/usr/include/libreoffice/rtl/byteseq.h is in libreoffice-dev 1:3.5.2-2ubuntu1.
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#ifndef _RTL_BYTESEQ_H_
#define _RTL_BYTESEQ_H_
#include <sal/types.h>
#include <rtl/alloc.h>
#ifdef __cplusplus
extern "C"
{
#endif
/** Assures that the reference count of the given byte sequence is one. Otherwise a new copy
of the sequence is created with a reference count of one.
@param ppSequence sequence
*/
void SAL_CALL rtl_byte_sequence_reference2One(
sal_Sequence ** ppSequence )
SAL_THROW_EXTERN_C();
/** Reallocates length of byte sequence.
@param ppSequence sequence
@param nSize new size of sequence
*/
void SAL_CALL rtl_byte_sequence_realloc(
sal_Sequence ** ppSequence, sal_Int32 nSize )
SAL_THROW_EXTERN_C();
/** Acquires the byte sequence
@param pSequence sequence, that is to be acquired
*/
void SAL_CALL rtl_byte_sequence_acquire(
sal_Sequence *pSequence )
SAL_THROW_EXTERN_C();
/** Releases the byte sequence. If the refcount drops to zero, the sequence is freed.
@param pSequence sequence, that is to be released; invalid after call
*/
void SAL_CALL rtl_byte_sequence_release(
sal_Sequence *pSequence )
SAL_THROW_EXTERN_C();
/** Constructs a bytes sequence with length nLength. All bytes are set to zero.
@param ppSequence inout sequence; on entry *ppSequence may be null, otherwise it is released;
after the call, *ppSequence contains the newly constructed sequence
@param nLength length of new sequence
*/
void SAL_CALL rtl_byte_sequence_construct(
sal_Sequence **ppSequence , sal_Int32 nLength )
SAL_THROW_EXTERN_C();
/** Constructs a bytes sequence with length nLength. The data is not initialized.
@param ppSequence inout sequence; on entry *ppSequence may be null, otherwise it is released;
after the call, *ppSequence contains the newly constructed sequence
@param nLength length of new sequence
*/
void SAL_CALL rtl_byte_sequence_constructNoDefault(
sal_Sequence **ppSequence , sal_Int32 nLength )
SAL_THROW_EXTERN_C();
/** Constructs a byte sequence with length nLength and copies nLength bytes from pData.
@param ppSequence inout sequence; on entry *ppSequence may be null, otherwise it is released;
after the call, *ppSequence contains the newly constructed sequence
@param pData initial data
@param nLength length of new sequence
*/
void SAL_CALL rtl_byte_sequence_constructFromArray(
sal_Sequence **ppSequence, const sal_Int8 *pData , sal_Int32 nLength )
SAL_THROW_EXTERN_C();
/** Assigns the byte sequence pSequence to *ppSequence.
@param ppSequence inout sequence; on entry *ppSequence may be null, otherwise it is released;
after the call, *ppSequence references pSequence
@param pSequence the source sequence
*/
void SAL_CALL rtl_byte_sequence_assign(
sal_Sequence **ppSequence , sal_Sequence *pSequence )
SAL_THROW_EXTERN_C();
/** Compares two byte sequences.
@return true, if the data within the sequences are identical; false otherwise
*/
sal_Bool SAL_CALL rtl_byte_sequence_equals(
sal_Sequence *pSequence1 , sal_Sequence *pSequence2 )
SAL_THROW_EXTERN_C();
/** Returns the data array pointer of the sequence.
@return read-pointer to the data array of the sequence. If rtl_byte_sequence_reference2One()
has been called before, the pointer may be casted to a non const pointer and
the sequence may be modified
*/
const sal_Int8 *SAL_CALL rtl_byte_sequence_getConstArray(
sal_Sequence *pSequence )
SAL_THROW_EXTERN_C();
/** Returns the length of the sequence
@param pSequence sequence handle
@return length of the sequence
*/
sal_Int32 SAL_CALL rtl_byte_sequence_getLength(
sal_Sequence *pSequence )
SAL_THROW_EXTERN_C();
#ifdef __cplusplus
}
namespace rtl
{
enum __ByteSequence_NoDefault
{
/** This enum value can be used to create a bytesequence with uninitalized data
*/
BYTESEQ_NODEFAULT = 0xcafe
};
enum __ByteSequence_NoAcquire
{
/** This enum value can be used to create a bytesequence from a C-Handle without
acquiring the handle.
*/
BYTESEQ_NOACQUIRE = 0xcafebabe
};
/** C++ class representing a SAL byte sequence.
C++ Sequences are reference counted and shared, so the sequence keeps a handle to its data.
To keep value semantics, copies are only generated if the sequence is to be modified
(new handle).
*/
class ByteSequence
{
/** sequence handle
@internal
*/
sal_Sequence * _pSequence;
public:
// these are here to force memory de/allocation to sal lib.
