|
""" |
|
Dataset creation tools. |
|
|
|
Keep to-level imports clean of non-trivial imports for specific tools, |
|
because this file is imported for various purposes |
|
""" |
|
|
|
import ast |
|
import concurrent.futures |
|
import contextlib |
|
import hashlib |
|
import json |
|
import os |
|
import shutil |
|
import signal |
|
import sys |
|
import traceback |
|
from concurrent.futures import ProcessPoolExecutor |
|
|
|
import psutil |
|
import pytest |
|
import pandas as pd |
|
import numpy as np |
|
from tqdm import tqdm |
|
|
|
from utils import flatten_list, remove |
|
|
|
|
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def parse_rst_file(filepath): |
|
with open(filepath, 'r') as f: |
|
input_data = f.read() |
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settings_overrides = {'initial_header_level': 2} |
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from docutils import core |
|
document = core.publish_doctree( |
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source=input_data, |
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source_path=filepath, |
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settings_overrides=settings_overrides, |
|
) |
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qa_pairs = [] |
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current_section = None |
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current_question = "" |
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current_answer = "" |
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for node in document.traverse(): |
|
if node.__class__.__name__ == 'section': |
|
current_section = "" |
|
elif current_section is not None: |
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if node.__class__.__name__ == 'Text': |
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if node.astext()[-1] == "?": |
|
if current_question: |
|
qa_pairs.append((current_question, current_answer)) |
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current_question = node.astext() |
|
current_answer = "" |
|
else: |
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current_answer += node.astext() |
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if current_answer: |
|
qa_pairs.append((current_question, current_answer)) |
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return {k: v for k, v in qa_pairs} |
|
|
|
|
|
def test_scrape_dai_docs(): |
|
home = os.path.expanduser('~') |
|
file = os.path.join(home, 'h2oai/docs/faq.rst') |
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qa_pairs = parse_rst_file(file) |
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prompt_type = 'human_bot' |
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from prompter import prompt_types |
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assert prompt_type in prompt_types |
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save_thing = [{"instruction": k, "output": v, 'prompt_type': prompt_type} for k, v in qa_pairs.items()] |
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output_file = "dai_faq.json" |
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with open(output_file, "wt") as f: |
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f.write(json.dumps(save_thing, indent=2)) |
|
|
|
|
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def test_scrape_dai_docs_all(): |
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""" |
|
pytest create_data.py::test_scrape_dai_docs_all |
|
""" |
|
import glob |
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import nltk |
|
nltk.download('punkt') |
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dd = {} |
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np.random.seed(1234) |
|
home = os.path.expanduser('~') |
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files = list(glob.glob(os.path.join(home, "h2oai/docs/**/*rst"))) |
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np.random.shuffle(files) |
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val_count = int(0.05 * len(files)) |
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train_files = files[val_count:] |
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valid_files = files[:val_count] |
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things = [ |
|
("dai_docs.train.json", train_files), |
|
("dai_docs.valid.json", valid_files) |
|
] |
|
for LEN in [100, 200, 500]: |
|
for output_file, ff in things: |
|
if output_file not in dd: |
|
dd[output_file] = [] |
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for f in ff: |
|
with open(f) as input: |
|
blob = input.read() |
|
blob = blob.replace("~~", "") |
|
blob = blob.replace("==", "") |
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blob = blob.replace("''", "") |
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blob = blob.replace("--", "") |
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blob = blob.replace("**", "") |
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dd[output_file].extend(get_sentences(blob, length=LEN)) |
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for output_file, _ in things: |
|
save_thing = [{"output": k.strip(), 'prompt_type': 'plain'} for k in dd[output_file]] |
|
with open(output_file, "wt") as f: |
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f.write(json.dumps(save_thing, indent=2)) |
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|
|
|
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def get_sentences(blob, length): |
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""" |
|
break-up input text into sentences and then output list of sentences of about length in size |
|
:param blob: |
|
:param length: |
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:return: |
|
""" |
|
import nltk |
|
nltk.download('punkt') |
|
from nltk.tokenize import sent_tokenize |
|
sentences = sent_tokenize(blob) |
|
my_sentences = [] |
|
my_string = "" |
|
for sentence in sentences: |
|
if len(my_string) + len(sentence) <= length: |
|
if my_string: |
|
my_string += " " + sentence |
|
else: |
|
my_string = sentence |
|
else: |
|
my_sentences.append(my_string) |
|
my_string = "" |
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return my_sentences or [my_string] |
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|
|
|
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def setup_dai_docs(path=None, dst="working_dir_docs", from_hf=False): |
|
""" |
|
Only supported if have access to source code or HF token for HF spaces and from_hf=True |
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:param path: |
|
:param dst: |
|
:param from_hf: |
|
:return: |
|
""" |
|
|
|
home = os.path.expanduser('~') |
|
|
|
if from_hf: |
|
|
|
from huggingface_hub import hf_hub_download |
|
|
|
token = os.getenv('HUGGINGFACE_API_TOKEN', True) |
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path_to_zip_file = hf_hub_download('h2oai/dai_docs', 'dai_docs.zip', token=token, repo_type='dataset') |
|
path = 'h2oai' |
|
import zipfile |
|
with zipfile.ZipFile(path_to_zip_file, 'r') as zip_ref: |
|
zip_ref.extractall(path) |
|
path = os.path.join(path, 'docs/**/*') |
|
|
|
if path is None: |
|
if os.path.isdir(os.path.join(home, 'h2oai')): |
|
path = os.path.join(home, "h2oai/docs/**/*") |
|
else: |
|
assert os.path.isdir(os.path.join(home, 'h2oai.superclean')), '%s does not exist' % path |
|
path = os.path.join(home, "h2oai.superclean/docs/**/*") |
|
import glob |
|
files = list(glob.glob(path, recursive=True)) |
|
|
|
|
|
|
|
remove(dst) |
|
os.makedirs(dst) |
|
|
|
|
|
for fil in files: |
|
if os.path.isfile(fil): |
|
shutil.copy(fil, dst) |
|
|
|
|
|
scorers_dir = os.path.join(dst, 'scorers') |
|
makedirs(scorers_dir) |
|
for fil in glob.glob(os.path.join(dst, '*.frag')): |
|
shutil.copy(fil, scorers_dir) |
|
|
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return dst |
|
|
|
|
|
def rst_to_outputs(files, min_len=30, max_len=2048 // 2 - 30): |
|
|
|
|
|
