MemoryAsModality/synthetic_code · Datasets at Hugging Face

dag_id int64 0 49	task dict	answer listlengths 2 2	question stringlengths 62 64	context listlengths 2 2	documents listlengths 2 2	system_prompt stringclasses 1 value	dag_num_nodes int64 100 500	dag_p_const float64 0.1 0.1	dag_p_class float64 0.25 0.25	dag_max_arity int64 5 5	id int64 0 499
0	{ "answer": [ "C8", "K21" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f75" }, "question": "List the immediate input nodes to f75. (Order does not matter.)", "task_id": "local-seed0-t00000-task_parents-f75", "task_type": "task_parents" }	[ "C8", "K21" ]	List the immediate input nodes to f75. (Order does not matter.)	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	0
0	{ "answer": [ "K21", "f54" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f79" }, "question": "List the immediate input nodes to f79. (Order does not matter.)", "task_id": "local-seed0-t00001-task_parents-f79", "task_type": "task_parents" }	[ "K21", "f54" ]	List the immediate input nodes to f79. (Order does not matter.)	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	1
0	{ "answer": [ "C3", "C8" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f17" }, "question": "List the immediate input nodes to f17. (Order does not matter.)", "task_id": "local-seed0-t00002-task_parents-f17", "task_type": "task_parents" }	[ "C3", "C8" ]	List the immediate input nodes to f17. (Order does not matter.)	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	2
0	{ "answer": [ "C0", "f55" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f56" }, "question": "List the immediate input nodes to f56. (Order does not matter.)", "task_id": "local-seed0-t00003-task_parents-f56", "task_type": "task_parents" }	[ "C0", "f55" ]	List the immediate input nodes to f56. (Order does not matter.)	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	3
0	{ "answer": [ "K86", "f54" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f95" }, "question": "List the immediate input nodes to f95. (Order does not matter.)", "task_id": "local-seed0-t00004-task_parents-f95", "task_type": "task_parents" }	[ "K86", "f54" ]	List the immediate input nodes to f95. (Order does not matter.)	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	4
0	{ "answer": [ "f34", "f42" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f91" }, "question": "List the immediate input nodes to f91. (Order does not matter.)", "task_id": "local-seed0-t00005-task_parents-f91", "task_type": "task_parents" }	[ "f34", "f42" ]	List the immediate input nodes to f91. (Order does not matter.)	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	5
0	{ "answer": [ "C2", "f19" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f77" }, "question": "List the immediate input nodes to f77. (Order does not matter.)", "task_id": "local-seed0-t00006-task_parents-f77", "task_type": "task_parents" }	[ "C2", "f19" ]	List the immediate input nodes to f77. (Order does not matter.)	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	6
0	{ "answer": [ "f30", "f42" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f62" }, "question": "List the immediate input nodes to f62. (Order does not matter.)", "task_id": "local-seed0-t00007-task_parents-f62", "task_type": "task_parents" }	[ "f30", "f42" ]	List the immediate input nodes to f62. (Order does not matter.)	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	7
0	{ "answer": [ "f34", "f39" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f90" }, "question": "List the immediate input nodes to f90. (Order does not matter.)", "task_id": "local-seed0-t00008-task_parents-f90", "task_type": "task_parents" }	[ "f34", "f39" ]	List the immediate input nodes to f90. (Order does not matter.)	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	8
0	{ "answer": [ "f37", "f42" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f70" }, "question": "List the immediate input nodes to f70. (Order does not matter.)", "task_id": "local-seed0-t00009-task_parents-f70", "task_type": "task_parents" }	[ "f37", "f42" ]	List the immediate input nodes to f70. (Order does not matter.)	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	9
1	{ "answer": [ "C0", "C0" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f16" }, "question": "List the immediate input nodes to f16. (Order does not matter.)", "task_id": "local-seed1-t00000-task_parents-f16", "task_type": "task_parents" }	[ "C0", "C0" ]	List the immediate input nodes to f16. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	10
1	{ "answer": [ "f24", "f42" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f66" }, "question": "List the immediate input nodes to f66. (Order does not matter.)", "task_id": "local-seed1-t00001-task_parents-f66", "task_type": "task_parents" }	[ "f24", "f42" ]	List the immediate input nodes to f66. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	11
1	{ "answer": [ "f19", "f38" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f98" }, "question": "List the immediate input nodes to f98. (Order does not matter.)", "task_id": "local-seed1-t00002-task_parents-f98", "task_type": "task_parents" }	[ "f19", "f38" ]	List the immediate input nodes to f98. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	12
1	{ "answer": [ "f19", "f55" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f94" }, "question": "List the immediate input nodes to f94. (Order does not matter.)", "task_id": "local-seed1-t00003-task_parents-f94", "task_type": "task_parents" }	[ "f19", "f55" ]	List the immediate input nodes to f94. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	13
1	{ "answer": [ "C0", "C0" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f10" }, "question": "List the immediate input nodes to f10. (Order does not matter.)", "task_id": "local-seed1-t00004-task_parents-f10", "task_type": "task_parents" }	[ "C0", "C0" ]	List the immediate input nodes to f10. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	14
1	{ "answer": [ "C1", "f19" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f31" }, "question": "List the immediate input nodes to f31. (Order does not matter.)", "task_id": "local-seed1-t00005-task_parents-f31", "task_type": "task_parents" }	[ "C1", "f19" ]	List the immediate input nodes to f31. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	15
1	{ "answer": [ "f14", "f14" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f15" }, "question": "List the immediate input nodes to f15. (Order does not matter.)", "task_id": "local-seed1-t00006-task_parents-f15", "task_type": "task_parents" }	[ "f14", "f14" ]	List the immediate input nodes to f15. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	16
1	{ "answer": [ "f50", "f55" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f58" }, "question": "List the immediate input nodes to f58. (Order does not matter.)", "task_id": "local-seed1-t00007-task_parents-f58", "task_type": "task_parents" }	[ "f50", "f55" ]	List the immediate input nodes to f58. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	17
1	{ "answer": [ "f19", "f55" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f94" }, "question": "List the immediate input nodes to f94. (Order does not matter.)", "task_id": "local-seed1-t00008-task_parents-f94", "task_type": "task_parents" }	[ "f19", "f55" ]	List the immediate input nodes to f94. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	18
1	{ "answer": [ "f39", "f50" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f54" }, "question": "List the immediate input nodes to f54. (Order does not matter.)", "task_id": "local-seed1-t00009-task_parents-f54", "task_type": "task_parents" }	[ "f39", "f50" ]	List the immediate input nodes to f54. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	19
2	{ "answer": [ "C0", "f4" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f19" }, "question": "List the immediate input nodes to f19. (Order does not matter.)", "task_id": "local-seed2-t00000-task_parents-f19", "task_type": "task_parents" }	[ "C0", "f4" ]	List the immediate input nodes to f19. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	20
2	{ "answer": [ "C0", "f19" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f23" }, "question": "List the immediate input nodes to f23. (Order does not matter.)", "task_id": "local-seed2-t00001-task_parents-f23", "task_type": "task_parents" }	[ "C0", "f19" ]	List the immediate input nodes to f23. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	21
2	{ "answer": [ "K5", "f19" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f22" }, "question": "List the immediate input nodes to f22. (Order does not matter.)", "task_id": "local-seed2-t00002-task_parents-f22", "task_type": "task_parents" }	[ "K5", "f19" ]	List the immediate input nodes to f22. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	22
2	{ "answer": [ "K47", "f46" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f73" }, "question": "List the immediate input nodes to f73. (Order does not matter.)", "task_id": "local-seed2-t00003-task_parents-f73", "task_type": "task_parents" }	[ "K47", "f46" ]	List the immediate input nodes to f73. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	23
2	{ "answer": [ "f29", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f38" }, "question": "List the immediate input nodes to f38. (Order does not matter.)", "task_id": "local-seed2-t00004-task_parents-f38", "task_type": "task_parents" }	[ "f29", "f9" ]	List the immediate input nodes to f38. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	24
