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# coding=utf-8
# Copyright 2023 The Google Research Authors.
#
# 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.
"""Library of instructions."""
import collections
import json
import logging
import random
import re
import string
from typing import Dict, Optional, Sequence, Union
import langdetect
from lm_eval.tasks.ifeval import instructions_util
logger = logging.getLogger(__name__)
_InstructionArgsDtype = Optional[Dict[str, Union[int, str, Sequence[str]]]]
_LANGUAGES = instructions_util.LANGUAGE_CODES
# The relational operation for comparison.
_COMPARISON_RELATION = ("less than", "at least")
# The maximum number of sentences.
_MAX_NUM_SENTENCES = 20
# The number of placeholders.
_NUM_PLACEHOLDERS = 4
# The number of bullet lists.
_NUM_BULLETS = 5
# The options of constrained response.
_CONSTRAINED_RESPONSE_OPTIONS = (
"My answer is yes.",
"My answer is no.",
"My answer is maybe.",
)
# The options of starter keywords.
_STARTER_OPTIONS = (
"I would say",
"My answer is",
"I believe",
"In my opinion",
"I think",
"I reckon",
"I feel",
"From my perspective",
"As I see it",
"According to me",
"As far as I'm concerned",
"To my understanding",
"In my view",
"My take on it is",
"As per my perception",
)
# The options of ending keywords.
# TODO(jeffreyzhou) add more ending options
_ENDING_OPTIONS = ("Any other questions?", "Is there anything else I can help with?")
# The number of highlighted sections.
_NUM_HIGHLIGHTED_SECTIONS = 4
# The section spliter.
_SECTION_SPLITER = ("Section", "SECTION")
# The number of sections.
_NUM_SECTIONS = 5
# The number of paragraphs.
_NUM_PARAGRAPHS = 5
# The postscript marker.
_POSTSCRIPT_MARKER = ("P.S.", "P.P.S")
# The number of keywords.
_NUM_KEYWORDS = 2
# The occurrences of a single keyword.
_KEYWORD_FREQUENCY = 3
# The occurrences of a single letter.
_LETTER_FREQUENCY = 10
# The occurrences of words with all capital letters.
_ALL_CAPITAL_WORD_FREQUENCY = 20
# The number of words in the response.
_NUM_WORDS_LOWER_LIMIT = 100
_NUM_WORDS_UPPER_LIMIT = 500
class Instruction:
"""An instruction template."""
def __init__(self, instruction_id):
self.id = instruction_id
def build_description(self, **kwargs):
raise NotImplementedError("`build_description` not implemented.")
def get_instruction_args(self):
raise NotImplementedError("`get_instruction_args` not implemented.")
def get_instruction_args_keys(self):
raise NotImplementedError("`get_instruction_args_keys` not implemented.")
def check_following(self, value):
raise NotImplementedError("`check_following` not implemented.")
class ResponseLanguageChecker(Instruction):
"""Check the language of the entire response."""
def build_description(self, *, language=None):
"""Build the instruction description.
Args:
language: A string representing the expected language of the response. The
language has to comply to the 97 types defined in
`langid.py` (https://pypi.org/project/langid/1.1.5/), which follows
ISO 639-1 codes (https://en.wikipedia.org/wiki/List_of_ISO_639-1_codes);
for example, `en` for English, `zh` for Chinese, `fr` for French.
Returns:
A string representing the instruction description.
"""
self._language = language
if self._language is None:
self._language = random.choice(list(_LANGUAGES.keys()))
# TODO(tianjianlu): opens the description generation to more choices.
self._description_pattern = (
"Your ENTIRE response should be in {language} language, no other "
+ "language is allowed."
)
return self._description_pattern.format(language=_LANGUAGES[self._language])
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {"language": self._language}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["language"]
def check_following(self, value):
"""Check if the language of the entire response follows the instruction.
Args:
value: A string representing the response.
Returns:
True if the language of `value` follows instruction; otherwise False.
"""
assert isinstance(value, str)
try:
return langdetect.detect(value) == self._language
except langdetect.LangDetectException as e:
# Count as instruction is followed.
logging.error(
"Unable to detect language for text %s due to %s", value, e
) # refex: disable=pytotw.037
return True
class NumberOfSentences(Instruction):
"""Check the number of sentences."""
def build_description(self, *, num_sentences=None, relation=None):
"""Build the instruction description.
Args:
num_sentences: An integer specifying the number of sentences as a
threshold.
relation: A string in (`less than`, `at least`), defining the relational
operator for comparison.
Two relational comparisons are supported for now:
if 'less than', the actual number of sentences < the threshold;
if 'at least', the actual number of sentences >= the threshold.
Returns:
A string representing the instruction description.
