# Python int/str checking

I have a homework assignment and I've done the bare minimum of the assignment, but while working on it, I became interested in how to make my program better. The point of the code is to draw a user defined shape and provide feedback if they enter invalid inputs. I want to go ahead and make it so if a user enters a str for the height/width or one of the coordinates it gives an error, but I am unable to figure out exactly how to do it. It's an intro class so if you'd keep in mind we're just getting to while loops and we've gone over for loops, if/else/etc.

Here's the code I currently have:

``````
def draw_user_shape(pen):
shape = input("Please enter a shape: ")
while shape != "square" and shape != "rectangle" and shape != "triangle":
shape = input("Invalid shape, please enter either square, rectangle, or triangle: ")
if shape == "square":
h = input("Please enter a height: ")
while h != int or int(h) < 1:
h = input("That is an invalid height, please enter an positive integer: ")
h = int(h)
c = input("Please enter a color: ")
while c != str and str(c) != "red" and str(c) != "green" and str(c) != "blue":
c = input("That is an invalid color, please enter either red, blue, or green: ")
c = str(c)
x = input("Please enter an x-coordinate: ")
while x != int and int(x) == 1:
x = input("That is an invalid x-coordinate, please enter an integer: ")
x = int(x)
y = input("Please enter a y-coordinate: ")
while y != int and int(y) == int:
y = input("That is an invalid y-coordinate, please enter an integer: ")
y = int(y)
pen.fillcolor(c)
pen.up()
pen.goto(x,y)
pen.down()
pen.begin_fill()
pen.goto(x,y+h)
pen.goto(x+h,y+h)
pen.goto(x+h,y)
pen.goto(x,y)
pen.end_fill()
pen.up()
elif shape == "rectangle":
h = input("Please enter a height: ")
while h != int and int(h) < 1:
h = input("That is an invalid height, please enter an positive integer: ")
h = int(h)
w = input("Please enter a width: ")
while w != int and int(w) < 1:
w = input("That is an invalid height, please enter an positive integer: ")
w = int(w)
c = input("Please enter a color: ")
while c != str and str(c) != "red" and str(c) != "green" and str(c) != "blue":
c = input("That is an invalid color, please enter either red, blue, or green: ")
c = str(c)
x = input("Please enter an x-coordinate: ")
while x != int and int(x) == 1:
x = input("That is an invalid x-coordinate, please enter an integer: ")
x = int(x)
y = input("Please enter a y-coordinate: ")
while y != int and int(y) == int:
y = input("That is an invalid y-coordinate, please enter an integer: ")
y = int(y)
pen.fillcolor(c)
pen.up()
pen.goto(x, y)
pen.down()
pen.begin_fill()
pen.goto(x,y+h)
pen.goto(x+w,y+h)
pen.goto(x+w,y)
pen.goto(x,y)
pen.end_fill()
pen.up()
elif shape == "triangle":
h = input("Please enter a height: ")
while h != int and int(h) < 1:
h = input("That is an invalid height, please enter an positive integer: ")
h = int(h)
w = input("Please enter a width: ")
while w != int and int(w) < 1:
w = input("That is an invalid height, please enter an positive integer: ")
w = int(w)
c = input("Please enter a color: ")
while c != str and str(c) != "red" and str(c) != "green" and str(c) != "blue":
c = input("That is an invalid color, please enter either red, blue, or green: ")
c = str(c)
x = input("Please enter an x-coordinate: ")
while x != int and int(x) == 1:
x = input("That is an invalid x-coordinate, please enter an integer: ")
x = int(x)
y = input("Please enter a y-coordinate: ")
while y != int and int(y) == int:
y = input("That is an invalid y-coordinate, please enter an integer: ")
y = int(y)
pen.fillcolor(c)
pen.up()
pen.goto(x,y)
pen.down()
pen.begin_fill()
pen.goto(x+w/2,y+h)
pen.goto(x+w,y)
pen.goto(x,y)
pen.end_fill()
pen.up()

def main():
import turtle
pen = turtle.Turtle()
draw_user_shape(pen)

main()
``````
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Just wanted to say that I like that you're taking the initiative to make your program better. :) – Jeff Mercado Mar 24 '11 at 6:21

You'd want to use exception handling in this case. Basically the idea is to take the input and try to convert to an `int`. If that fails, a `ValueError` is raised. Otherwise you will get back the converted value. Remember, the input will always be given to you as a `str`, so you can't simply test if it's an `int`. Assuming you are using Python 3, you can do something like this to keep asking until the right value is typed in:

``````# keep asking for input until we get the right one
while True:
myInput = input('give me a number: ')
try:
myValue = int(myInput)
# if we reach this point, that means we got our number
break # this will jump out of the loop
except ValueError:
# if we reach this point, that means the input was bad
print('invalid input')
``````
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This is the way to go if you don't like my `isdigit` method. I just liked doing it the way that I did because it is shorter, but this has broader applicability. – Justin Peel Mar 24 '11 at 6:42
@Justin: Your way works well too, requiring minimal changes to the existing code. I just tend to think this way rather than that way. :) – Jeff Mercado Mar 24 '11 at 6:45
I ended up going this route -- thanks for your help! – Ryan Mar 24 '11 at 6:51
@Ryan: Also a hint, I'd put this in a separate function. No point in repeating this block of code for every input that you want to do, it just makes your code messier. Also consider moving the code which does each of the shapes into separate functions too. – Jeff Mercado Mar 24 '11 at 7:26

I would recommend using

``````not h.isdigit()
``````

to check if the string, h, doesn't contain an integer. It won't work for floating point numbers because what it is really checking for is if each digit is in the 0-9 range and the `.` won't be recognized (correctly) as a digit.

For instance the line

``````while h != int or int(h) < 1:
``````

would become

``````while not h.isdigit() or int(h) < 1:
``````

By the way, I'm assuming that you are using Python 3.x because otherwise your code wouldn't work because `input` works differently in Python 2.x. In Python 3.x, it should always return a string, so there isn't any reason to check that the returned object is a string.

-
``````>>> isinstance('a', int)
False
>>> isinstance(2, int)
True
``````
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