code "import math def main(n): if n == 0: return -0.19 elif n >= 1: f = main(n - 1) / 54 + 99 * math.atan(46 * main(n - 1)) ** 2 + 96 return f" "from math import log def main(n): if n == 0: return -0.11 z = main(n - 1) return 13 * z - 12 - log(46 * z ** 2 - z ** 3, 2) ** 2" "def main(n): if n == 0: return 0.92 if n >= 1: return (main(n - 1) ** 2 - main(n - 1) / 25 - 1) ** 3 + 1" "import math def main(n): fn = 0.42 for i in range(1, n + 1): fn = (fn ** 2 - 1 - fn ** 3) ** 3 return fn" "def main(n): if n >= 1: return main(n - 1) / 70 - main(n - 1) ** 3 if n == 0: return 0.06" "import math def main(n): if n == 0: return -0.8 elif n == 1: return 0.63 elif n >= 2: return math.pow(main(n - 1), 2) - math.pow(main(n - 2), 3) - 1" "def main(n): if n == 0: rez = -0.16 elif n >= 1: rez = main(n - 1) ** 3 - 0.04 - main(n - 1) return rez" "import math def main(n): if n == 0: return -0.79 elif n == 1: return -0.32 elif n >= 2: return math.pow(math.sin(main(n - 1)), 2) - math.pow(math.tan(main(n - 2)), 3)" "import math def main(n): if n == 0: return 0.47 if n == 1: return -0.71 return pow(abs(main(n - 2)), 3) + pow(math.sin(main(n - 1)), 2)" "from math import log10 def main(n): if n == 0: return 0.08 elif n >= 1: f = log10(37 * main(n - 1) - main(n - 1) ** 2) ** 2 return f" "from math import tan def main(n): if n >= 2: return 89 * main(n - 2) / 16 + tan(main(n - 1)) ** 2 if n == 1: return 0.43 if n == 0: return 0.49" "import math def main(a): if a == 0: return -0.34 if a >= 1: return 1 - math.pow(main(a - 1), 3) - 1 / 94 * math.pow(main(a - 1), 2)" "def main(n): if n == 0: return -0.18 else: return main(n - 1) ** 2 / 96 + main(n - 1) + 0.02" "import math def main(n): if n == 0: return -0.08 if n == 1: return 0.05 if n >= 2: return math.log(89 + main(n - 1) + 4 * main(n - 2) ** 3) ** 3 - 58" "import math def fun(n): if n == 0: return 0.25 elif n == 1: return -0.52 elif n >= 2: return 2 * math.floor(fun(n - 1)) + pow(fun(n - 2), 3) + 1 def main(n): return fun(n)" "import math def main(n): if n == 0: return -0.68 if n == 1: return 0.56 if n >= 2: return main(n - 1) + 47 * math.ceil(main(n - 2)) ** 2" "def main(n, final=True): if n == 0: return -0.34 elif n == 1: return 0.83 elif n >= 2: ans = main(n - 2, final=False) ** 2 - int(main(n - 1, final=False)) ** 3 if final: return float('{:.2e}'.format(ans)) return ans" "import math def fun(n): if n == 0: return 0.09 elif n == 1: return 0.33 elif n >= 2: return pow(fun(n - 1), 2) / 95 + pow(math.acos(fun(n - 2)), 3) / 76 def main(n): return fun(n)" "def main(n): if n == 0: return 0.54 elif n == 1: return -0.0 else: a = main(n - 1) b = main(n - 2) return a ** 2 - 1 - (28 - 56 * b ** 2) / 40" "def main(n): if n == 0: return 0.43 if n == 1: return -0.12 if n >= 2: return (56 * main(n - 1) ** 3 + 61 * main(n - 2) ** 2) / 34" "import math def main(n): if n == 0: return 0.18 return math.sin(main(n - 1)) - 57 * main(n - 1) ** 3" "from math import tan def main(n): if n == 0: return -0.14 elif n == 1: return -0.32 elif n >= 2: return 5 * main(n - 2) ** 2 + main(n - 1) + tan(main(n - 2)) ** 3" "def main(n): if n == 0: return -0.0 if n == 1: return -0.21 if n >= 2: return 75 * main(n - 2) ** 6 + main(n - 1)" "import math def main(n): if n == 0: return -0.81 if n >= 1: return main(n - 1) - 11 - math.sin(main(n - 1)) ** 2" "def main(n): if n == 0: return -0.15 if n >= 1: return (main(n - 1) ** 2 + main(n - 1) ** 3 + main(n - 1)) ** 2 + main(n - 1)" "import math def main(n): if n == 0: return 0.35 else: return math.log10(main(n - 1)) + math.log(main(n - 1)) ** 2 / 30 + 1" "import math def main(n): if n == 0: return 0.26 return 99 * math.asin(main(n - 1)) ** 2 - 82 * main(n - 1) ** 3 - 77 * main(n - 1) ** 2" "import math def main(n): if n == 0: return 0.46 elif n >= 1: return math.cos(42 * main(n - 1) ** 2 + 13 * main(n - 1) + 1) ** 3" "import math def main(n): if n == 0: f = 0.32 else: f = 1 - 16 * main(n - 1) - pow(math.atan(main(n - 1)), 3) return f" "def main(n): mas = [-0.3] for i in range(n + 1): if i == 0: continue else: x = mas[i - 1] ** 3 / 23 + mas[i - 1] + mas[i - 1] ** 2 mas.append(x) return mas[n]" "from cmath import atan def main(x): if x == 0: return 0.73 elif x == 1: return 0.28 elif x >= 2: return main(x - 2) - 82 * atan(main(x - 1)).real ** 3 - 0.01" "import math BASE_CASE = 0.05 def main(n): if n == 0: return BASE_CASE else: return main(n - 1) / 5 - 47 * main(n - 1) ** 3" "def main(n): if n == 0: return 0.55 elif n == 1: return 0.9 else: return (main(n - 1) ** 2 - main(n - 2) ** 3) / 32 - 1" "def main(n): if n == 0: return -0.91 if n == 1: return 0.9 if n >= 2: return abs(main(n - 1)) - main(n - 2) ** 3" "import math def main(n): f0 = -0.92 f1 = -0.08 if n == 0: return f0 elif n == 1: return f1 else: return (1 - main(n - 1) ** 3 / 2) ** 3 - 0.03 - main(n - 2) ** 6" "import math from math import * def main(n): if n == 0: return -0.13 elif n >= 1: return pow(main(n - 1), 2) + main(n - 1) + 13 * pow(main(n - 1), 3) main(3)" "import math def main(n, final=True): if n == 0: return 0.98 elif n == 1: return -0.59 elif n >= 2: ans = main(n - 1, final=False) ** 2 / 26 + 0.02 + math.atan(main(n - 2, final=False)) if final: return float('{:.2e}'.format(ans)) return ans" "from math import * def main(n): if n == 0: return -0.61 elif n == 1: return 0.75 elif n >= 2: return fabs(pow(main(n - 1), 3) + 33 * main(n - 2)) - 1 - pow(main(n - 1), 3)" "import math def main(n): if n == 0: f = -0.98 else: f = pow(main(n - 1), 2) + main(n - 1) + pow(main(n - 1), 3) / 5 return f" "import math def main(n): if n == 0: return -0.29 else: return 56 * math.atan(main(n - 1)) ** 2 - main(n - 1) - 1" "import math def main(n): if n == 0: return 0.46 return math.exp(main(n - 1)) ** 2 / 27 - main(n - 1) / 66 - main(n - 1) ** 3" "import math def main(n): if n == 0: return -0.04 return main(n - 1) + math.tan(main(n - 1)) ** 2 + 1 main(3) main(4)" "from cmath import sqrt def main(x): if x == 0: return 0.31 if x == 1: return 0.13 if x >= 2: return (sqrt(97 * main(x - 2) ** 2 + 42 + 37 * main(x - 1)) - 1).real" "import math def main(n): if n == 0: return 0.53 elif n == 1: return 0.54 elif n >= 2: return 77 - math.atan(main(n - 2) - main(n - 1) ** 2) ** 3 - math.log(main(n - 1))" "import math def main(n): if n == 0: return -0.57 if n >= 1: return 6 * math.log(24 + main(n - 1) + main(n - 1) ** 2) ** 2 + math.sin(main(n - 1))" "import math def main(n): if n == 0: a = 0.99 return a if n >= 1: b = 1 + math.log10(main(n - 1) ** 3 + 7 * main(n - 1)) c = 45 * math.log(main(n - 1)) ** 3 return b + c" "import math def R(n): if n == 0: return -0.92 temp_r = R(n - 1) res = temp_r - math.pow(temp_r, 2) / 57 - 1 return res def main(n): temp = round(R(n), 2) return float('{:.2e}'.format(temp))" "import math def main(n): if n == 0: return -0.39 elif n >= 1: return math.sin(main(n - 1)) + pow(main(n - 1), 3)" "from math import log def main(n): if n == 0: return 0.33 elif n == 1: return 0.4 else: return log(main(n - 1) ** 2 + main(n - 2) ** 3 / 2) ** 3 + 1" "def main(n): if n == 0: return -0.62 elif n == 1: return 0.85 elif n >= 2: return main(n - 1) ** 2 - main(n - 2) ** 3 / 48 - 1" "import math def main(n): if n == 0: return -0.41 if n >= 1: return math.tan(main(n - 1)) ** 2 - math.tan(main(n - 1))" "import math def main(n): if n == 0: return 0.64 elif n == 1: return -0.97 return 40 * math.atan(main(n - 1) ** 2 - main(n - 2)) ** 3" "import math def main(n): return f(n) def f(n): if n == 0: return 0.32 elif n == 1: return 0.85 else: return f(n - 1) ** 2 - math.cos(f(n - 2) ** 3) - 0.01" "import math def main(n): if n == 0: return -0.37 elif n >= 1: return math.pow(math.cos(math.pow(main(n - 1), 2) - main(n - 1)), 2) - 85 - main(n - 1) else: return 0" "import math def main(n): if n == 0: return 0.61 elif n >= 1: return math.pow(math.exp(1 - math.pow(main(n - 1), 2) - main(n - 1)), 3) / 79" "def main(n): if n == 0: return 0.27 if n == 1: return 0.28 if n >= 2: return 0.04 - main(n - 1) ** 2 - main(n - 2) ** 3" "import math def main(n): if n == 0: return -0.51 elif n == 1: return 0.1 elif n >= 2: return main(n - 2) ** 2 + math.cos(main(n - 1)) / 52 + main(n - 2) ** 3 main(3)" "def main(n): return -0.99 if n == 0 else abs(main(n - 1)) ** 3 + main(n - 1) / 42" "def main(n): if n == 0: return -0.85 elif n >= 1: return (main(n - 1) - main(n - 1) ** 3) / 30" "import math def main(x): if (x == 0) | (abs(x - 0.1) == 0): return 0.1 if x < 0: return math.inf prev = main(x - 1) return pow(prev, 2) - prev / 17" "from math import log, atan def main(n): if n == 0: return 0.93 elif n == 1: return 0.29 else: return atan(43 * main(n - 1) ** 3 - 1 - 15 * main(n - 2) ** 2) / 77 + log(main(n - 2), 2) ** 2 + 1" "import math def func(n): if n == 0: return -0.2 elif n == 1: return -0.28 elif n >= 2: return math.atan(41 - func(n - 2) ** 2) ** 2 - 49 * math.floor(func(n - 1)) - 1 def main(n): return func(n)" "import math def f(n): if n == 0: return -0.13 elif n >= 1: return 59 * (f(n - 1) / 38 + 16 * f(n - 1) ** 3) ** 2 + 0.03 def main(n): return f(n)" "import math def main(n): if n == 0: return -0.52 if n == 1: return -0.09 if n >= 2: return 65 * math.log(5 + 57 * main(n - 1) ** 2) ** 3 + 95 * int(main(n - 2))" "from math import * def main(n): if n == 0: return -0.97 else: return pow(main(n - 1), 3) - pow(main(n - 1), 2) + 1" "def main(n): if n == 0: return 0.65 elif n == 1: return -0.18 else: return (1 + 12 * main(n - 2)) / 25 + main(n - 1) ** 6" "import math def main(n): if n == 0: return 0.47 elif n == 1: return 0.24 else: return main(n - 1) + 1 + math.cos(main(n - 2)) ** 3" "import math def main(x): if x == 0: return -0.01 elif x == 1: return -0.4 else: return math.fabs(main(x - 2)) + (main(x - 1) ** 2 + main(x - 2)) ** 3" "import math def main(x): if x == 0: return -0.01 elif x == 1: return -0.4 else: return math.fabs(main(x - 2)) + (main(x - 1) ** 2 + main(x - 2)) ** 3" "import math as m def main(n): res = 0 if n == 0: res = -0.27 elif n == 1: res = -0.81 elif n >= 2: res = 75 - m.log(1 + main(n - 2) + 62 * main(n - 1) ** 2, 10) ** 3 return res" "import math def main(n): if n == 0: return 0.48 elif n == 1: return 0.02 elif n >= 2: return pow(math.sin(main(n - 1)), 2) - 40 * main(n - 2) main(3)" "from math import * def main(n): if n == 0: return -0.84 if n == 1: return 0.61 if n >= 2: return 1 - exp(main(n - 1)) ** 3 - main(n - 2) ** 2 / 53" "def main(n): i = 0 if n == 0: i = -0.72 elif n == 1: i = -0.87 elif n >= 2: i = main(n - 2) ** 2 - 1 - main(n - 1) return i" "def main(n): if n == 0: f = 0.64 elif n == 1: f = -0.73 elif n >= 2: f = 1 + main(n - 2) ** 3 + main(n - 1) return f" "from math import * def f(n): if n == 0: f = -0.18 elif n == 1: f = -0.17 else: f = ceil(1 - main(n - 1) - main(n - 2) ** 3) + 1 return f def main(n): return f(n)" "def main(n): if n == 0: func = 0.36 elif n >= 1: func = main(n - 1) + main(n - 1) ** 3 / 70 return func" "def main(x): if x == 0: return 0.73 elif x == 1: return 0.43 elif x >= 2: return main(x - 1) ** 3 + main(x - 2) ** 2" "def main(x): if x == 0: return 0.73 elif x == 1: return 0.43 elif x >= 2: return main(x - 1) ** 3 + main(x - 2) ** 2" "from math import * def main(n): if n == 0: return 0.7 elif n >= 1: return pow(log(45 * main(n - 1) + 2 * main(n - 1) ** 3 + 1, 2), 3) - 42" "from math import * def closed_range(start, stop, step=1): dir = 1 if step > 0 else -res1 return range(start, stop + dir, step) def f(n): if n == 0: return 0.24 else: return pow(f(n - 1), 2) + cos(f(n - 1)) / 72 def formatExp(fl): return '%.2e' % fl def main(a): return f(a)" "import math def main(n): if n == 0: return 0.15 elif n == 1: return 0.19 else: return main(n - 1) / 18 + math.pow(main(n - 2), 2) + 1" "def main(n): if n == 0: return -0.47 elif n == 1: return 0.62 return (74 - main(n - 1) - 38 * main(n - 2) ** 2) / 32" "def main(n): if n == 0: return -0.47 elif n == 1: return 0.62 return (74 - main(n - 1) - 38 * main(n - 2) ** 2) / 32" "import math def main(n): if n == 0: return 0.15 elif n == 1: return 0.19 else: return main(n - 1) / 18 + math.pow(main(n - 2), 2) + 1" "import math def main(n): if n == 0: return -0.35 elif n == 1: return 0.58 elif n >= 2: return math.pow(main(n - 2), 3) + 7 * math.pow(main(n - 2), 2) + main(n - 1) / 75 main(4)" "import math def main(n): if n == 0: return -0.29 return 0.05 + (1 - main(n - 1) ** 2 - main(n - 1) ** 3 / 9) ** 3" "import math def main(n): counter = 0 if n == 0: return 0.03 if n >= 1: counter += 56 * math.log(18 + main(n - 1) ** 2 + main(n - 1)) ** 2 return counter" "from math import * def main(n): if n == 0: return 0.83 elif n >= 1: f = 41 * pow(sin(main(n - 1)), 3) - main(n - 1) - 11 return f" "import math def main(n): if n == 0: return -0.76 elif n == 1: return -0.01 else: return 82 * math.atan(main(n - 1)) + 21 * pow(main(n - 2) / 89, 2)" "import math from decimal import Decimal def main(n): if n == 0: return -0.19 elif n >= 1: return main(n - 1) ** 3 - main(n - 1) - main(n - 1) ** 2" "import math def main(n): if n == 0: return -0.25 if n >= 1: return main(n - 1) - 42 - math.cos(main(n - 1)) ** 3 / 13" "import math def main(n): return f(n) def f(n): if n == 0: return -0.67 else: return f(n - 1) - math.fabs(f(n - 1)) ** 2 / 74" "def main(n): if n == 0: return 0.68 if n == 1: return 0.99 if n >= 2: return 0.01 + main(n - 1) ** 2 + main(n - 2) ** 3 / 75" "import math import sys def main(n): return f(n) def f(n): if n == 0: return -0.54 elif n == 1: return -0.33 else: return 9 * f(n - 1) + f(n - 2) ** 2" "import math def main(n): if n == 0: return -0.6 elif n >= 0: return main(n - 1) + 0.02 + main(n - 1) ** 2 / 35" "from math import tan def main(n): if n == 0: return -0.71 if n >= 1: return 0.01 - main(n - 1) / 21 - tan(main(n - 1)) ** 2 / 43" "from math import tan, log def main(n): if n == 0: return -0.22 if n == 1: return 0.93 if n >= 2: ln_res = log(1 + 62 * main(n - 1) ** 3 + main(n - 1) ** 2 / 90) ** 3 / 15 res = tan(main(n - 2)) + ln_res + 1 return res return 0" "import math def main(n): if n == 0: return -0.21 else: return math.tan(98 - main(n - 1) / 29 - main(n - 1) ** 3) ** 2 - main(n - 1) - 1" "import math def main(z): if z == 0: return 0.46 if z >= 1: res = 6 * main(z - 1) + math.atan(70 * main(z - 1) - 88) ** 3 + 74 return res" "from math import cos def main(n): if n == 0: return -0.2 else: return cos(6 * main(n - 1) ** 3 + 91 * main(n - 1) ** 2) ** 3" "def main(n): if n == 0: return -0.86 elif n == 1: return 0.39 else: return abs(1 + main(n - 1) ** 2 + main(n - 2))" "def main(n): if n >= 1: return 59 * main(n - 1) ** 6 - main(n - 1) - 54 * (main(n - 1) / 48 - main(n - 1) ** 2 - main(n - 1) ** 3) ** 2 else: return -0.08" "import math def main(n): if n == 0: return 0.73 elif n == 1: return 0.56 elif n >= 2: return 0.02 + math.tan(main(n - 1)) ** 3 / 72 + main(n - 2) ** 2" "import math def main(n): if n == 0: return -0.48 elif n == 1: return -1.0 elif n >= 2: return main(n - 2) / 64 + (pow(math.atan(main(n - 1)), 2) + 36)" "import math def main(n): if n == 0: return 0.01 elif n == 1: return 0.38 elif n >= 2: f1 = 19 * main(n - 2) f2 = 37 * pow(main(n - 1), 3) return (f1 - f2) / 94" "from math import tan def main(n): if n > 0: return main(n - 1) ** 3 / 33 + tan(main(n - 1)) return 0.93" "import math def main(n): if n == 0: return -0.88 elif n >= 1: return main(n - 1) ** 2 / 15 + main(n - 1) ** 3 + (0.02 - 5 * main(n - 1) ** 3 - 66 * main(n - 1)) / 28" "import math def main(n): if n == 0: return 0.45 if n >= 1: return math.sin(main(n - 1)) - main(n - 1) ** 3 - 1" "import math def main(n): if n == 0: return 0.79 elif n == 1: return -0.16 elif n >= 2: return math.sqrt(pow(main(n - 2), 2) / 54 + main(n - 2) + pow(main(n - 1), 3)) + 1" "import math def main(n): if n == 0: return 0.75 return 77 + 54 * math.log2(main(n - 1) + 1 + main(n - 1) ** 3) ** 2" "def main(n): if n == 0: return -0.02 elif n >= 1: return 88 * main(n - 1) ** 9 + main(n - 1)" "import math def main(n): if n == 0: return 0.47 elif n == 1: return -0.73 elif n >= 2: return main(n - 1) - 73 * math.atan(73 * main(n - 2) - main(n - 2) ** 3 / 51)" "import math def main(n): if n == 0: return 0.65 elif n == 1: return -0.62 elif n >= 2: return math.tan(77 * main(n - 2) ** 3 - 1 - 45 * main(n - 1)) / 86" "import math def main(x): if x == 0: return -0.82 elif x >= 1: kek = 0.02 + main(x - 1) ** 3 + main(x - 1) ** 2 return kek ** 2 / 86 - 1 - main(x - 1) main(5) main(4)" "import math def main(n): if n == 0: return 0.39 elif n >= 1: return math.atan(main(n - 1) ** 2 - 89 * main(n - 1) ** 3 - 1)" "def main(n): if n == 0: return 0.48 elif n >= 1: return main(n - 1) + main(n - 1) ** 2 + pow(main(n - 1), 3) / 76 - 1" "import math def f(n): if n == 0: return -0.3 else: a = f(n - 1) ** 2 / 62 - f(n - 1) ** 3 / 9 - 0.03 return 1 - math.asin(a) ** 3 - f(n - 1) ** 2 def main(n): return f(n)" "import math def main(n): if n == 0: return 0.36 else: return main(n - 1) ** 3 - math.sin(main(n - 1))" "import math def main(n): if n == 0: return -0.85 elif n == 1: return 0.24 elif n >= 2: return (0.01 - pow(main(n - 2), 2) - main(n - 1)) / 91" "from math import atan def main(n): if n == 0: f = 0.65 return f elif n == 1: f = -0.84 return f else: r1 = atan(main(n - 2) ** 2 - main(n - 2) ** 3 - 48) f = r1 - 1 - 81 * atan(main(n - 1)) ** 2 return f" "def main(n): if n == 0: f = -0.92 return f else: f = main(n - 1) + abs(main(n - 1)) ** 2 + main(n - 1) ** 3 return f" "import math def main(n): if n == 0: return -0.37 else: fn = main(n - 1) return 62 * math.log10(25 * fn ** 3 + 27 * fn + 57) ** 3" "def main(n): if n == 0: return 0.65 elif n == 1: return 0.29 elif n >= 2: first_term = main(n - 1) ** 2 / 22 second_term = 14 * main(n - 1) ** 2 - 46 * main(n - 2) - main(n - 2) ** 3 return first_term + second_term / 67" "import math def main(n): if n == 0: f = -0.18 elif n == 1: f = -0.01 elif n >= 2: f = 72 * math.log2(main(n - 1) ** 2 / 45) ** 3 - math.atan(1 - 73 * main(n - 2) - main(n - 2) ** 3) ** 2 - 50 return f" "def main(n): if n == 0: f = 0.12 return f elif n == 1: f = 0.13 return f else: f = 0.02 + main(n - 1) ** 2 / 15 + 51 * main(n - 2) ** 3 return f" "import math def main(n): if n == 0: return -0.23 elif n >= 1: s1 = math.sin(main(n - 1)) ** 2 / 47 s2 = (main(n - 1) / 71) ** 3 / 94 ans = s1 - 1 - s2 return ans" "import math def main(n): if n == 0: return -0.22 elif n >= 1: return math.sqrt(main(n - 1) ** 2 - main(n - 1) ** 3)" "import math as math def main(n): if n == 0: return 0.98 elif n >= 1: return (78 * main(n - 1) - pow(main(n - 1), 2)) / 15" "def main(n): if n == 0: return 0.47 elif n >= 1: return 0.08 - (main(n - 1) + main(n - 1) * main(n - 1))" "import math def main(n): if n == 0: return 0.1 elif n >= 1: return main(n - 1) / 77 + 16 * pow(main(n - 1), 6)" "import math def main(n): if n == 0: return -0.85 else: return math.sin(main(n - 1)) ** 2 - main(n - 1)" "import math def main(n): if n == 0: return -0.15 elif n >= 1: return main(n - 1) ** 3 / 12 + math.atan(main(n - 1))" "import math def main(n): if n == 0: return -0.67 if n == 1: return 0.64 return math.asin(main(n - 2)) + main(n - 1) ** 6 / 23" "import math def main(n): if n == 0: return 0.76 else: return 11 * math.sqrt(main(n - 1) / 22) ** 3 + 0.03 + math.log(main(n - 1), 2) ** 2 main(2) main(3)" "import math def main(n): if n == 0: return -0.67 if n == 1: return 0.48 return main(n - 2) ** 2 / 28 - main(n - 2) ** 3 - main(n - 1) - 1" "import math def main(n): if n == 0: f = 0.51 elif n >= 1: f = main(n - 1) ** 2 - main(n - 1) ** 3 - 1 return f" "def main(n): if n == 0: return -0.3 elif n >= 1: return (main(n - 1) + 1 + main(n - 1) ** 3) / 80" "def main(n): if n == 0: return -0.26 elif n == 1: return -0.16 else: return main(n - 1) + 73 * (main(n - 2) ** 3 - main(n - 1) / 60) ** 2" "def main(n): if n == 0: return 0.36 elif n == 1: return 0.54 else: return pow(main(n - 2), 3) + (pow(main(n - 1), 2) + 53 * main(n - 2) + 1) / 42" "def main(n): if n == 0: return -0.07 elif n == 1: return 0.22 elif n >= 2: one = 47 * main(n - 2) ** 3 - 0.2 two = -main(n - 2) ** 2 + main(n - 1) ** 2 / 75 three = main(n - 1) ** 3 / 61 return one + two + three" "import math def main(n): if n == 0: return -0.55 if n == 1: return 0.32 if n >= 2: f2 = main(n - 2) return 88 * math.log10(main(n - 1) ** 2 + 73 + main(n - 1)) ** 3 - f2" "from math import atan def main(n): if n == 0: return -0.9 if n >= 1: return atan(main(n - 1)) ** 2 / 15 - atan(main(n - 1))" "def main(n): if n == 0: return -0.24 if n == 1: return 0.14 if n >= 2: return 0.12 - main(n - 1) - main(n - 2) ** 3" "from math import log def main(n): if n == 0: return -0.22 elif n >= 1: return 96 * log(6 * main(n - 1) + 64 * main(n - 1) ** 2 + 52) ** 2" "def main(n): if n == 0: return 0.99 else: return 6 * main(n - 1) + 1" "from math import sin def main(n): if n == 0: return -0.35 elif n == 1: return -0.04 else: return main(n - 2) + sin(main(n - 1)) ** 2" "import math def main(n): if n == 0: return -0.84 elif n == 1: return 0.04 elif n >= 2: return math.sin(main(n - 1)) ** 3 - 3 - (1 - main(n - 2) / 9 - main(n - 2) ** 3) ** (1 / 2)" "import math def main(n): if n == 0: return 0.92 return 37 * math.ceil(main(n - 1)) + 75 + math.log10(main(n - 1)) ** 3" "from math import * def main(n): if n == 0: return 0.44 elif n >= 1: one = main(n - 1) ** 3 / 77 - 1 two = -cos(main(n - 1) ** 3 / 61) return one + two" "import math def main(n): if n == 0: return 0.02 if n == 1: return 0.46 if n >= 2: return 76 * math.atan(main(n - 1)) ** 2 - 1 - math.atan(main(n - 2))" "def main(n): if n == 0: return 0.48 if n == 1: return -0.73 if n >= 2: return 3 * main(n - 2) - main(n - 1) ** 2 - 0.03" "import math def main(n): if n == 0: return -0.94 elif n >= 1: return main(n - 1) - 76 - 57 * pow(math.log(63 * pow(main(n - 1), 2) - 30 - 25 * main(n - 1)), 2)" "from math import * def fu(n): result = 0.37 if n >= 1: for i in range(1, n + 1): result = cos(pow(result, 2) / 61 - pow(result, 3)) - pow(log10(90 * pow(result, 3) + 55 * pow(result, 2)), 3) / 35 return result def main(arg): return fu(arg)" "from math import * def fun4(n): if n == 0: return 0.15 if n == 1: return 0.84 if n >= 2: return cos(74 * fun4(n - 1) ** 2 - fun4(n - 2) ** 3) ** 3 def main(n): return fun4(n)" "from math import atan, cos def f(n): if n == 0: return 0.83 elif n == 1: return 0.53 