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pointcnn.py
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pointcnn.py
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from __future__ import absolute_import
from __future__ import division
from __future__ import print_function
import math
import pointfly as pf
import tensorflow as tf
def xconv(pts, fts, qrs, tag, N, K, D, P, C, C_pts_fts, is_training, with_X_transformation, depth_multiplier,
sorting_method=None, with_global=False):
_, indices_dilated = pf.knn_indices_general(qrs, pts, K * D, True)
indices = indices_dilated[:, :, ::D, :]
if sorting_method is not None:
indices = pf.sort_points(pts, indices, sorting_method)
nn_pts = tf.gather_nd(pts, indices, name=tag + 'nn_pts') # (N, P, K, 3)
nn_pts_center = tf.expand_dims(qrs, axis=2, name=tag + 'nn_pts_center') # (N, P, 1, 3)
nn_pts_local = tf.subtract(nn_pts, nn_pts_center, name=tag + 'nn_pts_local') # (N, P, K, 3)
# Prepare features to be transformed
nn_fts_from_pts_0 = pf.dense(nn_pts_local, C_pts_fts, tag + 'nn_fts_from_pts_0', is_training)
nn_fts_from_pts = pf.dense(nn_fts_from_pts_0, C_pts_fts, tag + 'nn_fts_from_pts', is_training)
if fts is None:
nn_fts_input = nn_fts_from_pts
else:
nn_fts_from_prev = tf.gather_nd(fts, indices, name=tag + 'nn_fts_from_prev')
nn_fts_input = tf.concat([nn_fts_from_pts, nn_fts_from_prev], axis=-1, name=tag + 'nn_fts_input')
if with_X_transformation:
######################## X-transformation #########################
X_0 = pf.conv2d(nn_pts_local, K * K, tag + 'X_0', is_training, (1, K))
X_0_KK = tf.reshape(X_0, (N, P, K, K), name=tag + 'X_0_KK')
X_1 = pf.depthwise_conv2d(X_0_KK, K, tag + 'X_1', is_training, (1, K))
X_1_KK = tf.reshape(X_1, (N, P, K, K), name=tag + 'X_1_KK')
X_2 = pf.depthwise_conv2d(X_1_KK, K, tag + 'X_2', is_training, (1, K), activation=None)
X_2_KK = tf.reshape(X_2, (N, P, K, K), name=tag + 'X_2_KK')
fts_X = tf.matmul(X_2_KK, nn_fts_input, name=tag + 'fts_X')
###################################################################
else:
fts_X = nn_fts_input
fts_conv = pf.separable_conv2d(fts_X, C, tag + 'fts_conv', is_training, (1, K), depth_multiplier=depth_multiplier)
fts_conv_3d = tf.squeeze(fts_conv, axis=2, name=tag + 'fts_conv_3d')
if with_global:
fts_global_0 = pf.dense(qrs, C // 4, tag + 'fts_global_0', is_training)
fts_global = pf.dense(fts_global_0, C // 4, tag + 'fts_global', is_training)
return tf.concat([fts_global, fts_conv_3d], axis=-1, name=tag + 'fts_conv_3d_with_global')
else:
return fts_conv_3d
class PointCNN:
def __init__(self, points, features, is_training, setting):
xconv_params = setting.xconv_params
fc_params = setting.fc_params
with_X_transformation = setting.with_X_transformation
sorting_method = setting.sorting_method
N = tf.shape(points)[0]
if setting.sampling == 'fps':
from sampling import tf_sampling
self.layer_pts = [points]
if features is None:
self.layer_fts = [features]
else:
features = tf.reshape(features, (N, -1, setting.data_dim - 3), name='features_reshape')
C_fts = xconv_params[0]['C'] // 2
features_hd = pf.dense(features, C_fts, 'features_hd', is_training)
self.layer_fts = [features_hd]
for layer_idx, layer_param in enumerate(xconv_params):
tag = 'xconv_' + str(layer_idx + 1) + '_'
K = layer_param['K']
D = layer_param['D']
P = layer_param['P']
C = layer_param['C']
links = layer_param['links']
if setting.sampling != 'random' and links:
print('Error: flexible links are supported only when random sampling is used!')