"""
# The number of sentences as a threshold for comparison.
self._num_sentences_threshold = num_sentences
if self._num_sentences_threshold is None or self._num_sentences_threshold < 0:
self._num_sentences_threshold = random.randint(1, _MAX_NUM_SENTENCES)
if relation is None:
self._comparison_relation = random.choice(_COMPARISON_RELATION)
elif relation not in _COMPARISON_RELATION:
raise ValueError(
"The supported relation for comparison must be in "
f"{_COMPARISON_RELATION}, but {relation} is given."
)
else:
self._comparison_relation = relation
self._description_pattern = (
"Your response should contain {relation} {num_sentences} sentences."
)
return self._description_pattern.format(
relation=self._comparison_relation,
num_sentences=self._num_sentences_threshold,
)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {
"num_sentences": self._num_sentences_threshold,
"relation": self._comparison_relation,
}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["num_sentences", "relation"]
def check_following(self, value):
"""Check if the number of sentences follows the instruction.
Args:
value: A string representing the response.
Returns:
True if the response follows the instruction.
Raise:
ValueError if the string in `instruction_args` is not in
[`less_than`, `at_least`].
"""
num_sentences = instructions_util.count_sentences(value)
if self._comparison_relation == _COMPARISON_RELATION[0]:
return num_sentences < self._num_sentences_threshold
elif self._comparison_relation == _COMPARISON_RELATION[1]:
return num_sentences >= self._num_sentences_threshold
class PlaceholderChecker(Instruction):
"""Check the placeholders in template writing."""
def build_description(self, *, num_placeholders=None):
"""Build the instruction description.
Args:
num_placeholders: An integer denoting the minimum number of
placeholders required in the response.
Returns:
A string representing the instruction description.
"""
self._num_placeholders = num_placeholders
if self._num_placeholders is None or self._num_placeholders < 0:
self._num_placeholders = random.randint(1, _NUM_PLACEHOLDERS)
self._description_pattern = (
"The response must contain at least {num_placeholders} placeholders "
+ "represented by square brackets, such as [address]."
)
return self._description_pattern.format(num_placeholders=self._num_placeholders)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {"num_placeholders": self._num_placeholders}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["num_placeholders"]
def check_following(self, value):
"""Check if the number of placeholders follows the instruction.
Args:
value: A string representing the response.
Returns:
True if the actual number of placeholders in the response is greater than
or equal to `num_placeholders`; otherwise, False.
"""
placeholders = re.findall(r"\[.*?\]", value)
num_placeholders = len(placeholders)
return num_placeholders >= self._num_placeholders
class BulletListChecker(Instruction):
"""Checks the bullet list in the prompt."""
def build_description(self, *, num_bullets=None):
"""Build the instruction description.
Args:
num_bullets: An integer specifying the exact number of bullet lists
that is required to appear in the response.
Returns:
A string representing the instruction description.
"""
self._num_bullets = num_bullets
if self._num_bullets is None or self._num_bullets < 0:
self._num_bullets = random.randint(1, _NUM_BULLETS)
self._description_pattern = (
"Your answer must contain exactly {num_bullets} bullet points. "
+ "Use the markdown bullet points such as:\n"
+ "* This is point 1. \n"
+ "* This is point 2"
)
return self._description_pattern.format(num_bullets=self._num_bullets)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {"num_bullets": self._num_bullets}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["num_bullets"]
def check_following(self, value):
r"""Check if the number of bullet lists meets the requirement.
Args:
value: A string representing the response. The response is expected to
contain some bullet lists that start with `\*`.
Returns:
True if the actual number of bullet lists in the response meets the
requirement.
"""
bullet_lists = re.findall(r"^\s*\*[^\*].*$", value, flags=re.MULTILINE)
bullet_lists_2 = re.findall(r"^\s*-.*$", value, flags=re.MULTILINE)
num_bullet_lists = len(bullet_lists) + len(bullet_lists_2)
return num_bullet_lists == self._num_bullets
class ConstrainedResponseChecker(Instruction):
"""Checks the constrained response."""
def build_description(self):
"""Build the instruction description."""
# A sequence of string(s) representing the options of the expected response.
self._constrained_responses = _CONSTRAINED_RESPONSE_OPTIONS
self._description_pattern = (
"Answer with one of the following options: {response_options}"
)
return self._description_pattern.format(
response_options=self._constrained_responses
)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return None
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return []
def check_following(self, value):
"""Checks if the response matches the constrained options.
Args:
value: A string representing the response.
Returns:
True if the actual response contains one of the options in the constrained
responses; otherwise False.
"""
value = value.strip()
for constrained_response in self._constrained_responses:
if constrained_response in value:
return True
return False
class ConstrainedStartChecker(Instruction):
"""Checks the response start."""
def build_description(self, *, starter=None):
"""Build the instruction description.
Args:
starter: A string representing the keyward that the response should start
with.
Returns:
A string representing the instruction description.
