In a previous answer I gave, I responded to the following warning being caused by the fact that
'\u0B95' requires three bytes and so is a multicharacter literal:
warning: multi-character character constant [-Wmultichar]
But actually, I don't think I'm right and I don't think gcc is either. The standard states:
An ordinary character literal that contains more than one c-char is a multicharacter literal.
One production rule for c-char is a universal-character-name (i.e.
\u0B95 is a single c-char, this is not a multicharacter literal. But now it gets messy. The standard also says:
An ordinary character literal that contains a single c-char has type
char, with value equal to the numerical value of the encoding of the c-char in the execution character set.
So my literal has type
char and value of the character in the execution character set (or implementation-defined value if it does not exist in that set).
char is only defined to be large enough to store any member of the basic character set (which is not actually defined by the standard, but I assume it means the basic execution character set):
Objects declared as characters (char) shall be large enough to store any member of the implementation’s basic character set.
Therefore, since the execution character set is a superset of all the values a
char can hold, my character may not fit in the
So what value does my
char have? This doesn't seem to be defined anywhere. The standard does say that for
char16_t literals, if the value is not representable, the program is ill-formed. It says nothing about ordinary literals, though.
So what's going on? Is this just a mess in the standard or am I missing something?