axmol/chipmunk/src/cpSpaceHash.c

/* Copyright (c) 2007 Scott Lembcke
 * 
 * Permission is hereby granted, free of charge, to any person obtaining a copy
 * of this software and associated documentation files (the "Software"), to deal
 * in the Software without restriction, including without limitation the rights
 * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
 * copies of the Software, and to permit persons to whom the Software is
 * furnished to do so, subject to the following conditions:
 * 
 * The above copyright notice and this permission notice shall be included in
 * all copies or substantial portions of the Software.
 * 
 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
 * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
 * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
 * SOFTWARE.
 */

#include <math.h>
#include <stdlib.h>
#include <stdio.h>

#include "chipmunk.h"
#include "prime.h"

static cpHandle*
cpHandleInit(cpHandle *hand, void *obj)
{
	hand->obj = obj;
	hand->retain = 0;
	hand->stamp = 0;
	
	return hand;
}

static inline void
cpHandleRetain(cpHandle *hand)
{
	hand->retain++;
}

static inline void
cpHandleRelease(cpHandle *hand, cpArray *pooledHandles)
{
	hand->retain--;
	if(hand->retain == 0) cpArrayPush(pooledHandles, hand);
}

cpSpaceHash*
cpSpaceHashAlloc(void)
{
	return (cpSpaceHash *)cpcalloc(1, sizeof(cpSpaceHash));
}

// Frees the old table, and allocates a new one.
static void
cpSpaceHashAllocTable(cpSpaceHash *hash, int numcells)
{
	cpfree(hash->table);
	
	hash->numcells = numcells;
	hash->table = (cpSpaceHashBin **)cpcalloc(numcells, sizeof(cpSpaceHashBin *));
}

// Equality function for the handleset.
static int
handleSetEql(void *obj, void *elt)
{
	cpHandle *hand = (cpHandle *)elt;
	return (obj == hand->obj);
}

// Transformation function for the handleset.
static void *
handleSetTrans(void *obj, cpSpaceHash *hash)
{
	if(hash->pooledHandles->num == 0){
		// handle pool is exhausted, make more
		int count = CP_BUFFER_BYTES/sizeof(cpHandle);
		cpAssert(count, "Buffer size is too small.");
		
		cpHandle *buffer = (cpHandle *)cpmalloc(CP_BUFFER_BYTES);
		cpArrayPush(hash->allocatedBuffers, buffer);
		
		for(int i=0; i<count; i++) cpArrayPush(hash->pooledHandles, buffer + i);
	}
	
	cpHandle *hand = cpHandleInit((cpHandle *) cpArrayPop(hash->pooledHandles), obj);
	cpHandleRetain(hand);
	
	return hand;
}

cpSpaceHash*
cpSpaceHashInit(cpSpaceHash *hash, cpFloat celldim, int numcells, cpSpaceHashBBFunc bbfunc)
{
	cpSpaceHashAllocTable(hash, next_prime(numcells));
	hash->celldim = celldim;
	hash->bbfunc = bbfunc;
	
	hash->handleSet = cpHashSetNew(0, handleSetEql, (cpHashSetTransFunc)handleSetTrans);
	hash->pooledHandles = cpArrayNew(0);
	
	hash->pooledBins = NULL;
	hash->allocatedBuffers = cpArrayNew(0);
	
	hash->stamp = 1;
	
	return hash;
}

cpSpaceHash*
cpSpaceHashNew(cpFloat celldim, int cells, cpSpaceHashBBFunc bbfunc)
{
	return cpSpaceHashInit(cpSpaceHashAlloc(), celldim, cells, bbfunc);
}

static inline void
recycleBin(cpSpaceHash *hash, cpSpaceHashBin *bin)
{
	bin->next = hash->pooledBins;
	hash->pooledBins = bin;
}

static inline void
clearHashCell(cpSpaceHash *hash, int idx)
{
	cpSpaceHashBin *bin = hash->table[idx];
	while(bin){
		cpSpaceHashBin *next = bin->next;
		
		// Release the lock on the handle.
		cpHandleRelease(bin->handle, hash->pooledHandles);
		recycleBin(hash, bin);
		
		bin = next;
	}
	
	hash->table[idx] = NULL;
}

// Clear all cells in the hashtable.
static void
clearHash(cpSpaceHash *hash)
{
	for(int i=0; i<hash->numcells; i++)
		clearHashCell(hash, i);
}

static void freeWrap(void *ptr, void *unused){cpfree(ptr);}

void
cpSpaceHashDestroy(cpSpaceHash *hash)
{
	clearHash(hash);
	
	cpHashSetFree(hash->handleSet);
	
	cpArrayEach(hash->allocatedBuffers, freeWrap, NULL);
	cpArrayFree(hash->allocatedBuffers);
	cpArrayFree(hash->pooledHandles);
	
	cpfree(hash->table);
}

void
cpSpaceHashFree(cpSpaceHash *hash)
{
	if(hash){
		cpSpaceHashDestroy(hash);
		cpfree(hash);
	}
}

void
cpSpaceHashResize(cpSpaceHash *hash, cpFloat celldim, int numcells)
{
	// Clear the hash to release the old handle locks.
	clearHash(hash);
	
	hash->celldim = celldim;
	cpSpaceHashAllocTable(hash, next_prime(numcells));
}

// Return true if the chain contains the handle.
static inline int
containsHandle(cpSpaceHashBin *bin, cpHandle *hand)
{
	while(bin){
		if(bin->handle == hand) return 1;
		bin = bin->next;
	}
	
	return 0;
}

// Get a recycled or new bin.
static inline cpSpaceHashBin *
getEmptyBin(cpSpaceHash *hash)
{
	cpSpaceHashBin *bin = hash->pooledBins;
	
	if(bin){
		hash->pooledBins = bin->next;
		return bin;
	} else {
		// Pool is exhausted, make more
		int count = CP_BUFFER_BYTES/sizeof(cpSpaceHashBin);
		cpAssert(count, "Buffer size is too small.");
		
		cpSpaceHashBin *buffer = (cpSpaceHashBin *)cpmalloc(CP_BUFFER_BYTES);
		cpArrayPush(hash->allocatedBuffers, buffer);
		
		// push all but the first one, return the first instead
		for(int i=1; i<count; i++) recycleBin(hash, buffer + i);
		return buffer;
	}
}

// The hash function itself.
static inline cpHashValue
hash_func(cpHashValue x, cpHashValue y, cpHashValue n)
{
	return (x*1640531513ul ^ y*2654435789ul) % n;
}

// Much faster than (int)floor(f)
// Profiling showed floor() to be a sizable performance hog
static inline int
floor_int(cpFloat f)
{
	int i = (int)f;
	return (f < 0.0f && f != i ? i - 1 : i);
}

static inline void
hashHandle(cpSpaceHash *hash, cpHandle *hand, cpBB bb)
{
	// Find the dimensions in cell coordinates.
	cpFloat dim = hash->celldim;
	int l = floor_int(bb.l/dim); // Fix by ShiftZ
	int r = floor_int(bb.r/dim);
	int b = floor_int(bb.b/dim);
	int t = floor_int(bb.t/dim);
	
	int n = hash->numcells;
	for(int i=l; i<=r; i++){
		for(int j=b; j<=t; j++){
			int idx = hash_func(i,j,n);
			cpSpaceHashBin *bin = hash->table[idx];
			
			// Don't add an object twice to the same cell.
			if(containsHandle(bin, hand)) continue;

			cpHandleRetain(hand);
			// Insert a new bin for the handle in this cell.
			cpSpaceHashBin *newBin = getEmptyBin(hash);
			newBin->handle = hand;
			newBin->next = bin;
			hash->table[idx] = newBin;
		}
	}
}

void
cpSpaceHashInsert(cpSpaceHash *hash, void *obj, cpHashValue hashid, cpBB bb)
{
	cpHandle *hand = (cpHandle *)cpHashSetInsert(hash->handleSet, hashid, obj, hash);
	hashHandle(hash, hand, bb);
}

void
cpSpaceHashRehashObject(cpSpaceHash *hash, void *obj, cpHashValue hashid)
{
	cpHandle *hand = (cpHandle *)cpHashSetFind(hash->handleSet, hashid, obj);
	hashHandle(hash, hand, hash->bbfunc(obj));
}

// Hashset iterator function for rehashing the spatial hash. (hash hash hash hash?)
static void
handleRehashHelper(void *elt, void *data)
{
	cpHandle *hand = (cpHandle *)elt;
	cpSpaceHash *hash = (cpSpaceHash *)data;
	
	hashHandle(hash, hand, hash->bbfunc(hand->obj));
}

void
cpSpaceHashRehash(cpSpaceHash *hash)
{
	clearHash(hash);
	
