4

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
  tax_rate
end

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

8

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.

3

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

2
  • 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
1

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

Try

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
0

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.

2
  • 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

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