mirror of
https://github.com/twitter/the-algorithm.git
synced 2024-12-23 10:41:50 +01:00
466 lines
14 KiB
Python
466 lines
14 KiB
Python
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import kerastuner as kt
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import math
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import numpy as np
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import pandas as pd
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import random
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import sklearn.metrics
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import tensorflow as tf
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import os
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import glob
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from tqdm import tqdm
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from matplotlib import pyplot as plt
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from tensorflow.keras.models import Sequential
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from tensorflow.keras.layers import Dense
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from google.cloud import storage
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physical_devices = tf.config.list_physical_devices('GPU')
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physical_devices
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tf.config.set_visible_devices([tf.config.PhysicalDevice(name='/physical_device:GPU:1', device_type='GPU')], 'GPU')
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tf.config.get_visible_devices('GPU')
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def decode_fn_embedding(example_proto):
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feature_description = {
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"embedding": tf.io.FixedLenFeature([256], dtype=tf.float32),
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"labels": tf.io.FixedLenFeature([], dtype=tf.int64),
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}
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example = tf.io.parse_single_example(
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example_proto,
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feature_description
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)
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return example
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def preprocess_embedding_example(example_dict, positive_label=1, features_as_dict=False):
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labels = example_dict["labels"]
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label = tf.math.reduce_any(labels == positive_label)
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label = tf.cast(label, tf.int32)
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embedding = example_dict["embedding"]
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if features_as_dict:
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features = {"embedding": embedding}
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else:
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features = embedding
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return features, label
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input_root = ...
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sens_prev_input_root = ...
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use_sens_prev_data = True
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has_validation_data = True
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positive_label = 1
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train_batch_size = 256
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test_batch_size = 256
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validation_batch_size = 256
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do_resample = False
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def class_func(features, label):
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return label
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resample_fn = tf.data.experimental.rejection_resample(
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class_func, target_dist = [0.5, 0.5], seed=0
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)
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train_glob = f"{input_root}/train/tfrecord/*.tfrecord"
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train_files = tf.io.gfile.glob(train_glob)
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if use_sens_prev_data:
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train_sens_prev_glob = f"{sens_prev_input_root}/train/tfrecord/*.tfrecord"
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train_sens_prev_files = tf.io.gfile.glob(train_sens_prev_glob)
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train_files = train_files + train_sens_prev_files
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random.shuffle(train_files)
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if not len(train_files):
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raise ValueError(f"Did not find any train files matching {train_glob}")
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test_glob = f"{input_root}/test/tfrecord/*.tfrecord"
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test_files = tf.io.gfile.glob(test_glob)
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if not len(test_files):
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raise ValueError(f"Did not find any eval files matching {test_glob}")
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test_ds = tf.data.TFRecordDataset(test_files).map(decode_fn_embedding)
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test_ds = test_ds.map(lambda x: preprocess_embedding_example(x, positive_label=positive_label)).batch(batch_size=test_batch_size)
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if use_sens_prev_data:
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test_sens_prev_glob = f"{sens_prev_input_root}/test/tfrecord/*.tfrecord"
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test_sens_prev_files = tf.io.gfile.glob(test_sens_prev_glob)
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if not len(test_sens_prev_files):
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raise ValueError(f"Did not find any eval files matching {test_sens_prev_glob}")
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test_sens_prev_ds = tf.data.TFRecordDataset(test_sens_prev_files).map(decode_fn_embedding)
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test_sens_prev_ds = test_sens_prev_ds.map(lambda x: preprocess_embedding_example(x, positive_label=positive_label)).batch(batch_size=test_batch_size)
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train_ds = tf.data.TFRecordDataset(train_files).map(decode_fn_embedding)
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train_ds = train_ds.map(lambda x: preprocess_embedding_example(x, positive_label=positive_label))
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if do_resample:
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train_ds = train_ds.apply(resample_fn).map(lambda _,b:(b))
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train_ds = train_ds.batch(batch_size=256).shuffle(buffer_size=10)
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train_ds = train_ds.repeat()
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if has_validation_data:
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eval_glob = f"{input_root}/validation/tfrecord/*.tfrecord"
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eval_files = tf.io.gfile.glob(eval_glob)
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if use_sens_prev_data:
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eval_sens_prev_glob = f"{sens_prev_input_root}/validation/tfrecord/*.tfrecord"
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eval_sens_prev_files = tf.io.gfile.glob(eval_sens_prev_glob)
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eval_files = eval_files + eval_sens_prev_files
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if not len(eval_files):
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raise ValueError(f"Did not find any eval files matching {eval_glob}")
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eval_ds = tf.data.TFRecordDataset(eval_files).map(decode_fn_embedding)