	// Rehash all of the handles.
	cpHashSetEach(hash->handleSet, &handleRehashHelper, hash);
}

void
cpSpaceHashRemove(cpSpaceHash *hash, void *obj, cpHashValue hashid)
{
	cpHandle *hand = (cpHandle *)cpHashSetRemove(hash->handleSet, hashid, obj);
	
	if(hand){
		hand->obj = NULL;
		cpHandleRelease(hand, hash->pooledHandles);
	}
}

// Used by the cpSpaceHashEach() iterator.
typedef struct eachPair {
	cpSpaceHashIterator func;
	void *data;
} eachPair;

// Calls the user iterator function. (Gross I know.)
static void
eachHelper(void *elt, void *data)
{
	cpHandle *hand = (cpHandle *)elt;
	eachPair *pair = (eachPair *)data;
	
	pair->func(hand->obj, pair->data);
}

// Iterate over the objects in the spatial hash.
void
cpSpaceHashEach(cpSpaceHash *hash, cpSpaceHashIterator func, void *data)
{
	// Bundle the callback up to send to the hashset iterator.
	eachPair pair = {func, data};
	
	cpHashSetEach(hash->handleSet, &eachHelper, &pair);
}

// Calls the callback function for the objects in a given chain.
static inline void
query(cpSpaceHash *hash, cpSpaceHashBin *bin, void *obj, cpSpaceHashQueryFunc func, void *data)
{
	for(; bin; bin = bin->next){
		cpHandle *hand = bin->handle;
		void *other = hand->obj;
		
		// Skip over certain conditions
		if(
			// Have we already tried this pair in this query?
			hand->stamp == hash->stamp
			// Is obj the same as other?
			|| obj == other 
			// Has other been removed since the last rehash?
			|| !other
			) continue;
		
		func(obj, other, data);

		// Stamp that the handle was checked already against this object.
		hand->stamp = hash->stamp;
	}
}

void
cpSpaceHashPointQuery(cpSpaceHash *hash, cpVect point, cpSpaceHashQueryFunc func, void *data)
{
	cpFloat dim = hash->celldim;
	int idx = hash_func(floor_int(point.x/dim), floor_int(point.y/dim), hash->numcells);  // Fix by ShiftZ
	
	query(hash, hash->table[idx], &point, func, data);

	// Increment the stamp.
	// Only one cell is checked, but query() requires it anyway.
	hash->stamp++;
}

void
cpSpaceHashQuery(cpSpaceHash *hash, void *obj, cpBB bb, cpSpaceHashQueryFunc func, void *data)
{
	// Get the dimensions in cell coordinates.
	cpFloat dim = hash->celldim;
	int l = floor_int(bb.l/dim);  // Fix by ShiftZ
	int r = floor_int(bb.r/dim);
	int b = floor_int(bb.b/dim);
	int t = floor_int(bb.t/dim);
	
	int n = hash->numcells;
	
	// Iterate over the cells and query them.
	for(int i=l; i<=r; i++){
		for(int j=b; j<=t; j++){
			int idx = hash_func(i,j,n);
			query(hash, hash->table[idx], obj, func, data);
		}
	}
	
	// Increment the stamp.
	hash->stamp++;
}

// Similar to struct eachPair above.
typedef struct queryRehashPair {
	cpSpaceHash *hash;
	cpSpaceHashQueryFunc func;
	void *data;
} queryRehashPair;

// Hashset iterator func used with cpSpaceHashQueryRehash().
static void
handleQueryRehashHelper(void *elt, void *data)
{
	cpHandle *hand = (cpHandle *)elt;
	
	// Unpack the user callback data.
	queryRehashPair *pair = (queryRehashPair *)data;
	cpSpaceHash *hash = pair->hash;
	cpSpaceHashQueryFunc func = pair->func;

	cpFloat dim = hash->celldim;
	int n = hash->numcells;

	void *obj = hand->obj;
	cpBB bb = hash->bbfunc(obj);

	int l = floor_int(bb.l/dim);
	int r = floor_int(bb.r/dim);
	int b = floor_int(bb.b/dim);
	int t = floor_int(bb.t/dim);

	for(int i=l; i<=r; i++){
		for(int j=b; j<=t; j++){
//			// exit the loops if the object has been deleted in func().
//			if(!hand->obj) goto break_out;
			
			int idx = hash_func(i,j,n);
			cpSpaceHashBin *bin = hash->table[idx];
			
			if(containsHandle(bin, hand)) continue;
			
			cpHandleRetain(hand); // this MUST be done first in case the object is removed in func()
			query(hash, bin, obj, func, pair->data);
			
			cpSpaceHashBin *newBin = getEmptyBin(hash);
			newBin->handle = hand;
			newBin->next = bin;
			hash->table[idx] = newBin;
		}
	}
	
//	break_out:
	// Increment the stamp for each object we hash.
	hash->stamp++;
}

void
cpSpaceHashQueryRehash(cpSpaceHash *hash, cpSpaceHashQueryFunc func, void *data)
{
	clearHash(hash);
	
	queryRehashPair pair = {hash, func, data};
	cpHashSetEach(hash->handleSet, &handleQueryRehashHelper, &pair);
}

static inline cpFloat
segmentQuery(cpSpaceHash *hash, cpSpaceHashBin *bin, void *obj, cpSpaceHashSegmentQueryFunc func, void *data)
{
	cpFloat t = 1.0f;
	 
	for(; bin; bin = bin->next){
		cpHandle *hand = bin->handle;
		void *other = hand->obj;
		
		// Skip over certain conditions
		if(
			// Have we already tried this pair in this query?
			hand->stamp == hash->stamp
			// Has other been removed since the last rehash?
			|| !other
			) continue;
		
		// Stamp that the handle was checked already against this object.
		hand->stamp = hash->stamp;
		
		t = cpfmin(t, func(obj, other, data));
	}
	
	return t;
}

// modified from http://playtechs.blogspot.com/2007/03/raytracing-on-grid.html
void cpSpaceHashSegmentQuery(cpSpaceHash *hash, void *obj, cpVect a, cpVect b, cpFloat t_exit, cpSpaceHashSegmentQueryFunc func, void *data)
{
	a = cpvmult(a, 1.0f/hash->celldim);
	b = cpvmult(b, 1.0f/hash->celldim);
	
	cpFloat dt_dx = 1.0f/cpfabs(b.x - a.x), dt_dy = 1.0f/cpfabs(b.y - a.y);
	
	int cell_x = floor_int(a.x), cell_y = floor_int(a.y);

	cpFloat t = 0;

	int x_inc, y_inc;
	cpFloat temp_v, temp_h;

	if (b.x > a.x){
		x_inc = 1;
		temp_h = (cpffloor(a.x + 1.0f) - a.x);
	} else {
		x_inc = -1;
		temp_h = (a.x - cpffloor(a.x));
	}

	if (b.y > a.y){
		y_inc = 1;
		temp_v = (cpffloor(a.y + 1.0f) - a.y);
	} else {
		y_inc = -1;
		temp_v = (a.y - cpffloor(a.y));
	}
	
	// fix NANs in horizontal directions
	cpFloat next_h = (temp_h ? temp_h*dt_dx : dt_dx);
	cpFloat next_v = (temp_v ? temp_v*dt_dy : dt_dy);

	int n = hash->numcells;
	while(t < t_exit){
		int idx = hash_func(cell_x, cell_y, n);
		t_exit = cpfmin(t_exit, segmentQuery(hash, hash->table[idx], obj, func, data));

		if (next_v < next_h){
			cell_y += y_inc;
			t = next_v;
			next_v += dt_dy;
		} else {
			cell_x += x_inc;
			t = next_h;
			next_h += dt_dx;
		}
	}
	
	hash->stamp++;
}
fixed #124, chipmunk done! 2010-09-04 18:18:14 +08:00			`/* Copyright (c) 2007 Scott Lembcke`
			`*`
			`* Permission is hereby granted, free of charge, to any person obtaining a copy`
			`* of this software and associated documentation files (the "Software"), to deal`
			`* in the Software without restriction, including without limitation the rights`
			`* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell`
			`* copies of the Software, and to permit persons to whom the Software is`
			`* furnished to do so, subject to the following conditions:`
			`*`
			`* The above copyright notice and this permission notice shall be included in`
			`* all copies or substantial portions of the Software.`
			`*`
			`* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR`
			`* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,`
			`* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE`
			`* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER`
			`* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,`
			`* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE`
			`* SOFTWARE.`
			`*/`

			`#include <math.h>`
			`#include <stdlib.h>`
			`#include <stdio.h>`

			`#include "chipmunk.h"`
			`#include "prime.h"`

			`static cpHandle*`
			`cpHandleInit(cpHandle hand, void obj)`
			`{`
			`hand->obj = obj;`
			`hand->retain = 0;`
			`hand->stamp = 0;`

