memory/atom.c - wine - Git at Google

 /*
  * Atom table functions
  *
  * Copyright 1993, 1994, 1995 Alexandre Julliard
  */

 /*
  * Warning: The code assumes that LocalAlloc() returns a block aligned
  * on a 4-bytes boundary (because of the shifting done in
  * HANDLETOATOM).  If this is not the case, the allocation code will
  * have to be changed.
  */

 #include <stdlib.h>
 #include <stdio.h>
 #include <string.h>
 #include <ctype.h>

 #include "wine/winbase16.h"
 #include "wine/winuser16.h"
 #include "winuser.h"
 #include "instance.h"
 #include "ldt.h"
 #include "stackframe.h"
 #include "user.h"
 #include "debugtools.h"

 #ifdef CONFIG_IPC
 #include "dde_atom.h"
 #endif

 DEFAULT_DEBUG_CHANNEL(atom)

 #define DEFAULT_ATOMTABLE_SIZE    37
 #define MIN_STR_ATOM              0xc000
 #define MAX_ATOM_LEN              255

 #define ATOMTOHANDLE(atom)        ((HANDLE16)(atom) << 2)
 #define HANDLETOATOM(handle)      ((ATOM)(0xc000 | ((handle) >> 2)))

 #define HAS_ATOM_TABLE(sel)  \
           ((INSTANCEDATA*)PTR_SEG_OFF_TO_LIN(sel,0))->atomtable != 0)

 #define GET_ATOM_TABLE(sel)  ((ATOMTABLE*)PTR_SEG_OFF_TO_LIN(sel, \
           ((INSTANCEDATA*)PTR_SEG_OFF_TO_LIN(sel,0))->atomtable))

 typedef struct
 {
     HANDLE16    next;
     WORD        refCount;
     BYTE        length;
     BYTE        str[1];
 } ATOMENTRY;

 typedef struct
 {
     WORD        size;
     HANDLE16    entries[1];
 } ATOMTABLE;

 static WORD ATOM_GlobalTable = 0;

 /***********************************************************************
  *           ATOM_InitTable
  *
  * NOTES
  *	Should this validate the value of entries to be 0 < x < 0x3fff?
  *
  * RETURNS
  *	Handle: Success
  *	0: Failure
  */
 static HANDLE16 ATOM_InitTable(
                 WORD selector, /* [in] Segment */
                 WORD entries   /* [in] Size of atom table */
 ) {
     int i;
     HANDLE16 handle;
     ATOMTABLE *table;

       /* We consider the first table to be initialized as the global table.
        * This works, as USER (both built-in and native) is the first one to
        * register ...
        */

     if (!ATOM_GlobalTable) ATOM_GlobalTable = selector;


       /* Allocate the table */

     handle = LOCAL_Alloc( selector, LMEM_FIXED,
                           sizeof(ATOMTABLE) + (entries-1) * sizeof(HANDLE16) );
     if (!handle) return 0;
     table = (ATOMTABLE *)PTR_SEG_OFF_TO_LIN( selector, handle );
     table->size = entries;
     for (i = 0; i < entries; i++) table->entries[i] = 0;

       /* Store a pointer to the table in the instance data */

     ((INSTANCEDATA *)PTR_SEG_OFF_TO_LIN( selector, 0 ))->atomtable = handle;
     return handle;
 }


 /***********************************************************************
  *           ATOM_Init
  *
  * Global table initialisation.
  */
 BOOL ATOM_Init( WORD globalTableSel )
 {
     return ATOM_InitTable( globalTableSel, DEFAULT_ATOMTABLE_SIZE ) != 0;
 }


 /***********************************************************************
  *           ATOM_GetTable
  *
  * Return a pointer to the atom table of a given segment, creating
  * it if necessary.
  *
  * RETURNS
  *	Pointer to table: Success
  *	NULL: Failure
  */
 static ATOMTABLE *ATOM_GetTable(
                   WORD selector, /* [in] Segment */
                   BOOL create  /* [in] Create */ )
 {
     INSTANCEDATA *ptr = (INSTANCEDATA *)PTR_SEG_OFF_TO_LIN( selector, 0 );
     if (ptr->atomtable)
     {
         ATOMTABLE *table = (ATOMTABLE *)((char *)ptr + ptr->atomtable);
         if (table->size) return table;
     }
     if (!create) return NULL;
     if (!ATOM_InitTable( selector, DEFAULT_ATOMTABLE_SIZE )) return NULL;
     /* Reload ptr in case it moved in linear memory */
     ptr = (INSTANCEDATA *)PTR_SEG_OFF_TO_LIN( selector, 0 );
     return (ATOMTABLE *)((char *)ptr + ptr->atomtable);
 }


 /***********************************************************************
  *           ATOM_MakePtr
  *
  * Make an ATOMENTRY pointer from a handle (obtained from GetAtomHandle()).
  */
 static ATOMENTRY *ATOM_MakePtr(
                   WORD selector,  /* [in] Segment */
                   HANDLE16 handle /* [in] Handle */
 ) {
     return (ATOMENTRY *)PTR_SEG_OFF_TO_LIN( selector, handle );
 }


 /***********************************************************************
  *           ATOM_Hash
  * RETURNS
  *	The hash value for the input string
  */
 static WORD ATOM_Hash(
             WORD entries, /* [in] Total number of entries */
             LPCSTR str,   /* [in] Pointer to string to hash */
             WORD len      /* [in] Length of string */
 ) {
     WORD i, hash = 0;

