"""Create fallback_executor
Generated by Phi-Octopus Eden
2025-11-07 02:51:04.382407
"""

```python
from typing import Callable, Any


class FallbackExecutor:
    """
    A class for executing functions with fallback behavior in case of errors.

    Args:
        primary_executor: The main function to execute.
        fallback_executor: The backup function to fall back to if an error occurs during execution.
    """

    def __init__(self, primary_executor: Callable[..., Any], fallback_executor: Callable[..., Any]):
        self.primary_executor = primary_executor
        self.fallback_executor = fallback_executor

    def execute(self, *args, **kwargs) -> Any:
        """
        Executes the primary function. If an error occurs, attempts to run the fallback function.

        Args:
            *args: Arguments for the primary function.
            **kwargs: Keyword arguments for the primary function.

        Returns:
            The result of the primary or fallback function execution, depending on success.
        """
        try:
            return self.primary_executor(*args, **kwargs)
        except Exception as e:
            print(f"An error occurred during primary execution: {e}")
            return self.fallback_executor(*args, **kwargs)


# Example usage
def divide_numbers(a: float, b: float) -> float:
    """Divide two numbers."""
    return a / b


def safe_divide_numbers(a: float, b: float) -> float:
    """Fallback function to safely divide two numbers with error handling."""
    try:
        return a / b
    except ZeroDivisionError:
        print("Caught division by zero. Using fallback.")
        return 0.0


fallback_executor = FallbackExecutor(divide_numbers, safe_divide_numbers)

# Example calls
result1 = fallback_executor.execute(10.0, 2.0)  # Normal execution
print(f"Result: {result1}")

result2 = fallback_executor.execute(10.0, 0.0)  # Fallback due to division by zero error
print(f"Result: {result2}")
```