# Why does the number 1e9999… (31 9s) cause problems in R?

When entering `1e9999999999999999999999999999999` into R, R hangs and will not respond - requiring it to be terminated.

It seems to happen across 3 different computers, OSes (Windows 7 and Ubuntu). It happens in RStudio, RGui and RScript.

Here's some code to generate the number more easily:

``````boom <- paste(c("1e", rep(9, 31)), collapse="")
eval(parse(text=boom))
``````

Now clearly this isn't a practical problem. I have no need to use numbers of this magnitude. It's just a question of curiosity.

Curiously, if you try `1e9999999999999999999999999999998` or `1e10000000000000000000000000000000` (add or subtract one from the power), you get `Inf` and `0` respectively. This number is clearly some kind of boundary, but between what and why here?

I considered that it might be:

• A floating point problem, but I think they max out at 1.7977e308, long before the number in question.
• An issue with 32-bit integers, but 2^32 is 4294967296, much smaller than the number in question.
• Really weird. This is my dominant theory.

EDIT: As of 2015-09-15 at the latest, this no longer causes R to hang. They must have patched it.

• Love the dominant theory! By the way - this happens to me too. Maybe a memory thing? – mathematical.coffee Jul 28 '12 at 11:53
• Even better: `boom <- paste(c("10^", rep(9, 31)), collapse="")` works :P – nico Jul 28 '12 at 11:58
• That's interesting. It seems that `1e9...` doesn't work very well, but `1^9...` works fine. – sebastian-c Jul 28 '12 at 12:12
• @sebastian-c That's not surprising, since `1e9...` and `1^9...` are different numbers. – Chris Taylor Jul 29 '12 at 20:30

This looks like an extreme case in the parser. The `XeY` format is described in Section 10.3.1: Literal Constants of the R Language Definition and points to `?NumericConstants` for "up-to-date information on the currently accepted formats".

The problem seems to be how the parser handles the exponent. The numeric constant is handled by `NumericValue` (line 4361 of `main/gram.c`), which calls `mkFloat` (line 4124 of `main/gram.c`), which calls `R_atof` (line 1584 of `main/util.c`), which calls `R_strtod4` (line 1461 of `main/util.c`). (All as of revision 60052.)

Line 1464 of `main/utils.c` shows `expn` declared as `int` and it will overflow at line 1551 if the exponent is too large. The signed integer overflow causes undefined behavior.

For example, the code below produces values for exponents < 308 or so and `Inf` for exponents > 308.

``````const <- paste0("1e",2^(1:31)-2)
for(n in const) print(eval(parse(text=n)))
``````

You can see the undefined behavior for exponents > 2^31 (R hangs for an exponent = 2^31):

``````const <- paste0("1e",2^(31:61)+1)
for(n in const) print(eval(parse(text=n)))
``````

I doubt this will get any attention from R-core because R can only store numeric values between about 2e-308 to 2e+308 (see `?double`) and this number is way beyond that.

• I fear that the set of things for which "doubt this will get any attention from R-core" is constantly growing. I sent two mails in the last few weeks and got zero replies. :-/ – Dirk Eddelbuettel Jul 30 '12 at 16:05
• Between that set and the "I would ask R-core this question (or submit this patch) but I'm sure I'd get roundly spanked" set, it's tough for me to work up much gumption to participate. – Ken Williams Jul 30 '12 at 20:13
• I would hope that any overflow, no matter the context, would be considered patchworthy though. – Ken Williams Jul 30 '12 at 20:14
• @sebastian-c: issues should occur with any exponent > 2147483647. I actually get a hang for `1e2147483647`, and `1e2147483648 = 0`, while `1e2147483646 = Inf` (as expected). – Joshua Ulrich Jul 31 '12 at 1:21
• I think I can see what is special about 31 9's. It is exactly one less that 10^32 and 10 has 2 as a factor. So there is a 2^32 in there just waiting to cause trouble. 9999999999999999999999999999999 is 2^31-1 which is 2147483647 after overflow. The result of overflow is modulus, or the remainder after repeated integer division. (10^31-1)/(2^32) = (2^31*5^31)/2^32 - 1/2^32 = 5^31/2 - 1/2^32 = (5^31-1) + 1/2 - 1/2^32. Take off the quotient of 5^31-1 leaves a fractional part of (2^31-1)/2^32 which is a remainder of 2^31-1 or 2147483647. – John Watts Aug 1 '12 at 1:32

This is interesting, but I think R has systemic problems with parsing numbers that have very large exponents:

``````> 1e10000000000000000000000000000000
 0
> 1e1000000000000000000000000000000
 Inf
> 1e100000000000000000000
 Inf
> 1e10000000000000000000
 0
> 1e1000
 Inf
> 1e100
 1e+100
``````

There we go, finally something reasonable. According to this output and Joshua Ulrich's comment below, R appears to support representing numbers up to about 2e308 and parsing numbers with exponents up to about +2*10^9, but it cannot represent them. After that, there is undefined behavior apparently due to overflow.

• It can parse numeric constants with exponents +/-2*10^9, but it cannot represent them because double precision values are limited to about 2e-308 to 2e+308 (see `?double`). – Joshua Ulrich Jul 30 '12 at 17:56
• I wouldn't say it was properly parsing them. The representation keeps changing between +Inf and 0 depending only on the number of digits in the exponent. If it were parsing properly it would either reject the input or map all these inputs to +Inf. – John Watts Jul 30 '12 at 18:48
• I only said it could parse exponents up to the signed integer bound and the result only changes between `0` and `Inf` once the exponent is larger than that and you overflow the exponent variable in the parser: `const <- paste0("1e",2^(10:32-1); for(n in const) print(eval(parse(text=n)))`. – Joshua Ulrich Jul 30 '12 at 18:58
• Gotcha. So would it be fair to say the following? 1. It parses and represents up to about 2e+308. 2. It parses but cannot represent up to about 2e+2^32 so they become +Inf. 3. Beyond that the behavior is undefined. – John Watts Jul 30 '12 at 21:48
• Yes, that's my understand of what's happening. Line 1446 of `main/utils.c` shows `expn` declared as `int` and it will overflow at line 1553 if `n` is too large, which will cause undefined behavior. – Joshua Ulrich Jul 30 '12 at 22:01

R might use sometimes bignums. Perhaps `1e9999999999999999999999999999999` is some threshold, or perhaps the parsing routines have a limited buffer for reading the exponent. Your observation would be consistent with a 32 char (null-terminated) buffer for the exponent.

I'll rather ask that question on forums or mailing list specific to R, which are rumored to be friendly.

Alternatively, since R is free software, you could investigate its source code.