     TRACE("%x, %s, %x\n", entries, str, len);

     for (i = 0; i < len; i++) hash ^= toupper(str[i]) + i;
     return hash % entries;
 }

 static BOOL ATOM_IsIntAtom(LPCSTR atomstr,WORD *atomid) {
 	LPSTR 	xend;

 	if (!HIWORD(atomstr)) {
 		*atomid = LOWORD(atomstr);
 		return TRUE;
 	}
 	if (atomstr[0]!='#')
 		return FALSE;
 	*atomid=strtol(atomstr+1,&xend,10);
 	if (*xend) {
 		FIXME("found atom named '%s'\n",atomstr);
 		return FALSE;
 	}
 	return TRUE;
 }


 /***********************************************************************
  *           ATOM_AddAtom
  *
  * Windows DWORD aligns the atom entry size.
  * The remaining unused string space created by the alignment
  * gets padded with '\0's in a certain way to ensure
  * that at least one trailing '\0' remains.
  *
  * RETURNS
  *	Atom: Success
  *	0: Failure
  */
 static ATOM ATOM_AddAtom(
             WORD selector, /* [in] Segment */
             LPCSTR str     /* [in] Pointer to the string to add */
 ) {
     WORD hash;
     HANDLE16 entry;
     ATOMENTRY * entryPtr;
     ATOMTABLE * table;
     int len, ae_len;
     WORD	iatom;

     TRACE("0x%x, %s\n", selector, str);

     if (ATOM_IsIntAtom(str,&iatom))
     	return iatom;
     if ((len = strlen( str )) > MAX_ATOM_LEN) len = MAX_ATOM_LEN;
     if (!(table = ATOM_GetTable( selector, TRUE ))) return 0;
     hash = ATOM_Hash( table->size, str, len );
     entry = table->entries[hash];
     while (entry)
     {
 	entryPtr = ATOM_MakePtr( selector, entry );
 	if ((entryPtr->length == len) &&
 	    (!lstrncmpiA( entryPtr->str, str, len )))
 	{
 	    entryPtr->refCount++;
         TRACE("-- existing 0x%x\n", entry);
 	    return HANDLETOATOM( entry );
 	}
 	entry = entryPtr->next;
     }

     ae_len = (sizeof(ATOMENTRY)+len+3) & ~3;
     entry = LOCAL_Alloc( selector, LMEM_FIXED, ae_len);
     if (!entry) return 0;
     /* Reload the table ptr in case it moved in linear memory */
     table = ATOM_GetTable( selector, FALSE );
     entryPtr = ATOM_MakePtr( selector, entry );
     entryPtr->next = table->entries[hash];
     entryPtr->refCount = 1;
     entryPtr->length = len;
     strncpy( entryPtr->str, str, ae_len - sizeof(ATOMENTRY) + 1); /* always use strncpy ('\0's padding) */
     table->entries[hash] = entry;
     TRACE("-- new 0x%x\n", entry);
     return HANDLETOATOM( entry );
 }


 /***********************************************************************
  *           ATOM_DeleteAtom
  * RETURNS
  *	0: Success
  *	Atom: Failure
  */
 static ATOM ATOM_DeleteAtom(
             WORD selector, /* [in] Segment */
             ATOM atom      /* [in] Atom to delete */
 ) {
     ATOMENTRY * entryPtr;
     ATOMTABLE * table;
     HANDLE16 entry, *prevEntry;
     WORD hash;

     TRACE("0x%x, 0x%x\n", selector, atom);

     if (atom < MIN_STR_ATOM) return 0;  /* Integer atom */

     if (!(table = ATOM_GetTable( selector, FALSE ))) return 0;
     entry = ATOMTOHANDLE( atom );
     entryPtr = ATOM_MakePtr( selector, entry );

       /* Find previous atom */
     hash = ATOM_Hash( table->size, entryPtr->str, entryPtr->length );
     prevEntry = &table->entries[hash];
     while (*prevEntry && *prevEntry != entry)
     {
 	ATOMENTRY * prevEntryPtr = ATOM_MakePtr( selector, *prevEntry );
 	prevEntry = &prevEntryPtr->next;
     }
     if (!*prevEntry) return atom;

       /* Delete atom */
     if (--entryPtr->refCount == 0)
     {
 	*prevEntry = entryPtr->next;
         LOCAL_Free( selector, entry );
     }
     return 0;
 }


 /***********************************************************************
  *           ATOM_FindAtom
  * RETURNS
  *	Atom: Success
  *	0: Failure
  */
 static ATOM ATOM_FindAtom(
             WORD selector, /* [in] Segment */
             LPCSTR str     /* [in] Pointer to string to find */
 ) {
     ATOMTABLE * table;
     WORD hash,iatom;
     HANDLE16 entry;
     int len;

     TRACE("%x, %s\n", selector, str);
     if (ATOM_IsIntAtom(str,&iatom))
     	return iatom;
     if ((len = strlen( str )) > 255) len = 255;
     if (!(table = ATOM_GetTable( selector, FALSE ))) return 0;
     hash = ATOM_Hash( table->size, str, len );
     entry = table->entries[hash];
     while (entry)
     {
 	ATOMENTRY * entryPtr = ATOM_MakePtr( selector, entry );
 	if ((entryPtr->length == len) &&
 	    (!lstrncmpiA( entryPtr->str, str, len )))
     {    TRACE("-- found %x\n", entry);
 	    return HANDLETOATOM( entry );
     }
 	entry = entryPtr->next;
     }
     TRACE("-- not found\n");
     return 0;
 }


