Modified source engine (2017) developed by valve and leaked in 2020. Not for commercial purporses
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/*
File: AVLTree.h
Contains: Interfaces for AVL balanced trees.
Version: QuickTime 7.3
Copyright: (c) 2007 (c) 1999-2001 by Apple Computer, Inc., all rights reserved.
Bugs?: For bug reports, consult the following page on
the World Wide Web:
http://developer.apple.com/bugreporter/
*/
#ifndef __AVLTREE__
#define __AVLTREE__
#ifndef __MACTYPES__
#include <MacTypes.h>
#endif
#ifndef __MIXEDMODE__
#include <MixedMode.h>
#endif
/* The visit stage for AVLWalk() walkProcs */
#if PRAGMA_ONCE
#pragma once
#endif
#ifdef __cplusplus
extern "C" {
#endif
#if PRAGMA_IMPORT
#pragma import on
#endif
#if PRAGMA_STRUCT_ALIGN
#pragma options align=mac68k
#elif PRAGMA_STRUCT_PACKPUSH
#pragma pack(push, 2)
#elif PRAGMA_STRUCT_PACK
#pragma pack(2)
#endif
/*
* AVLTree
*
* Discussion:
* Prototypes for routines which create, destroy, allow for
* insertion, deleting, and iteration of routines in an AVL balanced
* binary tree.
*
* An AVL tree is a balanced, binary tree which is fairly fast for
* finds and acceptably fast for insertion and deletion. The tree
* is kept balanced, so that the heights of any given node's left
* and right branches never differ by more than 1, which keeps
* performance from being too horribe in the degenerate case.
*
*
* Very loosely based on some public domain source code for doing
* avl trees and on the discussion in Sedgewick "Algorithms" book.
*/
typedef UInt16 AVLVisitStage;
enum {
kAVLPreOrder = 0,
kAVLInOrder = 1,
kAVLPostOrder = 2
};
/* The order the tree is walked or disposed of. */
typedef UInt16 AVLOrder;
enum {
kLeftToRight = 0,
kRightToLeft = 1
};
/* The type of the node being passed to a callback proc. */
typedef UInt16 AVLNodeType;
enum {
kAVLIsTree = 0,
kAVLIsLeftBranch = 1,
kAVLIsRightBranch = 2,
kAVLIsLeaf = 3,
kAVLNullNode = 4
};
enum {
errItemAlreadyInTree = -960,
errNotValidTree = -961,
errItemNotFoundInTree = -962,
errCanNotInsertWhileWalkProcInProgress = -963,
errTreeIsLocked = -964
};
/* The structure of a tree. It's opaque; don't assume it's 36 bytes in size.*/
struct AVLTreeStruct {
OSType signature;
unsigned long privateStuff[8];
};
typedef struct AVLTreeStruct AVLTreeStruct;
typedef AVLTreeStruct * AVLTreePtr;
/*
Every tree must have a function which compares the data for two items and returns < 0, 0, or >0
for the items - < 0 if the first item is 'before' the second item according to some criteria,
== 0 if the two items are identical according to the criteria, or > 0 if the first item is
'after' the second item according to the criteria. The comparison function is also passed the
node type, but most of the time this can be ignored.
*/
typedef CALLBACK_API( SInt32 , AVLCompareItemsProcPtr )(AVLTreePtr tree, const void *i1, const void *i2, AVLNodeType nd_typ);
/*
Every tree must have a itemSizeProc; this routine gets passed a pointer to the item's data and
returns the size of the data. If a tree contains records of a fixed size, this function can
just return sizeof( that-struct ); otherwise it should calculate the size of the item based on
the data for the item.
*/
typedef CALLBACK_API( UInt32 , AVLItemSizeProcPtr )(AVLTreePtr tree, const void *itemPtr);
/*
A tree may have an optional disposeItemProc, which gets called whenever an item is removed
from the tree ( via AVLRemove() or when AVLDispose() deletes all of the items in the tree ).
This might be useful if the nodes in the tree own 'resources' ( like, open files ) which
should be released before the item is removed.
*/
typedef CALLBACK_API( void , AVLDisposeItemProcPtr )(AVLTreePtr tree, const void *dataP);
/*
The common way to iterate across all of the items in a tree is via AVLWalk(), which takes
a walkProcPtr. This function will get called for every item in the tree three times, as
the tree is being walked across. First, the walkProc will get called with visitStage ==
kAVLPreOrder, at which point internally the node of the tree for the given data has just
been reached. Later, this function will get called with visitStage == kAVLInOrder, and
lastly this function will get called with visitStage == kAVLPostOrder.
The 'minimum' item in the tree will get called with visitStage == kInOrder first, followed
by the 'next' item in the tree, up until the last item in the tree structure is called.
In general, you'll only care about calls to this function when visitStage == kAVLInOrder.
*/
typedef CALLBACK_API( OSErr , AVLWalkProcPtr )(AVLTreePtr tree, const void *dataP, AVLVisitStage visitStage, AVLNodeType node, UInt32 level, SInt32 balance, void *refCon);
typedef STACK_UPP_TYPE(AVLCompareItemsProcPtr) AVLCompareItemsUPP;
typedef STACK_UPP_TYPE(AVLItemSizeProcPtr) AVLItemSizeUPP;
typedef STACK_UPP_TYPE(AVLDisposeItemProcPtr) AVLDisposeItemUPP;
typedef STACK_UPP_TYPE(AVLWalkProcPtr) AVLWalkUPP;
/*
* NewAVLCompareItemsUPP()
*
* Availability:
* Non-Carbon CFM: available as macro/inline
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API_C( AVLCompareItemsUPP )
NewAVLCompareItemsUPP(AVLCompareItemsProcPtr userRoutine);
#if !OPAQUE_UPP_TYPES
enum { uppAVLCompareItemsProcInfo = 0x00002FF0 }; /* pascal 4_bytes Func(4_bytes, 4_bytes, 4_bytes, 2_bytes) */
#ifdef __cplusplus
inline DEFINE_API_C(AVLCompareItemsUPP) NewAVLCompareItemsUPP(AVLCompareItemsProcPtr userRoutine) { return (AVLCompareItemsUPP)NewRoutineDescriptor((ProcPtr)(userRoutine), uppAVLCompareItemsProcInfo, GetCurrentArchitecture()); }
#else
#define NewAVLCompareItemsUPP(userRoutine) (AVLCompareItemsUPP)NewRoutineDescriptor((ProcPtr)(userRoutine), uppAVLCompareItemsProcInfo, GetCurrentArchitecture())
#endif
#endif
/*
* NewAVLItemSizeUPP()
*
* Availability:
* Non-Carbon CFM: available as macro/inline
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API_C( AVLItemSizeUPP )
NewAVLItemSizeUPP(AVLItemSizeProcPtr userRoutine);
#if !OPAQUE_UPP_TYPES
enum { uppAVLItemSizeProcInfo = 0x000003F0 }; /* pascal 4_bytes Func(4_bytes, 4_bytes) */
#ifdef __cplusplus
inline DEFINE_API_C(AVLItemSizeUPP) NewAVLItemSizeUPP(AVLItemSizeProcPtr userRoutine) { return (AVLItemSizeUPP)NewRoutineDescriptor((ProcPtr)(userRoutine), uppAVLItemSizeProcInfo, GetCurrentArchitecture()); }
#else
#define NewAVLItemSizeUPP(userRoutine) (AVLItemSizeUPP)NewRoutineDescriptor((ProcPtr)(userRoutine), uppAVLItemSizeProcInfo, GetCurrentArchitecture())
#endif
#endif
/*
* NewAVLDisposeItemUPP()
*
* Availability:
* Non-Carbon CFM: available as macro/inline
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API_C( AVLDisposeItemUPP )
NewAVLDisposeItemUPP(AVLDisposeItemProcPtr userRoutine);
#if !OPAQUE_UPP_TYPES
enum { uppAVLDisposeItemProcInfo = 0x000003C0 }; /* pascal no_return_value Func(4_bytes, 4_bytes) */
#ifdef __cplusplus
