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using namespace std;

class temp
      int value1; 
      public :
        void fun() const
        ((temp*)this)->value1 = 10;
        void print()
int main()
  temp t;
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incidentally a nicer way to do this is to make value1 mutable –  jk. Aug 26 '10 at 10:19
@jk: The big downside of mutable is that it makes the variable mutable for all methods, not just one. The cast is much less invasive and thus the lesser evil IMHO. –  Frerich Raabe Aug 26 '10 at 10:26
Advice: Only use C++ style casts ("*_cast") to make your intent visible. Do not use the C-Style casts "(type)", because these are all possible casts rolled into one. –  Markus Kull Aug 26 '10 at 10:35
Are you asking as what the author of this code had on mind or why doesn't the compiler complain and the output is, as it is? –  Maciej Hehl Aug 26 '10 at 10:35
@Frerich Raabe, yes but mutable would express your intent that the variable is mutable beyond normal const rules. Looking at the interface for that class, that's not readily apparent. Oh and I like how fun is const but print isn't :) –  Blindy Aug 26 '10 at 10:46

3 Answers 3

Because you're casting away const...

When you cast something, the responsibility is yours for making sure that it doesn't do something dumb.

Note that if temp t; is changed to const temp t;, you get undefined behavior, for modifying a const value.

Coincidentally I literally just touched on this in my blog. (Almost the same function, too.)

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+1 for 'const temp t' perspective. –  Chubsdad Aug 26 '10 at 10:54
Hey haha i didn't know you have a blog. nice :) –  Johannes Schaub - litb Aug 27 '10 at 17:21

$5.4/5 is about explicit type conversion (which is what is being used here)

The conversions performed by

— a const_cast (5.2.11),

— a static_cast (5.2.9),

— a static_cast followed by a const_cast,

— a reinterpret_cast (5.2.10), or

— a reinterpret_cast followed by a const_cast,

can be performed using the cast notation of explicit type conversion. The same semantic restrictions and behaviors apply. If a conversion can be interpreted in more than one of the ways listed above, the interpretation that appears first in the list is used, even if a cast resulting from that interpretation is ill-formed. If a conversion can be interpreted in more than one way as a static_cast followed by a const_cast, the conversion is ill-formed.

In this case, ((temp*)this) got treated as (const_cast<temp *>(this)) and was well-formed. This removed away the constness, thereby allowing to change the class member value.

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C++ tries to prevent accidental errors, but it doesn't go out of its way to fight a programmer who's determined to have things their own way. If you use cast operators you're telling it "trust me, I know what's there", demanding it ignore it's own knowledge of the program. It's precisely because the C-style casting operator you've used is dangerous and can be easily misused that C++ introduces static_cast, const_cast and reinterpret_cast, which communicate the programmer's intent in such a way that the compiler can still say "hey, hold on there, that'd require more than just the type of leniency you're asking for". reinterpret_cast is the big daddy though... no arguing with that... just as brutal as the C-cast and rarely needed in a high-level application. Precisely because it's rarely needed, verbose and easily seen, it draws scrutiny. Code littered with C-style casts can easily hide bugs.

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reinterpret_cast would not work here: it can't cast away constness. –  UncleBens Aug 26 '10 at 16:13

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