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eval_ds = eval_ds.map(lambda x: preprocess_embedding_example(x, positive_label=positive_label)).batch(batch_size=validation_batch_size)
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else:
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eval_ds = tf.data.TFRecordDataset(test_files).map(decode_fn_embedding)
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eval_ds = eval_ds.map(lambda x: preprocess_embedding_example(x, positive_label=positive_label)).batch(batch_size=validation_batch_size)
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check_ds = tf.data.TFRecordDataset(train_files).map(decode_fn_embedding)
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cnt = 0
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pos_cnt = 0
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for example in tqdm(check_ds):
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label = example['labels']
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if label == 1:
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pos_cnt += 1
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cnt += 1
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print(f'{cnt} train entries with {pos_cnt} positive')
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metrics = []
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metrics.append(
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tf.keras.metrics.PrecisionAtRecall(
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recall=0.9, num_thresholds=200, class_id=None, name=None, dtype=None
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)
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)
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metrics.append(
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tf.keras.metrics.AUC(
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num_thresholds=200,
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curve="PR",
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)
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)
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def build_model(hp):
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model = Sequential()
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optimizer = tf.keras.optimizers.Adam(
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learning_rate=0.001,
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beta_1=0.9,
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beta_2=0.999,
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epsilon=1e-08,
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amsgrad=False,
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name="Adam",
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)
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activation=hp.Choice("activation", ["tanh", "gelu"])
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kernel_initializer=hp.Choice("kernel_initializer", ["he_uniform", "glorot_uniform"])
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for i in range(hp.Int("num_layers", 1, 2)):
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model.add(tf.keras.layers.BatchNormalization())
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units=hp.Int("units", min_value=128, max_value=256, step=128)
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if i == 0:
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model.add(
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Dense(
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units=units,
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activation=activation,
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kernel_initializer=kernel_initializer,
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input_shape=(None, 256)
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)
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)
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else:
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model.add(
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Dense(
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units=units,
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activation=activation,
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kernel_initializer=kernel_initializer,
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)
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)
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model.add(Dense(1, activation='sigmoid', kernel_initializer=kernel_initializer))
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model.compile(optimizer=optimizer, loss='binary_crossentropy', metrics=metrics)
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return model
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tuner = kt.tuners.BayesianOptimization(
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build_model,
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objective=kt.Objective('val_loss', direction="min"),
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max_trials=30,
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directory='tuner_dir',
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project_name='with_twitter_clip')
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callbacks = [tf.keras.callbacks.EarlyStopping(
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monitor='val_loss', min_delta=0, patience=5, verbose=0,
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mode='auto', baseline=None, restore_best_weights=True
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)]
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steps_per_epoch = 400
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tuner.search(train_ds,
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epochs=100,
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batch_size=256,
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steps_per_epoch=steps_per_epoch,
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verbose=2,
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validation_data=eval_ds,
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callbacks=callbacks)
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tuner.results_summary()
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models = tuner.get_best_models(num_models=2)
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best_model = models[0]
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best_model.build(input_shape=(None, 256))
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best_model.summary()
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tuner.get_best_hyperparameters()[0].values
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optimizer = tf.keras.optimizers.Adam(
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learning_rate=0.001,
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beta_1=0.9,
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beta_2=0.999,
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epsilon=1e-08,
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amsgrad=False,
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name="Adam",
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)
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best_model.compile(optimizer=optimizer, loss='binary_crossentropy', metrics=metrics)
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best_model.summary()
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callbacks = [tf.keras.callbacks.EarlyStopping(
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monitor='val_loss', min_delta=0, patience=10, verbose=0,
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mode='auto', baseline=None, restore_best_weights=True
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)]
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history = best_model.fit(train_ds, epochs=100, validation_data=eval_ds, steps_per_epoch=steps_per_epoch, callbacks=callbacks)
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model_name = 'twitter_hypertuned'
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model_path = f'models/nsfw_Keras_with_CLIP_{model_name}'
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tf.keras.models.save_model(best_model, model_path)
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def copy_local_directory_to_gcs(local_path, bucket, gcs_path):
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"""Recursively copy a directory of files to GCS.
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local_path should be a directory and not have a trailing slash.
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"""
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assert os.path.isdir(local_path)
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for local_file in glob.glob(local_path + '/**'):
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if not os.path.isfile(local_file):
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dir_name = os.path.basename(os.path.normpath(local_file))
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copy_local_directory_to_gcs(local_file, bucket, f"{gcs_path}/{dir_name}")
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else:
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remote_path = os.path.join(gcs_path, local_file[1 + len(local_path) :])
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blob = bucket.blob(remote_path)
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blob.upload_from_filename(local_file)
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client = storage.Client(project=...)
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bucket = client.get_bucket(...)
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copy_local_directory_to_gcs(model_path, bucket, model_path)
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copy_local_directory_to_gcs('tuner_dir', bucket, 'tuner_dir')
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loaded_model = tf.keras.models.load_model(model_path)
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print(history.history.keys())
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plt.figure(figsize = (20, 5))
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plt.subplot(1, 3, 1)
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plt.plot(history.history['auc'])
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plt.plot(history.history['val_auc'])
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plt.title('model auc')
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plt.ylabel('auc')
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plt.xlabel('epoch')
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plt.legend(['train', 'test'], loc='upper left')
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plt.subplot(1, 3, 2)
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plt.plot(history.history['loss'])
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plt.plot(history.history['val_loss'])
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plt.title('model loss')
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plt.ylabel('loss')
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plt.xlabel('epoch')
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plt.legend(['train', 'test'], loc='upper left')
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plt.subplot(1, 3, 3)
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plt.plot(history.history['precision_at_recall'])
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plt.plot(history.history['val_precision_at_recall'])
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plt.title('model precision at 0.9 recall')
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plt.ylabel('precision_at_recall')
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plt.xlabel('epoch')
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plt.legend(['train', 'test'], loc='upper left')
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plt.savefig('history_with_twitter_clip.pdf')
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test_labels = []
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test_preds = []
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for batch_features, batch_labels in tqdm(test_ds):
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test_preds.extend(loaded_model.predict_proba(batch_features))
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test_labels.extend(batch_labels.numpy())
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test_sens_prev_labels = []
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test_sens_prev_preds = []
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for batch_features, batch_labels in tqdm(test_sens_prev_ds):
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test_sens_prev_preds.extend(loaded_model.predict_proba(batch_features))
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test_sens_prev_labels.extend(batch_labels.numpy())
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n_test_pos = 0
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n_test_neg = 0
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n_test = 0
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for label in test_labels:
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n_test +=1
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if label == 1:
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n_test_pos +=1
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else:
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n_test_neg +=1
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print(f'n_test = {n_test}, n_pos = {n_test_pos}, n_neg = {n_test_neg}')
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n_test_sens_prev_pos = 0
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n_test_sens_prev_neg = 0
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n_test_sens_prev = 0
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for label in test_sens_prev_labels:
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n_test_sens_prev +=1
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if label == 1:
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n_test_sens_prev_pos +=1
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else:
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n_test_sens_prev_neg +=1
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print(f'n_test_sens_prev = {n_test_sens_prev}, n_pos_sens_prev = {n_test_sens_prev_pos}, n_neg = {n_test_sens_prev_neg}')
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test_weights = np.ones(np.asarray(test_preds).shape)
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test_labels = np.asarray(test_labels)
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test_preds = np.asarray(test_preds)
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test_weights = np.asarray(test_weights)
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pr = sklearn.metrics.precision_recall_curve(
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test_labels,
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test_preds)
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auc = sklearn.metrics.auc(pr[1], pr[0])
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plt.plot(pr[1], pr[0])
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plt.title("nsfw (MU test set)")
