src/cache/ftccache.c - third_party/freetype2 - Git at Google

 /****************************************************************************
  *
  * ftccache.c
  *
  *   The FreeType internal cache interface (body).
  *
  * Copyright (C) 2000-2020 by
  * David Turner, Robert Wilhelm, and Werner Lemberg.
  *
  * This file is part of the FreeType project, and may only be used,
  * modified, and distributed under the terms of the FreeType project
  * license, LICENSE.TXT.  By continuing to use, modify, or distribute
  * this file you indicate that you have read the license and
  * understand and accept it fully.
  *
  */


 #include "ftcmanag.h"
 #include <freetype/internal/ftobjs.h>
 #include <freetype/internal/ftdebug.h>

 #include "ftccback.h"
 #include "ftcerror.h"

 #undef  FT_COMPONENT
 #define FT_COMPONENT  cache


 #define FTC_HASH_MAX_LOAD  2
 #define FTC_HASH_MIN_LOAD  1
 #define FTC_HASH_SUB_LOAD  ( FTC_HASH_MAX_LOAD - FTC_HASH_MIN_LOAD )

   /* this one _must_ be a power of 2! */
 #define FTC_HASH_INITIAL_SIZE  8


   /*************************************************************************/
   /*************************************************************************/
   /*****                                                               *****/
   /*****                   CACHE NODE DEFINITIONS                      *****/
   /*****                                                               *****/
   /*************************************************************************/
   /*************************************************************************/

   /* add a new node to the head of the manager's circular MRU list */
   static void
   ftc_node_mru_link( FTC_Node     node,
                      FTC_Manager  manager )
   {
     void  *nl = &manager->nodes_list;


     FTC_MruNode_Prepend( (FTC_MruNode*)nl,
                          (FTC_MruNode)node );
     manager->num_nodes++;
   }


   /* remove a node from the manager's MRU list */
   static void
   ftc_node_mru_unlink( FTC_Node     node,
                        FTC_Manager  manager )
   {
     void  *nl = &manager->nodes_list;


     FTC_MruNode_Remove( (FTC_MruNode*)nl,
                         (FTC_MruNode)node );
     manager->num_nodes--;
   }


 #ifndef FTC_INLINE

   /* move a node to the head of the manager's MRU list */
   static void
   ftc_node_mru_up( FTC_Node     node,
                    FTC_Manager  manager )
   {
     FTC_MruNode_Up( (FTC_MruNode*)&manager->nodes_list,
                     (FTC_MruNode)node );
   }


   /* get a top bucket for specified hash from cache,
    * body for FTC_NODE_TOP_FOR_HASH( cache, hash )
    */
   FT_LOCAL_DEF( FTC_Node* )
   ftc_get_top_node_for_hash( FTC_Cache  cache,
                              FT_Offset  hash )
   {
     FTC_Node*  pnode;
     FT_Offset  idx;


     idx = hash & cache->mask;
     if ( idx < cache->p )
       idx = hash & ( 2 * cache->mask + 1 );
     pnode = cache->buckets + idx;
     return pnode;
   }

 #endif /* !FTC_INLINE */


   /* Note that this function cannot fail.  If we cannot re-size the
    * buckets array appropriately, we simply degrade the hash table's
    * performance!
    */
   static void
   ftc_cache_resize( FTC_Cache  cache )
   {
     for (;;)
     {
       FTC_Node  node, *pnode;
       FT_UFast  p     = cache->p;
       FT_UFast  mask  = cache->mask;
       FT_UFast  count = mask + p + 1;    /* number of buckets */


       /* do we need to shrink the buckets array? */
       if ( cache->slack < 0 )
       {
         FTC_Node  new_list = NULL;


         /* try to expand the buckets array _before_ splitting
          * the bucket lists
          */
         if ( p >= mask )
         {
           FT_Memory  memory = cache->memory;
           FT_Error   error;


           /* if we can't expand the array, leave immediately */
           if ( FT_RENEW_ARRAY( cache->buckets,
                                ( mask + 1 ) * 2, ( mask + 1 ) * 4 ) )
             break;
         }