			`return hand;`
			`}`

			`static inline void`
			`cpHandleRetain(cpHandle *hand)`
			`{`
			`hand->retain++;`
			`}`

			`static inline void`
			`cpHandleRelease(cpHandle hand, cpArray pooledHandles)`
			`{`
			`hand->retain--;`
			`if(hand->retain == 0) cpArrayPush(pooledHandles, hand);`
			`}`

			`cpSpaceHash*`
			`cpSpaceHashAlloc(void)`
			`{`
			`return (cpSpaceHash *)cpcalloc(1, sizeof(cpSpaceHash));`
			`}`

			`// Frees the old table, and allocates a new one.`
			`static void`
			`cpSpaceHashAllocTable(cpSpaceHash *hash, int numcells)`
			`{`
			`cpfree(hash->table);`

			`hash->numcells = numcells;`
			`hash->table = (cpSpaceHashBin *)cpcalloc(numcells, sizeof(cpSpaceHashBin ));`
			`}`

			`// Equality function for the handleset.`
			`static int`
			`handleSetEql(void obj, void elt)`
			`{`
			`cpHandle hand = (cpHandle )elt;`
			`return (obj == hand->obj);`
			`}`

			`// Transformation function for the handleset.`
			`static void *`
			`handleSetTrans(void obj, cpSpaceHash hash)`
			`{`
			`if(hash->pooledHandles->num == 0){`
			`// handle pool is exhausted, make more`
			`int count = CP_BUFFER_BYTES/sizeof(cpHandle);`
			`cpAssert(count, "Buffer size is too small.");`

			`cpHandle buffer = (cpHandle )cpmalloc(CP_BUFFER_BYTES);`
			`cpArrayPush(hash->allocatedBuffers, buffer);`

			`for(int i=0; i<count; i++) cpArrayPush(hash->pooledHandles, buffer + i);`
			`}`

			`cpHandle hand = cpHandleInit((cpHandle ) cpArrayPop(hash->pooledHandles), obj);`
			`cpHandleRetain(hand);`

			`return hand;`
			`}`

			`cpSpaceHash*`
			`cpSpaceHashInit(cpSpaceHash *hash, cpFloat celldim, int numcells, cpSpaceHashBBFunc bbfunc)`
			`{`
			`cpSpaceHashAllocTable(hash, next_prime(numcells));`
			`hash->celldim = celldim;`
			`hash->bbfunc = bbfunc;`

			`hash->handleSet = cpHashSetNew(0, handleSetEql, (cpHashSetTransFunc)handleSetTrans);`
			`hash->pooledHandles = cpArrayNew(0);`

			`hash->pooledBins = NULL;`
			`hash->allocatedBuffers = cpArrayNew(0);`

			`hash->stamp = 1;`

			`return hash;`
			`}`

			`cpSpaceHash*`
			`cpSpaceHashNew(cpFloat celldim, int cells, cpSpaceHashBBFunc bbfunc)`
			`{`
			`return cpSpaceHashInit(cpSpaceHashAlloc(), celldim, cells, bbfunc);`
			`}`

			`static inline void`
			`recycleBin(cpSpaceHash hash, cpSpaceHashBin bin)`
			`{`
			`bin->next = hash->pooledBins;`
			`hash->pooledBins = bin;`
			`}`

			`static inline void`
			`clearHashCell(cpSpaceHash *hash, int idx)`
			`{`
			`cpSpaceHashBin *bin = hash->table[idx];`
			`while(bin){`
			`cpSpaceHashBin *next = bin->next;`

			`// Release the lock on the handle.`
			`cpHandleRelease(bin->handle, hash->pooledHandles);`
			`recycleBin(hash, bin);`

			`bin = next;`
			`}`

			`hash->table[idx] = NULL;`
			`}`

			`// Clear all cells in the hashtable.`
			`static void`
			`clearHash(cpSpaceHash *hash)`
			`{`
			`for(int i=0; i<hash->numcells; i++)`
			`clearHashCell(hash, i);`
			`}`

			`static void freeWrap(void ptr, void unused){cpfree(ptr);}`

			`void`
			`cpSpaceHashDestroy(cpSpaceHash *hash)`
			`{`
			`clearHash(hash);`

			`cpHashSetFree(hash->handleSet);`

			`cpArrayEach(hash->allocatedBuffers, freeWrap, NULL);`
			`cpArrayFree(hash->allocatedBuffers);`
			`cpArrayFree(hash->pooledHandles);`

