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NumPy's magic circle: revealing the black technology of data processing
NumPy's magic circle: revealing the black technology of data processing
Definition of magic circle
The magic matrix is an n x n square matrix in which the sum of the numbers in each row, column and diagonal is equal. This constant is called the magic sum. For example, a 3 x 3 magic circle looks like this:
816 357 492
The magic sum of this magic circle is 15, and the sum of the numbers in its rows, columns and diagonals is 15.
Create magic array in NumPy
NumPy provides a convenience function called numpy.mgrid that can be used to create magic circles. This function creates a grid of evenly spaced numbers that can then be manipulated to generate a magic circle.
The following is the code to create a 3 x 3 magic circle using NumPy:
import numpy as np # 创建一个 3 x 3 的网格,数字范围为 1-9 grid = np.mgrid[1:4, 1:4] # 计算网格每个位置的距离矩阵 dists = np.abs(grid[0] - grid[1]) # 创建一个布尔掩码,将与对角线相距 1 的位置标记为 True mask = (dists == 1) | np.eye(3, dtype=bool) # 根据掩码对网格进行索引,得到魔法阵 magic_square = grid[mask]
Running this code will generate the following magic circle:
816 357 492
Mathematical properties of magic circle
Magic circles have many interesting mathematical properties, including:
- The sum of the numbers in rows, columns and diagonals is equal.
- The magic sum is equal to n(n² 1)/2, where n is the order of the magic circle.
- The magic circle can be flipped or rotated symmetrically in any row, column or diagonal.
- Magic circles can be created using a variety of algorithms, including the De La Loubère, Lucas and Siwo algorithms.
application
Magic arrays are widely used in various fields, including:
- Data processing: Magic array can be used to visualize and analyze multi-dimensional data.
- Computer Graphics: Magic circles can be used to create symmetrical and beautiful graphics.
- Game Theory: Magic circles can be used to design fair games and puzzles.
- Architecture and Design: Magic circles can be used to create structures and patterns with harmonious proportions and symmetry.
in conclusion
NumPy's magic circle function provides powerful tools for data processing and mathematical exploration. It allows developers to easily create square matrices with magical properties, unlocking a wide range of applications and possibilities.
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