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In chapter 3 of Programming: Principles and Practice using C++ (sixth printing), Stroustrup states (p.68): "Note that sqrt() is not defined for an int".

Here is a simple C++ program based on that chapter:

#include "std_lib_facilities.h"

int main()
    int n = 3;
    cout << "Square root of n == " << sqrt(n) << "\n";

Given the quote above, I would expect the process of compiling or running this program to fail in some way.

To my surprise, compiling it (with g++ (GCC) 4.2.1) and running it succeeded without errors or warnings, and produced the following perfectly decent output:

Square root of n == 1.73205

My question therefore is: if sqrt() really is not defined for an int, then why doesn't the program above fail somehow?

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You are doing what he said without knowing it. Your int is being implicitly converted to a double. I think he is recommending using a double explicitly, to avoid this kind of confusion. – BoBTFish Oct 30 '13 at 14:05
Your software is doing an implicit conversion. As a guideline I always recommend avoiding implicit conversions - if a function takes a double, pass exactly a double to it, and nothing else. – Daniel Daranas Oct 30 '13 at 14:07
@Max Because I can't be bothered to explain implicit type conversions and function overloading in the level of detail needed to make what I think would be a good answer, or do the background checking to make sure I am correct about which conversions are happening. If someone else wants to spend that time, or post a half-arsed answer, that is up to them. – BoBTFish Oct 30 '13 at 14:12
See section 3.9.1 "Safe Conversions", p. 79. – Adam Burry Oct 30 '13 at 14:13
@Shafik Yaghmour: You are right, but as you correctly noted in your answer the new spec intends to keep the legacy code valid, i.e. int arguments should "somehow" resolve to double overloads without triggering overload ambiguity error. – AnT Oct 30 '13 at 15:43
up vote 3 down vote accepted

Update 2

This question was merged with an exact duplicate, on taking a look at this, the actual answer is much simpler than anyone originally thought. The current version of std_lib_facilities.h includes the following line:

inline double sqrt(int x) { return sqrt(double(x)); }   // to match C++0x

which creates a specific overload for the int case to match what modern compilers should be be doing which is cast integer arguments to double, although this version does not cover all the cases.

If std_lib_facilities.h was not being used than the original logic still applies, although gcc-4.2 is rather old compared to Visual Studio 2012 from the original question but a 4.1.2 version have uses __builtin_sqrt specifically for the integer case.


Since around 2005 the draft standard required integer argument to be cast to double this is covered in the draft C++ standard. If we look in section 26 Numerics library and then go to section 26.8 C library which covers the <cmath> header, it specifies overloads of the math functions for float, double and long double which is covered in paragraph 8:

In addition to the double versions of the math functions in , C++ adds float and long double overloaded versions of these functions, with the same semantics.

which would be ambiguous for the int case but the standard requires that sufficient overload are provided so that integer arguments are cast to double. It is covered in paragraph 11 which says(emphasis mine):

Moreover, there shall be additional overloads sufficient to ensure:

  1. If any arithmetic argument corresponding to a double parameter has type long double, then all arithmetic arguments corresponding to double parameters are effectively cast to long double.
  2. Otherwise, if any arithmetic argument corresponding to a double parameter has type double or an integer type, then all arithmetic arguments corresponding to double parameters are effectively cast to double.
  3. Otherwise, all arithmetic arguments corresponding to double parameters have type float.


As @nos points out it is possible that the version of sqrt being called is from math.h header as opposed to the overloads from cmath, if that is the case and there is likely a implementation defined caveat here then we may be reverting to old C style behavior if the only version available is sqrt(double) which would mean that int would be converted to double implicitly.

One way I found to test this on gcc and clang would be to use long type for a which along with -Wconversion flag triggers a warning for a potentially value altering conversion on my platform if we only have sqrt(double) available. Indeed if I include math.h instead of cmath we can produce this warning. Although I can not trigger this behavior in clang which seems to indicate this is implementation dependent.

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Thanks for your answer. It is a good lesson for me. – user2936478 Oct 30 '13 at 15:42

The 10 is being implicitly converted to a double. This will happen automatically as long as you have the correct function prototype for sqrt.

Edit: beaten by comments

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There are three floating point overloads, which would be ambiguous and an error so there must be an explicit overload for integer cases. – Shafik Yaghmour Oct 30 '13 at 15:06
@Shafik Yaghmour: You are right, but as you correctly noted in your answer the new spec intends to keep the legacy code valid, i.e. int arguments should "somehow" resolve to double overloads without triggering overload ambiguity error. – AnT Oct 30 '13 at 15:47
@nos That could be possible if the math.h is being used instead of cmath but if cmath if being used then I don't think that would be the case but that is probably implementation defined, let me amend my answer to cover both cases. Good point, thanks for pointing out the possibility. – Shafik Yaghmour Oct 30 '13 at 17:00

Because of implicit conversions. sqrt is defined for double, and an int value can be (and is) converted implicitly to a value of type double.

(It is in fact pretty hard to prevent a function that takes a double from being called with an int. You may get your compiler to emit a warning, but since this is typically a value-preserving conversion, even that may be hard. C++ inherits from C the design to try as hard as possible to make code work, even if it requires contortions. Other languages are much stricter about this sort of thing.)

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About your second paragraph, wouldn't just putting in an overload of sqrt(int) = delete do it? I know a C++11 mention is coming, so how would that work differently from just not defining it in pre-C++11 apart from the nicer error? – chris Oct 27 '13 at 0:03
@chris: I was speaking more generally. You can of course add individual overloads, but to cover all arithmetic types which are implicitly convertible to one another, you'd get into a mess. (Consider also having multiple arguments.) – Kerrek SB Oct 27 '13 at 0:06
Good point on the multiple parameters, though from testing a bit, the single parameter one seems to work pretty well with all built-in integral types. – chris Oct 27 '13 at 0:11
Some relevant (I think) info here: stackoverflow.com/a/5563131/82216 – sampablokuper Oct 27 '13 at 1:48

sqrt is defined for double. And C++ allows you to convert int to double implicitly.

int n = 3;
double x = sqrt(n);    // implicit conversion of n from int to double

Implicit conversions may happen when you use the value as a function parameter or assign it to a variable.

An example for the second case would be:

int n = 3;
double x = n;          // implicit conversion of n from int to double

Note that operators are also simply functions. Thus, you can also add an int to a double, which converts the int to a double before invoking the actual addition:

int n = 3;
double x = 1.0;
double sum = n + x;    // implicit conversion of n from int to double
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Because there's an implicit conversion from int to double.

With the conversion, your code would look like this:

cout << "Square root of n == " << sqrt((double)n) << "\n";
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Do you mean, cout << "Square root of n == " << sqrt(double(n)) << "\n"; ? – sampablokuper Oct 26 '13 at 23:59
@sampablokuper, Both of those do the same thing. – chris Oct 27 '13 at 0:04
@sampablokuper I wrote the conversion with C syntax, you wrote it in C++ syntax (I'm just used to the first form). – xorguy Oct 27 '13 at 0:06
@xorguy, I wouldn't really call it C++ form, seeing as how C++ also has static_cast et al (which are recommended over both of these). The proper name for it is a functional (function-style) cast. – chris Oct 27 '13 at 0:07
@chris thanks for clarifying :) I'm having a look now at cplusplus.com/doc/tutorial/typecasting – sampablokuper Oct 27 '13 at 0:08

Because the compiler is actually automatically (i.e. "implicitly") converting the integer to a double (or maybe long double) and sending that value to sqrt(). This is completely normally and completely legal.

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