			`cpfree(hash->table);`
			`}`

			`void`
			`cpSpaceHashFree(cpSpaceHash *hash)`
			`{`
			`if(hash){`
			`cpSpaceHashDestroy(hash);`
			`cpfree(hash);`
			`}`
			`}`

			`void`
			`cpSpaceHashResize(cpSpaceHash *hash, cpFloat celldim, int numcells)`
			`{`
			`// Clear the hash to release the old handle locks.`
			`clearHash(hash);`

			`hash->celldim = celldim;`
			`cpSpaceHashAllocTable(hash, next_prime(numcells));`
			`}`

			`// Return true if the chain contains the handle.`
			`static inline int`
			`containsHandle(cpSpaceHashBin bin, cpHandle hand)`
			`{`
			`while(bin){`
			`if(bin->handle == hand) return 1;`
			`bin = bin->next;`
			`}`

			`return 0;`
			`}`

			`// Get a recycled or new bin.`
			`static inline cpSpaceHashBin *`
			`getEmptyBin(cpSpaceHash *hash)`
			`{`
			`cpSpaceHashBin *bin = hash->pooledBins;`

			`if(bin){`
			`hash->pooledBins = bin->next;`
			`return bin;`
			`} else {`
			`// Pool is exhausted, make more`
			`int count = CP_BUFFER_BYTES/sizeof(cpSpaceHashBin);`
			`cpAssert(count, "Buffer size is too small.");`

			`cpSpaceHashBin buffer = (cpSpaceHashBin )cpmalloc(CP_BUFFER_BYTES);`
			`cpArrayPush(hash->allocatedBuffers, buffer);`

			`// push all but the first one, return the first instead`
			`for(int i=1; i<count; i++) recycleBin(hash, buffer + i);`
			`return buffer;`
			`}`
			`}`

			`// The hash function itself.`
			`static inline cpHashValue`
			`hash_func(cpHashValue x, cpHashValue y, cpHashValue n)`
			`{`
			`return (x1640531513ul ^ y2654435789ul) % n;`
			`}`

			`// Much faster than (int)floor(f)`
			`// Profiling showed floor() to be a sizable performance hog`
			`static inline int`
			`floor_int(cpFloat f)`
			`{`
			`int i = (int)f;`
			`return (f < 0.0f && f != i ? i - 1 : i);`
			`}`

			`static inline void`
			`hashHandle(cpSpaceHash hash, cpHandle hand, cpBB bb)`
			`{`
			`// Find the dimensions in cell coordinates.`
			`cpFloat dim = hash->celldim;`
			`int l = floor_int(bb.l/dim); // Fix by ShiftZ`
			`int r = floor_int(bb.r/dim);`
			`int b = floor_int(bb.b/dim);`
			`int t = floor_int(bb.t/dim);`

			`int n = hash->numcells;`
			`for(int i=l; i<=r; i++){`
			`for(int j=b; j<=t; j++){`
			`int idx = hash_func(i,j,n);`
			`cpSpaceHashBin *bin = hash->table[idx];`

			`// Don't add an object twice to the same cell.`
			`if(containsHandle(bin, hand)) continue;`

			`cpHandleRetain(hand);`
			`// Insert a new bin for the handle in this cell.`
			`cpSpaceHashBin *newBin = getEmptyBin(hash);`
			`newBin->handle = hand;`
			`newBin->next = bin;`
			`hash->table[idx] = newBin;`
			`}`
			`}`
			`}`

			`void`
			`cpSpaceHashInsert(cpSpaceHash hash, void obj, cpHashValue hashid, cpBB bb)`
			`{`
			`cpHandle hand = (cpHandle )cpHashSetInsert(hash->handleSet, hashid, obj, hash);`
			`hashHandle(hash, hand, bb);`
			`}`

			`void`
			`cpSpaceHashRehashObject(cpSpaceHash hash, void obj, cpHashValue hashid)`
			`{`
			`cpHandle hand = (cpHandle )cpHashSetFind(hash->handleSet, hashid, obj);`
			`hashHandle(hash, hand, hash->bbfunc(obj));`
			`}`

			`// Hashset iterator function for rehashing the spatial hash. (hash hash hash hash?)`
			`static void`
			`handleRehashHelper(void elt, void data)`
			`{`
			`cpHandle hand = (cpHandle )elt;`
			`cpSpaceHash hash = (cpSpaceHash )data;`

