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import time
from enum import Enum
class PromptType(Enum):
plain = 0
instruct = 1
quality = 2
human_bot = 3
dai_faq = 4
summarize = 5
simple_instruct = 6
instruct_vicuna = 7
instruct_with_end = 8
human_bot_orig = 9
prompt_answer = 10
open_assistant = 11
wizard_lm = 12
wizard_mega = 13
prompt_type_to_model_name = {
'plain': [
'EleutherAI/gpt-j-6B',
'EleutherAI/pythia-6.9b',
'EleutherAI/pythia-12b',
'EleutherAI/pythia-12b-deduped',
'EleutherAI/gpt-neox-20b',
'decapoda-research/llama-7b-hf',
'decapoda-research/llama-13b-hf',
'decapoda-research/llama-30b-hf',
'decapoda-research/llama-65b-hf',
'facebook/mbart-large-50-many-to-many-mmt',
'philschmid/bart-large-cnn-samsum',
'philschmid/flan-t5-base-samsum',
'gpt2',
'distilgpt2',
'mosaicml/mpt-7b-storywriter',
'mosaicml/mpt-7b-instruct', # internal code handles instruct
'mosaicml/mpt-7b-chat', # NC, internal code handles instruct
'gptj', # internally handles prompting
'llama', # internally handles prompting
],
'prompt_answer': [
'h2oai/h2ogpt-gm-oasst1-en-1024-20b',
'h2oai/h2ogpt-gm-oasst1-en-1024-12b',
'h2oai/h2ogpt-gm-oasst1-multilang-1024-20b',
'h2oai/h2ogpt-gm-oasst1-en-2048-open-llama-7b-preview-300bt',
'h2oai/h2ogpt-gm-oasst1-en-2048-open-llama-7b-preview-300bt-v2',
],
'instruct': [],
'instruct_with_end': ['databricks/dolly-v2-12b'],
'quality': [],
'human_bot': [
'h2oai/h2ogpt-oasst1-512-12b',
'h2oai/h2ogpt-oasst1-512-20b',
'h2oai/h2ogpt-oig-oasst1-256-6_9b',
'h2oai/h2ogpt-oig-oasst1-512-6_9b',
'h2oai/h2ogpt-research-oasst1-512-30b', # private
],
'dai_faq': [],
'summarize': [],
'simple_instruct': ['t5-small', 't5-large', 'google/flan-t5', 'google/flan-t5-xxl', 'google/flan-ul2'],
'instruct_vicuna': ['AlekseyKorshuk/vicuna-7b', 'TheBloke/stable-vicuna-13B-HF', 'junelee/wizard-vicuna-13b'],
'human_bot_orig': ['togethercomputer/GPT-NeoXT-Chat-Base-20B'],
"open_assistant": ['OpenAssistant/oasst-sft-7-llama-30b-xor', 'oasst-sft-7-llama-30b'],
"wizard_lm": ['ehartford/WizardLM-7B-Uncensored', 'ehartford/WizardLM-13B-Uncensored'],
"wizard_mega": ['openaccess-ai-collective/wizard-mega-13b'],
}
inv_prompt_type_to_model_name = {v.strip(): k for k, l in prompt_type_to_model_name.items() for v in l}
inv_prompt_type_to_model_lower = {v.strip().lower(): k for k, l in prompt_type_to_model_name.items() for v in l}
prompt_types_strings = []
for p in PromptType:
prompt_types_strings.extend([p.name])
prompt_types = []
for p in PromptType:
prompt_types.extend([p.name, p.value, str(p.value)])
def get_prompt(prompt_type, chat, context, reduced):
if prompt_type in [-1, "-1", "plain"]:
promptA = promptB = PreInstruct = PreInput = PreResponse = ''
terminate_response = []
chat_sep = ''
humanstr = ''
botstr = ''
elif prompt_type == 'simple_instruct':
promptA = promptB = PreInstruct = PreInput = PreResponse = None
terminate_response = []
chat_sep = '\n'
humanstr = ''
botstr = ''
elif prompt_type in [0, "0", "instruct"] or prompt_type in [7, "7", "instruct_with_end"]:
promptA = 'Below is an instruction that describes a task, paired with an input that provides further context. Write a response that appropriately completes the request.\n' if not (
chat and reduced) else ''
promptB = 'Below is an instruction that describes a task. Write a response that appropriately completes the request.\n' if not (
chat and reduced) else ''
PreInstruct = """
### Instruction:
"""
PreInput = """
### Input:
"""
PreResponse = """
### Response:
"""
if prompt_type in [7, "7", "instruct_with_end"]:
terminate_response = ['### End']
else:
terminate_response = None
chat_sep = '\n'
humanstr = PreInstruct
botstr = PreResponse
elif prompt_type in [1, "1", "quality"]:
promptA = 'Write a detailed high-quality, accurate, fair, Response with about 100 words by following the Instruction as applied on the Input.\n' if not (
chat and reduced) else ''
promptB = 'Write a detailed high-quality, accurate, fair, Response with about 100 words by following the Instruction.\n' if not (
chat and reduced) else ''
PreInstruct = """
### Instruction:
"""
PreInput = """
### Input:
"""
PreResponse = """
### Response:
"""
terminate_response = None
chat_sep = '\n'
humanstr = PreInstruct # first thing human says
botstr = PreResponse # first thing bot says
elif prompt_type in [2, "2", "human_bot", 9, "9", "human_bot_orig"]:
human = '<human>:'
bot = "<bot>:"
if reduced or context or prompt_type in [2, "2", "human_bot"]:
preprompt = ''
else:
cur_date = time.strftime('%Y-%m-%d')
cur_time = time.strftime('%H:%M:%S %p %Z')
PRE_PROMPT = """\
Current Date: {}
Current Time: {}
"""
preprompt = PRE_PROMPT.format(cur_date, cur_time)
start = human
promptB = promptA = '%s%s ' % (preprompt, start)
PreInstruct = ""
PreInput = None
if reduced:
# when making context, want it to appear as-if LLM generated, which starts with space after :
PreResponse = bot + ' '
else:
# normally LLM adds space after this, because was how trained.
# if add space here, non-unique tokenization will often make LLM produce wrong output
PreResponse = bot
terminate_response = [start, PreResponse]
chat_sep = '\n'
humanstr = human # tag before human talks
botstr = bot # tag before bot talks
elif prompt_type in [3, "3", "dai_faq"]:
promptA = ''
promptB = 'Answer the following Driverless AI question.\n'
PreInstruct = """
### Driverless AI frequently asked question:
"""
PreInput = None
PreResponse = """
### Driverless AI documentation answer:
"""
terminate_response = ['\n\n']
chat_sep = terminate_response
humanstr = PreInstruct
botstr = PreResponse
elif prompt_type in [5, "5", "summarize"]:
promptA = promptB = PreInput = ''
PreInstruct = '## Main Text\n\n'
PreResponse = '\n\n## Summary\n\n'
terminate_response = None
chat_sep = '\n'
humanstr = PreInstruct
botstr = PreResponse
elif prompt_type in [6, "6", "instruct_vicuna"]:
promptA = promptB = "A chat between a curious human and an artificial intelligence assistant. " \
"The assistant gives helpful, detailed, and polite answers to the human's questions." if not (
chat and reduced) else ''
PreInstruct = """
### Human:
"""
PreInput = None
PreResponse = """
### Assistant:
"""
terminate_response = [
'### Human:'] # but only allow terminate after prompt is found correctly, else can't terminate
chat_sep = '\n'
humanstr = PreInstruct
botstr = PreResponse
elif prompt_type in [10, "10", "prompt_answer"]:
preprompt = ''
prompt_tokens = "<|prompt|>"
answer_tokens = "<|answer|>"
start = prompt_tokens
promptB = promptA = '%s%s' % (preprompt, start)
PreInstruct = ""
PreInput = None
PreResponse = answer_tokens
eos = '<|endoftext|>' # neox eos
terminate_response = [start, PreResponse, eos]
chat_sep = eos
humanstr = prompt_tokens
botstr = answer_tokens
elif prompt_type in [11, "11", "open_assistant"]:
# From added_tokens.json
preprompt = ''
prompt_tokens = "<|prompter|>"
answer_tokens = "<|assistant|>"
start = prompt_tokens
promptB = promptA = '%s%s' % (preprompt, start)
PreInstruct = ""
PreInput = None
PreResponse = answer_tokens
pend = "<|prefix_end|>"
eos = "</s>"
terminate_response = [start, PreResponse, pend, eos]
chat_sep = eos
humanstr = prompt_tokens
botstr = answer_tokens
elif prompt_type in [12, "12", "wizard_lm"]:
# https://github.com/ehartford/WizardLM/blob/main/src/train_freeform.py
preprompt = ''
start = ''
promptB = promptA = '%s%s' % (preprompt, start)
PreInstruct = ""
