ACE  6.3.3
Classes | Public Types | Static Public Member Functions | List of all members
ACE_CDR Class Reference

Keep constants and some routines common to both Output and Input CDR streams. More...

#include <CDR_Base.h>

Classes

struct  Double
 
class  Fixed
 
struct  Float
 
struct  LongDouble
 

Public Types

enum  {
  OCTET_SIZE = 1, SHORT_SIZE = 2, LONG_SIZE = 4, LONGLONG_SIZE = 8,
  LONGDOUBLE_SIZE = 16, OCTET_ALIGN = 1, SHORT_ALIGN = 2, LONG_ALIGN = 4,
  LONGLONG_ALIGN = 8, LONGDOUBLE_ALIGN = 8, MAX_ALIGNMENT = 8, DEFAULT_BUFSIZE = ACE_DEFAULT_CDR_BUFSIZE,
  EXP_GROWTH_MAX = ACE_DEFAULT_CDR_EXP_GROWTH_MAX, LINEAR_GROWTH_CHUNK = ACE_DEFAULT_CDR_LINEAR_GROWTH_CHUNK
}
 
enum  Byte_Order { BYTE_ORDER_BIG_ENDIAN = 0, BYTE_ORDER_LITTLE_ENDIAN = 1, BYTE_ORDER_NATIVE = ACE_CDR_BYTE_ORDER }
 
Basic OMG IDL Types

These types are for use in the CDR classes. The cleanest way to avoid complaints from all compilers is to define them all.

typedef bool Boolean
 
typedef unsigned char Octet
 
typedef char Char
 
typedef ACE_WCHAR_T WChar
 
typedef ACE_INT16 Short
 
typedef ACE_UINT16 UShort
 
typedef ACE_INT32 Long
 
typedef ACE_UINT32 ULong
 
typedef ACE_UINT64 ULongLong
 
typedef long long LongLong
 

Static Public Member Functions

static void swap_2 (char const *orig, char *target)
 
static void swap_4 (char const *orig, char *target)
 
static void swap_8 (char const *orig, char *target)
 
static void swap_16 (char const *orig, char *target)
 
static void swap_2_array (char const *orig, char *target, size_t length)
 
static void swap_4_array (char const *orig, char *target, size_t length)
 
static void swap_8_array (char const *orig, char *target, size_t length)
 
static void swap_16_array (char const *orig, char *target, size_t length)
 
static void mb_align (ACE_Message_Block *mb)
 
static size_t first_size (size_t minsize)
 
static size_t next_size (size_t minsize)
 
static int grow (ACE_Message_Block *mb, size_t minsize)
 
static int consolidate (ACE_Message_Block *dst, const ACE_Message_Block *src)
 
static size_t total_length (const ACE_Message_Block *begin, const ACE_Message_Block *end)
 

Detailed Description

Keep constants and some routines common to both Output and Input CDR streams.

Member Typedef Documentation

typedef bool ACE_CDR::Boolean
typedef char ACE_CDR::Char
typedef ACE_INT32 ACE_CDR::Long
typedef long long ACE_CDR::LongLong
typedef unsigned char ACE_CDR::Octet
typedef ACE_INT16 ACE_CDR::Short
typedef ACE_UINT32 ACE_CDR::ULong
typedef ACE_UINT16 ACE_CDR::UShort

Member Enumeration Documentation

anonymous enum
Enumerator
OCTET_SIZE 
SHORT_SIZE 
LONG_SIZE 
LONGLONG_SIZE 
LONGDOUBLE_SIZE 
OCTET_ALIGN 
SHORT_ALIGN 
LONG_ALIGN 
LONGLONG_ALIGN 
LONGDOUBLE_ALIGN 
Note
the CORBA LongDouble alignment requirements do not match its size...
MAX_ALIGNMENT 

Maximal CDR 1.1 alignment: "quad precision" FP (i.e. "CDR::Long double", size as above).

DEFAULT_BUFSIZE 

The default buffer size.

Todo:
We want to add options to control this default value, so this constant should be read as the default default value ;-)
EXP_GROWTH_MAX 

The buffer size grows exponentially until it reaches this size; afterwards it grows linearly using the next constant

LINEAR_GROWTH_CHUNK 

Once exponential growth is ruled out the buffer size increases in chunks of this size, note that this constants have the same value right now, but it does not need to be so.

Defines values for the byte_order argument to ACE_OutputCDR and ACE_InputCDR.

Enumerator
BYTE_ORDER_BIG_ENDIAN 

Use big-endian order (also known as network byte order).

BYTE_ORDER_LITTLE_ENDIAN 

Use little-endian order.

BYTE_ORDER_NATIVE 

Use whichever byte order is native to this machine.

Member Function Documentation

int ACE_CDR::consolidate ( ACE_Message_Block dst,
const ACE_Message_Block src 
)
static

Copy a message block chain into a single message block, preserving the alignment of the first message block of the original stream, not the following message blocks.

Return values
-1Failure
0Success.
size_t ACE_CDR::first_size ( size_t  minsize)
inlinestatic

Compute the size of the smallest buffer that can contain at least minsize bytes. To understand how a "best fit" is computed look at the algorithm in the code. Basically the buffers grow exponentially, up to a certain point, then the buffer size grows linearly. The advantage of this algorithm is that is rapidly grows to a large value, but does not explode at the end.

int ACE_CDR::grow ( ACE_Message_Block mb,
size_t  minsize 
)
static

Increase the capacity of mb to contain at least minsize bytes. If minsize is zero the size is increased by an amount at least large enough to contain any of the basic IDL types.

Return values
-1Failure
0Success.
void ACE_CDR::mb_align ( ACE_Message_Block mb)
static

Align the message block to ACE_CDR::MAX_ALIGNMENT, set by the CORBA spec at 8 bytes.

size_t ACE_CDR::next_size ( size_t  minsize)
inlinestatic

Compute not the smallest, but the second smallest buffer that will fir minsize bytes.

void ACE_CDR::swap_16 ( char const *  orig,
char *  target 
)
inlinestatic
void ACE_CDR::swap_16_array ( char const *  orig,
char *  target,
size_t  length 
)
static
void ACE_CDR::swap_2 ( char const *  orig,
char *  target 
)
inlinestatic

Do byte swapping for each basic IDL type size. There exist only routines to put byte, halfword (2 bytes), word (4 bytes), doubleword (8 bytes) and quadword (16 byte); because those are the IDL basic type sizes.

void ACE_CDR::swap_2_array ( char const *  orig,
char *  target,
size_t  length 
)
static
void ACE_CDR::swap_4 ( char const *  orig,
char *  target 
)
inlinestatic
void ACE_CDR::swap_4_array ( char const *  orig,
char *  target,
size_t  length 
)
static
void ACE_CDR::swap_8 ( char const *  orig,
char *  target 
)
inlinestatic
void ACE_CDR::swap_8_array ( char const *  orig,
char *  target,
size_t  length 
)
static
size_t ACE_CDR::total_length ( const ACE_Message_Block begin,
const ACE_Message_Block end 
)
static

The documentation for this class was generated from the following files: