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this is my first question :)

I have one pile file, and I have open it like shown below ;

ifstream in ( filename,  ios :: binary | ios :: in ) 

Then, I wish hold 2 byte data in unsigned int hold ;

unsigned int hold;
in . read(static_cast<char *>(&hold), 2); 

It seems correct to me. However, when I compile it with

g++  -ansi -pedantic-errors -Werror - -Wall  -o main main.cpp 

Compiler emits error

error: invalid static_cast from type ‘unsigned int*’ to type ‘char*’ 

Actually, I have solved this problem by changing static_cast with ( char*), that is

unsigned int hold;
in . read((char*)(&hold), 2); 

My questions are :

  • What is the difference(s) between static_cast<char*> and (char*) ?
  • I am not sure whether using (char*) is a safer or not. If you have enough knowledge, can you inform me about that topic ?

NOTE : If you have better idea, please help me so that I can improve my question?

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possible duplicate of What is the difference between static_cast<> and C style casting? –  sbi Nov 11 '11 at 9:59

4 Answers 4

up vote 6 down vote accepted

static_cast is a safer cast than the implicit C style cast. If you try to cast an entity which is not compatible to another, then static_cast gives you an compilation time error unlike the implicit c-style cast.

static_cast gives you an error here because what you are trying to say is take an int and try to fit it in a char, which is not possible. int needs more memory than what char occupies and the conversion cannot be done in a safe manner.

If you still want to acheive this,You can use reinterpret_cast, It allows you to typecast two completely different data types, but it is not safe.
The only guarantee you get with reinterpret_cast is that if you cast the result back to the original type, you will get the same value, But no other safety guarantees.

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1  
+1 for the explanation, but I'd mention reinterpret_cast here. –  Kiril Kirov Nov 11 '11 at 9:10
    
@KirilKirov: Yup,I did,Caught me in an edit :) –  Alok Save Nov 11 '11 at 9:18
  • first - you can easily search for _cast and find any c++ cast. Searching c-style casts is a lot harder.
  • second - if you use c++ casts, you need to choose the correct one. In your case, it is reinterpret_cast.
    The c-style cast does everything.

you can also check here: http://www.cplusplus.com/doc/tutorial/typecasting/ for the differences of the different c++ casts. I strongly recommend only to use c++ casts. This way you can easily find & check them later and you are forced to think about what you are actually doing there. This improves code quality!

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You should have used reinterpret_cast<char *> instead of static_cast<char *>, because the data types are not related: you can convert between a pointer to a subclass to a superclass for instance, or between int and long, or between void * and any pointer, but unsigned int * to char * isn't "safe" and thus you cannot do it with static_cast.

The difference is that in C++ you have various types of casts:

  • static_cast which is for "safe" conversions;

  • reinterpret_cast which is for "unsafe" conversions;

  • const_cast which is for removing a const attribute;

  • dynamic_cast which is for downcasting (casting a pointer/reference from a superclass to a subclass).

The C-style cast (char *)x can mean all of these above, so it is not as clear as the C++ casts. Furthermore, it is easy to grep for a C++-style cast (just grep for _cast), but it's quite hard to search for all C-style casts.

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const_cast is Not only for casting const but also for the less commonly known/used volatile as well. –  Alok Save Nov 11 '11 at 9:20
    
Good point @Als, I forgot about that. –  Andrea Bergia Nov 11 '11 at 9:57
    
@AndreaBergia: Note that const_cast can also add const and volatile qualifiers. (Not that there are many situations where that would be useful, of course.) –  sbi Nov 11 '11 at 10:01

The static_cast is illegal here; you're casting between unrelated pointer types. The solution to get it to compile would be to use reinterpret_cast (which is what (char*) resolves to in this case). Which, of course, tells you that the code isn't portable, and in fact, unless you're doing some very low level work, probably won't work correctly in all cases.

In this case, of course, you're reading raw data, and claiming it's an unsigned int. Which it isn't; what read inputs is raw data, which you still have to manually convert to whatever you need, according to the format used when writing the file. (There is no such thing as unformatted data. Just data with an undocumented, unspecified, or unknown format. The “unformatted” input and output in iostream are designed to read and write char buffers which you format manually. The need for reinterpret_cast here is a definite warning that something is wrong with your code. (There are exceptions, of course, but they're few and far between.)

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