multimodal / transformers /utils /check_copies.py
Li
add transformers
455a40f
# coding=utf-8
# Copyright 2020 The HuggingFace Inc. team.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import argparse
import glob
import os
import re
import black
from doc_builder.style_doc import style_docstrings_in_code
from transformers.utils import direct_transformers_import
# All paths are set with the intent you should run this script from the root of the repo with the command
# python utils/check_copies.py
TRANSFORMERS_PATH = "src/transformers"
PATH_TO_DOCS = "docs/source/en"
REPO_PATH = "."
# Mapping for files that are full copies of others (keys are copies, values the file to keep them up to data with)
FULL_COPIES = {
"examples/tensorflow/question-answering/utils_qa.py": "examples/pytorch/question-answering/utils_qa.py",
"examples/flax/question-answering/utils_qa.py": "examples/pytorch/question-answering/utils_qa.py",
}
LOCALIZED_READMES = {
# If the introduction or the conclusion of the list change, the prompts may need to be updated.
"README.md": {
"start_prompt": "🤗 Transformers currently provides the following architectures",
"end_prompt": "1. Want to contribute a new model?",
"format_model_list": (
"**[{title}]({model_link})** (from {paper_affiliations}) released with the paper {paper_title_link} by"
" {paper_authors}.{supplements}"
),
},
"README_zh-hans.md": {
"start_prompt": "🤗 Transformers 目前支持如下的架构",
"end_prompt": "1. 想要贡献新的模型?",
"format_model_list": (
"**[{title}]({model_link})** (来自 {paper_affiliations}) 伴随论文 {paper_title_link} 由 {paper_authors}"
" 发布。{supplements}"
),
},
"README_zh-hant.md": {
"start_prompt": "🤗 Transformers 目前支援以下的架構",
"end_prompt": "1. 想要貢獻新的模型?",
"format_model_list": (
"**[{title}]({model_link})** (from {paper_affiliations}) released with the paper {paper_title_link} by"
" {paper_authors}.{supplements}"
),
},
"README_ko.md": {
"start_prompt": "🤗 Transformers는 다음 모델들을 제공합니다",
"end_prompt": "1. 새로운 모델을 올리고 싶나요?",
"format_model_list": (
"**[{title}]({model_link})** ({paper_affiliations} 에서 제공)은 {paper_authors}.{supplements}의"
" {paper_title_link}논문과 함께 발표했습니다."
),
},
"README_es.md": {
"start_prompt": "🤗 Transformers actualmente proporciona las siguientes arquitecturas",
"end_prompt": "1. ¿Quieres aportar un nuevo modelo?",
"format_model_list": (
"**[{title}]({model_link})** (from {paper_affiliations}) released with the paper {paper_title_link} by"
" {paper_authors}.{supplements}"
),
},
"README_ja.md": {
"start_prompt": "🤗Transformersは現在、以下のアーキテクチャを提供しています",
"end_prompt": "1. 新しいモデルを投稿したいですか?",
"format_model_list": (
"**[{title}]({model_link})** ({paper_affiliations} から) {paper_authors}.{supplements} から公開された研究論文"
" {paper_title_link}"
),
},
"README_hd.md": {
"start_prompt": "🤗 ट्रांसफॉर्मर वर्तमान में निम्नलिखित आर्किटेक्चर का समर्थन करते हैं",
"end_prompt": "1. एक नए मॉडल में योगदान देना चाहते हैं?",
"format_model_list": (
"**[{title}]({model_link})** ({paper_affiliations} से) {paper_authors}.{supplements} द्वारा"
"अनुसंधान पत्र {paper_title_link} के साथ जारी किया गया"
),
},
}
# This is to make sure the transformers module imported is the one in the repo.
transformers_module = direct_transformers_import(TRANSFORMERS_PATH)
def _should_continue(line, indent):
return line.startswith(indent) or len(line) <= 1 or re.search(r"^\s*\)(\s*->.*:|:)\s*$", line) is not None
def find_code_in_transformers(object_name):
"""Find and return the code source code of `object_name`."""
parts = object_name.split(".")
i = 0
# First let's find the module where our object lives.
module = parts[i]
while i < len(parts) and not os.path.isfile(os.path.join(TRANSFORMERS_PATH, f"{module}.py")):
i += 1
if i < len(parts):
module = os.path.join(module, parts[i])
if i >= len(parts):
raise ValueError(
f"`object_name` should begin with the name of a module of transformers but got {object_name}."
)
with open(os.path.join(TRANSFORMERS_PATH, f"{module}.py"), "r", encoding="utf-8", newline="\n") as f:
lines = f.readlines()
# Now let's find the class / func in the code!
indent = ""
line_index = 0
for name in parts[i + 1 :]:
while (
line_index < len(lines) and re.search(rf"^{indent}(class|def)\s+{name}(\(|\:)", lines[line_index]) is None
):
line_index += 1
indent += " "
line_index += 1
if line_index >= len(lines):
raise ValueError(f" {object_name} does not match any function or class in {module}.")
# We found the beginning of the class / func, now let's find the end (when the indent diminishes).
start_index = line_index
while line_index < len(lines) and _should_continue(lines[line_index], indent):
line_index += 1
# Clean up empty lines at the end (if any).
while len(lines[line_index - 1]) <= 1:
line_index -= 1
code_lines = lines[start_index:line_index]
return "".join(code_lines)
_re_copy_warning = re.compile(r"^(\s*)#\s*Copied from\s+transformers\.(\S+\.\S+)\s*($|\S.*$)")
_re_replace_pattern = re.compile(r"^\s*(\S+)->(\S+)(\s+.*|$)")
_re_fill_pattern = re.compile(r"<FILL\s+[^>]*>")
def get_indent(code):
lines = code.split("\n")
idx = 0
while idx < len(lines) and len(lines[idx]) == 0:
idx += 1
if idx < len(lines):
return re.search(r"^(\s*)\S", lines[idx]).groups()[0]
return ""
def blackify(code):
"""
Applies the black part of our `make style` command to `code`.
"""
has_indent = len(get_indent(code)) > 0
if has_indent:
code = f"class Bla:\n{code}"
mode = black.Mode(target_versions={black.TargetVersion.PY37}, line_length=119)
result = black.format_str(code, mode=mode)
result, _ = style_docstrings_in_code(result)
return result[len("class Bla:\n") :] if has_indent else result
def is_copy_consistent(filename, overwrite=False):
"""
Check if the code commented as a copy in `filename` matches the original.
Return the differences or overwrites the content depending on `overwrite`.
"""
with open(filename, "r", encoding="utf-8", newline="\n") as f:
lines = f.readlines()
diffs = []
line_index = 0
# Not a for loop cause `lines` is going to change (if `overwrite=True`).
while line_index < len(lines):
search = _re_copy_warning.search(lines[line_index])
if search is None:
line_index += 1
continue
# There is some copied code here, let's retrieve the original.
indent, object_name, replace_pattern = search.groups()
theoretical_code = find_code_in_transformers(object_name)
theoretical_indent = get_indent(theoretical_code)
start_index = line_index + 1 if indent == theoretical_indent else line_index + 2
indent = theoretical_indent
line_index = start_index
# Loop to check the observed code, stop when indentation diminishes or if we see a End copy comment.
should_continue = True
while line_index < len(lines) and should_continue:
line_index += 1
if line_index >= len(lines):
break
line = lines[line_index]
should_continue = _should_continue(line, indent) and re.search(f"^{indent}# End copy", line) is None
# Clean up empty lines at the end (if any).
while len(lines[line_index - 1]) <= 1:
line_index -= 1
observed_code_lines = lines[start_index:line_index]
observed_code = "".join(observed_code_lines)
# Before comparing, use the `replace_pattern` on the original code.
if len(replace_pattern) > 0:
patterns = replace_pattern.replace("with", "").split(",")
patterns = [_re_replace_pattern.search(p) for p in patterns]
for pattern in patterns:
if pattern is None:
continue
obj1, obj2, option = pattern.groups()
theoretical_code = re.sub(obj1, obj2, theoretical_code)
if option.strip() == "all-casing":
theoretical_code = re.sub(obj1.lower(), obj2.lower(), theoretical_code)
theoretical_code = re.sub(obj1.upper(), obj2.upper(), theoretical_code)
# Blackify after replacement. To be able to do that, we need the header (class or function definition)
# from the previous line
theoretical_code = blackify(lines[start_index - 1] + theoretical_code)
theoretical_code = theoretical_code[len(lines[start_index - 1]) :]
# Test for a diff and act accordingly.
if observed_code != theoretical_code:
diff_index = start_index + 1
for observed_line, theoretical_line in zip(observed_code.split("\n"), theoretical_code.split("\n")):
if observed_line != theoretical_line:
break
diff_index += 1
diffs.append([object_name, diff_index])
if overwrite:
lines = lines[:start_index] + [theoretical_code] + lines[line_index:]
line_index = start_index + 1
if overwrite and len(diffs) > 0:
# Warn the user a file has been modified.
print(f"Detected changes, rewriting {filename}.")
with open(filename, "w", encoding="utf-8", newline="\n") as f:
f.writelines(lines)
return diffs
def check_copies(overwrite: bool = False):
all_files = glob.glob(os.path.join(TRANSFORMERS_PATH, "**/*.py"), recursive=True)
diffs = []
for filename in all_files:
new_diffs = is_copy_consistent(filename, overwrite)
diffs += [f"- {filename}: copy does not match {d[0]} at line {d[1]}" for d in new_diffs]
if not overwrite and len(diffs) > 0:
diff = "\n".join(diffs)
raise Exception(
"Found the following copy inconsistencies:\n"
+ diff
+ "\nRun `make fix-copies` or `python utils/check_copies.py --fix_and_overwrite` to fix them."
)
check_model_list_copy(overwrite=overwrite)
def check_full_copies(overwrite: bool = False):
diffs = []
for target, source in FULL_COPIES.items():
with open(source, "r", encoding="utf-8") as f:
source_code = f.read()
with open(target, "r", encoding="utf-8") as f:
target_code = f.read()
if source_code != target_code:
if overwrite:
with open(target, "w", encoding="utf-8") as f:
print(f"Replacing the content of {target} by the one of {source}.")
f.write(source_code)
else:
diffs.append(f"- {target}: copy does not match {source}.")
if not overwrite and len(diffs) > 0:
diff = "\n".join(diffs)
raise Exception(
"Found the following copy inconsistencies:\n"
+ diff
+ "\nRun `make fix-copies` or `python utils/check_copies.py --fix_and_overwrite` to fix them."
)
def get_model_list(filename, start_prompt, end_prompt):
"""Extracts the model list from the README."""
with open(os.path.join(REPO_PATH, filename), "r", encoding="utf-8", newline="\n") as f:
lines = f.readlines()
# Find the start of the list.
start_index = 0
while not lines[start_index].startswith(start_prompt):
start_index += 1
start_index += 1
result = []
current_line = ""
end_index = start_index
while not lines[end_index].startswith(end_prompt):
if lines[end_index].startswith("1."):
if len(current_line) > 1:
result.append(current_line)
current_line = lines[end_index]
elif len(lines[end_index]) > 1:
current_line = f"{current_line[:-1]} {lines[end_index].lstrip()}"
end_index += 1
if len(current_line) > 1:
result.append(current_line)
return "".join(result)
def convert_to_localized_md(model_list, localized_model_list, format_str):
"""Convert `model_list` to each localized README."""
def _rep(match):
title, model_link, paper_affiliations, paper_title_link, paper_authors, supplements = match.groups()
return format_str.format(
title=title,
model_link=model_link,
paper_affiliations=paper_affiliations,
paper_title_link=paper_title_link,
paper_authors=paper_authors,
supplements=" " + supplements.strip() if len(supplements) != 0 else "",
)
# This regex captures metadata from an English model description, including model title, model link,
# affiliations of the paper, title of the paper, authors of the paper, and supplemental data (see DistilBERT for example).
_re_capture_meta = re.compile(
r"\*\*\[([^\]]*)\]\(([^\)]*)\)\*\* \(from ([^)]*)\)[^\[]*([^\)]*\)).*?by (.*?[A-Za-z\*]{2,}?)\. (.*)$"
)
# This regex is used to synchronize link.
_re_capture_title_link = re.compile(r"\*\*\[([^\]]*)\]\(([^\)]*)\)\*\*")
if len(localized_model_list) == 0:
localized_model_index = {}
else:
try:
localized_model_index = {
re.search(r"\*\*\[([^\]]*)", line).groups()[0]: line
for line in localized_model_list.strip().split("\n")
}
except AttributeError:
raise AttributeError("A model name in localized READMEs cannot be recognized.")
