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datasets.py
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datasets.py
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import timer
import utils
import directories
import numpy as np
MENTION_TYPES = {
"PRONOMINAL": 0,
"NOMINAL": 1,
"PROPER": 2,
"LIST": 3
}
MENTION_NUM, SENTENCE_NUM, START_INDEX, END_INDEX, MENTION_TYPE, CONTAINED = 0, 1, 2, 3, 4, 5
def make_mention_array(m):
return np.array([m["mention_num"],
m["sent_num"],
m["start_index"],
m["end_index"],
MENTION_TYPES[m["mention_type"]],
m['contained-in-other-mention']], dtype='int32')
class DatasetColumn:
def __init__(self, name, columns=None):
self.name = name
self.data = []
self.active = not columns or name in columns
def append(self, arr):
if self.active:
self.data.append(arr)
def write(self, path):
if self.active:
self.data = np.array(self.data, dtype='bool') \
if self.name == 'y' or self.name == 'pf' else np.vstack(self.data)
print("Writing {:}, dtype={:}, size={:}".format(self.name, str(self.data.dtype),
utils.sizeof_fmt(self.data.nbytes)))
np.save(path + self.name, self.data)
class DocumentDataBuilder:
def __init__(self, columns=None):
self.columns = columns
self.mention_inds = DatasetColumn('dmi', columns)
self.pair_inds = DatasetColumn('dpi', columns)
self.features = DatasetColumn('df', columns)
self.genres = utils.load_pickle(directories.MISC + 'genres.pkl')
def add_doc(self, ms, me, ps, pe, features):
self.mention_inds.append(np.array([ms, me], dtype='int32'))
self.pair_inds.append(np.array([ps, pe], dtype='int32'))
self.features.append(np.array(
one_hot(np.array(self.genres[features["source"]]), len(self.genres))[0], dtype='int32'))
def write(self, dataset_name):
path = directories.DOC_DATA + dataset_name + '/'
if not self.columns:
utils.rmkdir(path)
self.mention_inds.write(path)
self.pair_inds.write(path)
self.features.write(path)
class MentionDataBuilder:
def __init__(self, columns=None):
self.columns = columns
self.words = DatasetColumn('mw', columns)
self.spans = DatasetColumn('msp', columns)
self.features = DatasetColumn('mf', columns)
self.mention_nums = DatasetColumn('mnum', columns)
self.mention_ids = DatasetColumn('mid', columns)
self.dids = DatasetColumn('mdid', columns)
def add_mention(self, m, vectors, doc_vector):
self.features.append(make_mention_array(m))
self.mention_nums.append(np.array(m["mention_num"], dtype='int32'))
self.mention_ids.append(np.array(m["mention_id"], dtype='int32'))
self.dids.append(np.array(m["doc_id"], dtype='int32'))
s = m["sentence"]
head_index = m["head_index"]
start_index = m["start_index"]
end_index = m["end_index"]
def get_word(i): return vectors.missing if i < 0 or i >= len(s) else vectors[s[i]]
self.words.append(np.array([
get_word(head_index),
get_word(start_index),
get_word(end_index - 1),
get_word(start_index - 1),
get_word(end_index),
get_word(start_index - 2),
get_word(end_index + 1),
vectors[m["dep_parent"]],
vectors["dep=" + m["dep_relation"]]
], dtype='int32'))
def span_vector(start, end):
start = max(min(start, len(s) - 1), 0)
end = max(min(end, len(s) - 1), 0)
vs = [vectors.vectors[vectors[w]] for w in s[start:end]]
return np.array(np.zeros(vectors.d) if len(vs) == 0 else np.mean(vs, axis=0),
dtype='float32')
self.spans.append(np.array(np.concatenate([
span_vector(start_index, end_index),
span_vector(start_index - 5, start_index),
span_vector(end_index, end_index + 5),
span_vector(0, len(s)),
doc_vector
])))
def write(self, dataset_name):
path = directories.MENTION_DATA + dataset_name + '/'
if not self.columns:
utils.rmkdir(path)
self.words.write(path)
self.spans.write(path)
self.features.write(path)
self.mention_nums.write(path)
self.mention_ids.write(path)
self.dids.write(path)
def size(self):
return max(len(self.words.data),
len(self.spans.data),
len(self.features.data),
len(self.mention_nums.data),
len(self.mention_ids.data),
len(self.dids.data))
class PairDataBuilder:
def __init__(self, columns=None):
self.columns = columns
self.pair_indices = DatasetColumn('pi', columns)
self.pair_features = DatasetColumn('pf', columns)
self.y = DatasetColumn('y', columns)
self.pair_ids = DatasetColumn('pmid', columns)
self.current_did = -1
self.current_mid2 = -1
self.current_size = 0
def add_pair(self, y, i1, i2, did, mid1, mid2, features):
if self.current_did != did or self.current_mid2 != mid2:
self.current_did = did
self.current_mid2 = mid2
self.current_size = 0
self.current_size += 1
self.y.append(y)
self.pair_indices.append(np.array([i1, i2], dtype='int32'))
self.pair_features.append(np.array(features, dtype='bool'))
self.pair_ids.append(np.array([did, mid1, mid2], dtype='int32'))
def write(self, dataset_name):
path = directories.PAIR_DATA + dataset_name + '/'
if not self.columns:
utils.rmkdir(path)
self.pair_indices.write(path)
self.pair_features.write(path)
self.y.write(path)
self.pair_ids.write(path)
def size(self):
return max(len(self.pair_indices.data),
len(self.pair_features.data),
len(self.y.data),
len(self.pair_ids.data))
class Dataset:
def __init__(self, dataset_name, model_props, word_vectors):
self.model_props = model_props
self.name = dataset_name
mentions_path = directories.MENTION_DATA + dataset_name + '/'
pair_path = directories.PAIR_DATA + dataset_name + '/'
docs_path = directories.DOC_DATA + dataset_name + '/'
self.words = np.load(mentions_path + 'mw.npy')
if not model_props.use_dep_reln:
self.words = self.words[:, :-1]
if self.model_props.use_spans:
self.spans = np.load(mentions_path + 'msp.npy')
if not model_props.use_doc_embedding:
self.spans[:, -self.spans.shape[1] / 5:] = 0
self.mention_features = np.load(mentions_path + 'mf.npy')
self.document_features = np.load(docs_path + 'df.npy')
self.pair_indices = np.load(pair_path + 'pi.npy')
self.pair_features = np.load(pair_path + 'pf.npy')[:, model_props.active_pair_features]
self.y = np.load(pair_path + 'y.npy')
self.doc_sizes = {}
doc_pairs = np.load(docs_path + 'dpi.npy')
doc_mentions = np.load(docs_path + 'dmi.npy')
for did in np.arange(doc_pairs.shape[0]):
ms, me = doc_mentions[did]
self.doc_sizes[did] = me - ms
mids = np.load(mentions_path + 'mid.npy')
dids = np.load(mentions_path + 'mdid.npy')
pids = np.hstack([dids[self.pair_indices[:, 0]],
mids[self.pair_indices[:, 0]],
mids[self.pair_indices[:, 1]]])
self.pair_ids_to_index = {tuple(pids[i]): i for i in range(pids.shape[0])}
self.mention_ids_to_index = {(dids[i, 0], mids[i, 0]): i for i in range(mids.size)}
self.word_vectors = np.asarray(word_vectors)
self.vector_size = self.word_vectors.shape[1]
def vectorize_mentions(self, did, ms):
res = self.featurize_mention([self.mention_ids_to_index[(did, m)] for m in ms], did), \
{m: i for i, m in enumerate(ms)}
return res
def vectorize_pairs(self, did, pairs):
pair_ids = {}
batch = []
for i, (m1, m2) in enumerate(pairs):
if (did, m1, m2) not in self.pair_ids_to_index:
m1, m2 = m2, m1
pair_ids[(m1, m2)] = pair_ids[(m2, m1)] = i
batch.append(self.pair_ids_to_index[(did, m1, m2)])
pair_indices = self.pair_indices[batch]
m1 = pair_indices[:, 0]
m2 = pair_indices[:, 1]
return self.featurize_pairs(m1, m2, batch, did), pair_ids
def get_vectors(self, words):
return np.vstack([np.reshape(self.word_vectors[words[i]],
(words.shape[1] * self.vector_size))
for i in range(words.shape[0])])
def featurize_mention(self, m, did):
return np.hstack([
self.spans[m],
self.get_vectors(self.words[m]),
get_dense_features_anaphoricity(
self.mention_features[m],
self.document_features[did],
self.doc_sizes[did],
self.model_props)])
def featurize_pairs(self, m1, m2, batch, did):
return np.hstack([
self.spans[m1],
self.get_vectors(self.words[m1]),
self.spans[m2],
self.get_vectors(self.words[m2]),
get_dense_features(self.mention_features[m1],
self.mention_features[m2],
self.pair_features[batch],
self.document_features[did],
self.doc_sizes[did],
self.model_props)])
class DocumentBatchedDataset:
"""
Shuffling and then iterating through all mention pairs in the dataset has two problems:
1. For the sake of efficiency we want to compute a representation for a mention (in our
case by looking up some word embeddings and applying a hidden layer) once for every
mention instead of once for every pair of mentions.
2. For mention-ranking models, all pairs involving the current candidate anaphor must be
in the same batch.
We deal with this by instead using each document as a batch, except for large documents, which
we split into chunks.
"""
def __init__(self, dataset_name, model_props, max_pairs=10000, with_ids=False):
self.name = dataset_name
self.model_props = model_props
self.with_ids = with_ids
self.anaphoricity = model_props.anaphoricity
self.anaphoricity_only = model_props.anaphoricity_only
mentions_path = directories.MENTION_DATA + dataset_name + '/'
pair_path = directories.PAIR_DATA + dataset_name + '/'
docs_path = directories.DOC_DATA + dataset_name + '/'
self.words = np.load(mentions_path + 'mw.npy')
if not self.model_props.use_dep_reln:
self.words = self.words[:, :-1]
if self.model_props.use_spans:
self.spans = np.load(mentions_path + 'msp.npy')
if not model_props.use_doc_embedding:
print(-self.spans.shape[1] / 5)
self.spans[:, -self.spans.shape[1] / 5:] = 0
self.mention_features = np.load(mentions_path + 'mf.npy')
self.document_features = np.load(docs_path + 'df.npy')
if not model_props.use_genre:
self.document_features = np.zeros((self.document_features.shape[0], 1))
self.pair_features = np.load(pair_path + 'pf.npy')[:, model_props.active_pair_features]
self.y = np.load(pair_path + 'y.npy')
if with_ids:
self.pair_ids = np.load(pair_path + 'pmid.npy')
self.mention_ids = np.load(mentions_path + 'mid.npy')
doc_pairs = np.load(docs_path + 'dpi.npy')
doc_mentions = np.load(docs_path + 'dmi.npy')
self.pair_nums = []
for did in np.arange(doc_pairs.shape[0]):
ms, me = doc_mentions[did]
if me != ms:
pair_antecedents = np.concatenate([np.arange(ana)
for ana in range(0, me - ms)])
pair_anaphors = np.concatenate([ana *
np.ones(ana, dtype='int32')
for ana in range(0, me - ms)])
self.pair_nums += [np.array(p) for p in zip(pair_antecedents, pair_anaphors)]
self.pair_nums = np.vstack(self.pair_nums)
self.doc_sizes = {}
self.n_pairs = 0
self.n_anaphors = 0
self.n_anaphoric_anaphors = 0
self.batches = []
timer.start("preprocess_dataset")
for did in np.arange(doc_pairs.shape[0]):
ps, pe = doc_pairs[did]
ms, me = doc_mentions[did]
min_anaphor = 1
min_pair = 0
self.n_anaphors += me - ms
self.doc_sizes[did] = me - ms
while min_anaphor < me - ms:
max_anaphor = min(new_max_anaphor(min_anaphor, max_pairs), me - ms)
max_pair = min(max_anaphor * (max_anaphor - 1) / 2, pe - ps)
mentions = np.arange(ms, ms + max_anaphor)
antecedents = np.arange(max_anaphor - 1)
anaphors = np.arange(min_anaphor, max_anaphor)
pairs = np.arange(ps + min_pair, ps + max_pair, dtype=int)
pair_antecedents = np.concatenate([np.arange(ana)
for ana in range(min_anaphor, max_anaphor)])
pair_anaphors = np.concatenate([(ana - min_anaphor) *
np.ones(ana, dtype='int32')
for ana in range(min_anaphor, max_anaphor)])
positive, negative = [], []
ana_to_pos, ana_to_neg = {}, {}
assert pair_anaphors.size == self.y[pairs].size
ys = self.y[pairs]
for i, (ana, y) in enumerate(zip(pair_anaphors, ys)):
labels = positive if y == 1 else negative
ana_to_ind = ana_to_pos if y == 1 else ana_to_neg
if ana not in ana_to_ind:
ana_to_ind[ana] = [len(labels), len(labels)]
else:
ana_to_ind[ana][1] = len(labels)
labels.append(i)
pos_starts, pos_ends, neg_starts, neg_ends = [], [], [], []
anaphoricities = []
for ana in range(0, max_anaphor - min_anaphor):
if ana in ana_to_pos:
start, end = ana_to_pos[ana]
pos_starts.append(start)
pos_ends.append(end + 1)
