I have written code that determines which natural numbers less than or equal to 1 000 000 are perfect digit-to-digit invariants (they can be written as the sum of their digits each raised to a power equal to the digit; see https://en.wikipedia.org/wiki/Perfect_digit-to-digit_invariant) and expresses them as in this form.

```
def f(n):
y = str(n)
l = len(y)
list = []
for i in range(0,l):
list.append(int(y[i]))
list2 = []
for i in list:
list2.append(i**i)
return sum(list2)
N = 10**6
n = np.linspace(1,N,N,dtype=int)
list = []
for i in n:
if i == f(i):
list.append(i)
list = np.array(list)
list2 = []
for i in list:
list2.append(str(i))
for i in list2:
for j in range(0,len(i)-1):
print(i[j],'^',i[j],'+')
print(i[-1],'^',i[-1],'=',int(i))
print('----------')
```

The output that running this code gives is:

```
1 ^ 1 = 1
----------
3 ^ 3 +
4 ^ 4 +
3 ^ 3 +
5 ^ 5 = 3435
----------
```

The code gives the correct answer but I want the expression 3^3 + 4^4 + 3^3 + 5^5 = 3435 to appear on one line. Is there a way to do this?

`print(i[j],'^',i[j],'+', end='')`