} from {shape}-shaped RV had shape {actual}. Expected: {expected}"
# check that negative size raises an error
with pytest.raises(ValueError):
self.sample_random_variable(rv, size=-2)
with pytest.raises(ValueError):
self.sample_random_variable(rv, size=(3, -2))

if size is None:
expected = []
else:
expected = np.atleast_1d(size).tolist()
expected.append(shape)
actual = np.atleast_1d(self.sample_random_variable(rv, size)).shape
assert tuple(expected) == actual

@pytest.mark.parametrize("size", [None, 5, (4, 5)], ids=str)
def test_parameters_1d_shape(self, size):
rv = self.get_random_variable(self.shape, with_vector_params=True)
if size is None:
expected = []
else:
expected = np.atleast_1d(size).tolist()
expected.append(self.shape)
actual = self.sample_random_variable(rv, size).shape
assert tuple(expected) == actual

@pytest.mark.parametrize("size", [None, 5, (4, 5)], ids=str)
def test_broadcast_shape(self, size):
broadcast_shape = (2 * self.shape, self.shape)
rv = self.get_random_variable(broadcast_shape, with_vector_params=True)
if size is None:
expected = []
else:
expected = np.atleast_1d(size).tolist()
expected.extend(broadcast_shape)
actual = np.atleast_1d(self.sample_random_variable(rv, size)).shape
assert tuple(expected) == actual

@pytest.mark.parametrize("size", [None, ()], ids=str)
@pytest.mark.parametrize(
"shape", [(), (1,), (1, 1), (1, 2), (10, 10, 1), (10, 10, 2)], ids=str
"shape", [None, (), (1,), (1, 1), (1, 2), (10, 11, 1), (9, 10, 2)], ids=str
)
def test_different_shapes_and_sample_sizes(self, shape):
prefix = self.distribution.__name__

rv = self.get_random_variable(shape, name=f"{prefix}_{shape}")
for size in (None, 1, 5, (4, 5)):
if size is None:
s = []
else:
try:
s = list(size)
except TypeError:
s = [size]
if s == [1]:
s = []
if shape not in ((), (1,)):
s.extend(shape)
e = tuple(s)
a = self.sample_random_variable(rv, size).shape
assert e == a
def test_scalar_sample_shape(self, shape, size):
""" Draws samples of scalar [size] from a [shape] RV. """
rv = self.get_random_variable(shape)
exp_shape = self.default_shape if shape is None else tuple(np.atleast_1d(shape))
exp_size = self.default_size if size is None else tuple(np.atleast_1d(size))
expected = exp_size + exp_shape
actual = np.shape(self.sample_random_variable(rv, size))
assert (
expected == actual
), f"Sample size {size} from {shape}-shaped RV had shape {actual}. Expected: {expected}"

@pytest.mark.parametrize("size", [None, 3, (4, 5)], ids=str)
@pytest.mark.parametrize("shape", [None, 1, (10, 11, 1)], ids=str)
def test_vector_params(self, shape, size):
shape = self.shape
rv = self.get_random_variable(shape, with_vector_params=True)
exp_shape = self.default_shape if shape is None else tuple(np.atleast_1d(shape))
exp_size = self.default_size if size is None else tuple(np.atleast_1d(size))
expected = exp_size + exp_shape
actual = np.shape(self.sample_random_variable(rv, size))
assert (
expected == actual
), f"Sample size {size} from {shape}-shaped RV had shape {actual}. Expected: {expected}"

@pytest.mark.parametrize("shape", [-2, 0, (0,), (2, 0), (5, 0, 3)])
def test_shape_error_on_zero_shape_rv(self, shape):
with pytest.raises(ValueError, match="not allowed"):
self.get_random_variable(shape)


class TestGaussianRandomWalk(BaseTestCases.BaseTestCase):
distribution = pm.GaussianRandomWalk
params = {"mu": 1.0, "sigma": 1.0}

@pytest.mark.xfail(reason="Supporting this makes a nasty API")
def test_broadcast_shape(self):
super().test_broadcast_shape()
default_shape = (1,)


class TestNormal(BaseTestCases.BaseTestCase):
Expand Down Expand Up @@ -1577,7 +1571,7 @@ def test_Triangular(
assert prior["target"].shape == (prior_samples,) + shape


def generate_shapes(include_params=False, xfail=False):
def generate_shapes(include_params=False):
# fmt: off
mudim_as_event = [
[None, 1, 3, 10, (10, 3), 100],
Expand All @@ -1596,20 +1590,13 @@ def generate_shapes(include_params=False, xfail=False):
del mudim_as_event[-1]
del mudim_as_dist[-1]
data = itertools.chain(itertools.product(*mudim_as_event), itertools.product(*mudim_as_dist))
if xfail:
data = list(data)
for index in range(len(data)):
if data[index][0] in (None, 1):
data[index] = pytest.param(
*data[index], marks=pytest.mark.xfail(reason="wait for PR #4214")
)
return data


class TestMvNormal(SeededTest):
@pytest.mark.parametrize(
["sample_shape", "dist_shape", "mu_shape", "param"],
generate_shapes(include_params=True, xfail=False),
generate_shapes(include_params=True),
ids=str,
)
def test_with_np_arrays(self, sample_shape, dist_shape, mu_shape, param):
Expand All @@ -1619,7 +1606,7 @@ def test_with_np_arrays(self, sample_shape, dist_shape, mu_shape, param):

@pytest.mark.parametrize(
["sample_shape", "dist_shape", "mu_shape"],
generate_shapes(include_params=False, xfail=True),
generate_shapes(include_params=False),
ids=str,
)
def test_with_chol_rv(self, sample_shape, dist_shape, mu_shape):
Expand All @@ -1636,7 +1623,7 @@ def test_with_chol_rv(self, sample_shape, dist_shape, mu_shape):

@pytest.mark.parametrize(
["sample_shape", "dist_shape", "mu_shape"],
generate_shapes(include_params=False, xfail=True),
generate_shapes(include_params=False),
ids=str,
)
def test_with_cov_rv(self, sample_shape, dist_shape, mu_shape):
Expand Down
3 changes: 0 additions & 3 deletions pymc3/tests/test_shape_handling.py
Original file line number Diff line number Diff line change
Expand Up @@ -214,9 +214,6 @@ def test_broadcast_dist_samples_to(self, samples_to_broadcast_to):
def test_sample_generate_values(fixture_model, fixture_sizes):
model, RVs = fixture_model
size = to_tuple(fixture_sizes)
if size == (1,):
# Single draws are interpreted as scalars for backwards compatibility
size = tuple()
with model:
prior = pm.sample_prior_predictive(samples=fixture_sizes)
for rv in RVs:
Expand Down