I am maintaining a Python script that uses xlrd to retrieve values from Excel spreadsheets, and then do various things with them. Some of the cells in the spreadsheet are high-precision numbers, and they must remain as such. When retrieving the values of one of these cells, xlrd gives me a float such as 0.38288746115497402.

However, I need to get this value into a string later on in the code. Doing either str(value) or unicode(value) will return something like "0.382887461155". The requirements say that this is not acceptable; the precision needs to be preserved.

I've tried a couple things so far to no success. The first was using a string formatting thingy:

data = "%.40s" % (value) 
data2 = "%.40r" % (value) 

But both produce the same rounded number, "0.382887461155".

Upon searching around for people with similar problems on SO and elsewhere on the internet, a common suggestion was to use the Decimal class. But I can't change the way the data is given to me (unless somebody knows of a secret way to make xlrd return Decimals). And when I try to do this:

data = Decimal(value)

I get a TypeError: Cannot convert float to Decimal. First convert the float to a string. But obviously I can't convert it to a string, or else I will lose the precision.

So yeah, I'm open to any suggestions -- even really gross/hacky ones if necessary. I'm not terribly experienced with Python (more of a Java/C# guy myself) so feel free to correct me if I've got some kind of fundamental misunderstanding here.

EDIT: Just thought I would add that I am using Python 2.6.4. I don't think there are any formal requirements stopping me from changing versions; it just has to not mess up any of the other code.

  • Can you change the format of the spreadsheet?
    – Katriel
    Aug 13, 2010 at 23:42
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    try using py2.7 and repr() instead
    – arthurprs
    Aug 13, 2010 at 23:43
  • @katrielalex: Probably not -- but what exactly did you have in mind? @arthurprs: Thanks, I'll check out 2.7. However, doesn't my example above with data2 = "%.40r" % (value) already implicitly call repr()? Unless repr() changed between 2.6.3 and 2.7...
    – jloubert
    Aug 13, 2010 at 23:51
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    @jloubert: that's fine, it's only reading the final values that's the problem. It would be some nasty hacking in Excel, but perfectly possible. You should make sure repr works on a few test cases; remember that this isn't an issue with repr but with the innate limitations of floats on a computer. I have a feeling you may just be being lucky with repr, although I could be wrong!
    – Katriel
    Aug 14, 2010 at 0:25
  • 3
    @jloubert: There's no need for Python 2.7. Yes, both the Python 2.7 and Python 2.6 (and earlier) implementations display a rounded value with repr, in the sense that they're not showing the exact value stored in the machine. But in both cases, that rounded value is deliberately chosen to be accurate enough that 'float(repr(x))' recovers x exactly. (I'm one of the implementers of the Python 2.7 float repr, so I have some idea what I'm talking about here. :) +1 for @John Machin's answer. Aug 14, 2010 at 7:49

5 Answers 5


I'm the author of xlrd. There is so much confusion in other answers and comments to rebut in comments so I'm doing it in an answer.

@katriealex: """precision being lost in the guts of xlrd""" --- entirely unfounded and untrue. xlrd reproduces exactly the 64-bit float that's stored in the XLS file.

@katriealex: """It may be possible to modify your local xlrd installation to change the float cast""" --- I don't know why you would want to do this; you don't lose any precision by floating a 16-bit integer!!! In any case that code is used only when reading Excel 2.X files (which had an INTEGER-type cell record). The OP gives no indication that he is reading such ancient files.

@jloubert: You must be mistaken. "%.40r" % a_float is just a baroque way of getting the same answer as repr(a_float).

@EVERYBODY: You don't need to convert a float to a decimal to preserve the precision. The whole point of the repr() function is that the following is guaranteed:

float(repr(a_float)) == a_float

Python 2.X (X <= 6) repr gives a constant 17 decimal digits of precision, as that is guaranteed to reproduce the original value. Later Pythons (2.7, 3.1) give the minimal number of decimal digits that will reproduce the original value.

Python 2.6.4 (r264:75708, Oct 26 2009, 08:23:19) [MSC v.1500 32 bit (Intel)] on win32
>>> f = 0.38288746115497402
>>> repr(f)
>>> float(repr(f)) == f

Python 2.7 (r27:82525, Jul  4 2010, 09:01:59) [MSC v.1500 32 bit (Intel)] on win32
>>> f = 0.38288746115497402
>>> repr(f)
>>> float(repr(f)) == f

So the bottom line is that if you want a string that preserves all the precision of a float object, use preserved = repr(the_float_object) ... recover the value later by float(preserved). It's that simple. No need for the decimal module.

