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fblgit
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simple-math

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math
finance
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11
fblgit commited on
Commit
cb4d9ac
1 Parent(s): 963f003

Create mathrandom-progressive.py

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It allows creating progressive sets easily.

Files changed (1) hide show
  1. mathrandom-progressive.py +46 -0
mathrandom-progressive.py ADDED
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+ import random
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+ import json
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+ import operator
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+
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+ num_samples = [20000, 50000, 230000, 500000]
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+ min_values = [-9.99, -19.99, -99.99, -99.99]
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+ max_values = [9.99, 19.99, 99.99, 99.99]
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+ vals_floats = ["%.2f", "%.3f", "%.3f", "%.4f"]
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+ result_floats = ["%.2f", "%.3f", "%.4f", "%.4f"]
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+ operations = {
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+ '+': operator.add,
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+ '-': operator.sub,
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+ '*': operator.mul,
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+ '/': operator.truediv
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+ }
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+
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+ def safe_division(numerator, denominator):
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+ return numerator if denominator == 0 else numerator / denominator
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+
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+ for idx, _ in enumerate(num_samples):
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+ data = []
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+ for _ in range(num_samples[idx]):
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+ num1, num2, num3 = None, None, None
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+ while num1 in [None, 0., -0.] or num2 in [None, 0., -0.] or num3 in [None, 0., -0.]:
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+ num1 = float(vals_floats[idx] % random.uniform(min_values[idx], max_values[idx]))
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+ num2 = float(vals_floats[idx] % random.uniform(min_values[idx], max_values[idx]))
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+ num3 = float(vals_floats[idx] % random.uniform(min_values[idx], max_values[idx]))
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+
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+ operation1 = random.choice(list(operations.keys()))
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+ operation2 = random.choice(list(operations.keys()))
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+
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+ if random.choice([True, False]):
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+ expression = f"({num1} {operation1} {num2}) {operation2} {num3}"
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+ intermediate_result = safe_division(num1, num2) if operation1 == '/' else operations[operation1](num1, num2)
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+ result = safe_division(intermediate_result, num3) if operation2 == '/' and intermediate_result != 0 else operations[operation2](intermediate_result, num3)
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+ else:
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+ expression = f"{num1} {operation1} {num2} {operation2} {num3}"
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+ intermediate_result = safe_division(num1, num2) if operation1 == '/' else operations[operation1](num1, num2)
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+ result = safe_division(intermediate_result, num3) if operation2 == '/' else operations[operation2](intermediate_result, num3)
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+
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+ output = result_floats[idx] % result
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+ data.append({'instruction': expression, 'output': output})
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+
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+ out_file = f'arithmetic-float-complex_{idx}.json'
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+ with open(out_file, 'w') as f:
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+ json.dump(data, f)