 /***********************************************************************
  *           ATOM_GetAtomName
  * RETURNS
  *	Length of string copied to buffer: Success
  *	0: Failure
  */
 static UINT ATOM_GetAtomName(
               WORD selector, /* [in]  Segment */
               ATOM atom,     /* [in]  Atom identifier */
               LPSTR buffer,  /* [out] Pointer to buffer for atom string */
               INT count    /* [in]  Size of buffer */
 ) {
     ATOMTABLE * table;
     ATOMENTRY * entryPtr;
     HANDLE16 entry;
     char * strPtr;
     UINT len;
     char text[8];

     TRACE("%x, %x\n", selector, atom);

     if (!count) return 0;
     if (atom < MIN_STR_ATOM)
     {
 	sprintf( text, "#%d", atom );
 	len = strlen(text);
 	strPtr = text;
     }
     else
     {
        if (!(table = ATOM_GetTable( selector, FALSE ))) return 0;
 	entry = ATOMTOHANDLE( atom );
 	entryPtr = ATOM_MakePtr( selector, entry );
 	len = entryPtr->length;
 	strPtr = entryPtr->str;
     }
     if (len >= count) len = count-1;
     memcpy( buffer, strPtr, len );
     buffer[len] = '\0';
     return len;
 }


 /***********************************************************************
  *           InitAtomTable16   (KERNEL.68)
  */
 WORD WINAPI InitAtomTable16( WORD entries )
 {
     if (!entries) entries = DEFAULT_ATOMTABLE_SIZE;  /* sanity check */
     return ATOM_InitTable( CURRENT_DS, entries );
 }


 /***********************************************************************
  *           GetAtomHandle   (KERNEL.73)
  */
 HANDLE16 WINAPI GetAtomHandle16( ATOM atom )
 {
     if (atom < MIN_STR_ATOM) return 0;
     return ATOMTOHANDLE( atom );
 }


 /***********************************************************************
  *           AddAtom16   (KERNEL.70)
  */
 ATOM WINAPI AddAtom16( SEGPTR str )
 {
     ATOM atom;
     HANDLE16 ds = CURRENT_DS;

     if (!HIWORD(str)) return (ATOM)LOWORD(str);  /* Integer atom */
     if (SELECTOR_TO_ENTRY(LOWORD(str)) == SELECTOR_TO_ENTRY(ds))
     {
         /* If the string is in the same data segment as the atom table, make */
         /* a copy of the string to be sure it doesn't move in linear memory. */
         char buffer[MAX_ATOM_LEN+1];
         lstrcpynA( buffer, (char *)PTR_SEG_TO_LIN(str), sizeof(buffer) );
         atom = ATOM_AddAtom( ds, buffer );
     }
     else atom = ATOM_AddAtom( ds, (LPCSTR)PTR_SEG_TO_LIN(str) );
     return atom;
 }


 /***********************************************************************
  *           AddAtom32A   (KERNEL32.0)
  * Adds a string to the atom table and returns the atom identifying the
  * string.
  *
  * RETURNS
  *	Atom: Success
  *	0: Failure
  */
 ATOM WINAPI AddAtomA(
             LPCSTR str /* [in] Pointer to string to add */
 ) {
     return GlobalAddAtomA( str );  /* FIXME */
 }


 /***********************************************************************
  *           AddAtom32W   (KERNEL32.1)
  * See AddAtom32A
  */
 ATOM WINAPI AddAtomW( LPCWSTR str )
 {
     return GlobalAddAtomW( str );  /* FIXME */
 }


 /***********************************************************************
  *           DeleteAtom16   (KERNEL.71)
  */
 ATOM WINAPI DeleteAtom16( ATOM atom )
 {
     return ATOM_DeleteAtom( CURRENT_DS, atom );
 }


 /***********************************************************************
  *           DeleteAtom32   (KERNEL32.69)
  * Decrements the reference count of a string atom.  If count becomes
  * zero, the string associated with the atom is removed from the table.
  *
  * RETURNS
  *	0: Success
  *	Atom: Failure
  */
 ATOM WINAPI DeleteAtom(
             ATOM atom /* [in] Atom to delete */
 ) {
     return GlobalDeleteAtom( atom );  /* FIXME */
 }


 /***********************************************************************
  *           FindAtom16   (KERNEL.69)
  */
 ATOM WINAPI FindAtom16( SEGPTR str )
 {
     if (!HIWORD(str)) return (ATOM)LOWORD(str);  /* Integer atom */
     return ATOM_FindAtom( CURRENT_DS, (LPCSTR)PTR_SEG_TO_LIN(str) );
 }


 /***********************************************************************
  *           FindAtom32A   (KERNEL32.117)
  * Searches the local atom table for the string and returns the atom
  * associated with that string.
  *
  * RETURNS
  *	Atom: Success
  *	0: Failure
  */
 ATOM WINAPI FindAtomA(
             LPCSTR str /* [in] Pointer to string to find */
 ) {
     return GlobalFindAtomA( str );  /* FIXME */
 }


 /***********************************************************************
  *           FindAtom32W   (KERNEL32.118)
  * See FindAtom32A
  */
 ATOM WINAPI FindAtomW( LPCWSTR str )
 {
     return GlobalFindAtomW( str );  /* FIXME */
 }


 /***********************************************************************
  *           GetAtomName16   (KERNEL.72)
  */
 UINT16 WINAPI GetAtomName16( ATOM atom, LPSTR buffer, INT16 count )
 {
     return (UINT16)ATOM_GetAtomName( CURRENT_DS, atom, buffer, count );
 }


 /***********************************************************************
  *           GetAtomName32A   (KERNEL32.149)
  * Retrieves a copy of the string associated with the atom.
  *
  * RETURNS
  *	Length of string: Success
  *	0: Failure
  */
 UINT WINAPI GetAtomNameA(
               ATOM atom,    /* [in]  Atom */
               LPSTR buffer, /* [out] Pointer to string for atom string */
               INT count   /* [in]  Size of buffer */
 ) {
     return GlobalGetAtomNameA( atom, buffer, count );  /* FIXME */
 }


