Delete mq2007 dataset. (#28995)

* Fix en doc for rnn.py. test=document_fix

* Delete mq2007 dataset.

python/paddle/dataset/__init__.py

@@ -24,7 +24,6 @@ import paddle.dataset.conll05
 import paddle.dataset.uci_housing
 import paddle.dataset.wmt14
 import paddle.dataset.wmt16
-import paddle.dataset.mq2007
 import paddle.dataset.flowers
 import paddle.dataset.voc2012
 import paddle.dataset.image

python/paddle/dataset/mq2007.py

-# Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserved
-#
-# Licensed under the Apache License, Version 2.0 (the "License");
-# you may not use this file except in compliance with the License.
-# You may obtain a copy of the License at
-#
-#     http://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS,
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-# See the License for the specific language governing permissions and
-# limitations under the License.
-"""
-MQ2007 dataset
-
-MQ2007 is a query set from Million Query track of TREC 2007. There are about 1700 queries in it with labeled documents. In MQ2007, the 5-fold cross
-validation strategy is adopted and the 5-fold partitions are included in the package. In each fold, there are three subsets for learning: training set,
-validation set and testing set.
-
-MQ2007 dataset from website
-http://research.microsoft.com/en-us/um/beijing/projects/letor/LETOR4.0/Data/MQ2007.rar and parse training set and test set into paddle reader creators
-
-"""
-
-from __future__ import print_function
-
-import os
-import functools
-from .common import download
-import numpy as np
-
-# URL = "http://research.microsoft.com/en-us/um/beijing/projects/letor/LETOR4.0/Data/MQ2007.rar"
-URL = "http://www.bigdatalab.ac.cn/benchmark/upload/download_source/7b6dbbe2-842c-11e4-a536-bcaec51b9163_MQ2007.rar"
-MD5 = "7be1640ae95c6408dab0ae7207bdc706"
-
-
-def __initialize_meta_info__():
-    """
-  download and extract the MQ2007 dataset
-  """
-    import rarfile
-
-    fn = fetch()
-    rar = rarfile.RarFile(fn)
-    dirpath = os.path.dirname(fn)
-    rar.extractall(path=dirpath)
-    return dirpath
-
-
-class Query(object):
-    """
-  queries used for learning to rank algorithms. It is created from relevance scores,  query-document feature vectors
-
-  Parameters:
-  ----------
-  query_id : int
-    query_id in dataset, mapping from query to relevance documents
-  relevance_score : int
-    relevance score of query and document pair
-  feature_vector : array, dense feature
-    feature in vector format
-  description : string
-    comment section in query doc pair data
-  """
-
-    def __init__(self,
-                 query_id=-1,
-                 relevance_score=-1,
-                 feature_vector=None,
-                 description=""):
-        self.query_id = query_id
-        self.relevance_score = relevance_score
-        if feature_vector is None:
-            self.feature_vector = []
-        else:
-            self.feature_vector = feature_vector
-        self.description = description
-
-    def __str__(self):
-        string = "%s %s %s" % (str(self.relevance_score), str(self.query_id),
-                               " ".join(str(f) for f in self.feature_vector))
-        return string
-
-    # @classmethod
-    def _parse_(self, text):
-        """
-    parse line into Query
-    """
-        comment_position = text.find('#')
-        line = text[:comment_position].strip()
-        self.description = text[comment_position + 1:].strip()
-        parts = line.split()
-        if len(parts) != 48:
-            sys.stdout.write("expect 48 space split parts, get %d" %
-                             (len(parts)))
-            return None
-        # format : 0 qid:10 1:0.000272 2:0.000000 ....
-        self.relevance_score = int(parts[0])
-        self.query_id = int(parts[1].split(':')[1])
-        for p in parts[2:]:
-            pair = p.split(':')
-            self.feature_vector.append(float(pair[1]))
-        return self
-
-
-class QueryList(object):
-    """
-  group query into list, every item in list is a Query
-  """
-
-    def __init__(self, querylist=None):
-        self.query_id = -1
-        if querylist is None:
-            self.querylist = []
-        else:
-            self.querylist = querylist
-            for query in self.querylist:
-                if self.query_id == -1:
-                    self.query_id = query.query_id
-                else:
-                    if self.query_id != query.query_id:
-                        raise ValueError("query in list must be same query_id")
-
-    def __iter__(self):
-        for query in self.querylist:
-            yield query
-
-    def __len__(self):
-        return len(self.querylist)
-
-    def __getitem__(self, i):
-        return self.querylist[i]
-
-    def _correct_ranking_(self):
-        if self.querylist is None:
-            return
-        self.querylist.sort(key=lambda x: x.relevance_score, reverse=True)
-
-    def _add_query(self, query):
-        if self.query_id == -1:
-            self.query_id = query.query_id
-        else:
-            if self.query_id != query.query_id:
-                raise ValueError("query in list must be same query_id")
-        self.querylist.append(query)
-
-
-def gen_plain_txt(querylist):
-    """
-  gen plain text in list for other usage
-  Paramters:
-  --------
-  querylist : querylist, one query match many document pairs in list, see QueryList
-
-  return :
-  ------
-  query_id : np.array, shape=(samples_num, )
-  label : np.array, shape=(samples_num, )
-  querylist : np.array, shape=(samples_num, feature_dimension)
-    """
-    if not isinstance(querylist, QueryList):
-        querylist = QueryList(querylist)
-    querylist._correct_ranking_()
-    for query in querylist:
-        yield querylist.query_id, query.relevance_score, np.array(
-            query.feature_vector)
-
-
-def gen_point(querylist):
-    """
-  gen item in list for point-wise learning to rank algorithm
-  Paramters:
-  --------
-  querylist : querylist, one query match many document pairs in list, see QueryList
-
-  return :
-  ------
-  label : np.array, shape=(samples_num, )
-  querylist : np.array, shape=(samples_num, feature_dimension)
-  """
-    if not isinstance(querylist, QueryList):
-        querylist = QueryList(querylist)
-    querylist._correct_ranking_()
-    for query in querylist:
-        yield query.relevance_score, np.array(query.feature_vector)
-
-
-def gen_pair(querylist, partial_order="full"):
-    """
-  gen pair for pair-wise learning to rank algorithm
-  Paramters:
-  --------
-  querylist : querylist, one query match many document pairs in list, see QueryList
-  pairtial_order : "full" or "neighbour"
-    there is redundant in all possible pair combinations, which can be simplified
-  gen pairs for neighbour items or the full partial order pairs
-
-  return :
-  ------
-  label : np.array, shape=(1)
-  query_left : np.array, shape=(1, feature_dimension)
-  query_right : same as left
-  """
-    if not isinstance(querylist, QueryList):
-        querylist = QueryList(querylist)
-    querylist._correct_ranking_()
-    labels = []
-    docpairs = []
-
-    # C(n,2)
-    for i in range(len(querylist)):
-        query_left = querylist[i]
-        for j in range(i + 1, len(querylist)):
-            query_right = querylist[j]
-            if query_left.relevance_score > query_right.relevance_score:
-                labels.append([1])
-                docpairs.append([
-                    np.array(query_left.feature_vector),
-                    np.array(query_right.feature_vector)
-                ])
-            elif query_left.relevance_score < query_right.relevance_score:
-                labels.append([1])
-                docpairs.append([
-                    np.array(query_right.feature_vector),
-                    np.array(query_left.feature_vector)
-                ])
-    for label, pair in zip(labels, docpairs):
-        yield np.array(label), pair[0], pair[1]
-
-
-def gen_list(querylist):
-    """
-  gen item in list for list-wise learning to rank algorithm
-  Paramters:
-  --------
-  querylist : querylist, one query match many document pairs in list, see QueryList
-
-  return :
-  ------
-  label : np.array, shape=(samples_num, )
-  querylist : np.array, shape=(samples_num, feature_dimension)
-  """
-    if not isinstance(querylist, QueryList):
-        querylist = QueryList(querylist)
-    querylist._correct_ranking_()
-    relevance_score_list = [[query.relevance_score] for query in querylist]
-    feature_vector_list = [query.feature_vector for query in querylist]
-    yield np.array(relevance_score_list), np.array(feature_vector_list)
-
-
-def query_filter(querylists):
-    """
-    filter query get only document with label 0.
-    label 0, 1, 2 means the relevance score document with query
-    parameters :
-      querylist : QueyList list
-
-    return :
-      querylist : QueyList list
-    """
-    filter_query = []
-    for querylist in querylists:
-        relevance_score_list = [query.relevance_score for query in querylist]
-        if sum(relevance_score_list) != .0:
-            filter_query.append(querylist)
-    return filter_query
-
-
-def load_from_text(filepath, shuffle=False, fill_missing=-1):
-    """
-  parse data file into queries
-  """
-    prev_query_id = -1
-    querylists = []
-    querylist = None
-    fn = __initialize_meta_info__()
-    with open(os.path.join(fn, filepath)) as f:
-        for line in f:
-            query = Query()
-            query = query._parse_(line)
-            if query == None:
-                continue
-            if query.query_id != prev_query_id:
-                if querylist is not None:
-                    querylists.append(querylist)
-                querylist = QueryList()
-                prev_query_id = query.query_id
-            querylist._add_query(query)
-    if querylist is not None:
-        querylists.append(querylist)
-    return querylists
-
-
-def __reader__(filepath, format="pairwise", shuffle=False, fill_missing=-1):
-    """
-  Parameters
-  --------
-  filename : string
-  fill_missing : fill the missing value. default in MQ2007 is -1
-
-  Returns
-  ------
-  yield
-    label query_left, query_right  # format = "pairwise"
-    label querylist # format = "listwise"
-  """
-    querylists = query_filter(
-        load_from_text(
-            filepath, shuffle=shuffle, fill_missing=fill_missing))
-    for querylist in querylists:
-        if format == "plain_txt":
-            yield next(gen_plain_txt(querylist))
-        elif format == "pointwise":
-            yield next(gen_point(querylist))
-        elif format == "pairwise":
-            for pair in gen_pair(querylist):
-                yield pair
-        elif format == "listwise":
-            yield next(gen_list(querylist))
-
-
-train = functools.partial(__reader__, filepath="MQ2007/MQ2007/Fold1/train.txt")
-test = functools.partial(__reader__, filepath="MQ2007/MQ2007/Fold1/test.txt")
-
-
-def fetch():
-    return download(URL, "MQ2007", MD5)
-
-
-if __name__ == "__main__":
-    fetch()
-    mytest = functools.partial(
-        __reader__, filepath="MQ2007/MQ2007/Fold1/sample", format="listwise")
-    for label, query in mytest():
-        print(label, query)

python/paddle/dataset/tests/mq2007_test.py

-# Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserved
-#
-# Licensed under the Apache License, Version 2.0 (the "License");
-# you may not use this file except in compliance with the License.
-# You may obtain a copy of the License at
-#
-#     http://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS,
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-# See the License for the specific language governing permissions and
-# limitations under the License.
-
-from __future__ import print_function
-
-import paddle.dataset.mq2007
-import unittest
-
-
-class TestMQ2007(unittest.TestCase):
-    def test_pairwise(self):
-        for label, query_left, query_right in paddle.dataset.mq2007.test(
-                format="pairwise"):
-            self.assertEqual(query_left.shape(), (46, ))
-            self.assertEqual(query_right.shape(), (46, ))
-
-    def test_listwise(self):
-        for label_array, query_array in paddle.dataset.mq2007.test(
-                format="listwise"):
-            self.assertEqual(len(label_array), len(query_array))
-
-
-if __name__ == "__main__":
-    unittest.main()