exit()
# get k-nearest points
pts = self.layer_pts[-1]
fts = self.layer_fts[-1]
if P == -1 or (layer_idx > 0 and P == xconv_params[layer_idx - 1]['P']):
qrs = self.layer_pts[-1]
else:
if setting.sampling == 'fps':
fps_indices = tf_sampling.farthest_point_sample(P, pts)
batch_indices = tf.tile(tf.reshape(tf.range(N), (-1, 1, 1)), (1, P, 1))
indices = tf.concat([batch_indices, tf.expand_dims(fps_indices,-1)], axis=-1)
qrs = tf.gather_nd(pts, indices, name= tag + 'qrs') # (N, P, 3)
elif setting.sampling == 'ids':
indices = pf.inverse_density_sampling(pts, K, P)
qrs = tf.gather_nd(pts, indices)
elif setting.sampling == 'random':
qrs = tf.slice(pts, (0, 0, 0), (-1, P, -1), name=tag + 'qrs') # (N, P, 3)
else:
print('Unknown sampling method!')
exit()
self.layer_pts.append(qrs)
if layer_idx == 0:
C_pts_fts = C // 2 if fts is None else C // 4
depth_multiplier = 4
else:
C_prev = xconv_params[layer_idx - 1]['C']
C_pts_fts = C_prev // 4
depth_multiplier = math.ceil(C / C_prev)
with_global = (setting.with_global and layer_idx == len(xconv_params) - 1)
fts_xconv = xconv(pts, fts, qrs, tag, N, K, D, P, C, C_pts_fts, is_training, with_X_transformation,
depth_multiplier, sorting_method, with_global)
fts_list = []
for link in links:
fts_from_link = self.layer_fts[link]
if fts_from_link is not None:
fts_slice = tf.slice(fts_from_link, (0, 0, 0), (-1, P, -1), name=tag + 'fts_slice_' + str(-link))
fts_list.append(fts_slice)
if fts_list:
fts_list.append(fts_xconv)
self.layer_fts.append(tf.concat(fts_list, axis=-1, name=tag + 'fts_list_concat'))
else:
self.layer_fts.append(fts_xconv)
if hasattr(setting, 'xdconv_params'):
for layer_idx, layer_param in enumerate(setting.xdconv_params):
tag = 'xdconv_' + str(layer_idx + 1) + '_'
K = layer_param['K']
D = layer_param['D']
pts_layer_idx = layer_param['pts_layer_idx']
qrs_layer_idx = layer_param['qrs_layer_idx']
pts = self.layer_pts[pts_layer_idx + 1]
fts = self.layer_fts[pts_layer_idx + 1] if layer_idx == 0 else self.layer_fts[-1]
qrs = self.layer_pts[qrs_layer_idx + 1]
fts_qrs = self.layer_fts[qrs_layer_idx + 1]
P = xconv_params[qrs_layer_idx]['P']
C = xconv_params[qrs_layer_idx]['C']
C_prev = xconv_params[pts_layer_idx]['C']
C_pts_fts = C_prev // 4
depth_multiplier = 1
fts_xdconv = xconv(pts, fts, qrs, tag, N, K, D, P, C, C_pts_fts, is_training, with_X_transformation,
depth_multiplier, sorting_method)
fts_concat = tf.concat([fts_xdconv, fts_qrs], axis=-1, name=tag + 'fts_concat')
fts_fuse = pf.dense(fts_concat, C, tag + 'fts_fuse', is_training)
self.layer_pts.append(qrs)
self.layer_fts.append(fts_fuse)
self.fc_layers = [self.layer_fts[-1]]
for layer_idx, layer_param in enumerate(fc_params):
C = layer_param['C']
dropout_rate = layer_param['dropout_rate']
fc = pf.dense(self.fc_layers[-1], C, 'fc{:d}'.format(layer_idx), is_training)
fc_drop = tf.layers.dropout(fc, dropout_rate, training=is_training, name='fc{:d}_drop'.format(layer_idx))
self.fc_layers.append(fc_drop)