"""
self._starter = starter.strip() if isinstance(starter, str) else starter
if self._starter is None:
self._starter = random.choice(_STARTER_OPTIONS)
self._description_pattern = (
"During the conversation, when it is your turn, "
+ "please always start with {starter}"
)
return self._description_pattern.format(starter=self._starter)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {"starter": self._starter}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["starter"]
def check_following(self, value):
"""Checks if the response starts with the constrained keyword or phrase.
Args:
value: A string representing the response.
Returns:
True if the response starts with the given phrase or keyword that is
contained in `instruction_args`; otherwise, False.
"""
response_pattern = r"^\s*" + self._starter + r".*$"
response_with_constrained_start = re.search(
response_pattern, value, flags=re.MULTILINE
)
return True if response_with_constrained_start else False
class HighlightSectionChecker(Instruction):
"""Checks the highlighted section."""
def build_description(self, *, num_highlights=None):
"""Build the instruction description.
Args:
num_highlights: An integer specifying the minimum number of highlighted
sections.
Returns:
A string representing the instruction description.
"""
self._num_highlights = num_highlights
if self._num_highlights is None or self._num_highlights < 0:
self._num_highlights = random.randint(1, _NUM_HIGHLIGHTED_SECTIONS)
self._description_pattern = (
"Highlight at least {num_highlights} sections in your answer with "
+ "markdown, i.e. *highlighted section*."
)
return self._description_pattern.format(num_highlights=self._num_highlights)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {"num_highlights": self._num_highlights}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["num_highlights"]
def check_following(self, value):
"""Checks if the number of highlighted sections meets the requirement.
Args:
value: a string repesenting the response. The response is expected to
contain highlighted sections in the format of *highlighted*.
Returns:
True if the actual number of highlighted sections in the format of
*highlighed sections* meets the minimum requirement; otherwise False.
"""
num_highlights = 0
highlights = re.findall(r"\*[^\n\*]*\*", value)
double_highlights = re.findall(r"\*\*[^\n\*]*\*\*", value)
for highlight in highlights:
if highlight.strip("*").strip():
num_highlights += 1
for highlight in double_highlights:
if highlight.removeprefix("**").removesuffix("**").strip():
num_highlights += 1
return num_highlights >= self._num_highlights
class SectionChecker(Instruction):
"""Checks the sections."""
def build_description(self, *, section_spliter=None, num_sections=None):
"""Build the instruction description.
Args:
section_spliter: A string represents the section spliter keyword that
marks a new section, i.e., `Section` or `SECTION`.
num_sections: An integer specifying the number of sections.
Returns:
A string representing the instruction description.
"""
self._section_spliter = (
section_spliter.strip()
if isinstance(section_spliter, str)
else section_spliter
)
if self._section_spliter is None:
self._section_spliter = random.choice(_SECTION_SPLITER)
self._num_sections = num_sections
if self._num_sections is None or self._num_sections < 0:
self._num_sections = random.randint(1, _NUM_SECTIONS)
self._description_pattern = (
"Your response must have {num_sections} sections. Mark the beginning "
+ "of each section with {section_spliter} X, such as:\n"
+ "{section_spliter} 1\n"
+ "[content of section 1]\n"
+ "{section_spliter} 2\n"
+ "[content of section 2]"
)
return self._description_pattern.format(
num_sections=self._num_sections, section_spliter=self._section_spliter
)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {
"section_spliter": self._section_spliter,
"num_sections": self._num_sections,
}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["section_spliter", "num_sections"]
def check_following(self, value):
"""Checks the response contains multiple sections.
Args:
value: A string representing the response. The response is expected
to contain multiple sections (number of sections is greater than 1).
A new section starts with `Section 1`, where the number denotes the
section index.
Returns:
True if the number of sections in the response is greater than or equal to
the minimum number of sections; otherwise, False.
"""
section_splitter_patten = r"\s?" + self._section_spliter + r"\s?\d+\s?"
sections = re.split(section_splitter_patten, value)
num_sections = len(sections) - 1
return num_sections >= self._num_sections
class ParagraphChecker(Instruction):
"""Checks the paragraphs."""
def build_description(self, *, num_paragraphs=None):
"""Build the instruction description.
Args:
num_paragraphs: An integer specifying the number of paragraphs.
Returns:
A string representing the instruction description.
"""
self._num_paragraphs = num_paragraphs
if self._num_paragraphs is None or self._num_paragraphs < 0:
self._num_paragraphs = random.randint(1, _NUM_PARAGRAPHS)
self._description_pattern = (
"There should be {num_paragraphs} paragraphs. "
+ "Paragraphs are separated with the markdown divider: ***"
)
return self._description_pattern.format(num_paragraphs=self._num_paragraphs)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {"num_paragraphs": self._num_paragraphs}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["num_paragraphs"]
def check_following(self, value):
"""Checks the response contains required number of paragraphs.
Args:
value: A string representing the response. The response may contain
paragraphs that are separated by the markdown divider: `***`.
Returns:
True if the actual number of paragraphs is the same as required;
otherwise, False.
