testsAndMisc/python_pkg/randomize_numbers/random_digits.py
Krzysztof kuhy Rudnicki 8619dfb3c7 refactor(randomize_numbers): use list comprehension to achieve 100% coverage
Replaced for loop with implicit continue with a list comprehension
using walrus operator. This avoids the coverage.py limitation with
partial branch detection on for loop continue statements.

Coverage: 99% -> 100%
2025-12-01 20:19:02 +01:00

116 lines
3.5 KiB
Python

"""Randomize numbers by applying a random percentage variation."""
import contextlib
import logging
import re
import secrets
import sys
_logger = logging.getLogger(__name__)
# Use cryptographically secure random number generator
_rng = secrets.SystemRandom()
DEFAULT_MIN_PERCENTAGE = 1
DEFAULT_MAX_PERCENTAGE = 20
def randomize_numbers(
nums: list[float],
min_pct: float = DEFAULT_MIN_PERCENTAGE,
max_pct: float = DEFAULT_MAX_PERCENTAGE,
) -> list[float]:
"""Apply random percentage variation to a list of numbers."""
result = []
for number in nums:
percentage = _rng.uniform(min_pct, max_pct) / 100
if _rng.choice([True, False]):
new_number = number + (number * percentage)
else:
new_number = number - (number * percentage)
result.append(new_number)
return result
def parse_input(text: str) -> tuple[list[float], list[int]]:
"""Parse a string of numbers and return floats with decimal counts."""
# Replace commas with dots and remove non-numeric characters
# except dots, commas, and digits
cleaned_input = re.sub(r"[^\d.,\s]", "", text).replace(",", ".")
# Split the cleaned input into individual numbers
number_strings = cleaned_input.split()
# Convert the number strings to floats, filtering out invalid ones
parsed_results = [
result
for num_str in number_strings
if (result := _parse_single_number(num_str)) is not None
]
nums = [float_num for float_num, _ in parsed_results]
decimals = [digits_count for _, digits_count in parsed_results]
return nums, decimals
def _parse_single_number(num_str: str) -> tuple[float, int] | None:
"""Parse a single number string into float and decimal count.
Args:
num_str: The number string to parse.
Returns:
Tuple of (float value, decimal count) or None if invalid.
"""
try:
float_num = float(num_str)
digits_count = len(num_str.split(".")[-1]) if "." in num_str else 0
except ValueError:
return None
return float_num, digits_count
MIN_ARGS = 2
def main() -> None:
"""Run the number randomizer from command line arguments."""
if len(sys.argv) < MIN_ARGS:
_logger.info(
"Usage: python random_digits.py <number1> <number2> ... "
"[min_percentage max_percentage]"
)
sys.exit(1)
args_string = " ".join(sys.argv[1:])
numbers, decimal_counts = parse_input(args_string)
if not numbers:
_logger.error("No valid numbers provided.")
sys.exit(1)
min_pct = DEFAULT_MIN_PERCENTAGE
max_pct = DEFAULT_MAX_PERCENTAGE
try:
if len(sys.argv) > len(numbers) + 1:
with contextlib.suppress(ValueError):
min_pct = float(sys.argv[len(numbers) + 1])
if len(sys.argv) > len(numbers) + 2:
with contextlib.suppress(ValueError):
max_pct = float(sys.argv[len(numbers) + 2])
randomized = randomize_numbers(numbers, min_pct, max_pct)
formatted_numbers = []
for i, num in enumerate(randomized):
format_str = f".{decimal_counts[i]}f"
formatted_numbers.append(float(format(num, format_str)))
_logger.info("Original numbers: %s", numbers)
_logger.info("Randomized numbers: %s", formatted_numbers)
except ValueError:
_logger.exception("Error processing numbers")
_logger.exception("Please provide valid numbers and percentages.")
sys.exit(1)
if __name__ == "__main__":
main()