547 lines
19 KiB
Python
547 lines
19 KiB
Python
# ======================== MATH Scale Utils ======================================
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# https://github.com/microsoft/unilm/blob/master/mathscale/MWPBench/eval_vllm/util.py#L282-L336
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import re
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from typing import List, Dict
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def fix_fracs(string):
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substrs = string.split("\\frac")
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new_str = substrs[0]
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if len(substrs) > 1:
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substrs = substrs[1:]
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for substr in substrs:
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new_str += "\\frac"
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if substr[0] == "{":
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new_str += substr
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else:
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try:
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assert len(substr) >= 2
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except AssertionError:
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return string
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a = substr[0]
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b = substr[1]
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if b != "{":
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if len(substr) > 2:
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post_substr = substr[2:]
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new_str += "{" + a + "}{" + b + "}" + post_substr
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else:
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new_str += "{" + a + "}{" + b + "}"
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else:
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if len(substr) > 2:
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post_substr = substr[2:]
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new_str += "{" + a + "}" + b + post_substr
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else:
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new_str += "{" + a + "}" + b
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string = new_str
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return string
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def fix_a_slash_b(string):
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if len(string.split("/")) != 2:
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return string
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a = string.split("/")[0]
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b = string.split("/")[1]
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try:
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a = int(a)
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b = int(b)
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assert string == "{}/{}".format(a, b)
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new_string = "\\frac{" + str(a) + "}{" + str(b) + "}"
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return new_string
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except Exception as e:
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return string
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def remove_right_units(string):
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# "\\text{ " only ever occurs (at least in the val set) when describing units
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if "\\text{ " in string:
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splits = string.split("\\text{ ")
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assert len(splits) == 2
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return splits[0]
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else:
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return string
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def fix_sqrt(string):
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if "\\sqrt" not in string:
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return string
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splits = string.split("\\sqrt")
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new_string = splits[0]
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for split in splits[1:]:
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if split[0] != "{":
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a = split[0]
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new_substr = "\\sqrt{" + a + "}" + split[1:]
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else:
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new_substr = "\\sqrt" + split
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new_string += new_substr
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return new_string
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def is_number(s):
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s = s.strip("$")
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try:
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# Try to convert the string to an integer
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int(s)
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return True
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except ValueError:
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try:
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# Try to convert the string to a float
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float(s)
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return True
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except ValueError:
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return False
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def unbox_and_extract(text):
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start_indices = [m.start() for m in re.finditer(r'\\boxed{', text)]
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extracted_contents = []
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for start in start_indices:
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brace_count = 0
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for i, char in enumerate(text[start:]):
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if char == '{':
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brace_count += 1
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elif char == '}':
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brace_count -= 1
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if brace_count == 0:
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end = start + i + 1
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extracted_contents.append(text[start + 7:end - 1]) # +7 to skip '\\boxed{'
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break
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# Replace '\\boxed{...}' with the content inside it
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unboxed_text = re.sub(r'\\boxed{(.*?)}', r'\1', text)
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return unboxed_text, extracted_contents
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def convert_to_latex_fraction(text: str) -> str:
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# Use regex to find all occurrences of ((num)/(denom))
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pattern = re.compile(r"\(\(([\d]+)\)/\(([\d]+)\)\)")
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matches = pattern.findall(text)
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for match in matches:
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num, denom = match
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latex_frac = f"\\\\frac{{{num}}}{{{denom}}}"
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# Replace the old expression with the LaTeX fraction
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text = text.replace(f"(({num})/({denom}))", latex_frac)
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return text
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def strip_string(string):
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# convert ((3)/(4)) -> \\frac{3}{4}
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string = convert_to_latex_fraction(string)
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# remove ,
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string = string.replace(",", "")
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# linebreaks
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string = string.replace("\n", "")
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# remove inverse spaces
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string = string.replace("\\!", "")
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# replace \\ with \
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string = string.replace("\\\\", "\\")
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# replace tfrac and dfrac with frac
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string = string.replace("tfrac", "frac")
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string = string.replace("dfrac", "frac")
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# remove \left and \right
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string = string.replace("\\left", "")
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string = string.replace("\\right", "")
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# Remove circ (degrees)
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string = string.replace("^{\\circ}", "")
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string = string.replace("^\\circ", "")
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# remove dollar signs
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string = string.replace("\\$", "")
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# remove units (on the right)
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string = remove_right_units(string)
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# remove percentage
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string = string.replace("\\%", "")
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string = string.replace("\%", "") # noqa: W605
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# " 0." equivalent to " ." and "{0." equivalent to "{." Alternatively, add "0" if "." is the start of the string
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string = string.replace(" .", " 0.")