         /* split a single bucket */
         pnode = cache->buckets + p;

         for (;;)
         {
           node = *pnode;
           if ( !node )
             break;

           if ( node->hash & ( mask + 1 ) )
           {
             *pnode     = node->link;
             node->link = new_list;
             new_list   = node;
           }
           else
             pnode = &node->link;
         }

         cache->buckets[p + mask + 1] = new_list;

         cache->slack += FTC_HASH_MAX_LOAD;

         if ( p >= mask )
         {
           cache->mask = 2 * mask + 1;
           cache->p    = 0;
         }
         else
           cache->p = p + 1;
       }

       /* do we need to expand the buckets array? */
       else if ( cache->slack > (FT_Long)count * FTC_HASH_SUB_LOAD )
       {
         FT_UFast   old_index = p + mask;
         FTC_Node*  pold;


         if ( old_index + 1 <= FTC_HASH_INITIAL_SIZE )
           break;

         if ( p == 0 )
         {
           FT_Memory  memory = cache->memory;
           FT_Error   error;


           /* if we can't shrink the array, leave immediately */
           if ( FT_RENEW_ARRAY( cache->buckets,
                                ( mask + 1 ) * 2, mask + 1 ) )
             break;

           cache->mask >>= 1;
           p             = cache->mask;
         }
         else
           p--;

         pnode = cache->buckets + p;
         while ( *pnode )
           pnode = &(*pnode)->link;

         pold   = cache->buckets + old_index;
         *pnode = *pold;
         *pold  = NULL;

         cache->slack -= FTC_HASH_MAX_LOAD;
         cache->p      = p;
       }

       /* otherwise, the hash table is balanced */
       else
         break;
     }
   }


   /* remove a node from its cache's hash table */
   static void
   ftc_node_hash_unlink( FTC_Node   node0,
                         FTC_Cache  cache )
   {
     FTC_Node  *pnode = FTC_NODE_TOP_FOR_HASH( cache, node0->hash );


     for (;;)
     {
       FTC_Node  node = *pnode;


       if ( !node )
       {
         FT_TRACE0(( "ftc_node_hash_unlink: unknown node\n" ));
         return;
       }

       if ( node == node0 )
         break;

       pnode = &(*pnode)->link;
     }

     *pnode      = node0->link;
     node0->link = NULL;

     cache->slack++;
     ftc_cache_resize( cache );
   }


   /* add a node to the `top' of its cache's hash table */
   static void
   ftc_node_hash_link( FTC_Node   node,
                       FTC_Cache  cache )
   {
     FTC_Node  *pnode = FTC_NODE_TOP_FOR_HASH( cache, node->hash );


     node->link = *pnode;
     *pnode     = node;

     cache->slack--;
     ftc_cache_resize( cache );
   }


   /* remove a node from the cache manager */
   FT_LOCAL_DEF( void )
   ftc_node_destroy( FTC_Node     node,
                     FTC_Manager  manager )
   {
     FTC_Cache  cache;


 #ifdef FT_DEBUG_ERROR
     /* find node's cache */
     if ( node->cache_index >= manager->num_caches )
     {
       FT_TRACE0(( "ftc_node_destroy: invalid node handle\n" ));
       return;
     }
 #endif

     cache = manager->caches[node->cache_index];

 #ifdef FT_DEBUG_ERROR
     if ( !cache )
     {
       FT_TRACE0(( "ftc_node_destroy: invalid node handle\n" ));
       return;
     }
 #endif

     manager->cur_weight -= cache->clazz.node_weight( node, cache );

     /* remove node from mru list */
     ftc_node_mru_unlink( node, manager );

     /* remove node from cache's hash table */
     ftc_node_hash_unlink( node, cache );

     /* now finalize it */
     cache->clazz.node_free( node, cache );

 #if 0
     /* check, just in case of general corruption :-) */
     if ( manager->num_nodes == 0 )
       FT_TRACE0(( "ftc_node_destroy: invalid cache node count (%d)\n",
                   manager->num_nodes ));
 #endif
   }


   /*************************************************************************/
   /*************************************************************************/
   /*****                                                               *****/
   /*****                    ABSTRACT CACHE CLASS                       *****/
   /*****                                                               *****/
   /*************************************************************************/
   /*************************************************************************/


   FT_LOCAL_DEF( FT_Error )
   FTC_Cache_Init( FTC_Cache  cache )
   {
     return ftc_cache_init( cache );
   }


