pjs/xpcom/string/public/nsXPIDLString.h

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C++

/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/*
* The contents of this file are subject to the Mozilla Public
* License Version 1.1 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS
* IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
* implied. See the License for the specific language governing
* rights and limitations under the License.
*
* The Original Code is Mozilla.
*
* The Initial Developer of the Original Code is Netscape
* Communications. Portions created by Netscape Communications are
* Copyright (C) 2001 by Netscape Communications. All
* Rights Reserved.
*
* Contributor(s):
* Scott Collins <scc@mozilla.org> (original author)
*/
#ifndef nsXPIDLString_h___
#define nsXPIDLString_h___
#ifndef nsSharableString_h___
#include "nsSharableString.h"
#endif
#if DEBUG_STRING_STATS
#include <stdio.h>
#endif
/**
* Interface documentation:
*
* |nsXPIDLC?String| differs from |nsSharableC?String| in that one can
* assign into it from an XPCOM getter that fills in a |char_type**|
* with a pointer to a buffer whose ownership is to be transferred to
* the caller.
*
* Consider the following interface:
*
* interface nsIFoo {
* attribute string Bar;
* };
*
* This will generate the following C++ header file:
*
* class nsIFoo {
* NS_IMETHOD SetBar(const PRUnichar* aValue);
* NS_IMETHOD GetBar(PRUnichar* *aValue);
* };
*
* The GetBar() method will allocate a copy of the nsIFoo object's
* "bar" attribute, and leave you to deal with freeing it:
*
* nsIFoo* aFoo; // assume we get this somehow
* PRUnichar* bar;
* aFoo->GetFoo(&bar);
* do_something_with_buffer(bar);
* nsMemory::Free(bar);
*
* This makes your life harder, because you need to convolute your
* code to ensure that you don't leak `bar'.
*
* Enter nsXPIDLString, which manages the ownership of the allocated
* string, and automatically destroys it when the nsXPIDLString goes
* out of scope:
*
* nsIFoo* aFoo; // assume we get this somehow
* nsXPIDLString bar;
* aFoo->GetFoo( getter_Copies(bar) );
* do_something_with_buffer(bar.get());
* // no need to remember to nsMemory::Free().
*
* Like nsCOMPtr, nsXPIDLString uses some syntactic sugar to make it
* painfully clear exactly what the code expects. You need to wrap an
* nsXPIDLString object with `getter_Copies()' before passing it to a
* getter: these tell the nsXPIDLString how ownership is being
* handled.
*
* In the case of `getter_Copies()', the callee is allocating a copy
* (which is usually the case). In the case where the callee is
* returning a const reference to `the real deal' (this can be done
* using the [shared] attribute in XPIDL) you can just use a
* |const char*| or |const PRUnichar*|.
*/
/**
* Implementation notes:
*
* |nsXPIDLC?String| extends |nsSharableC?String| with the ability
* to defer calculation of its length. This is crucial to allowing
* the |getter_Copies| assignment behavior.
*
* The mechanism relies on the fact that |GetSharedBufferHandle|
* must be called before any other object can share the buffer,
* and as the default implementation for |GetBufferHandle|, which is
* the operation on which all other flat string operations are based.
* A valid handle will either have all |NULL| or all non-|NULL|
* pointers. After use as an `out' string pointer parameter, an
* |nsXPIDLC?String|'s handle will have a non-|NULL| data start, but
* all other members will be |NULL|. This is the signal that the
* length needs to be recalculated. |GetSharedBufferHandle| detects
* this situation and repairs it.
*
* The one situation this _doesn't_ catch, is if no one ever tries to use
* the string before it's destruction. In this case, because the start of
* storage is known, storage can still be freed in the usual way.
*
* An |nsXPIDLC?String| is now a sharable object, just like
* |nsSharableC?String|.
* This simple implementation always allocates an intermediary handle
* object. This cost might turn out to be a burden, it's something we'll
* want to measure. A couple of optimizations spring to mind if allocation
* of the handle objects shows up on the performance radar:
* (1) introduce a custom allocator for the handles, e.g., keep free lists
* or arena allocate them, or (2) fatten up the |nsXPIDLC?String| with a
* local handle, and only allocate a shared handle in the event that
* someone actually wants to share. Both of these alternatives add
* complexity or space costs, and so we start with the simplest thing
* that could possibly work :-)
*/
class NS_COM nsXPIDLString
: public nsSharableString
{
public:
typedef nsXPIDLString self_type;
public:
nsXPIDLString()
: nsSharableString(GetSharedEmptyBufferHandle())
{
#if DEBUG_STRING_STATS
++sCreatedCount;
if ( ++sAliveCount > sHighWaterCount )
sHighWaterCount = sAliveCount;
#endif
}
nsXPIDLString( const self_type& aString )
: nsSharableString(aString.mBuffer.get())
// copy-constructor required (or else C++ generates one for us)
{
#if DEBUG_STRING_STATS
++sCreatedCount;
if ( ++sAliveCount > sHighWaterCount )
sHighWaterCount = sAliveCount;
#endif
}
explicit nsXPIDLString( const abstract_string_type& aReadable )
: nsSharableString(aReadable)
{
#if DEBUG_STRING_STATS
++sCreatedCount;
if ( ++sAliveCount > sHighWaterCount )
sHighWaterCount = sAliveCount;
#endif
}
#if DEBUG_STRING_STATS
~nsXPIDLString()
{
--sAliveCount;
}
#endif
self_type&
operator=( const abstract_string_type& aReadable )
{
Assign(aReadable);
return *this;
}
/**
* This is an override of a non-virtual function on
* |nsSharableString|. This override is not necessary, but it can
* improve performance in the case where we know we have an
* |nsXPIDLString|.
