import os from transformers import TextGenerationPipeline from transformers.pipelines.text_generation import ReturnType from stopping import get_stopping from prompter import Prompter, PromptType class H2OTextGenerationPipeline(TextGenerationPipeline): def __init__(self, *args, debug=False, chat=False, stream_output=False, sanitize_bot_response=False, use_prompter=True, prompter=None, context='', iinput='', prompt_type=None, prompt_dict=None, max_input_tokens=2048 - 256, **kwargs): """ HF-like pipeline, but handle instruction prompting and stopping (for some models) :param args: :param debug: :param chat: :param stream_output: :param sanitize_bot_response: :param use_prompter: Whether to use prompter. If pass prompt_type, will make prompter :param prompter: prompter, can pass if have already :param prompt_type: prompt_type, e.g. human_bot. See prompt_type to model mapping in from prompter.py. If use_prompter, then will make prompter and use it. :param prompt_dict: dict of get_prompt(, return_dict=True) for prompt_type=custom :param max_input_tokens: :param kwargs: """ super().__init__(*args, **kwargs) self.prompt_text = None self.use_prompter = use_prompter self.prompt_type = prompt_type self.prompt_dict = prompt_dict self.prompter = prompter self.context = context self.iinput = iinput if self.use_prompter: if self.prompter is not None: assert self.prompter.prompt_type is not None else: self.prompter = Prompter(self.prompt_type, self.prompt_dict, debug=debug, chat=chat, stream_output=stream_output) self.human = self.prompter.humanstr self.bot = self.prompter.botstr self.can_stop = True else: self.prompter = None self.human = None self.bot = None self.can_stop = False self.sanitize_bot_response = sanitize_bot_response self.max_input_tokens = max_input_tokens # not for generate, so ok that not kwargs @staticmethod def limit_prompt(prompt_text, tokenizer, max_prompt_length=None): verbose = bool(int(os.getenv('VERBOSE_PIPELINE', '0'))) if hasattr(tokenizer, 'model_max_length'): # model_max_length only defined for generate.py, not raw use of h2oai_pipeline.py model_max_length = tokenizer.model_max_length if max_prompt_length is not None: model_max_length = min(model_max_length, max_prompt_length) # cut at some upper likely limit to avoid excessive tokenization etc # upper bound of 10 chars/token, e.g. special chars sometimes are long if len(prompt_text) > model_max_length * 10: len0 = len(prompt_text) prompt_text = prompt_text[-model_max_length * 10:] if verbose: print("Cut of input: %s -> %s" % (len0, len(prompt_text)), flush=True) else: # unknown model_max_length = None num_prompt_tokens = None if model_max_length is not None: # can't wait for "hole" if not plain prompt_type, since would lose prefix like : # For https://github.com/h2oai/h2ogpt/issues/192 for trial in range(0, 3): prompt_tokens = tokenizer(prompt_text)['input_ids'] num_prompt_tokens = len(prompt_tokens) if num_prompt_tokens > model_max_length: # conservative by using int() chars_per_token = int(len(prompt_text) / num_prompt_tokens) # keep tail, where question is if using langchain prompt_text = prompt_text[-model_max_length * chars_per_token:] if verbose: print("reducing %s tokens, assuming average of %s chars/token for %s characters" % ( num_prompt_tokens, chars_per_token, len(prompt_text)), flush=True) else: if verbose: print("using %s tokens with %s chars" % (num_prompt_tokens, len(prompt_text)), flush=True) break # Why Below False: don't limit max_new_tokens more, just rely upon stopping to reach limit of model if False: # if input prompt is some number of tokens, despite user request, can't have max_new_tokens more # assert num_prompt_tokens is not None if self.prompt_type not in [PromptType.plain.name, PromptType.plain.value]: # then give room for prompt fudge = 20 else: fudge = 0 max_new_tokens = max(0, min(generate_kwargs['max_new_tokens'], model_max_length - (num_prompt_tokens + fudge))) if max_new_tokens < generate_kwargs['max_new_tokens']: if verbose: print("Reduced