Double Link List

#ifndef __USBH_X_DLIST_H__
#define __USBH_X_DLIST_H__

#include "USBH.h"
#include "USBH_Int.h"
#include <string.h>
#include <stdlib.h>   // for atoi(), exit(), malloc(), free()
#include <stddef.h>   // for offsetof()

#if (0)

// Double linked list structure. Can be used as either a list head, or as link words.

// @struct USBH_DLIST |
//   The USBH_DLIST structure is the link element of the double linked list. It is used as either a list head, or as link entry.
// @field  struct tDLIST * | Flink |
//   Pointer to the successor (forward link).
// @field  struct tDLIST * | pPrev |
//   Pointer to the predecessor (backward link).
// @comm By means of such elements any structures may be handled as a double linked list. The USBH_DLIST structure is to be inserted
//   into the structure which is to be handled. A pointer to the original structure can be obtained by means of the macro <f STRUCT_BASE_POINTER>.
typedef struct USBH_DLIST USBH_DLIST;
struct USBH_DLIST
{
  USBH_DLIST * pNext;
  USBH_DLIST * pPrev;
};

typedef struct USBH_DLIST_ITEM
{
  struct USBH_DLIST_ITEM * pNext;
  struct USBH_DLIST_ITEM * pPrev;
}USBH_DLIST_ITEM;

typedef struct
{
  struct USBH_DLIST_ITEM * pFirst;
  int NumItems;
}USBH_DLIST_HEAD;

#endif

#define offset_of_member( struct_name, member_name ) \
  ( (unsigned int) (&  (  (struct_name *) 0 ) -> member_name ) )

#define container_of(ptr, type, member) \
  ( (type *)( (char *)ptr - offset_of_member(type,member) ) )

void USBH_DLIST_Init(USBH_DLIST * ListHead);
int USBH_DLIST_IsEmpty(USBH_DLIST * ListHead);
void USBH_DLIST_Append(USBH_DLIST * ListHead, USBH_DLIST * List);
void USBH_DLIST_InsertTail(USBH_DLIST * ListHead, USBH_DLIST * Entry);
void USBH_DLIST_InsertHead(USBH_DLIST * ListHead, USBH_DLIST * Entry);
void USBH_DLIST_InsertEntry(USBH_DLIST * Entry, USBH_DLIST * NewEntry);
void USBH_DLIST_RemoveTail(USBH_DLIST * ListHead, USBH_DLIST ** Entry);
void USBH_DLIST_RemoveHead(USBH_DLIST * ListHead, USBH_DLIST ** Entry);
void USBH_DLIST_RemoveEntry(USBH_DLIST * Entry);
USBH_DLIST * USBH_DLIST_GetPrev(USBH_DLIST * Entry);
USBH_DLIST * USBH_DLIST_GetNext(USBH_DLIST * Entry);

void USBH_DLIST_Add(USBH_DLIST_HEAD * pHead, USBH_DLIST_ITEM * pNew);
void USBH_DLIST_Remove(USBH_DLIST_HEAD * pHead, USBH_DLIST_ITEM * pItem);

//******************************************************************************
// Added
//******************************************************************************

typedef unsigned int (*NODE_MATCH_FUNC)(USBH_DLIST * Entry, void * pContext);

void USBH_X_DLIST_DeleteNode(USBH_DLIST * Entry, unsigned int EntryOffset);
void USBH_X_DLIST_DeleteAllNodes(USBH_DLIST * pHead, unsigned int EntryOffset);
void USBH_X_DLIST_DeleteMatchedNode(USBH_DLIST * pHead,
    unsigned int EntryOffset, NODE_MATCH_FUNC NodeMacthFunc, void * pContext);
USBH_DLIST * USBH_X_DLIST_AddNode(USBH_DLIST * pHead,
    unsigned int NodeEntryOffset, unsigned int NodeSize);

void USBH_X_DLIST_Test(void);

#endif /* __USBH_X_DLIST_H__ */

#include "USBH_X_Dlist.h"

#if (0)

void USBH_DLIST_Init(USBH_DLIST * ListHead);
int USBH_DLIST_IsEmpty(USBH_DLIST * ListHead);
void USBH_DLIST_Append(USBH_DLIST * ListHead, USBH_DLIST * List);
void USBH_DLIST_InsertTail(USBH_DLIST * ListHead, USBH_DLIST * Entry);
void USBH_DLIST_InsertHead(USBH_DLIST * ListHead, USBH_DLIST * Entry);
void USBH_DLIST_InsertEntry(USBH_DLIST * Entry, USBH_DLIST * NewEntry);
void USBH_DLIST_RemoveTail(USBH_DLIST * ListHead, USBH_DLIST ** Entry);
void USBH_DLIST_RemoveHead(USBH_DLIST * ListHead, USBH_DLIST ** Entry);
void USBH_DLIST_RemoveEntry(USBH_DLIST * Entry);
USBH_DLIST * USBH_DLIST_GetPrev(USBH_DLIST * Entry);
USBH_DLIST * USBH_DLIST_GetNext(USBH_DLIST * Entry);

/*********************************************************************
 *
 *       USBH_DLIST
 */

void USBH_DLIST_EmptyHead(USBH_DLIST_HEAD * pHead);
void USBH_DLIST_Add(USBH_DLIST_HEAD * pHead, USBH_DLIST_ITEM * pNew);
void USBH_DLIST_Remove(USBH_DLIST_HEAD * pHead, USBH_DLIST_ITEM * pItem);

// USBH_DLIST_Init
//     STR     R0, [R0,#4]
//     STR     R0, [R0]
//     BX      LR
void USBH_DLIST_Init(USBH_DLIST * ListHead)
{
  ListHead->pPrev = ListHead;
  ListHead->pNext = ListHead;
}

// USBH_DLIST_Append
//     LDR     R2, [R0,#4]
//     STR     R1, [R2]
//     LDR     R3, [R1,#4]
//     STR     R0, [R3]
//     LDR     R3, [R1,#4]
//     STR     R3, [R0,#4]
//     STR     R2, [R1,#4]
//     BX      LR

//  /---<<<<<<<<<<<<<<<<<<<<<<pNext---\         /---<<<<<<<<<<<<<<<<<<pNext---\
 //  ListHead <----> 0 <----> 1 <----> N         List <----> 0 <----> 1 <----> N
//  pPrev >>>>>>>>>>>>>>>>>>>>>>>>>---/         pPrev >>>>>>>>>>>>>>>>>>>>>---/
//
//  /---<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<<pNext---\
 //  ListHead <----> 0 <----> 1 <----> N <---->  List <----> 0 <----> 1 <----> N
//  pPrev >>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>>---/
void USBH_DLIST_Append(USBH_DLIST * ListHead, USBH_DLIST * List)
{
  ListHead->pPrev->pNext = List;
  List->pPrev->pNext = ListHead;
  ListHead->pPrev = List->pPrev;
  List->pPrev = ListHead->pPrev;
}

// USBH_DLIST_IsEmpty
//     LDR     R1, [R0]
//     CMP     R1, R0
//     ITE EQ
//     MOVEQ   R0, #1
//     MOVNE   R0, #0
//     BX      LR
int USBH_DLIST_IsEmpty(USBH_DLIST * ListHead)
{
  return ListHead == ListHead->pNext;
}

// USBH_DLIST_GetNext          USBH_DLIST_GetPrev
//     LDR     R0, [R0]            LDR     R0, [R0,#4]
//     BX      LR                  BX      LR
USBH_DLIST * USBH_DLIST_GetNext(USBH_DLIST * Entry)
{
  return Entry->pNext;
}
USBH_DLIST * USBH_DLIST_GetPrev(USBH_DLIST * Entry)
{
  return Entry->pPrev;
}

//                             USBH_DLIST_RemoveHead     USBH_DLIST_RemoveTail
//                                LDR     R0, [R0]          LDR     R0, [R0,#4]
// USBH_DLIST_RemoveEntry         STR     R0, [R1]          STR     R0, [R1]
//
//    LDRD.W  R1, R2, [R0]        LDRD.W  R1, R2, [R0]      LDRD.W  R1, R2, [R0]
//    STR     R1, [R2]            STR     R1, [R2]          STR     R1, [R2]
//
//    LDRD.W  R1, R2, [R0]        LDRD.W  R1, R2, [R0]      LDRD.W  R1, R2, [R0]
//    STR     R2, [R1,#4]         STR     R2, [R1,#4]       STR     R2, [R1,#4]
//
//    STR     R0, [R0,#4]         STR     R0, [R0,#4]       STR     R0, [R0,#4]
//    STR     R0, [R0]            STR     R0, [R0]          STR     R0, [R0]
//    BX      LR                  BX      LR                BX      LR

// pPrev [ Entry ] pNext ---> pPrev pNext
void USBH_DLIST_RemoveEntry(USBH_DLIST * Entry)
{
  Entry->pPrev->pNext = Entry->pNext;
  Entry->pNext->pPrev = Entry->pPrev;
  //USBH_DLIST_Init( Entry );
  Entry->pPrev = Entry;
  Entry->pNext = Entry;
}

void USBH_DLIST_RemoveHead(USBH_DLIST * ListHead, USBH_DLIST ** Entry)
{
  ( *Entry )->pNext = ListHead->pNext;
  USBH_DLIST_RemoveEntry( ListHead->pNext );
}

void USBH_DLIST_RemoveTail(USBH_DLIST * ListHead, USBH_DLIST ** Entry)
{
  ( *Entry )->pNext = ListHead->pPrev;
  USBH_DLIST_RemoveEntry( ListHead->pPrev );
}