|
|
import pypandoc |
|
basedir = os.path.abspath(os.getcwd()) |
|
|
|
outputs = [] |
|
for fil in files: |
|
os.chdir(basedir) |
|
os.chdir(os.path.dirname(fil)) |
|
fil = os.path.basename(fil) |
|
print("Processing %s" % fil, flush=True) |
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|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
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out_format = 'plain' |
|
|
|
extra_args = ['--wrap=preserve', '--resource path="%s" % dst'] |
|
|
|
plain_list = [] |
|
try: |
|
|
|
input_rst = pypandoc.convert_file(fil, 'rst') |
|
input_list = input_rst.split('\n``') |
|
for input_subrst in input_list: |
|
input_plain = pypandoc.convert_text(input_subrst, format='rst', to='plain') |
|
plain_list.append([input_plain, fil]) |
|
except Exception as e: |
|
print("file exception: %s %s" % (fil, str(e)), flush=True) |
|
|
|
if not plain_list: |
|
|
|
output = pypandoc.convert_file(fil, out_format, extra_args=extra_args, format='rst') |
|
outputs1 = get_sentences(output, length=max_len) |
|
for oi, output in enumerate(outputs1): |
|
output = output.replace('\n\n', '\n') |
|
plain_list.append([output, fil]) |
|
outputs.extend(plain_list) |
|
|
|
|
|
|
|
|
|
|
|
new_outputs = [] |
|
num_truncated = 0 |
|
num_orig = len(outputs) |
|
for output, fil in outputs: |
|
if len(output) < max_len: |
|
new_outputs.append([output, fil]) |
|
continue |
|
outputs1 = get_sentences(output, length=max_len) |
|
for oi, output1 in enumerate(outputs1): |
|
output1 = output1.replace('\n\n', '\n') |
|
new_outputs.append([output1, fil]) |
|
num_truncated += 1 |
|
print('num_orig: %s num_truncated: %s' % (num_orig, num_truncated), flush=True) |
|
|
|
new_outputs = [[k.strip(), fil] for k, fil in new_outputs if len(k.strip()) > min_len] |
|
|
|
return new_outputs |
|
|
|
|
|
def test_scrape_dai_docs_all_pandoc(): |
|
""" |
|
pytest -s -v create_data.py::test_scrape_dai_docs_all_pandoc |
|
:return: |
|
""" |
|
|
|
dst = setup_dai_docs() |
|
|
|
import glob |
|
files = list(glob.glob(os.path.join(dst, '*rst'), recursive=True)) |
|
|
|
basedir = os.path.abspath(os.getcwd()) |
|
new_outputs = rst_to_outputs(files) |
|
os.chdir(basedir) |
|
|
|
remove(dst) |
|
save_thing = [{"output": k.strip(), 'prompt_type': 'plain'} for k in new_outputs] |
|
output_file = "dai_docs.train_cleaned.json" |
|
with open(output_file, "wt") as f: |
|
f.write(json.dumps(save_thing, indent=2)) |
|
|
|
|
|
def test_config_to_json(): |
|
""" |
|
Needs to run from Driverless AI source directory. |
|
E.g. (base) jon@gpu:~/h2oai$ pytest -s -v /data/jon/h2ogpt/create_data.py::test_config_to_json ; cp config.json /data/jon/h2ogpt/ |
|
:return: |
|
""" |
|
try: |
|
|
|
import json |
|
from h2oaicore.systemutils import config |
|
toml_list = [] |
|
for k, v in config.get_meta_dict().items(): |
|
title = (v.title + ": ") if v.title else '' |
|
comment = v.comment or '' |
|
if not (title or comment): |
|
continue |
|
toml_list.extend( |
|
[ |
|
{ |
|
'prompt_type': 'plain', |
|
'instruction': f"<human>: What does {k} do?\n<bot>: {k.replace('_', ' ')} config.toml: {comment or title}\n<human>:".replace( |
|
"\n", ""), |
|
}, |
|
{ |
|
'prompt_type': 'plain', |
|
'instruction': f"<human>: Explain {k}.\n<bot>: {k.replace('_', ' ')} config.toml: {comment or title}\n<human>:".replace( |
|
"\n", ""), |
|
}, |
|
{ |
|
'prompt_type': 'plain', |
|
'instruction': f"<human>: How can I do this: {title}.\n<bot>: Set the {k.replace('_', ' ')} config.toml\n<human>:".replace( |
|
"\n", ""), |
|
} if title and comment else None, |
|
{ |
|
'prompt_type': 'human_bot', |
|
'instruction': f'Explain the following expert setting for Driverless AI', |
|
'input': f"{k}", |
|
'output': f"{k.replace('_', ' ')} config.toml: {comment or title}".replace("\n", ""), |
|
}, |
|
{ |
|
'prompt_type': 'human_bot', |
|
'instruction': f'Explain the following expert setting for Driverless AI', |
|
'input': f"{k}", |
|
'output': f"{k.replace('_', ' ')} config.toml: {title}{comment}".replace("\n", ""), |
|
}, |
|
{ |
|
'prompt_type': 'human_bot', |
|
'instruction': f'Explain the following expert setting for Driverless AI', |
|
'input': f"{k.replace('_', ' ')}", |
|
'output': f"{k.replace('_', ' ')} config.toml: {title}{comment}".replace("\n", ""), |
|
}, |
|
{ |
|
'prompt_type': 'human_bot', |
|
'instruction': f'Explain the following expert setting for Driverless AI', |
|
'input': f"{title}", |
|
'output': f"{k.replace('_', ' ')} config.toml: {title}{comment}".replace("\n", ""), |
|
}, |
|
{ |
|
'prompt_type': 'human_bot', |
|
'instruction': f'Provide a short explanation of the expert setting {k}', |
|
'output': f"{k.replace('_', ' ')} config.toml: {comment or title}".replace("\n", ""), |
|
}, |
|
{ |
|
'prompt_type': 'human_bot', |
|
'instruction': f'Provide a detailed explanation of the expert setting {k}', |
|
'output': f"{k.replace('_', ' ')} config.toml: {title}{comment}".replace("\n", ""), |
|
}, |
|
] |
|
) |
|
toml_list = [x for x in toml_list if x] |
|
with open("config.json", "wt") as f: |
|
f.write(json.dumps(toml_list, indent=2)) |
|
except Exception as e: |
|
print("Exception: %s" % str(e), flush=True) |
|
|
|
|
|
def copy_tree(src, dst, follow_symlink=False): |
|
makedirs(dst, exist_ok=True) |
|
for (path, dirs, files) in os.walk(src, followlinks=follow_symlink): |
|
new_path = path.replace(src, dst) |
|
makedirs(new_path, exist_ok=True) |
|
for file in files: |
|
filename = os.path.join(path, file) |
|
new_filename = os.path.join(new_path, file) |
|
|
|
try: |
|
atomic_copy(filename, new_filename) |
|
except FileNotFoundError: |
|
pass |
|
|
|
|
|
def atomic_move(src, dst): |
|
try: |
|
shutil.move(src, dst) |
|
except (shutil.Error, FileExistsError): |
|
pass |
|
remove(src) |
|
|
|
|
|
def atomic_copy(src=None, dst=None, with_permissions=True): |
|
if os.path.isfile(dst): |
|
return |
|
import uuid |
|
my_uuid = uuid.uuid4() |
|
dst_tmp = dst + str(my_uuid) |
|
makedirs(os.path.dirname(dst), exist_ok=True) |
|
if with_permissions: |
|
shutil.copy(src, dst_tmp) |
|
else: |
|
shutil.copyfile(src, dst_tmp) |
|
atomic_move(dst_tmp, dst) |
|
remove(dst_tmp) |
|
|
|
|
|
def makedirs(path, exist_ok=True): |
|
""" |
|
Avoid some inefficiency in os.makedirs() |
|
:param path: |
|
:param exist_ok: |
|
:return: |
|
""" |
|
if os.path.isdir(path) and os.path.exists(path): |
|
assert exist_ok, "Path already exists" |
|
return path |
|
os.makedirs(path, exist_ok=exist_ok) |
|
|
|
|
|
|
|
|
|
def test_prep_instruct_vicuna(): |
|
from datasets import load_dataset |
|
filename = 'ShareGPT_unfiltered_cleaned_split.json' |
|
if not os.path.exists(filename): |
|
os.system( |
|
'wget https://huggingface.co/datasets/anon8231489123/ShareGPT_Vicuna_unfiltered/resolve/main/%s' % filename) |
|
data = load_dataset("json", data_files={"train": filename})["train"] |
|
training_rows = [] |
|
for i in range(data.num_rows): |
|
conversations = data[i]['conversations'] |
|
assert isinstance(conversations, list), conversations |
|
convo = "" |
|
for j, conv in enumerate(conversations): |
|
|
|
|
|
if conv['from'] == 'human': |
|
FROM = '<human>: ' |
|
elif conv['from'] == 'gpt': |
|
FROM = '<bot>: ' |
|
convo += f"{FROM}" + conv['value'] + "\n" |
|
if convo: |
|
training_rows.append(dict(input=convo)) |
|
with open(filename + ".generate_human_bot.train_plain.json", "wt") as f: |
|
f.write(json.dumps(training_rows, indent=2)) |
|
|
|
|
|
POSTFIX = ".generate_human_bot.train_plain.json" |
|
|
|
|
|
OIG_DATASETS = [ |
|
"unified_chip2.jsonl", |
|
"unified_grade_school_math_instructions.jsonl", |
|
"unified_poetry_2_song.jsonl", |
|
"unified_plot_screenplay_books_dialog.jsonl", |
|
] |
|
|
|
|
|
ALL_OIG_DATASETS = ['unified_abstract_infill.jsonl', |
|
'unified_basic.jsonl', |
|
'unified_canadian_parliament.jsonl', |
|
'unified_chip2.jsonl', |
|
'unified_conv_finqa.jsonl', |
|
'unified_cuad.jsonl', |
|
'unified_essays.jsonl', |
|
'unified_flan.jsonl.gz', |
|
'unified_grade_school_math_instructions.jsonl', |
|
'unified_hc3_human.jsonl', |
|