/** @internal */
inline static void * SAL_CALL operator new ( size_t nSize ) SAL_THROW( () )
{ return ::rtl_allocateMemory( nSize ); }
/** @internal */
inline static void SAL_CALL operator delete ( void * pMem ) SAL_THROW( () )
{ ::rtl_freeMemory( pMem ); }
/** @internal */
inline static void * SAL_CALL operator new ( size_t, void * pMem ) SAL_THROW( () )
{ return pMem; }
/** @internal */
inline static void SAL_CALL operator delete ( void *, void * ) SAL_THROW( () )
{}
/** Default constructor: Creates an empty sequence.
*/
inline ByteSequence() SAL_THROW( () );
/** Copy constructor: Creates a copy of given sequence.
@param rSeq another byte sequence
*/
inline ByteSequence( const ByteSequence & rSeq ) SAL_THROW( () );
/** Copy constructor Creates a copy from the C-Handle.
@param pSequence another byte sequence handle
*/
inline ByteSequence( sal_Sequence *pSequence ) SAL_THROW( () );
/** Constructor: Creates a copy of given data bytes.
@param pElements an array of bytes
@param len number of bytes
*/
inline ByteSequence( const sal_Int8 * pElements, sal_Int32 len );
/** Constructor: Creates sequence of given length and initializes all bytes to 0.
@param len initial sequence length
*/
inline ByteSequence( sal_Int32 len );
/** Constructor: Creates sequence of given length and does NOT initialize data.
Use this ctor for performance optimization only.
@param len initial sequence length
@param nodefault dummy parameter forcing explicit BYTESEQ_NODEFAULT
*/
inline ByteSequence( sal_Int32 len , enum __ByteSequence_NoDefault nodefault );
/** Constructor:
Creates a sequence from a C-Handle without acquiring the handle, thus taking
over owenership. Eitherway the handle is release by the destructor.
This ctor is useful, when working with a c-interface (it safes a pair of
acquire and release call and is thus a performance optimization only).
@param pSequence sequence handle to be taken over
@param noacquire dummy parameter forcing explicit BYTESEQ_NOACQUIRE
*/
inline ByteSequence( sal_Sequence *pSequence , enum __ByteSequence_NoAcquire noacquire ) SAL_THROW( () );
/** Destructor: Releases sequence handle. Last handle will free memory.
*/
inline ~ByteSequence() SAL_THROW( () );
/** Assignment operator: Acquires given sequence handle and releases a previously set handle.
@param rSeq another byte sequence
@return this sequence
*/
inline ByteSequence & SAL_CALL operator = ( const ByteSequence & rSeq ) SAL_THROW( () );
/** Gets the length of sequence.
@return length of sequence
*/
inline sal_Int32 SAL_CALL getLength() const SAL_THROW( () )
{ return _pSequence->nElements; }
/** Gets a pointer to byte array for READING. If the sequence has a length of 0, then the
returned pointer is undefined.
@return pointer to byte array
*/
inline const sal_Int8 * SAL_CALL getConstArray() const SAL_THROW( () )
{ return (const sal_Int8 *)_pSequence->elements; }
/** Gets a pointer to elements array for READING AND WRITING. In general if the sequence
has a handle acquired by other sequences (reference count > 1), then a new sequence is
created copying all bytes to keep value semantics!
If the sequence has a length of 0, then the returned pointer is undefined.
@return pointer to elements array
*/
inline sal_Int8 * SAL_CALL getArray();
/** Non-const index operator:
Obtains a reference to byte indexed at given position.
In general if the sequence has a handle acquired by other
sequences (reference count > 1), then a new sequence is created
copying all bytes to keep value semantics!
@attention
The implementation does NOT check for array bounds!
@param nIndex index
@return non-const C++ reference to element at index nIndex
*/
inline sal_Int8 & SAL_CALL operator [] ( sal_Int32 nIndex );
/** Const index operator: Obtains a reference to byte indexed at given position.
The implementation does NOT check for array bounds!
@param nIndex index
@return const C++ reference to byte at element of indenx nIndex
*/
inline const sal_Int8 & SAL_CALL operator [] ( sal_Int32 nIndex ) const SAL_THROW( () )
{ return getConstArray()[ nIndex ]; }
/** Equality operator: Compares two sequences.
@param rSeq another byte sequence (right side)
@return true if both sequences are equal, false otherwise
*/
inline sal_Bool SAL_CALL operator == ( const ByteSequence & rSeq ) const SAL_THROW( () );
/** Unequality operator: Compares two sequences.
@param rSeq another byte sequence (right side)
@return false if both sequences are equal, true otherwise
*/
inline sal_Bool SAL_CALL operator != ( const ByteSequence & rSeq ) const SAL_THROW( () );
/** Reallocates sequence to new length. If the sequence has a handle acquired by other sequences
(reference count > 1), then the remaining elements are copied to a new sequence handle to
keep value semantics!
@param nSize new size of sequence
*/
inline void SAL_CALL realloc( sal_Int32 nSize );
/** Returns the UNnacquired C handle of the sequence
@return UNacquired handle of the sequence
*/
inline sal_Sequence * SAL_CALL getHandle() const SAL_THROW( () )
{ return _pSequence; }
/** Returns the UNnacquired C handle of the sequence (for compatibility reasons)
@return UNacquired handle of the sequence
*/
inline sal_Sequence * SAL_CALL get() const SAL_THROW( () )
{ return _pSequence; }
};
}
#endif
#endif
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