Backend DevelopmentPython Tutorial**Flatten vs. Ravel: When Should I Use Which NumPy Function?**
Understanding the Differences Between Numpy's Flatten and Ravel Functions
When working with multidimensional arrays in NumPy, you may encounter scenarios where you need to convert them into a one-dimensional form. This is where the flatten() and ravel() functions come into play. However, despite their similar outcomes, they employ distinct methods and have unique implications for performance and memory management.
Similarities:
Both flatten() and ravel() produce a flattened array, as demonstrated by the provided code example:
import numpy as np y = np.array(((1,2,3),(4,5,6),(7,8,9))) print(y.flatten()) [1 2 3 4 5 6 7 8 9] print(y.ravel()) [1 2 3 4 5 6 7 8 9]
Differences:
- Memory Allocation: flatten() always creates a copy of the original array, while ravel() produces a view of the original array whenever possible. This implies that modifying the returned array from flatten() has no impact on the original array, whereas changes made to the array returned by ravel() will be reflected in the original.
- Performance: Ravel() tends to be faster than flatten() because it avoids memory copying and makes use of contiguous views. This can be advantageous when dealing with large arrays.
- Stride Handling: reshape((-1,)) offers another option for flattening arrays, but it returns a view instead of a copy like flatten(). However, it may not guarantee contiguity, which can affect performance.
Conclusion:
Understanding the subtle nuances between flatten() and ravel() equips you with the knowledge to make informed decisions about when to employ each function. If preserving the original array is crucial or if you need to create a new copy for further processing, flatten() is the preferred choice. On the other hand, when speed is of the essence and modifying the flattened array is acceptable, ravel() provides a more efficient solution.
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