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Im reviewing some code from the Loki library which has a lot of C-style casts in it. I have some doubts of the need of those casts in the first place, and if they are needed, if I could often not make the code safer by replacing them with static_cast. However, if the only "feature" of the latter is to clutter the screen with ugly code I'd rather not.

The problem with casts in library code like this is that unless you are really certain of yourself it is hard to remove them, because why were they there in the first place? Maybe they got introduced to avoid some compiler warning on some compiler that I will not be testing on....

So I ask some second opinions.

What follows are some basic codefragments which should have the most important declarations and then samples of casts. For clarity, the complete file is here. An article about the code is in Artima Developer.

ps: please don't answer with C-style casts are bad... Please look at the actual code and explain how it makes a difference.

Code: The actual concept is simple, it is a wrapper type around a user choosen int type, second template param. It just makes a whole lot of operators and conversions forbidden.
Questions in the comments:

template< unsigned int unique_index, typename word_t = unsigned long >
class SafeBitConst
   const word_t word;  //< the actual data for the bitfield (only member, 
                       //  all the rest are overloaded operators)

   // A. factory method to produce these, I'm wondering about the need of the 2 
   // casts in the the return as well as wondering if they are actually benificial
   // or detrimental to compiler checks.

   template < unsigned int i >
   static SafeBitConst make_bit_const()
      return SafeBitConst( i > 0  ?  word_t(1) << ( i - 1 )  : 0 );

   // B. all the shift operators with this cast

   const SafeBitConst operator << ( unsigned int s ) const
      return SafeBitConst( word << s );

// In a related but very similar type:

explicit SafeBitField( word_t init ) : word( init ) {}

// C. Casting your this pointer to your own type?

SafeBitField operator &= ( const SafeBitField & rhs )
    word &= rhs.word;
    return SafeBitField( *this );

// D. conversion to const bool?
// I thought the constness of the receiving variable would be determined by
// the declaration of that variable and not by the conversion operator
// on MSVC this gives compiler warnings as well.

operator const bool() const { return ( 0 != word ); }

pps: I'm also a proponent of the proverb "if it's not broken, don't fix it", but in c++ I also just really like to understand what is going on rather than accept code that looks dodgy.

share|improve this question
Where are the casts in your code? –  sylvanaar Nov 11 '10 at 0:41
@ sylvanaar –  nus Nov 11 '10 at 0:42
I don't see C-style casts, I see C++-style constructor usage - are you confusing typeName(val) and (typeName)val ? –  Steve Townsend Nov 11 '10 at 0:45
@sylvanaar, ok, for the SafeBitField it is calling a constructor, but word_t is an integral type. –  nus Nov 11 '10 at 0:47
@ufotds - that's still constructor syntax, not a cast. @Ben's answer does a decent job of making sense of this imo. –  Steve Townsend Nov 11 '10 at 0:48

2 Answers 2

up vote 6 down vote accepted

If you are referring to word_t(1) then:

  1. That is not a "C style" cast. In C you'd write (word_t)1. The quoted code won't compile as plain C.
  2. That sort of cast in a shift operator is commonly to avoid getting a "signed 1" in the mix and causing the whole expression to be signed. That becomes a problem with right-shift >> because of arithmetic sign extension.
  3. Given (2) I would replace that with a suitable literal like 1UL to mean (unsigned long)1
share|improve this answer
ok, I had overlooked the explicit-ness of that constructor. If it would not have been explicit would there have been any good reason to write it explicitly? –  nus Nov 11 '10 at 0:53
1UL would definitely make it more readable, but I reckon word_t which is the template parameter might be smaller than unsigned long, and that constructor takes word_t, so that might give warnings again... –  nus Nov 11 '10 at 1:01
return SafeBitField( *this ); this also occurs in this code while the copy constructor is not explicit. Does it make any sense? –  nus Nov 11 '10 at 10:18
The reason for those constructors is that the type is immutable: Each arithmetic operation produces a new SafeBitField as the result. It's using the implicit copy constructor which does a memberwise copy. –  Ben Jackson Nov 11 '10 at 16:14
I accepted this answer because it is well interesting on the word_t(1), however everything is still not clear to me. SafeBitField is not an immutabe type. SafeBitConst is. I still don't understand why SafeBitField has assignement operators that don't return by reference, and that call SafeBitField( *this ). It is still an assignment operator, and the change to the internal data has already happened. The only difference is that more copies are made to return by value in the receiving expression, which enforces nothing, since to call this operator this code already has a ref to this object –  nus Nov 12 '10 at 23:20

A. It can't be implicitly cast by explicit constructor

explicit SafeBitConst( word_t init ) : word( init ) {}

B. Some compilers complain about implicit type conversion of returned value. (Plus same problem as in D).

C. Constructing a new object, even though returning reference to *this would be enough.

D. That was probably a typo that compilers happily ignore.

share|improve this answer
+1 for clear exposition. I think it would be harsh to add a -1 on top of that for your explanation of (B), so, I didn't do that. Cheers, –  Cheers and hth. - Alf Nov 11 '10 at 1:48
<i>A. Right, it would be implicitly cast into the same type by constructor</i> Ok, I missed the explicit when I first asked my question, but isn't it there just to prevent implicit casting? –  nus Nov 11 '10 at 10:32
btw, on D. my compiler doesn't ignore it, it warns about it –  nus Nov 11 '10 at 10:36
@cababunga please can you have a look again, I accidently introduced an error myself, see the edit of my question. It was not operator= where the constructor was, but the bitwise assignment operators like operator&=. According to my book these still have to return a reference though. –  nus Nov 11 '10 at 10:59
actually the more I look at this, the more convinced I am that it is wrong, even though I made a fool of myself yesterday by calling it a cast. As far as I can see you make a copy of yourself and than assign that to yourself. –  nus Nov 11 '10 at 11:11

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