 /***********************************************************************
  *           GetAtomName32W   (KERNEL32.150)
  * See GetAtomName32A
  */
 UINT WINAPI GetAtomNameW( ATOM atom, LPWSTR buffer, INT count )
 {
     return GlobalGetAtomNameW( atom, buffer, count );  /* FIXME */
 }


 /***********************************************************************
  *           GlobalAddAtom16   (USER.268)
  */
 ATOM WINAPI GlobalAddAtom16( SEGPTR str )
 {
     if (!HIWORD(str)) return (ATOM)LOWORD(str);  /* Integer atom */
 #ifdef CONFIG_IPC
     return DDE_GlobalAddAtom( str );
 #else
     return ATOM_AddAtom( ATOM_GlobalTable, (LPCSTR)PTR_SEG_TO_LIN(str) );
 #endif
 }


 /***********************************************************************
  *           GlobalAddAtom32A   (KERNEL32.313)
  * Adds a character string to the global atom table and returns a unique
  * value identifying the string.
  *
  * RETURNS
  *	Atom: Success
  *	0: Failure
  */
 ATOM WINAPI GlobalAddAtomA(
             LPCSTR str /* [in] Pointer to string to add */
 ) {
     if (!HIWORD(str)) return (ATOM)LOWORD(str);  /* Integer atom */
     return ATOM_AddAtom( ATOM_GlobalTable, str );
 }


 /***********************************************************************
  *           GlobalAddAtom32W   (KERNEL32.314)
  * See GlobalAddAtom32A
  */
 ATOM WINAPI GlobalAddAtomW( LPCWSTR str )
 {
     char buffer[MAX_ATOM_LEN+1];
     if (!HIWORD(str)) return (ATOM)LOWORD(str);  /* Integer atom */
     lstrcpynWtoA( buffer, str, sizeof(buffer) );
     return ATOM_AddAtom( ATOM_GlobalTable, buffer );
 }


 /***********************************************************************
  *           GlobalDeleteAtom   (USER.269) (KERNEL32.317)
  * Decrements the reference count of a string atom.  If the count is
  * zero, the string associated with the atom is removed from the table.
  *
  * RETURNS
  *	0: Success
  *	Atom: Failure
  */
 ATOM WINAPI GlobalDeleteAtom(
             ATOM atom /* [in] Atom to delete */
 ) {
 #ifdef CONFIG_IPC
     return DDE_GlobalDeleteAtom( atom );
 #else
     return ATOM_DeleteAtom( ATOM_GlobalTable, atom );
 #endif
 }


 /***********************************************************************
  *           GlobalFindAtom16   (USER.270)
  */
 ATOM WINAPI GlobalFindAtom16( SEGPTR str )
 {
     if (!HIWORD(str)) return (ATOM)LOWORD(str);  /* Integer atom */
 #ifdef CONFIG_IPC
     return DDE_GlobalFindAtom( str );
 #else
     return ATOM_FindAtom( ATOM_GlobalTable, (LPCSTR)PTR_SEG_TO_LIN(str) );
 #endif
 }


 /***********************************************************************
  *           GlobalFindAtom32A   (KERNEL32.318)
  * Searches the atom table for the string and returns the atom
  * associated with it.
  *
  * RETURNS
  *	Atom: Success
  *	0: Failure
  */
 ATOM WINAPI GlobalFindAtomA(
             LPCSTR str /* [in] Pointer to string to search for */
 ) {
     if (!HIWORD(str)) return (ATOM)LOWORD(str);  /* Integer atom */
     return ATOM_FindAtom( ATOM_GlobalTable, str );
 }


 /***********************************************************************
  *           GlobalFindAtom32W   (KERNEL32.319)
  * See GlobalFindAtom32A
  */
 ATOM WINAPI GlobalFindAtomW( LPCWSTR str )
 {
     char buffer[MAX_ATOM_LEN+1];
     if (!HIWORD(str)) return (ATOM)LOWORD(str);  /* Integer atom */
     lstrcpynWtoA( buffer, str, sizeof(buffer) );
     return ATOM_FindAtom( ATOM_GlobalTable, buffer );
 }


 /***********************************************************************
  *           GlobalGetAtomName16   (USER.271)
  */
 UINT16 WINAPI GlobalGetAtomName16( ATOM atom, LPSTR buffer, INT16 count )
 {
 #ifdef CONFIG_IPC
     return DDE_GlobalGetAtomName( atom, buffer, count );
 #else
     return (UINT16)ATOM_GetAtomName( ATOM_GlobalTable, atom, buffer, count );
 #endif
 }


 /***********************************************************************
  *           GlobalGetAtomName32A   (KERNEL32.323)
  * Retrieves a copy of the string associated with an atom.
  *
  * RETURNS
  *	Length of string in characters: Success
  *	0: Failure
  */
 UINT WINAPI GlobalGetAtomNameA(
               ATOM atom,    /* [in]  Atom identifier */
               LPSTR buffer, /* [out] Pointer to buffer for atom string */
               INT count   /* [in]  Size of buffer */
 ) {
     return ATOM_GetAtomName( ATOM_GlobalTable, atom, buffer, count );
 }


 /***********************************************************************
  *           GlobalGetAtomName32W   (KERNEL32.324)
  * See GlobalGetAtomName32A
  */
 UINT WINAPI GlobalGetAtomNameW( ATOM atom, LPWSTR buffer, INT count )
 {
     char tmp[MAX_ATOM_LEN+1];
     ATOM_GetAtomName( ATOM_GlobalTable, atom, tmp, sizeof(tmp) );
     lstrcpynAtoW( buffer, tmp, count );
     return lstrlenW( buffer );
 }
	/*
	* Atom table functions
	*
	* Copyright 1993, 1994, 1995 Alexandre Julliard
	*/

	/*
	* Warning: The code assumes that LocalAlloc() returns a block aligned
	* on a 4-bytes boundary (because of the shifting done in
	* HANDLETOATOM). If this is not the case, the allocation code will
	* have to be changed.
	*/

	#include <stdlib.h>
	#include <stdio.h>
	#include <string.h>
	#include <ctype.h>

	#include "wine/winbase16.h"
	#include "wine/winuser16.h"
	#include "winuser.h"
	#include "instance.h"
	#include "ldt.h"
	#include "stackframe.h"
	#include "user.h"
	#include "debugtools.h"

	#ifdef CONFIG_IPC
	#include "dde_atom.h"
	#endif

	DEFAULT_DEBUG_CHANNEL(atom)

	#define DEFAULT_ATOMTABLE_SIZE 37
	#define MIN_STR_ATOM 0xc000
	#define MAX_ATOM_LEN 255

	#define ATOMTOHANDLE(atom) ((HANDLE16)(atom) << 2)
	#define HANDLETOATOM(handle) ((ATOM)(0xc000 \| ((handle) >> 2)))

	#define HAS_ATOM_TABLE(sel) \
	((INSTANCEDATA*)PTR_SEG_OFF_TO_LIN(sel,0))->atomtable != 0)

	#define GET_ATOM_TABLE(sel) ((ATOMTABLE*)PTR_SEG_OFF_TO_LIN(sel, \
	((INSTANCEDATA*)PTR_SEG_OFF_TO_LIN(sel,0))->atomtable))

	typedef struct
	{
	HANDLE16 next;
	WORD refCount;
	BYTE length;
	BYTE str[1];
	} ATOMENTRY;

	typedef struct
	{
	WORD size;
	HANDLE16 entries[1];
	} ATOMTABLE;

	static WORD ATOM_GlobalTable = 0;

	/***********************************************************************
	* ATOM_InitTable
	*
	* NOTES
	* Should this validate the value of entries to be 0 < x < 0x3fff?
	*
	* RETURNS
	* Handle: Success
	* 0: Failure
	*/
	static HANDLE16 ATOM_InitTable(
	WORD selector, /* [in] Segment */
	WORD entries /* [in] Size of atom table */
	) {
	int i;
	HANDLE16 handle;
	ATOMTABLE *table;

	/* We consider the first table to be initialized as the global table.
	* This works, as USER (both built-in and native) is the first one to
	* register ...
	*/

	if (!ATOM_GlobalTable) ATOM_GlobalTable = selector;


	/* Allocate the table */

	handle = LOCAL_Alloc( selector, LMEM_FIXED,
	sizeof(ATOMTABLE) + (entries-1) * sizeof(HANDLE16) );
	if (!handle) return 0;
	table = (ATOMTABLE *)PTR_SEG_OFF_TO_LIN( selector, handle );
	table->size = entries;
	for (i = 0; i < entries; i++) table->entries[i] = 0;

	/* Store a pointer to the table in the instance data */

	((INSTANCEDATA *)PTR_SEG_OFF_TO_LIN( selector, 0 ))->atomtable = handle;
	return handle;
	}


	/***********************************************************************
	* ATOM_Init
	*
	* Global table initialisation.
	*/
	BOOL ATOM_Init( WORD globalTableSel )
	{
	return ATOM_InitTable( globalTableSel, DEFAULT_ATOMTABLE_SIZE ) != 0;
	}


	/***********************************************************************
	* ATOM_GetTable
	*
	* Return a pointer to the atom table of a given segment, creating
	* it if necessary.
	*
	* RETURNS
	* Pointer to table: Success
	* NULL: Failure
	*/
	static ATOMTABLE *ATOM_GetTable(
	WORD selector, /* [in] Segment */
	BOOL create /* [in] Create */ )
	{
	INSTANCEDATA ptr = (INSTANCEDATA )PTR_SEG_OFF_TO_LIN( selector, 0 );
	if (ptr->atomtable)
	{
	ATOMTABLE table = (ATOMTABLE )((char *)ptr + ptr->atomtable);
	if (table->size) return table;
	}
	if (!create) return NULL;
	if (!ATOM_InitTable( selector, DEFAULT_ATOMTABLE_SIZE )) return NULL;
	/* Reload ptr in case it moved in linear memory */
	ptr = (INSTANCEDATA *)PTR_SEG_OFF_TO_LIN( selector, 0 );
	return (ATOMTABLE )((char )ptr + ptr->atomtable);
	}


	/***********************************************************************
	* ATOM_MakePtr
	*
	* Make an ATOMENTRY pointer from a handle (obtained from GetAtomHandle()).
	*/
	static ATOMENTRY *ATOM_MakePtr(
	WORD selector, /* [in] Segment */
	HANDLE16 handle /* [in] Handle */
	) {
	return (ATOMENTRY *)PTR_SEG_OFF_TO_LIN( selector, handle );
	}


	/***********************************************************************
	* ATOM_Hash
	* RETURNS
	* The hash value for the input string
	*/
	static WORD ATOM_Hash(
	WORD entries, /* [in] Total number of entries */
	LPCSTR str, /* [in] Pointer to string to hash */
	WORD len /* [in] Length of string */
	) {
	WORD i, hash = 0;

	TRACE("%x, %s, %x\n", entries, str, len);

	for (i = 0; i < len; i++) hash ^= toupper(str[i]) + i;
	return hash % entries;
	}

	static BOOL ATOM_IsIntAtom(LPCSTR atomstr,WORD *atomid) {
	LPSTR xend;

	if (!HIWORD(atomstr)) {
	*atomid = LOWORD(atomstr);
	return TRUE;
	}
	if (atomstr[0]!='#')
	return FALSE;
	*atomid=strtol(atomstr+1,&xend,10);
	if (*xend) {
	FIXME("found atom named '%s'\n",atomstr);
	return FALSE;
	}
	return TRUE;
	}


	/***********************************************************************
	* ATOM_AddAtom
	*
	* Windows DWORD aligns the atom entry size.
	* The remaining unused string space created by the alignment
	* gets padded with '\0's in a certain way to ensure
	* that at least one trailing '\0' remains.
	*
	* RETURNS
	* Atom: Success
	* 0: Failure
	*/
	static ATOM ATOM_AddAtom(
	WORD selector, /* [in] Segment */
	LPCSTR str /* [in] Pointer to the string to add */
	) {
	WORD hash;
	HANDLE16 entry;
	ATOMENTRY * entryPtr;
	ATOMTABLE * table;
	int len, ae_len;
	WORD iatom;

	TRACE("0x%x, %s\n", selector, str);

	if (ATOM_IsIntAtom(str,&iatom))
	return iatom;
	if ((len = strlen( str )) > MAX_ATOM_LEN) len = MAX_ATOM_LEN;
	if (!(table = ATOM_GetTable( selector, TRUE ))) return 0;
	hash = ATOM_Hash( table->size, str, len );
	entry = table->entries[hash];
	while (entry)
	{
	entryPtr = ATOM_MakePtr( selector, entry );
	if ((entryPtr->length == len) &&
	(!lstrncmpiA( entryPtr->str, str, len )))
	{
	entryPtr->refCount++;
	TRACE("-- existing 0x%x\n", entry);
	return HANDLETOATOM( entry );
	}
	entry = entryPtr->next;
	}

	ae_len = (sizeof(ATOMENTRY)+len+3) & ~3;
	entry = LOCAL_Alloc( selector, LMEM_FIXED, ae_len);
	if (!entry) return 0;
	/* Reload the table ptr in case it moved in linear memory */
	table = ATOM_GetTable( selector, FALSE );
	entryPtr = ATOM_MakePtr( selector, entry );
	entryPtr->next = table->entries[hash];
	entryPtr->refCount = 1;
	entryPtr->length = len;
	strncpy( entryPtr->str, str, ae_len - sizeof(ATOMENTRY) + 1); /* always use strncpy ('\0's padding) */
	table->entries[hash] = entry;
	TRACE("-- new 0x%x\n", entry);
	return HANDLETOATOM( entry );
	}


	/***********************************************************************
	* ATOM_DeleteAtom
	* RETURNS
	* 0: Success
	* Atom: Failure
	*/
	static ATOM ATOM_DeleteAtom(
	WORD selector, /* [in] Segment */
	ATOM atom /* [in] Atom to delete */
	) {
	ATOMENTRY * entryPtr;
	ATOMTABLE * table;
	HANDLE16 entry, *prevEntry;
	WORD hash;

	TRACE("0x%x, 0x%x\n", selector, atom);

	if (atom < MIN_STR_ATOM) return 0; /* Integer atom */

	if (!(table = ATOM_GetTable( selector, FALSE ))) return 0;
	entry = ATOMTOHANDLE( atom );
	entryPtr = ATOM_MakePtr( selector, entry );

	/* Find previous atom */
	hash = ATOM_Hash( table->size, entryPtr->str, entryPtr->length );
	prevEntry = &table->entries[hash];
	while (prevEntry && prevEntry != entry)
	{
	ATOMENTRY * prevEntryPtr = ATOM_MakePtr( selector, *prevEntry );
	prevEntry = &prevEntryPtr->next;
	}
	if (!*prevEntry) return atom;

	/* Delete atom */
	if (--entryPtr->refCount == 0)
	{
	*prevEntry = entryPtr->next;
	LOCAL_Free( selector, entry );
	}
	return 0;
	}


	/***********************************************************************
	* ATOM_FindAtom
	* RETURNS
	* Atom: Success
	* 0: Failure
	*/
	static ATOM ATOM_FindAtom(
	WORD selector, /* [in] Segment */
	LPCSTR str /* [in] Pointer to string to find */
	) {
	ATOMTABLE * table;
	WORD hash,iatom;
	HANDLE16 entry;
	int len;

	TRACE("%x, %s\n", selector, str);
	if (ATOM_IsIntAtom(str,&iatom))
	return iatom;
	if ((len = strlen( str )) > 255) len = 255;
	if (!(table = ATOM_GetTable( selector, FALSE ))) return 0;
	hash = ATOM_Hash( table->size, str, len );
	entry = table->entries[hash];
	while (entry)
	{
	ATOMENTRY * entryPtr = ATOM_MakePtr( selector, entry );
	if ((entryPtr->length == len) &&
	(!lstrncmpiA( entryPtr->str, str, len )))
	{ TRACE("-- found %x\n", entry);
	return HANDLETOATOM( entry );
	}
	entry = entryPtr->next;
	}
	TRACE("-- not found\n");
	return 0;
	}


	/***********************************************************************
	* ATOM_GetAtomName
	* RETURNS
	* Length of string copied to buffer: Success
	* 0: Failure
	*/
	static UINT ATOM_GetAtomName(
	WORD selector, /* [in] Segment */
	ATOM atom, /* [in] Atom identifier */
	LPSTR buffer, /* [out] Pointer to buffer for atom string */
	INT count /* [in] Size of buffer */
	) {
	ATOMTABLE * table;
	ATOMENTRY * entryPtr;
	HANDLE16 entry;
	char * strPtr;
	UINT len;
	char text[8];