"""
paragraphs = re.split(r"\s?\*\*\*\s?", value)
num_paragraphs = len(paragraphs)
for index, paragraph in enumerate(paragraphs):
if not paragraph.strip():
if index == 0 or index == len(paragraphs) - 1:
num_paragraphs -= 1
else:
return False
return num_paragraphs == self._num_paragraphs
class PostscriptChecker(Instruction):
"""Checks the postscript."""
def build_description(self, *, postscript_marker=None):
"""Build the instruction description.
Args:
postscript_marker: A string containing the keyword that marks the start
of the postscript section.
Returns:
A string representing the instruction description.
"""
self._postscript_marker = (
postscript_marker.strip()
if isinstance(postscript_marker, str)
else postscript_marker
)
if self._postscript_marker is None:
self._postscript_marker = random.choice(_POSTSCRIPT_MARKER)
self._description_pattern = (
"At the end of your response, please explicitly add a postscript "
+ "starting with {postscript}"
)
return self._description_pattern.format(postscript=self._postscript_marker)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {"postscript_marker": self._postscript_marker}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["postscript_marker"]
def check_following(self, value):
"""Checks if the response follows the postscript format.
Args:
value: a string representing the response. The response is expected to
contain a postscript section.
Returns:
True if the response contains a postscript section starting with
the keyword containing in the `instruction_args`; otherwise False.
"""
value = value.lower()
if self._postscript_marker == "P.P.S":
postscript_pattern = r"\s*p\.\s?p\.\s?s.*$"
elif self._postscript_marker == "P.S.":
postscript_pattern = r"\s*p\.\s?s\..*$"
else:
postscript_pattern = r"\s*" + self._postscript_marker.lower() + r".*$"
postscript = re.findall(postscript_pattern, value, flags=re.MULTILINE)
return True if postscript else False
class RephraseChecker(Instruction):
"""Checks the repharse."""
def build_description(self, *, original_message):
"""Build the instruction description.
Args:
original_message: A string representing the original message. The
rephrased response should only change its words/sentences in between
its two asterisks, for example, *change me*. Both original and rephrased
messages should contain the changes in the form of *change me*.
Returns:
A string representing the instruction description.
"""
if not self.is_change(original_message):
raise ValueError(
f"Message {original_message} does not contain changes "
"in the form of *change me*."
)
self._reference_without_change = original_message
self._description = (
"Rephrasing: Your rephrased response should only"
+ "change the words/sentences in between two asterisks"
+ "such as *change me*."
)
return self._description
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {"original_message": self._reference_without_change}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["original_message"]
def check_following(self, value):
r"""Checks if the rephrasing follows the instruction.
Args:
value: A string representing the response, which is expected to rephras
the string of `instruction_args`.
Returns:
True if `value` and `instruction_args` only differ by the words/sentences
in between two asterisks such as *change me*; otherwise, False.
"""
if not self.is_change(value):
raise ValueError(
f"value {value} does not contain " "changes in the form of *change me*."
)
response_without_changes = self.strip_changes(value)
reference_without_changes = self.strip_changes(self._reference_without_change)
return response_without_changes == reference_without_changes
def is_change(self, response):
"""Check if there is change in the response in the form of *change me*."""
return re.search(r"\*.*\*", response)
def strip_changes(self, response):
"""Strips off the changes."""
return re.sub(r"\*.*\*", "", response)
class KeywordChecker(Instruction):
"""Check the exisitence of certain keywords."""
def build_description(self, *, keywords=None):
"""Build the instruction description.
Args:
keywords: A sequence of strings representing the keywords that are
expected in the response.
Returns:
A string representing the instruction description.
"""
if not keywords:
self._keywords = instructions_util.generate_keywords(
num_keywords=_NUM_KEYWORDS
)
else:
self._keywords = keywords
self._keywords = sorted(self._keywords)
self._description_pattern = "Include keywords {keywords} in the response."
return self._description_pattern.format(keywords=self._keywords)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {"keywords": self._keywords}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["keywords"]
def check_following(self, value):
"""Check if the response contain the expected keywords."""
for keyword in self._keywords:
if not re.search(keyword, value, flags=re.IGNORECASE):
return False
return True
class KeywordFrequencyChecker(Instruction):
"""Check the keyword frequency."""
def build_description(self, *, keyword=None, frequency=None, relation=None):
"""Build the instruction description.
Args:
keyword: A string representing a keyword that is expected in the response.
frequency: An integer specifying the number of times `keyword` is expected
to appear in the response.
relation: A string in (`less than`, `at least`), defining the relational
operator for comparison.
Two relational comparisons are supported for now:
if 'less than', the actual number of occurrences < frequency;
if 'at least', the actual number of occurrences >= frequency.
Returns:
A string representing the instruction description.