2	{ "answer": [ "f25", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f65" }, "question": "List the immediate input nodes to f65. (Order does not matter.)", "task_id": "local-seed2-t00005-task_parents-f65", "task_type": "task_parents" }	[ "f25", "f9" ]	List the immediate input nodes to f65. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	25
2	{ "answer": [ "f27", "f46" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f54" }, "question": "List the immediate input nodes to f54. (Order does not matter.)", "task_id": "local-seed2-t00006-task_parents-f54", "task_type": "task_parents" }	[ "f27", "f46" ]	List the immediate input nodes to f54. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	26
2	{ "answer": [ "f29", "f38" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f44" }, "question": "List the immediate input nodes to f44. (Order does not matter.)", "task_id": "local-seed2-t00007-task_parents-f44", "task_type": "task_parents" }	[ "f29", "f38" ]	List the immediate input nodes to f44. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	27
2	{ "answer": [ "C0", "C2" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f14" }, "question": "List the immediate input nodes to f14. (Order does not matter.)", "task_id": "local-seed2-t00008-task_parents-f14", "task_type": "task_parents" }	[ "C0", "C2" ]	List the immediate input nodes to f14. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	28
2	{ "answer": [ "f26", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f37" }, "question": "List the immediate input nodes to f37. (Order does not matter.)", "task_id": "local-seed2-t00009-task_parents-f37", "task_type": "task_parents" }	[ "f26", "f9" ]	List the immediate input nodes to f37. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	29
3	{ "answer": [ "C53", "f24" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f54" }, "question": "List the immediate input nodes to f54. (Order does not matter.)", "task_id": "local-seed3-t00000-task_parents-f54", "task_type": "task_parents" }	[ "C53", "f24" ]	List the immediate input nodes to f54. (Order does not matter.)	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	30
3	{ "answer": [ "f19", "f8" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f33" }, "question": "List the immediate input nodes to f33. (Order does not matter.)", "task_id": "local-seed3-t00001-task_parents-f33", "task_type": "task_parents" }	[ "f19", "f8" ]	List the immediate input nodes to f33. (Order does not matter.)	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	31
3	{ "answer": [ "f27", "f50" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f78" }, "question": "List the immediate input nodes to f78. (Order does not matter.)", "task_id": "local-seed3-t00002-task_parents-f78", "task_type": "task_parents" }	[ "f27", "f50" ]	List the immediate input nodes to f78. (Order does not matter.)	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	32
3	{ "answer": [ "K57", "f14" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f94" }, "question": "List the immediate input nodes to f94. (Order does not matter.)", "task_id": "local-seed3-t00003-task_parents-f94", "task_type": "task_parents" }	[ "K57", "f14" ]	List the immediate input nodes to f94. (Order does not matter.)	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	33
3	{ "answer": [ "C3", "f18" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f22" }, "question": "List the immediate input nodes to f22. (Order does not matter.)", "task_id": "local-seed3-t00004-task_parents-f22", "task_type": "task_parents" }	[ "C3", "f18" ]	List the immediate input nodes to f22. (Order does not matter.)	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	34
3	{ "answer": [ "f8", "f8" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f10" }, "question": "List the immediate input nodes to f10. (Order does not matter.)", "task_id": "local-seed3-t00005-task_parents-f10", "task_type": "task_parents" }	[ "f8", "f8" ]	List the immediate input nodes to f10. (Order does not matter.)	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	35
3	{ "answer": [ "K57", "f14" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f94" }, "question": "List the immediate input nodes to f94. (Order does not matter.)", "task_id": "local-seed3-t00006-task_parents-f94", "task_type": "task_parents" }	[ "K57", "f14" ]	List the immediate input nodes to f94. (Order does not matter.)	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	36
3	{ "answer": [ "f14", "f37" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f61" }, "question": "List the immediate input nodes to f61. (Order does not matter.)", "task_id": "local-seed3-t00007-task_parents-f61", "task_type": "task_parents" }	[ "f14", "f37" ]	List the immediate input nodes to f61. (Order does not matter.)	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	37
3	{ "answer": [ "f30", "f47" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f50" }, "question": "List the immediate input nodes to f50. (Order does not matter.)", "task_id": "local-seed3-t00008-task_parents-f50", "task_type": "task_parents" }	[ "f30", "f47" ]	List the immediate input nodes to f50. (Order does not matter.)	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	38
3	{ "answer": [ "f19", "f33" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f45" }, "question": "List the immediate input nodes to f45. (Order does not matter.)", "task_id": "local-seed3-t00009-task_parents-f45", "task_type": "task_parents" }	[ "f19", "f33" ]	List the immediate input nodes to f45. (Order does not matter.)	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	39
4	{ "answer": [ "C27", "K39" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f44" }, "question": "List the immediate input nodes to f44. (Order does not matter.)", "task_id": "local-seed4-t00000-task_parents-f44", "task_type": "task_parents" }	[ "C27", "K39" ]	List the immediate input nodes to f44. (Order does not matter.)	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	40
4	{ "answer": [ "C34", "f33" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f52" }, "question": "List the immediate input nodes to f52. (Order does not matter.)", "task_id": "local-seed4-t00001-task_parents-f52", "task_type": "task_parents" }	[ "C34", "f33" ]	List the immediate input nodes to f52. (Order does not matter.)	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	41
4	{ "answer": [ "C6", "f21" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f24" }, "question": "List the immediate input nodes to f24. (Order does not matter.)", "task_id": "local-seed4-t00002-task_parents-f24", "task_type": "task_parents" }	[ "C6", "f21" ]	List the immediate input nodes to f24. (Order does not matter.)	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	42
4	{ "answer": [ "f47", "f52" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f65" }, "question": "List the immediate input nodes to f65. (Order does not matter.)", "task_id": "local-seed4-t00003-task_parents-f65", "task_type": "task_parents" }	[ "f47", "f52" ]	List the immediate input nodes to f65. (Order does not matter.)	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	43
4	{ "answer": [ "f44", "f69" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f77" }, "question": "List the immediate input nodes to f77. (Order does not matter.)", "task_id": "local-seed4-t00004-task_parents-f77", "task_type": "task_parents" }	[ "f44", "f69" ]	List the immediate input nodes to f77. (Order does not matter.)	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	44
4	{ "answer": [ "C14", "f12" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f32" }, "question": "List the immediate input nodes to f32. (Order does not matter.)", "task_id": "local-seed4-t00005-task_parents-f32", "task_type": "task_parents" }	[ "C14", "f12" ]	List the immediate input nodes to f32. (Order does not matter.)	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	45
4	{ "answer": [ "C0", "f10" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f21" }, "question": "List the immediate input nodes to f21. (Order does not matter.)", "task_id": "local-seed4-t00006-task_parents-f21", "task_type": "task_parents" }	[ "C0", "f10" ]	List the immediate input nodes to f21. (Order does not matter.)	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	46
4	{ "answer": [ "C14", "C14" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f19" }, "question": "List the immediate input nodes to f19. (Order does not matter.)", "task_id": "local-seed4-t00007-task_parents-f19", "task_type": "task_parents" }	[ "C14", "C14" ]	List the immediate input nodes to f19. (Order does not matter.)	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	47
4	{ "answer": [ "C4", "C6" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f10" }, "question": "List the immediate input nodes to f10. (Order does not matter.)", "task_id": "local-seed4-t00008-task_parents-f10", "task_type": "task_parents" }	[ "C4", "C6" ]	List the immediate input nodes to f10. (Order does not matter.)	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	48