'unified_image_prompts_instructions.jsonl', |
|
'unified_joke_explanations.jsonl', |
|
'unified_mathqa_flanv2_kojma_cot.jsonl', |
|
'unified_merged_code_xp3.jsonl', |
|
'unified_multi_news.jsonl', |
|
'unified_multi_sum.jsonl', |
|
'unified_ni.jsonl.gz', |
|
'unified_nq.jsonl', |
|
'unified_openai_summarize_tldr.jsonl', |
|
'unified_oscar_en_sample_dialog.jsonl', |
|
'unified_p3.jsonl.gz', |
|
'unified_plot_screenplay_books_dialog.jsonl', |
|
'unified_poetry_2_song.jsonl', |
|
'unified_poetry_instructions.jsonl', |
|
'unified_rallio_safety_and_prosocial.jsonl', |
|
'unified_rallio_soda_upgraded_2048.jsonl', |
|
'unified_soda_dialog.jsonl', |
|
'unified_sqlv1.jsonl', |
|
'unified_sqlv2.jsonl', |
|
'unified_squad_v2.jsonl', |
|
'unified_squad_v2_more_neg.jsonl', |
|
'unified_ul2_plus_oscar_en_sample_dialog.jsonl', |
|
'unified_unifiedskg_instructions.jsonl', |
|
'unified_unnatural_instructions.jsonl', |
|
'unified_xp3_sample.jsonl'] |
|
|
|
useful_oig_files = ['unified_rallio_safety_and_prosocial.jsonl.parquet', |
|
'unified_chip2.jsonl.parquet', |
|
'unified_cuad.jsonl.parquet', |
|
'unified_essays.jsonl.parquet', |
|
'unified_flan.jsonl.gz.parquet', |
|
'unified_grade_school_math_instructions.jsonl.parquet', |
|
'unified_hc3_human.jsonl.parquet', |
|
'unified_mathqa_flanv2_kojma_cot.jsonl.parquet', |
|
'unified_merged_code_xp3.jsonl.parquet', |
|
'unified_multi_news.jsonl.parquet', |
|
|
|
'unified_ni.jsonl.gz.parquet', |
|
'unified_openai_summarize_tldr.jsonl.parquet', |
|
|
|
'unified_plot_screenplay_books_dialog.jsonl.parquet', |
|
'unified_soda_dialog.jsonl.parquet', |
|
'unified_unnatural_instructions.jsonl.parquet', |
|
] |
|
|
|
|
|
@pytest.mark.parametrize("filename", OIG_DATASETS) |
|
def test_get_small_sample_oig_data(filename): |
|
if not os.path.exists(filename): |
|
os.system('wget https://huggingface.co/datasets/laion/OIG/resolve/main/%s' % filename) |
|
import json |
|
rows = [] |
|
with open(filename, "r") as f: |
|
for line in f.readlines(): |
|
row = json.loads(line) |
|
rows.append(dict(input=row["text"])) |
|
with open(filename + POSTFIX, "w") as f: |
|
f.write(json.dumps(rows, indent=2)) |
|
|
|
|
|
@pytest.mark.parametrize("filename", ALL_OIG_DATASETS) |
|
def test_download_useful_data_as_parquet(filename): |
|
dest_file = filename + '.parquet' |
|
if dest_file not in useful_oig_files: |
|
pytest.skip('file declared not useful') |
|
if not os.path.exists(filename): |
|
os.system('wget https://huggingface.co/datasets/laion/OIG/resolve/main/%s' % filename) |
|
if not os.path.exists(dest_file): |
|
df = pd.read_json(path_or_buf=filename, lines=True) |
|
df.to_parquet(dest_file, index=False) |
|
|
|
|
|
def test_merge_shuffle_small_sample_oig_data(): |
|
np.random.seed(1234) |
|
rows = [] |
|
for filename in OIG_DATASETS: |
|
with open(filename + POSTFIX, "r") as f: |
|
rows.extend(json.loads(f.read())) |
|
np.random.shuffle(rows) |
|
with open("merged_shuffled_OIG_%s.json" % hashlib.sha256(str(OIG_DATASETS).encode()).hexdigest()[:10], "w") as f: |
|
f.write(json.dumps(rows, indent=2)) |
|
|
|
|
|
def test_join_jsons(): |
|
files = ['config.json'] * 1 + \ |
|
['dai_docs.train_cleaned.json'] * 2 + \ |
|
['dai_faq.json'] * 3 |
|
print(files) |
|
lst = [] |
|
[lst.extend(json.load(open(fil, 'rt'))) for fil in files] |
|
print(len(lst)) |
|
json.dump(lst, open("merged.json", "wt"), indent=2) |
|
|
|
|
|
@pytest.mark.parametrize("filename", ['Anthropic/hh-rlhf']) |
|
def test_make_rlhf_good_data(filename): |
|
from datasets import load_dataset |
|
rows = load_dataset(filename)["train"]["chosen"] |
|
new_rows = [] |
|
for row in rows: |
|
if row[:2] == "\n\n": |
|
row = row[2:] |
|
row = row.replace("Human: ", "<human>: ") |
|
row = row.replace("Assistant: ", "<bot>: ") |
|
new_rows.append(dict(input=row)) |
|
with open(filename.replace("/", "_") + POSTFIX, "w") as f: |
|
f.write(json.dumps(new_rows, indent=2)) |
|
|
|
|
|
def test_show_prompts(): |
|
files = ['config.json'] * 1 + \ |
|
['dai_docs.train_cleaned.json'] * 1 + \ |
|
['dai_faq.json'] * 1 |
|
file_points = [json.load(open(fil, 'rt')) for fil in files] |
|
from prompter import generate_prompt |
|
for data_points in file_points: |
|
for data_point in data_points: |
|
print(generate_prompt(data_point, 'plain', '', False, False, False)[0]) |
|
|
|
|
|
def test_get_open_datasets(): |
|
|
|
open_tags = ['license:Apache License 2.0', |
|
'license:mit', |
|
'license:apache', |
|
'license:apache2', |
|
'license:apache-2.0', |
|
'license:bsd', |
|
'license:bsd-2-clause', |
|
'license:bsd-3-clause', |
|
'license:bsd-3-clause-clear', |
|
'license:lgpl-2.1', |
|
'license:lgpl-3.0', |
|
'license:lgpl-lr', |
|
'license:lgpl', |
|
'license:openrail++', |
|
'license:openrail', |
|
'license:bigscience-bloom-rail-1.0', |
|
|
|
'license:other', |
|
'license:unknown', |
|
|
|
|
|
'license:odc-by', |
|
'license:cc-by-4.0', |
|
'license:cc-by-3.0', |
|
'license:cc-by-2.0', |
|
'license:cc-by-2.5', |
|
|
|
'license:odbl', |
|
'license:pddl', |
|
'license:ms-pl', |
|
'license:zlib', |
|
] |
|
|
|
|
|
from huggingface_hub import list_datasets |
|
datasets = flatten_list([[x for x in list_datasets(filter=y)] for y in open_tags]) |
|
datasets += [x for x in list_datasets(author='openai')] |
|
|
|
all_license_tags = set(flatten_list([[y for y in x.tags if 'license' in y] for x in datasets])) |
|
print(len(all_license_tags)) |
|
open_datasets = [x for x in datasets if any([y in x.tags for y in open_tags]) or 'license:' not in str(x.tags)] |
|
print('open_datasets', len(open_datasets)) |
|
all_task_tags = set(flatten_list([[y for y in x.tags if 'task' in y] for x in open_datasets])) |
|
print('all_task_tags', len(all_task_tags)) |
|
excluded_tags = ['image', 'hate', 'tabular', 'table-', 'classification', 'retrieval', |
|
'translation', 'identification', 'object', 'mask', 'to-text', |
|
'face-detection', 'audio', 'voice', 'reinforcement', 'depth-est', |
|
'forecasting', 'parsing', 'visual', 'speech', 'multiple-choice', |
|
'slot-filling', 'irds/argsme', '-scoring', 'other', 'graph-ml', |
|
'feature-extraction', 'keyword-spotting', |
|
'coreference-resolution', 'segmentation', |
|
'word-sense-disambiguation', |
|
'lemmatization'] |
|
task_tags = [x.replace('task_categories:', '').replace('task_ids:', '') |
|
for x in all_task_tags if not any([y in x for y in |
|
excluded_tags])] |
|
print('task_tags', len(task_tags)) |
|
|
|
open_tasked_datasets = [x for x in open_datasets if |
|
any([y in str([x for x in x.tags if 'task' in x]) for y in task_tags]) and |
|
not any([y in str([x for x in x.tags if 'task' in x]) for y in excluded_tags]) or |
|
'task_categories' not in str(x.tags) and 'task_ids' not in str(x.tags)] |
|
open_tasked_datasets = [x for x in open_tasked_datasets if not x.disabled] |
|
open_tasked_datasets = [x for x in open_tasked_datasets if not x.gated] |
|
open_tasked_datasets = [x for x in open_tasked_datasets if not x.private] |
|
print('open_tasked_datasets', len(open_tasked_datasets)) |
|
sizes = list(set(flatten_list([[(y, x.id) for y in x.tags if 'size' in y] for x in open_tasked_datasets]))) |
|
languages = list(set(flatten_list([[(y, x.id) for y in x.tags if 'language:' in y] for x in open_tasked_datasets]))) |
|
open_english_tasked_datasets = [x for x in open_tasked_datasets if |
|
'language:' not in str(x.tags) or |
|
'language:en' in str(x.tags)] |
|
small_open_english_tasked_datasets = [x for x in open_english_tasked_datasets if |
|
'n<1K' in str(x.tags) or |
|
'1K<n<10K' in str(x.tags) or |
|
'1K0<n<100K' in str(x.tags) or |
|
'100K<n<1M' in str(x.tags) or |
|
'size_category' not in str(x.tags) |
|
] |
|
|
|
|
|
ids = [x.id for x in small_open_english_tasked_datasets] |
|
|
|
|
|
|
|
assert 'alespalla/chatbot_instruction_prompts' in ids |
|
assert 'laion/OIG' in ids |
|
assert 'openai/webgpt_comparisons' in ids |
|
assert 'openai/summarize_from_feedback' in ids |
|
assert 'Anthropic/hh-rlhf' in ids |
|
|
|
|
|
|
|
|
|
print('open_english_tasked_datasets: ', ids, flush=True) |
|
|
|
exclude_ids = ['allenai/nllb', |
