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"""Square box coder. |
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Square box coder follows the coding schema described below: |
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l = sqrt(h * w) |
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la = sqrt(ha * wa) |
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ty = (y - ya) / la |
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tx = (x - xa) / la |
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tl = log(l / la) |
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where x, y, w, h denote the box's center coordinates, width, and height, |
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respectively. Similarly, xa, ya, wa, ha denote the anchor's center |
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coordinates, width and height. tx, ty, tl denote the anchor-encoded |
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center, and length, respectively. Because the encoded box is a square, only |
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one length is encoded. |
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This has shown to provide performance improvements over the Faster RCNN box |
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coder when the objects being detected tend to be square (e.g. faces) and when |
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the input images are not distorted via resizing. |
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""" |
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import tensorflow as tf |
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from object_detection.core import box_coder |
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from object_detection.core import box_list |
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EPSILON = 1e-8 |
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class SquareBoxCoder(box_coder.BoxCoder): |
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"""Encodes a 3-scalar representation of a square box.""" |
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def __init__(self, scale_factors=None): |
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"""Constructor for SquareBoxCoder. |
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Args: |
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scale_factors: List of 3 positive scalars to scale ty, tx, and tl. |
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If set to None, does not perform scaling. For faster RCNN, |
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the open-source implementation recommends using [10.0, 10.0, 5.0]. |
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Raises: |
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ValueError: If scale_factors is not length 3 or contains values less than |
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or equal to 0. |
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""" |
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if scale_factors: |
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if len(scale_factors) != 3: |
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raise ValueError('The argument scale_factors must be a list of length ' |
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'3.') |
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if any(scalar <= 0 for scalar in scale_factors): |
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raise ValueError('The values in scale_factors must all be greater ' |
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'than 0.') |
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self._scale_factors = scale_factors |
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@property |
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def code_size(self): |
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return 3 |
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def _encode(self, boxes, anchors): |
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"""Encodes a box collection with respect to an anchor collection. |
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Args: |
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boxes: BoxList holding N boxes to be encoded. |
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anchors: BoxList of anchors. |
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Returns: |
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a tensor representing N anchor-encoded boxes of the format |
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[ty, tx, tl]. |
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""" |
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ycenter_a, xcenter_a, ha, wa = anchors.get_center_coordinates_and_sizes() |
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la = tf.sqrt(ha * wa) |
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ycenter, xcenter, h, w = boxes.get_center_coordinates_and_sizes() |
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l = tf.sqrt(h * w) |
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la += EPSILON |
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l += EPSILON |
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tx = (xcenter - xcenter_a) / la |
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ty = (ycenter - ycenter_a) / la |
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tl = tf.log(l / la) |
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if self._scale_factors: |
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ty *= self._scale_factors[0] |
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tx *= self._scale_factors[1] |
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tl *= self._scale_factors[2] |
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return tf.transpose(tf.stack([ty, tx, tl])) |
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def _decode(self, rel_codes, anchors): |
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"""Decodes relative codes to boxes. |
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Args: |
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rel_codes: a tensor representing N anchor-encoded boxes. |
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anchors: BoxList of anchors. |
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Returns: |
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boxes: BoxList holding N bounding boxes. |
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""" |
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ycenter_a, xcenter_a, ha, wa = anchors.get_center_coordinates_and_sizes() |
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la = tf.sqrt(ha * wa) |
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ty, tx, tl = tf.unstack(tf.transpose(rel_codes)) |
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if self._scale_factors: |
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ty /= self._scale_factors[0] |
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tx /= self._scale_factors[1] |
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tl /= self._scale_factors[2] |
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l = tf.exp(tl) * la |
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ycenter = ty * la + ycenter_a |
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xcenter = tx * la + xcenter_a |
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ymin = ycenter - l / 2. |
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xmin = xcenter - l / 2. |
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ymax = ycenter + l / 2. |
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xmax = xcenter + l / 2. |
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return box_list.BoxList(tf.transpose(tf.stack([ymin, xmin, ymax, xmax]))) |
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