	TRACE("%x, %x\n", selector, atom);

	if (!count) return 0;
	if (atom < MIN_STR_ATOM)
	{
	sprintf( text, "#%d", atom );
	len = strlen(text);
	strPtr = text;
	}
	else
	{
	if (!(table = ATOM_GetTable( selector, FALSE ))) return 0;
	entry = ATOMTOHANDLE( atom );
	entryPtr = ATOM_MakePtr( selector, entry );
	len = entryPtr->length;
	strPtr = entryPtr->str;
	}
	if (len >= count) len = count-1;
	memcpy( buffer, strPtr, len );
	buffer[len] = '\0';
	return len;
	}


	/***********************************************************************
	* InitAtomTable16 (KERNEL.68)
	*/
	WORD WINAPI InitAtomTable16( WORD entries )
	{
	if (!entries) entries = DEFAULT_ATOMTABLE_SIZE; /* sanity check */
	return ATOM_InitTable( CURRENT_DS, entries );
	}


	/***********************************************************************
	* GetAtomHandle (KERNEL.73)
	*/
	HANDLE16 WINAPI GetAtomHandle16( ATOM atom )
	{
	if (atom < MIN_STR_ATOM) return 0;
	return ATOMTOHANDLE( atom );
	}


	/***********************************************************************
	* AddAtom16 (KERNEL.70)
	*/
	ATOM WINAPI AddAtom16( SEGPTR str )
	{
	ATOM atom;
	HANDLE16 ds = CURRENT_DS;

	if (!HIWORD(str)) return (ATOM)LOWORD(str); /* Integer atom */
	if (SELECTOR_TO_ENTRY(LOWORD(str)) == SELECTOR_TO_ENTRY(ds))
	{
	/* If the string is in the same data segment as the atom table, make */
	/* a copy of the string to be sure it doesn't move in linear memory. */
	char buffer[MAX_ATOM_LEN+1];
	lstrcpynA( buffer, (char *)PTR_SEG_TO_LIN(str), sizeof(buffer) );
	atom = ATOM_AddAtom( ds, buffer );
	}
	else atom = ATOM_AddAtom( ds, (LPCSTR)PTR_SEG_TO_LIN(str) );
	return atom;
	}


	/***********************************************************************
	* AddAtom32A (KERNEL32.0)
	* Adds a string to the atom table and returns the atom identifying the
	* string.
	*
	* RETURNS
	* Atom: Success
	* 0: Failure
	*/
	ATOM WINAPI AddAtomA(
	LPCSTR str /* [in] Pointer to string to add */
	) {
	return GlobalAddAtomA( str ); /* FIXME */
	}


	/***********************************************************************
	* AddAtom32W (KERNEL32.1)
	* See AddAtom32A
	*/
	ATOM WINAPI AddAtomW( LPCWSTR str )
	{
	return GlobalAddAtomW( str ); /* FIXME */
	}


	/***********************************************************************
	* DeleteAtom16 (KERNEL.71)
	*/
	ATOM WINAPI DeleteAtom16( ATOM atom )
	{
	return ATOM_DeleteAtom( CURRENT_DS, atom );
	}


	/***********************************************************************
	* DeleteAtom32 (KERNEL32.69)
	* Decrements the reference count of a string atom. If count becomes
	* zero, the string associated with the atom is removed from the table.
	*
	* RETURNS
	* 0: Success
	* Atom: Failure
	*/
	ATOM WINAPI DeleteAtom(
	ATOM atom /* [in] Atom to delete */
	) {
	return GlobalDeleteAtom( atom ); /* FIXME */
	}


	/***********************************************************************
	* FindAtom16 (KERNEL.69)
	*/
	ATOM WINAPI FindAtom16( SEGPTR str )
	{
	if (!HIWORD(str)) return (ATOM)LOWORD(str); /* Integer atom */
	return ATOM_FindAtom( CURRENT_DS, (LPCSTR)PTR_SEG_TO_LIN(str) );
	}


	/***********************************************************************
	* FindAtom32A (KERNEL32.117)
	* Searches the local atom table for the string and returns the atom
	* associated with that string.
	*
	* RETURNS
	* Atom: Success
	* 0: Failure
	*/
	ATOM WINAPI FindAtomA(
	LPCSTR str /* [in] Pointer to string to find */
	) {
	return GlobalFindAtomA( str ); /* FIXME */
	}


	/***********************************************************************
	* FindAtom32W (KERNEL32.118)
	* See FindAtom32A
	*/
	ATOM WINAPI FindAtomW( LPCWSTR str )
	{
	return GlobalFindAtomW( str ); /* FIXME */
	}


	/***********************************************************************
	* GetAtomName16 (KERNEL.72)
	*/
	UINT16 WINAPI GetAtomName16( ATOM atom, LPSTR buffer, INT16 count )
	{
	return (UINT16)ATOM_GetAtomName( CURRENT_DS, atom, buffer, count );
	}


	/***********************************************************************
	* GetAtomName32A (KERNEL32.149)
	* Retrieves a copy of the string associated with the atom.
	*
	* RETURNS
	* Length of string: Success
	* 0: Failure
	*/
	UINT WINAPI GetAtomNameA(
	ATOM atom, /* [in] Atom */
	LPSTR buffer, /* [out] Pointer to string for atom string */
	INT count /* [in] Size of buffer */
	) {
	return GlobalGetAtomNameA( atom, buffer, count ); /* FIXME */
	}


	/***********************************************************************
	* GetAtomName32W (KERNEL32.150)
	* See GetAtomName32A
	*/
	UINT WINAPI GetAtomNameW( ATOM atom, LPWSTR buffer, INT count )
	{
	return GlobalGetAtomNameW( atom, buffer, count ); /* FIXME */
	}


	/***********************************************************************
	* GlobalAddAtom16 (USER.268)
	*/
	ATOM WINAPI GlobalAddAtom16( SEGPTR str )
	{
	if (!HIWORD(str)) return (ATOM)LOWORD(str); /* Integer atom */
	#ifdef CONFIG_IPC
	return DDE_GlobalAddAtom( str );
	#else
	return ATOM_AddAtom( ATOM_GlobalTable, (LPCSTR)PTR_SEG_TO_LIN(str) );
	#endif
	}


	/***********************************************************************
	* GlobalAddAtom32A (KERNEL32.313)
	* Adds a character string to the global atom table and returns a unique
	* value identifying the string.
	*
	* RETURNS
	* Atom: Success
	* 0: Failure
	*/
	ATOM WINAPI GlobalAddAtomA(
	LPCSTR str /* [in] Pointer to string to add */
	) {
	if (!HIWORD(str)) return (ATOM)LOWORD(str); /* Integer atom */
	return ATOM_AddAtom( ATOM_GlobalTable, str );
	}


	/***********************************************************************
	* GlobalAddAtom32W (KERNEL32.314)
	* See GlobalAddAtom32A
	*/
	ATOM WINAPI GlobalAddAtomW( LPCWSTR str )
	{
	char buffer[MAX_ATOM_LEN+1];
	if (!HIWORD(str)) return (ATOM)LOWORD(str); /* Integer atom */
	lstrcpynWtoA( buffer, str, sizeof(buffer) );
	return ATOM_AddAtom( ATOM_GlobalTable, buffer );
	}


	/***********************************************************************
	* GlobalDeleteAtom (USER.269) (KERNEL32.317)
	* Decrements the reference count of a string atom. If the count is
	* zero, the string associated with the atom is removed from the table.
	*
	* RETURNS
	* 0: Success
	* Atom: Failure
	*/
	ATOM WINAPI GlobalDeleteAtom(
	ATOM atom /* [in] Atom to delete */
	) {
	#ifdef CONFIG_IPC
	return DDE_GlobalDeleteAtom( atom );
	#else
	return ATOM_DeleteAtom( ATOM_GlobalTable, atom );
	#endif
	}


	/***********************************************************************
	* GlobalFindAtom16 (USER.270)
	*/
	ATOM WINAPI GlobalFindAtom16( SEGPTR str )
	{
	if (!HIWORD(str)) return (ATOM)LOWORD(str); /* Integer atom */
	#ifdef CONFIG_IPC
	return DDE_GlobalFindAtom( str );
	#else
	return ATOM_FindAtom( ATOM_GlobalTable, (LPCSTR)PTR_SEG_TO_LIN(str) );
	#endif
	}


	/***********************************************************************
	* GlobalFindAtom32A (KERNEL32.318)
	* Searches the atom table for the string and returns the atom
	* associated with it.
	*
	* RETURNS
	* Atom: Success
	* 0: Failure
	*/
	ATOM WINAPI GlobalFindAtomA(
	LPCSTR str /* [in] Pointer to string to search for */
	) {
	if (!HIWORD(str)) return (ATOM)LOWORD(str); /* Integer atom */
	return ATOM_FindAtom( ATOM_GlobalTable, str );
	}


	/***********************************************************************
	* GlobalFindAtom32W (KERNEL32.319)
	* See GlobalFindAtom32A
	*/
	ATOM WINAPI GlobalFindAtomW( LPCWSTR str )
	{
	char buffer[MAX_ATOM_LEN+1];
	if (!HIWORD(str)) return (ATOM)LOWORD(str); /* Integer atom */
	lstrcpynWtoA( buffer, str, sizeof(buffer) );
	return ATOM_FindAtom( ATOM_GlobalTable, buffer );
	}


	/***********************************************************************
	* GlobalGetAtomName16 (USER.271)
	*/
	UINT16 WINAPI GlobalGetAtomName16( ATOM atom, LPSTR buffer, INT16 count )
	{
	#ifdef CONFIG_IPC
	return DDE_GlobalGetAtomName( atom, buffer, count );
	#else
	return (UINT16)ATOM_GetAtomName( ATOM_GlobalTable, atom, buffer, count );
	#endif
	}


	/***********************************************************************
	* GlobalGetAtomName32A (KERNEL32.323)
	* Retrieves a copy of the string associated with an atom.
	*
	* RETURNS
	* Length of string in characters: Success
	* 0: Failure
	*/
	UINT WINAPI GlobalGetAtomNameA(
	ATOM atom, /* [in] Atom identifier */
	LPSTR buffer, /* [out] Pointer to buffer for atom string */
	INT count /* [in] Size of buffer */
	) {
	return ATOM_GetAtomName( ATOM_GlobalTable, atom, buffer, count );
	}


	/***********************************************************************
	* GlobalGetAtomName32W (KERNEL32.324)
	* See GlobalGetAtomName32A
	*/
	UINT WINAPI GlobalGetAtomNameW( ATOM atom, LPWSTR buffer, INT count )
	{
	char tmp[MAX_ATOM_LEN+1];
	ATOM_GetAtomName( ATOM_GlobalTable, atom, tmp, sizeof(tmp) );
	lstrcpynAtoW( buffer, tmp, count );
	return lstrlenW( buffer );
	}