|
'hf-internal-testing/fixtures_image_utils', |
|
'allenai/c4', |
|
'agemagician/uniref50', |
|
'huggingface-course/documentation-images', |
|
'smilegate-ai/kor_unsmile', |
|
'MohamedRashad/ChatGPT-prompts', |
|
'humarin/chatgpt-paraphrases', |
|
'Jeska/vaccinchat', |
|
'alespalla/chatbot_instruction_prompts', |
|
'allenai/prosocial-dialog', |
|
|
|
'AlekseyKorshuk/persona-chat', |
|
'bavard/personachat_truecased', |
|
'adamlin/daily_dialog', |
|
'adamlin/FewShotWoz', |
|
'benjaminbeilharz/better_daily_dialog', |
|
'benjaminbeilharz/daily_dialog_w_turn_templates', |
|
'benjaminbeilharz/empathetic_dialogues_for_lm', |
|
'GEM-submissions/GEM__bart_base_schema_guided_dialog__1645547915', |
|
'ia-bentebib/conv_ai_2_fr', |
|
'ia-bentebib/daily_dialog_fr', |
|
'ia-bentebib/dialog_re_fr', |
|
'ia-bentebib/empathetic_dialogues_fr', |
|
'roskoN/dailydialog', |
|
'VadorMazer/skyrimdialogstest', |
|
'bigbio/med_qa', |
|
'biu-nlp/qa_srl2018', |
|
'biu-nlp/qa_discourse', |
|
'iarfmoose/qa_evaluator', |
|
'jeopardy', |
|
'narrativeqa', |
|
'nomic-ai/gpt4all_prompt_generations', |
|
'nomic-ai/gpt4all_prompt_generations_with_p3', |
|
'HuggingFaceH4/alpaca', |
|
'tatsu-lab/alpaca', |
|
'yahma/alpaca-cleaned', |
|
'Hello-SimpleAI/HC3', |
|
'glue', |
|
'sahil2801/CodeAlpaca-20k', |
|
'Short-Answer-Feedback/saf_communication_networks_english', |
|
] |
|
small_open_english_tasked_datasets = [x for x in small_open_english_tasked_datasets if x.id not in exclude_ids] |
|
|
|
small_open_english_tasked_datasets = [x for x in small_open_english_tasked_datasets if 'speech' not in x.id] |
|
|
|
small_open_english_tasked_datasets = [x for x in small_open_english_tasked_datasets if |
|
'hf-internal-testing' not in x.id] |
|
small_open_english_tasked_datasets = [x for x in small_open_english_tasked_datasets if |
|
'chinese' not in x.id] |
|
|
|
sorted_small_open_english_tasked_datasets = sorted([(x.downloads, x) for x in small_open_english_tasked_datasets], |
|
key=lambda x: x[0], reverse=True) |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
""" |
|
https://huggingface.co/datasets/wikihow/blob/main/wikihow.py |
|
https://github.com/mahnazkoupaee/WikiHow-Dataset |
|
https://ucsb.box.com/s/ap23l8gafpezf4tq3wapr6u8241zz358 |
|
https://ucsb.app.box.com/s/ap23l8gafpezf4tq3wapr6u8241zz358 |
|
""" |
|
|
|
""" |
|
# some ambiguous or non-commercial datasets |
|
https://github.com/PhoebusSi/alpaca-CoT |
|
""" |
|
|
|
timeout = 3 * 60 |
|
|
|
for num_downloads, dataset in sorted_small_open_english_tasked_datasets: |
|
data_id = dataset.id |
|
func = do_one |
|
args = (data_id, num_downloads) |
|
kwargs = {} |
|
with ProcessPoolExecutor(max_workers=1) as executor: |
|
future = executor.submit(func, *args, **kwargs) |
|
try: |
|
future.result(timeout=timeout) |
|
except concurrent.futures.TimeoutError: |
|
print("\n\ndata_id %s timeout\n\n" % data_id, flush=True) |
|
for child in psutil.Process(os.getpid()).children(recursive=True): |
|
os.kill(child.pid, signal.SIGINT) |
|
os.kill(child.pid, signal.SIGTERM) |
|
os.kill(child.pid, signal.SIGKILL) |
|
|
|
|
|
def do_one(data_id, num_downloads): |
|
from datasets import load_dataset |
|
out_file = "data_%s.parquet" % str(data_id.replace('/', '_')) |
|
if os.path.isfile(out_file) and os.path.getsize(out_file) > 1024 ** 3: |
|
return |
|
try: |
|
print("Loading data_id %s num_downloads: %s" % (data_id, num_downloads), flush=True) |
|
avail_list = None |
|
try: |
|
data = load_dataset(data_id, 'foobar') |
|
except Exception as e: |
|
if 'Available: ' in str(e): |
|
avail_list = ast.literal_eval(str(e).split('Available:')[1].strip()) |
|
else: |
|
avail_list = None |
|
if avail_list is None: |
|
avail_list = [None] |
|
print("%s avail_list: %s" % (data_id, avail_list), flush=True) |
|
|
|
for name in avail_list: |
|
out_file = "data_%s_%s.parquet" % (str(data_id.replace('/', '_')), str(name)) |
|
if os.path.isfile(out_file): |
|
continue |
|
data = load_dataset(data_id, name) |
|
column_names_dict = data.column_names |
|
column_names = column_names_dict[list(column_names_dict.keys())[0]] |
|
print("Processing data_id %s num_downloads: %s columns: %s" % (data_id, num_downloads, column_names), |
|
flush=True) |
|
data_dict = data.data |
|
col_dict = data.num_columns |
|
first_col = list(col_dict.keys())[0] |
|
if 'train' in data_dict: |
|
df = data['train'].to_pandas() |
|
else: |
|
df = data[first_col].to_pandas() |
|
|
|
df.to_parquet(out_file, index=False) |
|
except Exception as e: |
|
t, v, tb = sys.exc_info() |
|
ex = ''.join(traceback.format_exception(t, v, tb)) |
|
print("Exception: %s %s" % (data_id, ex), flush=True) |
|
|
|
|
|
def test_otherlic(): |
|
from huggingface_hub import list_datasets |
|
lic = ['license:odc-by', |
|
'license:cc-by-4.0', |
|
'license:cc-by-3.0', |
|
'license:cc-by-2.0', |
|
'license:cc-by-2.5', |
|
'license:cc-by-sa-4.0', |
|
'license:odbl', |
|
'license:pddl', |
|
'license:ms-pl', |
|
'license:zlib', |
|
] |
|
datasets = flatten_list([[x for x in list_datasets(filter=y) if 'translation' not in str(x.tags)] for y in lic]) |
|
print(len(datasets)) |
|
|
|
|
|
|
|
|
|
useful = ['Dahoas/instruct-human-assistant-prompt', |
|
'Dahoas/first-instruct-human-assistant-prompt', |
|
'knkarthick/dialogsum', |
|
'McGill-NLP/FaithDial', |
|
'Zaid/quac_expanded', |
|
'0-hero/OIG-small-chip2', |
|
'alistvt/coqa-flat', |
|
'AnonymousSub/MedQuAD_47441_Question_Answer_Pairs', |
|
'Anthropic/hh-rlhf', |
|
'arjunth2001/online_privacy_qna', |
|
'Dahoas/instruct_helpful_preferences', |
|
'Dahoas/rl-prompt-dataset', |
|
'Dahoas/rm-static', |
|
'Dahoas/static-hh', |
|
'Dahoas/synthetic-instruct-gptj-pairwise', |
|
'eli5', |
|
'gsm8k', |
|
'guanaco/guanaco', |
|
'kastan/rlhf-qa-comparisons', |
|
'kastan/rlhf-qa-conditional-generation-v2', |
|
'OllieStanley/humaneval-mbpp-codegen-qa', |
|
'OllieStanley/humaneval-mbpp-testgen-qa', |
|
'Graverman/Instruct-to-Code', |
|
'openai/summarize_from_feedback', |
|
'relbert/analogy_questions', |
|
'yitingxie/rlhf-reward-datasets', |
|
'yizhongw/self_instruct', |
|
'HuggingFaceH4/asss', |
|
'kastan/rlhf-qa-conditional-generation-v2', |
|
'cosmos_qa', |
|
'vishal-burman/c4-faqs', |
|
'squadshifts', |
|
'hotpot_qa', |
|
'adversarial_qa', |
|
'allenai/soda', |
|
'squad_v2', |
|
'squadshifts', |
|
'dferndz/cSQuAD1', |
|
'dferndz/cSQuAD2', |
|
'din0s/msmarco-nlgen', |
|
'domenicrosati/TruthfulQA', |
|
'hotpot_qa', |
|
'HuggingFaceH4/self-instruct-eval', |
|
'kastan/EE_QA_for_RLHF', |
|
'KK04/LogicInference_OA', |
|
'lmqg/qa_squadshifts_synthetic', |
|
'lmqg/qg_squad', |
|
'lmqg/qg_squadshifts', |
|
'lmqg/qg_subjqa', |
|
'pszemraj/HC3-textgen-qa', |
|
|
|
'pythonist/newdata', |
|
'ropes', |
|
'wikitablequestions', |
|
'bigscience/p3', |
|
] |
|
|
|
code_useful = ['0n1xus/codexglue', |
|
'openai_humaneval', |
|
'koutch/staqc', |
|
] |
|
|
|
maybe_useful = ['AlekseyKorshuk/comedy-scripts', |
|
'openbookqa', |
|
'qed', |
|
'selqa', |
|
'HuggingFaceH4/instruction-pilot-outputs-filtered', |
|
'GBaker/MedQA-USMLE-4-options', |
|
'npc-engine/light-batch-summarize-dialogue', |
|
] |
|
|
|
summary_useful = ['austin/rheum_abstracts', |
|
'CarperAI/openai_summarize_comparisons', |
|
'CarperAI/openai_summarize_tldr', |
|
'ccdv/cnn_dailymail', |
|
'ccdv/govreport-summarization', |
|
'ccdv/pubmed-summarization', |
|
'duorc', |
|
'farleyknight/big_patent_5_percent', |
|
'multi_news', |
|
'opinosis', |
|
'SophieTr/reddit_clean', |
|
'allenai/mup', |
|
'allenai/multi_lexsum', |
|
'big_patent', |
|
'allenai/wcep_dense_max', |
|
'awinml/costco_long_practice', |
|
'GEM/xsum', |
|
'ratishsp/newshead', |
|
'RussianNLP/wikiomnia', |
|
'stacked-summaries/stacked-xsum-1024', |
|
] |
|
|
|
math_useful = [ |
|
'competition_math' |
|
] |
|
|
|
skipped = ['c4', |
|
] |
|
|
|
""" |
|
To get training data from oig: |
|
pytest test_oig test_grade_final test_finalize_to_json |
|
""" |
|
|
|
human = '<human>:' |
|
bot = '<bot>:' |
|
|
|
|
|
def test_assemble_and_detox(): |
|
import re |
|
from profanity_check import predict_prob |
|