			`hashHandle(hash, hand, hash->bbfunc(hand->obj));`
			`}`

			`void`
			`cpSpaceHashRehash(cpSpaceHash *hash)`
			`{`
			`clearHash(hash);`

			`// Rehash all of the handles.`
			`cpHashSetEach(hash->handleSet, &handleRehashHelper, hash);`
			`}`

			`void`
			`cpSpaceHashRemove(cpSpaceHash hash, void obj, cpHashValue hashid)`
			`{`
			`cpHandle hand = (cpHandle )cpHashSetRemove(hash->handleSet, hashid, obj);`

			`if(hand){`
			`hand->obj = NULL;`
			`cpHandleRelease(hand, hash->pooledHandles);`
			`}`
			`}`

			`// Used by the cpSpaceHashEach() iterator.`
			`typedef struct eachPair {`
			`cpSpaceHashIterator func;`
			`void *data;`
			`} eachPair;`

			`// Calls the user iterator function. (Gross I know.)`
			`static void`
			`eachHelper(void elt, void data)`
			`{`
			`cpHandle hand = (cpHandle )elt;`
			`eachPair pair = (eachPair )data;`

			`pair->func(hand->obj, pair->data);`
			`}`

			`// Iterate over the objects in the spatial hash.`
			`void`
			`cpSpaceHashEach(cpSpaceHash hash, cpSpaceHashIterator func, void data)`
			`{`
			`// Bundle the callback up to send to the hashset iterator.`
			`eachPair pair = {func, data};`

			`cpHashSetEach(hash->handleSet, &eachHelper, &pair);`
			`}`

			`// Calls the callback function for the objects in a given chain.`
			`static inline void`
			`query(cpSpaceHash hash, cpSpaceHashBin bin, void obj, cpSpaceHashQueryFunc func, void data)`
			`{`
			`for(; bin; bin = bin->next){`
			`cpHandle *hand = bin->handle;`
			`void *other = hand->obj;`

			`// Skip over certain conditions`
			`if(`
			`// Have we already tried this pair in this query?`
			`hand->stamp == hash->stamp`
			`// Is obj the same as other?`
			`\|\| obj == other`
			`// Has other been removed since the last rehash?`
			`\|\| !other`
			`) continue;`

			`func(obj, other, data);`

			`// Stamp that the handle was checked already against this object.`
			`hand->stamp = hash->stamp;`
			`}`
			`}`

			`void`
			`cpSpaceHashPointQuery(cpSpaceHash hash, cpVect point, cpSpaceHashQueryFunc func, void data)`
			`{`
			`cpFloat dim = hash->celldim;`
			`int idx = hash_func(floor_int(point.x/dim), floor_int(point.y/dim), hash->numcells); // Fix by ShiftZ`

			`query(hash, hash->table[idx], &point, func, data);`

			`// Increment the stamp.`
			`// Only one cell is checked, but query() requires it anyway.`
			`hash->stamp++;`
			`}`

			`void`
			`cpSpaceHashQuery(cpSpaceHash hash, void obj, cpBB bb, cpSpaceHashQueryFunc func, void *data)`
			`{`
			`// Get the dimensions in cell coordinates.`
			`cpFloat dim = hash->celldim;`
			`int l = floor_int(bb.l/dim); // Fix by ShiftZ`
			`int r = floor_int(bb.r/dim);`
			`int b = floor_int(bb.b/dim);`
			`int t = floor_int(bb.t/dim);`

			`int n = hash->numcells;`

			`// Iterate over the cells and query them.`
			`for(int i=l; i<=r; i++){`
			`for(int j=b; j<=t; j++){`
			`int idx = hash_func(i,j,n);`
			`query(hash, hash->table[idx], obj, func, data);`
			`}`
			`}`

			`// Increment the stamp.`
			`hash->stamp++;`
			`}`

			`// Similar to struct eachPair above.`
			`typedef struct queryRehashPair {`
			`cpSpaceHash *hash;`
			`cpSpaceHashQueryFunc func;`
			`void *data;`
			`} queryRehashPair;`

			`// Hashset iterator func used with cpSpaceHashQueryRehash().`
			`static void`
			`handleQueryRehashHelper(void elt, void data)`
			`{`
			`cpHandle hand = (cpHandle )elt;`

			`// Unpack the user callback data.`
			`queryRehashPair pair = (queryRehashPair )data;`
			`cpSpaceHash *hash = pair->hash;`
			`cpSpaceHashQueryFunc func = pair->func;`