4	{ "answer": [ "f47", "f52" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f65" }, "question": "List the immediate input nodes to f65. (Order does not matter.)", "task_id": "local-seed4-t00009-task_parents-f65", "task_type": "task_parents" }	[ "f47", "f52" ]	List the immediate input nodes to f65. (Order does not matter.)	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	49
5	{ "answer": [ "f17", "f69" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f73" }, "question": "List the immediate input nodes to f73. (Order does not matter.)", "task_id": "local-seed5-t00000-task_parents-f73", "task_type": "task_parents" }	[ "f17", "f69" ]	List the immediate input nodes to f73. (Order does not matter.)	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	50
5	{ "answer": [ "C12", "f28" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f34" }, "question": "List the immediate input nodes to f34. (Order does not matter.)", "task_id": "local-seed5-t00001-task_parents-f34", "task_type": "task_parents" }	[ "C12", "f28" ]	List the immediate input nodes to f34. (Order does not matter.)	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	51
5	{ "answer": [ "f17", "f70" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f86" }, "question": "List the immediate input nodes to f86. (Order does not matter.)", "task_id": "local-seed5-t00002-task_parents-f86", "task_type": "task_parents" }	[ "f17", "f70" ]	List the immediate input nodes to f86. (Order does not matter.)	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	52
5	{ "answer": [ "f15", "f3" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f43" }, "question": "List the immediate input nodes to f43. (Order does not matter.)", "task_id": "local-seed5-t00003-task_parents-f43", "task_type": "task_parents" }	[ "f15", "f3" ]	List the immediate input nodes to f43. (Order does not matter.)	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	53
5	{ "answer": [ "f54", "f80" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f94" }, "question": "List the immediate input nodes to f94. (Order does not matter.)", "task_id": "local-seed5-t00004-task_parents-f94", "task_type": "task_parents" }	[ "f54", "f80" ]	List the immediate input nodes to f94. (Order does not matter.)	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	54
5	{ "answer": [ "f37", "f53" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f82" }, "question": "List the immediate input nodes to f82. (Order does not matter.)", "task_id": "local-seed5-t00005-task_parents-f82", "task_type": "task_parents" }	[ "f37", "f53" ]	List the immediate input nodes to f82. (Order does not matter.)	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	55
5	{ "answer": [ "f17", "f70" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f86" }, "question": "List the immediate input nodes to f86. (Order does not matter.)", "task_id": "local-seed5-t00006-task_parents-f86", "task_type": "task_parents" }	[ "f17", "f70" ]	List the immediate input nodes to f86. (Order does not matter.)	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	56
5	{ "answer": [ "f34", "f73" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f79" }, "question": "List the immediate input nodes to f79. (Order does not matter.)", "task_id": "local-seed5-t00007-task_parents-f79", "task_type": "task_parents" }	[ "f34", "f73" ]	List the immediate input nodes to f79. (Order does not matter.)	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	57
5	{ "answer": [ "f47", "f55" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f63" }, "question": "List the immediate input nodes to f63. (Order does not matter.)", "task_id": "local-seed5-t00008-task_parents-f63", "task_type": "task_parents" }	[ "f47", "f55" ]	List the immediate input nodes to f63. (Order does not matter.)	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	58
5	{ "answer": [ "f3", "f3" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f5" }, "question": "List the immediate input nodes to f5. (Order does not matter.)", "task_id": "local-seed5-t00009-task_parents-f5", "task_type": "task_parents" }	[ "f3", "f3" ]	List the immediate input nodes to f5. (Order does not matter.)	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	59
6	{ "answer": [ "f12", "f50" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f83" }, "question": "List the immediate input nodes to f83. (Order does not matter.)", "task_id": "local-seed6-t00000-task_parents-f83", "task_type": "task_parents" }	[ "f12", "f50" ]	List the immediate input nodes to f83. (Order does not matter.)	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	60
6	{ "answer": [ "f21", "f53" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f64" }, "question": "List the immediate input nodes to f64. (Order does not matter.)", "task_id": "local-seed6-t00001-task_parents-f64", "task_type": "task_parents" }	[ "f21", "f53" ]	List the immediate input nodes to f64. (Order does not matter.)	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	61
6	{ "answer": [ "f41", "f71" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f87" }, "question": "List the immediate input nodes to f87. (Order does not matter.)", "task_id": "local-seed6-t00002-task_parents-f87", "task_type": "task_parents" }	[ "f41", "f71" ]	List the immediate input nodes to f87. (Order does not matter.)	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	62
6	{ "answer": [ "C0", "f5" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f11" }, "question": "List the immediate input nodes to f11. (Order does not matter.)", "task_id": "local-seed6-t00003-task_parents-f11", "task_type": "task_parents" }	[ "C0", "f5" ]	List the immediate input nodes to f11. (Order does not matter.)	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	63
6	{ "answer": [ "C0", "f3" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f59" }, "question": "List the immediate input nodes to f59. (Order does not matter.)", "task_id": "local-seed6-t00004-task_parents-f59", "task_type": "task_parents" }	[ "C0", "f3" ]	List the immediate input nodes to f59. (Order does not matter.)	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	64
6	{ "answer": [ "f12", "f29" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f81" }, "question": "List the immediate input nodes to f81. (Order does not matter.)", "task_id": "local-seed6-t00005-task_parents-f81", "task_type": "task_parents" }	[ "f12", "f29" ]	List the immediate input nodes to f81. (Order does not matter.)	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	65
6	{ "answer": [ "f12", "f3" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f34" }, "question": "List the immediate input nodes to f34. (Order does not matter.)", "task_id": "local-seed6-t00006-task_parents-f34", "task_type": "task_parents" }	[ "f12", "f3" ]	List the immediate input nodes to f34. (Order does not matter.)	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	66
6	{ "answer": [ "C2", "f3" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f5" }, "question": "List the immediate input nodes to f5. (Order does not matter.)", "task_id": "local-seed6-t00007-task_parents-f5", "task_type": "task_parents" }	[ "C2", "f3" ]	List the immediate input nodes to f5. (Order does not matter.)	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	67
6	{ "answer": [ "C0", "K1" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f3" }, "question": "List the immediate input nodes to f3. (Order does not matter.)", "task_id": "local-seed6-t00008-task_parents-f3", "task_type": "task_parents" }	[ "C0", "K1" ]	List the immediate input nodes to f3. (Order does not matter.)	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	68
6	{ "answer": [ "C13", "f8" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f17" }, "question": "List the immediate input nodes to f17. (Order does not matter.)", "task_id": "local-seed6-t00009-task_parents-f17", "task_type": "task_parents" }	[ "C13", "f8" ]	List the immediate input nodes to f17. (Order does not matter.)	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	69
7	{ "answer": [ "f48", "f48" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f54" }, "question": "List the immediate input nodes to f54. (Order does not matter.)", "task_id": "local-seed7-t00000-task_parents-f54", "task_type": "task_parents" }	[ "f48", "f48" ]	List the immediate input nodes to f54. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	70
7	{ "answer": [ "C19", "f27" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f35" }, "question": "List the immediate input nodes to f35. (Order does not matter.)", "task_id": "local-seed7-t00001-task_parents-f35", "task_type": "task_parents" }	[ "C19", "f27" ]	List the immediate input nodes to f35. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	71
7	{ "answer": [ "f25", "f29" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f61" }, "question": "List the immediate input nodes to f61. (Order does not matter.)", "task_id": "local-seed7-t00002-task_parents-f61", "task_type": "task_parents" }	[ "f25", "f29" ]	List the immediate input nodes to f61. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	72
7	{ "answer": [ "f25", "f27" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f87" }, "question": "List the immediate input nodes to f87. (Order does not matter.)", "task_id": "local-seed7-t00003-task_parents-f87", "task_type": "task_parents" }	[ "f25", "f27" ]	List the immediate input nodes to f87. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	73