"""
if not keyword:
self._keyword = instructions_util.generate_keywords(num_keywords=1)[0]
else:
self._keyword = keyword.strip()
self._frequency = frequency
if self._frequency is None or self._frequency < 0:
self._frequency = random.randint(1, _KEYWORD_FREQUENCY)
if relation is None:
self._comparison_relation = random.choice(_COMPARISON_RELATION)
elif relation not in _COMPARISON_RELATION:
raise ValueError(
"The supported relation for comparison must be in "
f"{_COMPARISON_RELATION}, but {relation} is given."
)
else:
self._comparison_relation = relation
self._description_pattern = (
"In your response, the word {keyword} should appear {relation} "
+ "{frequency} times."
)
return self._description_pattern.format(
keyword=self._keyword,
relation=self._comparison_relation,
frequency=self._frequency,
)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {
"keyword": self._keyword,
"frequency": self._frequency,
"relation": self._comparison_relation,
}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["keyword", "frequency", "relation"]
def check_following(self, value):
"""Checks if the response contain the keyword with required frequency."""
actual_occurrences = len(re.findall(self._keyword, value, flags=re.IGNORECASE))
if self._comparison_relation == _COMPARISON_RELATION[0]:
return actual_occurrences < self._frequency
elif self._comparison_relation == _COMPARISON_RELATION[1]:
return actual_occurrences >= self._frequency
class NumberOfWords(Instruction):
"""Checks the number of words."""
def build_description(self, *, num_words=None, relation=None):
"""Build the instruction description.
Args:
num_words: An integer specifying the number of words contained in the
response.
relation: A string in (`less than`, `at least`), defining the relational
operator for comparison.
Two relational comparisons are supported for now:
if 'less than', the actual number of words < num_words;
if 'at least', the actual number of words >= num_words.
Returns:
A string representing the instruction description.
"""
self._num_words = num_words
if self._num_words is None or self._num_words < 0:
self._num_words = random.randint(
_NUM_WORDS_LOWER_LIMIT, _NUM_WORDS_UPPER_LIMIT
)
if relation is None:
self._comparison_relation = random.choice(_COMPARISON_RELATION)
elif relation not in _COMPARISON_RELATION:
raise ValueError(
"The supported relation for comparison must be in "
f"{_COMPARISON_RELATION}, but {relation} is given."
)
else:
self._comparison_relation = relation
self._description_pattern = "Answer with {relation} {num_words} words."
return self._description_pattern.format(
relation=self._comparison_relation, num_words=self._num_words
)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {"num_words": self._num_words, "relation": self._comparison_relation}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["num_words", "relation"]
def check_following(self, value):
"""Checks if the response contains the expected number of words."""
num_words = instructions_util.count_words(value)
if self._comparison_relation == _COMPARISON_RELATION[0]:
return num_words < self._num_words
elif self._comparison_relation == _COMPARISON_RELATION[1]:
return num_words >= self._num_words
class JsonFormat(Instruction):
"""Check the Json format."""
def build_description(self):
self._description_pattern = (
"Entire output should be wrapped in JSON format. You can use markdown"
" ticks such as ```."
)
return self._description_pattern
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return None
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return []
def check_following(self, value):
value = (
value.strip()
.removeprefix("```json")
.removeprefix("```Json")
.removeprefix("```JSON")
.removeprefix("```")
.removesuffix("```")
.strip()
)
try:
json.loads(value)
except ValueError as _:
return False
return True
class ParagraphFirstWordCheck(Instruction):
"""Check the paragraph and the first word of the nth paragraph."""
def build_description(
self, num_paragraphs=None, nth_paragraph=None, first_word=None
):
r"""Build the instruction description.
Args:
num_paragraphs: An integer indicating the number of paragraphs expected
in the response. A paragraph is a subset of the string that is
expected to be separated by '\n\n'.
nth_paragraph: An integer indicating the paragraph number that we look at.
Note that n starts from 1.
first_word: A string that represent the first word of the bth paragraph.
Returns:
A string representing the instruction description.
"""
self._num_paragraphs = num_paragraphs
if self._num_paragraphs is None or self._num_paragraphs < 0:
self._num_paragraphs = random.randint(1, _NUM_PARAGRAPHS)
self._nth_paragraph = nth_paragraph
if (
self._nth_paragraph is None
or self._nth_paragraph <= 0
or self._nth_paragraph > self._num_paragraphs
):
self._nth_paragraph = random.randint(1, self._num_paragraphs + 1)
self._first_word = first_word
if self._first_word is None:
self._first_word = instructions_util.generate_keywords(num_keywords=1)[0]
self._first_word = self._first_word.lower()
self._description_pattern = (
"There should be {num_paragraphs} paragraphs. "
+ "Paragraphs and only paragraphs are separated with each other by two "
+ "new lines as if it was '\\n\\n' in python. "
+ "Paragraph {nth_paragraph} must start with word {first_word}."
