Generalized magic

master
Per.Andreas.Brodtkorb 12 years ago
parent 217a67893a
commit cf2b303821

@ -10,19 +10,69 @@ __all__ = ['peaks', 'humps', 'magic']
def magic(n): def magic(n):
''' '''
Return magic square for n of odd orders. Return magic square for n of any orders > 2.
A magic square has the property that the sum of every row and column, A magic square has the property that the sum of every row and column,
as well as both diagonals, is the same number. as well as both diagonals, is the same number.
Examples
--------
>>> magic(3)
array([[8, 1, 6],
[3, 5, 7],
[4, 9, 2]])
>>> magic(4)
array([[16, 2, 3, 13],
[ 5, 11, 10, 8],
[ 9, 7, 6, 12],
[ 4, 14, 15, 1]])
>>> magic(6)
array([[35, 1, 6, 26, 19, 24],
[ 3, 32, 7, 21, 23, 25],
[31, 9, 2, 22, 27, 20],
[ 8, 28, 33, 17, 10, 15],
[30, 5, 34, 12, 14, 16],
[ 4, 36, 29, 13, 18, 11]])
''' '''
if np.mod(n,1)==1: # odd order if np.mod(n,2)==1: # odd order
ix = np.arange(n) + 1 ix = np.arange(n) + 1
J, I = np.meshgrid(ix, ix) J, I = np.meshgrid(ix, ix)
A = np.mod(I + J - (n + 3) / 2, n) A = np.mod(I + J - (n + 3) / 2, n)
B = np.mod(I + 2 * J - 2, n) B = np.mod(I + 2 * J - 2, n)
M = n * A + B + 1 M = n * A + B + 1
elif np.mod(n,4)==0: # doubly even order
M = np.arange(1,n*n+1).reshape(n,n)
ix = np.mod(np.arange(n) + 1,4)//2
J, I = np.meshgrid(ix, ix)
iz = np.flatnonzero(I==J)
M.put(iz, n*n+1-M.flat[iz])
else: # singly even order
p = n//2
M0 = magic(p)
M = np.hstack((np.vstack((M0, M0+3*p*p)),np.vstack((M0+2*p*p, M0+p*p))))
if n>2:
k = (n-2)//4
Jvec = np.hstack((np.arange(k), np.arange(n-k+1, n)))
for i in range(p):
for j in Jvec:
temp = M[i][j]
M[i][j]=M[i+p][j]
M[i+p][j] = temp
i=k
j=0
temp = M[i][j];
M[i][j] = M[i+p][j]
M[i+p][j] = temp;
j=i;
temp=M[i+p][j];
M[i+p][j]=M[i][j];
M[i][j]=temp;
return M return M
@ -35,7 +85,8 @@ def peaks(x=None, y=None, n=51):
------- -------
>>> import matplotlib.pyplot as plt >>> import matplotlib.pyplot as plt
>>> x,y,z = peaks() >>> x,y,z = peaks()
>>> h = plt.contourf(x,y,z)
h = plt.contourf(x,y,z)
''' '''
if x is None: if x is None:
@ -60,7 +111,8 @@ def humps(x=None):
>>> import matplotlib.pyplot as plt >>> import matplotlib.pyplot as plt
>>> x = np.linspace(0,1) >>> x = np.linspace(0,1)
>>> y = humps(x) >>> y = humps(x)
>>> h = plt.plot(x,y)
h = plt.plot(x,y)
''' '''
if x is None: if x is None:
y = np.linspace(0, 1) y = np.linspace(0, 1)
@ -69,5 +121,9 @@ def humps(x=None):
return 1.0 / ((y - 0.3) ** 2 + 0.01) + 1.0 / ((y - 0.9) ** 2 + 0.04) + 2 * y - 5.2 return 1.0 / ((y - 0.3) ** 2 + 0.01) + 1.0 / ((y - 0.9) ** 2 + 0.04) + 2 * y - 5.2
def test_docstrings():
import doctest
doctest.testmod()
if __name__ == '__main__': if __name__ == '__main__':
pass test_docstrings()

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