  • @John: thank you very much for the clarification, I have changed my answer to mention yours! However -- I have just rechecked this on my system and it still does not reproduce the functionality that I believe the OP wanted. Specifically, if I define f = 0.38...97402 and then call repr(f), I get 0.38...974. Cast to a float, this number compares equal to f (they differ by less than my epsilon), but clearly does not maintain the full precision of the original definition. If I do d = decimal.Decimal( "0.38...97402" ), full precision is returned with str(d). Have I missed something?
    – Katriel
    Aug 14, 2010 at 12:22
  • Oh, I think I get it. Is the point you're making that Excel internally uses doubles, same as Python, so that the apparent higher precision is an illusion?
    – Katriel
    Aug 14, 2010 at 12:31
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    John: yes, repr() is sufficient if you want to just print the precise value. However, I think the comments on converting to Decimal would still be relevant if you want to do additional calculations with the numbers with a higher level of precision. For example, if you read a bunch of rows with float values and then use float arithmetic to sum them you could get rounding errors. Converting those to Decimals before summing would prevent that.
    – Matt Good
    Aug 16, 2010 at 22:44
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    @jloubert: "95% sure"??? It either does or it doesn't! Don't walk away from a problem! Produce evidence; repeat my Python 2.6.4 example and show what you get. Show (as I did) the Python banner line so that we can see exactly what Python implementation is "producing a rounded answer", if that happens. And a quick silly question: how did you know xlrd was producing 0.38288746115497402 without using repr()??? Aug 17, 2010 at 0:21
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    @jloubert: Still waiting for you to check your assertion. I don't understand why PythonWin debugger (itself an interpreter) is more reliable than typing lines into the official Python interpreter. Accurate when compared with what? Please do take a minute or two to run python -c"f=0.38288746115497402;print repr(f), float(repr(f))==f" at the command prompt using Python 2.6.4 Aug 19, 2010 at 23:39

You can use repr() to convert to a string without losing precision, then convert to a Decimal:

>>> from decimal import Decimal
>>> f = 0.38288746115497402
>>> d = Decimal(repr(f))
>>> print d
  • doc says that it's only "guaranteed" in 2.7+ (and probably 3.1+)
    – arthurprs
    Aug 13, 2010 at 23:48
  • I tried using repr() explicitly in 2.6.4, and it still rounded. I'm getting version 2.7 right now though to try that out.
    – jloubert
    Aug 13, 2010 at 23:53
  • Hm, I'm actually not clear on what the deal is with repr(). It's definitely in the 2.6 docs: docs.python.org/release/2.6/library/… Aug 13, 2010 at 23:55
  • Rounds in 3.1 and 2.6 for me. As expected, because this is under sys.float_info.epsilon on my system.
    – Katriel
    Aug 13, 2010 at 23:57
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    decimal is NOT needed. epsilons are irrelevant. xlrd doesn't lose precision. don't hack xlrd code. just use repr(). See my answer Aug 14, 2010 at 1:11

EDIT: I am wrong. I shall leave this answer here so the rest of the thread makes sense, but it's not true. Please see John Machin's answer above. Thanks guys =).

If the above answers work that's great -- it will save you a lot of nasty hacking. However, at least on my system, they won't. You can check this with e.g.

import sys
print( "%.30f" % sys.float_info.epsilon )

That number is the smallest float that your system can distinguish from zero. Anything smaller than that may be randomly added or subtracted from any float when you perform an operation. This means that, at least on my Python setup, the precision is lost inside the guts of xlrd, and there seems to be nothing you can do without modifying it. Which is odd; I'd have expected this case to have occurred before, but apparently not!

It may be possible to modify your local xlrd installation to change the float cast. Open up site-packages\xlrd\sheet.py and go down to line 1099:

elif rc == XL_INTEGER:
                    rowx, colx, cell_attr, d = local_unpack('<HH3sH', data)
                    self_put_number_cell(rowx, colx, float(d), self.fixed_BIFF2_xfindex(cell_attr, rowx, colx))

Notice the float cast -- you could try changing that to a decimal.Decimal and see what happens.

  • Thanks for the answer! Obviously I'd prefer to avoid editing the xlrd library, as that will undoubtedly get silly; however, I'll definitely give this a shot if nothing else ends up working.
    – jloubert
    Aug 13, 2010 at 23:58
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    @katriealex: Can you explain exactly what 'doesn't work' on your system? The suggestions to use repr should work fine. There's some misinformation here. sys.float_info.epsilon is not the smallest float that can be distinguished from zero; that value would be around 5e-324 on most machines. (Though IronPython currently does actually have this wrong value for sys.float_info.epsilon, I believe.) And the 'randomly added or subtracted' isn't really helpful either, and is a long way from describing what actually happens. Aug 14, 2010 at 8:02
  • @Mark: I have explained in a comment on your post (I'm not sure why =)).
    – Katriel
    Aug 14, 2010 at 12:23

EDIT: Cleared my previous answer b/c it didn't work properly.

I'm on Python 2.6.5 and this works for me:

a = 0.38288746115497402
print repr(a)
type(repr(a))    #Says it's a string

Note: This just converts to a string. You'll need to convert to Decimal yourself later if needed.

  • In Python 2.6.4, string._float() is still rounding. What version are you using?
    – jloubert
    Aug 13, 2010 at 23:55
  • Rewritten my answer. I think that string._float is actually still a float. (I don't know why it's in the string module, but that's probably why there's an _ at the beginning). Sorry for incorrect answer.
    – avacariu
    Aug 14, 2010 at 0:00
  • -1 Missed the point -- the problem is that float has limited accuracy, not that its representation is flawed. And repr( <anything> ) is a string. Decimal is definitely needed if you want to store the number in a Python datatype.
    – Katriel
    Aug 14, 2010 at 0:08
  • I say not: "However, I need to get this value into a string later on in the code." And even using Decimal you'd still need to convert to a string. So I say my answer doesn't miss the point. OP needed to convert to a string without the rounding error.
    – avacariu
    Aug 14, 2010 at 0:21

As has already been said, a float isn't precise at all - so preserving precision can be somewhat misleading.

Here's a way to get every last bit of information out of a float object:

>>> from decimal import Decimal
>>> str(Decimal.from_float(0.1))

Another way would be like so.

>>> 0.1.hex()

Both strings represent the exact contents of the float. Allmost anything else interprets the float as python thinks it was probably intended (which most of the time is correct).

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