PreInput = None
PreResponse = "\n\n### Response"
eos = "</s>"
terminate_response = [PreResponse, eos]
chat_sep = eos
humanstr = promptA
botstr = PreResponse
elif prompt_type in [13, "13", "wizard_mega"]:
preprompt = ''
start = ''
promptB = promptA = '%s%s' % (preprompt, start)
PreInstruct = """
### Instruction:
"""
PreInput = None
PreResponse = """
### Assistant:
"""
terminate_response = [PreResponse]
chat_sep = '\n'
humanstr = PreInstruct
botstr = PreResponse
else:
raise RuntimeError("No such prompt_type=%s" % prompt_type)
return promptA, promptB, PreInstruct, PreInput, PreResponse, terminate_response, chat_sep, humanstr, botstr
def generate_prompt(data_point, prompt_type, chat, reduced):
context = data_point.get('context')
if context is None:
context = ''
instruction = data_point.get('instruction')
input = data_point.get('input')
output = data_point.get('output')
prompt_type = data_point.get('prompt_type', prompt_type)
assert prompt_type in prompt_types, "Bad prompt type: %s" % prompt_type
promptA, promptB, PreInstruct, PreInput, PreResponse, \
terminate_response, chat_sep, humanstr, botstr = get_prompt(prompt_type, chat, context, reduced)
prompt = context if not reduced else ''
if input and promptA:
prompt += f"""{promptA}"""
elif promptB:
prompt += f"""{promptB}"""
if instruction and PreInstruct is not None and input and PreInput is not None:
prompt += f"""{PreInstruct}{instruction}{PreInput}{input}"""
prompt = inject_newline(prompt_type, prompt)
elif instruction and input and PreInstruct is None and PreInput is not None:
prompt += f"""{PreInput}{instruction}
{input}"""
prompt = inject_newline(prompt_type, prompt)
elif input and instruction and PreInput is None and PreInstruct is not None:
prompt += f"""{PreInstruct}{instruction}
{input}"""
prompt = inject_newline(prompt_type, prompt)
elif instruction and PreInstruct is not None:
prompt += f"""{PreInstruct}{instruction}"""
prompt = inject_newline(prompt_type, prompt)
elif input and PreInput is not None:
prompt += f"""{PreInput}{input}"""
prompt = inject_newline(prompt_type, prompt)
elif input and instruction and PreInput is not None:
prompt += f"""{PreInput}{instruction}{input}"""
prompt = inject_newline(prompt_type, prompt)
elif input and instruction and PreInstruct is not None:
prompt += f"""{PreInstruct}{instruction}{input}"""
prompt = inject_newline(prompt_type, prompt)
elif input and instruction:
# i.e. for simple_instruct
prompt += f"""{instruction}: {input}"""
prompt = inject_newline(prompt_type, prompt)
elif input:
prompt += f"""{input}"""
prompt = inject_newline(prompt_type, prompt)
elif instruction:
prompt += f"""{instruction}"""
prompt = inject_newline(prompt_type, prompt)
if PreResponse is not None:
prompt += f"""{PreResponse}"""
pre_response = PreResponse # Don't use strip
else:
pre_response = ''
if output:
prompt += f"""{output}"""
return prompt, pre_response, terminate_response, chat_sep
def inject_newline(prompt_type, prompt):
if prompt_type not in [-1, '-1', 'plain', 'simple_instruct']:
# only add new line if structured prompt, while 'plain' is just generation of next tokens from input
prompt += '\n'
return prompt
class Prompter(object):
def __init__(self, prompt_type, debug=False, chat=False, stream_output=False, repeat_penalty=True,
allowed_repeat_line_length=10):
self.prompt_type = prompt_type
data_point = dict(instruction='', input='', output='')
_, self.pre_response, self.terminate_response, self.chat_sep = \
generate_prompt(data_point, prompt_type, chat, False)
self.debug = debug
self.chat = chat
self.stream_output = stream_output
self.repeat_penalty = repeat_penalty
self.allowed_repeat_line_length = allowed_repeat_line_length
