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lint fixes

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This commit is contained in:
lukew3
2021-10-06 10:47:44 -04:00
parent 1b5054f6d3
commit 05b61130da
8 changed files with 12 additions and 15 deletions
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3
mathgenerator/funcs/basic_math/cube_root.py
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@@ -6,8 +6,7 @@ def cubeRootFunc(minNo=1, maxNo=1000, format='string'):
a = b**(1 / 3) a = b**(1 / 3)
if format == 'string': if format == 'string':
return ("What is the cube root of " + str(b) + return "What is the cube root of " + str(b) + " up to 2 decimal places?", str(round(a, 2))
" up to 2 decimal places?", str(round(a, 2)))
elif format == 'latex': elif format == 'latex':
return (f"\\(\\sqrt[3]{{{b}}}=\\)", "\\(" + str(round(a, 2)) + "\\)") return (f"\\(\\sqrt[3]{{{b}}}=\\)", "\\(" + str(round(a, 2)) + "\\)")
else: else:

6
mathgenerator/funcs/basic_math/divide_fractions.py
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@@ -32,14 +32,14 @@ def divideFractionsFunc(maxVal=10, format='string'):
if format == 'string': if format == 'string':
return f"({a}/{b})/({c}/{d})", x return f"({a}/{b})/({c}/{d})", x
elif format == 'latex': elif format == 'latex':
problem = "\\(\\frac{" + str(a) + "}{" + str(b) + \
"}\\div\\frac{" + str(c) + "}{" + str(d) + "}=\\)"
if tmp_d == 1 or tmp_d == gcd: if tmp_d == 1 or tmp_d == gcd:
solution = "\\(" + str(sol_numerator) + "\\)" solution = "\\(" + str(sol_numerator) + "\\)"
else: else:
solution = "\\(\\frac{" + str(sol_numerator) + \ solution = "\\(\\frac{" + str(sol_numerator) + \
"}{" + str(sol_denominator) + "}\\)" "}{" + str(sol_denominator) + "}\\)"
return ("\\(\\frac{" + str(a) + "}{" + str(b) + \ return problem, solution
"}\\div\\frac{" + str(c) + "}{" + str(d) + "}=\\)",
solution)
else: else:
return a, b, c, d, x return a, b, c, d, x

2
mathgenerator/funcs/calculus/stationary_points.py
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@@ -11,7 +11,7 @@ def stationaryPointsFunc(maxExp=3, maxCoef=10, format='string'):
problem += coefficient * pow(x, exp) problem += coefficient * pow(x, exp)
solution = sympy.stationary_points(problem, x) solution = sympy.stationary_points(problem, x)
#if len(solution) != 0: # if len(solution) != 0:
solution = ','.join( solution = ','.join(
'({},{})'.format(str(p), sympy.sympify(problem.replace(x, p))) '({},{})'.format(str(p), sympy.sympify(problem.replace(x, p)))
for p in solution) for p in solution)

3
mathgenerator/funcs/computer_science/nth_fibonacci_number.py
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@@ -7,8 +7,7 @@ def nthFibonacciNumberFunc(maxN=100, format='string'):
golden_ratio = (1 + math.sqrt(5)) / 2 golden_ratio = (1 + math.sqrt(5)) / 2
n = random.randint(1, maxN) n = random.randint(1, maxN)
problem = f"What is the {n}th Fibonacci number?" problem = f"What is the {n}th Fibonacci number?"
ans = round((math.pow(golden_ratio, n) - math.pow(-golden_ratio, -n)) / ans = int((math.pow(golden_ratio, n) - math.pow(-golden_ratio, -n)) / (math.sqrt(5)))
(math.sqrt(5)))
if format == 'string': if format == 'string':
solution = f"{ans}" solution = f"{ans}"

3
mathgenerator/funcs/misc/decimal_to_roman_numerals.py
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@@ -26,8 +26,7 @@ def decimalToRomanNumeralsFunc(maxDecimal=4000, format='string'):
elif last_value == 4: elif last_value == 4:
solution += (roman_dict[divisor] + roman_dict[divisor * 5]) solution += (roman_dict[divisor] + roman_dict[divisor * 5])
elif 5 <= last_value <= 8: elif 5 <= last_value <= 8:
solution += (roman_dict[divisor * 5] + (roman_dict[divisor] * solution += (roman_dict[divisor * 5] + (roman_dict[divisor] * (last_value - 5)))
(last_value - 5)))
elif last_value == 9: elif last_value == 9:
solution += (roman_dict[divisor] + roman_dict[divisor * 10]) solution += (roman_dict[divisor] + roman_dict[divisor * 10])
x = math.floor(x % divisor) x = math.floor(x % divisor)

2
mathgenerator/funcs/misc/quotient_of_power_same_base.py
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@@ -10,7 +10,7 @@ def quotientOfPowerSameBaseFunc(maxBase=50, maxPower=10, format='string'):
if format == 'string': if format == 'string':
problem = f"The Quotient of {base}^{power1} and {base}^{power2} = " \ problem = f"The Quotient of {base}^{power1} and {base}^{power2} = " \
f"{base}^({power1}-{power2}) = {base}^{step}" f"{base}^({power1}-{power2}) = {base}^{step}"
return problem, str(solution) return problem, str(solution)
else: else:
return base, power1, power2, step, solution return base, power1, power2, step, solution

2
mathgenerator/funcs/misc/quotient_of_power_same_power.py
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@@ -10,7 +10,7 @@ def quotientOfPowerSamePowerFunc(maxBase=50, maxPower=10, format='string'):
if format == 'string': if format == 'string':
problem = f"The Quotient of {base1}^{power} and {base2}^{power} = " \ problem = f"The Quotient of {base1}^{power} and {base2}^{power} = " \
f"({base1}/{base2})^{power} = {step}^{power}" f"({base1}/{base2})^{power} = {step}^{power}"
return problem, str(solution) return problem, str(solution)
else: else:
return base1, base2, power, step, solution return base1, base2, power, step, solution

6
mathgenerator/funcs/statistics/conditional_probability.py
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@@ -19,9 +19,9 @@ def conditionalProbFunc(format='string'):
if format == 'string': if format == 'string':
problem = "Someone tested positive for a nasty disease which only {0:.2f}% of population have. " \ problem = "Someone tested positive for a nasty disease which only {0:.2f}% of population have. " \
"Test sensitivity (true positive) is equal to SN= {1:.2f}% whereas test specificity (true negative) SP= {2:.2f}%. " \ "Test sensitivity (true positive) is equal to SN= {1:.2f}% whereas test specificity (true negative) SP= {2:.2f}%. " \
"What is the probability that this guy really has that disease?".format( "What is the probability that this guy really has that disease?".format(
P_disease, true_positive, true_negative) P_disease, true_positive, true_negative)
solution = str(answer) + "%" solution = str(answer) + "%"
return problem, solution return problem, solution
else: else: