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authorshennetsind <shennetsind@54d463be-8e91-2dee-dedb-b68131a5f0ec>2012-11-20 06:47:21 +0000
committershennetsind <shennetsind@54d463be-8e91-2dee-dedb-b68131a5f0ec>2012-11-20 06:47:21 +0000
commit8d2915e84febf9e6330fee9bb6c8706d0c16fd3f (patch)
treec3b14726b0f4ee55e43e867f31dc7206ced7c099 /src/map
parent390e680403d1db2ee33c29e260560a12d4351e9d (diff)
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122 diffs. map_foreachin<everything> syntax clean up.
git-svn-id: https://rathena.svn.sourceforge.net/svnroot/rathena/trunk@16933 54d463be-8e91-2dee-dedb-b68131a5f0ec
Diffstat (limited to 'src/map')
-rw-r--r--src/map/map.c676
1 files changed, 322 insertions, 354 deletions
diff --git a/src/map/map.c b/src/map/map.c
index 595233e8c..8ff84ed1a 100644
--- a/src/map/map.c
+++ b/src/map/map.c
@@ -534,59 +534,57 @@ struct skill_unit* map_find_skill_unit_oncell(struct block_list* target,int x,in
*------------------------------------------*/
int map_foreachinrange(int (*func)(struct block_list*,va_list), struct block_list* center, int range, int type, ...)
{
- int bx,by,m;
- int returnCount =0; //total sum of returned values of func() [Skotlex]
+ int bx, by, m;
+ int returnCount = 0; //total sum of returned values of func() [Skotlex]
struct block_list *bl;
- int blockcount=bl_list_count,i;
- int x0,x1,y0,y1;
+ int blockcount = bl_list_count, i;
+ int x0, x1, y0, y1;
+ va_list ap;
m = center->m;
- x0 = max(center->x-range, 0);
- y0 = max(center->y-range, 0);
- x1 = min(center->x+range, map[m].xs-1);
- y1 = min(center->y+range, map[m].ys-1);
-
- if (type&~BL_MOB)
- for (by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++) {
- for(bx = x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++) {
- for( bl = map[m].block[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- {
+ x0 = max(center->x - range, 0);
+ y0 = max(center->y - range, 0);
+ x1 = min(center->x + range, map[ m ].xs - 1);
+ y1 = min(center->y + range, map[ m ].ys - 1);
+
+ if ( type&~BL_MOB )
+ for ( by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++ ) {
+ for( bx = x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++ ) {
+ for( bl = map[m].block[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next ) {
if( bl->type&type
- && bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1
+ && bl->x >= x0 && bl->x <= x1 && bl->y >= y0 && bl->y <= y1
#ifdef CIRCULAR_AREA
&& check_distance_bl(center, bl, range)
#endif
- && bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
+ && bl_list_count < BL_LIST_MAX )
+ bl_list[ bl_list_count++ ] = bl;
}
}
}
- if(type&BL_MOB)
- for(by=y0/BLOCK_SIZE;by<=y1/BLOCK_SIZE;by++){
- for(bx=x0/BLOCK_SIZE;bx<=x1/BLOCK_SIZE;bx++){
- for( bl = map[m].block_mob[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- {
- if( bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1
+
+ if( type&BL_MOB )
+ for( by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++ ) {
+ for(bx=x0/BLOCK_SIZE;bx<=x1/BLOCK_SIZE;bx++) {
+ for( bl = map[ m ].block_mob[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next ) {
+ if( bl->x >= x0 && bl->x <= x1 && bl->y >= y0 && bl->y <= y1
#ifdef CIRCULAR_AREA
&& check_distance_bl(center, bl, range)
#endif
- && bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
+ && bl_list_count < BL_LIST_MAX )
+ bl_list[ bl_list_count++ ] = bl;
}
}
}
- if(bl_list_count>=BL_LIST_MAX)
+ if( bl_list_count >= BL_LIST_MAX )
ShowWarning("map_foreachinrange: block count too many!\n");
map_freeblock_lock();
- for(i=blockcount;i<bl_list_count;i++)
- if(bl_list[i]->prev) //apply on all targets listed
- {
- va_list ap;
+ for( i = blockcount; i < bl_list_count; i++ )
+ if( bl_list[ i ]->prev ) { //func() may delete this bl_list[] slot, checking for prev ensures it wasnt queued for deletion.
va_start(ap, type);
- returnCount += func(bl_list[i], ap);
+ returnCount += func(bl_list[ i ], ap);
va_end(ap);
}
@@ -601,14 +599,15 @@ int map_foreachinrange(int (*func)(struct block_list*,va_list), struct block_lis
*------------------------------------------*/
int map_foreachinshootrange(int (*func)(struct block_list*,va_list),struct block_list* center, int range, int type,...)
