# Python floating point [duplicate]

Possible Duplicate:
Floating point equality in python

I have a small "issue" about my Python code (I use version 2.5 right now, in ika game engine). I currently script objects for my game, and i would like to know, if its safe to compare two floating point number This way:

I will make a short example of what I do currently.

Every objects has a speed, from 0-9, represented in floating points. For example

``````speed = 4.83
cord_x = 10.0
cord_y = 10.0
``````

They have an AddMovement method. This sets an X,Y value, and represents the goal coordinates for the object.

``````target_x = 25.0
target_x = 26.75
movement = True # This represents if the object is moveing or not
``````

Every frame, the Maximum speed equals to this value:

``````maximum_x_speed = abs(cord_x-target_x)
maximum_y_speed = abs(cord_y-target_y)
``````

And the real speed will be:

``````# Get the real X speed in this frame
if maximum_x_speed < speed:
real_x_speed = maximum_x_speed
else:
real_x_speed = speed

# Get the real Y speed in this frame
if maximum_y_speed < speed:
real_y_speed = maximum_y_speed
else:
real_y_speed = speed
``````

Now, based on this real_x_speed value, and real_y_speed value, i substract this value from the coordinates.

``````if target_x < cord_x:
cord_x -= real_x_speed
elif target_x > cord_x:
cord_x += real_x_speed
if target_y < cord_y:
cord_y -= real_y_speed
elif target_y > cord_y:
cord_y += real_y_speed
``````

And at the end, i check for equality

``````if cord_x == target_x and cord_y == target_y:
# Halt movement, reached goal
movement = False
``````

I had floating point errors in the past, with the 0.1 issue, and like... I fear, that this will cause some kind of error. Or this is logically impossible?

If i had grammar mistakes, sorry for them. english is not my native language... I would really appreciate some tips, if i should change this logic, or not.

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## marked as duplicate by AndiDog, Frank van Puffelen, McGarnagle, Mike Mackintosh, minitech♦Oct 12 '12 at 17:06

What is the "0.1" issue? Are you floating point errors, exceptions or it's saying two thinks are not equal when you think it should? –  Andy Hayden Oct 11 '12 at 12:09
Two things are not equal. I had a case a while ago, when i added 0.1 together 10 times, and made a check if its equal to 1.0 or not. –  Szebasztián Pertity Oct 11 '12 at 12:12

No, this type of code is never a good idea.

There will be floating point errors that accumulate, making it very hard to track. You really should use an "epsilon" approach, i.e. consider the two values equal if the difference is smaller than some set constant, which is often called epsilon:

``````def floats_equal(x, y, epsilon = 1e-4):
return abs(x - y) < epsilon
``````

Of course you must tweak the `epsilon` value as required for your application, but a game where the values represent pixel-based locations shouldn't need too much precision.

Note that, as also pointed out in other answers, there is a smallest epsilon that will work on the machine, but often you are better off using an application-level epsilon, such as the one above. When interpolating things in 2D pixel space for presentational purposes, there's seldom any point in precision in on the order of 2.22044604925 * 10-16, which happens to be the value of `sys.float_info.epsilon` on my local system.

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Thanks! Actually epsilon = 0.01 would work too in my case (I tested this now). The object will use integer value for rendering, so the difference is basically unseen. –  Szebasztián Pertity Oct 11 '12 at 13:16

It is usually better to do this this way:

``````EPSILON = 0.00001 # or whatever

if abs(cord_x - target_x) < EPSILON and abs(cord_y - target_y) < EPSILON:
# Halt movement, reached goal
movement = False
``````

Some people choose `EPSILON` to be:

``````import sys

sys.float_info.epsilon
``````

Which is the difference between 1 and the least value greater than 1 that is representable as a float - here

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The short answer is what you are doing is bad. The long answer is that the right way depends a bit on what you're doing. Take a look at a few different ways to compare floats:

http://randomascii.wordpress.com/2012/02/25/comparing-floating-point-numbers-2012-edition/

If you work with floating point numbers, it's worth reading through the whole thing.

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