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The concept of narrowing seems pretty straight-forward. However, could someone please explain why some of the code below causes "narrowing" compiler errors and others don't?

This code produces errors where expected:

constexpr int a = 255;
unsigned char b = a;      // OK
unsigned char c = a + 1;  // Error... expected

This code doesn't produce errors, but may be ok:

int d = 256;
unsigned char e = d;  // Maybe OK because 'd' is not constexpr

This code should generate errors (unless I'm missing something):

int f = 42.0;  // Maybe OK because no fractional part
int g = 42.1;  // OK... should fail!!
constexpr float h = 42.7;
int i = h;     // OK... should fail???

I'm using g++ 4.6.2. I searched the GCC bug database and didn't find anything related. Thanks!

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I don't think that's what "narrowing" means. Sehe's answer concerning initialization lists is the nearest issue I can think of. – Kerrek SB Nov 24 '11 at 1:05
+1 interesting question. I was surprised by the findings in g++ :) – sehe Nov 24 '11 at 1:11
@KerrekSB That made sense until int f = {42.7}; didn't generate any warning even with -Wall – tdistler Nov 24 '11 at 1:12
@tdistler: nah, int f = {42.7}; is using initializer lists. – sehe Nov 24 '11 at 1:16
I think to get C++11's protection against narrowing conversions you have to use the new initialization syntax int f{42.7};. C++11 is supposed to be backwards compatible so legacy code that already uses narrowing conversions with the old syntaxes still have to work. – bames53 Nov 24 '11 at 5:30
up vote 9 down vote accepted

To be honest, with your samples I see little wrong.

However, there are a number of cases where the compiler seems to accept 'violations' of the standard conversion rules...:

Initializer lists (§ 8.5.4)

However I spotted this one in the standard:

For initialzer lists, the following is not allowed (§ 8.5.4, under 3.)

int ai[] = { 1, 2.0 }; // error narrowing

Under 6. it goes on to give a general list of examples:

[ Note: As indicated above, such conversions are not allowed at the top level in list-initializations.—end note ]

int x = 999; // x is not a constant expression
const int y = 999;
const int z = 99;
char c1 = x; // OK, though it might narrow (in this case, it does narrow)
char c2{x}; // error: might narrow
char c3{y}; // error: narrows (assuming char is 8 bits)
char c4{z}; // OK: no narrowing needed
unsigned char uc1 = {5}; // OK: no narrowing needed
unsigned char uc2 = {-1}; // error: narrows
unsigned int ui1 = {-1}; // error: narrows
signed int si1 =
{ (unsigned int)-1 }; // error: narrows
int ii = {2.0}; // error: narrows
float f1 { x }; // error: might narrow
float f2 { 7 }; // OK: 7 can be exactly represented as a float
int f(int);
int a[] = { 2, f(2), f(2.0) }; // OK: the double-to-int conversion is not at the top level

Interestingly, g++ 4.6.1 with --std=c++0x -Wall -pedantic catches only one of these violations:

    char c3{y}; // warning: overflow in implicit constant conversion [-Woverflow]

Outside initializer lists...

I don't think the truncation of a float to an int is considered narrowing.

It is just a well-defined conversion, much like

int i = 31;
i /= 4;   // well defined loss of precision...   
i /= 4.0; // equally well-defined conversion from floating point to int
share|improve this answer
Thanks! Okay, so if this code int f = {42.7}; also doesn't give an error, then would you agree there's a problem? BTW: no error on g++ 4.6.2. – tdistler Nov 24 '11 at 1:09
@tdistler: AFAICT yes, that shoud not compile. (no error? I assume you mean no error message :)) – sehe Nov 24 '11 at 1:13
Yeah "no error message" :) – tdistler Nov 24 '11 at 1:15
"I don't think the truncation of a float to an int is considered narrowing." The FDIS, §8.5.4/7 says otherwise: A narrowing conversion is an implicit conversion ... from a floating-point type to an integer type. The relevant point is that narrowing conversions are legal outside of initializer lists. – ildjarn Nov 28 '11 at 19:00

Floating points can get converted to ints:

A prvalue of a floating point type can be converted to a prvalue of an integer type. The conversion trun- cates; that is, the fractional part is discarded. The behavior is undefined if the truncated value cannot be represented in the destination type.

int f = 42.0;  // Equal to 42, 42 fits into int
int g = 42.1;  // Equal to 42, 42 fits
constexpr float h = 42.7;
int i = h;     // 42

Narrowing rules only applies to initializer lists.

unsigned char c = { 2.4 }; // narrowing

warning: narrowing conversion of ‘2.3999999999999999e+0’ from ‘double’ to ‘unsigned char’ inside { } [-Wnarrowing]
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Maybe I'm reading Bjarne's explanation wrong link (or it's out of date), but even the error case int x3 = {7.3} doesn't produce an error. – tdistler Nov 24 '11 at 1:04
@tdistler I'm getting a pretty clear compiler warning with GCC. Not sure why it's a warning instead of an error. – Pubby Nov 24 '11 at 1:07
Weird... I'm even compiling with -Wall – tdistler Nov 24 '11 at 1:11

This code produces errors where expected:

constexpr int a = 255;
unsigned char b = a;      // OK
unsigned char c = a + 1;  // Error... expected

This results in a narrowing error because:
1. (a + 1) results in an int rvalue
2. the rvalue does not fit in the valid range of the char type

int d = 256;
unsigned char e = d;  // Maybe OK because 'd' is not constexpr

This code is not an rvalue being narrowed. It's an implicit cast from int to unsigned char.

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