max_new_tokens from %s -> %s" % ( generate_kwargs['max_new_tokens'], max_new_tokens)) generate_kwargs['max_new_tokens'] = max_new_tokens return prompt_text, num_prompt_tokens def preprocess(self, prompt_text, prefix="", handle_long_generation=None, **generate_kwargs): prompt_text, num_prompt_tokens = H2OTextGenerationPipeline.limit_prompt(prompt_text, self.tokenizer) data_point = dict(context=self.context, instruction=prompt_text, input=self.iinput) if self.prompter is not None: prompt_text = self.prompter.generate_prompt(data_point) self.prompt_text = prompt_text if handle_long_generation is None: # forces truncation of inputs to avoid critical failure handle_long_generation = None # disable with new approaches return super().preprocess(prompt_text, prefix=prefix, handle_long_generation=handle_long_generation, **generate_kwargs) def postprocess(self, model_outputs, return_type=ReturnType.FULL_TEXT, clean_up_tokenization_spaces=True): records = super().postprocess(model_outputs, return_type=return_type, clean_up_tokenization_spaces=clean_up_tokenization_spaces) for rec in records: if self.use_prompter: outputs = rec['generated_text'] outputs = self.prompter.get_response(outputs, prompt=self.prompt_text, sanitize_bot_response=self.sanitize_bot_response) elif self.bot and self.human: outputs = rec['generated_text'].split(self.bot)[1].split(self.human)[0] else: outputs = rec['generated_text'] rec['generated_text'] = outputs print("prompt: %s\noutputs: %s\n\n" % (self.prompt_text, outputs), flush=True) return records def _forward(self, model_inputs, **generate_kwargs): if self.can_stop: stopping_criteria = get_stopping(self.prompt_type, self.prompt_dict, self.tokenizer, self.device, human=self.human, bot=self.bot, model_max_length=self.tokenizer.model_max_length) generate_kwargs['stopping_criteria'] = stopping_criteria # return super()._forward(model_inputs, **generate_kwargs) return self.__forward(model_inputs, **generate_kwargs) # FIXME: Copy-paste of original _forward, but removed copy.deepcopy() # FIXME: https://github.com/h2oai/h2ogpt/issues/172 def __forward(self, model_inputs, **generate_kwargs): input_ids = model_inputs["input_ids"] attention_mask = model_inputs.get("attention_mask", None) # Allow empty prompts if input_ids.shape[1] == 0: input_ids = None attention_mask = None in_b = 1 else: in_b = input_ids.shape[0] prompt_text = model_inputs.pop("prompt_text") ## If there is a prefix, we may need to adjust the generation length. Do so without permanently modifying ## generate_kwargs, as some of the parameterization may come from the initialization of the pipeline. # generate_kwargs = copy.deepcopy(generate_kwargs) prefix_length = generate_kwargs.pop("prefix_length", 0) if prefix_length > 0: has_max_new_tokens = "max_new_tokens" in generate_kwargs or ( "generation_config" in generate_kwargs and generate_kwargs["generation_config"].max_new_tokens is not None ) if not has_max_new_tokens: generate_kwargs["max_length"] = generate_kwargs.get("max_length") or self.model.config.max_length generate_kwargs["max_length"] += prefix_length has_min_new_tokens = "min_new_tokens" in generate_kwargs or ( "generation_config" in generate_kwargs and generate_kwargs["generation_config"].min_new_tokens is not None ) if not has_min_new_tokens and "min_length" in generate_kwargs: generate_kwargs["min_length"] += prefix_length # BS x SL generated_sequence = self.model.generate(input_ids=input_ids, attention_mask=attention_mask, **generate_kwargs) out_b = generated_sequence.shape[0] if self.framework == "pt": generated_sequence = generated_sequence.reshape(in_b, out_b // in_b, *generated_sequence.shape[1:]) elif self.framework == "tf": from transformers import is_tf_available if is_tf_available(): import tensorflow as tf generated_sequence = tf.reshape(generated_sequence, (in_b, out_b // in_b, *generated_sequence.shape[1:])) else: raise ValueError("TF not avaialble.") return {"generated_sequence": generated_sequence, "input_ids": input_ids, "prompt_text": prompt_text}