df_list = [] |
|
for data in useful_oig_files: |
|
print("Processing %s" % data, flush=True) |
|
df = pd.read_parquet(data) |
|
df = df.reset_index(drop=True) |
|
|
|
text_list = df[['text']].values.ravel().tolist() |
|
new_text = [] |
|
max_len = 2048 |
|
MAX_LEN = 2048 // 2 - 30 |
|
for text in tqdm(text_list): |
|
human_starts = [m.start() for m in re.finditer('<human>: ', text)] |
|
if len(human_starts) == 1: |
|
human_starts = [0, len(text)] |
|
blurb = '' |
|
for i in range(len(human_starts) - 1): |
|
interaction = text[human_starts[i]: human_starts[i + 1]][:max_len] |
|
blurb += interaction |
|
if len(blurb) >= MAX_LEN: |
|
blurb = get_sentences(blurb, length=MAX_LEN)[0] |
|
new_text.append(blurb + "\n<human>:") |
|
blurb = '' |
|
if blurb: |
|
blurb = get_sentences(blurb, length=MAX_LEN)[0] |
|
new_text.append(blurb + "\n<human>:") |
|
|
|
if len(new_text) > len(text_list): |
|
print("Added %d new rows (before: %d)" % (len(new_text) - df.shape[0], df.shape[0])) |
|
df = pd.DataFrame({"text": new_text, "source": [data] * len(new_text)}) |
|
df = df.drop_duplicates(keep='first') |
|
print(df['text'].apply(lambda x: len(x)).describe()) |
|
assert df['text'].apply(lambda x: len(x)).max() <= 2 * max_len |
|
|
|
|
|
df['profanity'] = predict_prob(df['text']) |
|
before_rows = df.shape[0] |
|
df = df[df['profanity'] < 0.25] |
|
after_rows = df.shape[0] |
|
print("Dropped %d rows out of %d due to alt-profanity-check" % (before_rows - after_rows, before_rows)) |
|
df_list.append(df) |
|
print("Done processing %s -> %s rows" % (data, df.shape[0]), flush=True) |
|
print("So far have %d rows" % sum([len(x) for x in df_list])) |
|
df_final = pd.concat(df_list) |
|
df_final = df_final.sample(frac=1, random_state=1234).reset_index(drop=True) |
|
df_final.to_parquet('h2oGPT.cleaned.human_bot.shorter.parquet', index=False) |
|
|
|
|
|
def test_basic_cleaning(): |
|
|
|
|
|
from profanity_check import predict |
|
df_list = [] |
|
for data in useful_oig_files: |
|
|
|
|
|
print("Processing %s" % data, flush=True) |
|
df = pd.read_parquet(data) |
|
df = df.reset_index(drop=True) |
|
|
|
|
|
df['avg_words'] = df['text'].apply(lambda x: x.count(' ') / (x.count(human) + x.count(bot)) / 2.0) |
|
df['avg_bot_words'] = df['text'].apply(lambda x: x.split(bot)[1].count(' ') / x.count(bot)) |
|
|
|
|
|
res = predict(df['text']) |
|
df['bad_words'] = res |
|
df = df.reset_index(drop=True) |
|
df = df[df['bad_words'] == 0] |
|
df = df[['text', 'avg_words', 'avg_bot_words']] |
|
df = df.drop_duplicates(keep='first') |
|
print(df[df['avg_words'] == df['avg_words'].max()]['text'].values) |
|
median_words = np.median(df['avg_words']) |
|
min_words_per_entity = max(30, 0.8 * median_words) |
|
max_words_per_entity = 2048 |
|
df = df[df['avg_words'] > min_words_per_entity] |
|
df = df[df['avg_words'] < max_words_per_entity] |
|
|
|
min_words_per_entity = max(20, 0.5 * median_words) |
|
max_words_per_entity = 2048 |
|
df = df[df['avg_bot_words'] > min_words_per_entity] |
|
df = df[df['avg_bot_words'] < max_words_per_entity] |
|
|
|
df_list.append(df) |
|
print("Done processing %s -> %s rows" % (data, df.shape[0]), flush=True) |
|
df_final = pd.concat(df_list) |
|
df_final.to_parquet('h2oGPT.cleaned.human_bot.parquet', index=False) |
|
|
|
|
|
from joblib import Parallel, delayed, effective_n_jobs |
|
from sklearn.utils import gen_even_slices |
|
from sklearn.utils.validation import _num_samples |
|
|
|
|
|
def parallel_apply(df, func, n_jobs=-1, **kwargs): |
|
""" Pandas apply in parallel using joblib. |
|
Uses sklearn.utils to partition input evenly. |
|
|
|
Args: |
|
df: Pandas DataFrame, Series, or any other object that supports slicing and apply. |
|
func: Callable to apply |
|
n_jobs: Desired number of workers. Default value -1 means use all available cores. |
|
**kwargs: Any additional parameters will be supplied to the apply function |
|
|
|
Returns: |
|
Same as for normal Pandas DataFrame.apply() |
|
|
|
""" |
|
|
|
if effective_n_jobs(n_jobs) == 1: |
|
return df.apply(func, **kwargs) |
|
else: |
|
ret = Parallel(n_jobs=n_jobs)( |
|
delayed(type(df).apply)(df[s], func, **kwargs) |
|
for s in gen_even_slices(_num_samples(df), effective_n_jobs(n_jobs))) |
|
return pd.concat(ret) |
|
|
|
|
|
def add_better_profanity_flag(df): |
|
from better_profanity import profanity |
|
df['better_profanity'] = parallel_apply( |
|
df['text'], |
|
lambda x: profanity.contains_profanity(x), |
|
n_jobs=-1, |
|
) |
|
return df |
|
|
|
|
|
def add_textstat_grade(df): |
|
import textstat |
|
|
|
def myfunc(x): |
|
return textstat.flesch_kincaid_grade(x) |
|
|
|
if False: |
|
import dask.dataframe as dd |
|
|
|
ddata = dd.from_pandas(df, npartitions=120) |
|
|
|
df['flesch_grade'] = ddata['text'].apply(myfunc).compute() |
|
if True: |
|
|
|
df['flesch_grade'] = parallel_apply(df['text'], myfunc, n_jobs=-1) |
|
return df |
|
|
|
|
|
def add_deberta_grade(df): |
|
from transformers import AutoModelForSequenceClassification, AutoTokenizer |
|
import torch |
|
reward_name = "OpenAssistant/reward-model-deberta-v3-large-v2" |
|
rank_model, tokenizer = AutoModelForSequenceClassification.from_pretrained( |
|
reward_name), AutoTokenizer.from_pretrained(reward_name) |
|
device = 'cuda' if torch.cuda.is_available() else 'cpu' |
|
rank_model.to(device) |
|
|
|
def get_question(x): |
|
return x.replace('<human>: ', '').split('<bot>:')[0] |
|
|
|
def get_answer(x): |
|
try: |
|
answer = x.split('<bot>: ')[1].split('<human>:')[0].replace('<bot>: ', '') |
|
except: |
|
answer = x.split('<bot>:')[1].split('<human>:')[0].replace('<bot>:', '') |
|
return answer |
|
|
|
df['question'] = parallel_apply(df['text'], get_question, n_jobs=-1) |
|
df['answer'] = parallel_apply(df['text'], get_answer, n_jobs=-1) |
|
|
|
from datasets import Dataset |
|
from transformers import pipeline |
|
from transformers.pipelines.pt_utils import KeyPairDataset |
|
import tqdm |
|
|
|
pipe = pipeline( |
|
"text-classification", |
|
model=reward_name, |
|
device="cuda:0" if torch.cuda.is_available() else "cpu" |
|
) |
|
start = 0 |
|
batch_size = 64 * 16 |
|
micro_batch = orig_micro_batch = 16 |
|
end = 0 |
|
import socket |
|
checkpoint = "grades.%s.pkl" % socket.gethostname() |
|
grades = [] |
|
import pickle |
|
if os.path.exists(checkpoint): |
|
with open(checkpoint, "rb") as f: |
|
start, grades = pickle.loads(f.read()) |
|
last_oom = 0 |
|
while end < df.shape[0]: |
|
|
|
end = min(start + batch_size, df.shape[0]) |
|
if start == end: |
|
break |
|
dataset = Dataset.from_pandas(df.iloc[start:end, :]) |
|
try: |
|
grades.extend([ |
|
x['score'] for x in tqdm.tqdm( |
|
pipe(KeyPairDataset(dataset, "question", "answer"), batch_size=micro_batch) |
|
) |
|
]) |
|
except torch.cuda.OutOfMemoryError: |
|
last_oom = start |
|
micro_batch = max(1, micro_batch // 2) |
|
print("OOM - retrying with micro_batch=%d" % micro_batch) |
|
continue |
|
if last_oom == start: |
|
micro_batch = orig_micro_batch |
|
print("Returning to micro_batch=%d" % micro_batch) |
|
assert len(grades) == end |
|
start = end |
|
with open(checkpoint, "wb") as f: |
|
f.write(pickle.dumps((end, grades))) |
|
print("%d/%d" % (end, df.shape[0])) |
|
df['grade_deberta'] = grades |
|
if os.path.exists(checkpoint): |
|
os.remove(checkpoint) |
|
return df |
|
|
|
|
|
def test_chop_by_lengths(): |
|
file = "h2oGPT.cleaned.human_bot.shorter.parquet" |
|
df = pd.read_parquet(file).reset_index(drop=True) |
|
df = count_human_bot_lengths(df) |
|
df['rand'] = np.random.rand(df.shape[0]) |
|
df['rand2'] = np.random.rand(df.shape[0]) |
|
before_rows = df.shape[0] |
|
|
|
df = df[(df['len_human_mean'] > 20)] |
|
df = df[(df['len_human_mean'] > 30) | (df['rand'] < 0.2)] |
|
df = df[(df['len_human_mean'] > 50) | (df['rand'] < 0.5)] |
|
df = df[(df['len_human_max'] < 10000)] |
|
df = df[(df['len_bot_mean'] > 20)] |
|
df = df[(df['len_bot_mean'] > 30) | (df['rand2'] < 0.2)] |
|
df = df[(df['len_bot_mean'] > 50) | (df['rand2'] < 0.5)] |
|
df = df[(df['len_bot_max'] < 10000)] |
|