inline DEFINE_API_C(AVLDisposeItemUPP) NewAVLDisposeItemUPP(AVLDisposeItemProcPtr userRoutine) { return (AVLDisposeItemUPP)NewRoutineDescriptor((ProcPtr)(userRoutine), uppAVLDisposeItemProcInfo, GetCurrentArchitecture()); }
#else
#define NewAVLDisposeItemUPP(userRoutine) (AVLDisposeItemUPP)NewRoutineDescriptor((ProcPtr)(userRoutine), uppAVLDisposeItemProcInfo, GetCurrentArchitecture())
#endif
#endif
/*
* NewAVLWalkUPP()
*
* Availability:
* Non-Carbon CFM: available as macro/inline
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API_C( AVLWalkUPP )
NewAVLWalkUPP(AVLWalkProcPtr userRoutine);
#if !OPAQUE_UPP_TYPES
enum { uppAVLWalkProcInfo = 0x000FEBE0 }; /* pascal 2_bytes Func(4_bytes, 4_bytes, 2_bytes, 2_bytes, 4_bytes, 4_bytes, 4_bytes) */
#ifdef __cplusplus
inline DEFINE_API_C(AVLWalkUPP) NewAVLWalkUPP(AVLWalkProcPtr userRoutine) { return (AVLWalkUPP)NewRoutineDescriptor((ProcPtr)(userRoutine), uppAVLWalkProcInfo, GetCurrentArchitecture()); }
#else
#define NewAVLWalkUPP(userRoutine) (AVLWalkUPP)NewRoutineDescriptor((ProcPtr)(userRoutine), uppAVLWalkProcInfo, GetCurrentArchitecture())
#endif
#endif
/*
* DisposeAVLCompareItemsUPP()
*
* Availability:
* Non-Carbon CFM: available as macro/inline
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API_C( void )
DisposeAVLCompareItemsUPP(AVLCompareItemsUPP userUPP);
#if !OPAQUE_UPP_TYPES
#ifdef __cplusplus
inline DEFINE_API_C(void) DisposeAVLCompareItemsUPP(AVLCompareItemsUPP userUPP) { DisposeRoutineDescriptor((UniversalProcPtr)userUPP); }
#else
#define DisposeAVLCompareItemsUPP(userUPP) DisposeRoutineDescriptor(userUPP)
#endif
#endif
/*
* DisposeAVLItemSizeUPP()
*
* Availability:
* Non-Carbon CFM: available as macro/inline
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API_C( void )
DisposeAVLItemSizeUPP(AVLItemSizeUPP userUPP);
#if !OPAQUE_UPP_TYPES
#ifdef __cplusplus
inline DEFINE_API_C(void) DisposeAVLItemSizeUPP(AVLItemSizeUPP userUPP) { DisposeRoutineDescriptor((UniversalProcPtr)userUPP); }
#else
#define DisposeAVLItemSizeUPP(userUPP) DisposeRoutineDescriptor(userUPP)
#endif
#endif
/*
* DisposeAVLDisposeItemUPP()
*
* Availability:
* Non-Carbon CFM: available as macro/inline
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API_C( void )
DisposeAVLDisposeItemUPP(AVLDisposeItemUPP userUPP);
#if !OPAQUE_UPP_TYPES
#ifdef __cplusplus
inline DEFINE_API_C(void) DisposeAVLDisposeItemUPP(AVLDisposeItemUPP userUPP) { DisposeRoutineDescriptor((UniversalProcPtr)userUPP); }
#else
#define DisposeAVLDisposeItemUPP(userUPP) DisposeRoutineDescriptor(userUPP)
#endif
#endif
/*
* DisposeAVLWalkUPP()
*
* Availability:
* Non-Carbon CFM: available as macro/inline
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API_C( void )
DisposeAVLWalkUPP(AVLWalkUPP userUPP);
#if !OPAQUE_UPP_TYPES
#ifdef __cplusplus
inline DEFINE_API_C(void) DisposeAVLWalkUPP(AVLWalkUPP userUPP) { DisposeRoutineDescriptor((UniversalProcPtr)userUPP); }
#else
#define DisposeAVLWalkUPP(userUPP) DisposeRoutineDescriptor(userUPP)
#endif
#endif
/*
* InvokeAVLCompareItemsUPP()
*
* Availability:
* Non-Carbon CFM: available as macro/inline
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API_C( SInt32 )
InvokeAVLCompareItemsUPP(
AVLTreePtr tree,
const void * i1,
const void * i2,
AVLNodeType nd_typ,