7	{ "answer": [ "C19", "C4" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f25" }, "question": "List the immediate input nodes to f25. (Order does not matter.)", "task_id": "local-seed7-t00004-task_parents-f25", "task_type": "task_parents" }	[ "C19", "C4" ]	List the immediate input nodes to f25. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	74
7	{ "answer": [ "C19", "f21" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f26" }, "question": "List the immediate input nodes to f26. (Order does not matter.)", "task_id": "local-seed7-t00005-task_parents-f26", "task_type": "task_parents" }	[ "C19", "f21" ]	List the immediate input nodes to f26. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	75
7	{ "answer": [ "f27", "f45" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f73" }, "question": "List the immediate input nodes to f73. (Order does not matter.)", "task_id": "local-seed7-t00006-task_parents-f73", "task_type": "task_parents" }	[ "f27", "f45" ]	List the immediate input nodes to f73. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	76
7	{ "answer": [ "C1", "f27" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f29" }, "question": "List the immediate input nodes to f29. (Order does not matter.)", "task_id": "local-seed7-t00007-task_parents-f29", "task_type": "task_parents" }	[ "C1", "f27" ]	List the immediate input nodes to f29. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	77
7	{ "answer": [ "C4", "f48" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f59" }, "question": "List the immediate input nodes to f59. (Order does not matter.)", "task_id": "local-seed7-t00008-task_parents-f59", "task_type": "task_parents" }	[ "C4", "f48" ]	List the immediate input nodes to f59. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	78
7	{ "answer": [ "f54", "f68" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f78" }, "question": "List the immediate input nodes to f78. (Order does not matter.)", "task_id": "local-seed7-t00009-task_parents-f78", "task_type": "task_parents" }	[ "f54", "f68" ]	List the immediate input nodes to f78. (Order does not matter.)	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	79
8	{ "answer": [ "f13", "f22" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f47" }, "question": "List the immediate input nodes to f47. (Order does not matter.)", "task_id": "local-seed8-t00000-task_parents-f47", "task_type": "task_parents" }	[ "f13", "f22" ]	List the immediate input nodes to f47. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	80
8	{ "answer": [ "C31", "f25" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f81" }, "question": "List the immediate input nodes to f81. (Order does not matter.)", "task_id": "local-seed8-t00001-task_parents-f81", "task_type": "task_parents" }	[ "C31", "f25" ]	List the immediate input nodes to f81. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	81
8	{ "answer": [ "f30", "f79" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f82" }, "question": "List the immediate input nodes to f82. (Order does not matter.)", "task_id": "local-seed8-t00002-task_parents-f82", "task_type": "task_parents" }	[ "f30", "f79" ]	List the immediate input nodes to f82. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	82
8	{ "answer": [ "C20", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f25" }, "question": "List the immediate input nodes to f25. (Order does not matter.)", "task_id": "local-seed8-t00003-task_parents-f25", "task_type": "task_parents" }	[ "C20", "f9" ]	List the immediate input nodes to f25. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	83
8	{ "answer": [ "C0", "C2" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f41" }, "question": "List the immediate input nodes to f41. (Order does not matter.)", "task_id": "local-seed8-t00004-task_parents-f41", "task_type": "task_parents" }	[ "C0", "C2" ]	List the immediate input nodes to f41. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	84
8	{ "answer": [ "f9", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f12" }, "question": "List the immediate input nodes to f12. (Order does not matter.)", "task_id": "local-seed8-t00005-task_parents-f12", "task_type": "task_parents" }	[ "f9", "f9" ]	List the immediate input nodes to f12. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	85
8	{ "answer": [ "C1", "C2" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f18" }, "question": "List the immediate input nodes to f18. (Order does not matter.)", "task_id": "local-seed8-t00006-task_parents-f18", "task_type": "task_parents" }	[ "C1", "C2" ]	List the immediate input nodes to f18. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	86
8	{ "answer": [ "f18", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f26" }, "question": "List the immediate input nodes to f26. (Order does not matter.)", "task_id": "local-seed8-t00007-task_parents-f26", "task_type": "task_parents" }	[ "f18", "f9" ]	List the immediate input nodes to f26. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	87
8	{ "answer": [ "f42", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f49" }, "question": "List the immediate input nodes to f49. (Order does not matter.)", "task_id": "local-seed8-t00008-task_parents-f49", "task_type": "task_parents" }	[ "f42", "f9" ]	List the immediate input nodes to f49. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	88
8	{ "answer": [ "f19", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f43" }, "question": "List the immediate input nodes to f43. (Order does not matter.)", "task_id": "local-seed8-t00009-task_parents-f43", "task_type": "task_parents" }	[ "f19", "f9" ]	List the immediate input nodes to f43. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	89
9	{ "answer": [ "C52", "f41" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f60" }, "question": "List the immediate input nodes to f60. (Order does not matter.)", "task_id": "local-seed9-t00000-task_parents-f60", "task_type": "task_parents" }	[ "C52", "f41" ]	List the immediate input nodes to f60. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	90
9	{ "answer": [ "C35", "K6" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f76" }, "question": "List the immediate input nodes to f76. (Order does not matter.)", "task_id": "local-seed9-t00001-task_parents-f76", "task_type": "task_parents" }	[ "C35", "K6" ]	List the immediate input nodes to f76. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	91
9	{ "answer": [ "f43", "f45" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f46" }, "question": "List the immediate input nodes to f46. (Order does not matter.)", "task_id": "local-seed9-t00002-task_parents-f46", "task_type": "task_parents" }	[ "f43", "f45" ]	List the immediate input nodes to f46. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	92
9	{ "answer": [ "K32", "f21" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f39" }, "question": "List the immediate input nodes to f39. (Order does not matter.)", "task_id": "local-seed9-t00003-task_parents-f39", "task_type": "task_parents" }	[ "K32", "f21" ]	List the immediate input nodes to f39. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	93
9	{ "answer": [ "f7", "f8" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f20" }, "question": "List the immediate input nodes to f20. (Order does not matter.)", "task_id": "local-seed9-t00004-task_parents-f20", "task_type": "task_parents" }	[ "f7", "f8" ]	List the immediate input nodes to f20. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	94
9	{ "answer": [ "C3", "K10" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f24" }, "question": "List the immediate input nodes to f24. (Order does not matter.)", "task_id": "local-seed9-t00005-task_parents-f24", "task_type": "task_parents" }	[ "C3", "K10" ]	List the immediate input nodes to f24. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	95
9	{ "answer": [ "f41", "f46" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f98" }, "question": "List the immediate input nodes to f98. (Order does not matter.)", "task_id": "local-seed9-t00006-task_parents-f98", "task_type": "task_parents" }	[ "f41", "f46" ]	List the immediate input nodes to f98. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	96
9	{ "answer": [ "C51", "f50" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f85" }, "question": "List the immediate input nodes to f85. (Order does not matter.)", "task_id": "local-seed9-t00007-task_parents-f85", "task_type": "task_parents" }	[ "C51", "f50" ]	List the immediate input nodes to f85. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	97
9	{ "answer": [ "C3", "C3" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f4" }, "question": "List the immediate input nodes to f4. (Order does not matter.)", "task_id": "local-seed9-t00008-task_parents-f4", "task_type": "task_parents" }	[ "C3", "C3" ]	List the immediate input nodes to f4. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	98
9	{ "answer": [ "C26", "f30" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f43" }, "question": "List the immediate input nodes to f43. (Order does not matter.)", "task_id": "local-seed9-t00009-task_parents-f43", "task_type": "task_parents" }	[ "C26", "f30" ]	List the immediate input nodes to f43. (Order does not matter.)	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...	You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.	100	0.1	0.25	5	99

