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RAII.

It starts with a constructor and destructor but it is more than that.
It is all about safely controlling resources in the presence of exceptions.

What makes RAII superior to finally and such mechanisms is that it makes code safer to use because it moves responsibility for using an object correctly from the user of the object to the designer of the object.

Read this

Example to use StdioFile correctly using RAII.

void someFunc()
{
    StdioFile    file("Plop","r");

    // use file
}
// File closed automatically even if this function exits via an exception.

To get the same functionality with finally.

void someFunc()
{
      // Assuming JAVA Like syntax;
    StdioFile     file = new StdioFile("Plop","r");
    try
    {
       // use file
    }
    finally
    {
       // close file.
       file.close(); // 
       // Using the finaliser is not enough as we can not garantee when
       // it will be called.
    }
}

Because you have to explicity explicitly add the try{} finally{} block this makes this method of coding more error prone (ie i.e. it is the user of the object that needs to think about exceptions). By using RAII exception safty safety has to be coded once when the object is implemented.

To the question is this C++ specific.
Short Answer: No.

Longer Answer:
It requires Constructors/Destructors/Exceptions and objects that have a defined lifetime.

Well technically it does not need exceptions. It just becomes much more useful when exceptions could potentially be used as it makes controlling the resource in the presence of exceptions very easy.
But it is useful in all situations where control can leave a function early and not execute all the code (e.g. early return from a function. This is why multiple return points in C is a bad code smell while multiple return points in C++ is not a code smell [because we can clean up using RAII]).

In C++ controlled lifetime is achieved by stack variables or smart pointers. But this is not the only time we can have a tightly controlled lifespan. For example Perl objects are not stack based but have a very controlled lifespan because of reference counting.
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RAII.

It starts with a constructor and destructor but it is more than that.
It is all about safely controlling resources in the presence of exceptions.

What makes RAII superior to finally and such mechanisms is that it makes code safer to use because it moves responsibility for using an object correctly from the user of the object to the designer of the object.

Read this

Example to use StdioFile correctly using RAII.

void someFunc()
{
    StdioFile    file("Plop","r");

    // use file
}
// File closed automatically even if this function exits via an exception.

To get the same functionality with finally.

void someFunc()
{
      // Assuming JAVA Like syntax;
    StdioFile     file = new StdioFile("Plop","r");
    try
    {
       // use file
    }
    finally
    {
       // close file.
       file.close(); // 
       // Using the finaliser is not enough as we can not garantee when
       // it will be called.
    }
}

Because you have to explicity add the try{} finally{} block this makes this method of coding more error prone (ie it is the user of the object that needs to think about exceptions). By using RAII exception safty has to be coded once when the object is implemented.

To the question is this C++ specific.
Short Answer: No.

Longer Answer:
It requires Constructors/Destructors/Exceptions and objects that have a defined lifetime.

Well technically it does not need exceptions. It just becomes much more useful when exceptions could potentially be used as it makes controlling the resource in the presence of exceptions very easy.
But it is useful in all situations where control can leave a function early and not execute all the code (e.g. early return from a function. This is why multiple return points in C is a bad code smell while multiple return points in C++ is not a code smell [because we can clean up using RAII]).

In C++ controlled lifetime is achieved by stack variables or smart pointers. But this is not the only time we can have a tightly controlled lifespan. For example Perl objects are not stack based but have a very controlled lifespan because of reference counting.
show/hide this revision's text 2 added 459 characters in body

RAII.

It starts with a constructor and destructor but it is more than that.
It is all about safely controlling resources in the presence of exceptions.

What makes RAII superior to finally and such mechanisms is that it makes code safer to use because it moves responsibility for using an object correctly from the user of the object to the designer of the object.

Read this

Example to use StdioFile correctly using RAII.

void someFunc()
{
    StdioFile    file("Plop","r");

    // use file
}
// File closed automatically even if this function exits via an exception.

To get the same functionality with finally.

void someFunc()
{
      // Assuming JAVA Like syntax;
    StdioFile     file = new StdioFile("Plop","r");
    try
    {
       // use file
    }
    finally
    {
       // close file.
       file.close(); // 
       // Using the finaliser is not enough as we can not garantee when
       // it will be called.
    }
}

Because you have to explicity add the try{} finally{} block this makes this method of coding more error prone (ie it is the user of the object that needs to think about exceptions). By using RAII exception safty has to be coded once when the object is implemented.

To the question is this C++ specific.
Short Answer: No.

Longer Answer:
It requires Constructors/Destructors/Exceptions and objects that have a defined lifetime.

In C++ controlled lifetime is achieved by stack variables or smart pointers. But this is not the only time we can have a tightly controlled lifespan. For example Perl objects are not stack based but have a very controlled lifespan because of reference counting.
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