elif n >= 1: a = atan(f(n - 1) ** 2 - 1 - f(n - 1)) ** 2 / 88 b = cos(f(n - 2)) ** 3 return 1 + a + b def main(n): return f(n)" "def f4(n): if n == 0: return -0.17 else: return f4(n - 1) / 10 + f4(n - 1) + 1 def main(n): return f4(n)" "import math def main(n): if n == 0: return -0.77 if n == 1: return -0.73 if n >= 2: return main(n - 2) - pow(math.cos(pow(main(n - 1), 2) - main(n - 2) - pow(main(n - 1), 3)), 3)" "import math def main(n): if n == 0: r = 0.16 elif n == 1: r = 0.85 else: r = main(n - 1) ** 6 / 42 - 0.01 - math.log2(1 + main(n - 2) ** 3) ** 2 return r" "import math def main(n): if n == 0: return 0.82 elif n >= 1: return math.pow(math.pow(main(n - 1), 2) / 37, 3) + math.tan(main(n - 1)) + 1" "def main(n): if n == 0: return -0.76 if n == 1: return -0.83 if n >= 2: return main(n - 2) ** 3 + main(n - 1) / 47 main(4)" "def main(n): import math if n == 0: return 0.0 elif n == 1: return -0.32 elif n >= 2: return 93 * math.pow(math.e, main(n - 1)) - 95 - math.pow(main(n - 2), 2) / 20" "import math def main(n): if n == 0: return -0.35 elif n == 1: return 0.1 a = main(n - 2) ** 2 - 14 * main(n - 1) return a" "import math def f(n): if n == 0: return -0.02 elif n >= 1: return math.sin(69 * f(n - 1) ** 3 - 87 - f(n - 1) ** 2) ** 3 def main(n): return f(n)" "import math def main(n): if n == 0: f = 0.8 elif n >= 1: f = math.log(23 * main(n - 1) ** 2 + main(n - 1) ** 3 / 57) return f" "import math def main(n): if n == 0: return -0.73 elif n == 1: return -0.36 elif n >= 2: return 33 + 2 * math.sin(main(n - 1)) ** 2 + math.sin(main(n - 2)) ** 3 / 82" "import math def main(n): if n == 0: return -0.44 elif n == 1: return -0.02 elif n >= 2: return math.atan(main(n - 2) ** 3) / 57 - 52 * main(n - 1) - 99" "import math def main(n): if n == 0: return -0.42 elif n >= 1: return main(n - 1) / 12 - main(n - 1) ** 3" "import math as m def main(n): if n == 0: return -0.93 else: return 12 * m.pow(m.sin(main(n - 1)), 2) - main(n - 1) - 94" "from math import asin def main(n): f0 = -0.39 f1 = -0.79 if n == 0: return f0 elif n == 1: return f1 else: return main(n - 2) ** 3 + main(n - 2) / 93 + asin(main(n - 1)) ** 2" "from math import * def main(n): if n == 0: return 0.36 if n == 1: return 0.64 if n >= 2: return log(89 * main(n - 2) + main(n - 1) ** 2 + main(n - 1) ** 3, 10)" "from math import exp def main(n): if n == 0: return -0.4 return exp(main(n - 1) / 86) ** 3 / 14 + 16 * main(n - 1)" "from math import ceil def main(n): if n == 0: return 0.9 elif n == 1: return -0.99 else: return ceil(main(n - 1)) + 1 + main(n - 2) ** 3 / 58" "def main(n): result = 0 if n == 0: return 0.41 elif n >= 1: result = 0.02 + main(n - 1) ** 3 + main(n - 1) ** 2 return result" "def main(n): if n == 0: f = -0.7 return f elif n == 1: f = -0.45 return f else: f = main(n - 1) ** 2 / 67 - 19 * main(n - 2) return f" "import math def main(n): if n == 0: return 0.29 elif n >= 1: return 51 * math.log2(41 * main(n - 1) ** 3 + 30 * main(n - 1) ** 2) - 1" "import math def main(n): if n == 0: return 0.79 if n >= 1: a = math.ceil(main(n - 1)) ** 3 return 6 * main(n - 1) ** 2 / 42 - a - main(n - 1) ** 2" "import math def main(n): if n == 0: return -0.71 if n == 1: return -0.61 if n >= 2: return math.log(main(n - 1) ** 2 / 68 - main(n - 2) / 48)" "import math def main(n): if n == 0: return -0.88 elif n >= 1: return main(n - 1) / 20 + 1 + math.ceil(main(n - 1)) ** 3 / 50" "import math def main(x): if x == 0: return -0.51 elif x == 1: return 0.67 else: a = math.log(main(x - 2) ** 2 / 31 + 70 * main(x - 1), 2) ** 3 res = a / 67 + 0.02 return res" "import math def main(n): f = [0] * (n + 1) for i in range(n + 1): if i == 0: f[i] = -0.76 elif i >= 1: f[i] = 64 * math.atan(f[i - 1]) - pow(math.sin(f[i - 1]), 3) - 1 return f[n]" "def f(n): if n == 0: return -0.47 else: return f(n - 1) ** 2 - 1 - f(n - 1) ** 3 def main(*args): return f(*args)" "def main(n): if n == 0: return -0.33 elif n == 1: return -0.23 else: n_1 = main(n - 1) n_2 = main(n - 2) return (n_1 ** 3 + n_1) ** 3 + n_2 ** 2" "import math def f(n): if n == 0: return -0.52 else: return 1 - pow(math.atan(1 - 53 * pow(f(n - 1), 3) - f(n - 1)), 2) def main(*args): return f(*args)" "import math def main(n): if n == 0: return 0.53 if n >= 1: return math.ceil(33 * main(n - 1) ** 2 - 7 * main(n - 1) ** 3) / 14" "def main(n): if n == 0: return -0.01 if n >= 1: return (48 * main(n - 1) + 58 * main(n - 1) ** 2 + 0.01) ** 3 / 17 main(8)" "def decision(n) -> float | int: if n == 0: return -0.2 elif n == 1: return 0.67 else: function = decision(n - 1) / 9 + decision(n - 2) ** 3 / 44 + 1 return function def main(n) -> float | int: return decision(n)" "def main(n): n = int(n) if n == 0: return -0.46 elif n == 1: return -0.73 elif n >= 2: res = float(0) res += main(n - 2) ** 2 res -= main(n - 1) ** 3 return res" "def main(n): if n == 0: return -0.94 elif n == 1: return -0.1 elif n >= 2: return pow(1 - main(n - 1) - pow(main(n - 2), 3), 3) / 5" "from math import sqrt, pow, log, atan, ceil def main(n): if n == 0: return -0.75 elif n >= 1: return pow(main(n - 1), 3) / 65 - log(46 * pow(main(n - 1), 2) + main(n - 1), 10) / 10" "import math def main(n): if n == 0: return 0.29 if n == 1: return -0.21 if n >= 2: return math.cos(main(n - 1)) ** 3 + 63 * math.fabs(main(n - 2)) + 1" "def main(n): if n == 0: return -0.16 elif n >= 1: return main(n - 1) ** 2 + (9 * main(n - 1) ** 3 - main(n - 1) - 1) ** 3 / 78 else: return 0" "def main(n): if n == 0: return -0.0 if n >= 1: first_rec = main(n - 1) return pow(first_rec, 2) / 52 - 23 - first_rec" "def main(n): if n == 0: return 0.44 else: a = main(n - 1) ** 3 return 0.02 + a + (20 * a) ** 2 / 84 main(7) main(4)" "import math def main(n): if n == 0: f = -0.45 elif n == 1: f = 0.16 elif n >= 2: f = (63 * main(n - 1) ** 3 + 52 * main(n - 1) ** 2 + 0.01) ** 2 / 20 + math.tan(main(n - 2)) / 45 return f" "def main(n): if n == 0: return 0.16 elif n == 1: return 0.54 else: return main(n - 2) - pow(main(n - 1), 3) / 22" "from math import sin def rec(n): if n == 0: return 0.46 elif n == 1: return -0.76 elif n >= 2: prev1 = rec(n - 1) prev2 = rec(n - 2) return prev2 + sin(22 + prev1 ** 2 + prev2 ** 3 / 19) ** 3 def main(n): return rec(n)" "def rec(n): if n == 0: return 0.4 elif n >= 1: prev1 = rec(n - 1) return 0.01 + prev1 ** 3 + (prev1 + prev1 ** 3 / 71 + prev1 ** 2) ** 2 def main(n): return rec(n)" "def main(n): x = 0 if n == 0: x = 0.97 elif n == 1: x = 0.08 elif n >= 2: x = (main(n - 2) ** 2 - 18 * main(n - 1) ** 3 - main(n - 1)) ** 2 / 27 - 0.01 return x" "import math def main(n): if n == 0: return 0.27 elif n >= 1: return math.log(97 * main(n - 1) ** 3 + 55 + 98 * main(n - 1), 10)" "import math def main(n): if n == 0: return -0.68 elif n == 1: return -0.0 elif n >= 2: f = main(n - 2) + math.sin(main(n - 1) ** 2) ** 3 return f" "from math import * def main(n): if n == 0: return 0.6 elif n >= 1: res1 = 3 * atan(main(n - 1) ** 2 - 1 - main(n - 1) ** 3) ** 3 res2 = -main(n - 1) - 64 return res1 + res2" "def main(n): res = 0 if n == 0: return 0.63 if n == 1: return -0.89 if n >= 2: res = main(n - 1) + main(n - 2) ** 3 / 40 return res" "import math def main(n): if n == 0: return -0.82 elif n == 1: return 0.5 elif n >= 2: return pow(math.cos(main(n - 2)), 3) + main(n - 1) + 30" "from math import * def main(n): res = 0 if n == 0: return -0.23 res = main(n - 1) ** 2 / 24 + 27 + main(n - 1) / 20 return res / 36 - main(n - 1) ** 2" "def main(n): if n == 0: res = 0.08 elif n >= 1: res = main(n - 1) - main(n - 1) ** 3 / 95 return res" "import math def main(n): if n == 0: return 0.92 if n >= 1: return 23 * math.log10(main(n - 1)) ** 3 + math.log10(main(n - 1)) + 51" "def main(n): result4 = [0] * (n + 1) q = -0.13 for i in range(1, n + 1): result4[i] = q + q ** 3 / 39 q = result4[i] return q" "def main(n): if n == 0: return -0.93 elif n == 1: return -0.59 elif n >= 2: return main(n - 2) + main(n - 1) ** 2 / 81" "from math import sin def f(n): if n == 0: return 0.12 elif n >= 1: return sin(f(n - 1)) ** 3 + f(n - 1) def main(n): return f(n)" "import math def main(n): if n == 0: return -0.29 elif n >= 1: return 0.01 - pow(math.log10(pow(main(n - 1), 2) + 20 + main(n - 1)), 3)" "import math def main(n): if n == 0: return -0.98 if n == 1: return -0.59 if n >= 2: return main(n - 2) ** 2 + math.cos(main(n - 1)) main(3) main(9)" "import math def main(n): if n == 0: return 0.89 if n == 1: return -0.55 if n >= 2: return math.ceil(main(n - 1)) ** 3 / 89 - math.log(main(n - 2) ** 2 + main(n - 1) / 3 + 1) main(8) main(6)" "def main(n): if n >= 2: return main(n - 2) ** 3 + (main(n - 1) ** 2 / 98 + main(n - 2)) ** 2 elif n == 0: return -0.7 elif n == 1: return -0.03" "import math def main(n): if n == 0: return 0.46 elif n == 1: return 0.68 elif n >= 1: return math.tan(main(n - 1)) + main(n - 2) ** 2 + 1" "import math def main(n): if n == 0: return -0.37 if n == 1: return 0.77 if n >= 2: return 1 - pow(main(n - 2), 2) - main(n - 1) / 54" "def main(n): if n == 0: return 0.94 if n >= 1: return main(n - 1) + pow(main(n - 1), 2) / 70" "import math def main(n): if n == 0: return -0.14 elif n == 1: return -0.84 elif n >= 2: return 1 - math.exp(main(n - 1)) / 75 - math.sin(main(n - 2) ** 3 + 1) ** 3 / 28" "import math def main(n): if n == 0: return 0.75 elif n >= 1: return main(n - 1) + 35 + pow(math.atan(12 * main(n - 1) ** 2 - main(n - 1) // 91), 3)" "def main(n): if n == 0: return 0.16 elif n == 1: return 0.48 elif n > 1: a = (main(n - 2) ** 3 - main(n - 1)) ** 2 b = (main(n - 1) / 38 + main(n - 1) ** 3) ** 3 return a / 91 - main(n - 2) - b" "import math def main(n): k1 = 0 k2 = 0 if n == 0: return -0.39 if n == 1: return 0.64 if n >= 2: k1 = main(n - 1) k2 = 96 * math.atan(28 + main(n - 1) ** 3 + main(n - 2)) ** 2 + 79 z = k1 + k2 return z main(3)" "def main(n): if n == 0: return 0.81 elif n == 1: return 0.57 else: return main(n - 1) ** 2 - main(n - 2) ** 3" "import math def main(n): if n == 0: return 0.05 else: return math.atan(main(n - 1)) ** 3 - math.ceil(main(n - 1)) / 68 - 18" "import math def main(n): f1 = 0 x = -0.39 for i in range(1, n + 1): f1 = pow(math.log10(82 - x - x ** 3 / 32), 3) / 42 + pow(math.tan(x), 2) x = f1 return f1" "import math def main(n): if n == 0: return 0.56 elif n == 1: return 0.42 elif 2 <= n: return 1 + pow(main(n - 2), 3) + main(n - 1) return main(n)" "import math def main(n): if n == 0: return -0.22 if n == 1: return 0.62 if n >= 2: return (main(n - 1) ** 2 - main(n - 1) - main(n - 2) ** 3) / 25 - main(n - 2) ** 2" "def main(n): if n == 0: f = 0.79 return f else: f = 1 - 87 * (main(n - 1) ** 2 - main(n - 1) ** 3) ** 3 return f" "import math def main(n): if n == 0: return 0.29 elif n == 1: return 0.01 else: res = math.atan(main(n - 1) / 61 + 14 * main(n - 1) ** 3) ** 2 + 1 + 9 * math.cos(main(n - 2)) ** 3 return res" "import math def main(x): if x == 0: return -0.87 if x == 1: return 0.99 if x >= 2: return 1 - (main(x - 1) + 1) - main(x - 2) ** 3" "def main(n): if n == 0: return -0.92 if n == 1: return 0.51 if n >= 2: r = main(n - 1) ** 2 + 0.03 + main(n - 2) ** 2 return r" "import math def main(n): if n == 0: return -0.19 elif n == 1: return -0.73 return 9 - 73 * math.log(main(n - 1) ** 2 - 78 * main(n - 2) - main(n - 1) ** 3 / 43, 2) ** 2" "import math def main(n): if n == 0: return -0.84 elif n >= 1: return 1 + math.cos(53 * math.pow(main(n - 1), 2) - main(n - 1) - 25) / 7" "def main(n): if n == 0: return -0.46 if n >= 1: return (main(n - 1) ** 3 / 74 + main(n - 1) ** 2 + main(n - 1)) / 2 main(7)" "import math def main(n): if n == 0: return -0.02 if n == 1: return 0.55 if n >= 2: return math.sqrt(main(n - 1) ** 2 / 53 + main(n - 2) / 46) - (main(n - 2) ** 3 / 24) ** 3" "import math def main(n): if n == 0: res = -0.3 elif n >= 1: res = 27 - 14 * pow(math.log10(pow(main(n - 1), 2) / 77), 3) return res" "import math def func(x): if x == 0: return 0.47 else: return math.log2(func(x - 1)) ** 2 / 71 + func(x - 1) ** 3 def main(x): return float('%.2E' % func(x)) main(3)" "import math def main(n): if n == 0: return 0.16 elif n == 1: return -0.75 elif 2 <= n: return pow(main(n - 2), 2) / 41 - 1 - 8 * main(n - 1)" "def main(n): if n == 0: f = -0.13 return f if n == 1: f = 0.33 return f if n >= 2: f = 1 - main(n - 2) - main(n - 1) ** 3 return f" "import math def main(n): if n == 0: return -0.94 elif n >= 1: a = 1 + 61 * (main(n - 1) ** 3 / 59 - 0.03) ** 3 return a + math.cos(main(n - 1)) ** 2 main(5)" "import math def main(n): if n >= 1: return 1 - main(n - 1) - 74 * math.log10(main(n - 1) - 54 * main(n - 1) ** 3) ** 2 else: return -0.98 main(4)" "def main(n): if n == 0: f = 0.33 if n >= 1: f = main(n - 1) ** 2 + main(n - 1) / 38 + 0.03 return f" "def main(n): if not n == 0: return main(n - 1) ** 2 - (main(n - 1) ** 3 - 1 - main(n - 1) ** 2) ** 3 / 61 else: return -0.44" "from math import ceil def main(n): if n == 0: return -0.94 elif n == 1: return -0.86 elif n >= 2: return main(n - 2) / 20 + pow(pow(main(n - 2), 3) / 49 - 1, 3) + pow(ceil(main(n - 1)), 2)" "import math def main(n): if n == 0: return 0.5 elif n == 1: return 0.95 elif n >= 2: return (main(n - 2) - main(n - 1) ** 2) ** 2 main(4)" "def main(n): if n == 0: return 0.98 else: return 4 - main(n - 1) ** 2 / 23 - main(n - 1)" "import math def main(n): m = 0 if n == 0: m = -0.51 if n == 1: m = 0.28 if n >= 2: m = main(n - 1) / 32 + (0.03 - 2 * main(n - 2) - 70 * main(n - 1) ** 3) ** 3 / 86 return m" "def main(n): if n == 0: return 0.49 else: r = main(n - 1) return r * r / 78 + r + 1" "import math def main(x): f0 = -0.47 f1 = -0.17 fn = f0 for i in range(2, x + 1): f = (f1 - f1 ** 2) ** 2 - math.atan(fn) ** 3 - 0.02 fn = f1 f1 = f return f" "import math def main(n): if n == 0: return 0.02 elif n == 1: return 0.69 else: return math.atan(22 * pow(main(n - 2), 3) - 32 - pow(main(n - 1), 2))" "import math def main(n): if n == 0: f = -0.29 if n >= 1: f = 91 * math.log2(main(n - 1) ** 3 / 38 + 97) ** 2 return f" "from math import atan def main(n): if n == 0: return 0.89 if n == 1: return -0.41 a = atan(main(n - 1)) / 21 b = main(n - 2) ** 2 / 39 return 1 + a + b" "def main(n): if n == 0: return 0.43 else: return main(n - 1) ** 3 + main(n - 1) / 8 + 0.02" "import math def main(n): if n == 0: r = -0.36 if n >= 1: r = pow(math.atan(pow(main(n - 1), 3) + 1 + main(n - 1) / 59), 2) return r" "def main(n): def rec(n): if n == 0: return -0.74 return -1 - 82 * rec(n - 1) return rec(n)" "import math def main(n): y = 0 if n == 0: y = 0.59 if n >= 1: y = math.log(main(n - 1), 2.718281828459045) ** 3 + 80 + 2 * main(n - 1) return y" "import math def main(n): if n == 0: return 0.56 if n == 1: return -0.33 if n >= 2: a = 58 * main(n - 2) ** 2 b = 27 * main(n - 1) c = 29 logarifm = math.log10(a + b + c) ** 3 cosinus = math.cos(main(n - 2)) return logarifm + cosinus return 0" "def main(n): if n == 0: return 0.3 elif n >= 1: return (main(n - 1) - main(n - 1) ** 3 - 1) / 98 - 1" "import math def main(n): if n == 0: return -0.09 else: return (pow(main(n - 1), 2) / 87 + pow(main(n - 1), 3) + 19) / 55" "import math def main(n): if n == 0: return -0.19 elif n >= 1: return main(n - 1) ** 4 / 85 + main(n - 1) ** 9 + math.cos(main(n - 1)) / 8 main(1)" "def main(n): result = 0 if n == 0: return 0.84 if n == 1: return 0.68 if n >= 2: result = main(n - 1) - main(n - 2) ** 2 - main(n - 1) ** 3 return result main(5)" "def main(n): if n == 0: return -0.77 elif n == 1: return -0.37 elif n >= 2: return main(n - 1) - 87 * (main(n - 2) ** 3 / 56) ** 2" "import math def main(n): if n == 0: return -0.23 elif n == 1: return 0.92 elif n >= 2: return math.cos(42 * main(n - 2) + main(n - 1) ** 3 / 78) ** 2 main(2)" "import math def main(n): if n == 0: return 0.81 else: return main(n - 1) + 72 * math.pow(math.atan(main(n - 1)), 3)" "import math def main(n): if n == 0: f = 0.68 elif n == 1: f = -0.72 else: f = pow(main(n - 2), 2) / 38 + pow(math.sin(main(n - 1)), 2) + pow(math.asin(pow(main(n - 2), 3) / 77), 3) return f" "def main(n): if n == 0: f = 0.01 elif n >= 1: f = 25 * pow(main(n - 1), 6) + 91 * pow(main(n - 1), 2) return f" "def main(n): if n >= 2: func_value = main(n - 2) ** 3 / 34 - main(n - 2) ** 2 - (main(n - 2) - 17 * main(n - 1) ** 2) / 41 elif n == 1: func_value = -0.35 else: func_value = 0.86 return func_value" "def main(n): if n == 0: return -0.69 elif n >= 1: return main(n - 1) ** 3 / 11 + main(n - 1) + (main(n - 1) ** 3 / 19) ** 2" "import math def main(n): if n == 0: return 0.33 elif n >= 1: rr = main(n - 1) return 94 - math.log10(48 * rr ** 2 + 47 * rr ** 3) ** 2" "import math def main(n): if n == 0: return 0.15 elif n == 1: return 0.47 else: return math.pow(math.log2(52 * math.pow(main(n - 2), 2)), 2) + main(n - 1)" "def main(n): if n == 0: return -0.09 elif n == 1: return 0.85 elif n >= 2: return main(n - 2) ** 3 + main(n - 1) ** 3 / 5" "from math import tan def main(n): if not n: return -0.68 return (main(n - 1) ** 3 + 1 + main(n - 1)) ** 3 - 1 - tan(main(n - 1))" "def main(n): recursive = [] recursive.append(0.49) recursive.append(0.67) if n == 0: return recursive[0] if n == 1: return recursive[1] else: for i in range(2, n + 1): recursive.append(1 - recursive[i - 1] ** 3 / 22 - abs(recursive[i - 2]) ** 2 / 77) ++i return recursive[n]" "def main(n): if n == 0: return 0.78 else: return pow(main(n - 1) + 0.01, 3) / 88 + main(n - 1) ** 2" "import math def main(n): if n == 0: return 0.37 elif n == 1: return 0.14 else: ans = abs(main(n - 1)) ** 2 ans -= main(n - 2) ans -= 77 * (main(n - 2) ** 3 + main(n - 1) ** 2) ** 3 return ans" "def main(n): answer = 0 if n == 0: answer = -0.65 elif n == 1: answer = 0.96 elif n >= 2: answer = main(n - 1) ** 4 / 31 - main(n - 2) - 1 return answer" "import math def main(n): if n == 0: return -0.18 elif n == 1: return -0.66 elif n >= 2: a = main(n - 2) b = main(n - 1) return a ** 4 + 1 + b ** 3 / 89" "def main(n): if n == 0: return -0.6 elif n == 1: return -0.02 else: result = (main(n - 2) + main(n - 1) ** 2 / 99 + 1) ** 2 - main(n - 1) ** 3 / 30 return result" "def main(n): if n == 0: return -0.04 elif n == 1: return 0.57 elif n >= 2: return main(n - 1) / 50 - main(n - 2) ** 2 - 1" "from math import * def main(n): res = 0 if n == 0: return 0.44 if n == 1: return -0.23 if n >= 2: res = pow(main(n - 2) ** 3 + main(n - 1) + 1, 3) / 13 + main(n - 1) return res" "import math def main(n): if n == 0: f = -0.58 return f else: f = main(n - 1) ** 2 / 41 - 1 - main(n - 1) return f" "def f(n): if n == 0: return -0.16 elif n == 1: return 0.13 elif n >= 2: return f(n - 2) ** 3 + (1 - f(n - 1) - 86 * f(n - 2) ** 3) ** 2 / 99 def main(n): return f(n)" "from math import * import math def main(n): if n == 0: return -0.32 elif n == 1: return -0.15 elif n >= 2: return 1 + main(n - 1) + 10 * main(n - 2) ** 2" "def main(n): f0 = -0.07 if n == 0: return f0 elif n >= 1: fn = main(n - 1) return fn ** 3 / 8 - fn - 1" "import math def main(n): if n > 0: return math.atan(main(n - 1)) - main(n - 1) ** 3 else: return -0.6" "import math def main(n): if n == 0: f = 0.26 elif n == 1: f = 0.4 elif n >= 2: f = 1 + pow(main(n - 2), 3) + main(n - 1) return f" "import math def main(n): if n == 0: return 0.32 elif n == 1: return 0.99 elif n >= 2: return 94 + 95 * math.log2(39 + main(n - 2) ** 3 / 43 + main(n - 1) ** 2) main(7)" "import math def main(n): if n == 0: return 0.93 elif n >= 1: return main(n - 1) ** 2 - 1 - math.sin(main(n - 1)) ** 3" "def main(n): n = int(n) if n == 0: return 0.62 elif n == 1: return -0.88 elif n >= 2: res = float(0) res += main(n - 2) ** 2 res -= main(n - 1) ** 3 res -= 1 return res" "def main(n): if n == 0: return 0.72 if n == 1: return -0.11 if n >= 2: return 35 - main(n - 2) ** 2 - 5 * main(n - 1)" "import math def main(n): if n >= 1: res = math.pow(main(n - 1), 3) / 44 - main(n - 1) - math.pow(main(n - 1), 2) else: res = 0.35 return res" "def main(n): arr = [-0.84, 0.27] for i in range(2, n + 1): arr.append((89 - arr[i - 2] - 42 * arr[i - 1] ** 3) / 84) return arr[n]" "import math def main(x): if x == 0: return 0.18 if x == 1: return 0.64 if x >= 2: return 0.01 - (1 + 14 * main(x - 2) ** 2 + main(x - 1) ** 3) / 57" "import math def main(n): if n == 0: return -0.5 elif n >= 1: f1 = math.log10(75 + main(n - 1) + 11 * main(n - 1) ** 2) ** 3 f = math.sin(main(n - 1)) - 43 * f1 return f" "import math def main(n): if n == 0: return 0.67 elif n == 1: return 0.24 elif n >= 2: return 1 + pow(math.sin(main(n - 1)), 2) + 96 * abs(main(n - 2))" "import math def main(n): if n == 0: return 0.49 elif n >= 1: return math.sin(main(n - 1)) ** 2 + main(n - 1) + 1" "def main(n): if n == 0: return -0.16 elif n == 1: return 0.96 elif n >= 2: return main(n - 2) ** 2 / 71 + 29 * main(n - 1) main(3)" "import math def main(n): if n == 0: f = 0.75 elif n == 1: f = -0.72 elif n >= 2: while n >= 2: return (main(n - 1) ** 3 + main(n - 2) ** 2) ** 3 - 1 return f" "def f4(n): if n == 0: return 0.26 elif n == 1: return 0.14 return 5 * f4(n - 2) ** 2 + f4(n - 1) / 78 + f4(n - 2) ** 2 + 1 def main(n): return f4(n)" "import math def main(n): if n == 0: return 0.99 elif n == 1: return 0.38 elif n >= 2: x = math.atan(main(n - 1)) ** 2 - 82 - math.cos(main(n - 2)) return x" "from math import exp def count(x): return 11 * x - 8 - exp(x) ** 3 def main(n): res = 0.77 for i in range(0, n): res = count(res) return res main(6)" "import math def main(n): res = 0 if n == 0: res = -0.5 if n == 1: res = 0.51 if n >= 2: res = 85 * math.log10(31 * main(n - 2) + 98 * main(n - 2) ** 2 + 30 * main(n - 1) ** 3) ** 2 return res" "import math def f(n): if n == 0: return -0.54 if n == 1: return -0.98 part1 = f(n - 2) part2 = f(n - 1) return part1 - 4 * math.atan(8 * part1 ** 3 - part1 - 24 * part2 ** 2) ** 2 def main(n): return f(n)" "def main(n): res = 0 if n == 0: res = -0.39 if n >= 1: res = main(n - 1) ** 3 / 50 - main(n - 1) return res" "import math def main(n): if n == 0: return 0.72 elif n == 1: return 0.13 else: return main(n - 1) ** 3 + main(n - 2) ** 2" "def main(n): if n == 0: return 1.0 elif n == 1: return -0.72 else: return 16 * main(n - 1) + main(n - 2) ** 2" "import math as m def main(n): if n == 0: return -0.08 elif n == 1: return 0.2 elif n >= 2: return main(n - 1) - 95 * m.pow(main(n - 2), 2)" "import math def main(n): if n == 0: return -0.44 elif n >= 1: return 85 * math.log2(1 + main(n - 1)) ** 3 + main(n - 1) + 62" "import math def main(n): if n == 0: return -0.09 elif n == 1: return -0.25 elif n >= 2: return 1 - main(n - 2) ** 2 - math.atan(main(n - 1) ** 3 / 25 + main(n - 2) ** 2) ** 3 / 20" "from math import * def main(n): if n == 0: fun = -0.48 elif n == 1: fun = 0.1 elif n >= 2: fun = floor(28 * main(n - 2) - 6 * pow(main(n - 2), 2)) / 61 + main(n - 1) ** 2 return fun" "import math def main(n): if n == 0: return -0.55 else: return main(n - 1) ** 4 - math.tan(main(n - 1))" "import math def main(n): if n == 0: return 0.24 elif n >= 1: x = 1 + math.sin(main(n - 1)) + pow(math.sin(1 - pow(main(n - 1), 3)), 3) return x" "import math def main(n): if n == 0: return -0.76 elif n >= 1: return abs(main(n - 1) ** 2 - 1 - main(n - 1) ** 3) ** 2" "def main(n): if n == 0: return 0.32 return 33 * main(n - 1) - 26 * (main(n - 1) / 49) - 0.01" "def main(n): res1 = -0.31 res2 = -0.44 for i in range(1, n): temp = res1 - res2 ** 3 / 38 res1 = res2 res2 = temp return temp main(7)" "def f(n): if n == 0: return -0.16 elif n == 1: return -0.09 elif n >= 2: return f(n - 1) / 66 + f(n - 2) ** 3 def main(n): return f(n)" "import math def main(n): if n == 0: return 0.76 elif n == 1: return 0.91 elif n >= 2: a = math.log2(main(n - 2) ** 3 + main(n - 1) ** 2 * 14) ** 2 b = math.log2(main(n - 2)) ** 3 return a + b" "import math def f(n): if n == 0: return -0.73 elif n >= 1: return (43 * f(n - 1) + 1 + f(n - 1) ** 3) / 77 - math.tan(1 + f(n - 1) + 30 * f(n - 1) ** 2) ** 3 / 99 - 1 def main(n): return f(n)" "def main(n): if n == 0: return 0.33 if n > 1: return pow(main(n - 2), 9) - main(n - 1) - pow(main(n - 2), 2) / 56 return 0.16" "import math from math import * def main(n): if n == 0: return 0.7 elif n == 1: return -0.07 elif n >= 2: return tan(98 * main(n - 1) ** 3 + main(n - 2) ** 2 + 57 * main(n - 2)) / 57 main(3)" "def main(n): if n >= 1: return main(n - 1) + (main(n - 1) ** 2 / 51 + 31) elif n == 0: return 0.58" "def main(n): if n == 0: return -0.02 if n >= 1: return 28 * pow(main(n - 1), 2) + main(n - 1) + pow(main(n - 1), 2)" "import math def main(x): if x == 0: return -0.92 return main(x - 1) ** 2 / 53 - math.atan(main(x - 1)) / 45 - 1" "import math as m def main(n): if n == 0: return -0.8 if n == 1: return -0.95 if n >= 2: return 58 * m.log2(84 * main(n - 2) ** 2 + 14 * main(n - 1) ** 3) ** 3" "import math def f(n): if n == 0: return -1 elif n == 1: return -0.37 elif n >= 2: return math.atan(59 * f(n - 2) ** 3 - 1 - f(n - 1) ** 2) def main(n): return f(n)" "import math def main(n): if n == 0: return 0.17 elif n == 1: return 0.69 elif n >= 2: return 1 - main(n - 2) - math.log2(main(n - 1)) ** 2 / 82" "def main(n): if n == 0: return 0.0 if n == 1: return -0.35 if n >= 2: return main(n - 1) - (main(n - 1) ** 2 + 4 * main(n - 1) ** 3 + main(n - 2)) ** 3" "from math import atan def main(n): if n == 0: return 0.91 elif n >= 1: return atan(main(n - 1) ** 3 / 62 - 25 * main(n - 1) - 24)" "def main(n): if n == 0: return 0.5 elif n == 1: return -0.32 elif n >= 2: return main(n - 2) / 93 + main(n - 1) ** 2 - 0.08 - main(n - 1) ** 3" "def rec(n): if n > 0: return (78 * rec(n - 1) ** 2 + 86) / 61 - rec(n - 1) ** 2 return 0.95 def main(y): return rec(y)" "import math def main(n): if n == 0: return -0.21 else: return 1 + main(n - 1) ** 2 / 8 + math.exp(main(n - 1)) / 40" "import math def main(n): if n == 0: return 0.68 elif n >= 1: return math.atan(main(n - 1) ** 3 + 58 * main(n - 1) ** 2) ** 3 + math.log(main(n - 1)) ** 2" "import math as m def main(n): if n == 0: return 0.89 elif n == 1: return 0.1 elif n >= 2: return main(n - 1) ** 3 + main(n - 2) ** 2" "import math def main(n): if n == 0: return 0.86 elif n == 1: return 0.98 else: return math.log10(main(n - 1) ** 3 / 15 + 46 * main(n - 2) + 1) ** 3" "import math def main(n=0): if not n: return 0.93 else: return 55 * math.log(62 * main(n - 1) ** 2 + 77 * main(n - 1)) ** 2 - main(n - 1)" "def main(n): if n == 0: f = -0.01 else: f = 24 * main(n - 1) ** 3 + main(n - 1) + main(n - 1) return f" "def main(n): if n == 0: return 0.64 elif n == 1: return 0.33 elif n >= 2: return (42 * main(n - 2) + pow(main(n - 1), 3) + 1) / 95 - 1" "import math def main(n): if n == 0: return 0.5 if n >= 1: return math.log2(3 * main(n - 1) ** 3) ** 2 - 2 - math.floor(main(n - 1))" "import math def main(n): if n == 0: return -0.55 elif n >= 1: return main(n - 1) - math.atan(32 * main(n - 1)) ** 3" "import math def main(n): if n == 0: return -0.24 if n == 1: return -0.15 if n >= 2: return (main(n - 1) / 58 + 3 * main(n - 1) ** 3) ** 2 - main(n - 2) / 8" "def main(n): if n == 0: return 0.6 else: return main(n - 1) ** 2 / 21 - main(n - 1) - 0.02" "import math def main(n): if n == 0: return 0.84 elif n >= 1: return pow(main(n - 1), 3) - main(n - 1) - pow(main(n - 1), 2)" "def main(n): if n == 0: f = -1.0 return f elif n >= 1: f = 0.02 + 3 * main(n - 1) + 58 * main(n - 1) return f" "def main(n): if n == 0: n = -0.36 elif n == 1: n = -0.8 elif n >= 2: n = main(n - 2) ** 2 + main(n - 1) + 72 + 1 return n" "from math import cos, atan def main(n): a = -0.99 b = -0.44 if n == 0: return a elif n == 1: return b elif n >= 2: fn = main(n - 1) fn1 = main(n - 2) return fn - cos(fn1) ** 3 - atan(fn + 54 * fn ** 2 + 88) ** 2" "import math def main(n): if n == 0: return -0.95 elif n == 1: return -0.88 elif n >= 2: return math.atan(main(n - 1) ** 2 - main(n - 1)) ** 3 - 62 - main(n - 2)" "import math def main(n): if n == 0: return -0.19 if n == 1: return 0.9 if n >= 2: return math.atan(main(n - 2)) ** 2 + math.sqrt(main(n - 1)) ** 3" "import math def main(n): if n == 0: return 0.46 if n >= 1: arg1 = pow(0.02 + pow(main(n - 1), 2) / 46 + pow(main(n - 1), 3), 3) arg2 = pow(math.sin(main(n - 1)), 2) return 1 - arg1 - arg2" "import math def main(n): if n == 0: return 0.57 elif n == 1: return -0.47 elif n >= 2: return main(n - 2) - 84 - math.tan(main(n - 1)) ** 2 / 57" "import math def main(n): if n == 0: return -0.31 elif n == 1: return -0.43 elif n >= 2: return main(n - 2) ** 3 - math.tan(main(n - 1)) / 62 - 1" "import math def main(n): if n == 0: return 0.17 elif n >= 1: return math.pow(math.fabs(main(n - 1)), 2) / 37 - main(n - 1) - 18" "import math def main(n): if n == 0: return -0.7 elif n > 0: return main(n - 1) / 87 + 1 + main(n - 1) ** 2 / 5 return 0" "def main(n): a = -0.96 if n == 0: return a elif n >= 1: fn = main(n - 1) return (1 - fn ** 2 - fn ** 3) ** 3" "import math def main(n): if n == 0: return -0.86 elif n == 1: return 0.04 elif n >= 2: return math.exp(main(n - 2)) - math.exp(main(n - 1)) ** 2 - 0.04" "import math def main(n): if n == 0: return -0.09 elif n == 1: return -0.15 elif n >= 2: return main(n - 2) ** 2 + main(n - 1) ** 2" "import math def main(n): if n == 0: return -0.99 if n == 1: return -0.5 if n >= 2: return 52 + pow(math.cos(pow(main(n - 2), 3) + 7 + 17 * main(n - 1)), 3) / 69" "import math def main(n): if n == 0: return -0.83 elif n == 1: return 0.86 elif n >= 2: return math.sin(main(n - 2)) ** 3 + main(n - 1)" "import math def main(n): if n == 0: return -0.99 elif n >= 1: return main(n - 1) / 69 + main(n - 1) ** 2 / 32" "import math def main(n): if n == 0: return -0.8 if n == 1: return 0.57 else: return main(n - 2) - 2 * math.exp(main(n - 1)) ** 3 - 84" "import math def main(n): while n >= 0: if n == 0: return -0.9 elif n == 1: return 0.68 else: return 1 - math.log(35 * main(n - 1) ** 2, 10) ** 3 - 22 * math.sin(main(n - 2))" "def main(n): a = -0.73 b = 0.42 if n == 0: return a elif n == 1: return b elif n >= 2: fn = main(n - 1) fn1 = main(n - 2) return 15 - fn - fn1 ** 2" "def main(n): if n == 0: return 0.04 else: return 0.07 - main(n - 1) / 39 - main(n - 1) ** 2 / 45" "import math def main(n): if n == 0: return -0.8 elif n == 1: return -0.17 else: return main(n - 1) + (0.04 - main(n - 2) ** 3) ** 3" "def main(n): if n == 0: return -0.11 if n == 1: return -0.06 if n >= 2: return main(n - 1) ** 2 + main(n - 2) ** 3 + 1" "def f(n): if n == 0: return 0.54 elif n == 1: return 1.0 elif n >= 2: return f(n - 1) ** 2 / 32 + f(n - 2) ** 3 def main(n): return f(n)" "from math import cos from math import tan def main(n): if n == 0: answer = 0.64 elif n >= 1: elem_1 = cos(main(n - 1)) elem_1 = elem_1 * elem_1 * elem_1 elem_2 = tan(main(n - 1)) answer = 20 + elem_1 + elem_2 * elem_2 return answer" "from math import atan def main(n): if n == 0: return -0.07 if n >= 1: return (main(n - 1) ** 2 - main(n - 1) - 1) ** 2" "from math import atan def main(n): if n == 0: return -0.07 if n >= 1: return (main(n - 1) ** 2 - main(n - 1) - 1) ** 2" "def main(n): if n == 0: return -0.92 return (9 * main(n - 1) + main(n - 1) ** 2) / 90 - main(n - 1) ** 3 / 99 - 1" "def main(n): if n == 0: return 0.4 elif n == 1: return 0.11 else: return main(n - 2) / 46 - main(n - 1) ** 3 / 85" "import math as m def main(n): if n == 0: return 0.21 elif n == 1: return 0.05 elif n >= 2: return 23 * main(n - 2) ** 2 - main(n - 1)" "def main(n): if n == 0: return -0.55 elif n == 1: return -0.13 elif n >= 2: return 0.03 - main(n - 2) - main(n - 1) ** 2" "def main(n): return 0.23 if n == 0 else main(n - 1) / 5 - main(n - 1) ** 3 + 1 + main(n - 1) ** 3 / 21" "import math def main(n): if n == 0: return -0.03 elif n == 1: return 0.54 elif n >= 2: return main(n - 1) / 98 - 23 - main(n - 2) ** 2" "import math def main(n): if n == 0: return -0.03 elif n == 1: return 0.54 elif n >= 2: return main(n - 1) / 98 - 23 - main(n - 2) ** 2" "def main(n): if n == 0: return -0.72 if n == 1: return -0.37 return (0.02 - main(n - 1) - main(n - 2) ** 2 / 11) ** 3" "import math def main(n): if n == 0: f = -0.4 elif n == 1: f = -0.27 elif n >= 2: f = math.floor(main(n - 1)) / 48 + 14 * main(n - 2) ** 3 + pow(main(n - 1), 2) return f" "import math def main(n): r1 = 0.7 for i in range(1, n + 1): r1 = 60 * math.log(r1 ** 2, 2) ** 3 - r1 return r1" "import math def main(n): if n == 0: return -0.43 else: return 1 + math.log10(12 * main(n - 1) ** 2 - main(n - 1)) ** 3 / 50" "import math def f(n: int) -> float: if n == 0: return 0.4 elif n == 1: return -0.0 elif n >= 2: return 83 * (f(n - 1) ** 2 - f(n - 1) ** 3) ** 3 - f(n - 2) ** 2 - f(n - 1) ** 2 / 59 def main(*args): n = int(args[0]) return f(n)" "import math def main(n): if n == 0: return -0.33 return 98 * pow(math.atan(main(n - 1)), 3) + main(n - 1)" "def main(n): if n == 0: return -0.59 elif n == 1: return 0.35 return pow(main(n - 2), 3) / 98 - 1 - pow(main(n - 1), 2)" "import math def main(n): if n == 0: return 0.62 elif n >= 1: return main(n - 1) + math.atan(main(n - 1)) ** 2" "def main(n): if n == 0: return -0.83 else: return 1 + pow(0.01 - pow(main(n - 1), 2) - pow(main(n - 1), 3), 3) / 55" "import math def main(n): if n == 0: return 0.95 elif n == 1: return -0.35 else: return 72 * main(n - 2) + math.cos(main(n - 1)) ** 2 / 62" "import math def main(n): if n == 0: return -0.9 else: return pow(math.cos(main(n - 1)), 3) - math.exp(main(n - 1)) - pow(math.cos(5 * pow(main(n - 1), 2) - main(n - 1) - pow(main(n - 1), 3)), 2)" "def main(n): if n == 0: return -0.68 else: return (main(n - 1) / 34 - main(n - 1) ** 3) / 57 + (main(n - 1) ** 2 - main(n - 1)) ** 3" "import math def main(n): f = [0.37, 0.98] for i in range(2, n + 1): f.append(f[i - 1] + 13 * f[i - 2] ** 2) return f[n]" "def main(n): if n == 0: return 0.06 elif n == 1: return 0.18 elif n >= 2: return main(n - 1) + 37 * main(n - 2) ** 6" "import math def main(n): f = -0.78 if n == 0: return f if n >= 1: for i in range(1, n + 1): f = f + f ** 2 / 47 return f" "import math def main(n): f = 0 if n == 0: f = 0.27 elif n >= 1: f = main(n - 1) ** 2 - (main(n - 1) + 2 * main(n - 1) ** 2) return f" "def main(n): if n == 0: return 0.6 elif n == 1: return -0.64 elif n >= 2: return abs(main(n - 2)) - main(n - 1) ** 2" "import math def main(n): if n == 0: return 0.45 if n == 1: return 0.68 else: return 1 - math.log(24 - main(n - 1) ** 3, 2) - main(n - 2) ** 2" "def main(n): if n >= 1: return 1 - main(n - 1) ** 2 - main(n - 1) ** 3 elif n == 0: return 0.96" "def main(n): if n == 0: return -0.02 if n >= 1: return (main(n - 1) ** 3 - 96 * main(n - 1)) / 88" "def main(n): if n == 0: return -0.77 else: return (main(n - 1) / 67 + main(n - 1) ** 3 / 99) / 20 - main(n - 1) ** 2" "import math def main(n): if n == 0: return -0.61 elif n == 1: return 0.74 elif n >= 2: return math.atan(main(n - 2)) - main(n - 1) ** 2 - 0.01" "import math def f(n): if n == 0: return -0.32 else: return f(n - 1) ** 2 + math.exp(f(n - 1)) / 53 def main(*args): return f(*args)" "import math def main(n): if n == 0: return -0.05 if n >= 1: return main(n - 1) + 91 * math.atan(95 * main(n - 1) ** 3 - 25 * main(n - 1) - main(n - 1) ** 2) ** 2" "import math def main(n): if n == 0: return 1.0 elif n == 1: return 0.57 else: return main(n - 1) ** 3 / 33 + main(n - 2) ** 2" "def main(n): if n == 0: f = -0.49 elif n == 1: f = -0.14 elif n >= 2: f = 0.08 + main(n - 2) ** 2 / 19 + (0.01 + main(n - 2) + main(n - 1) ** 2) ** 3 / 69 return f" "def func(n): if n == 0: return 0.41 elif n >= 1: return func(n - 1) ** 2 / 23 - func(n - 1) ** 3 / 42 - func(n - 1) / 74 def main(x): return func(x)" "def main(n): f = 0 if n == 0: f = -0.04 elif n == 1: f = 0.24 elif n >= 2: f = (63 * main(n - 1) ** 2 + 58 + 81 * main(n - 2) ** 3) / 98 return f" "import math def main(n): if n == 0: return -0.81 if n == 1: return -0.85 elif n >= 2: return main(n - 1) - math.tan(main(n - 2)) ** 2" "import math def main(n): f = 0 if n == 0: f = 0.17 elif n == 1: f = -0.72 elif n >= 2: f = 41 * math.log2(94 + 41 * math.pow(main(n - 2), 3) + 57 * main(n - 1)) * math.log2(94 + 41 * math.pow(main(n - 2), 3) + 57 * main(n - 1)) * math.log2(94 + 41 * math.pow(main(n - 2), 3) + 57 * main(n - 1)) + 1 return f" "import math def main(n): if n == 0: return -0.09 elif n == 1: return -0.13 elif n >= 2: return (main(n - 2) ** 3 - main(n - 1) ** 2) ** 2 + main(n - 2)" "from math import * def main(n): f = 0 if n == 0: f = -0.31 elif n >= 1: f = 1 + pow(pow(main(n - 1), 3) / 19 + main(n - 1), 2) / 32 return f" "import math def main(n): if n == 0: return -0.18 elif n == 1: return -0.08 elif n >= 2: return 1 - math.sin(main(n - 2)) - 86 * (0.01 + main(n - 1) / 74 + main(n - 1) ** 3 / 57) ** 3" "import math def main(n): if n == 0: return 0.04 if n >= 1: n -= 1 return 38 * math.log10(0.04 + 39 * main(n) ** 2) + 1" "import math def main(n): if n == 0: return -0.54 if n == 1: return -0.03 if n >= 2: return main(n - 2) ** 2 - math.acos(main(n - 1)) / 90" "import math def main(n): if n == 0: f = -0.28 if n == 1: f = 0.87 if n >= 2: f = 1 - main(n - 2) - math.pow(main(n - 1), 2) return f" "import math def main(n): x = 0 y = 0 if n == 0: return 0.17 elif n >= 1: x = pow(math.log(20 * main(n - 1) + pow(main(n - 1), 2) + 54), 3) - 1 - main(n - 1) return x" "import math def main(n): if n == 0: f = 0.02 elif n >= 1: sum = 57 * main(n - 1) ** 2 + 1 + main(n - 1) f = math.log(sum) ** 3 / 82 - 5 return f" "import math def f(n): if n == 0: return 0.67 a = f(n - 1) return a ** 2 / 46 - math.atan(1 + a ** 3 + 87 * a) ** 3 - math.fabs(a) def main(n): return f(n)" "import math def main(n): result4 = [0] * (n + 1) a = 0.92 b = -0.29 for i in range(2, n + 1): result4[i] = math.fabs(84 * a ** 3 - 81 * b ** 2 - a) / 82 - math.fabs(b) ** 2 a = b b = result4[i] return b" "from math import * def main(n): if n == 0: f = 0.94 return f elif n >= 1: f = (pow(main(n - 1), 2) + 1 + 37 * main(n - 1)) / 92 return f" "import math def main(n): if n == 0: return 0.12 if n == 1: return -0.11 if n >= 2: return 12 - main(n - 1) / 7 - pow(abs(main(n - 2)), 2) / 17" "import math def main(n): f = 0.86 if n == 0: return f elif n >= 1: for i in range(1, n + 1): f = 50 * math.log(f ** 2 - f / 23) ** 3 - 1 return f" "import math def main(n): if n == 0: return 0.05 elif n == 1: return 0.57 else: return main(n - 2) ** 3 / 90 + math.asin(main(n - 2) ** 3 + main(n - 1)) ** 2" "from cmath import atan def main(n: float): if n == 0: return float(0.16) if n == 1: return float(-0.52) if n >= 2: return (atan(main(n - 2)) ** 2 + 29 * atan(93 * main(n - 1) - main(n - 2) ** 3 - 96 * main(n - 1) ** 2) ** 3).real" "def main(n): if n == 0: return 0.92 if n == 1: return 0.28 if n >= 2: return 1 + main(n - 2) ** 2 + main(n - 1)" "import math def main(n): if n == 0: return 0.59 elif n == 1: return -0.35 elif n >= 2: part_1 = 37 * math.atan(main(n - 1)) ** 3 - 1 part_2 = math.exp(main(n - 1) ** 3 - main(n - 2)) return part_1 - part_2" "def main(n): if n == 0: return -0.29 else: return main(n - 1) ** 2 - main(n - 1) ** 3 - main(n - 1)" "def main(n): if n == 0: return 0.65 elif n == 1: return -0.87 elif n >= 2: return main(n - 1) / 7 - main(n - 2) ** 3 - main(n - 2) ** 2" "from math import ceil def main(n): if n == 0: return 0.09 if n >= 1: return ceil(76 * main(n - 1) ** 3 - 1 - main(n - 1) ** 2) ** 3 / 61 - main(n - 1)" "import math def main(n): if n >= 1: a = main(n - 1) ** 3 / 27 + 2 * main(n - 1) ** 2 return a elif n == 0: return -0.54" "import math def main(n): if n == 0: n = 0.17 elif n == 1: n = 0.73 else: n = (main(n - 2) ** 2 - main(n - 1)) / 37 return n" "import math def main(n): if n == 0: return -0.84 elif n == 1: return -0.98 elif n >= 2: a = math.log10(main(n - 1) ** 2 + main(n - 2) + 1) ** 3 + main(n - 2) ** 2 return a" "def main(n): if n == 0: f = -0.57 return f elif n == 1: f = -0.01 return f else: f = main(n - 2) + main(n - 1) ** 2 / 22 + 1 return f" "import math def main(n): if n == 0: return 0.53 elif n == 1: return -0.8 else: return main(n - 2) + 57 * pow(math.atan(28 * pow(main(n - 1), 2) - 1), 3)" "def main(n): if n == 0: return 0.56 elif n == 1: return 0.21 else: return main(n - 1) ** 2 / 28 - main(n - 1) / 66 - main(n - 2) ** 3" "import math def main(n): if n == 0: return 0.68 elif n >= 1: return main(n - 1) - 1 - math.pow(main(n - 1), 3) / 29" "import math def main(y): return {y == 0: 0.74, y == 1: 0.6, y >= 2: rec(y + 1)}[True] def rec(n): if n == 1: return 0.74 elif n == 2: return 0.6 else: return rec(n - 1) + 1 + pow(1 - rec(n - 2), 2)" "import math def main(n): x = 0 if n == 0: x = 0.05 elif n == 1: x = 0.12 elif n >= 2: x = (72 * main(n - 1)) ** 0.5 - 2 * math.log10(main(n - 2)) ** 3 return x" "def main(n): if n == 0: return -0.34 elif n == 1: return -0.16 elif n >= 2: return pow(main(n - 1), 2) + pow(main(n - 1), 3) + main(n - 2)" "from math import * def main(n): if n == 0: return -0.01 elif n == 1: return 0.37 else: return sin(82 * main(n - 1) ** 3 - 47 - main(n - 2) ** 2) - main(n - 2) ** 2" "import math def f(n): if n == 0: return 0.13 if n == 1: return 0.09 if n >= 2: return 0.01 - math.atan(f(n - 2)) - f(n - 1) def main(x=2): return f(x)" "import math def main(n): f = 0 if n == 0: f = -0.97 elif n == 1: f = 0.71 elif n >= 2: f = math.log(main(n - 2) ** 3 + 1 + 70 * main(n - 1) ** 2) ** 3 + main(n - 2) / 82 return f" "def f(n): if n == 0: return -0.75 elif n == 1: return 0.11 elif n >= 2: return f(n - 2) ** 2 - 45 - f(n - 1) def main(n): return f(n)" "import math def main(n): if n == 0: return -0.51 elif n == 1: return 0.09 elif n >= 2: return 80 * main(n - 2) + math.atan(main(n - 1)) ** 3 + 1" "def main(n: float): if n == 0: return float(-0.82) if n == 1: return float(-0.38) if n >= 2: return (1 + main(n - 2) ** 3 + main(n - 1) ** 2 / 53).real" "def main(n): if n == 0: return -0.62 elif n == 1: return -0.77 elif n >= 2: return main(n - 2) ** 2 + main(n - 1) ** 3 / 10 + 1" "def f(n): if n >= 1: return (f(n - 1) + 1 + f(n - 1) ** 2) ** 3 / 83 else: return 0.24 def main(n=3): return f(n)" "def f(n): if n == 0: return -0.18 elif n == 1: return -0.78 else: return f(n - 2) ** 2 - f(n - 1) ** 3 / 8 def main(n): return f(n)" "def main(n): if n == 0: return -0.21 elif n == 1: return 0.57 elif n >= 2: return main(n - 1) ** 2 - 1 - main(n - 2) ** 3" "import math def main(n): if n == 0: return -0.89 if n >= 1: return 40 * math.log10(63 * main(n - 1) ** 2 - 1 - main(n - 1) ** 3 / 63) - 60" "import math def main(n): if n == 0: return 0.42 else: return (0.06 + main(n - 1) ** 3) ** 3 - math.tan(main(n - 1))" "from math import * def main(n): res = 0 if n == 0: res = 0.1 elif n >= 1: res = 51 * atan(main(n - 1) ** 2) ** 2 - 5 * main(n - 1) return res" "import math def main(n): if n == 0: return 0.76 if n >= 1: return math.log(37 * main(n - 1) + 1 + 54 * pow(main(n - 1), 3))" "import math def main(n): if n == 0: return 0.17 elif n == 1: return 0.67 else: return 1 - math.atan(main(n - 1) / 85 + 82 + main(n - 2) ** 3) ** 3" "import math def main(n): if n == 0: return -0.07 if n == 1: return -0.0 else: return math.tan(main(n - 2)) + main(n - 1) ** 2 + 71 * main(n - 1) ** 3" "import math def main(n): if n == 0: return -0.74 elif n == 1: return 0.11 elif n >= 2: return main(n - 1) + 17 * math.atan(main(n - 2)) ** 3 + 34" "import math def main(n): if n == 0: return 0.01 if n >= 1: return math.ceil(main(n - 1)) ** 3 - (1 + main(n - 1) ** 3 + main(n - 1) ** 2) - 1" "def main(n): if n == 0: return -0.71 elif n == 1: return -0.62 elif n >= 2: return pow(main(n - 1), 3) / 55 - main(n - 2) / 57" "import math def main(n): if n == 0: return 0.19 if n == 1: return -0.1 return main(n - 1) + 0.05 + 37 * math.cos(main(n - 2)) ** 3" "import math def main(n): if n == 0: return 0.6 elif n == 1: return 0.99 elif n >= 2: return pow(main(n - 2), 2) / 24 + math.sin(16 * pow(main(n - 1), 3))" "def main(n): if n == 0: return 0.01 else: return main(n - 1) - 57 * pow(main(n - 1), 3)" "import math def main(n): if n == 0: return 0.91 else: return math.log(main(n - 1)) ** 3 / 24.0 + math.cos(main(n - 1))" "from math import sin def f(n): f0 = float(-0.87) f1 = float(0.38) if n == 0: return f0 elif n == 1: return f1 else: for _ in range(2, n + 1): f = sin(49 * f1 ** 2 - 23 * f1 ** 3 - f0 / 89) + 1 f0 = f1 f1 = f return f def main(arg1): return f(arg1)" "from math import atan def main(n): match n: case 0: return -0.34 case _: return atan(72 * main(n - 1) + 0.03 + main(n - 1) ** 3) ** 3" "import math def main(n): if n == 0: return -0.87 if n >= 1: return math.cos(main(n - 1) ** 2) / 14 + math.floor(main(n - 1)) ** 3" "import math def main(n): if n == 0: return 0.31 elif n >= 1: return main(n - 1) ** 2 + math.exp(36 * main(n - 1) ** 3 + main(n - 1) ** 2) / 42" "import math def main(n): if n == 0: return -0.47 elif n == 1: return -0.36 elif n >= 2: return main(n - 1) ** 3 / 94 - 1 - main(n - 2) ** 2" "def main(n): if n == 0: return 0.25 elif n >= 1: return 1 - (69 * main(n - 1) ** 2 - main(n - 1) ** 3 - main(n - 1)) / 67" "import math def main(n): if n == 0: return -0.39 return 71 * math.atan(93 * main(n - 1) + 1) ** 2 - 1 - main(n - 1)" "import math def main(n): temp = 0 if n == 0: temp = -0.02 elif n >= 1: temp = main(n - 1) + 70 * abs(main(n - 1)) ** 2 + main(n - 1) ** 3 return temp" "import math def main(n): if n == 0: return 0.11 elif n == 1: return 0.98 elif n >= 2: rex1 = pow(math.atan(main(n - 2)), 3) res = pow(main(n - 1), 2) - rex1 - 1 return res" "import math def main(n): if n >= 1: return 5 * math.atan(main(n - 1) - main(n - 1) ** 3 - 1) ** 2 elif n == 0: return 0.83" "def main(n): if n == 0: return -0.01 if n >= 1: return 0.01 + 99 * main(n - 1) ** 2 / 98 + main(n - 1) ** 3" "def func_four(x): if x <= 0: return 0.13 elif x >= 1: return 0.12 - 13 * func_four(x - 1) ** 3 - int(abs(func_four(x - 1) / 76)) def main(x): return func_four(x)" "import math def main(n): if n == 0: return -0.82 elif n >= 1: return 0.02 + main(n - 1) / 57 + 73 * math.log(44 * main(n - 1) ** 2 + 24 + 9 * main(n - 1), 2) ** 2" "def main(n): if n == 0: return -0.88 if n == 1: return 0.54 if n >= 2: return main(n - 1) - 1 - (main(n - 2) + 1) ** 2" "from math import * def main(n): if n == 0: return -0.56 elif n >= 1: return 1 - pow(main(n - 1), 2) / 92 - pow(main(n - 1), 3)" "import math def main(n): x = 0 if n == 0: x = -0.49 elif n >= 1: x = math.floor(main(n - 1)) ** 2 - 1 - main(n - 1) return x" "def main(n): import math if n == 0: return -0.94 else: return (59 * main(n - 1) - main(n - 1) ** 2 - 21) / 31" "from math import * def main(n): if n == 0: f = -0.11 return f elif n >= 1: f = pow(main(n - 1), 2) - floor(main(n - 1)) / 4 - 1 return f" "import math def main(n): if n == 0: return -0.08 elif n >= 1: return math.cos(1 + 42 * main(n - 1) ** 3 + 36 * main(n - 1) ** 2) / 89" "from math import sqrt def main(n): if n == 0: return 0.44 if n == 1: return 0.57 if n >= 2: return main(n - 2) ** 3 + pow(main(n - 2) - main(n - 2) ** 3, 2) + abs(main(n - 1))" "from math import ceil def main(n: int): if n == 0: return -0.86 elif n == 1: return 0.97 else: return ceil(main(n - 2) ** 2 / 36 - main(n - 1) - 1) ** 3 + main(n - 2) / 54" "import math def main(n): if n == 0: return -0.52 elif n == 1: return 0.14 elif n >= 2: return math.cos(main(n - 1) ** 3 - 50 * main(n - 2) ** 2) ** 2" "import math def main(n): if n == 0: return 0.7 if n >= 1: return math.atan(5 * main(n - 1) ** 2 + main(n - 1) / 97) ** 2 - 0.01" "import math def main(n): if n == 0: return -0.54 elif n >= 1: part_1 = 35 part_2 = math.log(main(n - 1) ** 2 - 60 * main(n - 1) - 0.03) part_3 = 35 * part_2 ** 3 return part_3" "import math def main(n): if n == 0: return -0.54 elif n >= 1: part_1 = 35 part_2 = math.log(main(n - 1) ** 2 - 60 * main(n - 1) - 0.03) part_3 = 35 * part_2 ** 3 return part_3" "import math def main(n): if n == 0: return -0.41 elif n == 1: return 0.03 else: return (main(n - 2) ** 3 - main(n - 1) / 78 - 0.04) ** 3 / 61 + 1" "import math def main(n): la = 0 if n == -1: return if n == 0: return -0.4 if n == 1: return -0.85 if n >= 2: la = main(n - 1) ** 2 - main(n - 2) ** 3 - main(n - 2) return main(n - 1) - math.log(la, 2) ** 2" "def main(n): if n == 0: f = -0.84 else: f = main(n - 1) ** 6 - main(n - 1) / 22 - main(n - 1) ** 3 return f" "from math import tan def main(n): if n == 0: return 0.11 else: return tan(main(n - 1)) - pow(main(n - 1), 2) - pow(main(n - 1), 3)" "def main(n): if n >= 2: return main(n - 2) ** 3 + main(n - 1) + main(n - 1) ** 2 elif n == 1: return 0.19 elif n == 0: return 0.8" "from math import sin def main(n): if n == 0: return -0.64 if n == 1: return 0.65 return sin(main(n - 2)) ** 3 / 22 - main(n - 1) - 47" "import math def main(numb): if numb == 0: return -0.02 elif numb >= 1: a = math.cos(46 * math.pow(main(numb - 1), 2) + 92 * main(numb - 1)) ** 3 b = math.pow(main(numb - 1), 2) return a - b" "def main(n): if n == 0: return 0.22 elif n == 1: return -0.84 if n >= 2: a = (main(n - 2) / 18) ** 2 b = (76 * main(n - 1) ** 2 + main(n - 2) + 75 * main(n - 2) ** 3) / 83 return a + b" "from math import log def main(n): if n == 0: return 0.81 if n >= 1: res1 = 67 * log(main(n - 1) + 26 + 59 * main(n - 1) ** 2) ** 3 res2 = log(3 * main(n - 1) ** 3) ** 2 / 85 res = res1 - res2 return res" "import math def main(n): if n == 0: return -0.4 if n == 1: return 0.4 if n >= 2: a = math.tan(main(n - 2) + 1 + main(n - 1) ** 2) / 11 - 1 return a" "import math def main(n): if n == 0: return 0.5 if n >= 1: x = main(n - 1) return math.ceil(x) ** 2 - 1 - math.atan(x) ** 3" "import math def main(n): if n == 0: return 0.66 if n == 1: return -0.91 if n >= 2: return math.tan(59 * pow(main(n - 2), 2) - pow(main(n - 1), 3)) / 61" "def main(n): if n == 0: f = 0.8 elif n == 1: f = 0.4 elif n >= 2: f = 1 + 57 * (main(n - 2) ** 3 / 26 + main(n - 2) / 41) ** 3 + 82 * (main(n - 1) ** 2 / 69) ** 2 return f" "import math def fun(n): if n == 0: return -0.55 elif n == 1: return -0.29 elif n >= 2: return 1 - math.floor(fun(n - 1) ** 3 / 52 + 76 * fun(n - 2) ** 2) / 59 - fun(n - 2) ** 2 def main(n): return fun(n)" "import math def main(n): if n == 0: return 0.7 if n == 1: return -0.59 if n >= 2: return 1 - 88 * math.ceil(27 * main(n - 2)) - 38 * pow(math.atan(18 + main(n - 1) + 96 * main(n - 1) * main(n - 1)), 2)" "def main(n): if n == 0: return -0.45 if n == 1: return 0.07 if n >= 2: return 48 * main(n - 1) ** 3 - main(n - 2) / 28" "import math def main(n): f = 0.0 if n == 0: f = f + 0.37 elif n == 1: f = f + 0.06 elif n >= 2: f = f + math.exp(main(n - 2) ** 2 + 70 * main(n - 1) ** 3) f = f / 10 return f" "import math def main(n): if n >= 2: return abs(main(n - 2) ** 2) - main(n - 1) ** 2 if n == 1: return -0.63 if n == 0: return 0.07" "def main(n): if n == 0: return -0.03 if n == 1: return -0.35 if n >= 2: return 1 - main(n - 1) ** 3 - main(n - 2) / 51" "import math def main(n): if n == 0: return -0.82 if n == 1: return 0.94 if n >= 2: return main(n - 2) ** 3 + math.ceil(main(n - 1))" "import math def main(n): if n == 0: return 0.26 elif n >= 1: return 0.01 + 12 * pow(main(n - 1), 3) + pow(main(n - 1), 3) / 27" "def main(n): if n == 0: return -0.39 elif n >= 1: return 1 - pow(abs(main(n - 1)), 2) - main(n - 1)" "import math def main(n): if n == 0: return -0.73 if n >= 1: return math.sin(main(n - 1)) ** 3 - main(n - 1) - 1" "from math import log10 def f(n): if n == 0: return 0.04 elif n == 1: return -0.63 else: return 1 - 3 * log10(f(n - 1) ** 2 - f(n - 2) / 15) ** 2 def main(n): return f(n)" "from math import log def main(n): if n == 0: return -0.87 else: return 17 * log(53 * main(n - 1) ** 2 + 0.04) ** 2" "import math def main(n): if n == 0: return -0.64 elif n >= 1: return (main(n - 1) / 35 - main(n - 1) ** 3) ** 3 - 1" "import math def main(n): return -0.8 if n == 0 else math.ceil(main(n - 1)) ** 2 / 47 - main(n - 1)" "import math def main(n): if n == 0: return -0.68 if n == 1: return -0.8 if n >= 2: return math.tan(main(n - 2)) ** 2 + main(n - 2) ** 3 + main(n - 1)" "def main(n): if n == 0: return 0.93 elif n == 1: return -0.69 elif n >= 2: return pow(main(n - 1), 3) + pow(main(n - 2), 2)" "def f(n): if n == 0: return -0.62 elif n == 1: return 0.86 else: return pow(f(n - 2), 3) - f(n - 1) / 89 - 1 def main(*args): return f(*args)" "import math def main(n): o = -0.03 k = -0.1 i = 2 if n == 0: return o if n == 1: return -0.1 if n >= 2: for i in range(n - 1): f = math.floor(o ** 2 / 24) ** 3 + k + (o ** 3 / 24 + 1) ** 2 / 43 o = k k = f return f" "import math def main(n): c = 0.6 if n == 0: return c elif n >= 1: for i in range(n): k = math.asin(c) ** 3 - c c = k return k" "import math def main(n): if n == 0: return 1.0 elif n == 1: return 0.08 elif 1 < n: x1 = 26 * main(n - 2) x2 = 23 * math.log10(31 * main(n - 2) ** 3 + main(n - 1) / 57) ** 3 + 1 x = x1 + x2 return x" "def main(x): nn = 0.76 xx = 0.83 for i in range(0, x - 1): bb = nn ** 3 - xx ** 2 / 40 - 1 nn = xx xx = bb return bb main(7) main(8)" "def main(n): if n == 0: return 0.65 if n == 1: return 0.21 if n >= 2: return (main(n - 1) + 72 * main(n - 2) ** 3 + main(n - 2) ** 2) / 77" "import math def main(x): nn = 0.45 xx = -0.94 f = 0 for i in range(0, x - 1): f = math.cos(xx) ** 3 - math.ceil(nn) nn = xx xx = f return f" "import math def main(n): if n == 0: return 0.75 if n >= 1: return math.log(main(n - 1) ** 2 + main(n - 1) + 22) ** 2" "def main(n): if n == 0: return 0.52 if n >= 1: return 1 - main(n - 1) - main(n - 1) ** 2 / 76" "import math def main(n): if n == 0: return -0.3 elif n == 1: return 0.9 else: return 44 + math.atan(main(n - 1) ** 3 - 43 * main(n - 1)) ** 3 + main(n - 2) ** 2 / 76" "def main(n): if n == 0: return -0.74 if n == 1: return 0.0 if n >= 2: return main(n - 2) ** 2 - 34 * main(n - 1) - 1" "import math def main(n): if n == 0: return -0.57 elif n >= 1: return main(n - 1) ** 3 - main(n - 1) ** 2" "import math def main(n): temp = 0 if n == 0: temp = -0.72 elif n >= 1: temp = math.ceil(main(n - 1)) ** 2 - main(n - 1) / 35 - 1 return temp" "from math import cos def main(n): if n == 0: return -0.51 if n == 1: return -0.63 if n >= 2: return main(n - 2) + cos(main(n - 1)) ** 3 + 1" "def main(n): if n == 0: return -0.32 elif n == 1: return -0.38 else: return main(n - 1) - (main(n - 2) ** 2 / 36 + main(n - 1) ** 3) ** 3" "def main(n): if n == 0: return 0.93 elif n == 1: return 0.11 elif n >= 2: return main(n - 1) ** 2 + main(n - 2) / 46" "import math def main(n): if n == 0: return -0.47 elif n >= 1: return 1 - (main(n - 1) ** 2 - main(n - 1) - 13) / 63" "import math def main(n): if n == 0: return 0.81 if n == 1: return 0.81 if n >= 2: x1 = math.pow(math.asin(main(n - 1)), 3) - main(n - 2) ** 2 - 0.02 return x1" "def main(n): if n == 0: return -0.28 if n == 1: return 0.02 if n >= 2: return 47 + abs(main(n - 2) / 68 + 0.07) + main(n - 1) ** 2 / 94" "def main(n): if n == 0: return 0.55 if n >= 1: return main(n - 1) + (main(n - 1) ** 3 + main(n - 1) + 1) ** 2 / 71" "import math def main(n): if n == 0: return 0.73 elif n >= 1: return main(n - 1) ** 2 - math.tan(main(n - 1))" "import math def main(n): if n == 0: return -0.24 if n == 1: return -0.02 if n >= 2: return (main(n - 1) - main(n - 2) ** 2) ** 3 - math.atan(main(n - 2))" "import math def main(n): if n == 0: return -0.18 elif n >= 1: return 60 - math.atan(main(n - 1)) ** 3 - main(n - 1)" "import math def main(n): if n == 0: return 0.86 if n == 1: return -0.3 if n >= 2: return main(n - 2) - math.cos(main(n - 1) ** 2 + 1) ** 2" "def main(n): if n == 0: return -0.02 elif n == 1: return -0.23 elif n >= 2: return (main(n - 1) - main(n - 2) ** 3) / 95" "def main(n): if n == 0: return -0.76 if n == 1: return 0.23 if n >= 2: return 2 * main(n - 1) - main(n - 2) ** 2 - 14 main(9)" "import math def main(n): if n == 0: return 0.12 elif n == 1: return 0.76 else: return main(n - 1) - 0.01 - 11 * math.pow(main(n - 2), 2)" "import math def main(n): if n == 0: return -0.48 elif n == 1: return 0.13 elif n >= 2: return 12 * math.pow(main(n - 1), 3) - math.pow(main(n - 2), 2)" "import math def main(n): if n == 0: return 0.14 if n >= 1: return pow(math.atan(main(n - 1)), 2) + 71 * pow(math.log(pow(main(n - 1), 2) + 1 + 81 * main(n - 1)), 3)" "import math def main(n): if n == 0: return -0.28 if n >= 1: return main(n - 1) ** 2 - math.atan(main(n - 1) ** 3 - 1) ** 3 / 83 - 1" "def main(n): if n == 0: return 0.01 if n == 1: return -0.07 if n >= 2: return main(n - 1) ** 2 + 80 * (23 * main(n - 2) ** 2 + main(n - 1)) ** 3" "import math def main(n): f = 0 if n == 0: return 0.5 elif n >= 1: f = math.tan(80 * main(n - 1) ** 2 - main(n - 1) ** 3 - 1) / 75 + main(n - 1) ** 6 return f" "import math def main(n): if n == 0: x = 0.34 return x elif n >= 1: x = math.atan(main(n - 1) ** 3 + 1) ** 2 - 1 x -= math.atan(59 * main(n - 1) - 7 - main(n - 1) ** 3) return x" "import math def main(n): if n == 0: x = -0.17 return x elif n >= 1: x = main(n - 1) ** 2 / 94 + (main(n - 1) ** 3 - main(n - 1)) / 93 return x" "import math def main(n): if n == 0: f = 0.75 return f elif n >= 1: f = 1 - main(n - 1) ** 3 - 87 * math.floor(abs(main(n - 1))) return f" "import math def main(n): if n == 0: f = 0.84 elif n == 1: f = 0.66 elif n >= 2: f = 89 * math.atan(main(n - 1)) ** 2 + math.log2(main(n - 2)) return f" "import math def main(n): return -0.82 if n == 0 else math.atan(70 * main(n - 1) - main(n - 1) ** 3 / 4) ** 3" "def main(n): if n == 0: return -0.13 elif n == 1: return 0.97 elif n >= 2: return 1 - abs(main(n - 2)) ** 2 - main(n - 1)" "import math def main(n): f = 0 if n == 0: return 0.09 elif n == 1: return -0.17 elif n >= 2: f = main(n - 2) ** 2 + 1 + math.atan(8 * main(n - 1) ** 2 - 75) ** 3 return f" "import math def main(n): if n == 0: return -0.5 elif n == 1: return 0.78 else: res = 14 * main(n - 1) ** 2 + 34 * main(n - 2) ** 3 + 0.01 return math.log2(res) ** 3" "def main(n): if n == 0: return -0.49 elif n == 1: return -0.03 elif n >= 2: return main(n - 1) / 79 - main(n - 2) ** 2 - 1" "import math def main(n): if n == 0: f = 0.9 return f elif n == 1: f = -0.17 return f elif n >= 2: f = 76 * main(n - 2) + 30 + main(n - 1) return f" "def main(n): if n == 0: f = 0.67 if n == 1: f = 0.35 if n >= 2: f = main(n - 1) ** 2 + main(n - 2) ** 3 return f" "import math def main(n): if n == 0: return -0.75 elif n == 1: return -0.1 elif n >= 2: return main(n - 1) ** 2 + math.ceil(main(n - 2)) ** 3" "def main(n): import math fn = -0.77 for i in range(n): fn = 77 * math.atan(fn ** 3 - 0.01 - fn) ** 3 + fn + 1 return fn" "def main(n): fn0 = 0.27 fn1 = -0.13 if n > 2: for i in range(2, n + 1): fn = (fn0 ** 2 + 0.02) ** 2 + fn1 ** 3 / 72 fn0 = fn1 fn1 = fn else: fn = (fn0 ** 2 + 0.02) ** 2 + fn1 ** 3 / 72 return fn" "def main(n): if n == 0: return 0.55 elif n >= 1: return (main(n - 1) ** 2 - 1) ** 2 + main(n - 1)" "import math def main(x): f = 0 nn = 0.36 for i in range(1, x + 1): f = math.log(63 * nn ** 2 + 74 * nn) ** 3 nn = f return f" "import math def main(n): f_n = [-0.22] if n == 0: return -0.22 for i in range(1, n + 1): f_n1 = math.cos(f_n[i - 1] + 1 + 98 * f_n[i - 1] * f_n[i - 1]) / 88 f_n2 = f_n[i - 1] * f_n[i - 1] f_n0 = f_n1 - f_n2 f_n.append(f_n0) return f_n[n]" "import math def func(n): if n == 0: return -0.33 elif n == 1: return -0.7 elif n >= 2: return func(n - 1) + math.sin(func(n - 2)) ** 3 / 92 + 8 * math.atan(func(n - 1)) ** 2 def main(n): return func(n)" "import math def main(n): if n == 0: return 0.62 if n >= 1: return 1 + 53 * math.log(main(n - 1), 2) ** 2 + main(n - 1)" "def func(n): if n == 0: return 0.66 elif n == 1: return 0.44 elif n >= 2: return func(n - 2) / 59 - (func(n - 1) / 5 - func(n - 2) ** 3) ** 3 def main(n): return func(n)" "import math def main(n): if n == 0: n = 0.16 return n if n == 1: n = -0.53 return n if n >= 2: return 1 - pow(main(n - 1), 4) - pow(main(n - 2), 9)" "import math def main(n): if n == 0: return -0.86 if n >= 1: return math.exp(main(n - 1)) ** 2 / 18 + main(n - 1) ** 3" "import math def main(n): if n == 0: sum = -0.18 elif n >= 1: sum = 11 * math.pow(math.log2(1 + 14 * math.pow(main(n - 1), 2)), 2) - main(n - 1) - 1 return sum" "import math def main(n): if n == 0: return 0.57 if n == 1: return 0.57 if n >= 2: return main(n - 2) / 72 - 1 - pow(main(n - 1), 3)" "def func(n): if n == 0: return 0.44 else: return (1 + func(n - 1) ** 3 / 31) ** 2 - func(n - 1) def main(n): return func(n)" "import math def main(n): if n == 0: return -0.47 elif n == 1: return 0.69 elif n >= 2: return pow(math.atan(pow(main(n - 2), 3) - 4 * main(n - 2)), 2) - 47 * math.log(71 - pow(main(n - 1), 3), 2) - 74" "def main(n): if n == 0: return -0.92 elif n >= 1: return main(n - 1) ** 2 + main(n - 1) ** 3 / 80" "import math def main(n): if n == 0: return 0.84 elif n >= 1: return main(n - 1) ** 2 / 21 + math.ceil(main(n - 1))" "from math import * def main(n): if n == 0: return 0.88 elif n >= 1: return 1 + sqrt(main(n - 1)) / 79 + sin(main(n - 1) ** 2 + 27 * main(n - 1)) ** 2" "import math def main(n): if n == 0: f = -0.94 if n >= 1: f = 65 * math.atan(9 - main(n - 1) ** 3) ** 2 - main(n - 1) / 87 - 12 return f" "import math def main(n): if n == 0: return 0.98 elif n >= 1: return math.log10(78 * main(n - 1) ** 3 - main(n - 1))" "import math def main(n): if n >= 1: a = 6 + main(n - 1) + main(n - 1) ** 2 b = -math.log10(48 + main(n - 1) + main(n - 1) ** 2) ** 3 - 1 return a + b elif n == 0: return -0.3" "def main(n): if n == 0: return 0.83 elif n == 1: return 0.52 elif n >= 2: return 1 - 2 * main(n - 2) ** 3 - main(n - 1)" "import math def main(n): if n == 0: return 0.78 elif n == 1: return -0.08 elif n >= 2: return math.cos(main(n - 1) / 16 + 89 * main(n - 1) ** 2 + main(n - 2) ** 3) ** 3" "def main(fn): if fn == 0: return 0.59 elif fn == 1: return -0.29 elif fn >= 2: return 1 + main(fn - 1) ** 2 + main(fn - 2) / 91" "def main(n): result4 = [0] * (n + 1) a = 0.96 b = 0.77 for i in range(2, n + 1): result4[i] = b ** 2 - a ** 3 a = b b = result4[i] return b" "import math def main(n): if n == 0: return 0.39 elif n >= 1: return abs(main(n - 1)) + 1 + math.atan(main(n - 1)) ** 2" "def func(n): if n == 0: return 0.03 else: return func(n - 1) - func(n - 1) ** 2 - 0.02 def main(n): return func(n)" "import math def main(n): if n == 0: return 0.36 if n >= 1: r1 = math.pow(main(n - 1), 3) r2 = 98 * main(n - 1) - 65 * math.pow(main(n - 1), 3) - math.pow(main(n - 1), 2) return r1 + r2 / 98" "import math def main(n): if n == 0: return 0.77 else: return math.atan(48 * main(n - 1) ** 2 - main(n - 1) ** 3 - 1) ** 2" "import math def main(n): value = 0 if n == 0 or n == 1: value = 0.62 elif n >= 2: value = main(n - 2) / 10 + 16 * math.pow(math.log(main(n - 1)), 2) return value" "from math import sin def main(n): if n == 0: return -0.74 if n == 1: return -0.58 if n >= 2: return sin(main(n - 2)) ** 3 + main(n - 1)" "def main(n): if n == 0: return 0.9 elif n == 1: return 0.21 else: return main(n - 2) ** 3 - main(n - 1) / 68" "def main(n): if n == 0: return -0.72 if n == 1: return -0.19 if n >= 2: return main(n - 1) + 4 * (main(n - 2) ** 2 / 90) ** 2" "from math import pow def main(n): if n == 0: return -0.52 if n == 1: return 0.75 return pow(main(n - 1), 2) / 57 - 15 * main(n - 2)" "import cmath import math def f(n): if n == 0: return 0.52 if n == 1: return 0.92 if n >= 2: return 44 + math.log(80 + f(n - 2) + f(n - 1) ** 3, 10) ** 3 def main(x): return f(x)" "import math import sys def main(n): if n >= 1: r = abs(main(n - 1)) / 98 - main(n - 1) ** 3 else: r = 0.27 return r" "def main(n): if n >= 2: return 72 * main(n - 1) ** 3 + main(n - 2) + 0.07 elif n == 1: return -0.01 else: return -0.08" "from math import * def main(n): if n == 0: return 0.7 elif n == 1: return -0.87 elif n >= 2: return main(n - 1) ** 3 / 81 + main(n - 2)" "import math def first(n): return -0.72 def second(n): return -0.48 def third(n): return 26 * main(n - 2) - 23 * math.log(main(n - 1) ** 2 / 27 - 1 - 21 * main(n - 2)) ** 2 - 63 def main(n): if n == 0: return first(n) elif n == 1: return second(n) elif n >= 2: return third(n)" "import math def main(n): if n == 0: return 0.8 elif n == 1: return -0.21 elif n >= 2: return math.pow(math.pow(main(n - 2), 3) - main(n - 1), 2) - 1" "import math def main(n): if n == 0: return 0.82 elif n >= 1: return math.sin(main(n - 1) ** 2 + main(n - 1))" "def main(n): if n == 0: return -0.13 elif n == 1: return -0.45 else: return pow(main(n - 2), 2) + pow(pow(main(n - 2), 2) + main(n - 1), 3)" "from math import sin def main(n): if n == 0: return 0.91 elif n == 1: return -0.09 else: res = sin(2 * main(n - 2) + main(n - 1) ** 3 + 27) / 4 res -= (main(n - 2) ** 2 / 61 - 0.04) ** 3 / 84 return res" "import math def main(n): if n == 0: return -0.33 elif n == 1: return 0.59 elif n >= 2: return main(n - 1) - math.floor(main(n - 2)) ** 2" "def main(n): if n == 0: return -0.73 if n == 1: return -0.07 if n >= 2: top = pow(main(n - 1) / 89 + pow(main(n - 2), 3), 2) return main(n - 1) - top / 82" "import math def main(x): if x == 0: return -0.95 if x >= 1: a = main(x - 1) return math.sin(29 * a * a - 1 - a * a * a / 30)" "import math as m def main(n): if n == 0: return -0.03 elif n >= 1: return 15 * main(n - 1) ** 2 + m.tan(main(n - 1))" "import math def main(n): if n == 0: return -0.21 elif n == 1: return 0.26 elif n >= 2: return 1 + main(n - 2) + math.pow(main(n - 1), 3) / 67" "import math def main(n): if n == 0: return 0.77 elif n >= 1: return main(n - 1) ** 3 - 2 * math.sin(main(n - 1))" "def main(n): if n == 0: x = -0.71 elif n == 1: x = 0 elif n >= 2: x = 1 + (1 + main(n - 2) ** 3) ** 3 / 18 + main(n - 1) / 80 return x" "import math def main(n): if n == 0: return 0.24 if n == 1: return 0.84 if n >= 2: a = main(n - 2) b = main(n - 1) return 32 * a - 1 - math.cos(b) ** 3" "import math def main(n): if n == 0: return -0.74 else: return main(n - 1) + main(n - 1) ** 4 + math.asin(main(n - 1) ** 3) ** 3" "def main(n): if n == 0: return 0.77 if n == 1: return 0.71 if n >= 2: return main(n - 2) / 22 + main(n - 1) ** 2" "from math import log10 def main(n): def iter(res, i): if i == n: return res else: return iter(res / 42 - 1 - 60 * log10(74 + res ** 2) ** 2, i + 1) return iter(-0.82, 0)" "import math def main(n): if n == 0: return 0.3 elif n == 1: return -0.07 elif n >= 2: return main(n - 1) / 90 - math.tan(main(n - 2)) ** 2 - abs(main(n - 2)) ** 3" "from math import * def main(n): if n == 0: f = -0.08 return f elif n >= 1: f = 1 - main(n - 1) - pow(main(n - 1), 3) / 47 return f" "import math def main(n): if n == 0: return -0.47 if n == 1: return 0.78 elif n >= 2: return 18 * math.log(main(n - 2) ** 2 + 6 * main(n - 1) ** 3, math.e)" "import math def f(n): if n == 0: return 0.98 else: return f(n - 1) ** 3 - math.atan(91 * f(n - 1) + f(n - 1) ** 2 + 1) def main(n): return f(n)" "import math def main(n): f = [-0.99, 0.35] for i in range(2, n + 1): f.append((47 * f[i - 1] ** 3 + 33 * f[i - 1] ** 2 + 9 * f[i - 2]) / 19) return f[n] main(9)" "import math def main(n): f = [0.07, 0.27] for i in range(2, n + 1): f.append(math.asin(f[i - 2] + 2 * f[i - 1] ** 