I'm using GCC 4.9.0 on Linux. Here's my test program:
#include <iostream>
#include <string>
using namespace std;
int main(int argc, char* argv[])
{
size_t pos = 42;
cout << "result: " << stoi(argv[1], &pos, atoi(argv[2])) << '\n';
cout << "consumed: " << pos << '\n';
}
Here's an expected result:
$ ./a.out 100 2
result: 4
consumed: 3
That is, it parsed "100" in base 2 as the number 4 and consumed all 3 characters.
We can do similar up to base 36:
$ ./a.out 100 36
result: 1296
consumed: 3
But what about larger bases?
$ ./a.out 100 37
result: 0
consumed: 18446744073707449552
What's this? The pos
is supposed to be an index where it stopped parsing. Here it's close to std::string::npos
but not quite (off by a few million). And if I compile without optimization then pos
is 18446744073703251929
instead, so it looks like uninitialized garbage, despite that I did initialize it (to 42). And indeed, valgrind complains:
Conditional jump or move depends on uninitialised value(s)
at 0x400F11: int __gnu_cxx::__stoa<long, int, char, int>(...) (in a.out)
by 0x400EC7: std::stoi(std::string const&, unsigned long*, int) (in a.out)
So that's interesting. Also, the documentation of std::stoi
says it throws std::invalid_argument if no conversion could be performed. Clearly in this case it didn't perform any conversion, and it returned garbage in pos
, and there was no exception thrown.
Similar bad things happen if base
is 1 or negative.
Is this a bug in the GCC implementation, a bug in the standard, or just something we have to learn to live with? I thought one of the goals of stoi()
vs atoi()
was better error detection, but it seems not to check base
at all.
Edit: here's a C version of the same program which also prints errno:
#include <stdio.h>
#include <stdlib.h>
int main(int argc, char* argv[])
{
char* pos = (char*)42;
printf("result: %ld\n", strtol(argv[1], &pos, atoi(argv[2])));
printf("consumed: %lu (%p)\n", pos - argv[1], pos);
perror("errno");
return 0;
}
When it works, it does the same thing as before. When it fails, it's a lot more clear:
$ ./a.out 100 37
result: 0
consumed: 18446603340345143502 (0x2a)
errno: Invalid argument
Now we see why pos
in the C++ version was a "garbage" value: it was because strtol()
left endptr
unchanged, and the C++ wrapper erroneously subtracts the input string starting address from that.
In the C version we also see that errno
is set to EINVAL
to indicate the error. The documentation on my system says this will happen when base
is invalid, but also says it's not specified by C99. If we print errno
in the C++ version we can also detect this error (but it's not standard in C99 and it sure isn't specified by C++11).
stoi
should do in terms of calls tostrtol
. The C99 standard, in turn, does not define what happens when base is not 0 nor between 2 and 36 (some implementations set EINVAL, some don't). And anyhow,__stoa
(called bystd::stoi
, passingstd::strtol
) doesn't check for EINVAL either: gcc.gnu.org/onlinedocs/gcc-4.8.1/libstdc++/api/… . Can you try with a C pure testcase? I think you've spotted a bug.__stoa()
setserrno = 0
and callsstrtol()
via function pointer. It then checks ifendptr == str
to see if anything was parsed, but endptr is unchanged bystrtol()
ifbase
was invalid. It never initializedendptr
itself, so it's garbage, therefore__stoa()
compares against garbage with indeterminate results (but probably the test fails so it does not throw). Finally it checks forerrno == ERANGE
which doesn't apply then does the erroneous assignment topos
. Looks like bugs in the implementation to me.