from opencompass.openicl.icl_prompt_template import PromptTemplate from opencompass.openicl.icl_retriever import ZeroRetriever from opencompass.openicl.icl_inferencer import AgentInferencer from opencompass.openicl.icl_evaluator import CircularEvaluator, AccEvaluator from opencompass.datasets import MathBenchDataset, mathbench_postprocess from opencompass.utils.text_postprocessors import first_option_postprocess PROMPT_EN = { "FEWSHOT_INSTRUCTION_CLOZE" : [ dict(role='HUMAN', prompt='Mark\'s basketball team scores 25 2 pointers, 8 3 pointers and 10 free throws. Their opponents score double the 2 pointers but half the 3 pointers and free throws. What\'s the total number of points scored by both teams added together?'), dict(role='BOT', prompt='Tool:PythonInterpreter\nTool Input:```python\ndef solution():\n mark_pointers_2 = 25 * 2\n mark_pointers_3 = 8 * 3\n mark_free_throws = 10 * 1\n mark_points_scored = mark_pointers_2 + mark_pointers_3 + mark_free_throws\n opponents_pointers_2 = mark_pointers_2 * 2\n opponents_pointers_3 = mark_pointers_3 / 2\n opponents_free_throws = mark_free_throws / 2\n opponents_points_scored = opponents_pointers_2 + opponents_pointers_3 + opponents_free_throws\n total_points_scored = mark_points_scored + opponents_points_scored\n result = total_points_scored\n return result\n```'), dict(role='SYSTEM', prompt='Response:210'), dict(role='BOT', prompt='Thought: According to the response, I got the answer\nFinalAnswer: 210'), dict(role='HUMAN', prompt='Bella has two times as many marbles as frisbees. She also has 20 more frisbees than deck cards. If she buys 2/5 times more of each item, what would be the total number of the items she will have if she currently has 60 marbles?'), dict(role='BOT', prompt='Tool:PythonInterpreter\nTool Input:```python\ndef solution():\n marbles = 60\n num_increased_marbles = marbles * 2 / 5\n num_total_marbles = marbles + num_increased_marbles\n frisbees = marbles / 2\n num_increased_frisbees = frisbees * 2 / 5\n num_total_frisbees = frisbees + num_increased_frisbees\n deck_cards = frisbees - 20\n num_increased_deck_cards = deck_cards * 2 / 5\n num_total_deck_cards = deck_cards + num_increased_deck_cards\n num_total = num_total_marbles + num_total_frisbees + num_total_deck_cards\n result = num_total\n return result\n```'), dict(role='SYSTEM', prompt='Response:140'), dict(role='BOT', prompt='Thought: According to the response, I got the answer\nFinalAnswer: 140'), dict(role='HUMAN', prompt='A group of 4 fruit baskets contains 9 apples, 15 oranges, and 14 bananas in the first three baskets and 2 less of each fruit in the fourth basket. How many fruits are there?'), dict(role='BOT', prompt="""Tool:PythonInterpreter\nTool Input:```python\ndef solution():\n num_fruits_per_first_three_basket = 9 + 15 + 14\n num_fruits_first_three_basket = num_fruits_per_first_three_basket * 3\n num_apple_fourth_basket = 9 - 2\n num_orange_fourth_basket = 15 - 2\n num_banana_fourth_basket = 14 - 2\n num_fruits_fourth_basket = num_apple_fourth_basket + num_orange_fourth_basket + num_banana_fourth_basket\n num_fruits_total = num_fruits_first_three_basket + num_fruits_fourth_basket\n result = num_fruits_total\n return result\n```"""), dict(role='SYSTEM', prompt='Response:146'), dict(role='BOT', prompt='Thought: According to the response, I got the answer\nFinalAnswer: 146'), dict(role='HUMAN', prompt='{question}'), ], "FEWSHOT_INSTRUCTION_CHOICE" : [ dict(role='HUMAN', prompt='Given point P(-1,4) lies on the graph of the inverse proportionality function $y=\\frac{{k}}{{x}}$ (k≠0), what is the value of k? A. $-\\frac{{1}}{{4}}$ B. $\\frac{{1}}{{4}}$ C. $4$ D. $-4$'), dict(role='BOT', prompt='Tool:PythonInterpreter\nTool Input:```python\nfrom sympy import solve, symbols, Ne, Eq\ndef solution():\n k = symbols(\'k\')\n result = solve([Eq(4, k / (-1)), Ne(k, 0)], k, dict=True)\n return result\n```'), dict(role='SYSTEM', prompt='Response:{{Eq(k, -4)}}'), dict(role='BOT', prompt='Thought: Substituting point P into the function yields the value of k as $-4$\nFinalAnswer: D'), dict(role='HUMAN', prompt='The graph of the power function $y=(x)$ passes through the point$ (2, \\dfrac {{1}}{{4}}) $, what is the value of $f(-3)$? A. $\\frac{{1}}{{9}}$ B. $\\frac{{1}}{{8}})=196-x$ C. $\\frac{{2}}{{9}}$ D. $\\frac{{1}}{{4}}$'), dict(role='BOT', prompt='Tool:PythonInterpreter\nTool Input:```python\nfrom sympy import *\ndef solution():\n x, y, k = symbols(\'x y k\')\n eq1 = Eq(2**k, Rational(1, 4))\n k_value = solve(eq1, k)[0]\n y = x**k_value\n result = y.subs(x, -3)\n return result\n```'), dict(role='SYSTEM', prompt='Response:1/9'), dict(role='BOT', prompt='Thought: The functional expression of the power function is $y=x^{{-2}}$. Substituting $x=-3$ yields $y=$\\frac{{1}}{{9}}$\nFinalAnswer: A'), dict(role='HUMAN', prompt='If $3 x-y=12$, what is the value of $\\frac{8^{x}}{2^{y}} ?$\nA. The value cannot be determined from the information given.\nB. $2^{12}$\nC. 4\nD. $8^{2}$'), dict(role='BOT', prompt='Tool:PythonInterpreter\nTool Input:```python\nfrom sympy import symbols, Eq, solve\n\ndef sloution():\n x, y = symbols(\'x y\')\n equation = Eq(3*x - y, 12)\n\n y_in_terms_of_x = solve(equation, y)[0]\n expression = 8**x / 2**y_in_terms_of_x\n result = expression.simplify()\n return result\n```'), dict(role='SYSTEM', prompt='Response:2**12'), dict(role='BOT', prompt='Thought: The value of $\\frac{8^{x}}{2^{y}}$ is $2^{12}$\nFinalAnswer: B'), dict(role='HUMAN', prompt='{question}'), ] } PROMPT_CN = { "FEWSHOT_INSTRUCTION_CLOZE" : [ dict(role='HUMAN', prompt='Mark的篮球队得到25个2分球,8个3分球和10个罚球。他们的对手得到2分球的两倍,但3分球和罚球的一半。两队得分的总和是多少?'), dict(role='BOT', prompt='Tool:PythonInterpreter\nTool Input:```python\ndef solution():\n mark_pointers_2 = 25 * 2\n mark_pointers_3 = 8 * 3\n mark_free_throws = 10 * 1\n mark_points_scored = mark_pointers_2 + mark_pointers_3 + mark_free_throws\n opponents_pointers_2 = mark_pointers_2 * 2\n opponents_pointers_3 = mark_pointers_3 / 2\n opponents_free_throws = mark_free_throws / 2\n opponents_points_scored = opponents_pointers_2 + opponents_pointers_3 + opponents_free_throws\n total_points_scored = mark_points_scored + opponents_points_scored\n result = total_points_scored\n return result\n```'), dict(role='SYSTEM', prompt='Response:210'), dict(role='BOT', prompt='Thought: 根据回答,我得到了答案\nFinalAnswer: 210'), dict(role='HUMAN', prompt='Bella有两倍于飞盘的弹珠。她还比卡片多20个飞盘。如果她买每种物品多2/5,她会有多少总数的物品,如果她现在有60颗弹珠?'), dict(role='BOT', prompt='Tool:PythonInterpreter\nTool Input:```python\ndef solution():\n marbles = 60\n num_increased_marbles = marbles * 2 / 5\n num_total_marbles = marbles + num_increased_marbles\n frisbees = marbles / 2\n num_increased_frisbees = frisbees * 2 / 5\n num_total_frisbees = frisbees + num_increased_frisbees\n deck_cards = frisbees - 20\n num_increased_deck_cards = deck_cards * 2 / 5\n num_total_deck_cards = deck_cards + num_increased_deck_cards\n num_total = num_total_marbles + num_total_frisbees + num_total_deck_cards\n result = num_total\n return result\n```'), dict(role='SYSTEM', prompt='Response:140'), dict(role='BOT', prompt='Thought: 根据回答,我得到了答案\nFinalAnswer: 140'), dict(role='HUMAN', prompt='一个有4个水果篮子,前三个篮子里有9个苹果、15个橙子和14个香蕉,第四个篮子里每种水果都少2个。