I'm starting to learn Python by writing an ODE solver. I would like to handle transparently both one- or many-variable input functions. Here is my code for one step of Euler's method:

```
def euler(h, t, y, f):
return (y + h*f for y,f in zip(y,f(t,y)))
```

Now I define two functions, `f1`

and `f2`

like this:

```
def f1(t,y):
return -2*t*y
def f2(t,y):
x, y = y #is rebinding usually ok, or confusing?
return (x - t*y, y + x/t)
```

When I test them, that's what (obviously) happens

```
>>> list(euler(0.01, 1, (1,2), f2))
[0.99, 2.03]
>>> list(euler(0.01, 1, 1, f1))
Traceback (most recent call last):
File "<stdin>", line 1, in <module>
File "<stdin>", line 2, in euler
TypeError: zip argument #1 must support iteration
```

I would like the solver to handle transparently if the function given works on one or more variables, but haven't found a cool way to do it. A way I found was

```
import operator as op
def euler(h, t, y, f):
if op.isNumberType(y):
return (y + h*f(t,y),)
return (y + h*f for y,f in zip(y,f(t,y)))
```

But now I passed a float and returned an iterable, so `list(euler(...))`

can suceed. However, I can't call, for example, `f(t,euler(...))`

.

Is there a way to handle a singleton sequence as a primitive type, or a primitive as a singleton sequence without endless checking? By "endless checking" I mean, having to check just in a few places, and not all over my code. Or should I just suck it up and make `f(t,y)`

expects a sequence instead of a numeric?

Thanks for any help, and tips about my coding are welcome, too!