0

{ "answer": [ "C8", "K21" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f75" }, "question": "List the immediate input nodes to f75. (Order does not matter.)", "task_id": "local-seed0-t00000-task_parents-f75", "task_type": "task_parents" }

[ "C8", "K21" ]

List the immediate input nodes to f75. (Order does not matter.)

[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

0

{ "answer": [ "K21", "f54" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f79" }, "question": "List the immediate input nodes to f79. (Order does not matter.)", "task_id": "local-seed0-t00001-task_parents-f79", "task_type": "task_parents" }

[ "K21", "f54" ]

List the immediate input nodes to f79. (Order does not matter.)

[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

1

0

{ "answer": [ "C3", "C8" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f17" }, "question": "List the immediate input nodes to f17. (Order does not matter.)", "task_id": "local-seed0-t00002-task_parents-f17", "task_type": "task_parents" }

[ "C3", "C8" ]

List the immediate input nodes to f17. (Order does not matter.)

[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

2

0

{ "answer": [ "C0", "f55" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f56" }, "question": "List the immediate input nodes to f56. (Order does not matter.)", "task_id": "local-seed0-t00003-task_parents-f56", "task_type": "task_parents" }

[ "C0", "f55" ]

List the immediate input nodes to f56. (Order does not matter.)

[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

3

0

{ "answer": [ "K86", "f54" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f95" }, "question": "List the immediate input nodes to f95. (Order does not matter.)", "task_id": "local-seed0-t00004-task_parents-f95", "task_type": "task_parents" }

[ "K86", "f54" ]

List the immediate input nodes to f95. (Order does not matter.)

[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

4

0

{ "answer": [ "f34", "f42" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f91" }, "question": "List the immediate input nodes to f91. (Order does not matter.)", "task_id": "local-seed0-t00005-task_parents-f91", "task_type": "task_parents" }

[ "f34", "f42" ]

List the immediate input nodes to f91. (Order does not matter.)

[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

0

{ "answer": [ "C2", "f19" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f77" }, "question": "List the immediate input nodes to f77. (Order does not matter.)", "task_id": "local-seed0-t00006-task_parents-f77", "task_type": "task_parents" }

[ "C2", "f19" ]

List the immediate input nodes to f77. (Order does not matter.)

[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

6

0

{ "answer": [ "f30", "f42" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f62" }, "question": "List the immediate input nodes to f62. (Order does not matter.)", "task_id": "local-seed0-t00007-task_parents-f62", "task_type": "task_parents" }

[ "f30", "f42" ]

List the immediate input nodes to f62. (Order does not matter.)

[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

7

0

{ "answer": [ "f34", "f39" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f90" }, "question": "List the immediate input nodes to f90. (Order does not matter.)", "task_id": "local-seed0-t00008-task_parents-f90", "task_type": "task_parents" }

[ "f34", "f39" ]

List the immediate input nodes to f90. (Order does not matter.)

[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

8

0

{ "answer": [ "f37", "f42" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f70" }, "question": "List the immediate input nodes to f70. (Order does not matter.)", "task_id": "local-seed0-t00009-task_parents-f70", "task_type": "task_parents" }

[ "f37", "f42" ]

List the immediate input nodes to f70. (Order does not matter.)

[ "def f97(a0, a1):\n a = a0 + -5 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -5", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

9

1

{ "answer": [ "C0", "C0" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f16" }, "question": "List the immediate input nodes to f16. (Order does not matter.)", "task_id": "local-seed1-t00000-task_parents-f16", "task_type": "task_parents" }

[ "C0", "C0" ]

List the immediate input nodes to f16. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

10

1

{ "answer": [ "f24", "f42" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f66" }, "question": "List the immediate input nodes to f66. (Order does not matter.)", "task_id": "local-seed1-t00001-task_parents-f66", "task_type": "task_parents" }

[ "f24", "f42" ]

List the immediate input nodes to f66. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

11

1

{ "answer": [ "f19", "f38" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f98" }, "question": "List the immediate input nodes to f98. (Order does not matter.)", "task_id": "local-seed1-t00002-task_parents-f98", "task_type": "task_parents" }

[ "f19", "f38" ]

List the immediate input nodes to f98. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

12

1

{ "answer": [ "f19", "f55" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f94" }, "question": "List the immediate input nodes to f94. (Order does not matter.)", "task_id": "local-seed1-t00003-task_parents-f94", "task_type": "task_parents" }

[ "f19", "f55" ]

List the immediate input nodes to f94. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

13

1

{ "answer": [ "C0", "C0" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f10" }, "question": "List the immediate input nodes to f10. (Order does not matter.)", "task_id": "local-seed1-t00004-task_parents-f10", "task_type": "task_parents" }

[ "C0", "C0" ]

List the immediate input nodes to f10. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

14

1

{ "answer": [ "C1", "f19" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f31" }, "question": "List the immediate input nodes to f31. (Order does not matter.)", "task_id": "local-seed1-t00005-task_parents-f31", "task_type": "task_parents" }

[ "C1", "f19" ]

List the immediate input nodes to f31. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

15

1

{ "answer": [ "f14", "f14" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f15" }, "question": "List the immediate input nodes to f15. (Order does not matter.)", "task_id": "local-seed1-t00006-task_parents-f15", "task_type": "task_parents" }

[ "f14", "f14" ]

List the immediate input nodes to f15. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

16

1

{ "answer": [ "f50", "f55" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f58" }, "question": "List the immediate input nodes to f58. (Order does not matter.)", "task_id": "local-seed1-t00007-task_parents-f58", "task_type": "task_parents" }

[ "f50", "f55" ]

List the immediate input nodes to f58. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

17

1

{ "answer": [ "f19", "f55" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f94" }, "question": "List the immediate input nodes to f94. (Order does not matter.)", "task_id": "local-seed1-t00008-task_parents-f94", "task_type": "task_parents" }

[ "f19", "f55" ]

List the immediate input nodes to f94. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

18

1

{ "answer": [ "f39", "f50" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f54" }, "question": "List the immediate input nodes to f54. (Order does not matter.)", "task_id": "local-seed1-t00009-task_parents-f54", "task_type": "task_parents" }

[ "f39", "f50" ]

List the immediate input nodes to f54. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + -9 > a1\n b = a0 % 2 == 1\n return a and b or a1 < -9", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[0], values[0])\n values[3] = f3(values[0], values[0])\n values[4] = C4\n values[5] = f5(values[1], values[0...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

19

2

{ "answer": [ "C0", "f4" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f19" }, "question": "List the immediate input nodes to f19. (Order does not matter.)", "task_id": "local-seed2-t00000-task_parents-f19", "task_type": "task_parents" }

[ "C0", "f4" ]

List the immediate input nodes to f19. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

20

2

{ "answer": [ "C0", "f19" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f23" }, "question": "List the immediate input nodes to f23. (Order does not matter.)", "task_id": "local-seed2-t00001-task_parents-f23", "task_type": "task_parents" }

[ "C0", "f19" ]

List the immediate input nodes to f23. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

21

2

{ "answer": [ "K5", "f19" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f22" }, "question": "List the immediate input nodes to f22. (Order does not matter.)", "task_id": "local-seed2-t00002-task_parents-f22", "task_type": "task_parents" }

[ "K5", "f19" ]

List the immediate input nodes to f22. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

22

2

{ "answer": [ "K47", "f46" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f73" }, "question": "List the immediate input nodes to f73. (Order does not matter.)", "task_id": "local-seed2-t00003-task_parents-f73", "task_type": "task_parents" }

[ "K47", "f46" ]

List the immediate input nodes to f73. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

23

2

{ "answer": [ "f29", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f38" }, "question": "List the immediate input nodes to f38. (Order does not matter.)", "task_id": "local-seed2-t00004-task_parents-f38", "task_type": "task_parents" }

[ "f29", "f9" ]

List the immediate input nodes to f38. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

24

2

{ "answer": [ "f25", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f65" }, "question": "List the immediate input nodes to f65. (Order does not matter.)", "task_id": "local-seed2-t00005-task_parents-f65", "task_type": "task_parents" }

[ "f25", "f9" ]

List the immediate input nodes to f65. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

25

2

{ "answer": [ "f27", "f46" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f54" }, "question": "List the immediate input nodes to f54. (Order does not matter.)", "task_id": "local-seed2-t00006-task_parents-f54", "task_type": "task_parents" }

[ "f27", "f46" ]

List the immediate input nodes to f54. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

26

2

{ "answer": [ "f29", "f38" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f44" }, "question": "List the immediate input nodes to f44. (Order does not matter.)", "task_id": "local-seed2-t00007-task_parents-f44", "task_type": "task_parents" }

[ "f29", "f38" ]

List the immediate input nodes to f44. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

27

2

{ "answer": [ "C0", "C2" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f14" }, "question": "List the immediate input nodes to f14. (Order does not matter.)", "task_id": "local-seed2-t00008-task_parents-f14", "task_type": "task_parents" }

[ "C0", "C2" ]

List the immediate input nodes to f14. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

28

2

{ "answer": [ "f26", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f37" }, "question": "List the immediate input nodes to f37. (Order does not matter.)", "task_id": "local-seed2-t00009-task_parents-f37", "task_type": "task_parents" }

[ "f26", "f9" ]

List the immediate input nodes to f37. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 1 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 1", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = f1(values[0], values[0])\n values[2] = C2\n values[3] = K3(values[0], values[0])\n values[4] = f4(values[3], values[0])\n values[5] = K5...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

29

3

{ "answer": [ "C53", "f24" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f54" }, "question": "List the immediate input nodes to f54. (Order does not matter.)", "task_id": "local-seed3-t00000-task_parents-f54", "task_type": "task_parents" }

[ "C53", "f24" ]

List the immediate input nodes to f54. (Order does not matter.)