总共有多少水果?'), dict(role='BOT', prompt="""Tool:PythonInterpreter\nTool Input:```python\ndef solution():\n num_fruits_per_first_three_basket = 9 + 15 + 14\n num_fruits_first_three_basket = num_fruits_per_first_three_basket * 3\n num_apple_fourth_basket = 9 - 2\n num_orange_fourth_basket = 15 - 2\n num_banana_fourth_basket = 14 - 2\n num_fruits_fourth_basket = num_apple_fourth_basket + num_orange_fourth_basket + num_banana_fourth_basket\n num_fruits_total = num_fruits_first_three_basket + num_fruits_fourth_basket\n result = num_fruits_total\n return result\n```"""), dict(role='SYSTEM', prompt='Response:146'), dict(role='BOT', prompt='Thought: 根据回答,我得到了答案\nFinalAnswer: 146'), dict(role='HUMAN', prompt='{question}'), ], "FEWSHOT_INSTRUCTION_CHOICE" : [ dict(role='HUMAN', prompt='已知点P(-1,4)在反比例函数$y=\\frac{{k}}{{x}}$ (k≠0)的图象上,则k的值是____'), dict(role='BOT', prompt='Tool:PythonInterpreter\nTool Input:```python\nfrom sympy import solve, symbols, Ne, Eq\ndef solution():\n k = symbols(\'k\')\n result = solve([Eq(4, k / (-1)), Ne(k, 0)], k, dict=True)\n return result\n```'), dict(role='SYSTEM', prompt='Response:{{Eq(k, -4)}}'), dict(role='BOT', prompt='Thought: 将点 P 带入函数解出 k 的值为 $-4$\nFinalAnswer: D'), dict(role='HUMAN', prompt='幂函数$ y=(x) $的图象经过点$ (2, \\dfrac {{1}}{{4}}) $,则$ f(-3) $的值为 ______ .'), dict(role='BOT', prompt='Tool:PythonInterpreter\nTool Input:```python\nfrom sympy import *\ndef solution():\n x, y, k = symbols(\'x y k\')\n eq1 = Eq(2**k, Rational(1, 4))\n k_value = solve(eq1, k)[0]\n y = x**k_value\n result = y.subs(x, -3)\n return result\n```'), dict(role='SYSTEM', prompt='Response:1/9'), dict(role='BOT', prompt='Thought: 求出幂函数的函数表达式为 $y=x^{{-2}}$,代入 $x=-3$ 得到 $y=$\\frac{{1}}{{9}}$\nFinalAnswer: A'), dict(role='HUMAN', prompt='如果$3 x-y=12$,则$\\frac{8^{x}}{2^{y}}$的值是多少?\nA. 无法从给定的信息中确定值。\nB. $2^{12}$\nC. 4\nD. $8^{2}$'), dict(role='BOT', prompt='Tool:PythonInterpreter\nTool Input:```python\nfrom sympy import symbols, Eq, solve\n\ndef sloution():\n x, y = symbols(\'x y\')\n equation = Eq(3*x - y, 12)\n\n y_in_terms_of_x = solve(equation, y)[0]\n expression = 8**x / 2**y_in_terms_of_x\n result = expression.simplify()\n return result\n```'), dict(role='SYSTEM', prompt='Response:2**12'), dict(role='BOT', prompt='Thought: $\\frac{8^{x}}{2^{y}}$的值是$2^{12}$\nFinalAnswer: B'), dict(role='HUMAN', prompt='{question}'), ] } mathbench_sets = { 'college': ['single_choice_cn', 'cloze_en'], 'high': ['single_choice_cn', 'single_choice_en'], 'middle': ['single_choice_cn'], 'primary': ['cloze_cn'], 'primary_refine': ['refine_cloze_cn'] } # Use circular evaluation or not with_circular_eval = True mathbench_agent_datasets = [] for _split in list(mathbench_sets.keys()): for _name in mathbench_sets[_split]: prompt_example = PROMPT_CN if '_cn' in _name else PROMPT_EN mathbench_infer_cfg = dict( prompt_template=dict(type=PromptTemplate, template=dict( round = prompt_example["FEWSHOT_INSTRUCTION_CLOZE"] if 'cloze' in _name else prompt_example["FEWSHOT_INSTRUCTION_CHOICE"])), retriever=dict(type=ZeroRetriever), inferencer=dict(type=AgentInferencer) ) mathbench_eval_cfg = dict( evaluator=dict(type=CircularEvaluator if 'choice' in _name and with_circular_eval else AccEvaluator), pred_postprocessor=dict(type=first_option_postprocess, options='ABCD') if 'single_choice' in _name else dict(type=mathbench_postprocess, name=_name)) mathbench_agent_datasets.append( dict( abbr="mathbench-" + _split + '-' + _name + '-agent', type=MathBenchDataset, path=f"./data/mathbench/{_split}", name=_name, with_circular=with_circular_eval, reader_cfg=dict( input_columns=["question"], output_column="answer" ), infer_cfg=mathbench_infer_cfg, eval_cfg=mathbench_eval_cfg, ))