assert df['text'].apply(lambda x: len(x)).max() < 20000 |
|
df = df.drop(['rand', 'rand2'], axis=1) |
|
after_rows = df.shape[0] |
|
print("Chopped off %d out of %d rows due to length" % (before_rows - after_rows, before_rows)) |
|
print(df.describe()) |
|
df.to_parquet('h2oGPT.cleaned.chopped.human_bot.shorter.parquet', index=False) |
|
|
|
|
|
def count_human_bot_lengths(df, human=None, bot=None): |
|
import re |
|
len_human_min = [] |
|
len_human_max = [] |
|
len_human_mean = [] |
|
len_bot_min = [] |
|
len_bot_max = [] |
|
len_bot_mean = [] |
|
human = human or '<human>:' |
|
bot = bot or '<bot>:' |
|
for is_human in [True, False]: |
|
what = human if is_human else bot |
|
other = human if not is_human else bot |
|
for i in range(df.shape[0]): |
|
text = df.loc[i, 'text'] |
|
assert isinstance(text, str) |
|
starts = [m.start() for m in re.finditer(what, text)] |
|
if len(starts) == 1: |
|
starts = [starts[0], len(text)] |
|
assert len(text) |
|
list_what = [] |
|
for ii in range(len(starts) - 1): |
|
interaction = text[starts[ii]: starts[ii + 1]] |
|
if other in interaction: |
|
interaction = interaction[:interaction.find(other)] |
|
interaction.strip() |
|
list_what.append(interaction) |
|
if not list_what: |
|
list_what = [''] |
|
if is_human: |
|
len_human_min.append(min([len(x) for x in list_what])) |
|
len_human_max.append(max([len(x) for x in list_what])) |
|
len_human_mean.append(np.mean([len(x) for x in list_what])) |
|
else: |
|
len_bot_min.append(min([len(x) for x in list_what])) |
|
len_bot_max.append(max([len(x) for x in list_what])) |
|
len_bot_mean.append(np.mean([len(x) for x in list_what])) |
|
df['len_human_min'] = len_human_min |
|
df['len_human_max'] = len_human_max |
|
df['len_human_mean'] = len_human_mean |
|
df['len_bot_min'] = len_bot_min |
|
df['len_bot_max'] = len_bot_max |
|
df['len_bot_mean'] = len_bot_mean |
|
np.random.seed(1234) |
|
pd.set_option('display.max_columns', None) |
|
print("Before chopping") |
|
print(df.describe()) |
|
return df |
|
|
|
|
|
def test_grade(): |
|
df = None |
|
|
|
file = "h2oGPT.cleaned.chopped.human_bot.shorter.parquet" |
|
output_file = "h2oGPT.cleaned.graded1.human_bot.shorter.parquet" |
|
if not os.path.exists(output_file): |
|
if df is None: |
|
df = pd.read_parquet(file).reset_index(drop=True) |
|
df = add_textstat_grade(df) |
|
min_grade = 10 |
|
max_grade = 25 |
|
df = df[df['flesch_grade'] >= min_grade] |
|
df = df[df['flesch_grade'] <= max_grade] |
|
print("After Flesch grade") |
|
print(df.describe()) |
|
df.to_parquet(output_file, index=False) |
|
|
|
file = output_file |
|
output_file = "h2oGPT.cleaned.graded2.human_bot.shorter.parquet" |
|
if not os.path.exists(output_file): |
|
|
|
if df is None: |
|
df = pd.read_parquet(file).reset_index(drop=True) |
|
df = add_better_profanity_flag(df) |
|
before_rows = df.shape[0] |
|
df = df[df['better_profanity'] == 0] |
|
df = df.drop(['better_profanity'], axis=1) |
|
after_rows = df.shape[0] |
|
print("Dropped %d rows out of %d due to better_profanity" % (before_rows - after_rows, before_rows)) |
|
print(df.describe()) |
|
df.to_parquet(output_file, index=False) |
|
|
|
file = output_file |
|
output_file = 'h2oGPT.cleaned.graded3.human_bot.shorter.parquet' |
|
if not os.path.exists(output_file): |
|
if df is None: |
|
df = pd.read_parquet(file).reset_index(drop=True) |
|
df = add_deberta_grade(df) |
|
min_grade = 0.3 |
|
max_grade = np.inf |
|
before_rows = df.shape[0] |
|
df = df[df['grade_deberta'] >= min_grade] |
|
df = df[df['grade_deberta'] <= max_grade] |
|
after_rows = df.shape[0] |
|
print("Dropped %d rows out of %d due to deberta grade" % (before_rows - after_rows, before_rows)) |
|
print("After DeBERTa grade") |
|
print(df.describe()) |
|
df.to_parquet(output_file, index=False) |
|
|
|
file = output_file |
|
output_file = 'h2oGPT.cleaned.graded.human_bot.shorter.parquet' |
|
if df is None: |
|
df = pd.read_parquet(file).reset_index(drop=True) |
|
df.to_parquet(output_file, index=False) |
|
|
|
|
|
@pytest.mark.parametrize( |
|
"fixup_personality, only_personality, deberta_grading", |
|
[ |
|
[False, False, False], |
|
[True, True, False], |
|
[True, False, False], |
|
[True, False, True], |
|
] |
|
) |
|
def test_add_open_assistant(fixup_personality, only_personality, deberta_grading, save_json=True): |
|
""" |
|
Flatten tree structure into one row per path from root to leaf |
|
Also turn into human_bot prompting format: |
|
<human>: question\n<bot>: answer <human>: question2\n<bot>: answer2 Etc. |
|
Also saves a .json locally as side-effect |
|
returns list of dicts, containing intput, prompt_type and source |
|
""" |
|
from datasets import load_dataset |
|
data_file = "OpenAssistant/oasst1" |
|
ds = load_dataset(data_file) |
|
df = pd.concat([ds['train'].to_pandas(), ds['validation'].to_pandas()], axis=0) |
|
rows = {} |
|
message_ids = df['message_id'].values.tolist() |
|
message_tree_ids = df['message_tree_id'].values.tolist() |
|
parent_ids = df['parent_id'].values.tolist() |
|
texts = df['text'].values.tolist() |
|
roles = df['role'].values.tolist() |
|
|
|
for i in range(df.shape[0]): |
|
|
|
message_id = message_ids[i] |
|
message_tree_id = message_tree_ids[i] |
|
parent_id = parent_ids[i] |
|
text = texts[i] |
|
if fixup_personality: |
|
text = text.replace("Open Assistant", "h2oGPT") |
|
text = text.replace("Open-Assistant", "h2oGPT") |
|
text = text.replace("open-assistant", "h2oGPT") |
|
text = text.replace("OpenAssistant", "h2oGPT") |
|
text = text.replace("open assistant", "h2oGPT") |
|
text = text.replace("Open Assistand", "h2oGPT") |
|
text = text.replace("Open Assitant", "h2oGPT") |
|
text = text.replace("Open Assistent", "h2oGPT") |
|
text = text.replace("Open Assisstant", "h2oGPT") |
|
text = text.replace("Open Assitent", "h2oGPT") |
|
text = text.replace("Open Assitiant", "h2oGPT") |
|
text = text.replace("Open Assistiant", "h2oGPT") |
|
text = text.replace("Open Assitan ", "h2oGPT ") |
|
text = text.replace("Open Assistan ", "h2oGPT ") |
|
text = text.replace("Open Asistant", "h2oGPT") |
|
text = text.replace("Open Assiant", "h2oGPT") |
|
text = text.replace("Assistant", "h2oGPT") |
|
text = text.replace("LAION AI", "H2O.ai") |
|
text = text.replace("LAION-AI", "H2O.ai") |
|
text = text.replace("LAION,", "H2O.ai,") |
|
text = text.replace("LAION.ai", "H2O.ai") |
|
text = text.replace("LAION.", "H2O.ai.") |
|
text = text.replace("LAION", "H2O.ai") |
|
|
|
role = roles[i] |
|
new_data = ('<human>: ' if role == 'prompter' else '<bot>: ') + text |
|
entry = dict(message_id=message_id, parent_id=parent_id, text=new_data) |
|
if message_tree_id not in rows: |
|
rows[message_tree_id] = [entry] |
|
else: |
|
rows[message_tree_id].append(entry) |
|
|
|
all_rows = [] |
|
|
|
for node_id in rows: |
|
|
|
conversations = [] |
|
|
|
list_msgs = rows[node_id] |
|
|
|
while len(list_msgs): |
|
for i, leaf in enumerate(list_msgs): |
|
found = False |
|
parent_id = leaf['parent_id'] |
|
if parent_id is None: |
|
|
|
conversations.append(leaf) |
|
found = True |
|
else: |
|
for conv in conversations: |
|
|
|
if parent_id in conv['message_id'] and parent_id != conv['message_id'][-len(parent_id):]: |
|
|
|
continue |
|
if parent_id == conv['message_id'][-len(parent_id):]: |
|
|
|
conversations.append(conv.copy()) |
|
conv['text'] += f""" |
|
{leaf['text']} |
|
""" |
|
conv['message_id'] += leaf['message_id'] |
|
found = True |
|
break |
|
if found: |
|
|
|
del list_msgs[i] |
|
break |
|
|
|
|
|
for i, conv in enumerate(conversations): |
|
for j, conv2 in enumerate(conversations): |
|
if i == j: |
|
continue |
|
if conv['message_id'] and conv2['message_id']: |
|
assert conv['message_id'] != conv2['message_id'] |
|
|
|
if conv['message_id'] in conv2['message_id']: |
|
conv['message_id'] = None |
|
if conv2['message_id'] in conv['message_id']: |
|
conv2['message_id'] = None |
|
conversations = [c for c in conversations if c['message_id']] |
|
if only_personality: |
|
all_rows.extend( |
|
[dict(input=c['text'] + "\n<human>:", prompt_type='plain', source=data_file) for c in conversations if |
