def test_min(self): """ (BasicCleaner) min area """ list1 = [Source(random.randn(20, 2)) for _ in range(10)] list2 = [Source(random.randn(5, 2)) for _ in range(20)] sources = list1 + list2 model = SourceModel(sources) c = BasicCleaner(minArea=10) newmodel = model.clean(c) assert(len(newmodel.sources) == 10)
def test_min(self): """ (BasicCleaner) min area """ list1 = [Source(random.randn(20, 2)) for _ in range(10)] list2 = [Source(random.randn(5, 2)) for _ in range(20)] sources = list1 + list2 model = SourceModel(sources) c = BasicCleaner(minArea=10) newmodel = model.clean(c) assert (len(newmodel.sources) == 10)
def test_min_max(self): """ (BasicCleaner) min and max area """ list1 = [Source(random.randn(20, 2)) for _ in range(10)] list2 = [Source(random.randn(10, 2)) for _ in range(20)] list3 = [Source(random.randn(15, 2)) for _ in range(5)] sources = list1 + list2 + list3 model = SourceModel(sources) c = BasicCleaner(minArea=11, maxArea=19) newmodel = model.clean(c) assert(len(newmodel.sources) == 5)
def test_min_max(self): """ (BasicCleaner) min and max area """ list1 = [Source(random.randn(20, 2)) for _ in range(10)] list2 = [Source(random.randn(10, 2)) for _ in range(20)] list3 = [Source(random.randn(15, 2)) for _ in range(5)] sources = list1 + list2 + list3 model = SourceModel(sources) c = BasicCleaner(minArea=11, maxArea=19) newmodel = model.clean(c) assert (len(newmodel.sources) == 5)