ColossalAI/examples/tutorial/opt/inference/batch.py

import torch
from typing import List, Deque, Tuple, Hashable, Any
from energonai import BatchManager, SubmitEntry, TaskEntry


class BatchManagerForGeneration(BatchManager):
    def __init__(self, max_batch_size: int = 1, pad_token_id: int = 0) -> None:
        super().__init__()
        self.max_batch_size = max_batch_size
        self.pad_token_id = pad_token_id

    def _left_padding(self, batch_inputs):
        max_len = max(len(inputs['input_ids']) for inputs in batch_inputs)
        outputs = {'input_ids': [], 'attention_mask': []}
        for inputs in batch_inputs:
            input_ids, attention_mask = inputs['input_ids'], inputs['attention_mask']
            padding_len = max_len - len(input_ids)
            input_ids = [self.pad_token_id] * padding_len + input_ids
            attention_mask = [0] * padding_len + attention_mask
            outputs['input_ids'].append(input_ids)
            outputs['attention_mask'].append(attention_mask)
        for k in outputs:
            outputs[k] = torch.tensor(outputs[k])
        return outputs, max_len

    @staticmethod
    def _make_batch_key(entry: SubmitEntry) -> tuple:
        data = entry.data
        return (data['top_k'], data['top_p'], data['temperature'])

    def make_batch(self, q: Deque[SubmitEntry]) -> Tuple[TaskEntry, dict]:
        entry = q.popleft()
        uids = [entry.uid]
        batch = [entry.data]
        while len(batch) < self.max_batch_size:
            if len(q) == 0:
                break
            if self._make_batch_key(entry) != self._make_batch_key(q[0]):
                break
            if q[0].data['max_tokens'] > entry.data['max_tokens']:
                break
            e = q.popleft()
            batch.append(e.data)
            uids.append(e.uid)
        inputs, max_len = self._left_padding(batch)
        trunc_lens = []
        for data in batch:
            trunc_lens.append(max_len + data['max_tokens'])
        inputs['top_k'] = entry.data['top_k']
        inputs['top_p'] = entry.data['top_p']
        inputs['temperature'] = entry.data['temperature']
        inputs['max_tokens'] = max_len + entry.data['max_tokens']
        return TaskEntry(tuple(uids), inputs), {'trunc_lens': trunc_lens}

    def split_batch(self, task_entry: TaskEntry, trunc_lens: List[int] = []) -> List[Tuple[Hashable, Any]]:
        retval = []
        for uid, output, trunc_len in zip(task_entry.uids, task_entry.batch, trunc_lens):
            retval.append((uid, output[:trunc_len]))
        return retval