From e8e97e41ec56e56e89e607db57e10ca9e3faa30c Mon Sep 17 00:00:00 2001 From: leondgarse Date: Mon, 19 Jul 2021 14:21:30 +0800 Subject: [PATCH] update backbones --- backbones/botnet.py | 286 ++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 286 insertions(+) create mode 100644 backbones/botnet.py diff --git a/backbones/botnet.py b/backbones/botnet.py new file mode 100644 index 0000000..387b52f --- /dev/null +++ b/backbones/botnet.py @@ -0,0 +1,286 @@ +""" +A Keras version of `botnet`. +Original TensorFlow version: https://gist.github.com/aravindsrinivas/56359b79f0ce4449bcb04ab4b56a57a2 +""" + +import tensorflow as tf +from tensorflow import keras +from tensorflow.keras import layers +from tensorflow.python.keras import backend + +BATCH_NORM_DECAY = 0.9 +BATCH_NORM_EPSILON = 1e-5 + + +@tf.keras.utils.register_keras_serializable(package="Custom") +class MHSAWithPositionEmbedding(keras.layers.MultiHeadAttention): + def __init__(self, num_heads=4, bottleneck_dimension=512, relative=True, **kwargs): + self.key_dim = bottleneck_dimension // num_heads + super(MHSAWithPositionEmbedding, self).__init__(num_heads=num_heads, key_dim=self.key_dim, **kwargs) + self.num_heads, self.bottleneck_dimension, self.relative = num_heads, bottleneck_dimension, relative + + def _build_from_signature(self, query, value, key=None): + super(MHSAWithPositionEmbedding, self)._build_from_signature(query=query, value=value) + if hasattr(query, "shape"): + _, hh, ww, _ = query.shape + else: + _, hh, ww, _ = query + stddev = self.key_dim ** -0.5 + + if self.relative: + # Relative positional embedding + pos_emb_w_shape = (self.key_dim, 2 * ww - 1) + pos_emb_h_shape = (self.key_dim, 2 * hh - 1) + else: + # Absolute positional embedding + pos_emb_w_shape = (self.key_dim, ww) + pos_emb_h_shape = (self.key_dim, hh) + + self.pos_emb_w = self.add_weight( + name="r_width", + shape=pos_emb_w_shape, + initializer=tf.random_normal_initializer(stddev=stddev), + trainable=True, + ) + self.pos_emb_h = self.add_weight( + name="r_height", + shape=pos_emb_h_shape, + initializer=tf.random_normal_initializer(stddev=stddev), + trainable=True, + ) + + def get_config(self): + base_config = super(MHSAWithPositionEmbedding, self).get_config() + base_config.pop("key_dim", None) + base_config.update({"num_heads": self.num_heads, "bottleneck_dimension": self.bottleneck_dimension, "relative": self.relative}) + return base_config + + def rel_to_abs(self, rel_pos): + """ + Converts relative indexing to absolute. + Input: [bs, heads, height, width, 2*width - 1] + Output: [bs, heads, height, width, width] + """ + _, heads, hh, ww, dim = rel_pos.shape # [bs, heads, height, width, 2 * width - 1] + # [bs, heads, height, width * (2 * width - 1)] --> [bs, heads, height, width * (2 * width - 1) - width] + flat_x = tf.reshape(rel_pos, [-1, heads, hh, ww * (ww * 2 - 1)])[:, :, :, ww - 1 : -1] + # [bs, heads, height, width, 2 * (width - 1)] --> [bs, heads, height, width, width] + return tf.reshape(flat_x, [-1, heads, hh, ww, 2 * (ww - 1)])[:, :, :, :, :ww] + + def relative_logits(self, query): + query_w = tf.transpose(query, [0, 3, 1, 2, 4]) # e.g.: [1, 4, 14, 16, 128], [bs, heads, hh, ww, dims] + rel_logits_w = tf.matmul(query_w, self.pos_emb_w) # [1, 4, 14, 16, 31], 2 * 16 - 1 == 31 + rel_logits_w = self.rel_to_abs(rel_logits_w) # [1, 4, 14, 16, 16] + + query_h = tf.transpose(query, [0, 3, 2, 1, 4]) # [1, 4, 16, 14, 128], [bs, heads, ww, hh, dims], Exchange `ww` and `hh` + rel_logits_h = tf.matmul(query_h, self.pos_emb_h) # [1, 4, 16, 14, 27], 2 * 14 - 1 == 27 + rel_logits_h = self.rel_to_abs(rel_logits_h) # [1, 4, 16, 14, 14] + rel_logits_h = tf.transpose(rel_logits_h, [0, 1, 3, 2, 4]) # [1, 4, 14, 16, 14], transpose back + + return tf.expand_dims(rel_logits_w, axis=-2) + tf.expand_dims(rel_logits_h, axis=-1) # [1, 4, 14, 16, 14, 16] + + def absolute_logits(self, query): + pos_emb = tf.expand_dims(self.pos_emb_h, 2) + tf.expand_dims(self.pos_emb_w, 1) + abs_logits = tf.einsum("bxyhd,dpq->bhxypq", query, pos_emb) + return abs_logits + + def call(self, inputs, attention_mask=None, return_attention_scores=False, training=None): + if not self._built_from_signature: + self._build_from_signature(query=inputs, value=inputs) + # N = `num_attention_heads` + # H = `size_per_head` + # `query` = [B, T, N ,H] + query = self._query_dense(inputs) + + # `key` = [B, S, N, H] + key = self._key_dense(inputs) + + # `value` = [B, S, N, H] + value = self._value_dense(inputs) + + query = tf.multiply(query, 1.0 / tf.math.sqrt(float(self._key_dim))) + attention_scores = tf.einsum(self._dot_product_equation, key, query) + if self.relative: + # Add relative positional embedding + attention_scores += self.relative_logits(query) + else: + # Add absolute positional embedding + attention_scores += self.absolute_logits(query) + + attention_scores = self._masked_softmax(attention_scores, attention_mask) + attention_scores_dropout = self._dropout_layer(attention_scores, training=training) + attention_output = tf.einsum(self._combine_equation, attention_scores_dropout, value) + + # attention_output = self._output_dense(attention_output) + hh, ww = inputs.shape[1], inputs.shape[2] + attention_output = tf.reshape(attention_output, [-1, hh, ww, self.num_heads * self.key_dim]) + + if return_attention_scores: + return attention_output, attention_scores + return attention_output + + def load_resized_pos_emb(self, source_layer): + # For input 224 --> [128, 27], convert to 480 --> [128, 30] + image_like_w = tf.expand_dims(tf.transpose(source_layer.pos_emb_w, [1, 0]), 0) + resize_w = tf.image.resize(image_like_w, (1, self.pos_emb_w.shape[1]))[0] + self.pos_emb_w.assign(tf.transpose(resize_w, [1, 0])) + + image_like_h = tf.expand_dims(tf.transpose(source_layer.pos_emb_h, [1, 0]), 0) + resize_h = tf.image.resize(image_like_h, (1, self.pos_emb_h.shape[1]))[0] + self.pos_emb_h.assign(tf.transpose(resize_h, [1, 0])) + + +def batchnorm_with_activation(inputs, activation="relu", zero_gamma=False, name=""): + """Performs a batch normalization followed by an activation. """ + bn_axis = 3 if backend.image_data_format() == "channels_last" else 1 + gamma_initializer = tf.zeros_initializer() if zero_gamma else tf.ones_initializer() + nn = layers.BatchNormalization( + axis=bn_axis, + momentum=BATCH_NORM_DECAY, + epsilon=BATCH_NORM_EPSILON, + gamma_initializer=gamma_initializer, + name=name + "bn", + )(inputs) + if activation: + nn = layers.Activation(activation=activation, name=name + activation)(nn) + return nn + + +def conv2d_no_bias(inputs, filters, kernel_size, strides=1, padding="VALID", name=""): + if padding == "SAME": + inputs = layers.ZeroPadding2D(padding=kernel_size // 2, name=name + "pad")(inputs) + return layers.Conv2D(filters, kernel_size, strides=strides, padding="VALID", use_bias=False, name=name + "conv")(inputs) + + +def bot_block( + featuremap, + heads=4, + proj_factor=4, + activation="relu", + relative_pe=True, + strides=1, + target_dimension=2048, + name="all2all", + use_MHSA=True, +): + if strides != 1 or featuremap.shape[-1] != target_dimension: + # padding = "SAME" if strides == 1 else "VALID" + shortcut = conv2d_no_bias(featuremap, target_dimension, 1, strides=strides, name=name + "_shorcut_") + bn_act = activation if use_MHSA else None + shortcut = batchnorm_with_activation(shortcut, activation=bn_act, zero_gamma=False, name=name + "_shorcut_") + else: + shortcut = featuremap + + bottleneck_dimension = target_dimension // proj_factor + + nn = conv2d_no_bias(featuremap, bottleneck_dimension, 1, strides=1, padding="VALID", name=name + "_1_") + nn = batchnorm_with_activation(nn, activation=activation, zero_gamma=False, name=name + "_1_") + + if use_MHSA: # BotNet block + nn = MHSAWithPositionEmbedding(num_heads=heads, bottleneck_dimension=bottleneck_dimension, relative=relative_pe, use_bias=False, name=name + "_2_mhsa")( + nn + ) + if strides != 1: + nn = layers.AveragePooling2D(pool_size=(2, 2), strides=(2, 2), padding="same")(nn) + else: # ResNet block + nn = conv2d_no_bias(nn, bottleneck_dimension, 3, strides=strides, padding="SAME", name=name + "_2_") + nn = batchnorm_with_activation(nn, activation=activation, zero_gamma=False, name=name + "_2_") + + nn = conv2d_no_bias(nn, target_dimension, 1, strides=1, padding="VALID", name=name + "_3_") + nn = batchnorm_with_activation(nn, activation=None, zero_gamma=True, name=name + "_3_") + + nn = layers.Add(name=name + "_add")([shortcut, nn]) + return layers.Activation(activation, name=name + "_out")(nn) + + +def bot_stack( + featuremap, + target_dimension=2048, + num_layers=3, + strides=2, + activation="relu", + heads=4, + proj_factor=4, + relative_pe=True, + name="all2all_stack", + use_MHSA=True, +): + """ c5 Blockgroup of BoT Blocks. Use `activation=swish` for `silu` """ + for i in range(num_layers): + featuremap = bot_block( + featuremap, + heads=heads, + proj_factor=proj_factor, + activation=activation, + relative_pe=relative_pe, + strides=strides if i == 0 else 1, + target_dimension=target_dimension, + name=name + "block{}".format(i + 1), + use_MHSA=use_MHSA, + ) + return featuremap + + +def BotNet( + stack_fn, + preact, + use_bias, + model_name="botnet", + activation="relu", + include_top=True, + weights=None, + input_shape=None, + classes=1000, + classifier_activation="softmax", + **kwargs +): + img_input = layers.Input(shape=input_shape) + + nn = layers.ZeroPadding2D(padding=((3, 3), (3, 3)), name="conv1_pad")(img_input) + nn = layers.Conv2D(64, 7, strides=2, use_bias=use_bias, name="conv1_conv")(nn) + + if not preact: + nn = batchnorm_with_activation(nn, activation=activation, zero_gamma=False, name="conv1_") + nn = layers.ZeroPadding2D(padding=((1, 1), (1, 1)), name="pool1_pad")(nn) + nn = layers.MaxPooling2D(3, strides=2, name="pool1_pool")(nn) + + nn = stack_fn(nn) + if preact: + nn = batchnorm_with_activation(nn, activation=activation, zero_gamma=False, name="post_") + if include_top: + nn = layers.GlobalAveragePooling2D(name="avg_pool")(nn) + nn = layers.Dense(classes, activation=classifier_activation, name="predictions")(nn) + return keras.models.Model(img_input, nn, name=model_name) + + +def BotNet50(strides=2, activation="relu", relative_pe=True, include_top=True, weights=None, input_tensor=None, input_shape=None, classes=1000, **kwargs): + def stack_fn(nn): + nn = bot_stack(nn, 64 * 4, 3, strides=1, activation=activation, name="stack1_", use_MHSA=False) + nn = bot_stack(nn, 128 * 4, 4, strides=2, activation=activation, name="stack2_", use_MHSA=False) + nn = bot_stack(nn, 256 * 4, 6, strides=2, activation=activation, name="stack3_", use_MHSA=False) + nn = bot_stack(nn, 512 * 4, 3, strides=strides, activation=activation, relative_pe=relative_pe, name="stack4_", use_MHSA=True) + return nn + + return BotNet(stack_fn, False, False, "botnet50", activation, include_top, weights, input_shape, classes, **kwargs) + + +def BotNet101(strides=2, activation="relu", relative_pe=True, include_top=True, weights=None, input_tensor=None, input_shape=None, classes=1000, **kwargs): + def stack_fn(nn): + nn = bot_stack(nn, 64 * 4, 3, strides=1, activation=activation, name="stack1_", use_MHSA=False) + nn = bot_stack(nn, 128 * 4, 4, strides=2, activation=activation, name="stack2_", use_MHSA=False) + nn = bot_stack(nn, 256 * 4, 23, strides=2, activation=activation, name="stack3_", use_MHSA=False) + nn = bot_stack(nn, 512 * 4, 3, strides=strides, activation=activation, relative_pe=relative_pe, name="stack4_", use_MHSA=True) + return nn + + return BotNet(stack_fn, False, False, "botnet101", activation, include_top, weights, input_shape, classes, **kwargs) + + +def BotNet152(strides=2, activation="relu", relative_pe=True, include_top=True, weights=None, input_tensor=None, input_shape=None, classes=1000, **kwargs): + def stack_fn(nn): + nn = bot_stack(nn, 64 * 4, 3, strides=1, activation=activation, name="stack1_", use_MHSA=False) + nn = bot_stack(nn, 128 * 4, 8, strides=2, activation=activation, name="stack2_", use_MHSA=False) + nn = bot_stack(nn, 256 * 4, 36, strides=2, activation=activation, name="stack3_", use_MHSA=False) + nn = bot_stack(nn, 512 * 4, 3, strides=strides, activation=activation, relative_pe=relative_pe, name="stack4_", use_MHSA=True) + return nn + + return BotNet(stack_fn, False, False, "botnet152", activation, include_top, weights, input_shape, classes, **kwargs)