def test_he_sampling_correctness(sample_dataframes):
df, _, _ = sample_dataframes
df = df.drop_duplicates(subset=["user", "item"])
encoder = DatasetEncoder()
encoder.fit(df["user"], df["item"])
train, test = split(df, n_test=1)
dataset = Dataset.from_df(df, encoder=encoder, normalize=lambda _: ones_like(_))
train_dataset = Dataset.from_df(
train, encoder=encoder, normalize=lambda _: ones_like(_)
)
test_dataset = Dataset.from_df(
test, encoder=encoder, normalize=lambda _: ones_like(_)
)
users, items = he_sampling(test_dataset, train_dataset)
a, b, _ = dataset.to_components()
all_users, all_items = groupby(a, b)
for i in range(len(items)):
# items includes no more than one element from 'all_items'.
assert len(intersect1d(items[i], all_items[i])) == 1
def test_transform_fails_for_unknown_elements(sample_dataset):
users, items = sample_dataset[:, 0], sample_dataset[:, 1]
n = int(users.shape[0] / 4)
with pytest.raises(KeyError):
a_users, a_items = users[:n], items[:n]
b_users, b_items = users[n:], items[n:]
d = DatasetEncoder()
d.fit(users=a_users, items=a_items)
d.transform(users=b_users, items=b_items)
def test_to_df_fails_with_mismatched_inputs(sample_dataset):
users, items = sample_dataset[:, 0], sample_dataset[:, 1]
d = DatasetEncoder()
d.fit(users=users, items=items)
encoded = d.transform(users=users, items=items)
recommended = [
np.random.choice(encoded["items"], 10, replace=False)
for _ in range(int(len(users) / 2))
]
with pytest.raises(ValueError):
d.to_df(users, recommended)
def test_fit_reversible_user_item_transform(sample_dataset):
users, items = sample_dataset[:, 0], sample_dataset[:, 1]
d = DatasetEncoder()
d.fit(users=users, items=items)
r = d.inverse_transform(**d.transform(users=users, items=items))
assert r["users"].shape == users.shape
assert r["items"].shape == items.shape
assert np.all(r["users"] == users)
assert np.all(r["items"] == items)
def test_to_df_succeeds(sample_dataset):
users, items = sample_dataset[:, 0], sample_dataset[:, 1]
d = DatasetEncoder()
d.fit(users=users, items=items)
encoded = d.transform(users=users, items=items)
recommended = [
np.random.choice(encoded["items"], 10, replace=False) for _ in users
]
rdf = d.to_df(encoded["users"], recommended, target_col="user")
assert np.all(rdf["user"].values == users)
for i, row in enumerate(rdf.values[:, 1:]):
assert np.all(row == d.inverse_transform(
items=recommended[i])["items"])
def test_shared_encoder_interactions_shapes(sample_dataframes):
"""
Datasets using the same DatasetEncoder produce interactions matrices of the
same shape.
"""
interactions, _, _ = sample_dataframes
encoder = DatasetEncoder()
encoder.fit(interactions["user"], interactions["item"])
train_interactions = interactions.iloc[:int(len(interactions) / 2)]
test_interactions = interactions.iloc[:int(len(interactions) / 2)]
train_dataset = Dataset.from_df(train_interactions, encoder=encoder)
test_dataset = Dataset.from_df(test_interactions, encoder=encoder)
dataset = Dataset.from_df(interactions)
assert dataset.interactions.shape == train_dataset.interactions.shape
assert dataset.interactions.shape == test_dataset.interactions.shape
def test_inverse_fit_transform_using_metadata(sample_metadata_dataset):
users = sample_metadata_dataset[:, 0]
items = sample_metadata_dataset[:, 1]
user_meta = sample_metadata_dataset[:, 2]
item_meta = sample_metadata_dataset[:, 3]
d = DatasetEncoder()
d.fit(users=users, items=items, user_tags=user_meta, item_tags=item_meta)
r = d.inverse_transform(**d.transform(
users=users, items=items, user_tags=user_meta, item_tags=item_meta))
assert r["users"].shape == users.shape
assert r["items"].shape == items.shape
assert r["user_tags"].shape == user_meta.shape
assert r["item_tags"].shape == item_meta.shape
assert np.all(r["users"] == users)
assert np.all(r["items"] == items)
assert np.all(r["user_tags"] == user_meta)
assert np.all(r["item_tags"] == item_meta)
from xanthus.datasets import Dataset, DatasetEncoder, utils
from xanthus.evaluate import leave_one_out, score, metrics, he_sampling
ratings = pd.read_csv("data/movielens-100k/ratings.csv")
movies = pd.read_csv("data/movielens-100k/movies.csv")
title_mapping = dict(zip(movies["movieId"], movies["title"]))
ratings = ratings.rename(columns={"userId": "user", "movieId": "item"})
ratings.loc[:, "item"] = ratings["item"].apply(lambda _: title_mapping[_])
ratings = ratings[ratings["rating"] > 3.0]
train_df, test_df = leave_one_out(ratings)
encoder = DatasetEncoder()
encoder.fit(ratings["user"], ratings["item"])
train_ds = Dataset.from_df(train_df,
normalize=utils.as_implicit,
encoder=encoder)
test_ds = Dataset.from_df(test_df,
normalize=utils.as_implicit,
encoder=encoder)
model = GMFModel(fit_params=dict(epochs=10, batch_size=256),
n_factors=32,
negative_samples=4)
model.fit(train_ds)
_, test_items, _ = test_ds.to_components(shuffle=False)
def test_fit_user_item_succeeds(sample_dataset):
d = DatasetEncoder()
assert d.fit(users=sample_dataset[:, 0], items=sample_dataset[:, 1]) == d