# Pythonのcvxpyプログラムを関数にする方法を教えて下さい

(参考)2010年度 京都大・文系数学第2問 問題と解答
https://www.densu.jp/kyoto/10kyotolpass.pdf#page=2
https://www.densu.jp/kyoto/10kyotolpass.pdf#page=7
(参考)シンプルな最適化問題を解いてみる(その2)
https://myenigma.hatenablog.com/entry/2016/11/06/114603
(参考)4x+y <= 9, x+2y >= 4,2x-3y >= -6
https://www.wolframalpha.com/input/?i=4*x%2By+%3C%3D+9%2C+x%2B2*y+%3E%3D+4%2C2*x-3*y+%3E%3D+-6&lang=ja

``````import cvxpy
import numpy as np
x = cvxpy.Variable()
y = cvxpy.Variable()
A = cvxpy.Problem(cvxpy.Maximize( 2*x + y ), [4*x+y <= 9, x+2*y >= 4,2*x-3*y >= -6]).solve()
print("# x,y,Max:", np.round(x.value,3), np.round(y.value,3),np.round(A,3))
A = cvxpy.Problem(cvxpy.Minimize( 2*x + y ), [4*x+y <= 9, x+2*y >= 4,2*x-3*y >= -6]).solve()
print("# x,y,Min:", np.round(x.value,3), np.round(y.value,3),np.round(A,3))
# x,y,Max: 1.5 3.0 6.0
# x,y,Min: 0.0 2.0 2.0
``````

``````import cvxpy
import numpy as np
def myMax_cvxpy(my_objective,my_constraints):
Ans = cvxpy.Problem(cvxpy.Maximize( my_objective ), my_constraints).solve()
return Ans
def myMin_cvxpy(my_objective,my_constraints):
Ans = cvxpy.Problem(cvxpy.Miniimize( my_objective ), my_constraints).solve()
return Ans
my_Ans = myMax_cvxpy(2*x + y , [4*x+y <= 9, x+2*y >= 4,2*x-3*y >= -6])
print("# x,y,Max:", my_Ans[0],my_Ans[1],my_Ans[1])
my_Ans = myMin_cvxpy(2*x + y , [4*x+y <= 9, x+2*y >= 4,2*x-3*y >= -6])
print("# x,y,Min:", my_Ans[0], my_Ans[1], my_Ans[1])
``````

## 2 件の回答

``````x = cvxpy.Variable()
y = cvxpy.Variable()
my_Ans = myMax_cvxpy(2*x + y , [4*x+y <= 9, x+2*y >= 4,2*x-3*y >= -6])
print("# x,y,Max:", np.round(x.value,3), np.round(y.value,3), np.round(my_Ans, 3))
my_Ans = myMin_cvxpy(2*x + y , [4*x+y <= 9, x+2*y >= 4,2*x-3*y >= -6])
print("# x,y,Max:", np.round(x.value,3), np.round(y.value,3), np.round(my_Ans, 3))
``````

``````import cvxpy as cvx
import numpy as np
def myMax_cvxpy(my_objective,my_constraints):
prob = cvx.Problem(cvx.Maximize(my_objective), my_constraints)
A = prob.solve()
my_ans=np.append(x.value,A)
return my_ans
def myMin_cvxpy(my_objective,my_constraints):
prob = cvx.Problem(cvx.Minimize(my_objective), my_constraints)
A = prob.solve()
my_ans=np.append(x.value,A)
return my_ans
x = cvx.Variable(2)
objective = 2*x[0] + x[1]
constraints = [4*x[0]+x[1] <= 9, x[0]+2*x[1] >= 4,2*x[0]-3*x[1] >= -6]
print("# 最大値",myMax_cvxpy(objective , constraints))
print("# 最小値",myMin_cvxpy(objective , constraints))
print("# 最大値",np.round((myMax_cvxpy(objective , constraints)),3))
print("# 最小値",np.round((myMin_cvxpy(objective , constraints)),3))
# 最大値 [1.5        2.99999998 5.99999998]
# 最小値 [2.91004066e-10 2.00000000e+00 2.00000000e+00]
# 最大値 [1.5 3.  6. ]
# 最小値 [0. 2. 2.]
``````