mirror of
https://github.com/twitter/the-algorithm-ml.git
synced 2024-11-18 22:19:23 +01:00
207 lines
8.1 KiB
Python
207 lines
8.1 KiB
Python
"""
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Preprocessors applied on DDS workers in order to modify the dataset on the fly.
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Some of these preprocessors are also applied to the model at serving time.
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"""
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from tml.projects.home.recap import config as config_mod
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from absl import logging
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import tensorflow as tf
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import numpy as np
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class TruncateAndSlice(tf.keras.Model):
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"""Class for truncating and slicing."""
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def __init__(self, truncate_and_slice_config):
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super().__init__()
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self._truncate_and_slice_config = truncate_and_slice_config
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if self._truncate_and_slice_config.continuous_feature_mask_path:
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with tf.io.gfile.GFile(
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self._truncate_and_slice_config.continuous_feature_mask_path, "rb"
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) as f:
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self._continuous_mask = np.load(f).nonzero()[0]
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logging.info(f"Slicing {np.sum(self._continuous_mask)} continuous features.")
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else:
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self._continuous_mask = None
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if self._truncate_and_slice_config.binary_feature_mask_path:
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with tf.io.gfile.GFile(self._truncate_and_slice_config.binary_feature_mask_path, "rb") as f:
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self._binary_mask = np.load(f).nonzero()[0]
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logging.info(f"Slicing {np.sum(self._binary_mask)} binary features.")
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else:
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self._binary_mask = None
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def call(self, inputs, training=None, mask=None):
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outputs = tf.nest.pack_sequence_as(inputs, tf.nest.flatten(inputs))
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if self._truncate_and_slice_config.continuous_feature_truncation:
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logging.info("Truncating continuous")
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outputs["continuous"] = outputs["continuous"][
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:, : self._truncate_and_slice_config.continuous_feature_truncation
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]
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if self._truncate_and_slice_config.binary_feature_truncation:
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logging.info("Truncating binary")
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outputs["binary"] = outputs["binary"][
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:, : self._truncate_and_slice_config.binary_feature_truncation
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]
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if self._continuous_mask is not None:
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outputs["continuous"] = tf.gather(outputs["continuous"], self._continuous_mask, axis=1)
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if self._binary_mask is not None:
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outputs["binary"] = tf.gather(outputs["binary"], self._binary_mask, axis=1)
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return outputs
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class DownCast(tf.keras.Model):
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"""Class for Down casting dataset before serialization and transferring to training host.
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Depends on the data type and the actual data range, the down casting can be lossless or not.
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It is strongly recommended to compare the metrics before and after down casting.
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"""
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def __init__(self, downcast_config):
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super().__init__()
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self.config = downcast_config
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self._type_map = {
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"bfloat16": tf.bfloat16,
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"bool": tf.bool,
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}
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def call(self, inputs, training=None, mask=None):
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outputs = tf.nest.pack_sequence_as(inputs, tf.nest.flatten(inputs))
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for feature, type_str in self.config.features.items():
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assert type_str in self._type_map
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if type_str == "bfloat16":
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logging.warning(
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"Although bfloat16 and float32 have the same number of exponent bits, this down casting is not 100% lossless. Please double check metrics."
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)
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down_cast_data_type = self._type_map[type_str]
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outputs[feature] = tf.cast(outputs[feature], dtype=down_cast_data_type)
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return outputs
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class RectifyLabels(tf.keras.Model):
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"""Class for rectifying labels"""
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def __init__(self, rectify_label_config):
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super().__init__()
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self._config = rectify_label_config
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self._window = int(self._config.label_rectification_window_in_hours * 60 * 60 * 1000)
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def call(self, inputs, training=None, mask=None):
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served_ts_field = self._config.served_timestamp_field
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impressed_ts_field = self._config.impressed_timestamp_field
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for label, engaged_ts_field in self._config.label_to_engaged_timestamp_field.items():
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impressed = inputs[impressed_ts_field]
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served = inputs[served_ts_field]
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engaged = inputs[engaged_ts_field]
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keep = tf.math.logical_and(inputs[label] > 0, impressed - served < self._window)
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keep = tf.math.logical_and(keep, engaged - served < self._window)
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inputs[label] = tf.where(keep, inputs[label], tf.zeros_like(inputs[label]))
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return inputs
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class ExtractFeatures(tf.keras.Model):
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"""Class for extracting individual features from dense tensors by their index."""