   FT_LOCAL_DEF( FT_Error )
   ftc_cache_init( FTC_Cache  cache )
   {
     FT_Memory  memory = cache->memory;
     FT_Error   error;


     cache->p     = 0;
     cache->mask  = FTC_HASH_INITIAL_SIZE - 1;
     cache->slack = FTC_HASH_INITIAL_SIZE * FTC_HASH_MAX_LOAD;

     (void)FT_NEW_ARRAY( cache->buckets, FTC_HASH_INITIAL_SIZE * 2 );
     return error;
   }


   static void
   FTC_Cache_Clear( FTC_Cache  cache )
   {
     if ( cache && cache->buckets )
     {
       FTC_Manager  manager = cache->manager;
       FT_UFast     i;
       FT_UFast     count;


       count = cache->p + cache->mask + 1;

       for ( i = 0; i < count; i++ )
       {
         FTC_Node  *pnode = cache->buckets + i, next, node = *pnode;


         while ( node )
         {
           next        = node->link;
           node->link  = NULL;

           /* remove node from mru list */
           ftc_node_mru_unlink( node, manager );

           /* now finalize it */
           manager->cur_weight -= cache->clazz.node_weight( node, cache );

           cache->clazz.node_free( node, cache );
           node = next;
         }
         cache->buckets[i] = NULL;
       }
       ftc_cache_resize( cache );
     }
   }


   FT_LOCAL_DEF( void )
   ftc_cache_done( FTC_Cache  cache )
   {
     if ( cache->memory )
     {
       FT_Memory  memory = cache->memory;


       FTC_Cache_Clear( cache );

       FT_FREE( cache->buckets );
       cache->mask  = 0;
       cache->p     = 0;
       cache->slack = 0;

       cache->memory = NULL;
     }
   }


   FT_LOCAL_DEF( void )
   FTC_Cache_Done( FTC_Cache  cache )
   {
     ftc_cache_done( cache );
   }


   static void
   ftc_cache_add( FTC_Cache  cache,
                  FT_Offset  hash,
                  FTC_Node   node )
   {
     node->hash        = hash;
     node->cache_index = (FT_UInt16)cache->index;
     node->ref_count   = 0;

     ftc_node_hash_link( node, cache );
     ftc_node_mru_link( node, cache->manager );

     {
       FTC_Manager  manager = cache->manager;


       manager->cur_weight += cache->clazz.node_weight( node, cache );

       if ( manager->cur_weight >= manager->max_weight )
       {
         node->ref_count++;
         FTC_Manager_Compress( manager );
         node->ref_count--;
       }
     }
   }


   FT_LOCAL_DEF( FT_Error )
   FTC_Cache_NewNode( FTC_Cache   cache,
                      FT_Offset   hash,
                      FT_Pointer  query,
                      FTC_Node   *anode )
   {
     FT_Error  error;
     FTC_Node  node;


     /*
      * We use the FTC_CACHE_TRYLOOP macros to support out-of-memory
      * errors (OOM) correctly, i.e., by flushing the cache progressively
      * in order to make more room.
      */

     FTC_CACHE_TRYLOOP( cache )
     {
       error = cache->clazz.node_new( &node, query, cache );
     }
     FTC_CACHE_TRYLOOP_END( NULL );

     if ( error )
       node = NULL;
     else
     {
      /* don't assume that the cache has the same number of buckets, since
       * our allocation request might have triggered global cache flushing
       */
       ftc_cache_add( cache, hash, node );
     }

     *anode = node;
     return error;
   }


 #ifndef FTC_INLINE

   FT_LOCAL_DEF( FT_Error )
   FTC_Cache_Lookup( FTC_Cache   cache,
                     FT_Offset   hash,
                     FT_Pointer  query,
                     FTC_Node   *anode )
   {
     FTC_Node*  bucket;
     FTC_Node*  pnode;
     FTC_Node   node;
     FT_Error   error        = FT_Err_Ok;
     FT_Bool    list_changed = FALSE;

     FTC_Node_CompareFunc  compare = cache->clazz.node_compare;


     if ( !cache || !anode )
       return FT_THROW( Invalid_Argument );

     /* Go to the `top' node of the list sharing same masked hash */
     bucket = pnode = FTC_NODE_TOP_FOR_HASH( cache, hash );

     /* Lookup a node with exactly same hash and queried properties.  */
     /* NOTE: _nodcomp() may change the linked list to reduce memory. */
     for (;;)
     {
       node = *pnode;
       if ( !node )
         goto NewNode;

       if ( node->hash == hash                           &&
            compare( node, query, cache, &list_changed ) )
         break;

       pnode = &node->link;
     }

     if ( list_changed )
     {
       /* Update bucket by modified linked list */
       bucket = pnode = FTC_NODE_TOP_FOR_HASH( cache, hash );

       /* Update pnode by modified linked list */
       while ( *pnode != node )
       {
         if ( !*pnode )
         {
           FT_ERROR(( "FTC_Cache_Lookup: oops!!!  node missing\n" ));
           goto NewNode;
         }
         else
           pnode = &((*pnode)->link);
       }
     }

     /* Reorder the list to move the found node to the `top' */
     if ( node != *bucket )
     {
       *pnode     = node->link;
       node->link = *bucket;
       *bucket    = node;
     }

     /* move to head of MRU list */
     {
       FTC_Manager  manager = cache->manager;


       if ( node != manager->nodes_list )
         ftc_node_mru_up( node, manager );
     }
     *anode = node;

     return error;

   NewNode:
     return FTC_Cache_NewNode( cache, hash, query, anode );
   }

 #endif /* !FTC_INLINE */


   FT_LOCAL_DEF( void )
   FTC_Cache_RemoveFaceID( FTC_Cache   cache,
                           FTC_FaceID  face_id )
   {
     FT_UFast     i, count;
     FTC_Manager  manager = cache->manager;
     FTC_Node     frees   = NULL;


     count = cache->p + cache->mask + 1;
     for ( i = 0; i < count; i++ )
     {
       FTC_Node*  bucket = cache->buckets + i;
       FTC_Node*  pnode  = bucket;


       for (;;)
       {
         FTC_Node  node = *pnode;
         FT_Bool   list_changed = FALSE;


         if ( !node )
           break;

         if ( cache->clazz.node_remove_faceid( node, face_id,
                                               cache, &list_changed ) )
         {
           *pnode     = node->link;
           node->link = frees;
           frees      = node;
         }
         else
           pnode = &node->link;
       }
     }

     /* remove all nodes in the free list */
     while ( frees )
     {
       FTC_Node  node;


       node  = frees;
       frees = node->link;

       manager->cur_weight -= cache->clazz.node_weight( node, cache );
       ftc_node_mru_unlink( node, manager );

       cache->clazz.node_free( node, cache );

       cache->slack++;
     }

     ftc_cache_resize( cache );
   }


 /* END */
	/****************************************************************************
	*
	* ftccache.c
	*
	* The FreeType internal cache interface (body).
	*
	* Copyright (C) 2000-2020 by
	* David Turner, Robert Wilhelm, and Werner Lemberg.
	*
	* This file is part of the FreeType project, and may only be used,
	* modified, and distributed under the terms of the FreeType project
	* license, LICENSE.TXT. By continuing to use, modify, or distribute
	* this file you indicate that you have read the license and
	* understand and accept it fully.
	*
	*/


	#include "ftcmanag.h"
	#include <freetype/internal/ftobjs.h>
	#include <freetype/internal/ftdebug.h>

	#include "ftccback.h"
	#include "ftcerror.h"

	#undef FT_COMPONENT
	#define FT_COMPONENT cache


	#define FTC_HASH_MAX_LOAD 2
	#define FTC_HASH_MIN_LOAD 1
	#define FTC_HASH_SUB_LOAD ( FTC_HASH_MAX_LOAD - FTC_HASH_MIN_LOAD )

	/* this one _must_ be a power of 2! */
	#define FTC_HASH_INITIAL_SIZE 8


	/*************************************************************************/
	/*************************************************************************/
	/*** ***/
	/*** CACHE NODE DEFINITIONS ***/
	/*** ***/
	/*************************************************************************/
	/*************************************************************************/

	/* add a new node to the head of the manager's circular MRU list */
	static void
	ftc_node_mru_link( FTC_Node node,
	FTC_Manager manager )
	{
	void *nl = &manager->nodes_list;


	FTC_MruNode_Prepend( (FTC_MruNode*)nl,
	(FTC_MruNode)node );
	manager->num_nodes++;
	}


	/* remove a node from the manager's MRU list */
	static void
	ftc_node_mru_unlink( FTC_Node node,
	FTC_Manager manager )
	{
	void *nl = &manager->nodes_list;