model_keys = [re.search(r"\*\*\[([^\]]*)", line).groups()[0] for line in model_list.strip().split("\n")]
# We exclude keys in localized README not in the main one.
readmes_match = not any([k not in model_keys for k in localized_model_index])
localized_model_index = {k: v for k, v in localized_model_index.items() if k in model_keys}
for model in model_list.strip().split("\n"):
title, model_link = _re_capture_title_link.search(model).groups()
if title not in localized_model_index:
readmes_match = False
# Add an anchor white space behind a model description string for regex.
# If metadata cannot be captured, the English version will be directly copied.
localized_model_index[title] = _re_capture_meta.sub(_rep, model + " ")
elif _re_fill_pattern.search(localized_model_index[title]) is not None:
update = _re_capture_meta.sub(_rep, model + " ")
if update != localized_model_index[title]:
readmes_match = False
localized_model_index[title] = update
else:
# Synchronize link
localized_model_index[title] = _re_capture_title_link.sub(
f"**[{title}]({model_link})**", localized_model_index[title], count=1
)
sorted_index = sorted(localized_model_index.items(), key=lambda x: x[0].lower())
return readmes_match, "\n".join((x[1] for x in sorted_index)) + "\n"
def convert_readme_to_index(model_list):
model_list = model_list.replace("https://huggingface.co/docs/transformers/main/", "")
return model_list.replace("https://huggingface.co/docs/transformers/", "")
def _find_text_in_file(filename, start_prompt, end_prompt):
"""
Find the text in `filename` between a line beginning with `start_prompt` and before `end_prompt`, removing empty
lines.
"""
with open(filename, "r", encoding="utf-8", newline="\n") as f:
lines = f.readlines()
# Find the start prompt.
start_index = 0
while not lines[start_index].startswith(start_prompt):
start_index += 1
start_index += 1
end_index = start_index
while not lines[end_index].startswith(end_prompt):
end_index += 1
end_index -= 1
while len(lines[start_index]) <= 1:
start_index += 1
while len(lines[end_index]) <= 1:
end_index -= 1
end_index += 1
return "".join(lines[start_index:end_index]), start_index, end_index, lines
def check_model_list_copy(overwrite=False, max_per_line=119):
"""Check the model lists in the README and index.rst are consistent and maybe `overwrite`."""
# Fix potential doc links in the README
with open(os.path.join(REPO_PATH, "README.md"), "r", encoding="utf-8", newline="\n") as f:
readme = f.read()
new_readme = readme.replace("https://huggingface.co/transformers", "https://huggingface.co/docs/transformers")
new_readme = new_readme.replace(
"https://huggingface.co/docs/main/transformers", "https://huggingface.co/docs/transformers/main"
)
if new_readme != readme:
if overwrite:
with open(os.path.join(REPO_PATH, "README.md"), "w", encoding="utf-8", newline="\n") as f:
f.write(new_readme)
else:
raise ValueError(
"The main README contains wrong links to the documentation of Transformers. Run `make fix-copies` to "
"automatically fix them."
)
# If the introduction or the conclusion of the list change, the prompts may need to be updated.
index_list, start_index, end_index, lines = _find_text_in_file(
filename=os.path.join(PATH_TO_DOCS, "index.mdx"),
start_prompt="<!--This list is updated automatically from the README",
end_prompt="### Supported frameworks",
)
md_list = get_model_list(
filename="README.md",
start_prompt=LOCALIZED_READMES["README.md"]["start_prompt"],
end_prompt=LOCALIZED_READMES["README.md"]["end_prompt"],
)
converted_md_lists = []
for filename, value in LOCALIZED_READMES.items():
_start_prompt = value["start_prompt"]
_end_prompt = value["end_prompt"]
_format_model_list = value["format_model_list"]
localized_md_list = get_model_list(filename, _start_prompt, _end_prompt)
readmes_match, converted_md_list = convert_to_localized_md(md_list, localized_md_list, _format_model_list)
converted_md_lists.append((filename, readmes_match, converted_md_list, _start_prompt, _end_prompt))
converted_md_list = convert_readme_to_index(md_list)
if converted_md_list != index_list:
if overwrite:
with open(os.path.join(PATH_TO_DOCS, "index.mdx"), "w", encoding="utf-8", newline="\n") as f:
f.writelines(lines[:start_index] + [converted_md_list] + lines[end_index:])
else:
raise ValueError(
"The model list in the README changed and the list in `index.mdx` has not been updated. Run "
"`make fix-copies` to fix this."