AVLCompareItemsUPP userUPP);
#if !OPAQUE_UPP_TYPES
#ifdef __cplusplus
inline DEFINE_API_C(SInt32) InvokeAVLCompareItemsUPP(AVLTreePtr tree, const void * i1, const void * i2, AVLNodeType nd_typ, AVLCompareItemsUPP userUPP) { return (SInt32)CALL_FOUR_PARAMETER_UPP(userUPP, uppAVLCompareItemsProcInfo, tree, i1, i2, nd_typ); }
#else
#define InvokeAVLCompareItemsUPP(tree, i1, i2, nd_typ, userUPP) (SInt32)CALL_FOUR_PARAMETER_UPP((userUPP), uppAVLCompareItemsProcInfo, (tree), (i1), (i2), (nd_typ))
#endif
#endif
/*
* InvokeAVLItemSizeUPP()
*
* Availability:
* Non-Carbon CFM: available as macro/inline
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API_C( UInt32 )
InvokeAVLItemSizeUPP(
AVLTreePtr tree,
const void * itemPtr,
AVLItemSizeUPP userUPP);
#if !OPAQUE_UPP_TYPES
#ifdef __cplusplus
inline DEFINE_API_C(UInt32) InvokeAVLItemSizeUPP(AVLTreePtr tree, const void * itemPtr, AVLItemSizeUPP userUPP) { return (UInt32)CALL_TWO_PARAMETER_UPP(userUPP, uppAVLItemSizeProcInfo, tree, itemPtr); }
#else
#define InvokeAVLItemSizeUPP(tree, itemPtr, userUPP) (UInt32)CALL_TWO_PARAMETER_UPP((userUPP), uppAVLItemSizeProcInfo, (tree), (itemPtr))
#endif
#endif
/*
* InvokeAVLDisposeItemUPP()
*
* Availability:
* Non-Carbon CFM: available as macro/inline
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API_C( void )
InvokeAVLDisposeItemUPP(
AVLTreePtr tree,
const void * dataP,
AVLDisposeItemUPP userUPP);
#if !OPAQUE_UPP_TYPES
#ifdef __cplusplus
inline DEFINE_API_C(void) InvokeAVLDisposeItemUPP(AVLTreePtr tree, const void * dataP, AVLDisposeItemUPP userUPP) { CALL_TWO_PARAMETER_UPP(userUPP, uppAVLDisposeItemProcInfo, tree, dataP); }
#else
#define InvokeAVLDisposeItemUPP(tree, dataP, userUPP) CALL_TWO_PARAMETER_UPP((userUPP), uppAVLDisposeItemProcInfo, (tree), (dataP))
#endif
#endif
/*
* InvokeAVLWalkUPP()
*
* Availability:
* Non-Carbon CFM: available as macro/inline
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API_C( OSErr )
InvokeAVLWalkUPP(
AVLTreePtr tree,
const void * dataP,
AVLVisitStage visitStage,
AVLNodeType node,
UInt32 level,
SInt32 balance,
void * refCon,
AVLWalkUPP userUPP);
#if !OPAQUE_UPP_TYPES
#ifdef __cplusplus
inline DEFINE_API_C(OSErr) InvokeAVLWalkUPP(AVLTreePtr tree, const void * dataP, AVLVisitStage visitStage, AVLNodeType node, UInt32 level, SInt32 balance, void * refCon, AVLWalkUPP userUPP) { return (OSErr)CALL_SEVEN_PARAMETER_UPP(userUPP, uppAVLWalkProcInfo, tree, dataP, visitStage, node, level, balance, refCon); }
#else
#define InvokeAVLWalkUPP(tree, dataP, visitStage, node, level, balance, refCon, userUPP) (OSErr)CALL_SEVEN_PARAMETER_UPP((userUPP), uppAVLWalkProcInfo, (tree), (dataP), (visitStage), (node), (level), (balance), (refCon))
#endif
#endif
#if CALL_NOT_IN_CARBON || OLDROUTINENAMES
/* support for pre-Carbon UPP routines: New...Proc and Call...Proc */
#define NewAVLCompareItemsProc(userRoutine) NewAVLCompareItemsUPP(userRoutine)
#define NewAVLItemSizeProc(userRoutine) NewAVLItemSizeUPP(userRoutine)
#define NewAVLDisposeItemProc(userRoutine) NewAVLDisposeItemUPP(userRoutine)
#define NewAVLWalkProc(userRoutine) NewAVLWalkUPP(userRoutine)
#define CallAVLCompareItemsProc(userRoutine, tree, i1, i2, nd_typ) InvokeAVLCompareItemsUPP(tree, i1, i2, nd_typ, userRoutine)
