"""
This file come from: https://github.com/microsoft/ToRA/blob/main/src/utils/parser.py
"""
import re
from typing import Any, Dict
def _fix_fracs(string):
substrs = string.split("\\frac")
new_str = substrs[0]
if len(substrs) > 1:
substrs = substrs[1:]
for substr in substrs:
new_str += "\\frac"
if len(substr) > 0 and substr[0] == "{":
new_str += substr
else:
try:
assert len(substr) >= 2
except:
return string
a = substr[0]
b = substr[1]
if b != "{":
if len(substr) > 2:
post_substr = substr[2:]
new_str += "{" + a + "}{" + b + "}" + post_substr
else:
new_str += "{" + a + "}{" + b + "}"
else:
if len(substr) > 2:
post_substr = substr[2:]
new_str += "{" + a + "}" + b + post_substr
else:
new_str += "{" + a + "}" + b
string = new_str
return string
def _fix_a_slash_b(string):
if len(string.split("/")) != 2:
return string
a = string.split("/")[0]
b = string.split("/")[1]
try:
if "sqrt" not in a:
a = int(a)
if "sqrt" not in b:
b = int(b)
assert string == "{}/{}".format(a, b)
new_string = "\\frac{" + str(a) + "}{" + str(b) + "}"
return new_string
except:
return string
def _fix_sqrt(string):
_string = re.sub(r"\\sqrt(\w+)", r"\\sqrt{\1}", string)
return _string
def strip_string(string):
string = str(string).strip()
# linebreaks
string = string.replace("\n", "")
# right "."
string = string.rstrip(".")
# remove inverse spaces
string = string.replace("\\!", "")
string = string.replace("\\ ", "")
# replace \\ with \
string = string.replace("\\\\", "\\")
string = string.replace("\\\\", "\\")
# replace tfrac and dfrac with frac
string = string.replace("tfrac", "frac")
string = string.replace("dfrac", "frac")
# remove \left and \right
string = string.replace("\\left", "")
string = string.replace("\\right", "")
# Remove unit: miles, dollars if after is not none
_string = re.sub(r"\\text{.*?}$", "", string).strip()
if _string != "" and _string != string:
# print("Warning: unit not removed: '{}' -> '{}'".format(string, _string))
string = _string
# Remove circ (degrees)
string = string.replace("^{\\circ}", "")
string = string.replace("^\\circ", "")
# remove dollar signs
string = string.replace("\\$", "")
string = string.replace("$", "")
string = string.replace("\\text", "")
string = string.replace("x\\in", "")
# remove percentage
string = string.replace("\\%", "")
string = string.replace("\%", "")
string = string.replace("%", "")
# " 0." equivalent to " ." and "{0." equivalent to "{." Alternatively, add "0" if "." is the start of the string
string = string.replace(" .", " 0.")
string = string.replace("{.", "{0.")
# cdot
string = string.replace("\\cdot", "")
# inf
string = string.replace("infinity", "\\infty")
if "\\infty" not in string:
string = string.replace("inf", "\\infty")
string = string.replace("+\\inity", "\\infty")
# and
string = string.replace("and", "")
string = string.replace("\\mathbf", "")
# use regex to remove \mbox{...}
string = re.sub(r"\\mbox{.*?}", "", string)
# quote
string.replace("'", "")
string.replace("\"", "")
# i, j
if "j" in string and "i" not in string:
string = string.replace("j", "i")
# replace a.000b where b is not number or b is end, with ab, use regex
string = re.sub(r"(\d+)\.0+([^\d])", r"\1\2", string)
string = re.sub(r"(\d+)\.0+$", r"\1", string)
# if empty, return empty string
if len(string) == 0:
return string
if string[0] == ".":
string = "0" + string
# to consider: get rid of e.g. "k = " or "q = " at beginning
if len(string.split("=")) == 2:
if len(string.split("=")[0]) <= 2:
string = string.split("=")[1]
string = _fix_sqrt(string)
string = string.replace(" ", "")
# \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}
string = _fix_fracs(string)
# NOTE: X/Y changed to \frac{X}{Y} in dataset, but in simple cases fix in case the model output is X/Y
string = _fix_a_slash_b(string)
return string
def extract_answer(pred_str):
if 'boxed' in pred_str:
ans = pred_str.split('boxed')[-1]
if len(ans) == 0:
return ""
elif (ans[0] == '{'):
stack = 1
a = ''
for c in ans[1:]:
if (c == '{'):
stack += 1
a += c
elif (c == '}'):
stack -= 1
if (stack == 0): break
a += c
else:
a += c
else:
a = ans.split('$')[0].strip()
pred=a
elif ('he answer is' in pred_str):
pred = pred_str.split('he answer is')[-1].strip()
elif extract_program_output(pred_str) != "":
# fall back to program
pred = extract_program_output(pred_str)
else: # use the last number
pattern = '-?\d*\.?\d+'
pred = re.findall(pattern, pred_str.replace(",", ""))
if(len(pred) >= 1):
pred = pred[-1]
else: pred = ''
# multiple line
pred = pred.split("\n")[0]
if pred != "" and pred[0] == ":":
pred = pred[1:]
if pred != "" and pred[-1] == ".":
pred = pred[:-1]
if pred != "" and pred[-1] == "/":
pred = pred[:-1]
pred = strip_string(pred)
return pred
def extract_program(result: str, last_only=True):
"""
extract the program after "```python", and before "```"
"""
program = ""
start = False
for line in result.split("\n"):
if line.startswith("```python"):
if last_only:
program = "" # only extract the last program
else:
program += "\n# ========\n"
start = True
elif line.startswith("```"):
start = False
elif start:
program += line + "\n"
return program
def extract_program_output(pred_str):
"""
extract output between the last ```output\n...\n```
"""
if "```output" not in pred_str:
return ""
if '```output' in pred_str:
pred_str = pred_str.split('```output')[-1]
if '```' in pred_str:
pred_str = pred_str.split('```')[0]
output = pred_str.strip()
return output
def parse_ground_truth(example: Dict[str, Any], data_name):
if 'gt_cot' in example:
return example['gt_cot'], strip_string(example['gt'])
# parse ground truth
if data_name in ["math", 'ocw']:
gt_cot = example['solution']
gt_ans = extract_answer(gt_cot)
elif data_name == "gsm8k":
gt_cot, gt_ans = example['answer'].split("####")
elif data_name == "gsm-hard":
gt_cot, gt_ans = example['code'], example['target']
elif data_name == "svamp":
gt_cot, gt_ans = example['Equation'], example['Answer']
elif data_name == "asdiv":
gt_cot = example['formula']
gt_ans = re.sub(r"\(.*?\)", "", example['answer'])
elif data_name == "mawps":
gt_cot, gt_ans = None, example['target']
elif data_name == "tabmwp":
gt_cot = example['solution']
gt_ans = example['answer']
if example['ans_type'] in ['integer_number', 'decimal_number']:
if '/' in gt_ans:
gt_ans = int(gt_ans.split('/')[0]) / int(gt_ans.split('/')[1])
elif ',' in gt_ans:
gt_ans = float(gt_ans.replace(',', ''))
elif '%' in gt_ans:
gt_ans = float(gt_ans.split('%')[0]) / 100
else:
gt_ans = float(gt_ans)
elif data_name == "bbh":
gt_cot, gt_ans = None, example['target']
else:
raise NotImplementedError(data_name)
# post process
gt_cot = str(gt_cot).strip()
gt_ans = strip_string(gt_ans)
return gt_cot, gt_ans
def parse_question(example, data_name):
question = ""
if data_name == "asdiv":
question = f"{example['body'].strip()} {example['question'].strip()}"
elif data_name == "svamp":
body = example["Body"].strip()
if not body.endswith("."):
body = body + "."
question = f'{body} {example["Question"].strip()}'
elif data_name == "tabmwp":
title_str = f'regarding "{example["table_title"]}" ' if example['table_title'] else ""
question = f'Read the following table {title_str}and answer a question:\n'
question += f'{example["table"]}\n{example["question"]}'
if example['choices']:
question += f' Please select from the following options: {example["choices"]}'
else:
for key in ['question', 'problem', 'Question', 'input']:
if key in example:
question = example[key]
break
assert question != ""
return question.strip()
def run_execute(executor, result, prompt_type, execute=False):
if not result or result == 'error':
return None, None
report = None
if "program_only" in prompt_type:
prediction = extract_program_output(result)
elif prompt_type in ["pot", "pal"] and execute:
code = extract_program(result)
prediction, report = executor.apply(code)
else:
prediction = extract_answer(result)
prediction = strip_string(prediction)
return prediction, report