class Modulo_Error(Exception):
pass
class Modulo():
def __init__(self,a,n):
self.a=a%n
self.n=n
def __str__(self):
return "{} (mod {})".format(self.a,self.n)
#+,-
def __pos__(self):
return self
def __neg__(self):
return Modulo(-self.a,self.n)
#等号,不等号
def __eq__(self,other):
if isinstance(other,Modulo):
return (self.a==other.a) and (self.n==other.n)
elif isinstance(other,int):
return (self-other).a==0
def __neq__(self,other):
return not(self==other)
#加法
def __add__(self,other):
if isinstance(other,Modulo):
if self.n!=other.n:
raise Modulo_Error("異なる法同士の演算です.")
return Modulo(self.a+other.a,self.n)
elif isinstance(other,int):
return Modulo(self.a+other,self.n)
def __radd__(self,other):
if isinstance(other,int):
return Modulo(self.a+other,self.n)
#減法
def __sub__(self,other):
return self+(-other)
def __rsub__(self,other):
if isinstance(other,int):
return -self+other
#乗法
def __mul__(self,other):
if isinstance(other,Modulo):
if self.n!=other.n:
raise Modulo_Error("異なる法同士の演算です.")
return Modulo(self.a*other.a,self.n)
elif isinstance(other,int):
return Modulo(self.a*other,self.n)
def __rmul__(self,other):
if isinstance(other,int):
return Modulo(self.a*other,self.n)
#Modulo逆数
def Modulo_Inverse(self):
x0, y0, x1, y1 = 1, 0, 0, 1
a,b=self.a,self.n
while b != 0:
q, a, b = a // b, b, a % b
x0, x1 = x1, x0 - q * x1
y0, y1 = y1, y0 - q * y1
if a!=1:
raise Modulo_Error("{}の逆数が存在しません".format(self))
else:
return Modulo(x0,self.n)
#除法
def __truediv__(self,other):
return self*other.Modulo_Inverse()
#累乗
def __pow__(self,m):
u=abs(m)
r=Modulo(1,self.n)
while u>0:
if u%2==1:
r*=self
self*=self
u=u>>1
if m>=0:
return r
else:
return r.Modulo_Inverse()
#-----------------------------------------------------------------------------
M=10**9+7
def f(L):
if len(L)<=1:
return L[0]
else:
return f([L[i]+L[i+1] for i in range(len(L)-1)])
def g(N):
return Modulo(int(N),M)
N=int(input())
A=list(map(g,input().split()))
print(f(A).a)