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yap-6.3/library/rltree/range_list.h

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/*******************************************************************************************
Copyright (C) 2004,2005,2006,2007,2008 (Nuno A. Fonseca) <nuno.fonseca@gmail.com>
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later
version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
Last rev: $Id: range_list.h,v 1.1 2008-03-26 23:05:22 nunofonseca Exp $
**************************************************************************/
/*
Leaf
Each leaf uses 16 bits ( each bit represents one number )
*/
#define NUM unsigned long
/*
Node
Each node (non leaf) uses 8 bits.
- 8 bits are used to represent the state of the 4 subtrees ( subranges ).
- 2 bits are used to represent the state for each subtreee
States of a subtree:
00 (0) - range not in interval
11 (3)- all range in interval
10 (2)- range parcially in interval
An extra byte is used to keep the number of nodes in the subtrees.
*/
struct s_node {
//short quadrant;
unsigned short int quadrant_1: 2; //
unsigned short int quadrant_2: 2;
unsigned short int quadrant_3: 2;
unsigned short int quadrant_4: 2;
unsigned short int num_subnodes: 8;
};
typedef enum { R_TOTALLY_IN_INTERVAL=3, R_PARCIALLY_IN_INTERVAL=2, R_NOT_IN_INTERVAL=0, R_IGNORE=1} QUADRANT_STATUS;
#define BRANCH_FACTOR 4 /* factor of division of the range */
#define LEAF_SIZE 16 /* how many numbers are represented by a leaf */
#define NODE_SIZE sizeof(RL_Node)
#define NODE(tree,idx) (RL_Node*)&tree->root[idx]
#define ROOT(tree) 0
#define IS_ROOT(tree,interval) (tree->range_max<=interval)
#define ROOT_INTERVAL(tree) (tree->root_i*BRANCH_FACTOR)
#define MIN(a,b) ((a<b)?a:b)
#define ON_BITS(n) (active_bits[n-1]) // mask to check if bits until n are in
#define SET_LEAF_IN(max,node,quad_i) (node.leaf=ON_BITS(max-quad_i+1)) // mask to check if bits until n are in
#define LEAF_ALL_IN(leaf) (leaf==65535) // return true if all numbers in leaf are IN (selected)
#define LEAF_ALL_OUT(leaf) (leaf==0) // return true if all numbers in leaf are OUT
#define ALL_OUT(n) memset(n,0,NODE_SIZE) // turn out a node
#define ALL_IN(n) memset(n,32767,NODE_SIZE) // turn in a leaf
#define INODE_CAPACITY (LEAF_SIZE*BRANCH_FACTOR) // minimum range that a inode stores
// returns the maximum number that a quadrant stores
#define QUADRANT_MAX_VALUE(node_num,quadrant,quadrant_interval,max) (MIN(node_num+quadrant_interval*quadrant-1,max))
// returns the interval size for the next level in the tree
#define NEXT_INTERVAL(interval) ((interval<=LEAF_SIZE*BRANCH_FACTOR)?LEAF_SIZE:interval/BRANCH_FACTOR+interval%BRANCH_FACTOR)
#define IS_LEAF(interval) ((interval<=LEAF_SIZE)?1:0) // check if a interval of type Leaf
#define LAST_LEVEL_INODE(interval) ((interval<=LEAF_SIZE*BRANCH_FACTOR && interval>LEAF_SIZE)?1:0)
#define REALLOC_MEM(tree) (tree->mem_alloc < (tree->size+1)*NODE_SIZE)
#define MEM_SIZE(tree) (tree->size+2)*NODE_SIZE
#define TREE_SIZE(tree) tree->mem_alloc+sizeof(RL_Tree)
typedef union {
struct s_node i_node;
unsigned short int leaf;
} RL_Node; /* A node is a internal node (inode) or a leaf depending on their depth in the tree */
/*
Range_List
Contains the root node, max range size,
*/
struct rl_struct {
RL_Node* root;
NUM size; // number of nodes
NUM mem_alloc; // memory allocated for *root
NUM range_max; // maximum value of the interval
NUM root_i; // root interval
};
typedef struct rl_struct RL_Tree;
/* Buffer */
struct s_buffer {
RL_Node* root_node;
unsigned long size; // memory (in bytes) allocated for root_node
};
typedef struct s_buffer RL_Buffer;
//----------------------------------------------------------------
// Bits operations
#define BITMAP_empty(b) ((b) == 0)
#define BITMAP_member(b,n) (((b) & (1<<(n))) != 0)
#define BITMAP_alone(b,n) ((b) == (1<<(n)))
#define BITMAP_subset(b1,b2) (((b1) & (b2)) == b2)
#define BITMAP_same(b1,b2) ((b1) == (b2))
#define BITMAP_on_all(b) ((b) = 255)
#define BITMAP_clear(b) ((b) = 0)
#define BITMAP_and(b1,b2) ((b1) &= (b2))
#define BITMAP_minus(b1,b2) ((b1) &= ~(b2))
#define BITMAP_insert(b,n) ((b) |= (1<<(n)))
#define BITMAP_delete(b,n) ((b) &= (~(1<<(n))))
#define BITMAP_copy(b1,b2) ((b1) = (b2))
#define BITMAP_intersection(b1,b2,b3) ((b1) = ((b2) & (b3)))
#define BITMAP_difference(b1,b2,b3) ((b1) = ((b2) & (~(b3))))
#
//----------------------------------------------------------------
typedef enum { TRUE=1, FALSE=0} BOOLEAN;
typedef enum { IN=1, OUT=0} STATUS;
//
#define BUFFER_SIZE 1000
/* ********************************************************************************** */
/* API */
RL_Tree* new_rl(NUM max_size);
RL_Tree* copy_rl(RL_Tree *tree);
void free_rl(RL_Tree* range);
void rl_all(RL_Tree* tree,STATUS status);
void display_tree(RL_Tree *tree);
RL_Tree* set_in_rl(RL_Tree* tree,NUM number,STATUS status);
BOOLEAN in_rl(RL_Tree* range,NUM number);
BOOLEAN freeze_rl(RL_Tree* tree); /* write operations on the range are finishe */
RL_Tree* intersect_rl(RL_Tree* range1,RL_Tree* range2);
NUM rl_next_in_bigger(RL_Tree *tree,NUM min); /* Returns next number in tree bigger than min */
#define IS_FREEZED(tree) (tree->mem_alloc!=0)
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