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f590bc0da6
This patch addresses warning messages from pytest re: the imported
TestMatrix, TestVector, and TestDimension classes, which were being
collected as potential test classes. The fix was to simply prepend
the class names with Impala-
git grep -l 'TestDimension' | xargs \
sed -i 's/TestDimension/ImpalaTestDimension/g'
git grep -l 'TestMatrix' | xargs \
sed -i 's/TestMatrix/ImpalaTestMatrix/g'
git grep -l 'TestVector' | xargs \
sed -i 's/TestVector/ImpalaTestVector/g'
The tests all passed in an exhaustive run on the upstream jenkins
server:
http://jenkins.impala.io:8080/view/Utility/job/pre-review-test/8/
Change-Id: I06b7bc6fd99fbb637a47ba376bf9830705c1fce1
Reviewed-on: http://gerrit.cloudera.org:8080/5794
Reviewed-by: Michael Brown <mikeb@cloudera.com>
Reviewed-by: Jim Apple <jbapple-impala@apache.org>
Tested-by: Impala Public Jenkins
157 lines
6.2 KiB
Python
157 lines
6.2 KiB
Python
# Licensed to the Apache Software Foundation (ASF) under one
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# or more contributor license agreements. See the NOTICE file
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# distributed with this work for additional information
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# regarding copyright ownership. The ASF licenses this file
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# to you under the Apache License, Version 2.0 (the
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# "License"); you may not use this file except in compliance
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# with the License. You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing,
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# software distributed under the License is distributed on an
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# "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
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# KIND, either express or implied. See the License for the
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# specific language governing permissions and limitations
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# under the License.
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# A TextMatrix is used to generate a set of ImpalaTestVectors. The vectors that are
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# generated are based on one or more ImpalaTestDimensions inputs. These lists define
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# the set of values that are interesting to a test. For example, for file_format
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# these might be 'seq', 'text', etc
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#
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# The ImpalaTestMatrix is then used to generate a set of ImpalaTestVectors. Each
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# ImpalaTestVector contains a single value from each of the input ImpalaTestDimensions.
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# An example:
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#
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# ImpalaTestMatrix.add_dimension('file_format', 'seq', 'text')
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# ImpalaTestMatrix.add_dimension('agg_func', 'min', 'max', 'sum')
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# ImpalaTestMatrix.add_dimension('col_type', 'int', 'bool')
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# test_vectors = ImpalaTestMatrix.generate_test_vectors(...)
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#
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# Would return a collection of ImpalaTestVectors, with each one containing a
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# combination of file_format, agg_func, and col_type:
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# seq, min, int
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# text, max, bool
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# ...
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#
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# A ImpalaTestVector is an object itself, and the 'get_value' function is used to
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# extract the actual value from the ImpalaTestVector for this particular combination:
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# test_vector = test_vectors[0]
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# print test_vector.get_value('file_format')
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#
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# The combinations of ImpalaTestVectors generated can be done in two ways: pairwise
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# and exhaustive. Pairwise provides a way to get good coverage and reduce the total
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# number of combinations generated where exhaustive will generate all valid
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# combinations.
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#
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# Finally, the ImpalaTestMatrix also provides a way to add constraints to the vectors
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# that are generated. This is useful to filter out invalid combinations. These can
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# be added before calling 'generate_test_vectors'. The constraint is a function that
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# accepts a ImpalaTestVector object and returns true if the vector is valid, false
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# otherwise. For example, if we want to make sure 'bool' columns are not used with 'sum':
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#
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# ImpalaTestMatrix.add_constraint(lambda v:\
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# not (v.get_value('col_type') == 'bool and v.get_value('agg_func') == 'sum'))
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#
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# Additional examples of usage can be found within the test suites.
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from itertools import product
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# A list of test dimension values.
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class ImpalaTestDimension(list):
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def __init__(self, name, *args):
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self.name = name
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self.extend([ImpalaTestVector.Value(name, arg) for arg in args])
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# A test vector that passed to test method. The ImpalaTestVector can be used to
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# extract values for the specified dimension(s)
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class ImpalaTestVector(object):
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def __init__(self, vector_values):
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self.vector_values = vector_values
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def get_value(self, name):
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return next(vector_value for vector_value in self.vector_values\
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if vector_value.name == name).value
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def __str__(self):
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return ' | '.join(['%s' % vector_value for vector_value in self.vector_values])
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# Each value in a test vector is wrapped in the Value object. This wrapping is
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# done internally so this object should never need to be created by the user.
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class Value(object):
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def __init__(self, name, value):
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self.name = name
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self.value = value
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def __str__(self):
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return '%s: %s' % (self.name, self.value)
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# Matrix -> Collection of vectors
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# Vector -> Call to get specific values
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class ImpalaTestMatrix(object):
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def __init__(self, *args):
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self.dimensions = dict((arg.name, arg) for arg in args)
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self.constraint_list = list()
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def add_dimension(self, dimension):
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self.dimensions[dimension.name] = dimension
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def clear(self):
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self.dimensions.clear()
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def clear_dimension(self, dimension_name):
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del self.dimensions[dimension_name]
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def has_dimension(self, dimension_name):
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return self.dimensions.has_key(dimension_name)
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def generate_test_vectors(self, exploration_strategy):
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if not self.dimensions:
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return list()
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# TODO: Check valid exploration strategies, provide more options for exploration
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if exploration_strategy == 'exhaustive':
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return self.__generate_exhaustive_combinations()
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elif exploration_strategy in ['core', 'pairwise']:
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return self.__generate_pairwise_combinations()
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else:
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raise ValueError, 'Unknown exploration strategy: %s' % exploration_strategy
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def __generate_exhaustive_combinations(self):
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return [ImpalaTestVector(vec) for vec in product(*self.__extract_vector_values())
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if self.is_valid(vec)]
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def __generate_pairwise_combinations(self):
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import metacomm.combinatorics.all_pairs2
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all_pairs = metacomm.combinatorics.all_pairs2.all_pairs2
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# Pairwise fails if the number of inputs == 1. Use exhaustive in this case the
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# results will be the same.
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if len(self.dimensions) == 1:
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return self.__generate_exhaustive_combinations()
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return [ImpalaTestVector(vec) for vec in all_pairs(self.__extract_vector_values(),
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filter_func = self.is_valid)]
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def add_constraint(self, constraint_func):
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self.constraint_list.append(constraint_func)
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def clear_constraints(self):
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self.constraint_list = list()
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def __extract_vector_values(self):
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# The data is stored as a tuple of (name, [val1, val2, val3]). So extract the
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# actual values from this
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return [v[1] for v in self.dimensions.items()]
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def is_valid(self, vector):
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for constraint in self.constraint_list:
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if (isinstance(vector, list) or isinstance(vector, tuple)) and\
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len(vector) == len(self.dimensions):
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valid = constraint(ImpalaTestVector(vector))
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if valid:
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continue
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return False
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return True
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