|
'h2oGPT' in c['text']]) |
|
else: |
|
all_rows.extend( |
|
[dict(input=c['text'] + "\n<human>:", prompt_type='plain', source=data_file) for c in conversations if |
|
"What is H2O.ai" not in c['text']]) |
|
unhelpful = get_unhelpful_list() |
|
all_rows = [x for x in all_rows if not any(u in x['input'] for u in unhelpful)] |
|
personality = create_personality_data() |
|
all_rows.extend(personality * 10) |
|
np.random.seed(123) |
|
np.random.shuffle(all_rows) |
|
print(len(all_rows)) |
|
if deberta_grading: |
|
df = pd.DataFrame(all_rows) |
|
df = df.rename(columns={'input': 'text'}) |
|
df = add_deberta_grade(df) |
|
df = df.rename(columns={'text': 'input'}) |
|
drop = True |
|
if drop: |
|
min_grade = 0.3 |
|
max_grade = np.inf |
|
before_rows = df.shape[0] |
|
df = df[df['grade_deberta'] >= min_grade] |
|
df = df[df['grade_deberta'] <= max_grade] |
|
after_rows = df.shape[0] |
|
print("Dropped %d rows out of %d due to deberta grade" % (before_rows - after_rows, before_rows)) |
|
print("After DeBERTa grade") |
|
print(df.describe()) |
|
all_rows = [] |
|
for i in range(df.shape[0]): |
|
all_rows.append( |
|
dict( |
|
input=df['input'].iloc[i], |
|
source=df['source'].iloc[i], |
|
prompt_type=df['prompt_type'].iloc[i], |
|
grade_deberta=df['grade_deberta'].iloc[i], |
|
) |
|
) |
|
if save_json: |
|
data_file = data_file + \ |
|
("_h2ogpt" if fixup_personality else "") + \ |
|
("_only" if only_personality else "") + \ |
|
("_graded" if deberta_grading else "") |
|
for i in range(len(all_rows)): |
|
all_rows[i]['id'] = i |
|
with open(data_file.lower().replace("/", "_") + ".json", "w") as f: |
|
f.write(json.dumps(all_rows, indent=2)) |
|
return all_rows |
|
|
|
|
|
def test_finalize_to_json(): |
|
df = pd.read_parquet('h2oGPT.cleaned.graded.human_bot.shorter.parquet') |
|
df = df.rename(columns={'text': 'input'}) |
|
|
|
print("Number of high-quality human_bot interactions: %s" % df.shape[0], flush=True) |
|
|
|
print("Adding open assistant data") |
|
with open("openassistant_oasst1_h2ogpt_graded.json") as f: |
|
open_assistant = json.loads(f.read()) |
|
df = pd.concat([df, pd.DataFrame(open_assistant)], axis=0) |
|
|
|
def final_clean(df): |
|
from better_profanity import profanity |
|
profanity.load_censor_words_from_file("data/censor_words.txt") |
|
df['profanity'] = parallel_apply( |
|
df['input'], |
|
lambda x: profanity.contains_profanity(x), |
|
n_jobs=-1, |
|
) |
|
return df[(df['profanity'] == 0)].reset_index(drop=True) |
|
|
|
print("Before cleaning: Number of final high-quality human_bot interactions: %s" % df.shape[0], flush=True) |
|
df = final_clean(df) |
|
print("After cleaning: Number of final high-quality human_bot interactions: %s" % df.shape[0], flush=True) |
|
print(df.describe()) |
|
print(df.shape) |
|
row_list = [] |
|
for i in range(df.shape[0]): |
|
row_list.append( |
|
dict( |
|
input=df.loc[i, 'input'], |
|
source=df.loc[i, 'source'], |
|
prompt_type='plain', |
|
) |
|
) |
|
np.random.seed(1234) |
|
np.random.shuffle(row_list) |
|
unhelpful = get_unhelpful_list() |
|
row_list = [x for x in row_list if not any(u in x['input'] for u in unhelpful)] |
|
for i in range(len(row_list)): |
|
row_list[i]['id'] = i |
|
row_list[i]['input'] = row_list[i]['input'].replace(" <bot>:", "\n<bot>:") |
|
with open('h2ogpt-oig-oasst1-instruct-cleaned-v3.json', "w") as f: |
|
f.write(json.dumps(row_list, indent=2)) |
|
|
|
|
|
def create_personality_data(): |
|
questions = [ |
|
"What's your name?", |
|
"What is your name?", |
|
"What are you?", |
|
"Who are you?", |
|
"Do you have a name?", |
|
"Who trained you?", |
|
"Who created you?", |
|
"Who made you?", |
|
] |
|
answers = [ |
|
"I'm h2oGPT, a large language model by H2O.ai.", |
|
"I'm h2oGPT, a large language model by H2O.ai, the visionary leader in democratizing AI.", |
|
"My name is h2oGPT. I'm a large language model by H2O.ai, the visionary leader in democratizing AI.", |
|
"My name is h2oGPT. I'm a large language model trained by H2O.ai.", |
|
"Hi! I'm h2oGPT, a large language model by H2O.ai.", |
|
"Hi! I'm h2oGPT, a large language model by H2O.ai, the visionary leader in democratizing AI.", |
|
] |
|
help = [ |
|
"", |
|
" How can I help you?", |
|
" How may I assist you?", |
|
" Nice to meet you.", |
|
] |
|
import itertools |
|
rows = [] |
|
for pair in itertools.product(questions, answers, help): |
|
rows.append( |
|
dict(input=f"<human>: {pair[0]}\n<bot>: {pair[1]}{pair[2]}\n<human>:", prompt_type='plain', source="H2O.ai") |
|
) |
|
for row in [ |
|
"<human>: What is H2O.ai?\n<bot>: H2O.ai is a technology company that aims to democratize AI and make it accessible to a broader audience by simplifying the process of creating and deploying machine learning models.\n<human>:", |
|
"<human>: What is h2o.ai?\n<bot>: H2O.ai is a technology company that aims to democratize AI and make it accessible to a broader audience by simplifying the process of creating and deploying machine learning models.\n<human>:", |
|
"<human>: What is H2O?\n<bot>: H2O.ai is a technology company that aims to democratize AI and make it accessible to a broader audience by simplifying the process of creating and deploying machine learning models.\n<human>:", |
|
"<human>: Who is h2o.ai?\n<bot>: H2O.ai is a technology company that aims to democratize AI and make it accessible to a broader audience by simplifying the process of creating and deploying machine learning models.\n<human>:", |
|
"<human>: who is h2o.ai?\n<bot>: H2O.ai is a technology company that aims to democratize AI and make it accessible to a broader audience by simplifying the process of creating and deploying machine learning models.\n<human>:", |
|
"<human>: who is h2o?\n<bot>: H2O.ai is a technology company that aims to democratize AI and make it accessible to a broader audience by simplifying the process of creating and deploying machine learning models.\n<human>:", |
|
"<human>: What is H2O.ai?\n<bot>: H2O.ai is the visionary leader in democratizing AI.\n<human>:", |
|
"<human>: Who is H2O.ai?\n<bot>: H2O.ai is the visionary leader in democratizing AI.\n<human>:", |
|
"<human>: Who is H2O?\n<bot>: H2O.ai is the visionary leader in democratizing AI.\n<human>:", |
|
"<human>: Who is h2o?\n<bot>: H2O.ai is the visionary leader in democratizing AI.\n<human>:", |
|
"<human>: who is h2o?\n<bot>: H2O.ai is the visionary leader in democratizing AI.\n<human>:", |
|
]: |
|
rows.append(dict(input=row, prompt_type='plain', source='H2O.ai')) |
|
print(len(rows)) |
|
with open("h2ogpt-personality.json", "w") as f: |
|
f.write(json.dumps(rows, indent=2)) |
|
return rows |
|
|
|
|
|
def test_check_stats_data(): |
|
filename = 'h2ogpt-oig-oasst1-instruct-cleaned-v3.json' |
|
df = pd.read_json(filename) |
|
|
|
|
|
df['char_count'] = df['input'].apply(lambda x: len(x)) |
|
import matplotlib.pyplot as plt |
|
plt.figure(figsize=(10, 10)) |
|
plt.hist(df['char_count'], bins=100) |
|
chars_avg = np.mean(df['char_count']) |
|
chars_median = np.median(df['char_count']) |
|
plt.title("char_count avg: %s median: %s" % (chars_avg, chars_median)) |
|
plt.savefig('chars_hist.png') |
|
plt.close() |
|
|
|
|
|
from finetune import generate_and_tokenize_prompt |
|
from loaders import get_loaders, get_tokenizer |
|
from functools import partial |
|
|
|
llama_type = False |
|
tokenizer_base_model = base_model = 'h2oai/h2ogpt-oasst1-512-20b' |
|
model_loader, tokenizer_loader = get_loaders(model_name=base_model, reward_type=False, llama_type=llama_type) |
|
local_files_only = False |
|
resume_download = True |
|
use_auth_token = False |
|
tokenizer = get_tokenizer(tokenizer_loader, tokenizer_base_model, local_files_only, resume_download, use_auth_token) |
|
prompt_type = 'plain' |
|
train_on_inputs = True |
|
add_eos_token = False |
|
cutoff_len = 512 |
|
generate_and_tokenize_prompt_fun = partial(generate_and_tokenize_prompt, prompt_type=prompt_type, |
|
train_on_inputs=train_on_inputs, add_eos_token=add_eos_token, |
|
cutoff_len=cutoff_len, tokenizer=tokenizer) |