[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

30

3

{ "answer": [ "f19", "f8" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f33" }, "question": "List the immediate input nodes to f33. (Order does not matter.)", "task_id": "local-seed3-t00001-task_parents-f33", "task_type": "task_parents" }

[ "f19", "f8" ]

List the immediate input nodes to f33. (Order does not matter.)

[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

31

3

{ "answer": [ "f27", "f50" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f78" }, "question": "List the immediate input nodes to f78. (Order does not matter.)", "task_id": "local-seed3-t00002-task_parents-f78", "task_type": "task_parents" }

[ "f27", "f50" ]

List the immediate input nodes to f78. (Order does not matter.)

[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

32

3

{ "answer": [ "K57", "f14" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f94" }, "question": "List the immediate input nodes to f94. (Order does not matter.)", "task_id": "local-seed3-t00003-task_parents-f94", "task_type": "task_parents" }

[ "K57", "f14" ]

List the immediate input nodes to f94. (Order does not matter.)

[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

33

3

{ "answer": [ "C3", "f18" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f22" }, "question": "List the immediate input nodes to f22. (Order does not matter.)", "task_id": "local-seed3-t00004-task_parents-f22", "task_type": "task_parents" }

[ "C3", "f18" ]

List the immediate input nodes to f22. (Order does not matter.)

[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

34

3

{ "answer": [ "f8", "f8" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f10" }, "question": "List the immediate input nodes to f10. (Order does not matter.)", "task_id": "local-seed3-t00005-task_parents-f10", "task_type": "task_parents" }

[ "f8", "f8" ]

List the immediate input nodes to f10. (Order does not matter.)

[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

35

3

{ "answer": [ "K57", "f14" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f94" }, "question": "List the immediate input nodes to f94. (Order does not matter.)", "task_id": "local-seed3-t00006-task_parents-f94", "task_type": "task_parents" }

[ "K57", "f14" ]

List the immediate input nodes to f94. (Order does not matter.)

[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

36

3

{ "answer": [ "f14", "f37" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f61" }, "question": "List the immediate input nodes to f61. (Order does not matter.)", "task_id": "local-seed3-t00007-task_parents-f61", "task_type": "task_parents" }

[ "f14", "f37" ]

List the immediate input nodes to f61. (Order does not matter.)

[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

37

3

{ "answer": [ "f30", "f47" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f50" }, "question": "List the immediate input nodes to f50. (Order does not matter.)", "task_id": "local-seed3-t00008-task_parents-f50", "task_type": "task_parents" }

[ "f30", "f47" ]

List the immediate input nodes to f50. (Order does not matter.)

[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

38

3

{ "answer": [ "f19", "f33" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f45" }, "question": "List the immediate input nodes to f45. (Order does not matter.)", "task_id": "local-seed3-t00009-task_parents-f45", "task_type": "task_parents" }

[ "f19", "f33" ]

List the immediate input nodes to f45. (Order does not matter.)

[ "def f99(a0, a1):\n total = 0\n for key in sorted(a0):\n total += a0[key] + len(key) % 3 * a1 * 4\n return total", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n v...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

39

4

{ "answer": [ "C27", "K39" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f44" }, "question": "List the immediate input nodes to f44. (Order does not matter.)", "task_id": "local-seed4-t00000-task_parents-f44", "task_type": "task_parents" }

[ "C27", "K39" ]

List the immediate input nodes to f44. (Order does not matter.)

[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

40

4

{ "answer": [ "C34", "f33" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f52" }, "question": "List the immediate input nodes to f52. (Order does not matter.)", "task_id": "local-seed4-t00001-task_parents-f52", "task_type": "task_parents" }

[ "C34", "f33" ]

List the immediate input nodes to f52. (Order does not matter.)

[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

41

4

{ "answer": [ "C6", "f21" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f24" }, "question": "List the immediate input nodes to f24. (Order does not matter.)", "task_id": "local-seed4-t00002-task_parents-f24", "task_type": "task_parents" }

[ "C6", "f21" ]

List the immediate input nodes to f24. (Order does not matter.)

[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

42

4

{ "answer": [ "f47", "f52" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f65" }, "question": "List the immediate input nodes to f65. (Order does not matter.)", "task_id": "local-seed4-t00003-task_parents-f65", "task_type": "task_parents" }

[ "f47", "f52" ]

List the immediate input nodes to f65. (Order does not matter.)

[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

43

4

{ "answer": [ "f44", "f69" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f77" }, "question": "List the immediate input nodes to f77. (Order does not matter.)", "task_id": "local-seed4-t00004-task_parents-f77", "task_type": "task_parents" }

[ "f44", "f69" ]

List the immediate input nodes to f77. (Order does not matter.)

[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

44

4

{ "answer": [ "C14", "f12" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f32" }, "question": "List the immediate input nodes to f32. (Order does not matter.)", "task_id": "local-seed4-t00005-task_parents-f32", "task_type": "task_parents" }

[ "C14", "f12" ]

List the immediate input nodes to f32. (Order does not matter.)

[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

45

4

{ "answer": [ "C0", "f10" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f21" }, "question": "List the immediate input nodes to f21. (Order does not matter.)", "task_id": "local-seed4-t00006-task_parents-f21", "task_type": "task_parents" }

[ "C0", "f10" ]

List the immediate input nodes to f21. (Order does not matter.)

[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

46

4

{ "answer": [ "C14", "C14" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f19" }, "question": "List the immediate input nodes to f19. (Order does not matter.)", "task_id": "local-seed4-t00007-task_parents-f19", "task_type": "task_parents" }

[ "C14", "C14" ]

List the immediate input nodes to f19. (Order does not matter.)

[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

47

4

{ "answer": [ "C4", "C6" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f10" }, "question": "List the immediate input nodes to f10. (Order does not matter.)", "task_id": "local-seed4-t00008-task_parents-f10", "task_type": "task_parents" }

[ "C4", "C6" ]

List the immediate input nodes to f10. (Order does not matter.)

[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

48

4

{ "answer": [ "f47", "f52" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f65" }, "question": "List the immediate input nodes to f65. (Order does not matter.)", "task_id": "local-seed4-t00009-task_parents-f65", "task_type": "task_parents" }

[ "f47", "f52" ]

List the immediate input nodes to f65. (Order does not matter.)

[ "def f98(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = K2(values[0], values[0])\n values[3] = K3(values[0], values[0])\n values[4] = C4\n values[5] =...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

49

5

{ "answer": [ "f17", "f69" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f73" }, "question": "List the immediate input nodes to f73. (Order does not matter.)", "task_id": "local-seed5-t00000-task_parents-f73", "task_type": "task_parents" }

[ "f17", "f69" ]

List the immediate input nodes to f73. (Order does not matter.)

[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

50

5

{ "answer": [ "C12", "f28" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f34" }, "question": "List the immediate input nodes to f34. (Order does not matter.)", "task_id": "local-seed5-t00001-task_parents-f34", "task_type": "task_parents" }

[ "C12", "f28" ]

List the immediate input nodes to f34. (Order does not matter.)

