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As a matter of academic interest, does using bind templates (esp in boost::lambda) prevent in-lining? And if so, other than using declared functors, is there a boost::lambda form that does not prevent in-lining? (And especially in the latest gcc)

namespace bll = boost::lambda;

class MyItem
        float attribute() { return 4; }

struct AttributeLessConst
    AttributeLess( float value_a ) : value( value_a ) {}
    bool operator()( const MyItem & a ) 
        return a.attribute() < value;

    const float value;

std::list<MyItem> myList;

remove_if_seq( myList, AttributeLessConst( 1.5 ) );        // in-linable // yes
remove_if_seq( myList, bll::bind(&MyItem::attribute, *bll::_1) < 1.5 );  // yes?
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1 Answer 1

up vote 2 down vote accepted

No. Nothing prevents inlining except for how advanced compiler* technology is. Unless Boost.Lambda resorts to type erasure, which it has no reason of using, everything it does can be inspected statically as easy as hand-written code. A relevant snippet in the Boost.Lambda documentation suggests that the library delivers on this promise.

*: and/or runtime technology when considering not just programs but also e.g. shared libraries and dynamically loaded modules.

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Point taken, but the documentation however uses very simple examples which don't use function pointers. – Catskul Jul 18 '11 at 18:14
@Catskul My copy of GCC can inline in the presence of function pointers, although not always. What exactly do you expect? – Luc Danton Jul 18 '11 at 19:15

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