3 + f[i - 1] ** 2) ** 2) return f[n] main(9)" "import math def main(n): if n == 0: return 0.36 elif n == 1: return 0.84 else: return main(n - 2) ** 2 + math.sqrt(main(n - 1))" "def main(n): if n == 0: return -0.41 elif n >= 1: a = main(n - 1) b = (a ** 2 / 95 + a ** 3) / 61 return a ** 2 - b - 0.02" "from math import sin, exp def f(n): if n == 0: return 0.52 elif n >= 1: return sin(f(n - 1)) ** 3 - exp(f(n - 1)) def main(n): return f(n)" "def main(n): if n == 0: return -0.1 if n == 1: return -0.1 if n >= 2: return 89 * abs(main(n - 2) / 42) - main(n - 1) ** 2" "import math def main(n): if n == 0: return -0.07 elif n == 1: return 0.23 else: return 1 + main(n - 1) + pow(main(n - 2), 2) - 1" "import math def main(n): if n == 0: return -0.61 else: f = main(n - 1) return math.exp(f) - 48 * math.log10(0.1 - f ** 3) ** 2 - 1" "from math import atan def f(n): if n <= 0: return -0.35 if n == 1: return 0.42 result = 99 * atan(3 * f(n - 1) ** 3 + f(n - 1) + 0.01) ** 2 + 6 * atan(f(n - 2)) ** 3 + 1 return float('{:.2e}'.format(result)) main = f" "import math def main(n): if n == 0: return 0.21 elif n == 1: return 0.32 else: return math.atan(23 * main(n - 2) ** 2) ** 2 / 4 + math.log(86 * main(n - 2) ** 3 + main(n - 1) ** 2 / 55, 10) ** 3 / 67 + 1" "import math def main(n): if n == 0: return 0.17 if n == 1: return 0.72 if n >= 2: return math.atan(main(n - 1) ** 3 + main(n - 1) ** 2) ** 2 - 28 - main(n - 2) / 61" "def main(n): if n == 0: return -0.26 if n == 1: return 0.2 if n >= 2: return main(n - 1) ** 3 + main(n - 2) ** 2" "import math def main(n): if n == 0: return -0.64 elif n >= 1: return 52 * math.atan(main(n - 1)) ** 2 + main(n - 1) else: return -1" "def main(n): if n == 0: return 0.22 elif n == 1: return -0.71 elif n >= 2: return main(n - 1) ** 2 - main(n - 1) - main(n - 2) ** 3 + main(n - 2) ** 2 + 1" "import math def main(n): if n == 0: return 0.22 elif n == 1: return 0.52 elif 2 <= n: return 18 * main(n - 1) - 1 - math.sin(main(n - 2)) ** 3" "def main(n): if n == 0: return 0.67 if n == 1: return 0.54 if n >= 2: return pow(pow(main(n - 1), 2) - 0.08 - pow(main(n - 2), 3), 2)" "from math import atan def main(n): if n == 0: return 0.7 return atan(main(n - 1)) ** 2 / 10 - 1 - main(n - 1)" "from math import fabs def main(x): if x == 0: return 0.73 elif x == 1: return 0.72 else: a = pow(fabs(main(x - 2)), 3) - main(x - 1) return a" "import math def main(n): if n == 0: return 0.55 elif n >= 1: return float('%.2e' % nOver1(n)) def nOver1(n): if n == 0: return 0.55 else: return 82 * math.log(nOver1(n - 1), 2) ** 3 + math.atan(nOver1(n - 1)) + 59" "import math def main(n): if n == 0: a = 0.81 return a elif n == 1: b = -0.8 return b elif n >= 2: c = main(n - 1) / 71 - math.cos(main(n - 2)) ** 3 - 1 return c" "def main(n): if n == 0: z = -0.37 elif n == 1: z = -0.29 elif n >= 2: z = (96 * main(n - 1) - 1 - 23 * main(n - 2) ** 3) / 51 return z" "from math import atan, exp def main(n): s = 0 if n <= 0: return 0.79 elif n == 1: return -0.36 s = main(n - 1) / 93 + exp(main(n - 2)) ** 2 / 88 + atan(59 * pow(main(n - 1), 3) - 1 - main(n - 1) ** 2) ** 3 / 56 return float('{:.2e}'.format(s))" "def main(n): if n == 0: return 0.22 if n == 1: return 0.11 if n >= 2: return 2 * main(n - 1) + main(n - 1) ** 2 + main(n - 2) ** 3 / 80" "import math def main(n): if n == 0: return 0.39 if n == 1: return -0.11 return 59 * math.log(41 * main(n - 2) + 1 + 54 * main(n - 1) ** 2) ** 2" "import math def main(n): if n == 0: return 0.12 if n == 1: return 0.57 if n >= 2: return math.log(main(n - 1), 10) ** 2 / 55 + 93 * main(n - 2) + 0.08" "import math def main(n): if n == 0: return -0.2 if n >= 1: f1 = 22 * math.log(main(n - 1) ** 3 + 1 + main(n - 1) ** 2, math.e) f2 = math.cos(main(n - 1) - 1) ** 2 f3 = math.atan(main(n - 1)) ** 3 return f1 + f2 + f3" "import math def main(n): if n == 0: return -0.56 if n >= 1: return 50 * math.ceil(main(n - 1)) - math.sin(71 * main(n - 1) ** 2 - main(n - 1) / 56) ** 2" "from math import cos, ceil def main(n): if n == 0: return -0.87 elif n == 1: return -0.06 elif n >= 2: return 8 * ceil(main(n - 1)) - 99 - 49 * cos(main(n - 2)) ** 2" "import math def main(n): if n == 0: return -0.21 elif n == 1: return 0.1 else: return main(n - 2) ** 3 - math.cos(main(n - 1)) ** 2" "from math import sin def main(n): if n == 0: return -0.14 elif n == 1: return 0.69 elif n >= 2: return sin(main(n - 2) + 81 * main(n - 1) ** 2 + 73) ** 3" "import math def main(n): if n == 1: return -0.51 elif n == 0: return 0.41 elif n >= 2: a = 86 * main(n - 2) ** 3 b = 70 * main(n - 2) num = math.atan(a + b) ** 3 add = main(n - 1) ** 3 return num / 28 + add" "from math import * def main(n): if n == 0: return -0.32 elif n >= 1: return 1 - 70 * pow(log(24 - main(n - 1) / 67, 2), 3)" "def main(n): if n == 0: return 0.63 elif n >= 1: return main(n - 1) ** 2 / 58 + main(n - 1) / 99 + 10 * (main(n - 1) / 15) ** 3" "import math def main(n): if n == 0: return -0.48 elif n >= 1: return math.atan(34 * main(n - 1) ** 2 + main(n - 1) ** 3 / 98) ** 3" "import math def main(n): return func(n) def func(n): if n == 0: return -0.86 else: return func(n - 1) - math.sin(func(n - 1)) ** 3 - 1" "import math def main(x): if x == 0: return 0.55 return 52 * math.log(1 - main(x - 1) ** 2 / 61, 10) ** 3 - math.atan(main(x - 1))" "def main(n): if n == 0: return -0.84 if n >= 1: return main(n - 1) + main(n - 1) ** 3 + main(n - 1) ** 2" "import math def main(n): summ1 = 0 summ2 = 0 fun = 0 if n == 0: return 0.46 if n == 1: return 0.12 if n >= 2: fun = main(n - 1) ** 2 - main(n - 1) ** 3 - 52 * main(n - 1) summ1 += 2 * math.atan(0.03 + main(n - 2) / 50) summ2 += math.atan(fun) ** 2 / 56 return summ1 + 45 + summ2" "def main(n): import math if n == 0: return -0.47 s = main(n - 1) - main(n - 1) ** 3 / 22 return s" "import math def main(z): if z == 0: return 0.64 if z == 1: return -0.42 if z >= 2: k = main(z - 2) p = main(z - 1) f = pow(pow(k, 3) - 1, 3) - math.floor(p) / 11 - 0.03 return f" "def main(n): if n == 0: return -0.08 else: return pow(1 - pow(main(n - 1), 3) - main(n - 1), 2) / 95" "def main(n): if n == 0: return 0.01 elif n == 1: return -0.58 elif n >= 2: return pow(main(n - 1), 2) + pow(main(n - 2), 3) + main(n - 2)" "def f(n): if n == 0: return -0.1 elif n == 1: return 0.96 else: return f(n - 2) ** 2 - f(n - 1) / 24 def main(n): return f(n)" "def main(n): if n == 0: return 0.08 elif n == 1: return 0.67 elif n >= 2: return abs(1 - 37 * main(n - 1) - main(n - 2) ** 3 / 2) / 91" "import math def main(n): if n == 0: return 0.03 elif n == 1: return -0.76 else: return 1 + (84 * main(n - 1) - main(n - 2) ** 2 - 72 * main(n - 1) ** 3) / 39" "def main(n): return f(n) def f(n): if n == 0: return 0.36 if n == 1: return -0.19 if n >= 2: return (f(n - 2) ** 3 / 69 - f(n - 1) / 58 - 1) ** 3" "def main(n): if n == 0: return -0.6 elif n >= 1: return 1 + 45 * main(n - 1) + main(n - 1)" "def main(n): if n == 0: return 0.88 elif n >= 1: return main(n - 1) ** 2 - main(n - 1) / 77" "def main(n): result = 0 result += n if n == 0: return 0.1 elif n >= 1: return main(n - 1) ** 3 / 93 + main(n - 1)" "import math def main(n): fn = 0 fn += n if n == 0: return 0.36 elif n == 1: return -0.91 elif n >= 2: return main(n - 2) + math.sin(main(n - 1)) ** 3 return exp_fn" "from math import atan def main(n): a = -0.65 if n == 0: return a elif n >= 1: fn = main(n - 1) return fn + atan(fn) ** 3" "def main(n): if n >= 1: return main(n - 1) ** 2 - 1 - (main(n - 1) ** 2 / 16) ** 3 / 23 elif n == 0: return -0.57" "import math def main(n): if n == 0: return 0.6 elif n == 1: return 0.5 elif n >= 2: a = math.atan(87 * main(n - 1) + main(n - 2)) return main(n - 2) ** 2 - a / 46 - 1" "import math def main(n): if n == 0: return -0.54 if n >= 1: return main(n - 1) - main(n - 1) ** 3 - 1" "def main(n): if n == 0: return -0.53 elif n >= 1: return (main(n - 1) ** 3 / 35 - main(n - 1) - 1) ** 3" "def main(n): if n == 0: return -0.3 elif n == 1: return 0.13 else: return main(n - 1) - 11 * main(n - 2) ** 3" "from math import sin as sin def main(n): if n == 0: return -0.84 if n == 1: return -0.6 else: return main(n - 2) ** 2 - 1 - sin(main(n - 1) ** 3 - main(n - 2) - 1)" "import math def main(n): if n == 0: return -0.4 elif n >= 1: return main(n - 1) ** 2 - 1 - 96 * math.tan(main(n - 1) ** 3 / 17) ** 3" "def main(n): if n == 0: return 0.9 if n >= 1: return 1 - pow(main(n - 1), 3) - pow(main(n - 1), 2)" "def f(n): if n == 0: return 0.91 elif n >= 1: return f(n - 1) / 49 - f(n - 1) ** 2 - 0.02 def main(n): return f(n)" "def main(n): if n == 0: return 0.07 return 51 * main(n - 1) ** 6 + main(n - 1) + main(n - 1) ** 2" "import math def main(x): a = -0.24 b = 0.23 if x == 0: return a elif x == 1: return b elif x >= 2: for i in range(2, x + 1): f = a ** 2 + math.tan(b) + a ** 3 a = b b = f return f" "import math def main(n): f = 0.52 for i in range(n): f = (f ** 2 - 0.2) ** 3 - f ** 2 - f return f" "import math def main(n): if n == 0: return 0.26 if n == 1: return -0.63 if n >= 2: return main(n - 2) - math.sin(main(n - 1) ** 2) ** 2" "import math def main(n): if n == 0: return 0.03 elif n >= 1: return (0.03 + main(n - 1) ** 2) ** 3 + main(n - 1) ** 4 + main(n - 1) / 74" "import math def main(n): if n == 0: return 0.57 elif n == 1: return 0.4 elif n >= 2: return math.ceil(main(n - 2)) - main(n - 2) ** 2 - math.exp(main(n - 1) ** 3 - 20 * main(n - 2) ** 2 - 71) ** 3" "from math import log2 def main(n): if n == 0: return -0.67 elif n >= 1: return log2(main(n - 1) ** 2 + 46 + main(n - 1) ** 3) ** 2" "def main(n): if n == 0: return -0.58 else: return 79 * main(n - 1) - (main(n - 1) / 97 - 58)" "def main(n): if n == 0: return 0.99 elif n >= 1: return 42 * (main(n - 1) / 70) + (main(n - 1) ** 2 - 1) ** 3" "import math def main(n): if n == 0: return -0.3 elif n == 1: return -0.06 elif n >= 2: return 1 - math.atan(main(n - 1) ** 3 + 28 + 50 * main(n - 2) ** 2) ** 2 - 71 * main(n - 2)" "def main(n: int): if n == 0: return -0.72 elif n == 1: return -0.66 elif n >= 2: return main(n - 1) + 35 * (main(n - 2) / 51) ** 2" "import math def main(n): if n == 0: return 0.15 elif n == 1: return 0.92 else: return math.pow(main(n - 2), 3) - main(n - 1) - 1" "import math def main(n): if n == 0: return 0.24 elif n == 1: return 0.71 elif n >= 2: return math.tan(main(n - 2) + main(n - 2) ** 2) ** 2 / 28 + 47 + math.atan(76 + main(n - 2) ** 2 + 6 * main(n - 1)) ** 3" "import math def main(n): if n == 0: return -0.96 if n == 1: return 0.83 else: promRes = main(n - 2) + 67 * pow(main(n - 1), 2) + 58 * pow(main(n - 1), 3) res = 50 * pow(math.log10(promRes), 3) - 1 return res" "import math def main(n): f = [0.79] for i in range(1, n + 1): f.append(f[i - 1] - math.cos(f[i - 1] ** 2 + 30 + f[i - 1] ** 3) ** 2) return f[n]" "import math def main(n): if n == 0: f = -0.95 return f if n >= 1: f = main(n - 1) ** 3 / 41 + math.floor(main(n - 1)) return f" "import math def main(n): if n == 0: return 0.79 if n >= 1: return math.sin(48 * main(n - 1) + main(n - 1) ** 2) ** 2" "import math def main(n): if n == 0: return -0.02 if n == 1: return -0.6 else: return 96 * math.log(main(n - 1) ** 2 + main(n - 2) ** 3) ** 2 + 1" "import math def main(n): if n == 0: return 0.03 else: result = math.exp(main(n - 1) + main(n - 1) ** 2 / 54 + 50 * main(n - 1) ** 3) ** 3 / 44 return result" "from math import cos def main(n): if n == 0: return 0.23 if n >= 1: return pow(cos(main(n - 1) ** 2 - main(n - 1)), 3) + 1" "import math def main(n): f = [-0.46, 0.14] for i in range(2, n + 1): f.append(1 + math.sqrt(33 + 20 * f[i - 1] + f[i - 2] ** 3)) return f[n] main(4)" "import math def main(n): if n == 0: return 0.23 else: return 0.01 - pow(math.tan(main(n - 1)), 3) - math.cos(main(n - 1))" "import math def main(n): if n == 0: return -0.35 elif n == 1: return 0.03 elif n >= 2: return 4 * main(n - 2) - math.exp(2 * main(n - 1)) - 1" "import math def main(n): if n == 0: return 0.43 elif n == 1: return 0.72 elif n >= 2: return math.pow(math.sin(44 * pow(main(n - 2), 3)), 2) - math.pow(math.sin(main(n - 1)), 3) main(9)" "import math def main(n): if n == 0: return -0.77 elif n >= 1: a = pow(main(n - 1), 2) return main(n - 1) + 88 * pow(math.log(19 * main(n - 1) + 60 * a + 1, 2), 3) + 58" "import math def main(n): if n == 0: return -0.95 if n >= 1: return 1 + (main(n - 1) ** 3 - main(n - 1) ** 2 / 17) ** 2 / 91" "import math def main(n): if n == 0: return 0.45 elif n >= 1: return 0.01 - pow(math.sqrt(1 - pow(main(n - 1), 2) / 5), 3)" "import math def main(n): if n == 0: return 0.81 if n == 1: return 0.8 if n >= 2: return main(n - 1) ** 2 - math.sin(0.01 + main(n - 2) ** 2) ** 3" "def main(n): if n >= 1: return pow(main(n - 1), 3) - pow(main(n - 1), 2) else: return -0.61" "def main(n): if n == 0: return 0.35 elif n >= 1: n = main(n - 1) + main(n - 1) ** 2 / 47 return n" "def main(n): if n == 0: return 0.97 elif n >= 1: return main(n - 1) - (main(n - 1) ** 2 / 56) ** 2" "import math def main(n): if n == 0: return 0.88 elif n == 1: return 0.0 elif n >= 2: return math.cos(main(n - 1) ** 3 - 44 - 50 * main(n - 2) ** 2) ** 3 / 61 - 1" "def main(n): if n == 0: return -0.71 return main(n - 1) - main(n - 1) ** 3 * 2" "import math def main(n): res = float if n == 0: return -0.07 else: return 0.01 + math.cos(44 * main(n - 1) ** 3 - 69 * main(n - 1)) ** 3 + math.sin(main(n - 1))" "def main(n): if n == 0: return 0.77 elif n >= 1: return pow(main(n - 1), 2) - 1 - main(n - 1)" "def main(n): if n == 0: return 0.64 if n == 1: return 0.97 if n >= 2: return (3 * main(n - 2) ** 2 - main(n - 1)) / 98 - main(n - 2) ** 3 - main(n - 2) ** 2" "import math def main(n): if n == 0: return 0.33 if n == 1: return -0.66 if n >= 2: return 16 * main(n - 2) - 63 * main(n - 1)" "import math def main(n): if n == 0: return -0.2 elif n >= 1: return pow(math.asin(main(n - 1)), 3) - main(n - 1) / 66" "from math import * def main(n): if n == 0: f = 0.75 elif n == 1: f = -0.92 elif n >= 2: f = 59 + tan(main(n - 1)) ** 3 + sin(main(n - 2)) return f" "import math def main(n): if n == 0: n = 0.8 elif n >= 1: n = 56 * math.pow(math.pow(main(n - 1) / 52, 2), 3) - main(n - 1) return n" "def main(n): if n == 0: return -0.23 elif n == 1: return -0.88 elif n >= 2: return main(n - 1) ** 2 - main(n - 2) ** 3" "import math def main(n): if n == 0: return 0.4 elif n == 1: return -0.97 else: ans = 92 * main(n - 2) ans -= math.atan(main(n - 1) ** 2 + main(n - 2) ** 3) ** 2 return ans" "from math import * def main(n): if n == 0: return 0.63 elif n == 1: return -0.91 elif n >= 2: return 1 - main(n - 2) ** 3 - main(n - 1) ** 2" "import math def main(number: int) -> float: if number == 0: return 0.93 if number == 1: return 0.03 if number >= 2: return math.cos(48 * main(number - 1) - main(number - 2) ** 2 - 21) ** 2 main(5)" "import math def main(x): if x == 0: return 0.96 elif x == 1: return -0.42 else: res = (main(x - 2) ** 2 / 82 + 1) / 15 + math.log(main(x - 1) ** 2) ** 3 + 1 return res" "def main(n): return f(n) def f(n): if n == 0: return 0.87 else: return 1 - f(n - 1) ** 3 - f(n - 1) ** 2" "import math def main(n): if n == 0: return 0.27 else: return math.log10(main(n - 1)) ** 2 - main(n - 1) / 91" "import math def main(n): if n == 0: res = 0.22 elif n >= 1: res1 = math.atan(main(n - 1)) res2 = abs(main(n - 1) ** 2 - 69 * main(n - 1) ** 3 - main(n - 1) / 60) ** 3 res = res1 - res2 return res" "import math def main(n): if n == 0: return 0.36 elif n == 1: return -0.21 else: return main(n - 1) / 17 + pow(main(n - 2), 2) + pow(math.sin(main(n - 1)), 3)" "def main(n): if n == 0: return 0.83 if n == 1: return 0.08 else: return 0.25 + 26 * main(n - 2) + 24 * main(n - 1)" "import math def main(n): if n == 0: return -0.48 if n >= 1: return 64 * main(n - 1) ** 2 / 81 + main(n - 1) ** 3 / 86 + main(n - 1) ** 2" "import math def main(n): return f(n) def f(n): if n == 0: return -0.32 return math.ceil(62 * f(n - 1) ** 2 + f(n - 1)) / 59 - 1 - f(n - 1) ** 2" "def func(n): if n == 0: return -0.52 elif n >= 1: return (func(n - 1) ** 2 + func(n - 1) ** 3 + func(n - 1)) / 26 def main(x): res = func(x) return res" "import math def main(n): f0 = 0.84 if n == 0: return f0 elif n >= 1: fn = main(n - 1) f = 1 - 10 * (fn - fn ** 2) ** 2 - fn return f" "import math def main(n): if n == 0: return -0.15 else: return 99 * math.log10(main(n - 1) ** 3 - 24 * main(n - 1)) ** 3" "import math def main(n): f0 = 0.09 fn = f0 if n == 0: return f0 elif n >= 1: for i in range(1, n + 1): a = math.asin(fn ** 2 / 48) ** 3 b = abs(40 * fn ** 3 - 45 * fn) / 63 f = a - b fn = f return f" "def main(n): if n == 0: return -0.23 else: return 10 * main(n - 1) - 50 * main(n - 1) - 9" "import imp from math import cos def main(n): arr = [0.87, 0.81] for i in range(2, n + 1): arr.append(arr[i - 2] ** 3 / 13 + cos(arr[i - 2] ** 3 - arr[i - 1] ** 2 / 96 - arr[i - 2] / 10) / 60 + 0.01) return arr[n]" "def main(n): if n == 0: return 0.44 return (1 + main(n - 1)) ** 3 / 37 - main(n - 1) ** 2 / 61" "import math def main(n): if n == 0: return -0.13 elif n >= 1: return math.sqrt(47 * main(n - 1) ** 2 - main(n - 1))" "import math def main(n): if n == 0: return 0.57 if n == 1: return 0.02 if n >= 2: return main(n - 1) ** 3 - 18 * (main(n - 1) ** 3 - main(n - 1) ** 2) ** 2 - math.atan(main(n - 2)) / 41" "import math def main(n): if n == 0: return -0.85 elif n >= 1: return main(n - 1) ** 2 - main(n - 1) / 24" "import math def main(n): if n == 0: return -0.9 elif n >= 1: return math.sin(main(n - 1)) ** 2 - 0.09 - (1 - main(n - 1) / 30 - main(n - 1) ** 2)" "def main(n): if n == 0: return -0.8 elif n == 1: return 0.18 else: return main(n - 2) + 1 + main(n - 1) ** 2" "import math as m def main(n): match n: case 0: return 0.95 case 1: return -0.88 case _: return main(n - 2) / 64 - 25 * m.asin(main(n - 1) ** 2 + main(n - 1) ** 3) ** 2" "def f(n): if n == 0: return 0.5 elif n == 1: return 0.32 elif n >= 2: return 1 - f(n - 1) - f(n - 2) ** 3 def main(n): return f(n)" "from math import sin def main(n): if n == 0: return -0.41 elif n == 1: return -0.43 else: ans = 0.01 ans -= sin(main(n - 1)) ** 3 / 43 ans -= 24 * main(n - 2) return ans" "import math def main(n): if n == 0: return -0.71 elif n == 1: return -0.3 else: ans = main(n - 1) / 91 ans -= math.atan(main(n - 2) ** 3 / 69) ** 3 ans -= 1 return ans" "import math def main(n): if n == 0: return 0.49 if n == 1: return -0.68 if n >= 2: return main(n - 2) + math.sin(main(n - 1)) ** 3 / 55" "import math def main(n): if n == 0: return -0.97 elif n >= 1: return main(n - 1) + main(n - 1) ** 3 / 6 + 1" "import math def main(n): if n == 0: return 0.59 if n >= 1: return main(n - 1) / 12 - math.ceil(main(n - 1)) ** 3 / 57" "def main(n): if n == 0: return -0.77 if n == 1: return -0.74 return (68 * main(n - 2) ** 2 - main(n - 1) - 56 * main(n - 2) ** 3) / 99" "def main(n): if n == 0: return -0.45 elif n == 1: return -0.76 elif n >= 2: return main(n - 1) - pow(main(n - 2), 3) / 50" "import math as m def main(n): if n == 0: f = -0.3 if n == 1: f = 0.95 if n >= 2: f = 1 + m.log(main(n - 1)) / 32 + 49 * (main(n - 2) ** 3 / 66) ** 3 return f" "def main(n): if n == 0: return -0.77 return 1 + main(n - 1) + (main(n - 1) ** 3 / 43 - 1) ** 3" "def main(n): if not n: return 0.5 else: return main(n - 1) ** 2 - 0.07 - main(n - 1) ** 3 main(6) '\n'" "def handle_f(n): if n == 0: return -0.22 if n >= 1: return handle_f(n - 1) ** 2 - 1 - int(handle_f(n - 1)) def main(n): return handle_f(n)" "import math def main(n): if n == 0: return 0.13 else: return 73 * math.pow(math.exp(1 - math.pow(main(n - 1), 2)), 2) + 89 + main(n - 1)" "def main(n): if n == 0: return -0.46 if n >= 1: return (main(n - 1) ** 2 - 15 - 29 * main(n - 1) ** 3) / 24 main(2) main(3)" "import math def main(n): if n == 0: return -0.1 elif n == 1: return 0.81 return main(n - 1) + math.tan(main(n - 2)) ** 3" "import math def main(n): if n == 0: return -0.87 elif n == 1: return 0.5 elif n >= 2: return pow(main(n - 2), 3) + pow(math.ceil(main(n - 1)), 2)" "import math def main(n): if n == 0: return 0.05 if n == 1: return 0.98 if n >= 2: return 36 - main(n - 1) - math.cos(main(n - 2)) ** 3 return Null" "import math def main(n): if n == 0: return 0.21 if n >= 1: ans = main(n - 1) + 1 ans += math.atan(main(n - 1)) ** 3 return ans" "import math def main(n): if n == 0: return 0.76 if n == 1: return -0.5 if n >= 2: return main(n - 1) / 31 - 1 - pow(main(n - 2), 2) / 45" "def main(n): if n == 0: q = -0.69 if n >= 1: w = (main(n - 1) ** 3 / 81) ** 2 e = (76 * main(n - 1) ** 3 - 1) / 42 q = w - e return q" "def main(n): if n == 0: return -0.15 if n >= 1: return 6 * main(n - 1) ** 2 + main(n - 1) / 36" "import math def main(n): if n == 0: return -0.14 else: return (42 + math.pow(main(n - 1), 2) + main(n - 1)) / 80" "import math def main(n): if n == 0: return -0.3 if n == 1: return 0.47 if n >= 2: return 1 - (14 * main(n - 2) ** 2 + main(n - 1) / 14) ** 2 / 99" "import math def main(n): if n == 0: return -0.79 if n == 1: return -0.09 t1 = 58 * (pow(main(n - 1), 2) - pow(main(n - 1), 3)) t2 = pow(math.tan(pow(main(n - 2), 2)), 2) return t1 - 28 * pow(main(n - 1), 3) - t2" "import math def main(n): if n == 0: return 0.73 else: return math.cos(main(n - 1) ** 2 - 89 - 35 * main(n - 1) ** 3) ** 3" "from math import sqrt def main(n): if n == 0: return 0.6 elif n == 1: return 0.58 elif n >= 2: return pow(abs(main(n - 1)), 3) + sqrt(main(n - 2)) / 30" "def main(n): f0 = 0.03 if n == 0: return f0 elif n >= 1: fn = main(n - 1) return (36 * fn ** 3 - fn - 1) / 80 + (46 * fn ** 3) ** 2 / 49" "from math import * def main(n): if n == 0: return -0.48 else: return 81 + cos(main(n - 1) / 50) ** 3 / 92 + main(n - 1)" "from math import * def main(n): if n == 0: return 0.04 elif n == 1: return 0.27 else: return main(n - 1) ** 2 - 1 - main(n - 2)" "def main(n): if n == 0: return 1.0 else: return 51 + 78 * main(n - 1) + main(n - 1)" "import math def main(n): if n >= 1: return math.asin(main(n - 1)) ** 2 + main(n - 1) elif n == 0: return 0.07" "import math def main(n): if n >= 1: return main(n - 1) - 22 * main(n - 1) ** 3 else: return -0.07" "import math def main(n): if n == 0: return -0.43 elif n == 1: return 0.99 else: return main(n - 1) ** 3 - math.exp(main(n - 2) - 1 - 30 * main(n - 1) ** 3) ** 2 - 0.01" "def main(n): if n == 0: return -0.16 if n == 1: return -0.59 else: return main(n - 1) ** 3 - main(n - 2) ** 2" "import math def main(n): if n == 0: return 0.97 elif n >= 1: chisl1 = math.sin(33 * main(n - 1)) chisl2 = math.tan(43 * main(n - 1) ** 3 + main(n - 1) + main(n - 1) ** 2) ** 2 chast1 = chisl1 / 70 chast2 = chisl2 / 76 return chast1 - chast2" "import math def main(n): if n == 0: return -0.0 elif n == 1: return 0.32 elif n >= 2: a = math.log(main(n - 1)) ** 2 + 54 * main(n - 2) + 0.04 return a" "from math import * def main(n): if n == 0: return 0.84 elif n == 1: return -0.81 elif n >= 2: return atan(main(n - 2) ** 3 + 31 * main(n - 1) ** 2 + 97 * main(n - 2)) ** 3" "from math import asin def main(n): if n == 0: return 0.62 elif n == 1: return 0.5 elif n >= 2: return asin(main(n - 2)) - (main(n - 1) ** 3 + 0.03 + main(n - 1) ** 2) ** 2" "import math from math import * def main(x): if x == 0: return 0.95 elif x == 1: return 0.36 else: return (95 * main(x - 1) ** 3 - 24 - main(x - 2) ** 2) / 46 + main(x - 2) ** 3" "import math def main(n): if n == 0: return 0.09 if n >= 1: return 32 - 9 * math.sqrt(34 - main(n - 1)) - main(n - 1)" "import math def main(n): if n == 0: result = 0.16 elif n >= 1: f = main(n - 1) result = 1 - 59 * math.log2(87 * f ** 2 + 73 * f + 1) ** 2 return result" "import math def main(n): if n == 0: return -0.3 else: return 0.14 - main(n - 1) - math.exp(main(n - 1) ** 2) ** 3 / 79" "import math def main(n): if n == 0: return -0.35 elif n == 1: return 0.18 elif n >= 2: return 1 - math.asin(main(n - 2) ** 2 / 97) - main(n - 1) ** 2" "def f(n): if n == 0: return -0.69 if n == 1: return -0.07 if n >= 2: return f(n - 2) ** 2 / 43 + 6 * f(n - 1) def main(n): return f(n)" "def main(n): if n == 0: return -0.09 if n == 1: return -0.22 if n >= 2: return pow(main(n - 2), 2) + 9 * main(n - 1) + 27" "from math import log2 def main(n): if n == 0: return 0.68 elif n == 1: return -0.23 else: return log2(98 * main(n - 1) ** 2 + 28) ** 3 - 13 * abs(main(n - 2))" "def main(n): if n == 0: return -0.26 elif n == 1: return -0.02 elif n >= 2: return main(n - 1) + main(n - 2) ** 3 / 27" "def main(n): if n == 0: return -0.44 if n == 1: return -0.96 if n >= 2: return main(n - 1) + 1 + 20 * main(n - 2) ** 2" "import math def main(n): if n >= 2: return 1 - (13 * main(n - 1) ** 2 - 23 * main(n - 1) ** 3) / 78 - math.log(38 * main(n - 2) ** 2) ** 3 / 57 elif n == 0: return 0.18 elif n == 1: return -0.9" "import math def main(n): if n == 0: return 0.05 elif n >= 1: return 1 - math.pow(math.sin(math.pow(main(n - 1), 3)), 3) / 47 - math.pow(main(n - 1), 2)" "import math def main(n): if n == 0: return -0.51 return main(n - 1) - 0.02 - 98 * math.log(95 * main(n - 1) ** 2, 2) ** 2" "import math def main(n): if n == 0: return 0.81 elif n >= 1: return math.sin(main(n - 1)) ** 3 - 9 * main(n - 1)" "import math def main(n): if n == 0: return 0.78 elif n == 1: return 0.83 elif n >= 2: return math.asin(main(n - 2) / 87 + main(n - 1) ** 2) ** 3 - main(n - 1) - 0.03" "def main(n): if n == 0: return -0.2 if n == 1: return -0.51 else: return main(n - 1) ** 3 + main(n - 2) ** 2 + main(n - 2) ** 2 / 85" "def main(n): if n == 0: return 0.06 elif n >= 1: return main(n - 1) ** 2 + 4 + 96 * main(n - 1) - main(n - 1) ** 2" "from math import * def main(n): if n == 0: return -0.05 elif n >= 1: return pow(cos(main(n - 1)), 2) - main(n - 1)" "import math def main(x): if x == 0: return 0.58 elif x == 1: return -0.31 elif x >= 2: return 9 * math.atan(main(x - 1)) ** 3 + math.tan(main(x - 2))" "import math def main(n): if n == 0: return -0.6 if n == 1: return 0.36 return (1 - main(n - 2) ** 2) ** 3 - math.tan(main(n - 1))" "def main(n=3): if n == 0: return -0.26 elif n == 1: return -0.9 elif n >= 2: return main(n - 1) + 60 * (main(n - 1) ** 3 / 30 + main(n - 2) ** 2 / 7) ** 3" "import math def main(n): if n == 0: return 0.67 elif n >= 1: return math.log(28 * main(n - 1) ** 3 + 14 + main(n - 1) ** 2) ** 3" "import math def main(n): if n == 0: return 0.05 else: str1 = main(n - 1) / 20 str2 = math.pow(main(n - 1), 3) return str1 + str2 + 0.05" "from math import sin def main(n): if n == 0: return 0.36 elif n >= 1: return sin(main(n - 1)) ** 2 / 66 + main(n - 1) ** 3 + abs(main(n - 1))" "def main(n): if n == 0: return -0.09 elif n == 1: return -0.7 elif n >= 2: return main(n - 2) ** 4 - main(n - 1) ** 3 - 1" "import math def main(n): if n == 0: return 0.0 if n >= 1: x1 = 0.05 x2 = math.exp(main(n - 1)) ** 3 x3 = main(n - 1) ** 2 / 33 return x1 - x2 - x3" "import math def main(n): s = 0 if n == 0: return -0.19 if n >= 1: n = n - 1 s += 0.07 + main(n) + math.pow(main(n), 3) return s" "import math def main(n): if n == 0: return 0.45 if n == 1: return -0.89 if n >= 2: return math.atan(main(n - 2)) ** 3 / 15 + (main(n - 1) ** 3 / 62 - main(n - 1) ** 2 / 65 - main(n - 1)) ** 2" "import math def main(n): if n == 0: return 0.9 if n >= 1: v = 1 + main(n - 1) / 46 z = 21 * main(n - 1) ** 2 y = math.log(v + z) ** 2 - 1 return y" "def main(n): LN = list(range(1, n + 1)) res = 0 if n == 0: res = 0.45 elif n >= 1: for j in LN: if j == 1: res = 0.45 rab = 1 - res - pow(res, 3) res = 1 + pow(rab, 3) / 23 return res" "import math def main(*args): n = args[0] if n == 0: f = 0.21 if n >= 1: f = 3 * (main(n - 1) / 76) ** 3 + math.atan(main(n - 1)) return f" "def main(*args): n = args[0] if n == 0: f = -0.21 if n >= 1: z = (1 - main(n - 1) ** 2 - 89 * main(n - 1) ** 3) ** 2 / 39 v = main(n - 1) / 76 f = z - v return f" "from math import exp def main(n): if n == 0: return -0.86 elif n >= 1: return exp(main(n - 1)) / 59 + main(n - 1) ** 2" "import math def main(n): if n == 0: return 0.33 elif n >= 1: return main(n - 1) / 8 + 72 + math.pow(math.log(main(n - 1), 10), 3)" "def main(n): from math import asin if n == 0: return 0.4 elif n == 1: return 0.58 else: return main(n - 1) - asin(main(n - 2)) ** 3" "import math def main(n): if n == 0: return 0.88 if n == 1: return 0.55 if n >= 2: return math.ceil(main(n - 2)) ** 3 / 81 + math.cos(main(n - 1) ** 3 - 1)" "import math def main(n): if n == 0: return 0.14 elif n == 1: return -0.33 else: ans_1 = main(n - 1) ** 2 / 46 ans_2 = main(n - 2) ** 3 ans = ans_1 + ans_2 + main(n - 2) + ans_2 return ans" "import math from math import log def main(n): if n >= 1: return 5 * math.log(1 + 75 * main(n - 1) ** 2 + 14 * main(n - 1)) else: return -0.47" "from math import tan def main(n): if n == 0: return 0.67 elif n == 1: return 0.84 else: return tan(main(n - 1) ** 2 + 80 * main(n - 2) + main(n - 1) ** 3 / 20) ** 3" "def main(*args): n = args[0] if n == 0: f = 0.56 elif n == 1: f = -0.27 elif n >= 2: f = 3 * main(n - 1) ** 2 + main(n - 2) ** 3 return f" "import math def main(n): if n == 0: return 0.53 elif n == 1: return 0.24 elif n >= 2: return 31 + math.log(main(n - 2)) ** 2 + main(n - 1)" "import math def main(n): if n == 0: return 0.09 if n == 1: return 0.23 if n >= 2: return 1 - main(n - 2) / 46 - math.log2(88 - main(n - 1) - 44 * main(n - 2) ** 3) ** 2" "import math def main(n): if n == 0: return 0.45 elif n == 1: return -0.07 elif n >= 2: det = (1 - 12 * main(n - 2) ** 2 - main(n - 1)) / 53 return det" "import math def main(n): if n == 0: return 0.75 elif n >= 1: ans = main(n - 1) ans -= main(n - 1) ** 2 / 23 return ans" "def main(n): if n == 0: return -0.54 elif n == 1: return 0.09 elif n >= 2: return 1 - (1 + main(n - 2) / 40 + 54 * main(n - 1) ** 3) / 59 - main(n - 1) ** 4" "def main(n): if not n: return -0.16 elif n >= 1: prev = main(n - 1) return prev ** 3 - 1 - prev" "from math import * def main(n): if n == 0: f = 0.67 return f elif n == 1: f = 0.52 return f elif n >= 2: f = 11 * pow(main(n - 2), 2) + 0.02 + main(n - 1) return f" "from math import atan def main(n): if n == 0: return -0.95 elif n >= 1: return main(n - 1) + atan(main(n - 1)) ** 2 + 1" "def main(n): if n == 0: return 0.27 if n == 1: return 0.48 if n >= 2: return main(n - 2) ** 2 / 57 + 24 * main(n - 1)" "import math def main(n): if n == 0: return -0.27 elif n == 1: return 0.07 else: ans = 41 * abs(main(n - 1)) ** 3 ans += 0.01 ans += main(n - 2) ** 2 / 74 return ans" "def main(n): if n == 0: return 0.72 return 1 - main(n - 1) ** 2 - main(n - 1) / 96" "def main(n): if n == 0: return -0.22 if n == 1: return -0.37 return 1 - main(n - 1) ** 3 - main(n - 2) ** 2 / 40" "import math def main(n): if n == 0: return -0.26 return 1 - math.cos(main(n - 1) ** 3 / 43 - 76 * main(n - 1) ** 2)" "def main(n): res = 0 if n == 0: res = -0.62 elif n == 1: res = -0.6 elif n >= 2: res = main(n - 1) ** 2 + main(n - 2) ** 3 / 44 + 1 + main(n - 2) return res" "def main(n): if n == 0: return 0.63 elif n == 1: return 0.01 elif n >= 2: return main(n - 1) ** 2 + main(n - 2) / 44 + 1" "import math def main(n): if n == 0: return -0.6 elif n == 1: return pow(main(n - 1), 3) + 0.01 elif n >= 1: return math.ceil(main(n - 1)) / 25 + pow(main(n - 1), 3) + 0.01" "def main(n): import math if n == 0: return -0.94 elif n == 1: return -0.14 elif n >= 2: return math.exp(1 - 65 * main(n - 1) ** 2 - main(n - 2)) ** 3 / 66" "import math def main(n): f = 0 if n == 0: return 0.64 elif n >= 1: f = math.cos(main(n - 1) ** 3 + 0.25 + main(n - 1) / 61) ** 3 return f" "import math def main(n): f = 0.44 for n in range(1, n + 1): f = 1 - f ** 3 / 15 - math.atan(f) ** 2 return f main(4)" "def main(n): f = [i for i in range(0, n + 1)] f[0] = 0.93 for i in range(1, n + 1): f[i] = f[i - 1] - f[i - 1] ** 3 - 1 if n == 0: return f[0] elif n >= 1: return f[n]" "from math import * def main(n): if n == 0: return -0.1 else: return 46 * main(n - 1) ** 3 + 0.03 + 35 * tan(main(n - 1) ** 3 / 73)" "import math def main(n): if n == 0: return 0.26 elif n == 1: return 0.17 z = 1 - 11 * math.log2(main(n=n - 2) + 46 * main(n=n - 1) ** 2) ** 3 return z" "import math def main(n): f = 0 if n == 0: return -0.26 elif n >= 1: f = main(n - 1) ** 2 / 39 - main(n - 1) / 31 return f" "from math import * def main(n): if n == 0: return -0.12 elif n == 1: return 0.16 else: return tan(main(n - 1) ** 3) - (main(n - 2) ** 3 + main(n - 1)) ** 3 - main(n - 2) ** 2" "import math def main(n): if n == 0: return -0.89 if n >= 0: return main(n - 1) + 74 * math.atan(main(n - 1)) ** 3 else: quit()" "import math def main(n): if n == 0: return 0.77 if n == 1: return 0.06 if n >= 2: return 60 + math.atan(main(n - 1)) ** 2 + main(n - 2)" "def main(n): if n == 0: return 0.82 else: return main(n - 1) ** 2 + 0.01 + 58 * int(main(n - 1))" "import math def main(n): if n == 0: return -0.87 if n == 1: return -0.41 if n >= 2: f1 = (1 - main(n - 2) ** 2) / 72 f2 = math.ceil(main(n - 2) ** 3 / 20 - 1 - main(n - 1) ** 2 / 78) ** 3 return f1 - f2" "import math def main(n): if n == 0: return 0.91 elif n >= 1: return math.sin(main(n - 1)) ** 3 - 4 - math.exp(9 * main(n - 1))" "import math def main(n): if n == 0: return -0.89 if n == 1: return 0.68 if n >= 2: return math.tan(main(n - 2)) ** 3 / 63 + math.asin(main(n - 1)) ** 2" "def main(n): if n == 0: return 0.68 elif n == 1: return -0.02 else: return 12 * main(n - 2) ** 2 - 0.03 - main(n - 1)" "def main(n): if n == 0: return 0.11 elif n == 1: return -0.88 elif n >= 2: return main(n - 2) + (main(n - 1) ** 2 / 43 - main(n - 1) ** 3) ** 2" "import math as m def main(n): if n == 0: return -0.6 elif n == 1: return -0.1 elif n >= 2: r = m.floor(main(n - 2)) ** 3 + m.sin(1 + main(n - 1) ** 2 + 75 * main(n - 2)) return r" "def main(n): if n == 0: return 0.12 elif n == 1: return -0.31 elif n >= 2: return (main(n - 2) ** 3 + main(n - 1) ** 2 + 40 * main(n - 1)) / 80" "from math import exp def fun(n): if n == 0: return 0.96 elif n == 1: return 0.02 elif n >= 2: return exp(fun(n - 1)) ** 2 / 24 - fun(n - 2) def main(n): return fun(n)" "import math def main(n): if n == 0: return 0.68 elif n == 1: return -0.19 elif n >= 2: return 1 - math.asin(main(n - 1) ** 2) ** 3 - main(n - 2) ** 2" "import math def main(n): if n == 0: return 0.63 if n >= 1: return 1 + math.atan(62 * main(n - 1) - 1 - main(n - 1) ** 3) + 78 * math.atan(main(n - 1)) ** 2" "import math as m def main(n): if n == 0: return 0.15 else: return m.sin(main(n - 1)) + (main(n - 1) ** 3 - 0.01) ** 3 + main(n - 1) ** 2" "def f(n): if n == 0: return -0.09 else: return f(n - 1) ** 3 / 86 - f(n - 1) / 8 def main(n): return f(n)" "import math def main(n): if n == 0: return 0.95 if n >= 1: return math.log(12 * main(n - 1) ** 3, 10) ** 2 / 83 + 16" "from math import ceil def main(n): arr = [-0.43, -0.69] for i in range(2, n + 1): arr.append((arr[i - 2] ** 2 / 44 - 4) / 44 - 1 - ceil(arr[i - 1] ** 3 / 49 + arr[i - 2] ** 2) ** 2 / 85) return arr[n]" "from math import * def main(n): if n == 0: return 0.82 elif n == 1: return -0.1 elif n >= 2: a = main(n - 2) b = main(n - 1) return ceil(a ** 3 + b) + tan(b - 1) ** 3 / 78" "def main(x): if x == 0: return -0.19 else: return 1 - pow(main(x - 1), 6) / 83 - main(x - 1)" "import math def main(n): if n == 0: return 0.02 if n == 1: return 0.56 if n >= 2: x1 = main(n - 1) ** 3 + main(n - 2) ** 2 return x1" "def main(n): if n == 0: return -0.56 elif n == 1: return 0.09 elif n >= 2: return main(n - 1) ** 3 - main(n - 2) ** 2 / 65 - main(n - 1)" "import math def func(n): a = 0 if n >= 0 and a < n: return pow(math.atan(19 * pow(func(n - 1), 3)), 2) / 72 - func(n - 1) / 66 else: return 0.81 def main(a): return func(a)" "import math def main(n): if n == 0: return 0.3 elif n >= 1: return 91 * math.log(90 * main(n - 1) + main(n - 1) ** 3, 2)" "import math def main(n): res = float if n == 0: res = -0.96 elif n == 1: res = -0.46 elif n >= 2: res = main(n - 2) ** 3 + main(n - 1) ** 2 return res" "import math def main(n): if n == 0: return -0.97 elif n == 1: return 0.19 else: return 1 - (main(n - 2) ** 2 - 1) / 12 - math.ceil(main(n - 1)) ** 3 main(7) main(2)" "import math def main(count): ordinal = 0 prev = -0.84 if count == 0: f = prev else: ordinal += 1 f = prev if ordinal == count: f = 1 - pow(prev, 6) - pow(prev, 2) else: while ordinal <= count: safe = 1 - pow(f, 6) - pow(f, 2) f = safe ordinal += 1 return f" "import math def main(n): if n == 0: return 0.19 elif n == 1: return 0.8 elif n >= 2: ans_1 = main(n - 1) ans_2 = math.log2(main(n - 2)) ** 2 ans = ans_1 + ans_2 return ans" "import math def main(n): start = 0.32 count = 1 if n == 0: f = 0.32 else: f = start while count <= n: module = abs(f) module_ranked = pow(module, 3) ranked_func = pow(f, 2) f = module_ranked - ranked_func - 1 count += 1 return f" "import math def main(n): if n == 0: return -0.67 else: return math.asin(main(n - 1)) / 58 + math.sin(main(n - 1)) ** 3" "def main(n): if n == 0: f = 0.1 elif n >= 1: f = 1 - main(n - 1) ** 6 - main(n - 1) ** 3 return f" "def main(n): if n == 0: return 0.03 elif n >= 1: return 0.01 - 19 * (main(n - 1) ** 3 + main(n - 1) ** 2) - main(n - 1) ** 2" "from math import * def main(i): if i >= 2: return 0.25 + atan(31 * pow(main(i - 2), 3) - main(i - 1)) if i == 0: return -0.63 if i == 1: return 0.76" "from math import * def main(n): if n == 0: return -0.32 if n == 1: return 0.87 if n >= 2: return main(n - 1) ** 2 / 5 + main(n - 2) ** 3 / 19 + 1 main(9)" "import math def main(n): if n == 0: return 0.18 if n == 1: return 0.57 if n >= 2: x = main(n - 2) + math.sin(main(n - 1) ** 3 - 20 * main(n - 2)) ** 3 return x main(3)" "import math def main(n): if n == 0: return -0.21 elif n >= 1: return main(n - 1) / 57 + 34 * math.log(54 * main(n - 1) ** 2) ** 2" "import math def main(n): if n == 0: return -0.75 elif n >= 1: res_1 = math.log(67 * main(n - 1) ** 2) ** 3 res = res_1 + 1 + main(n - 1) return res" "import math def f(n): if n == 0: return -0.36 if n == 1: return 0.08 return 1 - f(n - 1) - math.tan(f(n - 2)) ** 2 def main(n): return f(n)" "import math def f(n): if n == 0: return 0.98 elif n == 1: return -0.44 elif n > 1: return math.log(19 - f(n - 1) ** 2 - f(n - 2) / 64, 10) def main(i): return f(i)" "from math import pow, atan def main(n): if n == 0: result = -0.93 elif n >= 1: result = main(n - 1) - 73 * pow(atan(pow(main(n - 1), 3) + 19), 2) return result" "import math as m def main(n): if n == 0: return 0.75 elif n == 1: return 0.96 elif n >= 2: result = 0 result += 31 * m.pow(m.atan(main(n - 1)), 2) log = m.log(32 * m.pow(main(n - 2), 3), 2) result += 36 * m.pow(log, 3) + 54 return result" "import math as m def main(n): if n == 0: return 0.37 if n == 1: return 0.73 if n >= 2: return 24 * m.log2(87 * main(n - 2) + 42 * main(n - 1) ** 2 + 1)" "import math def main(n): if n == 0: return 0.36 elif n == 1: return 0.63 else: f = 0 a = math.atan(main(n - 1) ** 3 - 1) ** 3 / 50 b = 5 * (main(n - 2) / 5 - 0.05 - main(n - 2) ** 2) f = a - b return f main(2)" "def main(n): if n == 0: return -0.36 elif n >= 1: return (1 + main(n - 1) ** 2 + main(n - 1)) ** 3 / 94 + (main(n - 1) ** 2 + main(n - 1)) ** 2" "import math def main(n): if n == 0: return -0.08 if n >= 1: return 27 * pow(math.asin(main(n - 1)), 3) - pow(math.asin(pow(main(n - 1), 3) + 6 * pow(main(n - 1), 2)), 2) - main(n - 1)" "import math def main(n): F = 0 if n == 0: F = -0.91 elif n >= 1: A = math.pow(math.fabs(main(n - 1)), 2) B = math.pow(main(n - 1), 3) - main(n - 1) - math.pow(main(n - 1), 2) F = A + math.pow(math.exp(B), 3) return F" "import math def main(n): if n == 0: return -0.29 elif n == 1: return 0.65 elif n >= 2: return 5 * math.atan(main(n - 1)) ** 2 + 49 + 85 * main(n - 2)" "import math def main(n): if n == 0: return 0.4 elif n >= 1: return math.pow(main(n - 1), 3) / 15 - 0.06 - main(n - 1)" "def main(n): arr = [-0.53, 0.66] for i in range(2, n + 1): arr.append(arr[i - 2] ** 2 + 10 * arr[i - 1]) return arr[n]" "import math def main(n): if n == 0: return -0.62 if n == 1: return -0.26 if n >= 2: return (5 * main(n - 2) - 7) / 41 + 1 + main(n - 1) ** 2" "def main(n): if n == 0: return 0.31 if n == 1: return -0.15 else: return main(n - 2) ** 2 - main(n - 1) / 61" "import math def main(n): if n == 0: return -0.77 elif n == 1: return 0.41 elif 1 < n: x1 = math.log(1 - main(n - 2) - main(n - 2) ** 2) x2 = main(n - 1) ** 2 / 70 x = x1 - x2 return x" "import math def main(n): if n == 0: return -0.99 elif n >= 1: return math.log(main(n - 1) + 92 + main(n - 1) ** 3, 10) ** 2" "def main(n): if n == 0: return -0.7 elif n == 1: return 0.13 elif n >= 2: return main(n - 2) ** 2 / 94 + 46 * main(n - 1) ** 3" "from math import * def main(n): if n == 0: return 0.35 if n == 1: return 0.87 elif n >= 2: return 25 * pow(log2(28 * pow(main(n - 2), 3) + main(n - 2) + 82 * pow(main(n - 1), 2)), 2)" "from math import log def main(n): arr = [-0.64, -0.55] for i in range(2, n + 1): arr.append(log(49 * arr[i - 1] + 96 + arr[i - 2] ** 3) ** 3 / 81) return arr[n]" "from math import tan, log def main(n): arr = [-0.15, -0.23] for i in range(2, n + 1): arr.append(tan(arr[i - 2]) ** 3 / 82 - log(0.01 - 35 * arr[i - 1])) return arr[n]" "from math import sin def main(n): arr = [-0.17, 0.18] for i in range(2, n + 1): arr.append(43 * arr[i - 2] - sin(arr[i - 1]) ** 3 - 34) return arr[n]" "def main(n): arr = [0.99] for i in range(1, n + 1): arr.append(1 - (arr[i - 1] ** 2 - 0.02) - arr[i - 1] ** 3) return arr[n]" "def main(n): if n == 0: return -0.01 elif n == 1: return 0.99 elif n >= 2: return (main(n - 2) ** 2 / 54 - 1) ** 3 + 1 + main(n - 1) ** 3 main(7)" "from math import sin def f(n): if n == 0: return 0.12 elif n >= 1: return 2 * f(n - 1) + sin(35 * f(n - 1) ** 2 - f(n - 1) ** 3) ** 3 def main(n): return f(n)" "import math def main(n): if n == 0: return -0.94 elif n == 1: return 0.9 elif n >= 2: return pow(math.sin(53 * main(n - 2) + pow(main(n - 1), 3)), 2)" "def f(n): if n == 0: return -0.04 elif n == 1: return 0.63 elif n >= 2: return (f(n - 1) ** 2 + f(n - 1) ** 3) ** 3 + f(n - 2) ** 2 def main(n): return f(n)" "from math import atan def f(n): if n == 0: return -0.28 elif n >= 1: return f(n - 1) - 42 * atan(1 + f(n - 1) ** 2 + f(n - 1) ** 3) ** 2 def main(n): return f(n)" "from math import log10 def f(n): if n == 0: return -0.39 elif n >= 1: return log10(3 + 42 * f(n - 1) ** 2 + f(n - 1) ** 3) + 1 def main(n): return f(n)" "def main(n): if n: res = main(n - 1) return res / 40 - res ** 3 - 1 else: return -0.46" "def main(n): if n == 0: return 0.62 else: return pow(pow(main(n - 1), 3) - main(n - 1) - pow(main(n - 1), 2), 2)" "import math def main(n): if n == 0: f = -0.44 if n >= 1: f = math.pow(main(n - 1), 3) + 79 * math.pow(math.pow(main(n - 1), 2) / 41, 2) + main(n - 1) return f" "from math import cos def main(n): if n == 0: return -0.03 if n >= 1: return main(n - 1) + cos(main(n - 1)) ** 2" "from math import log2 def main(n: int, recursive=False): if n != 0: x = main(n - 1, True) return 99 * log2(x ** 3 + 0.01 + x ** 2) ** 2 if recursive else float('%.3g' % (99 * log2(x ** 3 + 0.01 + x ** 2) ** 2)) else: return 0.56" "import math def main(n): s = 0 if n == 0: s = -0.18 return s elif n >= 1: s = 1 - main(n - 1) ** 2 - main(n - 1) return s" "import math def main(n): if n == 0: return -0.14 else: return 42 * main(n - 1) ** 3 - main(n - 1) - main(n - 1) ** 2" "import math def main(n): if n > 0: return 12 - main(n - 1) - math.log10(87 * main(n - 1) ** 2 - 24 * main(n - 1)) ** 3 else: return 0.48" "def main(n): if n >= 2: return 1 - main(n - 1) ** 3 - main(n - 2) elif n == 1: return 0.44 else: return 0.16" "import math def main(n): if n == 0: f = -0.8 elif n >= 1: f = main(n - 1) ** 3 / 73 + abs(main(n - 1)) return f" "from math import * def main(n): if n == 0: return 0.19 if n >= 1: return 45 * pow(atan(0.01 + pow(main(n - 1), 3) + 23 * pow(main(n - 1), 2)), 2) - pow(sqrt(main(n - 1)), 3) / 25" "import math def main(n): if n == 0: return 0.09 if n >= 1: return main(n - 1) * (86 + 27)" "def main(n): if n == 0: return 0.22 elif n == 1: return 0.2 elif n >= 2: return 1 + main(n - 2) ** 3 - main(n - 1) + main(n - 1) ** 2" "def main(x): if x == 0: return -0.59 elif x == 1: return 0.91 else: return abs(main(x - 1)) + main(x - 2) ** 2 + 1" "def main(n): if n == 0: return -0.02 elif n == 1: return -0.11 else: return main(n - 2) - 13 * main(n - 1) ** 3" "def main(n): if n == 0: return -0.37 elif n == 1: return -0.85 elif n >= 2: return main(n - 2) ** 6 - main(n - 1) / 44" "import math def main(n): if n == 0: n = 0.66 return n elif n == 1: n = -0.16 return n elif n >= 2: n = 1 + math.atan(87 - main(n - 1) ** 2 - main(n - 2) ** 3) return