from __future__ import absolute_import from __future__ import division from __future__ import print_function from __future__ import unicode_literals from caffe2.python import core from hypothesis import given import caffe2.python.hypothesis_test_util as hu import hypothesis.strategies as st import numpy as np class TestElementwiseOps(hu.HypothesisTestCase): @given(n=st.integers(2, 10), m=st.integers(4, 6), d=st.integers(2, 3), **hu.gcs) def test_div(self, n, m, d, gc, dc): X = np.random.rand(n, m, d).astype(np.float32) Y = np.random.rand(n, m, d).astype(np.float32) + 5.0 def div_op(X, Y): return [np.divide(X, Y)] op = core.CreateOperator( "Div", ["X", "Y"], ["Z"] ) self.assertReferenceChecks( device_option=gc, op=op, inputs=[X, Y], reference=div_op, ) self.assertGradientChecks( gc, op, [X, Y], 0, [0], stepsize=1e-4, threshold=1e-2) @given(n=st.integers(5, 6), m=st.integers(4, 6), **hu.gcs) def test_log(self, n, m, gc, dc): X = np.random.rand(n, m).astype(np.float32) + 1.0 def log_op(X): return [np.log(X)] op = core.CreateOperator( "Log", ["X"], ["Z"] ) self.assertReferenceChecks( device_option=gc, op=op, inputs=[X], reference=log_op, ) self.assertGradientChecks( gc, op, [X], 0, [0], stepsize=1e-4, threshold=1e-2) @given(n=st.integers(5, 6), m=st.integers(4, 6), **hu.gcs) def test_sqr(self, n, m, gc, dc): X = np.random.rand(n, m).astype(np.float32) def sqr_op(X): return [np.square(X)] op = core.CreateOperator( "Sqr", ["X"], ["Z"] ) self.assertReferenceChecks( device_option=gc, op=op, inputs=[X], reference=sqr_op, ) self.assertGradientChecks( gc, op, [X], 0, [0], stepsize=1e-4, threshold=1e-2)