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string = string.replace("{.", "{0.")
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# if empty, return empty string
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if len(string) == 0:
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return string
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if string[0] == ".":
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string = "0" + string
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# to consider: get rid of e.g. "k = " or "q = " at beginning
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if len(string.split("=")) == 2:
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if len(string.split("=")[0]) <= 2:
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string = string.split("=")[1]
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# fix sqrt3 --> sqrt{3}
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string = fix_sqrt(string)
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# My own
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string = string.replace("\\quad", " ")
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# remove spaces
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string = string.replace(" ", "")
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# \frac1b or \frac12 --> \frac{1}{b} and \frac{1}{2}, etc. Even works with \frac1{72} (but not \frac{72}1). Also does a/b --> \\frac{a}{b}
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string = fix_fracs(string)
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# manually change 0.5 --> \frac{1}{2}
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if string == "0.5":
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string = "\\frac{1}{2}"
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# NOTE: X/Y changed to \frac{X}{Y} in dataset, but in simple cases fix in case the model output is X/Y
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string = fix_a_slash_b(string)
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return string
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def is_single_inline_math(expression: str) -> bool:
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# Use regex to check for a pattern that starts and ends with dollar signs,
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# and contains no other dollar signs in between.
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pattern = re.compile(r"^\$[^$]+\$$")
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match = pattern.match(expression)
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return bool(match)
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def mathscale_is_equiv(prediction_ans, reference_ans, verbose=False):
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if prediction_ans is None and reference_ans is None:
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print("WARNING: Both None")
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return True, prediction_ans, reference_ans
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if prediction_ans is None or reference_ans is None:
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return False, prediction_ans, reference_ans
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try:
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clean_prediction_ans = strip_string(prediction_ans)
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clean_reference_ans = strip_string(reference_ans)
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if is_number(clean_prediction_ans) and is_number(clean_reference_ans):
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judge = float(clean_prediction_ans.strip("$")) == float(clean_reference_ans.strip("$"))
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# print(f"1 judge: {judge}")
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elif is_single_inline_math(clean_reference_ans):
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judge = (clean_reference_ans.strip("$") in clean_prediction_ans.strip("$"))
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# print(f"2 judge: {judge}")
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elif (len(clean_prediction_ans) >= 3) and (not is_number(clean_prediction_ans)) and (not clean_prediction_ans.startswith("-")) and (
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not clean_reference_ans.startswith("-")) and (clean_prediction_ans in clean_reference_ans):
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judge = True
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# print(f"3 judge: {judge}")
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elif (len(clean_reference_ans) >= 3) and (not is_number(clean_reference_ans)) and (not clean_prediction_ans.startswith("-")) and (
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not clean_reference_ans.startswith("-")) and (clean_reference_ans in clean_prediction_ans):
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judge = True
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# print(f"4 judge: {judge}")
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else:
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judge = clean_prediction_ans == clean_reference_ans
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# print(f"5 judge: {judge}")
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if verbose:
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print(f"clean_prediction_ans: {clean_prediction_ans} | clean_reference_ans: {clean_reference_ans} | judge: {judge}")
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return judge, clean_prediction_ans, clean_reference_ans
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except Exception as e:
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# print(e)
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return prediction_ans == reference_ans, prediction_ans, reference_ans
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def mathscale_is_equiv_proxy(prediction_ans, reference_ans, verbose=False):
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return mathscale_is_equiv(prediction_ans, reference_ans.lower(), verbose=verbose)[0]
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def is_correct(completion, answer, verbose=False):
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completion = completion.lower()
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answer = answer.lower()
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# Extract short answer from completion
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extract_ans = ""
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try:
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clean_reference_ans = strip_string(answer)
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except Exception as e:
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clean_reference_ans = answer
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print(f"Failed to strip answer string: {answer} =============== {e}")
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is_reference_ans_number = is_number(clean_reference_ans)
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# First extract boxed answer
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unbox_long_answer, box_short_answers = unbox_and_extract(completion)
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if box_short_answers != []:
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extract_ans = box_short_answers[-1].strip()
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# print(f"1 extract_ans: {extract_ans}")
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# extract the last number answer
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elif is_reference_ans_number:
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numbers = re.findall(r"[\-+]?\d*[\.,/]?\d+", completion)
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if numbers:
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extract_ans = numbers[-1]
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# print(f"2 extract_ans: {extract_ans}")
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# extract "the answer is ..." answer
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elif ("answer is" in completion) or ("solution is" in completion):
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if "answer is" in completion:
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split_ans = completion.split('answer is')
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else:
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split_ans = completion.split('solution is')
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ans = split_ans[-1].strip().lstrip(":").strip()
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extract_ans_temp = ans.split('.\n')[0]
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extract_ans_temp = extract_ans_temp.strip()
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extract_ans_temp = extract_ans_temp.strip('.')
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if len(extract_ans_temp) > 0 and extract_ans_temp[-1] == '.':
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extract_ans = extract_ans_temp[0:-1]
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else:
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extract_ans = extract_ans_temp
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extract_ans = extract_ans.strip()
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# print(f"3 extract_ans: {extract_ans}")
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# extract "therefore xx is xxx" answer
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elif "is" in completion:
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pos = completion.rfind("is")
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ans = completion[pos + 2:].strip().lstrip(":").strip()
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extract_ans_temp = ans.split('.\n')[0]
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extract_ans_temp = extract_ans_temp.strip()
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extract_ans_temp = extract_ans_temp.strip('.')
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if len(extract_ans_temp) > 0 and extract_ans_temp[-1] == '.':
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extract_ans = extract_ans_temp[0:-1]
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else:
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extract_ans = extract_ans_temp
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extract_ans = extract_ans.strip()
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# print(f"4 extract_ans: {extract_ans}")
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else:
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return False, f"failed extracting answer from completion", clean_reference_ans
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judge, clean_prediction_ans, clean_reference_ans = mathscale_is_equiv(extract_ans, answer, verbose=verbose)
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return judge, clean_prediction_ans, clean_reference_ans
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def mathscale_extract_answer():
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def func(completion: str):
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completion = completion.lower()
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# Extract short answer from completion
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extract_ans = ""
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# First extract boxed answer
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unbox_long_answer, box_short_answers = unbox_and_extract(completion)
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if box_short_answers != []:
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extract_ans = box_short_answers[-1].strip()
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# print(f"1 extract_ans: {extract_ans}")
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# extract the last number answer
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# elif is_reference_ans_number:
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# numbers = re.findall(r"[\-+]?\d*[\.,/]?\d+", completion)
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# if numbers:
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# extract_ans = numbers[-1]
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# print(f"2 extract_ans: {extract_ans}")
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# extract "the answer is ..." answer
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elif ("answer is" in completion) or ("solution is" in completion):
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if "answer is" in completion:
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split_ans = completion.split('answer is')
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else:
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split_ans = completion.split('solution is')
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ans = split_ans[-1].strip().lstrip(":").strip()
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extract_ans_temp = ans.split('.\n')[0]
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extract_ans_temp = extract_ans_temp.strip()
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extract_ans_temp = extract_ans_temp.strip('.')
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if len(extract_ans_temp) > 0 and extract_ans_temp[-1] == '.':
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extract_ans = extract_ans_temp[0:-1]
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else:
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extract_ans = extract_ans_temp
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extract_ans = extract_ans.strip()
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# print(f"3 extract_ans: {extract_ans}")
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# extract "therefore xx is xxx" answer
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elif "is" in completion:
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pos = completion.rfind("is")
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ans = completion[pos + 2:].strip().lstrip(":").strip()
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extract_ans_temp = ans.split('.\n')[0]
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extract_ans_temp = extract_ans_temp.strip()
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extract_ans_temp = extract_ans_temp.strip('.')
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if len(extract_ans_temp) > 0 and extract_ans_temp[-1] == '.':
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extract_ans = extract_ans_temp[0:-1]
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else:
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extract_ans = extract_ans_temp
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extract_ans = extract_ans.strip()
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# print(f"4 extract_ans: {extract_ans}")
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else:
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return ""
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return extract_ans
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return func
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def mathscale_extract_answer_fn_v2_list(separator: str = "The answer is: ", completion_field: str = "response"):
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from data.math import extract_answer_number
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mathscale_extract_fn = mathscale_extract_answer()
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def func(data: List[Dict]):
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for item in data:
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res = extract_answer_number(item[completion_field], separator=separator)
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if not res:
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item["label"] = str(mathscale_extract_fn(item[completion_field]))
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else:
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item["label"] = str(res)
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return data
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return func
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def mathscale_extract_answer_v2(completion: str):
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completion = completion.lower()
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# Extract short answer from completion
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extract_ans = ""
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# First extract boxed answer
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unbox_long_answer, box_short_answers = unbox_and_extract(completion)
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numbers = re.findall(r"[\-+]?\d*[\.,/]?\d+", completion)
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if box_short_answers != []:
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extract_ans = box_short_answers[-1].strip()
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# print(f"1 extract_ans: {extract_ans}")
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# extract the last number answer
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# elif is_reference_ans_number:
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elif numbers:
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extract_ans = numbers[-1]
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# print(f"2 extract_ans: {extract_ans}")
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# extract "the answer is ..." answer
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elif ("answer is" in completion) or ("solution is" in completion):
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if "answer is" in completion:
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split_ans = completion.split('answer is')
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else:
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split_ans = completion.split('solution is')
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ans = split_ans[-1].strip().lstrip(":").strip()
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extract_ans_temp = ans.split('.\n')[0]
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extract_ans_temp = extract_ans_temp.strip()
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extract_ans_temp = extract_ans_temp.strip('.')
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if len(extract_ans_temp) > 0 and extract_ans_temp[-1] == '.':
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extract_ans = extract_ans_temp[0:-1]
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else:
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extract_ans = extract_ans_temp
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extract_ans = extract_ans.strip()
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# print(f"3 extract_ans: {extract_ans}")
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# extract "therefore xx is xxx" answer
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elif "is" in completion:
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pos = completion.rfind("is")
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ans = completion[pos + 2:].strip().lstrip(":").strip()
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extract_ans_temp = ans.split('.\n')[0]
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extract_ans_temp = extract_ans_temp.strip()
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extract_ans_temp = extract_ans_temp.strip('.')
