So for this model method:

def tax_rate
  tax_rate = 0.0
  tax_rate += STATE_TAX if state_taxable?  #STATE_TAX = 0.1
  tax_rate += IMPORT_TAX if imported?      #IMPORT_TAX = 0.05

This test fails:

@item.update_attributes({:state_taxable => true,
                         :imported => true,
                         :price => 32.19})
assert_equal 0.15, @item.tax_rate

I get this error:

<0.15> expected but was <0.15>.

However, this test will pass:

@item.update_attributes({:state_taxable => true,
                         :imported => false,
                         :price => 14.99})
assert_equal 0.1, @item.tax_rate

So I get the error when tax_rate does 0.0 + 0.1 + 0.05, but not when it does 0.0 + 0.1, or 0.0 + 0.05. Both 0.15s are Floats, so I don't see what could be causing this. I've spent too long mulling over this, hopefully someone can point out what the culprit is. Thanks in advance guys.

4 Answers 4


Floating-point numbers can't be represented exactly; what you need to do is use assert_in_delta to check you're within a specified range.

Something like assert_in_delta 0.15, @item.tax_rate, 0.001 should do it: it'll check you're within 0.001 of the expected value.


IMHO, you should store such things as a integer numbers (in cents).

  • Good point. I'll go that route, thanks. Still an odd assertion failure to me though.
    – solidcell
    Commented Aug 16, 2010 at 8:06
  • 2
    You can use assert_in_delta for assertion.
    – taro
    Commented Aug 16, 2010 at 8:14

I have had this error many times and it's been because they were different classes.


assert_equal 0.15.class, @item.tax_rate.class

And I am sure it will say something like

<float> expected but was <double>.

If you do

assert_equal 0.15.to_float, @item.tax_rate.to_float

It'll probably pass


0.1, along with other numbers, cannot be represented exactly in floating-point arithmetics. Hence, you should use something like (I'm no Ruby guy):

assert_true abs(0.15 - @item.tax_rate) < 0.0001

And generally speaking, you shouldn't really be using floats for money/currency: there are a lot of really nasty subtle issues that will lose money between the cracks. See this question.

  • But tax_rate is still returning 0.15, not 0.149999 or something similar, so why is it causing this problem? Any suggestions on a way I could do it?
    – solidcell
    Commented Aug 16, 2010 at 8:01
  • It may well be 0.14999999999999998 or 0.15000000000000002; those bits at the end get rounded off normally on display, but they're still there in the IEEE representation. Don't compare floating-point numbers (unless you really know what you're doing). Commented Aug 16, 2010 at 13:11

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.