)
for converted_md_list in converted_md_lists:
filename, readmes_match, converted_md, _start_prompt, _end_prompt = converted_md_list
if filename == "README.md":
continue
if overwrite:
_, start_index, end_index, lines = _find_text_in_file(
filename=os.path.join(REPO_PATH, filename), start_prompt=_start_prompt, end_prompt=_end_prompt
)
with open(os.path.join(REPO_PATH, filename), "w", encoding="utf-8", newline="\n") as f:
f.writelines(lines[:start_index] + [converted_md] + lines[end_index:])
elif not readmes_match:
raise ValueError(
f"The model list in the README changed and the list in `{filename}` has not been updated. Run "
"`make fix-copies` to fix this."
)
SPECIAL_MODEL_NAMES = {
"Bert Generation": "BERT For Sequence Generation",
"BigBird": "BigBird-RoBERTa",
"Data2VecAudio": "Data2Vec",
"Data2VecText": "Data2Vec",
"Data2VecVision": "Data2Vec",
"DonutSwin": "Swin Transformer",
"Marian": "MarianMT",
"MaskFormerSwin": "Swin Transformer",
"OpenAI GPT-2": "GPT-2",
"OpenAI GPT": "GPT",
"Perceiver": "Perceiver IO",
"ViT": "Vision Transformer (ViT)",
}
# Update this list with the models that shouldn't be in the README. This only concerns modular models or those who do
# not have an associated paper.
MODELS_NOT_IN_README = [
"BertJapanese",
"Encoder decoder",
"FairSeq Machine-Translation",
"HerBERT",
"RetriBERT",
"Speech Encoder decoder",
"Speech2Text",
"Speech2Text2",
"Vision Encoder decoder",
"VisionTextDualEncoder",
]
README_TEMPLATE = (
"1. **[{model_name}](https://huggingface.co/docs/main/transformers/model_doc/{model_type})** (from "
"<FILL INSTITUTION>) released with the paper [<FILL PAPER TITLE>](<FILL ARKIV LINK>) by <FILL AUTHORS>."
)
def check_readme(overwrite=False):
info = LOCALIZED_READMES["README.md"]
models, start_index, end_index, lines = _find_text_in_file(
os.path.join(REPO_PATH, "README.md"),
info["start_prompt"],
info["end_prompt"],
)
models_in_readme = [re.search(r"\*\*\[([^\]]*)", line).groups()[0] for line in models.strip().split("\n")]
model_names_mapping = transformers_module.models.auto.configuration_auto.MODEL_NAMES_MAPPING
absents = [
(key, name)
for key, name in model_names_mapping.items()
if SPECIAL_MODEL_NAMES.get(name, name) not in models_in_readme
]
# Remove exceptions
absents = [(key, name) for key, name in absents if name not in MODELS_NOT_IN_README]
if len(absents) > 0 and not overwrite:
print(absents)
raise ValueError(
"The main README doesn't contain all models, run `make fix-copies` to fill it with the missing model(s)"
" then complete the generated entries.\nIf the model is not supposed to be in the main README, add it to"
" the list `MODELS_NOT_IN_README` in utils/check_copies.py.\nIf it has a different name in the repo than"
" in the README, map the correspondence in `SPECIAL_MODEL_NAMES` in utils/check_copies.py."
)
new_models = [README_TEMPLATE.format(model_name=name, model_type=key) for key, name in absents]
all_models = models.strip().split("\n") + new_models
all_models = sorted(all_models, key=lambda x: re.search(r"\*\*\[([^\]]*)", x).groups()[0].lower())
all_models = "\n".join(all_models) + "\n"
if all_models != models:
if overwrite:
print("Fixing the main README.")
with open(os.path.join(REPO_PATH, "README.md"), "w", encoding="utf-8", newline="\n") as f:
f.writelines(lines[:start_index] + [all_models] + lines[end_index:])
else:
raise ValueError("The main README model list is not properly sorted. Run `make fix-copies` to fix this.")
if __name__ == "__main__":
parser = argparse.ArgumentParser()
parser.add_argument("--fix_and_overwrite", action="store_true", help="Whether to fix inconsistencies.")
args = parser.parse_args()
check_readme(args.fix_and_overwrite)
check_copies(args.fix_and_overwrite)
check_full_copies(args.fix_and_overwrite)