anaphoricities.append(1)
else:
anaphoricities.append(0)
if ana in ana_to_neg:
start, end = ana_to_neg[ana]
neg_starts.append(start)
neg_ends.append(end + 1)
starts, ends, costs = [], [], [],
reindex = []
pair_pos, anaphor_pos = 0, len(pairs)
i, j = 0, 0
for ana in range(0, max_anaphor - min_anaphor):
ana_labels = []
ana_reindex = []
start = i
for ant in range(0, ana + min_anaphor):
ana_labels.append(ys[j])
i += 1
j += 1
ana_reindex.append(pair_pos)
pair_pos += 1
if model_props.anaphoricity:
i += 1
ana_reindex.append(anaphor_pos)
anaphor_pos += 1
end = i
ana_labels = np.array(ana_labels)
anaphoric = ana_labels.sum() > 0
if (model_props.anaphoricity or anaphoric) and end > start + 1:
starts.append(start)
ends.append(end)
reindex += ana_reindex
self.n_anaphoric_anaphors += 1
else:
i = start
continue
assert anaphoric == anaphoricities[ana]
if model_props.anaphoricity:
if anaphoric:
ana_costs = np.append(model_props.WL * (ana_labels ^ 1), model_props.FN)
else:
ana_costs = np.append(model_props.FL * np.ones_like(ana_labels), 0)
else:
ana_costs = ana_labels ^ 1
costs += list(ana_costs)
reindex = np.array(reindex, dtype='int32')
self.batches.append((did, mentions, antecedents, anaphors,
pairs, pair_antecedents, pair_anaphors,
np.array(positive, dtype='int32'),
np.array(negative, dtype='int32'),
np.array(pos_starts, dtype='int32'),
np.array(pos_ends, dtype='int32'),
np.array(neg_starts, dtype='int32'),
np.array(neg_ends, dtype='int32'),
np.array(anaphoricities, dtype='int32'),
reindex,
np.array(starts, dtype='int32'),
np.array(ends, dtype='int32'),
np.array(costs, dtype='float32')))
self.n_pairs += len(pairs)
min_anaphor = max_anaphor
min_pair = max_pair
timer.stop("preprocess_dataset")
self.n_batches = len(self.batches)
self.pairs_per_batch = float(self.n_pairs) / self.n_batches
self.anaphoric_anaphors_per_batch = float(self.n_anaphoric_anaphors) / self.n_batches
self.anaphors_per_batch = float(self.n_anaphors) / self.n_batches
if model_props.ranking:
self.scale_factor = self.anaphors_per_batch if model_props.anaphoricity else \
self.anaphoric_anaphors_per_batch
elif model_props.top_pairs:
self.scale_factor = 10 * self.anaphors_per_batch
else:
self.scale_factor = self.pairs_per_batch
self.anaphoricity_scale_factor = 20 * self.anaphors_per_batch \
if self.model_props.top_pairs else 50 * self.anaphors_per_batch
def shuffle(self):
np.random.shuffle(self.batches)
def __iter__(self):
for batch in self.batches:
timer.start("minibatch_prep")
did, mentions, antecedents, anaphors,\
pairs, pair_antecedents, pair_anaphors,\
positive, negative,\
pos_starts, pos_ends, neg_starts, neg_ends,\
anaphoricities,\
reindex, starts, ends, costs = batch
document_features = self.document_features[did]
X = {}
X['words'] = self.words[mentions]
if self.model_props.use_spans:
X['spans'] = self.spans[mentions]
X['anaphors'] = anaphors[:, np.newaxis]
if not self.anaphoricity_only:
X['antecedents'] = antecedents[:, np.newaxis]
X['pair_antecedents'] = pair_antecedents[:, np.newaxis]
X['pair_anaphors'] = pair_anaphors[:, np.newaxis]
X['pair_features'] = get_dense_features(
self.mention_features[pair_antecedents + mentions[0]] + antecedents[0],
self.mention_features[pair_anaphors + mentions[0] + anaphors[0]],
self.pair_features[pairs], document_features, self.doc_sizes[did],
self.model_props)
if self.model_props.top_pairs:
X['score_inds'] = np.concatenate([positive, negative])[:, np.newaxis]
X['starts'] = np.concatenate([pos_starts, positive.size + neg_starts])[:, np.newaxis]
X['ends'] = np.concatenate([pos_ends, positive.size + neg_ends])[:, np.newaxis]
X['y'] = np.concatenate([np.ones(pos_starts.size),
np.zeros(neg_starts.size)])[:, np.newaxis]
elif self.model_props.ranking:
X['reindex'] = reindex[:, np.newaxis]
X['starts'] = starts[:, np.newaxis]
X['ends'] = ends[:, np.newaxis]
X['costs'] = costs[:, np.newaxis]
X['y'] = np.zeros((starts.size, 1))
if self.model_props.use_rewards:
X['cost_ptrs'] = costs
else:
X['y'] = self.y[pairs][:, np.newaxis]
if self.with_ids:
anaphor_ids = self.mention_ids[mentions][anaphors]
if self.model_props.ranking:
antecedent_ids = self.mention_ids[mentions][antecedents]
pair_antecedent_ids = antecedent_ids[pair_antecedents]
pair_anaphor_ids = anaphor_ids[pair_anaphors]
pair_ids = np.hstack([pair_antecedent_ids, pair_anaphor_ids])
anaphor_ids = np.hstack([-1 * np.ones_like(anaphor_ids), anaphor_ids])
all_ids = np.vstack([pair_ids, anaphor_ids])
X['ids'] = all_ids[reindex]
X['did'] = self.pair_ids[pairs][0, 0]
else:
X['ids'] = self.pair_ids[pairs]
X['anaphor_ids'] = anaphor_ids
if self.anaphoricity:
X['anaphoricities'] = anaphoricities[:, np.newaxis]
X['mention_features'] = get_dense_features_anaphoricity(
self.mention_features[mentions], document_features, self.doc_sizes[did],
self.model_props)
timer.stop("minibatch_prep")
yield X
def new_max_anaphor(n, k):
# find m such that sum from i=n to m-1 is < k
# i.e., total number of pairs with anaphor num between n and m (exclusive) < k
return max(1, int(np.floor(0.5 * (1 + np.sqrt(8 * k + 4 * n * n - 4 * n + 1)))))
def get_dense_features_anaphoricity(mention_features, document_features, doc_size, model_props):
fs = np.hstack(get_mention_features(mention_features, doc_size, model_props))
tiled = np.tile(document_features[np.newaxis, :], (fs.shape[0], 1))
return np.concatenate((fs, tiled), axis=1)
def get_dense_features(m1_features, m2_features, pair_features, document_features, doc_size,
model_props):
fs = np.hstack([pair_features] +
(get_distance_features(m1_features, m2_features)
if model_props.use_distance else []) +
get_mention_features(m1_features, doc_size, model_props) +
get_mention_features(m2_features, doc_size, model_props))
tiled = np.tile(document_features[np.newaxis, :], (fs.shape[0], 1))
return np.concatenate((fs, tiled), axis=1)
def get_mention_features(m, doc_size, model_props):
features = []
if model_props.use_mention_type:
features.append(one_hot(m[:, MENTION_TYPE], 4))
if model_props.use_length:
features.append(distance(np.subtract(m[:, END_INDEX] - m[:, START_INDEX], 1)))
if model_props.use_position:
features.append(m[:, MENTION_NUM][:, np.newaxis] / float(doc_size))
if model_props.use_distance:
features.append(m[:, CONTAINED][:, np.newaxis])
return features
def get_distance_features(m1, m2):
return [distance(m2[:, SENTENCE_NUM] - m1[:, SENTENCE_NUM]),
distance(np.subtract(m2[:, MENTION_NUM] - m1[:, MENTION_NUM], 1)),
((m2[:, SENTENCE_NUM] == m1[:, SENTENCE_NUM]) &
(m1[:, END_INDEX] > m2[:, START_INDEX]))[:, np.newaxis]]
def one_hot(a, n):
oh = np.zeros((a.size, n))
oh[np.arange(a.size), a] = 1
return oh
def distance(a):
d = np.zeros((a.size, 11))
d[a == 0, 0] = 1
d[a == 1, 1] = 1
d[a == 2, 2] = 1
d[a == 3, 3] = 1
d[a == 4, 4] = 1
d[(5 <= a) & (a < 8), 5] = 1
d[(8 <= a) & (a < 16), 6] = 1
d[(16 <= a) & (a < 32), 7] = 1
d[(a >= 32) & (a < 64), 8] = 1
d[a >= 64, 9] = 1
d[:, 10] = np.clip(a, 0, 64) / 64.0
return d