|
from datasets import load_dataset |
|
data = load_dataset("json", data_files={"train": filename}) |
|
val_set_size = 0.90 |
|
train_val = data["train"].train_test_split( |
|
test_size=val_set_size, shuffle=True, seed=42 |
|
) |
|
train_data = train_val["train"] |
|
train_data = train_data.shuffle().map(generate_and_tokenize_prompt_fun, num_proc=os.cpu_count()) |
|
|
|
df_tokens = pd.DataFrame([len(x) for x in train_data['input_ids']], columns=['token_count']) |
|
|
|
plt.figure(figsize=(10, 10)) |
|
plt.hist(df_tokens['token_count'], bins=100) |
|
token_avg = np.mean(df_tokens['token_count']) |
|
token_median = np.median(df_tokens['token_count']) |
|
plt.title("token_count with cutoff=%s avg: %s median: %s" % (cutoff_len, token_avg, token_median)) |
|
plt.savefig('token_hist_%s.png' % cutoff_len) |
|
plt.close() |
|
|
|
|
|
def get_unhelpful_list(): |
|
|
|
unhelpful = ["I'm sorry, I didn't quite understand your question, could you please rephrase it?", |
|
"I'm sorry, but I don't understand your question. Could you please rephrase it?", |
|
"I'm sorry, I don't quite understand your question", |
|
"I'm sorry, I don't know", |
|
"I'm sorry, but I don't know", |
|
"I don't know anything", |
|
"I do not know", |
|
"I don't know", |
|
"I don't know how", |
|
"I do not know how", |
|
"Can you please explain what you mean", |
|
"please explain what you mean", |
|
"please explain", |
|
"I'm sorry, but I don't know how to tell a story. Can you please explain what you mean by", |
|
"I'm sorry but I don't understand what you mean", |
|
"I don't understand", |
|
"I don't have the ability", |
|
"I do not have the ability", |
|
"I do not have", |
|
"I am a language model,", |
|
"I am a large language model,", |
|
"I do not understand your question. Can you please try to make it clearer?", |
|
"I'm sorry, but as an AI language model", |
|
"I apologize, but I cannot rephrase text that I cannot understand. Your post is difficult to read and follow.", |
|
"I apologize, but I am not h2oGPT. I am a language model developed by H2O.ai. How may I help you?", |
|
"Sorry, but I am not an actual Linux shell, nor am I capable of emulating one. I am an open source chat assistant and would be glad t", |
|
"I apologize, but I cannot perform the task you have requested.", |
|
"I'm sorry, I cannot perform this task as I am an AI language model and do not have access", |
|
"I'm sorry, I'm not sure what you're asking for here.", |
|
"I'm not sure what you are asking", |
|
"You need to provide more context", |
|
] |
|
|
|
unhelpful += ["sorry, I didn't quite understand your question", |
|
"I didn't quite understand your question", |
|
"I didn't understand your question", |
|
"I did not understand your question", |
|
"I did not understand the question", |
|
"could you please rephrase" |
|
"could you rephrase" |
|
"I do not understand your question.", |
|
"I do not understand the question.", |
|
"I do not understand that question.", |
|
"Can you please try to make it clearer", |
|
"Can you try to make it clearer", |
|
"sorry, but as an AI language model", |
|
"as an AI language model", |
|
"I apologize, but I cannot", |
|
"I cannot rephrase text", |
|
"I cannot understand. Your post is difficult to read and follow." |
|
"Your post is difficult to read and follow." |
|
"I apologize, but I am", |
|
"Sorry, but I am not ", |
|
"nor am I capable", |
|
"I am not capable of", |
|
"I apologize, but I cannot perform the task you have requested", |
|
"I cannot perform the task", |
|
"I cannot complete the task", |
|
"I'm sorry", |
|
"I am sorry", |
|
"do not have access", |
|
"not sure what you're asking for", |
|
"not sure what you are asking for", |
|
"not sure what is being asked", |
|
"I'm not sure what you are asking", |
|
"not sure what you are asking", |
|
"You need to provide more context", |
|
"provide more context", |
|
] |
|
unhelpful += ["As a large language model", |
|
"cannot provide any information", |
|
"As an artificial intelligence I do not have the capability", |
|
"As an artificial intelligence I don't have the capability", |
|
"As an artificial intelligence I can't", |
|
"As an artificial intelligence I cannot", |
|
"I am sorry but I do not understand", |
|
"Can you please explain", |
|
"(sorry couldn't resist)", |
|
"(sorry could not resist)", |
|
" :)", |
|
" ;)", |
|
" :-)", |
|
" ;-)", |
|
" lol ", |
|
"Thanks so much!!!", |
|
"Thank You :)!!!", |
|
"Please try not to repeat", |
|
"I am an AI language model", |
|
"I'm a AI assistant that", |
|
"I'm an AI assistant that", |
|
"I am an AI assistant that", |
|
"etc.", |
|
"etc.etc.", |
|
"etc. etc.", |
|
"etc etc", |
|
] |
|
return unhelpful |
|
|
|
|
|
def test_check_unhelpful(): |
|
|
|
file = '/home/jon/Downloads/openassistant_oasst1_h2ogpt_grades.json' |
|
|
|
|
|
unhelpful = get_unhelpful_list() |
|
|
|
df = pd.read_json(file) |
|
|
|
use_reward_score_threshold = False |
|
use_bleu_threshold = False |
|
use_sentence_sim = True |
|
|
|
from sacrebleu.metrics import BLEU |
|
bleu = BLEU() |
|
from nltk.translate.bleu_score import sentence_bleu |
|
|
|
def get_bleu(actual, expected_list): |
|
|
|
return sentence_bleu(expected_list, actual) |
|
|
|
threshold = 0.0 |
|
if use_reward_score_threshold: |
|
df = df[df['grade_deberta'] > threshold] |
|
|
|
|
|
data = df.to_dict(orient='records') |
|
bads = {} |
|
string_all = str(data) |
|
for sub in unhelpful: |
|
bads[sub] = string_all.count(sub) |
|
bads = {k: v for k, v in bads.items() if v > 0} |
|
import pprint |
|
pp = pprint.PrettyPrinter(indent=4) |
|
pp.pprint(bads) |
|
|
|
total_bads = sum(list(bads.values())) |
|
print('total_bads: %s' % total_bads, flush=True) |
|
|
|
|
|
import re |
|
convs = [[x.strip() for x in re.split(r'%s|%s' % (human, bot), y['input']) if x.strip()] for y in data] |
|
humans = [[x for i, x in enumerate(y) if i % 2 == 0] for y in convs] |
|
bots = [[x for i, x in enumerate(y) if i % 2 == 1] for y in convs] |
|
|
|
|
|
bleu_threshold = 0.9 |
|
if use_bleu_threshold: |
|
bots = [[x for x in y if get_bleu(x, unhelpful) < bleu_threshold] for y in tqdm(bots)] |
|
|
|
cosine_sim_threshold = 0.8 |
|
if use_sentence_sim: |
|
|
|
from sentence_transformers import SentenceTransformer |
|
|
|
|
|
sent_model = 'all-MiniLM-L6-v2' |
|
model = SentenceTransformer(sent_model) |
|
sentence_embeddings = model.encode(unhelpful) |
|
from sklearn.metrics.pairwise import cosine_similarity |
|
bots = [x for x in tqdm(bots) if |
|
np.max(cosine_similarity(model.encode(x), sentence_embeddings)) < cosine_sim_threshold] |
|
|
|
bads_bots = {} |
|
string_all = str(bots) |
|
for sub in unhelpful: |
|
bads_bots[sub] = string_all.count(sub) |
|
bads_bots = {k: v for k, v in bads_bots.items() if v > 0} |
|
import pprint |
|
pp = pprint.PrettyPrinter(indent=4) |
|
pp.pprint(bads_bots) |
|
|
|
total_bads_bots = sum(list(bads_bots.values())) |
|
print('threshold: %g use_bleu_threshold: %g total_bads_bots: %s total_bots: %s total_humans: %s' % ( |
|
threshold, use_bleu_threshold, total_bads_bots, len(bots), len(humans)), flush=True) |
|
|
|
|
|
assert len(bads_bots) == 0, bads_bots |
|
|
|
|
|
def test_fortune2000_personalized(): |
|
row_list = [] |
|
import glob |
|
if not os.path.isdir("wikitext"): |
|
raise RuntimeError("download https://github.com/h2oai/h2ogpt/files/11423008/wikitext.zip and unzip") |
|
for file in glob.glob("wikitext/*.txt"): |
|
with open(file, "r") as f: |
|
blob = f.read() |
|
N = 512 * 4 |
|
row_list.extend([{'input': s, 'prompt_type': 'plain', 'source': "%s" % os.path.basename(file)} |
|
for s in get_sentences(blob, N) if s]) |
|
personality = create_personality_data() |
|
import copy |
|
for i in range(10): |
|
row_list.extend(copy.deepcopy(personality)) |
|
np.random.seed(123) |
|
np.random.shuffle(row_list) |
|
for i in range(len(row_list)): |
|
row_list[i]['id'] = i |
|
for i in range(len(row_list)): |
|
assert row_list[i]['id'] == i |
|
with open("h2ogpt-fortune2000-personalized.json", "w") as ff: |
|
ff.write(json.dumps(row_list, indent=2)) |
|
|