*/
void Adopt( char_type* aNewValue ) { *PrepareForUseAsOutParam() = aNewValue; }
// overridden to make getter_Copies mechanism work
virtual const char_type* get() const
{
return (mBuffer.get() != GetSharedEmptyBufferHandle())
? mBuffer->DataStart()
: 0;
}
// deprecated, to be eliminated
operator const char_type*() const { return get(); }
char_type operator[]( int i ) const { return get()[ i ]; }
class getter_Copies_t
{
public:
getter_Copies_t( nsXPIDLString& aString ) : mString(&aString) { }
// getter_Copies_t( const getter_Copies_t& ); // auto-generated copy-constructor OK
// getter_Copies_t& operator=( const getter_Copies_t& ); // auto-generated assignment operator OK
operator char_type**() const { return mString->PrepareForUseAsOutParam(); }
private:
nsXPIDLString* mString;
};
friend class getter_Copies_t;
protected:
#if DEBUG_STRING_STATS
virtual const buffer_handle_type* GetFlatBufferHandle() const;
virtual const buffer_handle_type* GetBufferHandle() const;
#endif
virtual const shared_buffer_handle_type* GetSharedBufferHandle() const;
// overridden to fix the length after `out' parameter assignment, if necessary
char_type** PrepareForUseAsOutParam();
static shared_buffer_handle_type* GetSharedEmptyBufferHandle();
#if DEBUG_STRING_STATS
static size_t sCreatedCount; // total number of |nsXPIDLString|s ever created
static size_t sAliveCount; // total number of |nsXPIDLStrings|s alive right now
static size_t sHighWaterCount; // greatest number of |nsXPIDLString|s alive at once
static size_t sAssignCount; // total number of times |nsXPIDLString|s were
// assigned into with |getter_Copies|
static size_t sShareCount; // total number times |nsXPIDLString|s were asked to share
public:
static void DebugPrintStats( FILE* );
#endif
};
inline
nsXPIDLString::getter_Copies_t
getter_Copies( nsXPIDLString& aString )
{
return nsXPIDLString::getter_Copies_t(aString);
}
class NS_COM nsXPIDLCString
: public nsSharableCString
{
public:
typedef nsXPIDLCString self_type;
public:
nsXPIDLCString()
: nsSharableCString(GetSharedEmptyBufferHandle())
{
#if DEBUG_STRING_STATS
++sCreatedCount;
if ( ++sAliveCount > sHighWaterCount )
sHighWaterCount = sAliveCount;
#endif
}
nsXPIDLCString( const self_type& aString )
: nsSharableCString(aString.mBuffer.get())
// copy-constructor required (or else C++ generates one for us)
{
#if DEBUG_STRING_STATS
++sCreatedCount;
if ( ++sAliveCount > sHighWaterCount )
sHighWaterCount = sAliveCount;
#endif
}
#if DEBUG_STRING_STATS
~nsXPIDLCString()
{
--sAliveCount;
}
#endif
self_type&
operator=( const abstract_string_type& aReadable )
{
Assign(aReadable);
return *this;
}
/**
* This is an override of a non-virtual function on
* |nsSharableCString|. This override is not necessary, but it can
* improve performance in the case where we know we have an
* |nsXPIDLCString|.
*/
void Adopt( char_type* aNewValue ) { *PrepareForUseAsOutParam() = aNewValue; }
// overridden to make getter_Copies mechanism work
virtual const char_type* get() const
{
return (mBuffer.get() != GetSharedEmptyBufferHandle())
? mBuffer->DataStart()
: 0;
}
// deprecated, to be eliminated
operator const char_type*() const { return get(); }
char_type operator[]( int i ) const { return get()[ i ]; }
class getter_Copies_t
{
public:
getter_Copies_t( nsXPIDLCString& aString ) : mString(&aString) { }
// getter_Copies_t( const getter_Copies_t& ); // auto-generated copy-constructor OK
// getter_Copies_t& operator=( const getter_Copies_t& ); // auto-generated assignment operator OK
operator char_type**() const { return mString->PrepareForUseAsOutParam(); }
private:
nsXPIDLCString* mString;
};
friend class getter_Copies_t;
protected:
#if DEBUG_STRING_STATS
virtual const buffer_handle_type* GetFlatBufferHandle() const;
virtual const buffer_handle_type* GetBufferHandle() const;
#endif
virtual const shared_buffer_handle_type* GetSharedBufferHandle() const;
// overridden to fix the length after `out' parameter assignment, if necessary
char_type** PrepareForUseAsOutParam();
static shared_buffer_handle_type* GetSharedEmptyBufferHandle();
#if DEBUG_STRING_STATS
static size_t sCreatedCount; // total number of |nsXPIDLCString|s ever created
static size_t sAliveCount; // total number of |nsXPIDLCStrings|s alive right now
static size_t sHighWaterCount; // greatest number of |nsXPIDLCString|s alive at once
static size_t sAssignCount; // total number of times |nsXPIDLCString|s were
// assigned into with |getter_Copies|
static size_t sShareCount; // total number times |nsXPIDLCString|s were asked to share
public:
static void DebugPrintStats( FILE* );
#endif
};
inline
nsXPIDLCString::getter_Copies_t
getter_Copies( nsXPIDLCString& aString )
{
return nsXPIDLCString::getter_Copies_t(aString);
}
#endif /* !defined(nsXPIDLString_h___) */