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vdr/libdtv/liblx/liblx.h

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//////////////////////////////////////////////////////////////
/// ///
/// liblx.h: definitions necessary for the liblx package ///
/// ///
//////////////////////////////////////////////////////////////
// $Revision: 1.2 $
// $Date: 2001/06/25 19:39:00 $
// $Author: hakenes $
//
// (C) 1992-2001 Rolf Hakenes <hakenes@hippomi.de>, under the GNU GPL.
//
// liblx is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation; either version 2, or (at your option)
// any later version.
//
// liblx is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You may have received a copy of the GNU General Public License
// along with liblx; see the file COPYING. If not, write to the
// Free Software Foundation, Inc., 59 Temple Place - Suite 330,
// Boston, MA 02111-1307, USA.
#ifndef LIBLX_H
#define LIBLX_H
#ifndef NULL
#define NULL 0
#endif
/*
*
* list support structures
*
*/
struct NODE
{
struct NODE *Succ;
struct NODE *Pred;
char *Name;
unsigned short HashKey;
};
struct LIST
{
struct NODE *Head;
struct NODE *Tail;
char *Name;
unsigned long Size;
};
/*
*
* memory managment structures
*
*/
struct MEM_ENTRY
{
struct MEM_ENTRY *Succ;
struct MEM_ENTRY *Pred;
unsigned long Size;
};
struct MEM_CHUNK
{
struct MEM_CHUNK *Succ;
struct MEM_CHUNK *Pred;
unsigned long Size;
struct MEM_ENTRY *FirstFreeMemEntry;
struct MEM_ENTRY *FirstUsedMemEntry;
};
#ifdef __cplusplus
extern "C" {
#endif
/*
*
* list functions (package xList)
*
*/
unsigned short xHashKey (char *);
struct LIST *xNewList (char *);
struct NODE *xNewNode (char *, unsigned long);
struct NODE *xFindName (struct LIST *, char *);
/*
*
* memory management
*
*/
void xMemAllo (unsigned long, unsigned char **);
void xMemFre (unsigned char *);
void xMemFreeAll (struct MEM_CHUNK **);
void xMemMerge (struct MEM_CHUNK **);
struct MEM_CHUNK **xGetRemember (void);
void xSetRemember (struct MEM_CHUNK **);
void xPrintMemList (struct MEM_CHUNK **);
unsigned long xGetMemSize (struct MEM_CHUNK **);
extern unsigned long xAllocatedMemory;
char *xSetText (char *);
#ifdef __cplusplus
}
#endif
#define MEM_CHUNK_SIZE 65536
#define xMemAlloc(size, ptr) \
xMemAllo (((unsigned long)((size))), ((unsigned char **)((ptr))))
#define xMemFree(ptr) xMemFre (((unsigned char *)((ptr))))
/*
*
* list support macros
*
*/
/*---------------------------------------------------------------------*
| |
| xCreateNode (NodeStruct,Name) allocates a correctly sized and |
| typed node struct. |
| |
*---------------------------------------------------------------------*/
#define xCreateNode(NodeStruct,Name) \
(NodeStruct) = (void *) xNewNode(Name, sizeof(*(NodeStruct)))
/*---------------------------------------------------------------------*
| |
| xSize (List) scans for the ->Size field of a list struct |
| |
*---------------------------------------------------------------------*/
#define xSize(List) ((List) ? ((struct LIST *)(List))->Size : 0)
/*---------------------------------------------------------------------*
| |
| xName (NodeStruct) scans for the ->Node.Name of a node struct |
| |
*---------------------------------------------------------------------*/
#define xName(NodeStruct) (((struct NODE *)(NodeStruct))->Name)
/*---------------------------------------------------------------------*
| |
| xSucc (NodeStruct) scans for the ->Node.Succ of a node struct |
| |
*---------------------------------------------------------------------*/
#define xSucc(NodeStruct) (((struct NODE *)(NodeStruct))->Succ)
/*---------------------------------------------------------------------*
| |
| xPred (NodeStruct) scans for the ->Node.Pred of a node struct |
