the-algorithm-ml/reader/utils.py

88 lines
2.5 KiB
Python

"""Reader utilities."""
import itertools
import time
from typing import Optional
from tml.common.batch import DataclassBatch
from tml.ml_logging.torch_logging import logging
import pyarrow as pa
import torch
def roundrobin(*iterables):
"""Round robin through provided iterables, useful for simple load balancing.
Adapted from https://docs.python.org/3/library/itertools.html.
"""
num_active = len(iterables)
nexts = itertools.cycle(iter(it).__next__ for it in iterables)
while num_active:
try:
for _next in nexts:
result = _next()
yield result
except StopIteration:
# Remove the iterator we just exhausted from the cycle.
num_active -= 1
nexts = itertools.cycle(itertools.islice(nexts, num_active))
logging.warning(f"Iterable exhausted, {num_active} iterables left.")
except Exception as exc:
logging.warning(f"Iterable raised exception {exc}, ignoring.")
# continue
raise
def speed_check(data_loader, max_steps: int, frequency: int, peek: Optional[int]):
num_examples = 0
prev = time.perf_counter()
for idx, batch in enumerate(data_loader):
if idx > max_steps:
break
if peek and idx % peek == 0:
logging.info(f"Batch: {batch}")
num_examples += batch.batch_size
if idx % frequency == 0:
now = time.perf_counter()
elapsed = now - prev
logging.info(
f"step: {idx}, "
f"elapsed(s): {elapsed}, "
f"examples: {num_examples}, "
f"ex/s: {num_examples / elapsed}, "
)
prev = now
num_examples = 0
def pa_to_torch(array: pa.array) -> torch.Tensor:
return torch.from_numpy(array.to_numpy())
def create_default_pa_to_batch(schema) -> DataclassBatch:
""" """
_CustomBatch = DataclassBatch.from_schema("DefaultBatch", schema=schema)
def get_imputation_value(pa_type):
type_map = {
pa.float64(): pa.scalar(0, type=pa.float64()),
pa.int64(): pa.scalar(0, type=pa.int64()),
pa.string(): pa.scalar("", type=pa.string()),
}
if pa_type not in type_map:
raise Exception(f"Imputation for type {pa_type} not supported.")
return type_map[pa_type]
def _impute(array: pa.array) -> pa.array:
return array.fill_null(get_imputation_value(array.type))
def _column_to_tensor(record_batch: pa.RecordBatch):
tensors = {
col_name: pa_to_torch(_impute(record_batch.column(col_name)))
for col_name in record_batch.schema.names
}
return _CustomBatch(**tensors)
return _column_to_tensor