			`cpFloat dim = hash->celldim;`
			`int n = hash->numcells;`

			`void *obj = hand->obj;`
			`cpBB bb = hash->bbfunc(obj);`

			`int l = floor_int(bb.l/dim);`
			`int r = floor_int(bb.r/dim);`
			`int b = floor_int(bb.b/dim);`
			`int t = floor_int(bb.t/dim);`

			`for(int i=l; i<=r; i++){`
			`for(int j=b; j<=t; j++){`
			`// // exit the loops if the object has been deleted in func().`
			`// if(!hand->obj) goto break_out;`

			`int idx = hash_func(i,j,n);`
			`cpSpaceHashBin *bin = hash->table[idx];`

			`if(containsHandle(bin, hand)) continue;`

			`cpHandleRetain(hand); // this MUST be done first in case the object is removed in func()`
			`query(hash, bin, obj, func, pair->data);`

			`cpSpaceHashBin *newBin = getEmptyBin(hash);`
			`newBin->handle = hand;`
			`newBin->next = bin;`
			`hash->table[idx] = newBin;`
			`}`
			`}`

			`// break_out:`
			`// Increment the stamp for each object we hash.`
			`hash->stamp++;`
			`}`

			`void`
			`cpSpaceHashQueryRehash(cpSpaceHash hash, cpSpaceHashQueryFunc func, void data)`
			`{`
			`clearHash(hash);`

			`queryRehashPair pair = {hash, func, data};`
			`cpHashSetEach(hash->handleSet, &handleQueryRehashHelper, &pair);`
			`}`

			`static inline cpFloat`
			`segmentQuery(cpSpaceHash hash, cpSpaceHashBin bin, void obj, cpSpaceHashSegmentQueryFunc func, void data)`
			`{`
			`cpFloat t = 1.0f;`

			`for(; bin; bin = bin->next){`
			`cpHandle *hand = bin->handle;`
			`void *other = hand->obj;`

			`// Skip over certain conditions`
			`if(`
			`// Have we already tried this pair in this query?`
			`hand->stamp == hash->stamp`
			`// Has other been removed since the last rehash?`
			`\|\| !other`
			`) continue;`

			`// Stamp that the handle was checked already against this object.`
			`hand->stamp = hash->stamp;`

			`t = cpfmin(t, func(obj, other, data));`
			`}`

			`return t;`
			`}`

			`// modified from http://playtechs.blogspot.com/2007/03/raytracing-on-grid.html`
			`void cpSpaceHashSegmentQuery(cpSpaceHash hash, void obj, cpVect a, cpVect b, cpFloat t_exit, cpSpaceHashSegmentQueryFunc func, void *data)`
			`{`
			`a = cpvmult(a, 1.0f/hash->celldim);`
			`b = cpvmult(b, 1.0f/hash->celldim);`

			`cpFloat dt_dx = 1.0f/cpfabs(b.x - a.x), dt_dy = 1.0f/cpfabs(b.y - a.y);`

			`int cell_x = floor_int(a.x), cell_y = floor_int(a.y);`

			`cpFloat t = 0;`

			`int x_inc, y_inc;`
			`cpFloat temp_v, temp_h;`

			`if (b.x > a.x){`
			`x_inc = 1;`
			`temp_h = (cpffloor(a.x + 1.0f) - a.x);`
			`} else {`
			`x_inc = -1;`
			`temp_h = (a.x - cpffloor(a.x));`
			`}`

			`if (b.y > a.y){`
			`y_inc = 1;`
			`temp_v = (cpffloor(a.y + 1.0f) - a.y);`
			`} else {`
			`y_inc = -1;`
			`temp_v = (a.y - cpffloor(a.y));`
			`}`

			`// fix NANs in horizontal directions`
			`cpFloat next_h = (temp_h ? temp_h*dt_dx : dt_dx);`
			`cpFloat next_v = (temp_v ? temp_v*dt_dy : dt_dy);`

			`int n = hash->numcells;`
			`while(t < t_exit){`
			`int idx = hash_func(cell_x, cell_y, n);`
			`t_exit = cpfmin(t_exit, segmentQuery(hash, hash->table[idx], obj, func, data));`

			`if (next_v < next_h){`
			`cell_y += y_inc;`
			`t = next_v;`
			`next_v += dt_dy;`
			`} else {`
			`cell_x += x_inc;`
			`t = next_h;`
			`next_h += dt_dx;`
			`}`
			`}`

			`hash->stamp++;`
			`}`