	FTC_MruNode_Remove( (FTC_MruNode*)nl,
	(FTC_MruNode)node );
	manager->num_nodes--;
	}


	#ifndef FTC_INLINE

	/* move a node to the head of the manager's MRU list */
	static void
	ftc_node_mru_up( FTC_Node node,
	FTC_Manager manager )
	{
	FTC_MruNode_Up( (FTC_MruNode*)&manager->nodes_list,
	(FTC_MruNode)node );
	}


	/* get a top bucket for specified hash from cache,
	* body for FTC_NODE_TOP_FOR_HASH( cache, hash )
	*/
	FT_LOCAL_DEF( FTC_Node* )
	ftc_get_top_node_for_hash( FTC_Cache cache,
	FT_Offset hash )
	{
	FTC_Node* pnode;
	FT_Offset idx;


	idx = hash & cache->mask;
	if ( idx < cache->p )
	idx = hash & ( 2 * cache->mask + 1 );
	pnode = cache->buckets + idx;
	return pnode;
	}

	#endif /* !FTC_INLINE */


	/* Note that this function cannot fail. If we cannot re-size the
	* buckets array appropriately, we simply degrade the hash table's
	* performance!
	*/
	static void
	ftc_cache_resize( FTC_Cache cache )
	{
	for (;;)
	{
	FTC_Node node, *pnode;
	FT_UFast p = cache->p;
	FT_UFast mask = cache->mask;
	FT_UFast count = mask + p + 1; /* number of buckets */


	/* do we need to shrink the buckets array? */
	if ( cache->slack < 0 )
	{
	FTC_Node new_list = NULL;


	/* try to expand the buckets array _before_ splitting
	* the bucket lists
	*/
	if ( p >= mask )
	{
	FT_Memory memory = cache->memory;
	FT_Error error;


	/* if we can't expand the array, leave immediately */
	if ( FT_RENEW_ARRAY( cache->buckets,
	( mask + 1 ) * 2, ( mask + 1 ) * 4 ) )
	break;
	}

	/* split a single bucket */
	pnode = cache->buckets + p;

	for (;;)
	{
	node = *pnode;
	if ( !node )
	break;

	if ( node->hash & ( mask + 1 ) )
	{
	*pnode = node->link;
	node->link = new_list;
	new_list = node;
	}
	else
	pnode = &node->link;
	}

	cache->buckets[p + mask + 1] = new_list;

	cache->slack += FTC_HASH_MAX_LOAD;

	if ( p >= mask )
	{
	cache->mask = 2 * mask + 1;
	cache->p = 0;
	}
	else
	cache->p = p + 1;
	}

	/* do we need to expand the buckets array? */
	else if ( cache->slack > (FT_Long)count * FTC_HASH_SUB_LOAD )
	{
	FT_UFast old_index = p + mask;
	FTC_Node* pold;


	if ( old_index + 1 <= FTC_HASH_INITIAL_SIZE )
	break;

	if ( p == 0 )
	{
	FT_Memory memory = cache->memory;
	FT_Error error;


	/* if we can't shrink the array, leave immediately */
	if ( FT_RENEW_ARRAY( cache->buckets,
	( mask + 1 ) * 2, mask + 1 ) )
	break;

	cache->mask >>= 1;
	p = cache->mask;
	}
	else
	p--;

	pnode = cache->buckets + p;
	while ( *pnode )
	pnode = &(*pnode)->link;

	pold = cache->buckets + old_index;
	pnode = pold;
	*pold = NULL;

	cache->slack -= FTC_HASH_MAX_LOAD;
	cache->p = p;
	}

	/* otherwise, the hash table is balanced */
	else
	break;
	}
	}


	/* remove a node from its cache's hash table */
	static void
	ftc_node_hash_unlink( FTC_Node node0,
	FTC_Cache cache )
	{
	FTC_Node *pnode = FTC_NODE_TOP_FOR_HASH( cache, node0->hash );


	for (;;)
	{
	FTC_Node node = *pnode;


	if ( !node )
	{
	FT_TRACE0(( "ftc_node_hash_unlink: unknown node\n" ));
	return;
	}

	if ( node == node0 )
	break;

	pnode = &(*pnode)->link;
	}

	*pnode = node0->link;
	node0->link = NULL;

	cache->slack++;
	ftc_cache_resize( cache );
	}


	/* add a node to the `top' of its cache's hash table */
	static void
	ftc_node_hash_link( FTC_Node node,
	FTC_Cache cache )
	{
	FTC_Node *pnode = FTC_NODE_TOP_FOR_HASH( cache, node->hash );


	node->link = *pnode;
	*pnode = node;

	cache->slack--;
	ftc_cache_resize( cache );
	}


	/* remove a node from the cache manager */
	FT_LOCAL_DEF( void )
	ftc_node_destroy( FTC_Node node,
	FTC_Manager manager )
	{
	FTC_Cache cache;


	#ifdef FT_DEBUG_ERROR
	/* find node's cache */
	if ( node->cache_index >= manager->num_caches )
	{
	FT_TRACE0(( "ftc_node_destroy: invalid node handle\n" ));
	return;
	}
	#endif

	cache = manager->caches[node->cache_index];

	#ifdef FT_DEBUG_ERROR
	if ( !cache )
	{
	FT_TRACE0(( "ftc_node_destroy: invalid node handle\n" ));
	return;
	}
	#endif

	manager->cur_weight -= cache->clazz.node_weight( node, cache );

	/* remove node from mru list */
	ftc_node_mru_unlink( node, manager );

	/* remove node from cache's hash table */
	ftc_node_hash_unlink( node, cache );

	/* now finalize it */
	cache->clazz.node_free( node, cache );

	#if 0
	/* check, just in case of general corruption :-) */
	if ( manager->num_nodes == 0 )
	FT_TRACE0(( "ftc_node_destroy: invalid cache node count (%d)\n",
	manager->num_nodes ));
	#endif
	}


	/*************************************************************************/
	/*************************************************************************/
	/*** ***/
	/*** ABSTRACT CACHE CLASS ***/
	/*** ***/
	/*************************************************************************/
	/*************************************************************************/


	FT_LOCAL_DEF( FT_Error )
	FTC_Cache_Init( FTC_Cache cache )
	{
	return ftc_cache_init( cache );
	}


	FT_LOCAL_DEF( FT_Error )
	ftc_cache_init( FTC_Cache cache )
	{
	FT_Memory memory = cache->memory;
	FT_Error error;


	cache->p = 0;
	cache->mask = FTC_HASH_INITIAL_SIZE - 1;
	cache->slack = FTC_HASH_INITIAL_SIZE * FTC_HASH_MAX_LOAD;

	(void)FT_NEW_ARRAY( cache->buckets, FTC_HASH_INITIAL_SIZE * 2 );
	return error;
	}


	static void
	FTC_Cache_Clear( FTC_Cache cache )
	{
	if ( cache && cache->buckets )
	{
	FTC_Manager manager = cache->manager;
	FT_UFast i;
	FT_UFast count;


	count = cache->p + cache->mask + 1;

	for ( i = 0; i < count; i++ )
	{
	FTC_Node pnode = cache->buckets + i, next, node = pnode;


	while ( node )
	{
	next = node->link;
	node->link = NULL;

	/* remove node from mru list */
	ftc_node_mru_unlink( node, manager );

	/* now finalize it */
	manager->cur_weight -= cache->clazz.node_weight( node, cache );

	cache->clazz.node_free( node, cache );
	node = next;
	}
	cache->buckets[i] = NULL;
	}
	ftc_cache_resize( cache );
	}
	}


	FT_LOCAL_DEF( void )
	ftc_cache_done( FTC_Cache cache )
	{
	if ( cache->memory )
	{
	FT_Memory memory = cache->memory;


	FTC_Cache_Clear( cache );

	FT_FREE( cache->buckets );
	cache->mask = 0;
	cache->p = 0;
	cache->slack = 0;

	cache->memory = NULL;
	}
	}


	FT_LOCAL_DEF( void )
	FTC_Cache_Done( FTC_Cache cache )
	{
	ftc_cache_done( cache );
	}


	static void
	ftc_cache_add( FTC_Cache cache,
	FT_Offset hash,
	FTC_Node node )
	{
	node->hash = hash;
	node->cache_index = (FT_UInt16)cache->index;
	node->ref_count = 0;

	ftc_node_hash_link( node, cache );
	ftc_node_mru_link( node, cache->manager );

	{
	FTC_Manager manager = cache->manager;


	manager->cur_weight += cache->clazz.node_weight( node, cache );

	if ( manager->cur_weight >= manager->max_weight )
	{
	node->ref_count++;
	FTC_Manager_Compress( manager );
	node->ref_count--;
	}
	}
	}


