List initialization (the {...} syntax) doesn't allow narrowing conversions. For example, trying to list-initialize an int i with 3.14f holds a compilation error, as conversion from floating point values to integers is narrowing:

<source>:11:32: error: narrowing conversion of '3.1400001e+0f' from 'float' to 'int' inside { } [-Wnarrowing]
     int i{3.14f};

With that said, why is it possible to construct a float f with 3.14, which is of type double? (Conversion from double to float is considered a narrowing one.) Doing the following:

float f{3.14};

Holds no compilation errors.

  • Are you sure that conversions from double to float are allowed? extern double y; struct X { float f; } x{y}; errors out for me. – Fanael Jan 7 '18 at 20:25

In the list of what is considered a narrowing conversion, constant expressions that fit within the target type are an exception. So while in general double to float is narrowing, when your double is actually a literal this is permitted.


From the draft I have on hand (I think close to C++14):

8.5.4 List-initialization
(7.2) A narrowing conversion is an implicit conversion...
...from long double to double or float, or from double to float, except where the source is a constant expression and the actual value after conversion is within the range of values that can be represented (even if it cannot be represented exactly),

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    Same thing when initializing char with int value. – Sid S Jan 7 '18 at 20:30
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    @MárioFeroldi: It is considered a constant expression. :) pi, however, is not. – GManNickG Jan 7 '18 at 20:37
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    @MárioFeroldi Clarified the example a bit. – GManNickG Jan 7 '18 at 20:49
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    Wow, so losing precision is allowed. 3.14 is an infinite binary fraction, so (float) 3.14 != 3.14. – Arne Vogel Jan 8 '18 at 7:34
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    @ArneVogel: Yeah. You could imagine there was a separate kind of conversion error for floating-point values that don't fit in their destination - if such a thing existed, then it might make sense for this narrowing conversion rule to simply reference that rule. However, that rule doesn't exist and practically most developers don't actually care if their literal is exactly represented; I believe this is the motivation for this exception to the rule. – GManNickG Jan 8 '18 at 18:15

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