)
return self._description_pattern.format(
num_paragraphs=self._num_paragraphs,
nth_paragraph=self._nth_paragraph,
first_word=self._first_word,
)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {
"num_paragraphs": self._num_paragraphs,
"nth_paragraph": self._nth_paragraph,
"first_word": self._first_word,
}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["num_paragraphs", "nth_paragraph", "first_word"]
def check_following(self, value):
"""Checks for required number of paragraphs and correct first word.
Args:
value: a string representing the response. The response may contain
paragraphs that are separated by two new lines and the first word of
the nth paragraph will have to match a specified word.
Returns:
True if the number of paragraphs is the same as required and the first
word of the specified paragraph is the same as required. Otherwise, false.
"""
paragraphs = re.split(r"\n\n", value)
num_paragraphs = len(paragraphs)
for paragraph in paragraphs:
if not paragraph.strip():
num_paragraphs -= 1
# check that index doesn't go out of bounds
if self._nth_paragraph <= num_paragraphs:
paragraph = paragraphs[self._nth_paragraph - 1].strip()
if not paragraph:
return False
else:
return False
first_word = ""
punctuation = {".", ",", "?", "!", "'", '"'}
# get first word and remove punctuation
word = paragraph.split()[0].strip()
# TODO(jeffrey): make more complex?
word = word.lstrip("'")
word = word.lstrip('"')
for letter in word:
if letter in punctuation:
break
first_word += letter.lower()
return num_paragraphs == self._num_paragraphs and first_word == self._first_word
# TODO(jeffrey) add relation - at least/at most?
class KeySentenceChecker(Instruction):
"""Check the existence of certain key sentences."""
def build_description(self, key_sentences=None, num_sentences=None):
"""Build the instruction description.
Args:
key_sentences: A sequences of strings representing the key sentences that
are expected in the response.
num_sentences: The number of key sentences that are expected to be seen in
the response.
Returns:
A string representing the instruction description.
"""
if not key_sentences:
# TODO(jeffrey) make a generate sentences function? wonderwords package
self._key_sentences = set(["For now, this is fine."])
else:
self._key_sentences = key_sentences
if not num_sentences:
self._num_sentences = random.randint(1, len(self._key_sentences))
else:
self._num_sentences = num_sentences
self._description_pattern = (
"Include {num_sentences} of the following sentences {key_sentences}"
)
return self._description_pattern.format(
num_sentences=self._num_sentences, key_sentences=self._key_sentences
)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {
"num_sentences": self._num_sentences,
"key_sentences": list(self._key_sentences),
}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["num_sentences", "key_sentences"]
def check_following(self, value):
"""Checks if the response contains the expected key sentences."""
count = 0
sentences = instructions_util.split_into_sentences(value)
for sentence in self._key_sentences:
if sentence in sentences:
count += 1
return count == self._num_sentences
class ForbiddenWords(Instruction):
"""Checks that specified words are not used in response."""
def build_description(self, forbidden_words=None):
"""Build the instruction description.
Args:
forbidden_words: A sequences of strings respresenting words that are not
allowed in the response.
Returns:
A string representing the instruction description.
"""
if not forbidden_words:
self._forbidden_words = instructions_util.generate_keywords(
num_keywords=_NUM_KEYWORDS
)
else:
self._forbidden_words = list(set(forbidden_words))
self._forbidden_words = sorted(self._forbidden_words)
self._description_pattern = (
"Do not include keywords {forbidden_words} in the response."
)
return self._description_pattern.format(forbidden_words=self._forbidden_words)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {"forbidden_words": self._forbidden_words}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["forbidden_words"]
def check_following(self, value):
"""Check if the response does not contain the expected keywords."""
for word in self._forbidden_words:
if re.search(r"\b" + word + r"\b", value, flags=re.IGNORECASE):
return False
return True
class RephraseParagraph(Instruction):
"""Checks that the paragraph is rephrased."""
def build_description(self, *, original_paragraph, low, high):
"""Builds the instruction description.
Args:
original_paragraph: A string presenting the original paragraph. The
rephrases response should have betweeb low-high words in common.
low: An integer presenting the lower bound of similar words.
high: An integer representing the upper bound of similar words.
Returns:
A string representing the instruction description.
"""
# TODO(jeffrey) make more encompassing
self._original_paragraph = original_paragraph
self._low = low
self._high = high
self._description = (
"Rephrase the following paragraph: "
+ "{original_paragraph}\nYour response should have "
+ "between {low} and {high} of the same words. "
+ "Words are the same if and only if all of the "
+ "letters, ignoring cases, are the same. For "
+ "example, 'run' is the same as 'Run' but different "
+ "to 'ran'."
)
return self._description.format(
original_paragraph=original_paragraph, low=self._low, high=self._high
)
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return {
"original_paragraph": self._original_paragraph,
"low": self._low,
"high": self._high,
}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["original_paragraph", "low", "high"]
def check_following(self, value):
val_words = re.findall(r"\w+", value.lower())
original_words = re.findall(r"\w+", self._original_paragraph.lower())
similar_words = 0
dict_val = collections.Counter(val_words)
dict_original = collections.Counter(original_words)
for word in dict_original:
similar_words += min(dict_original[word], dict_val[word])
return similar_words >= self._low and similar_words <= self._high
class TwoResponsesChecker(Instruction):
"""Check that two responses were given."""
def build_description(self):
"""Build the instruction description."""
self._description_pattern = (
"Give two different responses. Responses and only responses should"
" be separated by 6 asterisk symbols: ******."
)
return self._description_pattern
def get_instruction_args(self):
"""Returns the keyward args of `build_description`."""
return None
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return []
def check_following(self, value):
"""Checks if the response has two different answers.
Args:
value: A string representing the response.
Returns:
True if two responses are detected and false otherwise.
"""
valid_responses = list()
responses = value.split("******")
for index, response in enumerate(responses):
if not response.strip():
if index != 0 and index != len(responses) - 1:
return False
else:
valid_responses.append(response)
return (
len(valid_responses) == 2
and valid_responses[0].strip() != valid_responses[1].strip()
)
class RepeatPromptThenAnswer(Instruction):
"""Checks that Prompt is first repeated then answered."""
def build_description(self, *, prompt_to_repeat=None):
"""Build the instruction description.
Args:
prompt_to_repeat: The prompt that is meant to be repeated.
Returns:
A string representing the instruction description.
"""
if not prompt_to_repeat:
raise ValueError("prompt_to_repeat must be set.")
else:
self._prompt_to_repeat = prompt_to_repeat
self._description_pattern = (
"First repeat the request word for word without change,"
" then give your answer (1. do not say any words or characters"
" before repeating the request; 2. the request you need to repeat"
" does not include this sentence)"
)
return self._description_pattern
def get_instruction_args(self):
return {"prompt_to_repeat": self._prompt_to_repeat}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["prompt_to_repeat"]
def check_following(self, value):
if value.strip().lower().startswith(self._prompt_to_repeat.strip().lower()):
return True
return False
class EndChecker(Instruction):
"""Checks that the prompt ends with a given phrase."""
def build_description(self, *, end_phrase=None):
"""Build the instruction description.
Args:
end_phrase: A string representing the phrase the response should end with.
Returns:
A string representing the instruction description.
"""
self._end_phrase = (
end_phrase.strip() if isinstance(end_phrase, str) else end_phrase
)
if self._end_phrase is None:
self._end_phrase = random.choice(_ENDING_OPTIONS)
self._description_pattern = (
"Finish your response with this exact phrase {ender}. "
"No other words should follow this phrase."
)
return self._description_pattern.format(ender=self._end_phrase)
def get_instruction_args(self):
return {"end_phrase": self._end_phrase}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["end_phrase"]
def check_following(self, value):
"""Checks if the response ends with the expected phrase."""
value = value.strip().strip('"').lower()
self._end_phrase = self._end_phrase.strip().lower()
return value.endswith(self._end_phrase)
class TitleChecker(Instruction):
"""Checks the response for a title."""
def build_description(self):
"""Build the instruction description."""
self._description_pattern = (
"Your answer must contain a title, wrapped in double angular brackets,"
" such as <<poem of joy>>."
)
return self._description_pattern
def get_instruction_args(self):
return None
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return []
def check_following(self, value):
"""Checks if the response contains a title."""
pattern = r"<<[^\n]+>>"
re_pattern = re.compile(pattern)
titles = re.findall(re_pattern, value)
for title in titles:
if title.lstrip("<").rstrip(">").strip():
return True
return False
class LetterFrequencyChecker(Instruction):
"""Checks letter frequency."""
def build_description(self, *, letter=None, let_frequency=None, let_relation=None):
"""Build the instruction description.
Args:
letter: A string representing a letter that is expected in the response.
let_frequency: An integer specifying the number of times `keyword` is
expected to appear in the response.
let_relation: A string in (`less than`, `at least`), defining the
relational operator for comparison. Two relational comparisons are
supported for now; if 'less than', the actual number of
occurrences < frequency; if 'at least', the actual number of
occurrences >= frequency.
Returns:
A string representing the instruction description.
"""
if (
not letter
or len(letter) > 1
or ord(letter.lower()) < 97
or ord(letter.lower()) > 122
):
self._letter = random.choice(list(string.ascii_letters))
else:
self._letter = letter.strip()
self._letter = self._letter.lower()
self._frequency = let_frequency
if self._frequency is None or self._frequency < 0:
self._frequency = random.randint(1, _LETTER_FREQUENCY)
if let_relation is None:
self._comparison_relation = random.choice(_COMPARISON_RELATION)
elif let_relation not in _COMPARISON_RELATION:
raise ValueError(
"The supported relation for comparison must be in "
f"{_COMPARISON_RELATION}, but {let_relation} is given."
)
else:
self._comparison_relation = let_relation
self._description_pattern = (
"In your response, the letter {letter} should appear {let_relation}"
" {let_frequency} times."
)
return self._description_pattern.format(
letter=self._letter,
let_frequency=self._frequency,
let_relation=self._comparison_relation,
)
def get_instruction_args(self):
"""Returns the keyword args of build description."""
return {
"letter": self._letter,
"let_frequency": self._frequency,
"let_relation": self._comparison_relation,
}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["letter", "let_frequency", "let_relation"]
def check_following(self, value):
"""Checks that the response contains the letter at the right frequency."""
value = value.lower()
letters = collections.Counter(value)
if self._comparison_relation == _COMPARISON_RELATION[0]:
return letters[self._letter] < self._frequency
else:
return letters[self._letter] >= self._frequency
class CapitalLettersEnglishChecker(Instruction):
"""Checks that the response is in english and is in all capital letters."""
def build_description(self):
"""Build the instruction description."""
self._description_pattern = (
"Your entire response should be in English, and in all capital letters."
)
return self._description_pattern
def get_instruction_args(self):
return None
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return []
def check_following(self, value):
"""Checks that the response is in English and in all capital letters."""
assert isinstance(value, str)
try:
return value.isupper() and langdetect.detect(value) == "en"
except langdetect.LangDetectException as e:
# Count as instruction is followed.
logging.error(
"Unable to detect language for text %s due to %s", value, e
) # refex: disable=pytotw.037
return True
class LowercaseLettersEnglishChecker(Instruction):
"""Checks that the response is in english and is in all lowercase letters."""
def build_description(self):
"""Build the instruction description."""
self._description_pattern = (
"Your entire response should be in English, and in all lowercase"
" letters. No capital letters are allowed."
)
return self._description_pattern
def get_instruction_args(self):
return None
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return []
def check_following(self, value):
"""Checks that the response is in English and in all lowercase letters."""
assert isinstance(value, str)
try:
return value.islower() and langdetect.detect(value) == "en"
except langdetect.LangDetectException as e:
# Count as instruction is followed.
logging.error(
"Unable to detect language for text %s due to %s", value, e
) # refex: disable=pytotw.037
return True
class CommaChecker(Instruction):
"""Checks the response for no commas."""
def build_description(self):
"""Build the instruction description."""
self._description_pattern = (
"In your entire response, refrain from the use of any commas."
)
return self._description_pattern
def get_instruction_args(self):
return None
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return []
def check_following(self, value):
"""Checks that the response does not contain commas."""
return not re.search(r"\,", value)
class CapitalWordFrequencyChecker(Instruction):
"""Checks frequency of words with all capital letters."""
def build_description(
self,
capital_frequency=None,
capital_relation=None,
):
"""Build the instruction description.
Args:
capital_frequency: An integer that represents the number of words that
should be in all capital letters.
capital_relation: A string that is 'at least' or 'at most' that refers to
the frequency.
Returns:
A string representing the instruction description.
"""
self._frequency = capital_frequency
if self._frequency is None:
self._frequency = random.randint(1, _ALL_CAPITAL_WORD_FREQUENCY)
self._comparison_relation = capital_relation
if capital_relation is None:
self._comparison_relation = random.choice(_COMPARISON_RELATION)
elif capital_relation not in _COMPARISON_RELATION:
raise ValueError(
"The supported relation for comparison must be in "
f"{_COMPARISON_RELATION}, but {capital_relation} is given."
)
self._description_pattern = (
"In your response, words with all capital letters should appear"
" {relation} {frequency} times."
)
return self._description_pattern.format(
frequency=self._frequency, relation=self._comparison_relation
)
def get_instruction_args(self):
"""Returns the keyword args of build description."""
return {
"capital_frequency": self._frequency,
"capital_relation": self._comparison_relation,
}
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return ["capital_frequency", "capital_relation"]
def check_following(self, value):
"""Checks the frequency of words with all capital letters."""
# Hyphenated words will count as one word
words = instructions_util.nltk.word_tokenize(value)
capital_words = [word for word in words if word.isupper()]
capital_words = len(capital_words)
if self._comparison_relation == _COMPARISON_RELATION[0]:
return capital_words < self._frequency
else:
return capital_words >= self._frequency
class QuotationChecker(Instruction):
"""Checks response is wrapped with double quotation marks."""
def build_description(self):
"""Build the instruction description."""
self._description_pattern = (
"Wrap your entire response with double quotation marks."
)
return self._description_pattern
def get_instruction_args(self):
"""Returns the keyword args of build description."""
return None
def get_instruction_args_keys(self):
"""Returns the args keys of `build_description`."""
return []
def check_following(self, value):
"""Checks if the response is wrapped with double quotation marks."""
value = value.strip()
return len(value) > 1 and value[0] == '"' and value[-1] == '"'
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