n" "def main(n): if n == 0: return 0.89 elif n == 1: return 0.72 elif n >= 2: return pow(1 - pow(main(n - 2), 3) - main(n - 1), 3) / 40" "import math def main(n): if n == 0: return 0.02 elif n >= 1: return pow(math.log(1 + pow(main(n - 1), 2) + 42 * main(n - 1)), 2) / 4" "from math import * def func(x): if x == 0: return -0.09 elif x == 1: return 0.39 return 37 * atan(func(x - 1) ** 2 + 95 * func(x - 2)) ** 3 - 51 * func(x - 2) - 31 def main(x): return func(x)" "from math import sin, cos def main(n): if n == 0: return 0.21 else: return pow(sin(main(n - 1)), 2) + pow(cos(98 * pow(main(n - 1), 2) + pow(main(n - 1), 3) + 1), 3)" "def main(n): if n == 0: return -0.24 if n == 1: return -0.65 return main(n - 2) ** 3 + main(n - 1) ** 2 / 48 + 0.2" "def main(n): arr = [-0.83] for i in range(1, n + 1): arr.append(1 - arr[i - 1] ** 3 / 19 - arr[i - 1] / 68) return arr[n]" "import math def main(n): if n == 0: return 0.93 elif n >= 1: return 1 - main(n - 1) ** 2 / 77 - main(n - 1) ** 2" "def main(n): if n == 0: return 0.2 elif n == 1: return -0.16 elif n >= 2: return 51 * (35 * main(n - 1) ** 3 - main(n - 1)) ** 3 - (main(n - 1) - 1 - main(n - 2) ** 2) ** 2 / 57" "import math def main(n): if n == 0: return -0.56 elif n == 1: return 0.13 elif n >= 2: return math.atan(main(n - 2)) - 0.12 - main(n - 1) ** 3" "def main(n): if n == 0: return -0.7 elif n >= 1: return main(n - 1) ** 2 + main(n - 1) ** 3 + 0.02" "import math def main(n): if n == 0: return 0.99 if n >= 1: x1 = math.pow(main(n - 1), 2) x2 = math.pow(main(n - 1), 3) / 39 x3 = x1 - x2 return x3" "from math import floor def main(n): if n == 0: return 0.36 if n == 1: return -0.23 if n >= 2: return floor(main(n - 2) ** 2 / 63 - main(n - 1)) ** 3 + main(n - 2) ** 3 / 54" "import math def main(n): f = 0 f1 = 0 f2 = 0 if n == 0: f = 0.02 elif n == 1: f = 0.01 elif n >= 2: f1 = 40 * math.asin(main(n - 2) ** 2) f2 = -70 * (main(n - 1) ** 3 + 17 * main(n - 1) ** 2 + main(n - 2)) ** 3 f = f1 + f2 return f" "from math import log10 from math import log2 def main(n): if n == 0: return 0.21 elif n >= 1: return 32 * log10(main(n - 1) + 25 * main(n - 1) ** 3 + 48) + 70 * log2(main(n - 1)) ** 2 + 1" "import math def main(n): if n == 0: return 0.67 elif n >= 1: return main(n - 1) / 42 + math.cos(main(n - 1) / 49 + main(n - 1) ** 2) ** 2 + 1" "import math def main(n): if n == 0: return 0.91 if n >= 1: return main(n - 1) ** 3 - main(n - 1) ** 2 - 0.01" "import math def main(n): if n == 0: return 0.05 if n >= 1: return math.tan(main(n - 1) / 28 + main(n - 1) ** 3) ** 3 + main(n - 1)" "import math def main(n): n = float(n) if n == 0: f = -0.26 elif n == 1: f = -0.81 elif n >= 2: f = main(n - 2) - main(n - 1) ** 2 - main(n - 2) ** 3 + 1 return f" "import math def main(n): if n == 0: return -0.17 if n >= 1: return 0.01 + 6 * main(n - 1) ** 3 + main(n - 1) ** 3" "def main(n): if n == 0: return 0.67 elif n == 1: return -0.28 elif n >= 2: return (main(n - 1) + pow(main(n - 2), 3) + pow(main(n - 2), 2)) / 85" "import math def main(n): if n == 0: return -0.02 if n >= 1: return pow(main(n - 1) ** 3 / 3 - 69 * main(n - 1) - 1, 3) / 78" "def main(n): if n == 0: return -0.74 if n == 1: return -0.4 if n >= 2: return pow(main(n - 2), 2) / 38 + 1 + 36 * (pow(main(n - 1), 2) / 63 + main(n - 2) / 18)" "from math import pow, cos def main(n): if n == 0: return 0.15 elif n == 1: return -0.59 else: return main(n - 1) - 79 * pow(cos(main(n - 2)), 2) - 10" "def main(n): if n == 0: return -0.65 elif n >= 1: return main(n - 1) ** 2 / 36 - 1 - (main(n - 1) ** 3 / 73) ** 3" "def main(n): f = [0.79, 0.92] for i in range(2, n + 1): f.append(f[i - 1] ** 2 - 96 * f[i - 2] ** 3 / 48) return f[n]" "def main(n): f = [-0.58, 0.35] for i in range(2, n + 1): f.append((f[i - 1] ** 3 + f[i - 2] ** 2) / 67 + 0.03) return f[n]" "def main(n): if n == 0: f = -0.53 if n == 1: f = 0.08 if n >= 2: f = main(n - 2) ** 3 / 47 - (main(n - 2) / 8 + main(n - 1) ** 3) return f" "import math def main(n): if n == 0: return -0.27 if n == 1: return 0.77 f = math.sin(89 * main(n - 2) ** 2 + main(n - 1) ** 3) ** 3 - 1 - main(n - 1) return f" "from math import acos def main(n): if n == 0: return -0.25 if n == 1: return -0.27 if n >= 2: return acos(main(n - 1)) ** 2 / 13 - 68 * (0.03 + main(n - 2) ** 3 / 44) ** 3" "import math def main(n): if n == 0: return 0.07 if n >= 1: left = (main(n - 1) + 1 + 98 * main(n - 1) ** 2) ** 3 / 93 right = math.ceil(60 * main(n - 1) ** 2 - main(n - 1)) ** 2 / 8 return left - right" "import math def main(n): if n == 0: return -0.07 if n >= 1: a = math.ceil(main(n - 1)) ** 2 b = math.atan(0.02 + 4 * main(n - 1)) ** 3 c = main(n - 1) return a - b - c" "def main(n): if n == 0: return 0.6 if n == 1: return 0.16 if n >= 2: return main(n - 1) ** 6 + main(n - 1) ** 2 / 9 + main(n - 2)" "def main(n): if n == 0: return -0.61 elif n >= 1: return (main(n - 1) ** 2 + main(n - 1) ** 3 / 27 + 45) / 39" "import math def main(n): if n == 0: return 0.3 if n == 1: return 0.26 if n >= 2: x1 = math.ceil(58 + main(n - 1) + main(n - 2) ** 2 - 74) return x1" "import math def main(n): if n == 0: return -0.91 else: return main(n - 1) ** 2 / 68 - math.tan(main(n - 1) ** 2)" "def main(n): if n == 0: return -0.94 if n == 1: return 0.36 if n >= 2: return main(n - 1) ** 2 - main(n - 2) ** 3 main(3)" "import math def main(n): if n == 0: return 0.96 elif n == 1: return -0.44 else: return 2 * main(n - 2) ** 3 + (main(n - 1) - main(n - 1) ** 2) / 43" "def main(n): if n == 0: return 0.91 elif n == 1: return 0.44 else: return (main(n - 2) / 25 - 40 * main(n - 2) ** 2 - 42 * main(n - 1) ** 3) / 53" "import math def main(n): if n == 0: return -0.71 else: return math.cos(main(n - 1)) ** 3 + main(n - 1) ** 2" "import math def main(n): if n == 0: return 0.92 elif n >= 1: return math.exp(main(n - 1)) - main(n - 1) ** 3 - math.cos(main(n - 1)) ** 2 return 0" "def main(n): if n == 0: return -0.24 if n == 1: return -0.65 return main(n - 2) ** 3 + main(n - 1) ** 2 / 48 + 0.2" "import math def main(n): if n == 0: return -0.88 if n == 1: return -0.46 if n >= 2: return math.log10(1 - main(n - 1) ** 2) ** 2 / 80 + math.ceil(main(n - 1)) + main(n - 2) ** 3" "from math import * def main(n): if n == 0: return -0.35 elif n == 1: return -0.53 elif n >= 2: return cos(main(n - 2) ** 2 - 76 * main(n - 1)) / 71 - main(n - 2) ** 2" "def main(n): if n == 0: return 0.54 elif n >= 1: return abs(main(n - 1)) ** 2 / 36 - main(n - 1) - 1" "def main(n): if n == 0: return -0.1 elif n == 1: return 0.76 else: f1 = main(n - 1) f2 = main(n - 2) return round(f1) ** 3 - (f2 - f1 ** 3) ** 2" "import math def main(n): if n == 0: return -0.77 elif n == 1: return -0.56 elif n >= 2: a = math.pow(main(n - 2), 3) / 57 - math.pow(main(n - 1), 2) - 92 return math.pow(math.sin(a), 2)" "import math def main(n): if n == 0: return 0.62 elif n >= 1: return 1 + math.log10(85 * main(n - 1) ** 2 + 18) ** 3" "def main(n): if n == 0: return 0.76 if n == 1: return -0.24 if n >= 2: return (main(n - 1) ** 2 + main(n - 2) ** 3 / 24) ** 2 - 1" "import math def main(n): if n == 0: return -0.45 else: return main(n - 1) ** 3 / 27 + (13 * main(n - 1) - main(n - 1) ** 2) / 42" "import math def main(x): n = -0.13 if x == 0: return n else: return math.cos(main(x - 1) ** 2 - main(x - 1) - 1) / 12 + 7" "def main(n): f = [-0.37] for i in range(1, n + 1): f.append(f[i - 1] ** 2 - 0.08 - f[i - 1]) return f[n]" "def main(n): if n == 0: return -0.16 if n == 1: return -0.09 if n >= 2: return main(n - 2) / 76 - main(n - 1) ** 3" "def main(x): if x == 0: return -0.61 else: return 1 + main(x - 1) / 3 + main(x - 1)" "import math def main(n): if n == 0: return 0.66 if n == 1: return 0.57 if n >= 2: return math.log2(83 * main(n - 1) ** 3 + main(n - 1) ** 2 + 68 * main(n - 2)) ** 3 + 58" "def f(n): if n == 0: return -0.83 elif n == 1: return 0.26 elif n >= 1: return (f(n - 2) + f(n - 1) ** 3) ** 2 def main(n): return f(n)" "import math def main(n): if n == 0: return 0.66 if n >= 1: return math.sin(1 - main(n - 1)) - 80 * math.log2(main(n - 1) ** 2) ** 3 - 69 main(5)" "import math def main(n): if n == 0: return -0.69 elif n == 1: return 0.91 else: f = math.sin(main(n - 1)) ** 2 f += math.ceil(main(n - 2) / 21 - 7 * main(n - 1) ** 3) / 7 return f" "import math def main(n): if n == 0: return 0.59 elif n >= 1: a = main(n - 1) / 6 b = math.ceil(main(n - 1) ** 3 - main(n - 1)) ** 3 return a - b" "import math def main(x): if x == 0: return 0.18 elif x == 1: return 0.1 elif x >= 2: return main(x - 2) - 89 * main(x - 1) ** 3" "from math import * def main(n): if n == 0: fn = 0.04 return fn elif n >= 1: fn = 98 * pow(log10(63 * main(n - 1) + 1 + 47 * pow(main(n - 1), 2)), 3) + 57 return fn" "def main(n): if n == 0: return 0.72 if n == 1: return 0.55 else: return (main(n - 2) ** 3 + main(n - 1) / 74) ** 3 - main(n - 1)" "def main(n): if n == 0: return 0.47 elif n == 1: return 0.75 elif n >= 2: return main(n - 1) + pow(1 + pow(main(n - 2), 3) / 63, 3)" "from math import cos def main(n): if n == 0: return -0.9 elif n >= 1: return cos(main(n - 1)) ** 3 - main(n - 1)" "import math def main(n): if n == 0: return -0.98 elif n >= 1: return math.tan(main(n - 1) ** 2 + main(n - 1))" "import math def main(n): if n == 0: return -0.28 return 0.08 + (main(n - 1) + 89 * main(n - 1) ** 3 + main(n - 1) ** 2) / 18" "import math def main(n): if n == 0: return -0.85 elif n >= 1: return 38 * math.log10(main(n - 1) ** 2 - main(n - 1)) ** 3 - 1" "import math def main(n): if n == 0: return -0.95 if n == 1: return -0.63 if n >= 2: return math.tan(14 * main(n - 1) ** 3 - main(n - 2) ** 2 - main(n - 2)) / 55" "import math def main(n): if n == 0: return -0.58 elif n == 1: return -0.19 elif n >= 2: r = main(n - 1) rr = main(n - 2) return 0.02 + math.exp(3 * rr) / 13 + math.sin(87 * r ** 2 - 81 * r) ** 2 / 59" "import math def main(n): if n == 0: return -0.95 elif n >= 1: return math.acos(main(n - 1) ** 2) / 65 - 1 - main(n - 1) ** 3" "def main(n): if n == 0: f = -0.04 return f elif n >= 1: f = (0.01 - 67 * main(n - 1) ** 3 - 5 * main(n - 1)) ** 2 - (main(n - 1) ** 3 + 6 * main(n - 1) ** 2) ** 3 return f" "from math import * def main(n): if n == 0: return 0.69 elif n >= 1: return tan(main(n - 1)) + tan(main(n - 1) ** 2) ** 3" "from math import sin def f(n): if n == 0: return 0.59 elif n == 1: return 0.65 elif n >= 2: return abs(1 - f(n - 2) ** 2) ** 3 + 0.08 + sin(f(n - 1) ** 3) ** 2 def main(n): return f(n)" "from __future__ import annotations def decision(n) -> float | int: if n == 0: return 0.44 elif n == 1: return 0.88 else: function = 63 + 71 * decision(n - 1) + decision(n - 2) return function def main(n) -> float | int: return decision(n)" "from __future__ import annotations def decision(n) -> float | int: if n == 0: return 0.08 elif n >= 1: return 38 * (decision(n - 1) ** 2 / 78) ** 3 + decision(n - 1) ** 2 + 0.03 def main(n) -> float | int: return decision(n)" "import math def main(n): if n == 0: return 0.91 elif n >= 1: return math.ceil(main(n - 1)) - main(n - 1) ** 3" "from math import log def main(n): if n == 0: return 0.4 elif n == 1: return -0.33 elif n >= 2: prev1 = main(n - 1) prev2 = main(n - 2) return 73 + log(22 + prev2 ** 2 + 15 * prev1 ** 3, 10) ** 3 / 80 + 11 * prev2" "import math def main(n): if n == 0: return -0.73 if n == 1: return 0.8 if n >= 2: a = main(n - 2) ** 2 / 87 + 47 b = math.log2(main(n - 1)) ** 3 / 95 return a + b" "import math def main(n): if n == 0: return -0.02 if n == 1: return 0.78 if n >= 2: return main(n - 2) ** 3 - 1 - math.sin(main(n - 1))" "from math import pow, cos def main(n): if n == 0: return -0.76 elif n == 1: return 0.19 else: res = 1 - pow(main(n - 1), 3) - cos(main(n - 2)) return res" "import math def main(n): if n == 0: return -0.98 elif n == 1: return -0.9 elif n >= 2: return main(n - 2) ** 2 - 3 - main(n - 1) ** 3" "import math def main(n): if n == 0: return 0.38 if n == 1: return -0.24 if n >= 2: f1 = main(n - 1) ** 3 f2 = main(n - 2) ** 2 return f1 + f2" "import math def main(n): if n == 0: return 0.65 elif n == 1: return -0.75 elif n >= 2: return math.sin(main(n - 1) + main(n - 2) ** 3 / 87) main(2)" "from math import atan def main(n): if n == 0: return -0.82 elif n >= 1: return main(n - 1) - atan(10 * main(n - 1) ** 3 + 76 * main(n - 1)) ** 2 - 2" "import math def main(n): if n == 0: return -0.1 if n == 1: return -0.89 if n >= 2: return (main(n - 2) + main(n - 2) ** 3 + main(n - 2) ** 2) / 16 - math.atan(main(n - 1)) ** 3" "def main(n): if n == 0: return -0.57 elif n == 1: return 0.09 elif n >= 2: return main(n - 1) + main(n - 2) ** 2 + (main(n - 2) ** 2 / 7) ** 3 / 29" "from math import cos, ceil def main(x): if x == 0: return -0.59 elif x == 1: return 0.94 else: return cos(main(x - 1)) ** 3 + 0.02 + ceil(main(x - 2))" "def main(n): if n == 0: return 0.58 elif n == 1: return -0.91 elif n >= 2: return main(n - 2) ** 2 + main(n - 1) - main(n - 2) ** 3 + 1" "def main(n): if n == 0: return -0.43 else: return main(n - 1) / 91 + main(n - 1) ** 2 + main(n - 1) ** 3" "import math def main(n3): if n3 == 0: a3 = 0.73 if n3 >= 1: c = n3 - 1 b = math.sin(75 * main(c) - 42 * pow(main(c), 3) - pow(main(c), 2)) a3 = pow(b, 2) return a3" "def main(n): if n == 0: return -0.18 elif n >= 1: part_1 = 1 + main(n - 1) - 1 - main(n - 1) ** 6 return part_1" "def main(n): if n == 0: return -0.31 return main(n - 1) - 1 - 90 * main(n - 1)" "def main(n): if n == 0: return 0.43 elif n == 1: return -0.21 elif n >= 2: return main(n - 1) - main(n - 1) ** 3 - main(n - 2) ** 4" "def main(n): f = [0.13, 0.07] for i in range(2, n + 1): f.append((3 * f[i - 1] ** 3 + 1 + 17 * f[i - 2]) / 24) return f[n]" "def main(n): if n == 0: return -0.43 elif n >= 1: return main(n - 1) + main(n - 1) ** 3 / 65 + 1" "import math f = math.pow def main(n): if n == 0: return -0.18 if n >= 1: return math.sin(main(n - 1) ** 2 + main(n - 1) + f(main(n - 1), 3) / 45) ** 2 - 0.03" "from math import sin def main(n): if n >= 1: return 0.01 - main(n - 1) ** 2 / 59 + 18 + sin(main(n - 1)) ** 3 else: return -0.42" "from math import * def main(n): if n == 0: return 0.63 if n >= 1: return sin(main(n - 1) + 43 * main(n - 1) ** 3) ** 2 - 1" "import math def main(n): if n == 0: return -0.75 elif n >= 1: return math.cos(main(n - 1)) / 38 + main(n - 1) ** 2" "from math import pow def main(n): if n == 0: return 0.61 if n == 1: return 0.07 if n >= 2: return pow(main(n - 2), 3) + main(n - 1) + 1" "from math import tan, exp def main(n): if n == 0: return -0.58 elif n >= 1: res = tan(main(n - 1)) ** 3 / 50 - 48 - 60 * exp(main(n - 1)) ** 2 return float('%.2e' % res) assert main(8) == -48.0 assert main(1) == -66.8" "import math def main(n): if n == 0: return -0.06 elif n == 1: return 0.54 elif n >= 2: return 9 * math.atan(21 * main(n - 1) ** 2 - main(n - 1) ** 3 - main(n - 1))" "def main(n): if n == 0: return -0.31 elif n >= 1: return pow(main(n - 1), 2) - 1 - pow(main(n - 1), 3)" "import math def main(n): if n == 0: return 0.77 elif n == 1: return -0.62 elif n >= 2: part_1 = 12 * main(n - 2) / 71 part_2 = main(n - 1) ** 2 return part_1 - part_2" "import math def main(n): if n == 0: return 0.33 elif n == 1: return -0.16 elif n >= 2: part_1 = math.cos(5 * main(n - 2) - 59 * main(n - 2) ** 3) ** 2 part_2 = math.atan(main(n - 1)) ** 3 return part_1 - part_2 - 1" "def main(n): if n == 0: return -0.3 else: return abs(99 * main(n - 1) ** 2 - 43 * main(n - 1) ** 3 - main(n - 1)) / 26 - main(n - 1) ** 3" "import math def main(n): if n == 0: return -0.68 elif n >= 1: return 0.02 + (main(n - 1) / 11 - 6 * main(n - 1) ** 3 - 12) / 36 + (main(n - 1) ** 2 - main(n - 1) / 34) ** 3" "from math import atan def f(n): if n == 0: return 0.86 if n == 1: return -0.32 return 7 * f(n - 2) ** 2 / 47 - 1 - atan(f(n - 1)) ** 2 def main(n): return f(n)" "def main(n): result = 0 while n > 1: return main(n - 2) + main(n - 1) ** 3 / 80 + main(n - 1) ** 2 / 11 - 0.01 if n == 1: result -= 0.1 elif n == 0: result -= 0.61 return result" "import math def f(n): if n < 2: return -0.83 else: return 11 - 15 * abs(f(n - 1)) - f(n - 2) ** 2 def main(n): return f(n)" "import math def main(n): if n == 0: return 0.43 if n == 1: return 0.14 return math.cos(main(n - 1)) - (main(n - 2) ** 3 - main(n - 1)) ** 2 - 3 * main(n - 2) ** 3" "from math import sin def f(n): if n == 0: return -0.62 if n == 1: return 0.76 return f(n - 1) ** 4 - f(n - 1) ** 3 - sin(f(n - 1) ** 3 + f(n - 2) + 0.02) / 21 def main(n): return f(n)" "import math def main(n): if n == 0: return -0.89 elif n == 1: return 0.23 elif n >= 2: prev = main(n - 1) return math.sin(62 * prev ** 3 - main(n - 2) - 43 * prev ** 2) ** 2" "def main(n): if n == 0: return -0.74 if n >= 1: value = (main(n - 1) ** 2 / 60 - main(n - 1) ** 3) ** 2 / 80 - main(n - 1) return value" "def main(n): f = [0.57, 0.12] for i in range(2, n + 1): f.append(10 * f[i - 1] - f[i - 2] ** 3 - 1) return f[n]" "from math import atan def main(n): if n == 0: return 0.14 t = main(n - 1) return 11 * t - atan(t ** 2 - t) ** 2" "def main(n): if n == 0: return -0.28 if n >= 1: return (23 * main(n - 1) ** 3 - main(n - 1) ** 2) ** 2 / 37 - main(n - 1) ** 3 - main(n - 1)" "def main(n): if n == 0: return 0.47 elif n == 1: return -0.7 elif n >= 2: return main(n - 2) - (main(n - 2) / 16 + main(n - 1) ** 3) ** 2 / 9" "def main(n): if n == 0: return 0.87 else: return 96 * (main(n - 1) / 56) ** 2 + main(n - 1)" "def main(n): value = 0 if n == 0: return 0.34 if n >= 1: value = (main(n - 1) ** 3 - main(n - 1) ** 2) ** 3 + main(n - 1) return value" "from math import * def main(n): if n == 0: return -0.04 elif n == 1: return -0.23 elif n >= 2: return ceil(main(n - 1)) + 95 * (main(n - 2) + 0.12) ** 3" "import math def main(n): result = 0 if n == 0: return 0.99 elif n >= 1: step1 = 1 + main(n - 1) ** 2 result = math.sin(step1) ** 2 - main(n - 1) ** 3 return result" "import math def main(n): if n == 0: return -0.24 elif n >= 1: return main(n - 1) + 3 * main(n - 1) ** 2 + main(n - 1) ** 3" "import math def main(n): if n == 0: return -0.9 elif n == 1: return 0.65 elif n >= 2: return main(n - 2) ** 3 - 1 - math.atan(main(n - 1)) ** 2 / 17" "import math def main(n): if n == 0: return -0.14 if n == 1: return -0.59 if n >= 2: result = math.cos(main(n - 2)) ** 3 - main(n - 1) / 68 return result" "import math def main(n): if n == 0: return 0.6 if n >= 1: return math.atan(main(n - 1)) ** 2 + 0.03 + math.atan(main(n - 1)) ** 3 / 3" "from math import cos, asin def main(n): if n == 0: return -0.56 if n == 1: return -0.08 if n >= 2: return cos(main(n - 2) ** 3 - main(n - 2) - 1) ** 3 - asin(main(n - 1))" "import math def main(n): if n == 0: return -0.04 elif n == 1: return 0.75 elif n >= 2: prev1 = main(n - 1) prev2 = main(n - 2) return math.tan(prev1) ** 2 - 50 * (prev2 + 14) - 1" "def main(n): if n == 0: f = -0.66 return f elif n == 1: f = 0.52 return f elif n >= 2: f = (27 * main(n - 1) ** 3 + 57 * main(n - 2)) / 82 return f" "import math def main(n): if n == 0: return 0.4 if n == 1: return -0.44 elif n >= 2: return math.cos(80 * main(n - 1) + main(n - 1) ** 2 + main(n - 2) ** 3) + 1" "def main(n): if n == 0: return 0.02 if n >= 1: f = main(n - 1) - 90 * main(n - 1) ** 3 return f" "import math def main(n): if n == 0: return -0.11 if n == 1: return -0.96 return math.cos(main(n - 1)) ** 2 - 33 * main(n - 2)" "from math import atan def main(n): if n == 0: return 0.14 prev = main(n - 1) return 1 - atan(56 * prev ** 3 + prev ** 2)" "import math def main(n): if n == 0: return -0.18 if n == 1: return -0.74 return math.atan(main(n - 2) + main(n - 1) ** 2 + main(n - 1) ** 3) - 1" "def main(n): if n == 0: return -0.09 else: return main(n - 1) - 43 * (main(n - 1) / 73) ** 3" "import math def main(n): if n == 0: return 0.18 elif n == 1: return -0.15 elif n >= 2: return main(n - 2) ** 3 - math.exp(main(n - 1)) ** 2" "def main(n): if n == 0: return 0.53 return main(n - 1) ** 2 - main(n - 1) ** 3 - 1" "import math def main(n): if n == 0: return -0.64 elif n >= 1: return pow(main(n - 1), 2) + main(n - 1) / 22" "def main(n): if n == 0: return -0.27 elif n == 1: return -0.83 elif n >= 2: return 0.05 - (main(n - 2) ** 2 + main(n - 1)) ** 2" "def main(n): if n == 0: return -0.87 elif n == 1: return -0.11 elif n >= 2: x = pow(float(main(n - 1)), 2) + 1 + pow(float(main(n - 2)), 3) return x" "import math def main(n): if n == 0: return 0.53 return 18 * math.log10(main(n - 1) ** 3 + 75 * main(n - 1))" "import math def main(n): if n == 0: return 0.44 elif n >= 1: return (main(n - 1) - 1 - main(n - 1) ** 2) ** 3 / 11" "import math def main(n): if n == 0: return -0.74 elif n == 1: return 0.1 else: return math.log(1 + main(n - 1) / 88 + main(n - 2) ** 3)" "def main(n): if n == 0: return -0.53 return main(n - 1) ** 3 / 10 + 0.03 + main(n - 1) / 44" "def main(n): if n == 0: f = 0.74 return f elif n == 1: f = 0.88 return f elif n >= 2: f = main(n - 1) + 1 + main(n - 2) ** 3 return f" "def main(n): if n == 0: return 0.98 if n == 1: return -0.76 if n >= 2: value = (main(n - 1) / 80 + 19 * main(n - 2) ** 2) / 28 - 77 return value" "import math def main(n): if n == 0: return 0.12 if n == 1: return 0.31 return math.tan(main(n - 1)) ** 3 + main(n - 2)" "def main(n): if n == 0: return -0.5 elif n == 1: return -0.38 elif n >= 2: return (97 * main(n - 2) ** 3 + 76 * main(n - 2) + main(n - 1) ** 2) / 90" "import math def main(n): if n == 0: return -0.35 if n == 1: return 0.49 return math.floor(2 * main(n - 2) ** 3) ** 2 / 9 + main(n - 2) ** 1 / 78 + (main(n - 1) ** 2) ** 3" "import math def main(n): if n == 0: return -0.28 elif n == 1: return 0.17 elif n >= 2: return main(n - 2) / 91 + 1 + math.atan(main(n - 1)) ** 3" "import math def main(n): a = -0.28 b = 0.01 if n == 0: return a elif n == 1: return b elif n >= 2: fn = main(n - 1) fn1 = main(n - 2) return 2 * fn + fn1 ** 2" "def main(n): if n == 0: return 0.12 elif n >= 1: return pow(abs(main(n - 1)), 3) - (main(n - 1) - pow(main(n - 1), 3) / 36) / 63" "def main(n): if n == 0: return 0.94 elif n >= 1: return main(n - 1) / 10 + main(n - 1) ** 9" "import math def main(n): if n == 0: return 0.66 elif n >= 1: a = 41 * math.sqrt(main(n - 1)) b = 20 * main(n - 1) ** 3 + 0.02 + 65 * main(n - 1) c = a + 38 * math.log(b) ** 2 return c" "def main(n): if n == 0: return 0.87 elif n >= 1: return 1 - main(n - 1) - (main(n - 1) ** 3 / 28) ** 2" "import math def main(n): if n == 0: return 0.59 return 35 * math.log10(main(n - 1)) ** 2 + main(n - 1)" "from math import log, floor def main(n): if n == 0: return -0.42 if n == 1: return -0.34 elif n >= 2: return log(7 * main(n - 1) + main(n - 2) ** 3 / 24 + 96) ** 3 + floor(main(n - 1)) + 88" "def main(n): if n == 0: return -0.4 elif n >= 1: return main(n - 1) + (main(n - 1) ** 3 / 32 - 1) ** 3 / 53" "def main(n): if n == 0: return 0.23 if n >= 1: prev = main(n - 1) return prev - prev ** 3 - prev ** 2 / 60" "def main(n): if n == 0: return 0.74 elif n >= 1: res = abs(2 * main(n - 1) ** 3) - main(n - 1) ** 3 - 1 return res" "import math def main(n): if n == 0: return -0.21 return 8 * main(n - 1) - math.atan(main(n - 1) ** 2 + main(n - 1) ** 3 + 1) ** 3" "def main(n): if n == 0: return -0.73 elif n == 1: return -0.36 else: f = main(n - 1) + abs(main(n - 1)) ** 2 + main(n - 1) ** 3 return main(n - 2) ** 3 - main(n - 1) ** 6" "import math def main(n): if n == 0: return 0.61 elif n >= 1: return math.log(59 * main(n - 1) ** 2 - 1 - 25 * main(n - 1)) - 1" "from math import atan def main(n): if n == 0: return -0.55 elif n >= 1: return atan(33 * main(n - 1) ** 2 + main(n - 1) + main(n - 1) ** 3) ** 2" "def f(n): if n == 0: return -0.65 if n == 1: return -0.56 elif n >= 1: return abs(f(n - 2) ** 2 - 23 * f(n - 1) - 14) / 58 def main(n): return f(n)" "import math def main(n): if n == 0: return 0.41 elif n >= 1: return 49 + 33 * math.log(1 + 68 * main(n - 1) ** 2 + 54 * main(n - 1), 10) ** 2" "import math def main(n): if n == 0: return -0.31 elif n == 1: return -0.23 else: return 9 * main(n - 1) ** 3 - main(n - 2)" "import math def main(n): if n == 0: return -0.05 elif n == 1: return 0.56 elif n >= 2: return 1 - (main(n - 2) ** 3 - main(n - 1) ** 2 / 93) ** 2 - main(n - 1) ** 3 / 15" "import math def main(n): if n == 0: return -0.02 elif n >= 1: return math.fabs(31 * main(n - 1)) / 70 + 1 + math.ceil(main(n - 1)) ** 2 / 86" "import math def main(n): if n == 0: return -0.36 elif n == 1: return 0.24 elif n >= 2: return main(n - 2) ** 2 + main(n - 2) + math.fabs(main(n - 1)) ** 3" "import math def main(n): if n >= 2: return main(n - 2) - math.tan(main(n - 1)) ** 3 - 87 elif n == 1: return -0.81 else: return 0.84" "import math def main(n): if n == 0: return 0.89 elif n == 1: return 0.36 elif n >= 2: return main(n - 2) + 21 * math.log(60 * main(n - 1) ** 3 - main(n - 1), 2) ** 2" "import math def f(n): if n == 0: return -0.61 else: return 5 * math.log10(23 + 14 * f(n - 1) ** 2) - 22 def main(n): return f(n)" "def main(n): if n == 0: return -0.65 if n == 1: return 0.03 if n >= 2: a = 12 * main(n - 1) ** 2 + main(n - 2) b = 17 * main(n - 1) ** 3 return (a + b) / 34" "import math def main(n): if n == 0: return -0.42 if n >= 1: return 7 * main(n - 1) - math.sin(main(n - 1)) ** 3" "import math def main(n): if n == 0: return 0.74 if n == 1: return 0.77 return 1 - math.atan(main(n - 1) / 70 + 32) ** 2 - 29 * main(n - 2)" "import math def main(n): if n == 0: return -0.69 elif n == 1: return 0.36 elif n >= 2: return math.log(64 * main(n - 1), math.e) ** 3 - 0.01 - main(n - 2)" "from math import atan def f(n): if n == 0: return -0.15 return atan(f(n - 1)) ** 2 / 25 - (f(n - 1) ** 2 - 77 * f(n - 1)) / 43 def main(n): return f(n)" "import math def main(n): if n == 0: return -0.05 elif n == 1: return -0.45 elif n >= 2: return (main(n - 1) ** 3 / 4) ** 3 / 10 + main(n - 2)" "def main(n): if n >= 1: res = 49 * (main(n - 1) ** 3 + main(n - 1) ** 2 + 5 * main(n - 1)) ** 3 - main(n - 1) else: res = 0.01 return res" "import math def main(n): if n == 0: return -0.8 elif n >= 1: return math.cos(main(n - 1)) ** 2 + math.tan(main(n - 1))" "from math import sin def main(n): f = [0.03] for i in range(1, n + 1): f.append(sin(f[i - 1]) ** 2 - (f[i - 1] + 0.02)) return f[n]" "import math def f(n): if n == 0: return 0.55 elif n >= 1: a = pow(math.tan(f(n - 1)), 3) b = math.sin(f(n - 1)) c = pow(abs(f(n - 1)), 2) res = a - b - c return res def main(*args): return f(*args)" "import math def main(n): if n == 0: return -0.79 if n == 1: return 0.86 result1 = pow(main(n - 1), 3) - main(n - 2) return 98 * pow(math.log2(result1), 3)" "import math def main(n): if n == 0: return 0.22 if n == 1: return -0.05 return 56 + main(n - 1) + math.pow(math.log2(main(n - 2) + 60 * math.pow(main(n - 1), 3)), 2)" "from math import atan def f(n): if n == 0: return -0.08 return f(n - 1) - atan(f(n - 1)) ** 2 - 1 def main(n): return f(n)" "from math import atan def rec(n): if n == 0: return 0.57 elif n == 1: return 0.5 elif n >= 2: pre1 = rec(n - 1) pre2 = rec(n - 2) return 1 - atan(pre2 - pre1 ** 3 - 0.03) ** 3 - pre1 def main(n): return rec(n)" "def main(n): if n == 0: return -0.09 if n == 1: return 0.1 return 29 * main(n - 1) ** 3 + (main(n - 1) ** 2 + main(n - 1) ** 3 + main(n - 2)) ** 2" "import math def main(a): if a == 0: return 0.13 else: return pow(math.ceil(main(a - 1)), 3) - pow(main(a - 1), 2)" "import math def main(n): if n == 0: return 0.46 if n == 1: return 0.26 return main(n - 1) ** 2 - main(n - 2) - 1" "from math import atan def f(n): if n == 0: return 0.66 if n == 1: return 0.34 return (1 - f(n - 2) - f(n - 2) ** 3) ** 3 + f(n - 1) / 29 def main(n): return f(n)" "from math import log10 def main(n): if n == 0: return 0.36 elif n >= 1: return main(n - 1) ** 2 - log10(main(n - 1))" "def main(n): if n == 0: return -0.62 elif n == 1: return 0.51 elif n >= 2: return 1 - main(n - 2) ** 2 / 73 - main(n - 1) ** 3 / 93" "def main(n): if n == 0: return -0.54 elif n == 1: return 0.59 elif n >= 2: return 1 - (24 * main(n - 1) + 10 + 8 * main(n - 2) ** 3) / 35" "import math def main(n): if n == 0: return -0.82 elif n >= 1: return math.atan(main(n - 1)) ** 2 - 1 - main(n - 1) ** 3" "import math def main(n): if n == 0: return 0.16 elif n == 1: return 0.62 elif n >= 2: return 1 - math.atan(main(n - 1) ** 2 - main(n - 1)) ** 3 / 52 - main(n - 2) ** 3" "import math def main(n): if n == 0: return 0.65 elif n >= 1: a = math.cos(main(n - 1)) b = main(n - 1) ** 3 / 23 c = math.atan(14 * main(n - 1)) ** 2 d = a + b + c / 30 return d" "import math def main(n): if n == 0: return -0.16 if n == 1: return -0.86 if n >= 2: return 59 * math.ceil(main(n - 1)) ** 2 - math.sin(1 + main(n - 2) ** 2 + main(n - 2))" "def main(n): if n == 0: return -0.8 if n == 1: return -0.39 part_1 = main(n - 1) / 4 part_2 = main(n - 2) ** 3 part_3 = main(n - 2) ** 2 part_4 = (part_1 + part_2 + part_3) ** 3 part_5 = main(n - 1) ** 2 / 6 part_6 = 1 + part_5 return part_4 - part_6" "import math def main(n): if n == 0: return 0.58 elif n >= 1: rr = main(n - 1) return 1 + (rr / 45) ** 2 / 8 + 5 * math.cos(rr ** 2 + 48) ** 3" "def main(n): if n == 0: return -0.67 elif n == 1: return -0.09 elif n >= 2: return 1 + main(n - 1) ** 3 - main(n - 2) / 53 - main(n - 1) ** 2" "def main(n): if n == 0: return -0.32 if n >= 1: return (74 * main(n - 1) ** 3 + 30 * main(n - 1) ** 2) / 67 - 1 - main(n - 1) ** 3" "def main(n): if n == 0: return -0.25 if n >= 1: a = main(n - 1) ** 3 + main(n - 1) + main(n - 1) ** 2 return a ** 3 + main(n - 1)" "def main(n): if n == 0: return -0.97 if n == 1: return -0.4 else: return main(n - 1) ** 3 + abs(main(n - 2)) ** 2" "import math def main(n): if n == 0: return 0.82 elif n == 1: return -0.88 elif n >= 2: return 58 * math.log(main(n - 2) + main(n - 1) ** 2, math.exp(1))" "import math def main(n): if n == 0: return -0.73 if n >= 1: return 1 - 38 * math.log(39 * main(n - 1) + main(n - 1) ** 2 + 39)" "def main(n): if n == 0: return -0.52 elif n == 1: return 0.81 elif n >= 2: return 1 - (main(n - 2) ** 3 - main(n - 1) - 94) / 34" "import math def main(n): if n == 0: return -0.03 if n == 1: return -0.74 return math.log2(50 * main(n - 1) ** 2 - 9 - main(n - 2) ** 3) / 92 + 1" "import math def main(n): if n == 0: return 0.49 if n == 1: return 0.59 if n >= 2: return 98 * main(n - 2) + math.atan(74 - main(n - 1) ** 2) ** 3" "import math def main(n): if n == 0: return 0.22 if n == 1: return -0.44 if n >= 2: return 11 * main(n - 1) + 18 * math.sin(main(n - 2)) ** 2 + 69" "def main(n): if n == 0: return 0.7 elif n == 1: return 0.1 elif n >= 2: return (70 * main(n - 1) ** 2 - main(n - 2) ** 3 - 0.02) / 28 - main(n - 1) ** 2" "import math def main(n): return 0.15 if n == 0 else 0.22 if n == 1 else math.atan(main(n - 1) ** 2 - 1 - 27 * main(n - 2)) ** 2" "import math def main(n): if n == 0: return 0.97 elif n >= 1: return math.tan(50 * main(n - 1) ** 2 + 1) ** 2 / 54 - math.floor(main(n - 1)) - 1" "import math def main(n): if n == 0: return 0.93 elif n == 1: return 0.26 elif n >= 2: return 75 - 2 * math.tan(main(n - 2)) ** 3 - main(n - 1)" "import math def main(n): if n == 0: return 0.33 elif n == 1: return 0.56 else: return 96 - math.ceil(main(n - 2)) ** 2 - 11 * math.floor(main(n - 1))" "import math def main(f): f1 = 0.85 f2 = -0.23 i = 1 res = 0 float(res) while i < f: res = f1 + pow(f1, 2) / 63 + pow(math.atan(f2), 3) f2 = f1 f1 = res i += 1 return res" "def main(n): if n == 0: return -0.27 elif n == 1: return -1.0 elif n >= 2: return main(n - 1) ** 2 - main(n - 2) ** 3" "def main(n): if n == 0: return -0.05 return 1 - main(n - 1) ** 2 - (37 * main(n - 1) ** 2 + 1) / 44" "import math def main(n): if n == 0: return -0.78 elif n == 1: return 0.78 elif n >= 2: return 18 - math.floor(main(n - 1)) - 58 * math.sin(main(n - 2)) ** 2" "import math def main(n): if n == 0: return -0.15 elif n >= 1: return math.atan(main(n - 1)) - (main(n - 1) ** 3 / 15 + 1) ** 2" "def main(n): if n == 0: return 0.73 if n == 1: return 0.01 if n >= 2: return main(n - 1) ** 2 / 56 + main(n - 2) ** 3 + 1" "import math def main(n): if n == 0: return -0.35 return math.fabs(main(n - 1)) - (main(n - 1) ** 2 + main(n - 1) ** 3) ** 2" "from math import * def main(n): if n == 0: return 0.78 elif n == 1: return 0.21 elif n >= 2: f = 1 - main(n - 2) ** 2 - sin(main(n - 1)) return f" "import math def main(n): if n == 0: return 0.87 return 1 - main(n - 1) ** 2 + math.floor(main(n - 1))" "from math import log10 def main(n): if n == 0: return 0.97 elif n >= 1: return main(n - 1) + log10(main(n - 1)) ** 2 + 1" "from math import * def main(n): if n == 0: return 0.69 elif n == 1: return 0.91 elif n >= 2: f = main(n - 2) ** 2 - ceil(main(n - 1)) ** 3 return f" "from math import * def main(n): if n == 0: return -0.2 elif n >= 1: return 1 - pow(ceil(main(n - 1)), 2) - pow(exp(main(n - 1)), 3)" "def main(n): if n == 0: return -0.35 elif n >= 1: return main(n - 1) - main(n - 1) ** 3 - 1" "import math def main(n): if n == 0: return -0.03 if n >= 1: return main(n - 1) ** 2 - 1 - main(n - 1) ** 3 / 78" "def rec(n): if n == 0: return -0.79 elif n == 1: return -0.2 else: return rec(n - 2) ** 3 - rec(n - 1) / 31 def main(n): return rec(n)" "import math def main(n): if n == 0: return -0.56 if n == 1: return -0.8 if n >= 2: return main(n - 1) ** 3 / 98 + 0.03 + math.log(74 - 45 * main(n - 1) - 77 * main(n - 2) ** 3, 10) ** 3 / 14" "def main(n): if n == 0: return -0.75 elif n == 1: return 0.73 elif n >= 2: return (1 - main(n - 1) ** 3 - main(n - 2)) ** 3 / 41" "def main(n): if n == 0: return 0.2 if n >= 1: return abs(main(n - 1)) ** 3 + main(n - 1) / 2" "import math def main(n): if n == 0: return 0.44 if n == 1: return -0.38 if n >= 2: return 1 - pow(math.atan(77 * pow(main(n - 1), 3) + 51 * pow(main(n - 2), 2) + 1), 2) - pow(math.floor(pow(main(n - 2), 2)), 3) / 41" "def main(n): if n == 0: return 0.3 elif n == 1: return 0.53 else: return 1 - (main(n - 1) ** 2 - main(n - 2) ** 3) ** 2" "import math def main(n): if n == 0: return -0.5 if n >= 1: return 37 + 79 * math.log(70 + main(n - 1) ** 3 + main(n - 1) ** 2, 2) ** 3 + main(n - 1)" "def main(n): if n == 0: return -0.41 if n == 1: return 0.58 return 0.03 - main(n - 1) ** 2 / 47 - abs(main(n - 2) ** 3) ** 3" "def main(n): if n == 0: return 0.21 return main(n - 1) ** 3 / 76 + (main(n - 1) ** 3 / 44 + 65) / 41" "import math def main(n): if n == 0: return -0.5 elif n == 1: return 0.17 elif n >= 2: a = 29 * (main(n - 2) / 62) ** 2 - 84 b = 92 * math.floor(main(n - 1) / 11) return a - b" "import math def main(n): if n == 0: return 0.49 if n == 1: return -0.2 if n >= 2: return 83 * math.fabs(main(n - 2)) - main(n - 2) ** 2 / 52 - 2 * math.sin(main(n - 1)) ** 3" "def main(n): if n == 0: return 0.97 if n == 1: return -0.11 return main(n - 1) ** 3 - main(n - 2) / 17" "import math def main(n): if n == 0: return -0.46 elif n >= 1: return math.floor(main(n - 1)) + main(n - 1) ** 2" "def main(n): if n == 0: return -0.15 elif n == 1: return 0.99 elif n >= 2: prev1 = main(n - 1) prev2 = main(n - 2) return prev2 / 60 + prev1 ** 2 / 40" "def main(n): if n == 0: return 0.25 if n >= 1: return abs(main(n - 1)) ** 2 - abs(39 * main(n - 1) ** 3 + 87 * main(n - 1)) / 73" "import math def main(n): if n == 0: return -0.45 elif n >= 1: return 51 * math.log2(main(n - 1) ** 2 + 1) ** 3 - main(n - 1)" "import math def main(n): if n == 0: return 0.1 elif n == 1: return 0.45 else: return main(n - 2) ** 3 + main(n - 1) ** 2 / 90 + math.cos(main(n - 2))" "import math def main(n): if n == 0: return 0.18 elif n >= 1: a = main(n - 1) b = 13 * a ** 2 c = math.atan(b) d = c ** 2 e = 10 * d f = a + 0.07 g = e - f - 0.02 return g" "from math import atan def main(n): if n == 0: return -0.09 if n == 1: return 0.49 if n >= 2: return atan(65 * main(n - 2) ** 3 + 10 * main(n - 1) ** 2) ** 2 - main(n - 1) / 97 - 23" "def main(n): if n == 0: return -0.63 elif n >= 1: f = 1 - (main(n - 1) ** 2 + main(n - 1)) return f" "def main(n): if n == 0: return -0.01 if n == 1: return -0.71 elif n >= 2: return 91 * main(n - 2) ** 2 + main(n - 1) + 1" "def main(n): if n == 0: return 0.1 elif n == 1: return 0.45 elif n >= 2: return 1 - (main(n - 1) ** 3 - 1) ** 2 - main(n - 2)" "def main(n): if n == 0: return 0.9 if n == 1: return 0.51 return main(n - 1) ** 2 + 0.02 + main(n - 2)" "import math def main(n): o = 0.15 k = 0.34 i = 2 f = 0 if n == 0: return 0.15 elif n == 1: return 0.34 elif n >= 2: for i in range(n - 1): f = (61 * o ** 2 - k ** 3 - 1) ** 2 / 81 o = k k = f return f" "import math def main(n): if n == 0: return 0.63 if n == 1: return 0.38 if n >= 2: return 1 + 20 * main(n - 1) + main(n - 2) ** 2 / 22" "import math def main(n): if n == 0: return -0.78 elif n >= 1: return main(n - 1) - 22 * math.atan(38 * main(n - 1) ** 3) ** 2" "import math def main(n): if n == 0: return 0.02 if n >= 1: return pow(main(n - 1), 3) / 15 + pow(main(n - 1), 2) + 0.06" "from math import sin def main(n): if n == 0: return 0.64 else: return sin(main(n - 1) ** 2) ** 3 - main(n - 1) - 39" "import math def main(n): if n == 0: return -0.12 if n == 1: return -0.46 if n >= 2: return main(n - 2) ** 3 + main(n - 1) / 45" "def main(n): if n == 0: return 0.74 elif n == 1: return -0.19 elif n >= 2: return main(n - 1) / 92 - main(n - 1) ** 2 - main(n - 2) ** 3" "import math def main(n): if n == 0: return 0.64 return 41 * math.log(main(n - 1) + 73 * main(n - 1) ** 3 + 1) ** 3" "from math import sin def main(n): if n == 0: return -0.69 if n == 1: return -0.33 if n >= 2: return sin(21 * main(n - 1) + 65 * main(n - 2) ** 3)" "import math def main(n): if n == 0: return -0.32 elif n == 1: return 0.39 elif n >= 2: r1 = main(n - 1) ** 3 r2 = main(n - 2) ** 3 r3 = main(n - 2) ** 2 return r1 + r2 - r3" "import math def main(n): if n == 0: return 0.64 elif n >= 1: return 4 * main(n - 1) - 68 - 14 * math.atan(6 * main(n - 1) ** 2 + 66 * main(n - 1) ** 3 + 1) ** 3" "from math import log10 def main(n): if n == 0: return -0.91 elif n >= 1: return log10(52 * main(n - 1) ** 2 + 82) ** 2 + 88" "def main(n): if n == 0: return 0.21 elif n == 1: return -0.4 elif n >= 2: f = (main(n - 2) ** 2 / 54) ** 2 - 1 - main(n - 1) ** 3 return f" "import math def main(n): if n == 0: return 0.07 else: return 0.01 - (main(n - 1) - 64 * main(n - 1) ** 2 - 0.08) ** 3 - main(n - 1)" "def main(n): if n == 0: return 0.95 elif n == 1: return -0.43 elif n >= 2: return 93 * (main(n - 2) ** 3 / 40) ** 3 + main(n - 1) / 55" "import math def main(n): if n == 0: return -0.3 return math.sin(36 + main(n - 1) ** 3 + main(n - 1) ** 2 / 49) ** 3" "import math def main(n): if n == 0: return -0.75 elif n == 1: return -0.87 elif n >= 2: a = 1 + math.sin(main(n - 2) - main(n - 2) ** 3) ** 2 + main(n - 1) return a" "import math def main(n): if n == 0: return 0.0 return 62 + math.cos(9 * main(n - 1) ** 2 + 1 + main(n - 1)) ** 3 / 83" "import math def main(n): if n == 0: return 0.58 elif n >= 1: return 1 + main(n - 1) + 76 * (main(n - 1) / 34 - main(n - 1) ** 2 / 66) ** 3" "def main(n): if n == 0: return 0.31 return main(n - 1) ** 3 + 46 * main(n - 1) / 35" "import math def main(n): if n == 0: return 0.92 elif n == 1: return 0.16 elif n >= 2: return main(n - 1) ** 2 + math.sin(main(n - 2)) ** 3" "import math def main(n): if n == 0: return -0.31 elif n == 1: return -0.1 elif n >= 2: return main(n - 2) ** 2 - 3 * (23 * main(n - 1) ** 2 + 21 * main(n - 1) ** 3 + main(n - 1)) ** 3" "import math def main(n): if n == 0: return -0.34 elif n == 1: return 0.47 elif n >= 2: return math.sin(1 - main(n - 2) ** 3 - 62 * main(n - 1)) ** 2 / 12 - 0.01" "import math def main(n): if n == 0: return 0.1 elif n == 1: return 0.68 elif n >= 2: r1 = 85 + 15 * math.atan(main(n - 1)) ** 3 + math.sqrt(main(n - 2)) return r1" "import math def main(n): if n == 0: return -0.25 elif n == 1: return -0.55 elif n >= 2: return 77 * math.log(97 + 51 * main(n - 1) + main(n - 2) ** 3, 10)" "import math def main(n): total = 0 if n == 0: return -0.08 left = 5 * math.sqrt(main(n - 1) ** 2 / 84 + main(n - 1) ** 3 / 50 + 0.01) ** 3 right = (35 * main(n - 1) ** 2) ** 2 total += left + right return total" "from math import atan, floor def f(n): if n == 0: return -0.92 return atan(f(n - 1)) ** 2 / 3 - 84 - 42 * floor(f(n - 1)) def main(n): return f(n)" "def main(n): if n == 0: return 1 elif n == 1: return 0.06 else: return abs(main(n - 2) - main(n - 1) ** 2) ** 3" "def main(n): if n == 0: return -0.26 elif n == 1: return -0.75 elif n >= 2: return (main(n - 1) + 46 * main(n - 2) ** 3 + 1) / 77" "def f(n): if n == 0: return -0.06 else: return pow(f(n - 1) - pow(f(n - 1), 3) - 13 * pow(f(n - 1), 2), 2) - 0.05 def main(*args): return f(*args)" "import math def main(n): if n == 0: return 0.16 elif n == 1: return 0.39 elif n >= 2: return 1 + main(n - 1) + 82 * math.atan(72 * main(n - 2) ** 2) ** 3" "from math import atan, factorial def main(n): if n == 0: return 0.29 if n >= 1: res1 = atan(69 * main(n - 1) ** 3 + main(n - 1) / 42) / 55 res2 = res1 + 0.02 + main(n - 1) ** 2 return res2" "import math def main(n): if n == 0: return -0.14 elif n == 1: return 0.16 else: return math.tan(main(n - 2) - main(n - 1) ** 3) ** 2" "def main(x): if x == 0: return -0.8 if x == 1: return -0.41 if x >= 2: return abs(main(x - 1) ** 3) - (main(x - 1) ** 3 + main(x - 2)) ** 2" "import math def main(n): if n == 0: return 0.83 else: return 14 + math.sqrt(main(n - 1)) + 12 * math.log10(main(n - 1)) ** 2" "import math def main(n): if n == 0: return -0.71 if n >= 1: a = math.sin(1 + main(n - 1) ** 2 + main(n - 1)) return 3 * a ** 3 - (main(n - 1) ** 2 - 1) ** 2 - 1" "import math def main(n): if n == 0: return -0.62 if n == 1: return 0.25 if n >= 2: return math.atan(main(n - 2)) + (main(n - 1) / 33) ** 2" "from math import * def main(n): if n == 0: return -0.32 else: return 0.01 + main(n - 1) ** 2 + cos(main(n - 1)) ** 3" "import math def main(n): if n == 0: return -0.87 elif n == 1: return -0.21 elif n >= 2: r1 = math.atan(94 - 14 * main(n - 2) ** 2) ** 2 / 45 r2 = main(n - 1) return r1 + r2" "from math import cos def main(n): if n == 0: return 0.2 else: m = main(n - 1) a = cos(0.01 + m / 43 + 34 * m ** 2) ** 2 return a / 6 - m ** 3" "import math def main(n): if n == 0: return 0.51 elif n >= 1: r1 = 51 * math.log(main(n - 1)) ** 2 + main(n - 1) return r1" "import math def main(n): if n == 0: return -0.69 if n >= 1: return math.log(1 + main(n - 1) ** 3 / 83 + main(n - 1)) ** 2 + 64" "import math def main(n): if n == 0: return -0.83 elif n == 1: return -0.35 elif n >= 2: return 4 * math.cos(main(n - 2)) ** 2 - 1 - math.exp(main(n - 1) ** 3 / 56 - 22 * main(n - 2) ** 2) ** 3" "import math def main(n): if n == 0: return -0.04 elif n >= 1: r1 = 1 - math.exp(main(n - 1) ** 2 - 3 - 23 * main(n - 1)) - main(n - 1) ** 3 return r1" "import math def main(n): if n == 0: return -0.06 elif n == 1: return 0.03 else: return main(n - 2) - 67 * (81 * main(n - 1) ** 3) ** 2" "import math def main(n): if n == 0: return 0.25 elif n == 1: return -0.69 elif n >= 2: return (main(n - 2) - main(n - 2) ** 2) ** 2 + math.exp(main(n - 1)) / 77" "from math import cos def main(n): if n == 0: return -0.39 elif n == 1: return 0.02 else: return pow(cos(60 * pow(main(n - 2), 2) + main(n - 1)), 3) - pow(main(n - 2), 2)" "import math def main(n): if n == 0: return -0.78 elif n == 1: return 0.22 elif n >= 2: a = main(n - 1) ** 2 - math.tan(main(n - 2) ** 2) b = math.sin(main(n - 2)) ** 3 s = a - b return s" "from math import asin def main(n): if n == 0: return -0.8 else: return asin(main(n - 1)) ** 3 - (main(n - 1) ** 3 / 73 + main(n - 1)) / 3 - 0.07" "import math def main(n): if n == 0: return -0.08 return math.sin(main(n - 1) - main(n - 1) ** 3)" "from math import log10 def f(n): if n == 0: return 0.71 return f(n - 1) + 21 * log10(f(n - 1)) ** 3 + 19 def main(n): return f(n)" "def main(n): if n == 0: return 0.2 return main(n - 1) ** 2 - main(n - 1) - 1" "import math def main(n): if n == 0: return 0.16 elif n == 1: return 0.93 elif n >= 2: return 2 * math.log(main(n - 1), 2) ** 2 + main(n - 2)" "import math def main(n): if n == 0: return 0.16 if n == 1: return 0.93 return 2 * math.log2(main(n - 1)) ** 2 + main(n - 2)" "from math import atan def main(n): if n == 0: return 0.43 elif n >= 1: return atan(main(n - 1) ** 2 - main(n - 1) / 62) ** 2 + 1" "from math import cos def main(n): if n == 0: return 0.5 elif n == 1: return -0.41 elif n >= 2: return main(n - 2) ** 2 + main(n - 2) ** 3 + cos(main(n - 1)) / 70" "import math as m def f(n): if n == 0: return 0.97 elif n >= 1: return m.atan(f(n - 1) / 94 + 98 * f(n - 1) ** 2 + f(n - 1) ** 3) ** 2 + 34 * m.ceil(f(n - 1)) + 1 def main(n): return f(n)"