self.prompt = None
context = "" # not for chat context
reduced = False # not for chat context
self.promptA, self.promptB, self.PreInstruct, self.PreInput, self.PreResponse, \
self.terminate_response, self.chat_sep, self.humanstr, self.botstr = \
get_prompt(prompt_type, chat, context, reduced)
def generate_prompt(self, data_point):
reduced = False
prompt, _, _, _ = generate_prompt(data_point, self.prompt_type, self.chat, reduced)
if self.debug:
print("prompt: ", prompt, flush=True)
self.prompt = prompt
return prompt
def get_response(self, outputs, prompt=None, sanitize_bot_response=True):
if isinstance(outputs, str):
outputs = [outputs]
if self.debug:
print("output:\n", '\n\n'.join(outputs), flush=True)
if prompt is not None:
self.prompt = prompt
def clean_response(response):
meaningless_words = ['<pad>', '</s>', '<|endoftext|>']
for word in meaningless_words:
response = response.replace(word, "")
if sanitize_bot_response:
from better_profanity import profanity
response = profanity.censor(response)
response = response.strip("\n")
return response
def clean_repeats(response):
lines = response.split('\n')
new_lines = []
[new_lines.append(line) for line in lines if
line not in new_lines or len(line) < self.allowed_repeat_line_length]
if self.debug and len(lines) != len(new_lines):
print("cleaned repeats: %s %s" % (len(lines), len(new_lines)), flush=True)
response = '\n'.join(new_lines)
return response
multi_output = len(outputs) > 1
for oi, output in enumerate(outputs):
if self.prompt_type in [0, '0', 'plain']:
output = clean_response(output)
elif prompt is None:
# then use most basic parsing like pipeline
if self.botstr in output:
if self.humanstr:
output = clean_response(output.split(self.botstr)[1].strip().split(self.humanstr)[0].strip())
else:
# i.e. use after bot but only up to next bot
output = clean_response(output.split(self.botstr)[1].strip().split(self.botstr)[0].strip())
else:
# output = clean_response(output.strip())
# assume just not printed yet
output = ""
else:
# find first instance of prereponse
# prompt sometimes has odd characters, that mutate length,
# so can't go by length alone
if self.pre_response:
outputi = output.find(prompt)
if outputi >= 0:
output = output[outputi + len(prompt):]
allow_terminate = True
else:
# subtraction is risky due to space offsets sometimes, so only do if necessary
output = output[len(prompt) - len(self.pre_response):]
# [1] to avoid repeated pre_response, just take first (after prompt - pre_response for chat)
if self.pre_response in output:
output = output.split(self.pre_response)[1]
allow_terminate = True
else:
if output:
print("Failure of parsing or not enough output yet: %s" % output, flush=True)
allow_terminate = False
else:
allow_terminate = True
output = output[len(prompt):]
# clean after subtract prompt out, so correct removal of pre_response
output = clean_response(output).strip()
if self.repeat_penalty:
output = clean_repeats(output).strip()
if self.terminate_response and allow_terminate:
finds = []
for term in self.terminate_response:
finds.append(output.find(term))
finds = [x for x in finds if x >= 0]
if len(finds) > 0:
termi = finds[0]
output = output[:termi].strip()
else:
output = output.strip()
else:
output = output.strip()
if multi_output:
# prefix with output counter
output = "\n=========== Output %d\n\n" % (1 + oi) + output
if oi > 0:
# post fix outputs with seperator
output += '\n'
outputs[oi] = output
# join all outputs, only one extra new line between outputs
output = '\n'.join(outputs)
if self.debug:
print("outputclean:\n", '\n\n'.join(outputs), flush=True)
return output
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