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if len(extract_ans_temp) > 0 and extract_ans_temp[-1] == '.':
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extract_ans = extract_ans_temp[0:-1]
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else:
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extract_ans = extract_ans_temp
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extract_ans = extract_ans.strip()
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# print(f"4 extract_ans: {extract_ans}")
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else:
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return ""
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try:
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extract_ans = strip_string(extract_ans)
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except Exception as e:
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print(f"Failed to strip answer string: {extract_ans} =============== {e}")
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return extract_ans
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def mathscale_extract_answer_v3(completion: str):
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completion = completion.lower()
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# Extract short answer from completion
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extract_ans = ""
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# First extract boxed answer
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unbox_long_answer, box_short_answers = unbox_and_extract(completion)
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if "answer is" in completion:
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numbers = re.findall(r"[\-+]?\d*[\.,/]?\d+", completion.split("answer is")[-1])
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elif "solution is" in completion:
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numbers = re.findall(r"[\-+]?\d*[\.,/]?\d+", completion.split("solution is")[-1])
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else:
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numbers = []
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if box_short_answers != []:
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extract_ans = box_short_answers[-1].strip()
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# print(f"1 extract_ans: {extract_ans}")
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# extract the last number answer
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# elif is_reference_ans_number:
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elif numbers:
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extract_ans = numbers[0]
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# print(f"2 extract_ans: {extract_ans}")
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# extract "the answer is ..." answer
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elif ("answer is" in completion) or ("solution is" in completion):
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if "answer is" in completion:
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split_ans = completion.split('answer is')
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else:
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split_ans = completion.split('solution is')
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ans = split_ans[-1].strip().lstrip(":").strip()
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extract_ans_temp = ans.split('.\n')[0]
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extract_ans_temp = extract_ans_temp.strip()
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extract_ans_temp = extract_ans_temp.strip('.')
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if len(extract_ans_temp) > 0 and extract_ans_temp[-1] == '.':
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extract_ans = extract_ans_temp[0:-1]
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else:
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extract_ans = extract_ans_temp
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extract_ans = extract_ans.strip()
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# print(f"3 extract_ans: {extract_ans}")
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# extract "therefore xx is xxx" answer
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elif "is" in completion:
|
|
pos = completion.rfind("is")
|
|
ans = completion[pos + 2:].strip().lstrip(":").strip()
|
|
extract_ans_temp = ans.split('.\n')[0]
|
|
extract_ans_temp = extract_ans_temp.strip()
|
|
extract_ans_temp = extract_ans_temp.strip('.')
|
|
if len(extract_ans_temp) > 0 and extract_ans_temp[-1] == '.':
|
|
extract_ans = extract_ans_temp[0:-1]
|
|
else:
|
|
extract_ans = extract_ans_temp
|
|
extract_ans = extract_ans.strip()
|
|
# print(f"4 extract_ans: {extract_ans}")
|
|
else:
|
|
return ""
|
|
|
|
try:
|
|
extract_ans = strip_string(extract_ans)
|
|
except Exception as e:
|
|
print(f"Failed to strip answer string: {extract_ans}")
|
|
|
|
return extract_ans
|
|
|
|
|
|
def mathscale_extract_answer_fn_v3(completion_field: str = "response"):
|
|
def func(data: List[Dict]):
|
|
for item in data:
|
|
res = mathscale_extract_answer_v2(item[completion_field])
|
|
if res:
|
|
item["label"] = str(res)
|
|
else:
|
|
item["label"] = ""
|
|
return data
|
|
|
|
return func
|
|
|
|
|
|
def mathscale_extract_answer_fn_v4(completion_field: str = "response"):
|
|
def func(data: List[Dict]):
|
|
for item in data:
|
|
res = mathscale_extract_answer_v3(item[completion_field])
|
|
if res:
|
|
item["label"] = str(res)
|
|
else:
|
|
item["label"] = ""
|
|
return data
|
|
|
|
return func
|
|
|
|
|
|
def extract_pure_prompt_aligner():
|
|
def func(data: List[Dict]):
|
|
for i, item in enumerate(data):
|
|
prompt = item["prompt"]
|
|
|
|
_s = prompt.index("### Instruction:") + len("### Instruction:")
|
|
_e = prompt.index("### Response:")
|
|
question = prompt[_s:_e].strip()
|
|
|
|
item["question"] = question
|
|
item["id"] = i
|
|
|
|
return data
|
|
|
|
return func
|