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test_sens_prev_weights = np.ones(np.asarray(test_sens_prev_preds).shape)
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test_sens_prev_labels = np.asarray(test_sens_prev_labels)
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test_sens_prev_preds = np.asarray(test_sens_prev_preds)
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test_sens_prev_weights = np.asarray(test_sens_prev_weights)
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pr_sens_prev = sklearn.metrics.precision_recall_curve(
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test_sens_prev_labels,
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test_sens_prev_preds)
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auc_sens_prev = sklearn.metrics.auc(pr_sens_prev[1], pr_sens_prev[0])
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plt.plot(pr_sens_prev[1], pr_sens_prev[0])
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plt.title("nsfw (sens prev test set)")
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df = pd.DataFrame(
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{
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"label": test_labels.squeeze(),
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"preds_keras": np.asarray(test_preds).flatten(),
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})
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plt.figure(figsize=(15, 10))
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df["preds_keras"].hist()
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plt.title("Keras predictions", size=20)
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plt.xlabel('score')
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plt.ylabel("freq")
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plt.figure(figsize = (20, 5))
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plt.subplot(1, 3, 1)
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plt.plot(pr[2], pr[0][0:-1])
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plt.xlabel("threshold")
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plt.ylabel("precision")
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plt.subplot(1, 3, 2)
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plt.plot(pr[2], pr[1][0:-1])
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plt.xlabel("threshold")
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plt.ylabel("recall")
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plt.title("Keras", size=20)
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plt.subplot(1, 3, 3)
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plt.plot(pr[1], pr[0])
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plt.xlabel("recall")
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plt.ylabel("precision")
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plt.savefig('with_twitter_clip.pdf')
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def get_point_for_recall(recall_value, recall, precision):
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idx = np.argmin(np.abs(recall - recall_value))
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return (recall[idx], precision[idx])
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def get_point_for_precision(precision_value, recall, precision):
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idx = np.argmin(np.abs(precision - precision_value))
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return (recall[idx], precision[idx])
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precision, recall, thresholds = pr
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auc_precision_recall = sklearn.metrics.auc(recall, precision)
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print(auc_precision_recall)
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plt.figure(figsize=(15, 10))
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plt.plot(recall, precision)
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|
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plt.xlabel("recall")
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plt.ylabel("precision")
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|
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ptAt50 = get_point_for_recall(0.5, recall, precision)
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print(ptAt50)
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plt.plot( [ptAt50[0],ptAt50[0]], [0,ptAt50[1]], 'r')
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plt.plot([0, ptAt50[0]], [ptAt50[1], ptAt50[1]], 'r')
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|
|
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ptAt90 = get_point_for_recall(0.9, recall, precision)
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print(ptAt90)
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|
plt.plot( [ptAt90[0],ptAt90[0]], [0,ptAt90[1]], 'b')
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|
plt.plot([0, ptAt90[0]], [ptAt90[1], ptAt90[1]], 'b')
|
||
|
|
||
|
ptAt50fmt = "%.4f" % ptAt50[1]
|
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|
ptAt90fmt = "%.4f" % ptAt90[1]
|
||
|
aucFmt = "%.4f" % auc_precision_recall
|
||
|
plt.title(
|
||
|
f"Keras (nsfw MU test)\nAUC={aucFmt}\np={ptAt50fmt} @ r=0.5\np={ptAt90fmt} @ r=0.9\nN_train={...}} ({...} pos), N_test={n_test} ({n_test_pos} pos)",
|
||
|
size=20
|
||
|
)
|
||
|
plt.subplots_adjust(top=0.72)
|
||
|
plt.savefig('recall_precision_nsfw_Keras_with_twitter_CLIP_MU_test.pdf')
|
||
|
|
||
|
precision, recall, thresholds = pr_sens_prev
|
||
|
|
||
|
auc_precision_recall = sklearn.metrics.auc(recall, precision)
|
||
|
print(auc_precision_recall)
|
||
|
plt.figure(figsize=(15, 10))
|
||
|
|
||
|
plt.plot(recall, precision)
|
||
|
|
||
|
plt.xlabel("recall")
|
||
|
plt.ylabel("precision")
|
||
|
|
||
|
ptAt50 = get_point_for_recall(0.5, recall, precision)
|
||
|
print(ptAt50)
|
||
|
plt.plot( [ptAt50[0],ptAt50[0]], [0,ptAt50[1]], 'r')
|
||
|
plt.plot([0, ptAt50[0]], [ptAt50[1], ptAt50[1]], 'r')
|
||
|
|
||
|
ptAt90 = get_point_for_recall(0.9, recall, precision)
|
||
|
print(ptAt90)
|
||
|
plt.plot( [ptAt90[0],ptAt90[0]], [0,ptAt90[1]], 'b')
|
||
|
plt.plot([0, ptAt90[0]], [ptAt90[1], ptAt90[1]], 'b')
|
||
|
|
||
|
ptAt50fmt = "%.4f" % ptAt50[1]
|
||
|
ptAt90fmt = "%.4f" % ptAt90[1]
|
||
|
aucFmt = "%.4f" % auc_precision_recall
|
||
|
plt.title(
|
||
|
f"Keras (nsfw sens prev test)\nAUC={aucFmt}\np={ptAt50fmt} @ r=0.5\np={ptAt90fmt} @ r=0.9\nN_train={...} ({...} pos), N_test={n_test_sens_prev} ({n_test_sens_prev_pos} pos)",
|
||
|
size=20
|
||
|
)
|
||
|
plt.subplots_adjust(top=0.72)
|
||
|
plt.savefig('recall_precision_nsfw_Keras_with_twitter_CLIP_sens_prev_test.pdf')
|