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model_base.py
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model_base.py
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import numpy as np
import abc
import os
from typing import NamedTuple, Optional, List, Dict, Tuple, Iterable
from common import common
from vocabularies import Code2VecVocabs, VocabType
from config import Config
class ModelEvaluationResults(NamedTuple):
topk_acc: float
subtoken_precision: float
subtoken_recall: float
subtoken_f1: float
loss: Optional[float] = None
def __str__(self):
res_str = 'topk_acc: {topk_acc}, precision: {precision}, recall: {recall}, F1: {f1}'.format(
topk_acc=self.topk_acc,
precision=self.subtoken_precision,
recall=self.subtoken_recall,
f1=self.subtoken_f1)
if self.loss is not None:
res_str = ('loss: {}, '.format(self.loss)) + res_str
return res_str
class ModelPredictionResults(NamedTuple):
original_name: str
topk_predicted_words: np.ndarray
topk_predicted_words_scores: np.ndarray
attention_per_context: Dict[Tuple[str, str, str], float]
code_vector: Optional[np.ndarray] = None
class Code2VecModelBase(abc.ABC):
def __init__(self, config: Config):
self.config = config
self.config.verify()
self._log_creating_model()
if not config.RELEASE:
self._init_num_of_examples()
self._log_model_configuration()
self.vocabs = Code2VecVocabs(config)
self.vocabs.target_vocab.get_index_to_word_lookup_table() # just to initialize it (if not already initialized)
self._load_or_create_inner_model()
self._initialize()
def _log_creating_model(self):
self.log('')
self.log('')
self.log('---------------------------------------------------------------------')
self.log('---------------------------------------------------------------------')
self.log('---------------------- Creating code2vec model ----------------------')
self.log('---------------------------------------------------------------------')
self.log('---------------------------------------------------------------------')
def _log_model_configuration(self):
self.log('---------------------------------------------------------------------')
self.log('----------------- Configuration - Hyper Parameters ------------------')
longest_param_name_len = max(len(param_name) for param_name, _ in self.config)
for param_name, param_val in self.config:
self.log('{name: <{name_len}}{val}'.format(
name=param_name, val=param_val, name_len=longest_param_name_len+2))
self.log('---------------------------------------------------------------------')
@property
def logger(self):
return self.config.get_logger()
def log(self, msg):
self.logger.info(msg)
def _init_num_of_examples(self):
self.log('Checking number of examples ...')
if self.config.is_training:
self.config.NUM_TRAIN_EXAMPLES = self._get_num_of_examples_for_dataset(self.config.train_data_path)
self.log(' Number of train examples: {}'.format(self.config.NUM_TRAIN_EXAMPLES))
if self.config.is_testing:
self.config.NUM_TEST_EXAMPLES = self._get_num_of_examples_for_dataset(self.config.TEST_DATA_PATH)
self.log(' Number of test examples: {}'.format(self.config.NUM_TEST_EXAMPLES))
@staticmethod
def _get_num_of_examples_for_dataset(dataset_path: str) -> int:
dataset_num_examples_file_path = dataset_path + '.num_examples'
if os.path.isfile(dataset_num_examples_file_path):
with open(dataset_num_examples_file_path, 'r') as file:
num_examples_in_dataset = int(file.readline())
else:
num_examples_in_dataset = common.count_lines_in_file(dataset_path)
with open(dataset_num_examples_file_path, 'w') as file:
file.write(str(num_examples_in_dataset))
return num_examples_in_dataset
def load_or_build(self):
self.vocabs = Code2VecVocabs(self.config)
self._load_or_create_inner_model()
def save(self, model_save_path=None):
if model_save_path is None:
model_save_path = self.config.MODEL_SAVE_PATH
model_save_dir = '/'.join(model_save_path.split('/')[:-1])
if not os.path.isdir(model_save_dir):
os.makedirs(model_save_dir, exist_ok=True)
self.vocabs.save(self.config.get_vocabularies_path_from_model_path(model_save_path))
self._save_inner_model(model_save_path)
def _write_code_vectors(self, file, code_vectors):
for vec in code_vectors:
file.write(' '.join(map(str, vec)) + '\n')
def _get_attention_weight_per_context(
self, path_source_strings: Iterable[str], path_strings: Iterable[str], path_target_strings: Iterable[str],
attention_weights: Iterable[float]) -> Dict[Tuple[str, str, str], float]:
attention_weights = np.squeeze(attention_weights, axis=-1) # (max_contexts, )
attention_per_context: Dict[Tuple[str, str, str], float] = {}
# shape of path_source_strings, path_strings, path_target_strings, attention_weights is (max_contexts, )
# iterate over contexts
for path_source, path, path_target, weight in \
zip(path_source_strings, path_strings, path_target_strings, attention_weights):
string_context_triplet = (common.binary_to_string(path_source),
common.binary_to_string(path),
common.binary_to_string(path_target))
attention_per_context[string_context_triplet] = weight
return attention_per_context
def close_session(self):
# can be overridden by the implementation model class.
# default implementation just does nothing.
pass
@abc.abstractmethod
def train(self):
...
@abc.abstractmethod
def evaluate(self) -> Optional[ModelEvaluationResults]:
...
@abc.abstractmethod
def predict(self, predict_data_lines: Iterable[str]) -> List[ModelPredictionResults]:
...
@abc.abstractmethod
def _save_inner_model(self, path):
...
def _load_or_create_inner_model(self):
if self.config.is_loading:
self._load_inner_model()
else:
self._create_inner_model()
@abc.abstractmethod
def _load_inner_model(self):
...
def _create_inner_model(self):
# can be overridden by the implementation model class.
# default implementation just does nothing.
pass
def _initialize(self):
# can be overridden by the implementation model class.
# default implementation just does nothing.
pass
@abc.abstractmethod
def _get_vocab_embedding_as_np_array(self, vocab_type: VocabType) -> np.ndarray:
...
def save_word2vec_format(self, dest_save_path: str, vocab_type: VocabType):
if vocab_type not in VocabType:
raise ValueError('`vocab_type` should be `VocabType.Token`, `VocabType.Target` or `VocabType.Path`.')
vocab_embedding_matrix = self._get_vocab_embedding_as_np_array(vocab_type)
index_to_word = self.vocabs.get(vocab_type).index_to_word
with open(dest_save_path, 'w') as words_file:
common.save_word2vec_file(words_file, index_to_word, vocab_embedding_matrix)