[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

51

5

{ "answer": [ "f17", "f70" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f86" }, "question": "List the immediate input nodes to f86. (Order does not matter.)", "task_id": "local-seed5-t00002-task_parents-f86", "task_type": "task_parents" }

[ "f17", "f70" ]

List the immediate input nodes to f86. (Order does not matter.)

[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

52

5

{ "answer": [ "f15", "f3" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f43" }, "question": "List the immediate input nodes to f43. (Order does not matter.)", "task_id": "local-seed5-t00003-task_parents-f43", "task_type": "task_parents" }

[ "f15", "f3" ]

List the immediate input nodes to f43. (Order does not matter.)

[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

53

5

{ "answer": [ "f54", "f80" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f94" }, "question": "List the immediate input nodes to f94. (Order does not matter.)", "task_id": "local-seed5-t00004-task_parents-f94", "task_type": "task_parents" }

[ "f54", "f80" ]

List the immediate input nodes to f94. (Order does not matter.)

[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

54

5

{ "answer": [ "f37", "f53" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f82" }, "question": "List the immediate input nodes to f82. (Order does not matter.)", "task_id": "local-seed5-t00005-task_parents-f82", "task_type": "task_parents" }

[ "f37", "f53" ]

List the immediate input nodes to f82. (Order does not matter.)

[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

55

5

{ "answer": [ "f17", "f70" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f86" }, "question": "List the immediate input nodes to f86. (Order does not matter.)", "task_id": "local-seed5-t00006-task_parents-f86", "task_type": "task_parents" }

[ "f17", "f70" ]

List the immediate input nodes to f86. (Order does not matter.)

[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

56

5

{ "answer": [ "f34", "f73" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f79" }, "question": "List the immediate input nodes to f79. (Order does not matter.)", "task_id": "local-seed5-t00007-task_parents-f79", "task_type": "task_parents" }

[ "f34", "f73" ]

List the immediate input nodes to f79. (Order does not matter.)

[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

57

5

{ "answer": [ "f47", "f55" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f63" }, "question": "List the immediate input nodes to f63. (Order does not matter.)", "task_id": "local-seed5-t00008-task_parents-f63", "task_type": "task_parents" }

[ "f47", "f55" ]

List the immediate input nodes to f63. (Order does not matter.)

[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

58

5

{ "answer": [ "f3", "f3" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f5" }, "question": "List the immediate input nodes to f5. (Order does not matter.)", "task_id": "local-seed5-t00009-task_parents-f5", "task_type": "task_parents" }

[ "f3", "f3" ]

List the immediate input nodes to f5. (Order does not matter.)

[ "def f95(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = K2(values[1], values[1])\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

59

6

{ "answer": [ "f12", "f50" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f83" }, "question": "List the immediate input nodes to f83. (Order does not matter.)", "task_id": "local-seed6-t00000-task_parents-f83", "task_type": "task_parents" }

[ "f12", "f50" ]

List the immediate input nodes to f83. (Order does not matter.)

[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

60

6

{ "answer": [ "f21", "f53" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f64" }, "question": "List the immediate input nodes to f64. (Order does not matter.)", "task_id": "local-seed6-t00001-task_parents-f64", "task_type": "task_parents" }

[ "f21", "f53" ]

List the immediate input nodes to f64. (Order does not matter.)

[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

61

6

{ "answer": [ "f41", "f71" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f87" }, "question": "List the immediate input nodes to f87. (Order does not matter.)", "task_id": "local-seed6-t00002-task_parents-f87", "task_type": "task_parents" }

[ "f41", "f71" ]

List the immediate input nodes to f87. (Order does not matter.)

[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

62

6

{ "answer": [ "C0", "f5" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f11" }, "question": "List the immediate input nodes to f11. (Order does not matter.)", "task_id": "local-seed6-t00003-task_parents-f11", "task_type": "task_parents" }

[ "C0", "f5" ]

List the immediate input nodes to f11. (Order does not matter.)

[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

63

6

{ "answer": [ "C0", "f3" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f59" }, "question": "List the immediate input nodes to f59. (Order does not matter.)", "task_id": "local-seed6-t00004-task_parents-f59", "task_type": "task_parents" }

[ "C0", "f3" ]

List the immediate input nodes to f59. (Order does not matter.)

[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

64

6

{ "answer": [ "f12", "f29" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f81" }, "question": "List the immediate input nodes to f81. (Order does not matter.)", "task_id": "local-seed6-t00005-task_parents-f81", "task_type": "task_parents" }

[ "f12", "f29" ]

List the immediate input nodes to f81. (Order does not matter.)

[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

65

6

{ "answer": [ "f12", "f3" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f34" }, "question": "List the immediate input nodes to f34. (Order does not matter.)", "task_id": "local-seed6-t00006-task_parents-f34", "task_type": "task_parents" }

[ "f12", "f3" ]

List the immediate input nodes to f34. (Order does not matter.)

[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

66

6

{ "answer": [ "C2", "f3" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f5" }, "question": "List the immediate input nodes to f5. (Order does not matter.)", "task_id": "local-seed6-t00007-task_parents-f5", "task_type": "task_parents" }

[ "C2", "f3" ]

List the immediate input nodes to f5. (Order does not matter.)

[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

67

6

{ "answer": [ "C0", "K1" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f3" }, "question": "List the immediate input nodes to f3. (Order does not matter.)", "task_id": "local-seed6-t00008-task_parents-f3", "task_type": "task_parents" }

[ "C0", "K1" ]

List the immediate input nodes to f3. (Order does not matter.)

[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

68

6

{ "answer": [ "C13", "f8" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f17" }, "question": "List the immediate input nodes to f17. (Order does not matter.)", "task_id": "local-seed6-t00009-task_parents-f17", "task_type": "task_parents" }

[ "C13", "f8" ]

List the immediate input nodes to f17. (Order does not matter.)

[ "def f99(a0, a1):\n acc = 0\n out = []\n base = abs(a1 + 17 + 4) + 1\n for x in a0:\n acc = (acc + x) % base\n out.append(acc)\n return out", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = K1(values[0], values[0])\n values[2] = C2\n values[3] = f3(valu...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

69

7

{ "answer": [ "f48", "f48" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f54" }, "question": "List the immediate input nodes to f54. (Order does not matter.)", "task_id": "local-seed7-t00000-task_parents-f54", "task_type": "task_parents" }

[ "f48", "f48" ]

List the immediate input nodes to f54. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

70

7

{ "answer": [ "C19", "f27" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f35" }, "question": "List the immediate input nodes to f35. (Order does not matter.)", "task_id": "local-seed7-t00001-task_parents-f35", "task_type": "task_parents" }

[ "C19", "f27" ]

List the immediate input nodes to f35. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

71

7

{ "answer": [ "f25", "f29" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f61" }, "question": "List the immediate input nodes to f61. (Order does not matter.)", "task_id": "local-seed7-t00002-task_parents-f61", "task_type": "task_parents" }

[ "f25", "f29" ]

List the immediate input nodes to f61. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

72

7

{ "answer": [ "f25", "f27" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f87" }, "question": "List the immediate input nodes to f87. (Order does not matter.)", "task_id": "local-seed7-t00003-task_parents-f87", "task_type": "task_parents" }

[ "f25", "f27" ]

List the immediate input nodes to f87. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

73

7

{ "answer": [ "C19", "C4" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f25" }, "question": "List the immediate input nodes to f25. (Order does not matter.)", "task_id": "local-seed7-t00004-task_parents-f25", "task_type": "task_parents" }

[ "C19", "C4" ]

List the immediate input nodes to f25. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

74

7

{ "answer": [ "C19", "f21" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f26" }, "question": "List the immediate input nodes to f26. (Order does not matter.)", "task_id": "local-seed7-t00005-task_parents-f26", "task_type": "task_parents" }

[ "C19", "f21" ]

List the immediate input nodes to f26. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

75

7

{ "answer": [ "f27", "f45" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f73" }, "question": "List the immediate input nodes to f73. (Order does not matter.)", "task_id": "local-seed7-t00006-task_parents-f73", "task_type": "task_parents" }

[ "f27", "f45" ]

List the immediate input nodes to f73. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

76

7

{ "answer": [ "C1", "f27" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f29" }, "question": "List the immediate input nodes to f29. (Order does not matter.)", "task_id": "local-seed7-t00007-task_parents-f29", "task_type": "task_parents" }

[ "C1", "f27" ]

List the immediate input nodes to f29. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

77

7

{ "answer": [ "C4", "f48" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f59" }, "question": "List the immediate input nodes to f59. (Order does not matter.)", "task_id": "local-seed7-t00008-task_parents-f59", "task_type": "task_parents" }

[ "C4", "f48" ]

List the immediate input nodes to f59. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

78

7

{ "answer": [ "f54", "f68" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f78" }, "question": "List the immediate input nodes to f78. (Order does not matter.)", "task_id": "local-seed7-t00009-task_parents-f78", "task_type": "task_parents" }

[ "f54", "f68" ]

List the immediate input nodes to f78. (Order does not matter.)

