CalWay_Python/69-5 - 副本.py

x = [0,1,2,3]
y = [0,0,0,0]

def ZGsolve(A,b):
    n = len(b)
    beta = [0]*n
    for i in range(n):
        if i == 0:
            beta[i] = A[i][2] / A[i][1]
        else:
            beta[i] = A[i][2] / (A[i][1] - A[i][0]*beta[i-1])

    for i in range(n):
        if i == 0:
            b[i] = b[i] / A[i][1]
        else:
            b[i] = (b[i] - A[i][0]*b[i-1]) / (A[i][1] - A[i][0]*beta[i-1])

    for i in range(n-2,-1,-1):
        b[i] = b[i] - beta[i]*b[i+1]

    return b


def GetDList(list_r):
    result = []
    for i in range(1,len(list_r)):
        result.append(list_r[i] - list_r[i-1])
    return result

def GetDQList(list_x, list_y):
    result = []
    for i in range(1,len(list_y)):
        result.append((list_y[i] - list_y[i-1]) / (list_x[i] - list_x[i-1]))
    return result

def CubicSplineInterpolation(list_x,list_y,boundary_type,a1,a2):
    list_h = GetDList(list_x)
    list_dqxy = GetDQList(list_x, list_y)
    list_mu = [list_h[i]/(list_h[i]+list_h[i+1]) for i in range(len(list_h)-1)]
    list_lamda = [1-i for i in list_mu]
    list_g = [6*(list_dqxy[i+1]-list_dqxy[i])/(list_h[i+1]+list_h[i]) for i in range(len(list_h)-1)]

    A = []
    b = []
    if boundary_type == 0:  # 自然边界条件
        pass
    elif boundary_type == 1:  # 一阶导数边界条件
        A.append([0,2,1])
        b.append(6/list_h[0]*(list_dqxy[1]-a1))
        for i in range(len(list_g)):
            A.append([list_mu[i],2,list_lamda[i]])
            b.append(list_g[i])
        A.append([1,2,0])
        b.append(6/list_h[-1]*(a2-list_dqxy[-1]))
        M = ZGsolve(A,b)

    elif boundary_type == 2:  # 二阶导数边界条件
        A.append([0,2,list_lamda[0]])
        b.append(list_g[0]-list_mu[0]*a1)
        for i in range(1,len(list_g)-1):
            A.append([list_mu[i],2,list_lamda[i]])
            b.append(list_g[i])
        A.append([list_mu[-1],2,0])
        b.append(list_g[-1]-list_lamda[-1]*a2)
        M = ZGsolve(A,b)
        M = [a1] + M + [a2]

    return M,list_h


if __name__ == "__main__":
    M,list_h = CubicSplineInterpolation(x,y,2,1,0)

    print("list_h:",list_h)
    print("M:",M)
    for i in range(3):
        k1 = (M[i+1]-M[i])/6/list_h[i]
        k2 = (M[i]*x[i+1]-M[i+1]*x[i])/2/list_h[i]
        k3 = (3*M[i+1]*x[i]**2-3*M[i]*x[i+1]**2-6*y[i]+M[i]*list_h[i]**2+6*y[i+1]-M[i+1]*list_h[i]**2)/6/list_h[i]
        k4 = (M[i]*x[i+1]**3-M[i+1]*x[i]**3+6*y[i]*x[i+1]-M[i]*list_h[i]**2*x[i+1]-6*y[i+1]*x[i]+M[i+1]*list_h[i]**2*x[i])/6/list_h[i]
        # print(k1,k2,k3,k4)
        print("S(x)=%.10f*x^3+%.10f*x^2+%.10f*x+%.10f"%(k1,k2,k3,k4))