//                                                       USBH_DLIST_InsertTail
// USBH_DLIST_InsertEntry      USBH_DLIST_InsertHead         LDR     R0, [R0,#4]
//     LDR     R2, [R0]            LDR     R2, [R0]          LDR     R2, [R0]
//     STRD.W  R2, R0, [R1]        STRD.W  R2, R0, [R1]      STRD.W  R2, R0, [R1]
//     LDR     R2, [R0]            LDR     R2, [R0]          LDR     R2, [R0]
//     STR     R1, [R2,#4]         STR     R1, [R2,#4]       STR     R1, [R2,#4]
//     STR     R1, [R0]            STR     R1, [R0]          STR     R1, [R0]
//     BX      LR                  BX      LR                BX      LR

void USBH_DLIST_InsertEntry(USBH_DLIST * Entry, USBH_DLIST * NewEntry)
{
  NewEntry->pNext = Entry->pNext;
  NewEntry->pPrev = Entry;

  Entry->pNext->pPrev = NewEntry;
  Entry->pNext = NewEntry;
}

void USBH_DLIST_InsertHead(USBH_DLIST * ListHead, USBH_DLIST * Entry)
{
  USBH_DLIST_InsertEntry( ListHead, Entry );
}

void USBH_DLIST_InsertTail(USBH_DLIST * ListHead, USBH_DLIST * Entry)
{
  USBH_DLIST_InsertEntry( ListHead->pPrev, Entry );
}

// USBH_DLIST_Add
//     MOVS    R2, #0
//     STR     R2, [R1,#4]   ; pNew->pPrev = 0;
//
//     LDR     R2, [R0]
//     STR     R2, [R1]      ; pNew->pNext = pHead->pFirst;
//
//     LDR     R2, [R0]
//     CMP     R2, #0
//     IT NE                 ; pHead->pFirst != 0
//     STRNE   R1, [R2,#4]   ; pHead->pFirst->pPrev = pNew;
//
//     STR     R1, [R0]      ; pHead->pFirst = pNew;
//     BX      LR
//
//  pFirst --> pNew
//  0 <------- pNew ----> 0
//
//  0 <------- pNew ----> pOld
//  pNew <---- pOld ----> 0
//
//  0 <-------\____
//  pFirst --> pNew <----> pOld <----> pOld <----> pOld ----> 0
void USBH_DLIST_Add(USBH_DLIST_HEAD * pHead, USBH_DLIST_ITEM * pNew)
{
  pNew->pPrev = 0;
  pNew->pNext = 0; // (pHead->pFirst == 0)
  if (pHead->pFirst != 0)
  {
    pNew->pNext = pHead->pFirst;
    pHead->pFirst->pPrev = pNew;
  }
  pHead->pFirst = pNew;
  //pHead->NumItems++;
}

// USBH_DLIST_Remove
//     LDR     R3, [R0]
//     LDR     R2, [R1]
//
//     CMP     R3, R1
//     IT NE
//     LDRNE   R0, [R1,#4]
//     STR     R2, [R0]
//
//     LDR     R0, [R1]
//     CMP     R0, #0
//     ITT NE
//     LDRNE   R1, [R1,#4]
//     STRNE   R1, [R0,#4]
//
//     BX      LR
//
//  pFirst ----> pItem ----> pRemoveItem ----> pItem ----> 0
//  pFirst ----> pItem ----------------------> pItem ----> 0
//
//  pFirst ----> pRemoveItem ----> pItem ----> pItem ----> 0
//  pFirst ----------------------> pItem ----> pItem ----> 0
//
void USBH_DLIST_Remove(USBH_DLIST_HEAD * pHead, USBH_DLIST_ITEM * pItem)
{
#if(0)
  if (pHead->pFirst == pItem)
    pHead->pFirst->pNext = pItem->pNext; // 0
  else
    pItem->pPrev->pNext = pItem->pNext;
#else
  USBH_DLIST_ITEM * pPrevItemOfpItem;
  if (pHead->pFirst == pItem)
    pPrevItemOfpItem = pHead->pFirst;
  else
    pPrevItemOfpItem = pItem->pPrev;

  pPrevItemOfpItem->pNext = pItem->pNext;
#endif

  if (pItem->pNext != 0)
  {
    pHead->NumItems = (int) pItem->pPrev;
    //pHead->NumItems--;
  }
}