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def __init__(self, extract_features_config):
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super().__init__()
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self._config = extract_features_config
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def call(self, inputs, training=None, mask=None):
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for row in self._config.extract_feature_table:
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inputs[row.name] = inputs[row.source_tensor][:, row.index]
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return inputs
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class DownsampleNegatives(tf.keras.Model):
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"""Class for down-sampling/dropping negatives and updating the weights.
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If inputs['fav'] = [1, 0, 0, 0] and inputs['weights'] = [1.0, 1.0, 1.0, 1.0]
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inputs are transformed to inputs['fav'] = [1, 0] and inputs['weights'] = [1.0, 3.0]
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when batch_multiplier=2 and engagements_list=['fav']
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It supports multiple engagements (union/logical_or is used to aggregate engagements), so we don't
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drop positives for any engagement.
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"""
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def __init__(self, downsample_negatives_config):
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super().__init__()
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self.config = downsample_negatives_config
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def call(self, inputs, training=None, mask=None):
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labels = self.config.engagements_list
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# union of engagements
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mask = tf.squeeze(tf.reduce_any(tf.stack([inputs[label] == 1 for label in labels], 1), 1))
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n_positives = tf.reduce_sum(tf.cast(mask, tf.int32))
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batch_size = tf.cast(tf.shape(inputs[labels[0]])[0] / self.config.batch_multiplier, tf.int32)
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negative_weights = tf.math.divide_no_nan(
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tf.cast(self.config.batch_multiplier * batch_size - n_positives, tf.float32),
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tf.cast(batch_size - n_positives, tf.float32),
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)
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new_weights = tf.cast(mask, tf.float32) + (1 - tf.cast(mask, tf.float32)) * negative_weights
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def _split_by_label_concatenate_and_truncate(input_tensor):
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# takes positive examples and concatenate with negative examples and truncate
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# DANGER: if n_positives > batch_size down-sampling is incorrect (do not use pb_50)
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return tf.concat(
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[
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input_tensor[mask],
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input_tensor[tf.math.logical_not(mask)],
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],
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0,
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)[:batch_size]
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if "weights" not in inputs:
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# add placeholder so logic below applies even if weights aren't present in inputs
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inputs["weights"] = tf.ones([tf.shape(inputs[labels[0]])[0], self.config.num_engagements])
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for tensor in inputs:
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if tensor == "weights":
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inputs[tensor] = inputs[tensor] * tf.reshape(new_weights, [-1, 1])
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inputs[tensor] = _split_by_label_concatenate_and_truncate(inputs[tensor])
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return inputs
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def build_preprocess(preprocess_config, mode=config_mod.JobMode.TRAIN):
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"""Builds a preprocess model to apply all preprocessing stages."""
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if mode == config_mod.JobMode.INFERENCE:
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logging.info("Not building preprocessors for dataloading since we are in Inference mode.")
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return None
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preprocess_models = []
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if preprocess_config.downsample_negatives:
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preprocess_models.append(DownsampleNegatives(preprocess_config.downsample_negatives))
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if preprocess_config.truncate_and_slice:
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preprocess_models.append(TruncateAndSlice(preprocess_config.truncate_and_slice))
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if preprocess_config.downcast:
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preprocess_models.append(DownCast(preprocess_config.downcast))
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if preprocess_config.rectify_labels:
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preprocess_models.append(RectifyLabels(preprocess_config.rectify_labels))
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if preprocess_config.extract_features:
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preprocess_models.append(ExtractFeatures(preprocess_config.extract_features))
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if len(preprocess_models) == 0:
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raise ValueError("No known preprocessor.")
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class PreprocessModel(tf.keras.Model):
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def __init__(self, preprocess_models):
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super().__init__()
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self.preprocess_models = preprocess_models
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def call(self, inputs, training=None, mask=None):
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outputs = inputs
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for model in self.preprocess_models:
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outputs = model(outputs, training, mask)
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return outputs
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if len(preprocess_models) > 1:
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logging.warning(
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"With multiple preprocessing models, we apply these models in a predefined order. Future works may introduce customized models and orders."
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)
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return PreprocessModel(preprocess_models)
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