def test_unequal_static_shape_raises_exception(self):
shape_a = tf.constant(np.zeros([4, 2, 2, 1]))
shape_b = tf.constant(np.zeros([4, 2, 3, 1]))
with self.assertRaisesRegexp(ValueError, 'Unequal shapes'):
shape_utils.assert_shape_equal(
shape_utils.combined_static_and_dynamic_shape(shape_a),
shape_utils.combined_static_and_dynamic_shape(shape_b))
def test_equal_static_shape_succeeds(self):
shape_a = tf.constant(np.zeros([4, 2, 2, 1]))
shape_b = tf.constant(np.zeros([4, 2, 2, 1]))
with self.test_session() as sess:
op = shape_utils.assert_shape_equal(
shape_utils.combined_static_and_dynamic_shape(shape_a),
shape_utils.combined_static_and_dynamic_shape(shape_b))
sess.run(op)
def test_equal_dynamic_shape_succeeds(self):
tensor_a = tf.placeholder(tf.float32, shape=[1, None, None, 3])
tensor_b = tf.placeholder(tf.float32, shape=[1, None, None, 3])
op = shape_utils.assert_shape_equal(
shape_utils.combined_static_and_dynamic_shape(tensor_a),
shape_utils.combined_static_and_dynamic_shape(tensor_b))
with self.test_session() as sess:
sess.run(op,
feed_dict={
tensor_a: np.zeros([1, 2, 2, 3]),
tensor_b: np.zeros([1, 2, 2, 3])
})
def test_unequal_dynamic_shape_raises_tf_assert(self):
tensor_a = tf.placeholder(tf.float32, shape=[1, None, None, 3])
tensor_b = tf.placeholder(tf.float32, shape=[1, None, None, 3])
op = shape_utils.assert_shape_equal(
shape_utils.combined_static_and_dynamic_shape(tensor_a),
shape_utils.combined_static_and_dynamic_shape(tensor_b))
with self.test_session() as sess:
with self.assertRaises(tf.errors.InvalidArgumentError):
sess.run(op,
feed_dict={
tensor_a: np.zeros([1, 2, 2, 3]),
tensor_b: np.zeros([1, 4, 4, 3])
})
def assign(self,
anchors,
groundtruth_boxes,
groundtruth_labels=None,
unmatched_class_label=None,
groundtruth_weights=None,
**params):
"""Assign classification and regression targets to each anchor.
For a given set of anchors and groundtruth detections, match anchors
to groundtruth_boxes and assign classification and regression targets to
each anchor as well as weights based on the resulting match (specifying,
e.g., which anchors should not contribute to training loss).
Anchors that are not matched to anything are given a classification target
of self._unmatched_cls_target which can be specified via the constructor.
Args:
anchors: a BoxList representing N anchors
groundtruth_boxes: a BoxList representing M groundtruth boxes
groundtruth_labels: a tensor of shape [M, d_1, ... d_k]
with labels for each of the ground_truth boxes. The subshape
[d_1, ... d_k] can be empty (corresponding to scalar inputs). When set
to None, groundtruth_labels assumes a binary problem where all
ground_truth boxes get a positive label (of 1).
unmatched_class_label: a float32 tensor with shape [d_1, d_2, ..., d_k]
which is consistent with the classification target for each
anchor (and can be empty for scalar targets). This shape must thus be
compatible with the groundtruth labels that are passed to the "assign"
function (which have shape [num_gt_boxes, d_1, d_2, ..., d_k]).
If set to None, unmatched_cls_target is set to be [0] for each anchor.
groundtruth_weights: a float tensor of shape [M] indicating the weight to
assign to all anchors match to a particular groundtruth box. The weights
must be in [0., 1.]. If None, all weights are set to 1.
**params: Additional keyword arguments for specific implementations of
the Matcher.
Returns:
cls_targets: a float32 tensor with shape [num_anchors, d_1, d_2 ... d_k],
where the subshape [d_1, ..., d_k] is compatible with groundtruth_labels
which has shape [num_gt_boxes, d_1, d_2, ... d_k].
cls_weights: a float32 tensor with shape [num_anchors]
reg_targets: a float32 tensor with shape [num_anchors, box_code_dimension]
reg_weights: a float32 tensor with shape [num_anchors]
match: a matcher.Match object encoding the match between anchors and
groundtruth boxes, with rows corresponding to groundtruth boxes
and columns corresponding to anchors.
Raises:
ValueError: if anchors or groundtruth_boxes are not of type
box_list.BoxList
"""
if not isinstance(anchors, box_list.BoxList):
raise ValueError('anchors must be an BoxList')
if not isinstance(groundtruth_boxes, box_list.BoxList):
raise ValueError('groundtruth_boxes must be an BoxList')
if unmatched_class_label is None:
unmatched_class_label = tf.constant([0], tf.float32)
if groundtruth_labels is None:
groundtruth_labels = tf.ones(
tf.expand_dims(groundtruth_boxes.num_boxes(), 0))
groundtruth_labels = tf.expand_dims(groundtruth_labels, -1)
unmatched_shape_assert = shape_utils.assert_shape_equal(
shape_utils.combined_static_and_dynamic_shape(groundtruth_labels)
[1:],
shape_utils.combined_static_and_dynamic_shape(
unmatched_class_label))
labels_and_box_shapes_assert = shape_utils.assert_shape_equal(
shape_utils.combined_static_and_dynamic_shape(groundtruth_labels)
[:1],
shape_utils.combined_static_and_dynamic_shape(
groundtruth_boxes.get())[:1])
if groundtruth_weights is None:
num_gt_boxes = groundtruth_boxes.num_boxes_static()
if not num_gt_boxes:
num_gt_boxes = groundtruth_boxes.num_boxes()
groundtruth_weights = tf.ones([num_gt_boxes], dtype=tf.float32)
# set scores on the gt boxes
scores = 1 - groundtruth_labels[:, 0]
groundtruth_boxes.add_field(fields.BoxListFields.scores, scores)
with tf.control_dependencies(
[unmatched_shape_assert, labels_and_box_shapes_assert]):
match_quality_matrix = self._similarity_calc.compare(
groundtruth_boxes, anchors)
match = self._matcher.match(match_quality_matrix, **params)
reg_targets = self._create_regression_targets(
anchors, groundtruth_boxes, match)
cls_targets = self._create_classification_targets(
groundtruth_labels, unmatched_class_label, match)
reg_weights = self._create_regression_weights(
match, groundtruth_weights)
cls_weights = self._create_classification_weights(
match, groundtruth_weights)
num_anchors = anchors.num_boxes_static()
if num_anchors is not None:
reg_targets = self._reset_target_shape(reg_targets, num_anchors)
cls_targets = self._reset_target_shape(cls_targets, num_anchors)
reg_weights = self._reset_target_shape(reg_weights, num_anchors)
cls_weights = self._reset_target_shape(cls_weights, num_anchors)
return cls_targets, cls_weights, reg_targets, reg_weights, match