[ "def f99(a0, a1):\n a = a0 + 6 > a1\n b = a0 % 2 == 1\n return a and b or a1 < 6", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = C5\n values[6] = C6\n values[7] = C7\n values[8] = C8\n ...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

79

8

{ "answer": [ "f13", "f22" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f47" }, "question": "List the immediate input nodes to f47. (Order does not matter.)", "task_id": "local-seed8-t00000-task_parents-f47", "task_type": "task_parents" }

[ "f13", "f22" ]

List the immediate input nodes to f47. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

80

8

{ "answer": [ "C31", "f25" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f81" }, "question": "List the immediate input nodes to f81. (Order does not matter.)", "task_id": "local-seed8-t00001-task_parents-f81", "task_type": "task_parents" }

[ "C31", "f25" ]

List the immediate input nodes to f81. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

81

8

{ "answer": [ "f30", "f79" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f82" }, "question": "List the immediate input nodes to f82. (Order does not matter.)", "task_id": "local-seed8-t00002-task_parents-f82", "task_type": "task_parents" }

[ "f30", "f79" ]

List the immediate input nodes to f82. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

82

8

{ "answer": [ "C20", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f25" }, "question": "List the immediate input nodes to f25. (Order does not matter.)", "task_id": "local-seed8-t00003-task_parents-f25", "task_type": "task_parents" }

[ "C20", "f9" ]

List the immediate input nodes to f25. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

83

8

{ "answer": [ "C0", "C2" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f41" }, "question": "List the immediate input nodes to f41. (Order does not matter.)", "task_id": "local-seed8-t00004-task_parents-f41", "task_type": "task_parents" }

[ "C0", "C2" ]

List the immediate input nodes to f41. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

84

8

{ "answer": [ "f9", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f12" }, "question": "List the immediate input nodes to f12. (Order does not matter.)", "task_id": "local-seed8-t00005-task_parents-f12", "task_type": "task_parents" }

[ "f9", "f9" ]

List the immediate input nodes to f12. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

85

8

{ "answer": [ "C1", "C2" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f18" }, "question": "List the immediate input nodes to f18. (Order does not matter.)", "task_id": "local-seed8-t00006-task_parents-f18", "task_type": "task_parents" }

[ "C1", "C2" ]

List the immediate input nodes to f18. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

86

8

{ "answer": [ "f18", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f26" }, "question": "List the immediate input nodes to f26. (Order does not matter.)", "task_id": "local-seed8-t00007-task_parents-f26", "task_type": "task_parents" }

[ "f18", "f9" ]

List the immediate input nodes to f26. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

87

8

{ "answer": [ "f42", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f49" }, "question": "List the immediate input nodes to f49. (Order does not matter.)", "task_id": "local-seed8-t00008-task_parents-f49", "task_type": "task_parents" }

[ "f42", "f9" ]

List the immediate input nodes to f49. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

88

8

{ "answer": [ "f19", "f9" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f43" }, "question": "List the immediate input nodes to f43. (Order does not matter.)", "task_id": "local-seed8-t00009-task_parents-f43", "task_type": "task_parents" }

[ "f19", "f9" ]

List the immediate input nodes to f43. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-11:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = C4\n values[5] = f5(values[2], values[2])\n values[6] = f6(values[2], values[2]...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

89

9

{ "answer": [ "C52", "f41" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f60" }, "question": "List the immediate input nodes to f60. (Order does not matter.)", "task_id": "local-seed9-t00000-task_parents-f60", "task_type": "task_parents" }

[ "C52", "f41" ]

List the immediate input nodes to f60. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

90

9

{ "answer": [ "C35", "K6" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f76" }, "question": "List the immediate input nodes to f76. (Order does not matter.)", "task_id": "local-seed9-t00001-task_parents-f76", "task_type": "task_parents" }

[ "C35", "K6" ]

List the immediate input nodes to f76. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

91

9

{ "answer": [ "f43", "f45" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f46" }, "question": "List the immediate input nodes to f46. (Order does not matter.)", "task_id": "local-seed9-t00002-task_parents-f46", "task_type": "task_parents" }

[ "f43", "f45" ]

List the immediate input nodes to f46. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

92

9

{ "answer": [ "K32", "f21" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f39" }, "question": "List the immediate input nodes to f39. (Order does not matter.)", "task_id": "local-seed9-t00003-task_parents-f39", "task_type": "task_parents" }

[ "K32", "f21" ]

List the immediate input nodes to f39. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

93

9

{ "answer": [ "f7", "f8" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f20" }, "question": "List the immediate input nodes to f20. (Order does not matter.)", "task_id": "local-seed9-t00004-task_parents-f20", "task_type": "task_parents" }

[ "f7", "f8" ]

List the immediate input nodes to f20. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

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0.25

5

94

9

{ "answer": [ "C3", "K10" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f24" }, "question": "List the immediate input nodes to f24. (Order does not matter.)", "task_id": "local-seed9-t00005-task_parents-f24", "task_type": "task_parents" }

[ "C3", "K10" ]

List the immediate input nodes to f24. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

95

9

{ "answer": [ "f41", "f46" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f98" }, "question": "List the immediate input nodes to f98. (Order does not matter.)", "task_id": "local-seed9-t00006-task_parents-f98", "task_type": "task_parents" }

[ "f41", "f46" ]

List the immediate input nodes to f98. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

96

9

{ "answer": [ "C51", "f50" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f85" }, "question": "List the immediate input nodes to f85. (Order does not matter.)", "task_id": "local-seed9-t00007-task_parents-f85", "task_type": "task_parents" }

[ "C51", "f50" ]

List the immediate input nodes to f85. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

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0.25

5

97

9

{ "answer": [ "C3", "C3" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f4" }, "question": "List the immediate input nodes to f4. (Order does not matter.)", "task_id": "local-seed9-t00008-task_parents-f4", "task_type": "task_parents" }

[ "C3", "C3" ]

List the immediate input nodes to f4. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

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0.25

5

98

9

{ "answer": [ "C26", "f30" ], "meta": { "arity": 2, "min_arity": 2, "ordered": false, "target": "f43" }, "question": "List the immediate input nodes to f43. (Order does not matter.)", "task_id": "local-seed9-t00009-task_parents-f43", "task_type": "task_parents" }

[ "C26", "f30" ]

List the immediate input nodes to f43. (Order does not matter.)

[ "def f99(a0, a1):\n core = a0.strip().lower()\n t = core + str(a1)\n return t[-10:]", "def compute_all():\n values = {}\n values[0] = C0\n values[1] = C1\n values[2] = C2\n values[3] = C3\n values[4] = f4(values[3], values[3])\n values[5] = f5(values[2], values[3])\n values[6] = K...

You are given a Python module and a question about its dependency graph. Answer strictly in the requested format. Return your answer as JSON only. - If the answer is a list, return a JSON array of strings. - If the answer is an integer, return a JSON number. - If the answer is Yes/No, return a JSON string: "Yes" or "No". - Do not include extra keys or commentary.

100

0.1

0.25

5

99