def testModelVariables(self): batch_size = 5 height, width = 224, 224 num_classes = 1000 with self.cached_session(): inputs = random_ops.random_uniform((batch_size, height, width, 3)) vgg.vgg_a(inputs, num_classes) expected_names = [ 'vgg_a/conv1/conv1_1/weights', 'vgg_a/conv1/conv1_1/biases', 'vgg_a/conv2/conv2_1/weights', 'vgg_a/conv2/conv2_1/biases', 'vgg_a/conv3/conv3_1/weights', 'vgg_a/conv3/conv3_1/biases', 'vgg_a/conv3/conv3_2/weights', 'vgg_a/conv3/conv3_2/biases', 'vgg_a/conv4/conv4_1/weights', 'vgg_a/conv4/conv4_1/biases', 'vgg_a/conv4/conv4_2/weights', 'vgg_a/conv4/conv4_2/biases', 'vgg_a/conv5/conv5_1/weights', 'vgg_a/conv5/conv5_1/biases', 'vgg_a/conv5/conv5_2/weights', 'vgg_a/conv5/conv5_2/biases', 'vgg_a/fc6/weights', 'vgg_a/fc6/biases', 'vgg_a/fc7/weights', 'vgg_a/fc7/biases', 'vgg_a/fc8/weights', 'vgg_a/fc8/biases', ] model_variables = [ v.op.name for v in variables_lib.get_model_variables() ] self.assertSetEqual(set(model_variables), set(expected_names))
def testForward(self): batch_size = 1 height, width = 224, 224 with self.cached_session() as sess: inputs = random_ops.random_uniform((batch_size, height, width, 3)) logits, _ = vgg.vgg_a(inputs) sess.run(variables.global_variables_initializer()) output = sess.run(logits) self.assertTrue(output.any())
def testFullyConvolutional(self): batch_size = 1 height, width = 256, 256 num_classes = 1000 with self.cached_session(): inputs = random_ops.random_uniform((batch_size, height, width, 3)) logits, _ = vgg.vgg_a(inputs, num_classes, spatial_squeeze=False) self.assertEquals(logits.op.name, 'vgg_a/fc8/BiasAdd') self.assertListEqual(logits.get_shape().as_list(), [batch_size, 2, 2, num_classes])
def testBuild(self): batch_size = 5 height, width = 224, 224 num_classes = 1000 with self.cached_session(): inputs = random_ops.random_uniform((batch_size, height, width, 3)) logits, _ = vgg.vgg_a(inputs, num_classes) self.assertEquals(logits.op.name, 'vgg_a/fc8/squeezed') self.assertListEqual(logits.get_shape().as_list(), [batch_size, num_classes])
def testEvaluation(self): batch_size = 2 height, width = 224, 224 num_classes = 1000 with self.cached_session(): eval_inputs = random_ops.random_uniform( (batch_size, height, width, 3)) logits, _ = vgg.vgg_a(eval_inputs, is_training=False) self.assertListEqual(logits.get_shape().as_list(), [batch_size, num_classes]) predictions = math_ops.argmax(logits, 1) self.assertListEqual(predictions.get_shape().as_list(), [batch_size])
def testTrainEvalWithReuse(self): train_batch_size = 2 eval_batch_size = 1 train_height, train_width = 224, 224 eval_height, eval_width = 256, 256 num_classes = 1000 with self.cached_session(): train_inputs = random_ops.random_uniform( (train_batch_size, train_height, train_width, 3)) logits, _ = vgg.vgg_a(train_inputs) self.assertListEqual(logits.get_shape().as_list(), [train_batch_size, num_classes]) variable_scope.get_variable_scope().reuse_variables() eval_inputs = random_ops.random_uniform( (eval_batch_size, eval_height, eval_width, 3)) logits, _ = vgg.vgg_a(eval_inputs, is_training=False, spatial_squeeze=False) self.assertListEqual(logits.get_shape().as_list(), [eval_batch_size, 2, 2, num_classes]) logits = math_ops.reduce_mean(logits, [1, 2]) predictions = math_ops.argmax(logits, 1) self.assertEquals(predictions.get_shape().as_list(), [eval_batch_size])
def testEndPoints(self): batch_size = 5 height, width = 224, 224 num_classes = 1000 for is_training in [True, False]: with ops.Graph().as_default(): inputs = random_ops.random_uniform( (batch_size, height, width, 3)) _, end_points = vgg.vgg_a(inputs, num_classes, is_training=is_training) expected_names = [ 'vgg_a/conv1/conv1_1', 'vgg_a/pool1', 'vgg_a/conv2/conv2_1', 'vgg_a/pool2', 'vgg_a/conv3/conv3_1', 'vgg_a/conv3/conv3_2', 'vgg_a/pool3', 'vgg_a/conv4/conv4_1', 'vgg_a/conv4/conv4_2', 'vgg_a/pool4', 'vgg_a/conv5/conv5_1', 'vgg_a/conv5/conv5_2', 'vgg_a/pool5', 'vgg_a/fc6', 'vgg_a/fc7', 'vgg_a/fc8' ] self.assertSetEqual(set(end_points.keys()), set(expected_names))