#endif

//******************************************************************************
// Added
//******************************************************************************
typedef unsigned int (*NODE_MATCH_FUNC)(USBH_DLIST * Entry, void * pContext);

USBH_DLIST * USBH_X_DLIST_AddNode(USBH_DLIST * pHead,
    unsigned int NodeEntryOffset, unsigned int NodeSize)
{
  USBH_DLIST * entry = 0;
  void * node = USBH_Malloc( NodeSize );
  if (node)
  {
    entry = (USBH_DLIST *) ( ( (unsigned int) node ) + NodeEntryOffset );
    USBH_DLIST_InsertEntry( pHead, entry );
  }
  return entry;
}

void USBH_X_DLIST_DeleteNode(USBH_DLIST * Entry, unsigned int EntryOffset)
{
  USBH_DLIST_RemoveEntry( Entry );
  USBH_Free( (void *) ( (char *) Entry - EntryOffset ) );
}

void USBH_X_DLIST_DeleteAllNodes(USBH_DLIST * pHead, unsigned int EntryOffset)
{
  USBH_DLIST * Entry = pHead->pNext;
  while ( Entry != pHead )
  {
    Entry = Entry->pNext;
    USBH_X_DLIST_DeleteNode(Entry->pPrev, EntryOffset);
  }
}

void USBH_X_DLIST_DeleteMatchedNode(USBH_DLIST * pHead,
    unsigned int EntryOffset, NODE_MATCH_FUNC NodeMacthFunc, void * pContext)
{
  USBH_DLIST * Entry = pHead->pNext;
  while ( Entry != pHead )
  {
    Entry = Entry->pNext;
    if (NodeMacthFunc( Entry->pPrev, pContext ))
    {
      USBH_X_DLIST_DeleteNode(Entry->pPrev, EntryOffset);
    }
  }
}

//******************************************************************************
// Demo
//******************************************************************************
// stddef.h
// #define offsetof(T, member)     (__INTADDR__((&((T *)0)->member)))
#define offset_of_member( struct_name, member_name ) \
  ( (unsigned int) (&  (  (struct_name *) 0 ) -> member_name ) )

#define container_of(ptr, type, member) \
  ( (type *)( (char *)ptr - offset_of_member(type,member) ) )

typedef struct HUB_PORT
{
  unsigned int PortNumber;
  // other members
  struct USBH_DLIST ListEntry;
} HUB_PORT;

typedef struct USBH_ROOT_HUB
{
  struct USBH_DLIST PortList;
  unsigned int PortCount;
// other members
} USBH_ROOT_HUB;

typedef struct _PortNumberContext
{
  unsigned int PortNumber;
} PortNumberContext_t;

USBH_ROOT_HUB root_hub;
HUB_PORT * hub_port[4];

HUB_PORT * HUB_PORT_Get(USBH_DLIST * Entry)
{
  return container_of( Entry, HUB_PORT, ListEntry );
}

unsigned int MatchPortNumber(USBH_DLIST * Entry, void * pContext)
{
  HUB_PORT * hub_port;
  PortNumberContext_t * pPortNumberContext;
  pPortNumberContext = (PortNumberContext_t *)pContext;
  hub_port = HUB_PORT_Get( Entry );
  unsigned int ContextPortNumber = pPortNumberContext->PortNumber;
  unsigned int EntryPortNumber = hub_port->PortNumber;
  return EntryPortNumber == ContextPortNumber;
}

void USBH_X_DLIST_Test(void)
{
  PortNumberContext_t PortNumberContext;

  USBH_DLIST * ListHead = &root_hub.PortList;
  USBH_DLIST_Init( ListHead );

  USBH_DLIST * ListEntry;
  for (unsigned int PortNumber = 0; PortNumber < 4; PortNumber++)
  {
    ListEntry = USBH_X_DLIST_AddNode( ListHead, offsetof( HUB_PORT, ListEntry ),
        sizeof(HUB_PORT) );
    if ( ListEntry )
    {
      hub_port[PortNumber] = HUB_PORT_Get( ListEntry );
      hub_port[PortNumber]->PortNumber = PortNumber;
      root_hub.PortCount++;
    }
  }

  if ( root_hub.PortCount == 4 )
  {
    PortNumberContext.PortNumber = 2;
    USBH_X_DLIST_DeleteMatchedNode( ListHead, offsetof( HUB_PORT, ListEntry ),
      MatchPortNumber,  &PortNumberContext );

    USBH_X_DLIST_DeleteAllNodes( ListHead, offsetof( HUB_PORT, ListEntry ) );
  }
}