	FT_LOCAL_DEF( FT_Error )
	FTC_Cache_NewNode( FTC_Cache cache,
	FT_Offset hash,
	FT_Pointer query,
	FTC_Node *anode )
	{
	FT_Error error;
	FTC_Node node;


	/*
	* We use the FTC_CACHE_TRYLOOP macros to support out-of-memory
	* errors (OOM) correctly, i.e., by flushing the cache progressively
	* in order to make more room.
	*/

	FTC_CACHE_TRYLOOP( cache )
	{
	error = cache->clazz.node_new( &node, query, cache );
	}
	FTC_CACHE_TRYLOOP_END( NULL );

	if ( error )
	node = NULL;
	else
	{
	/* don't assume that the cache has the same number of buckets, since
	* our allocation request might have triggered global cache flushing
	*/
	ftc_cache_add( cache, hash, node );
	}

	*anode = node;
	return error;
	}


	#ifndef FTC_INLINE

	FT_LOCAL_DEF( FT_Error )
	FTC_Cache_Lookup( FTC_Cache cache,
	FT_Offset hash,
	FT_Pointer query,
	FTC_Node *anode )
	{
	FTC_Node* bucket;
	FTC_Node* pnode;
	FTC_Node node;
	FT_Error error = FT_Err_Ok;
	FT_Bool list_changed = FALSE;

	FTC_Node_CompareFunc compare = cache->clazz.node_compare;


	if ( !cache \|\| !anode )
	return FT_THROW( Invalid_Argument );

	/* Go to the `top' node of the list sharing same masked hash */
	bucket = pnode = FTC_NODE_TOP_FOR_HASH( cache, hash );

	/* Lookup a node with exactly same hash and queried properties. */
	/* NOTE: _nodcomp() may change the linked list to reduce memory. */
	for (;;)
	{
	node = *pnode;
	if ( !node )
	goto NewNode;

	if ( node->hash == hash &&
	compare( node, query, cache, &list_changed ) )
	break;

	pnode = &node->link;
	}

	if ( list_changed )
	{
	/* Update bucket by modified linked list */
	bucket = pnode = FTC_NODE_TOP_FOR_HASH( cache, hash );

	/* Update pnode by modified linked list */
	while ( *pnode != node )
	{
	if ( !*pnode )
	{
	FT_ERROR(( "FTC_Cache_Lookup: oops!!! node missing\n" ));
	goto NewNode;
	}
	else
	pnode = &((*pnode)->link);
	}
	}

	/* Reorder the list to move the found node to the `top' */
	if ( node != *bucket )
	{
	*pnode = node->link;
	node->link = *bucket;
	*bucket = node;
	}

	/* move to head of MRU list */
	{
	FTC_Manager manager = cache->manager;


	if ( node != manager->nodes_list )
	ftc_node_mru_up( node, manager );
	}
	*anode = node;

	return error;

	NewNode:
	return FTC_Cache_NewNode( cache, hash, query, anode );
	}

	#endif /* !FTC_INLINE */


	FT_LOCAL_DEF( void )
	FTC_Cache_RemoveFaceID( FTC_Cache cache,
	FTC_FaceID face_id )
	{
	FT_UFast i, count;
	FTC_Manager manager = cache->manager;
	FTC_Node frees = NULL;


	count = cache->p + cache->mask + 1;
	for ( i = 0; i < count; i++ )
	{
	FTC_Node* bucket = cache->buckets + i;
	FTC_Node* pnode = bucket;


	for (;;)
	{
	FTC_Node node = *pnode;
	FT_Bool list_changed = FALSE;


	if ( !node )
	break;

	if ( cache->clazz.node_remove_faceid( node, face_id,
	cache, &list_changed ) )
	{
	*pnode = node->link;
	node->link = frees;
	frees = node;
	}
	else
	pnode = &node->link;
	}
	}

	/* remove all nodes in the free list */
	while ( frees )
	{
	FTC_Node node;


	node = frees;
	frees = node->link;

	manager->cur_weight -= cache->clazz.node_weight( node, cache );
	ftc_node_mru_unlink( node, manager );

	cache->clazz.node_free( node, cache );

	cache->slack++;
	}

	ftc_cache_resize( cache );
	}


	/* END */