| |
*---------------------------------------------------------------------*/
#define xPred(NodeStruct) (((struct NODE *)(NodeStruct))->Pred)
/*---------------------------------------------------------------------*
| |
| xForeach(List,NodeStruct) builds a loop to process each list |
| element. |
| |
*---------------------------------------------------------------------*/
#define xForeach(List,NodeStruct) \
if (List) for ((NodeStruct) = (void *) ((struct LIST *)(List))->Head; \
(NodeStruct); (NodeStruct) = (void *) xSucc (NodeStruct))
/*---------------------------------------------------------------------*
| |
| xForeachReverse(List,NodeStruct) builds a loop to process each |
| element in reverse order. |
| |
*---------------------------------------------------------------------*/
#define xForeachReverse(List,NodeStruct) \
if (List) for ((NodeStruct) = (void *) ((struct LIST *)(List))->Tail; \
NodeStruct; (NodeStruct) = (void *) xPred (NodeStruct))
/*---------------------------------------------------------------------*
| |
| xRemove(List,NodeStruct) unchains a node struct out of a list. |
| |
*---------------------------------------------------------------------*/
#define xRemove(List,NodeStruct) \
do \
{ \
struct NODE *TmpNode; \
struct LIST *TmpList; \
\
TmpNode = ((struct NODE *)(NodeStruct)); \
TmpList = ((struct LIST *)(List)); \
\
if (TmpNode->Pred) \
(TmpNode->Pred)->Succ = TmpNode->Succ; \
else TmpList->Head = TmpNode->Succ; \
if (TmpNode->Succ) \
(TmpNode->Succ)->Pred = TmpNode->Pred; \
else TmpList->Tail = TmpNode->Pred; \
TmpList->Size --; \
} while (0)
/*************************************************************************
* *
* function : xAddHead *
* *
* arguments : List - pointer to a LIST structure *
* *
* Node - pointer to a NODE structure *
* *
*-----------------------------------------------------------------------*
* *
* xAddHead() inserts 'Node' at the head of 'List'. *
* *
*************************************************************************/
#define xAddHead(List, NodeStruct) \
do { \
struct NODE *TmpNode; \
struct LIST *TmpList; \
\
TmpNode = ((struct NODE *)(NodeStruct)); \
TmpList = ((struct LIST *)(List)); \
\
if (TmpList->Head) { \
TmpNode->Pred = NULL; \
TmpNode->Succ = TmpList->Head; \
(TmpList->Head)->Pred = TmpNode; \
TmpList->Head = TmpNode; } \
else { \
TmpList->Head = TmpNode; \
TmpList->Tail = TmpNode; \
TmpNode->Pred = NULL; \
TmpNode->Succ = NULL; } \
TmpList->Size++; \
} while (0)
/*************************************************************************
* *
* function : xAddTail *
* *
* arguments : List - pointer to a LIST structure *
* *
* Node - pointer to a NODE structure *
* *
*-----------------------------------------------------------------------*
* *
* xAddTail() inserts 'Node' at the tail of 'List'. *
* *
*************************************************************************/
#define xAddTail(List, NodeStruct) \
do { \
struct NODE *TmpNode; \
struct LIST *TmpList; \
\
TmpNode = ((struct NODE *)(NodeStruct)); \
TmpList = ((struct LIST *)(List)); \
\
if (TmpList->Head) { \
TmpNode->Succ = NULL; \
TmpNode->Pred = TmpList->Tail; \
(TmpList->Tail)->Succ = TmpNode; \
TmpList->Tail = TmpNode; } \
else { \
TmpList->Head = TmpNode; \
TmpList->Tail = TmpNode; \
TmpNode->Pred = NULL; \
TmpNode->Succ = NULL; } \
TmpList->Size++; \
} while (0)
/*************************************************************************
* *
* function : xRemHead *
* *
* arguments : List - pointer to a LIST structure *
* *
*-----------------------------------------------------------------------*
* *
* xRemHead() removes a Node from head of 'List'. *
* *
*************************************************************************/
#define xRemHead(List) \
do { \
struct LIST *TmpList; \
\
TmpList = ((struct LIST *)(List)); \
\
if (TmpList->Head) \
{ \
TmpList->Head = (TmpList->Head)->Succ; \
if (TmpList->Head) (TmpList->Head)->Pred = NULL; \
else TmpList->Tail = NULL; \
TmpList->Size--; \
} \
} while (0)
/*************************************************************************
* *
* function : xRemTail *
* *
* arguments : List - pointer to a LIST structure *
* *
*-----------------------------------------------------------------------*
* *
* xRemTail() removes a Node from the tail of 'List'. *
* *
*************************************************************************/
#define xRemTail(List) \
do { \
struct LIST *TmpList; \
\
TmpList = ((struct LIST *)(List)); \
\
if (TmpList->Tail) \
{ \
TmpList->Tail = (TmpList->Tail)->Pred; \
if (TmpList->Tail) (TmpList->Tail)->Succ = NULL; \
else TmpList->Head = NULL; \
TmpList->Size--; \
} \
} while (0)
/*************************************************************************
* *
* function : xConCat *
* *
* arguments : DestinationList - pointer to the destination *
* LIST structure *
* *
* SourceList - pointer to the source LIST structure *
* *
*-----------------------------------------------------------------------*
* *
* xConCat() concats 'SourceList' with 'DestinationList' and clears *
* 'SourceList'. *
* *
*************************************************************************/
#define xConCat(DestinationList, SourceList) \
do { \
struct LIST *SrcList; \
struct LIST *DstList; \
\
SrcList = ((struct LIST *)(SourceList)); \
DstList = ((struct LIST *)(DestinationList)); \
\
if (DstList && SrcList) \
{ \
if (DstList->Head) { \
if (SrcList->Head) { \
(DstList->Tail)->Succ = SrcList->Head; \
(SrcList->Head)->Pred = DstList->Tail; \
DstList->Tail = SrcList->Tail; \
DstList->Size += SrcList->Size; \
SrcList->Size = 0; \
SrcList->Head = NULL; \
SrcList->Tail = NULL; } } \
else { \
DstList->Head = SrcList->Head; \
DstList->Tail = SrcList->Tail; \
DstList->Size += SrcList->Size; \
SrcList->Size = 0; \
SrcList->Head = NULL; \
SrcList->Tail = NULL; } \
} \
else if (SrcList) ((struct LIST *)(DestinationList)) = SrcList; \
} while (0)
#define xJoinList(SourceList, DestinationList, NodeStruct) \
do { \
struct NODE *KeyNode; \
struct NODE *TmpNode; \
struct LIST *SrcList; \
struct LIST *DstList; \
\
KeyNode = ((struct NODE *)(NodeStruct)); \
SrcList = ((struct LIST *)(SourceList)); \
DstList = ((struct LIST *)(DestinationList)); \
\
if (SrcList->Head) \
{ \
TmpNode = KeyNode->Succ; \
KeyNode->Succ = SrcList->Head; \
SrcList->Tail->Succ = TmpNode; \
SrcList->Head->Pred = KeyNode; \
if (!TmpNode) DstList->Tail = SrcList->Tail; \
else TmpNode->Pred = SrcList->Tail; \
DstList->Size += SrcList->Size; \
SrcList->Size = 0; \
SrcList->Head = NULL; \
SrcList->Tail = NULL; \
} \
} while (0)
#define xJoin(SourceNode, DestinationList, NodeStruct) \
do { \
struct NODE *KeyNode; \
struct NODE *TmpNode; \
struct NODE *SrcNode; \
struct LIST *DstList; \
\
KeyNode = ((struct NODE *)(NodeStruct)); \
SrcNode = ((struct NODE *)(SourceNode)); \
DstList = ((struct LIST *)(DestinationList)); \
\
if (SrcNode) \
{ \
TmpNode = KeyNode->Succ; \
KeyNode->Succ = SrcNode; \
SrcNode->Succ = TmpNode; \
SrcNode->Pred = KeyNode; \
if (!TmpNode) DstList->Tail = SrcNode; \
else TmpNode->Pred = SrcNode; \
DstList->Size += 1; \
} \
} while (0)
#define xClearList(SrcList) \
do { \
(SrcList)->Size = 0; \
(SrcList)->Head = NULL; \
(SrcList)->Tail = NULL; \
} while (0)
#define xSetName(nodestruct, name) \
do { \
struct NODE *TmpNode; \
\
TmpNode = (struct NODE *) (nodestruct); \
\
TmpNode->Name = xSetText (name); \
TmpNode->HashKey = xHashKey (name); \
} while (0)
#endif