#define CallAVLItemSizeProc(userRoutine, tree, itemPtr) InvokeAVLItemSizeUPP(tree, itemPtr, userRoutine)
#define CallAVLDisposeItemProc(userRoutine, tree, dataP) InvokeAVLDisposeItemUPP(tree, dataP, userRoutine)
#define CallAVLWalkProc(userRoutine, tree, dataP, visitStage, node, level, balance, refCon) InvokeAVLWalkUPP(tree, dataP, visitStage, node, level, balance, refCon, userRoutine)
#endif /* CALL_NOT_IN_CARBON */
/*
Create an AVL tree. The compareItemsProc and the sizeItemProc are required; disposeItemProc is
optional and can be nil. The refCon is stored with the list, and is passed back to the
compareItemsProc, sizeItemProc, and disposeItemsProc calls. The allocation of the tree ( and all
nodes later added to the list with AVLInsert ) will be created in what is the current zone at the
time AVLInit() is called. Always call AVLDispose() to dispose of a list created with AVLInit().
*/
/*
* AVLInit()
*
* Availability:
* Non-Carbon CFM: in InterfaceLib 9.0 and later
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSErr )
AVLInit(
UInt32 flags,
AVLCompareItemsUPP compareItemsProc,
AVLItemSizeUPP sizeItemProc,
AVLDisposeItemUPP disposeItemProc,
void * refCon,
AVLTreePtr * tree) THREEWORDINLINE(0x303C, 0x0C01, 0xAA80);
/*
Dispose of an AVL tree. This will dispose of each item in the tree in the order specified,
call the tree's disposeProc proc for each item, and then dispose of the space allocated for
the tree itself.
*/
/*
* AVLDispose()
*
* Availability:
* Non-Carbon CFM: in InterfaceLib 9.0 and later
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSErr )
AVLDispose(
AVLTreePtr * tree,
AVLOrder order) THREEWORDINLINE(0x303C, 0x0302, 0xAA80);
/*
Iterate across all of the items in the tree, in the order specified. kLeftToRight is
basically lowest-to-highest order, kRightToLeft is highest-to-lowest order. For each
node in the tree, it will call the walkProc with three messages ( at the appropriate
time ). First, with kAVLPreOrder when the walking gets to this node in the tree,
before handling either the left or right subtree, secondly, with kAVLInOrder after
handling one subtree but before handling the other, and lastly with kAVLPostOrder after
handling both subtrees. If you want to handle items in order, then only do something
if the visit stage is kAVLInOrder. You can only call AVLRemove() from inside a walkProc
if visit stage is kAVLPostOrder ( because if you remove a node during the pre or in order
stages you will corrupt the list ) OR if you return a non-zero result from the walkProc
call which called AVLRemove() to immediately terminate the walkProc. Do not call AVLInsert()
to insert a node into the tree from inside a walkProc.
The walkProc function gets called with the AVLTreePtr, a pointer to the data for the
current node ( which you can change in place as long as you do not affect the order within
the tree ), the visit stage, the type of the current node ( leaf node, right or left branch,
or full tree ), the level within the tree ( the root is level 1 ), the balance for the
current node, and the refCon passed to AVLWalk(). This refCon is different from the one passed
into AVLInit(); use AVLGetRefCon() to get that refCon if you want it inside a walkProc.
( Most walkProcs will not care about the values for node type, level, or balance. )
*/
/*
* AVLWalk()
*
* Availability:
* Non-Carbon CFM: in InterfaceLib 9.0 and later
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSErr )
AVLWalk(
AVLTreePtr tree,
AVLWalkUPP walkProc,
AVLOrder order,
void * walkRefCon) THREEWORDINLINE(0x303C, 0x0703, 0xAA80);
/* Return the number of items in the given tree.*/
/*
* AVLCount()
*
* Availability:
* Non-Carbon CFM: in InterfaceLib 9.0 and later
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSErr )
AVLCount(
AVLTreePtr tree,
UInt32 * count) THREEWORDINLINE(0x303C, 0x0804, 0xAA80);
/*
Return the one-based index-th item from the tree by putting it's data at dataPtr
if dataPtr is non-nil, and it's size into *itemSize if itemSize is non-nil.
If index is out of range, return errItemNotFoundInTree. ( Internally, this does
an AVLWalk(), so the tree can not be modified while this call is in progress ).
*/
/*
* AVLGetIndItem()
*
* Availability:
* Non-Carbon CFM: in InterfaceLib 9.0 and later
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSErr )
AVLGetIndItem(
AVLTreePtr tree,
UInt32 index,
void * dataPtr,
UInt32 * itemSize) THREEWORDINLINE(0x303C, 0x0805, 0xAA80);
/*
Insert the given item into the tree. This will call the tree's sizeItemProc
to determine how big the item at data is, and then will make a copy of the
item and insert it into the tree in the appropriate place. If an item already
exists in the tree with the same key ( so that the compareItemsUPP returns 0
when asked to compare this item to an existing one ), then it will return
errItemNotFoundInTree.
*/
/*
* AVLInsert()
*
* Availability:
* Non-Carbon CFM: in InterfaceLib 9.0 and later
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSErr )
AVLInsert(
AVLTreePtr tree,
const void * data) THREEWORDINLINE(0x303C, 0x0406, 0xAA80);
/*
Remove any item from the tree with the given key. If dataPtr != nil, then
copy the item's data to dataPtr before removing it from the tree. Before
removing the item, call the tree's disposeItemProc to let it release anything
used by the data in the tree. It is not necessary to fill in a complete
record for key, only that the compareItemsProc return 0 when asked to compare
the data at key with the node in the tree to be deleted. If the item cannot
be found in the tree, this will return errItemNotFoundInTree.
*/
/*
* AVLRemove()
*
* Availability:
* Non-Carbon CFM: in InterfaceLib 9.0 and later
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSErr )
AVLRemove(
AVLTreePtr tree,
const void * key,
void * dataPtr,
UInt32 * itemSize) THREEWORDINLINE(0x303C, 0x0807, 0xAA80);
/*
Find the item in the tree with the given key, and return it's data in
dataPtr ( if dataPtr != nil ), and it's size in *itemSize ( if itemSize
!= nil ). It is not necessary to fill in a complete record for key,
only that the compareItemsProc return 0 when asked to compare the data
at key with the node in the tree to be deleted. If the item cannot
be found in the tree, this will return errItemNotFoundInTree.
*/
/*
* AVLFind()
*
* Availability:
* Non-Carbon CFM: in InterfaceLib 9.0 and later
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSErr )
AVLFind(
AVLTreePtr tree,
const void * key,
void * dataPtr,
UInt32 * itemSize) THREEWORDINLINE(0x303C, 0x0808, 0xAA80);
/*
Get the refCon for the given tree ( set in AVLInit ) and return it.
If the given tree is invalid, then return nil.
*/
/*
* AVLGetRefcon()
*
* Availability:
* Non-Carbon CFM: in InterfaceLib 9.0 and later
* CarbonLib: in CarbonLib 1.0 and later
* Mac OS X: in version 10.0 and later
*/
EXTERN_API( OSErr )
AVLGetRefcon(
AVLTreePtr tree,
void ** refCon) THREEWORDINLINE(0x303C, 0x0409, 0xAA80);
#if PRAGMA_STRUCT_ALIGN
#pragma options align=reset
#elif PRAGMA_STRUCT_PACKPUSH
#pragma pack(pop)
#elif PRAGMA_STRUCT_PACK
#pragma pack()
#endif
#ifdef PRAGMA_IMPORT_OFF
#pragma import off
#elif PRAGMA_IMPORT
#pragma import reset
#endif
#ifdef __cplusplus
}
#endif
#endif /* __AVLTREE__ */