{
- int bx,by,m;
- int returnCount =0; //total sum of returned values of func() [Skotlex]
+ int bx, by, m;
+ int returnCount = 0; //total sum of returned values of func() [Skotlex]
struct block_list *bl;
- int blockcount=bl_list_count,i;
- int x0,x1,y0,y1;
-
+ int blockcount = bl_list_count, i;
+ int x0, x1, y0, y1;
+ va_list ap;
+
m = center->m;
- if (m < 0)
+ if ( m < 0 )
return 0;
x0 = max(center->x-range, 0);
@@ -616,49 +615,45 @@ int map_foreachinshootrange(int (*func)(struct block_list*,va_list),struct block
x1 = min(center->x+range, map[m].xs-1);
y1 = min(center->y+range, map[m].ys-1);
- if (type&~BL_MOB)
- for(by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++) {
- for(bx = x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++) {
- for( bl = map[m].block[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- {
+ if ( type&~BL_MOB )
+ for( by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++ ) {
+ for( bx = x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++ ) {
+ for( bl = map[ m ].block[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next ) {
if( bl->type&type
- && bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1
+ && bl->x >= x0 && bl->x <= x1 && bl->y >= y0 && bl->y <= y1
#ifdef CIRCULAR_AREA
&& check_distance_bl(center, bl, range)
#endif
- && path_search_long(NULL,center->m,center->x,center->y,bl->x,bl->y,CELL_CHKWALL)
- && bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
+ && path_search_long(NULL, center->m, center->x, center->y, bl->x, bl->y, CELL_CHKWALL)
+ && bl_list_count < BL_LIST_MAX )
+ bl_list[ bl_list_count++ ] = bl;
}
}
}
- if(type&BL_MOB)
- for(by=y0/BLOCK_SIZE;by<=y1/BLOCK_SIZE;by++){
- for(bx=x0/BLOCK_SIZE;bx<=x1/BLOCK_SIZE;bx++){
- for( bl = map[m].block_mob[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- {
- if( bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1
+ if( type&BL_MOB )
+ for( by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++ ) {
+ for( bx=x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++ ) {
+ for( bl = map[ m ].block_mob[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next ) {
+ if( bl->x >= x0 && bl->x <= x1 && bl->y >= y0 && bl->y <= y1
#ifdef CIRCULAR_AREA
&& check_distance_bl(center, bl, range)
#endif
- && path_search_long(NULL,center->m,center->x,center->y,bl->x,bl->y,CELL_CHKWALL)
- && bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
+ && path_search_long(NULL, center->m, center->x, center->y, bl->x, bl->y, CELL_CHKWALL)
+ && bl_list_count < BL_LIST_MAX )
+ bl_list[ bl_list_count++ ] = bl;
}
}
}
- if(bl_list_count>=BL_LIST_MAX)
+ if( bl_list_count >= BL_LIST_MAX )
ShowWarning("map_foreachinrange: block count too many!\n");
map_freeblock_lock();
- for(i=blockcount;i<bl_list_count;i++)
- if(bl_list[i]->prev)
- {
- va_list ap;
+ for( i = blockcount; i < bl_list_count; i++ )
+ if( bl_list[ i ]->prev ) { //func() may delete this bl_list[] slot, checking for prev ensures it wasnt queued for deletion.
va_start(ap, type);
- returnCount += func(bl_list[i], ap);
+ returnCount += func(bl_list[ i ], ap);
va_end(ap);
}
@@ -675,50 +670,47 @@ int map_foreachinshootrange(int (*func)(struct block_list*,va_list),struct block
*------------------------------------------*/
int map_foreachinarea(int (*func)(struct block_list*,va_list), int m, int x0, int y0, int x1, int y1, int type, ...)
{
- int bx,by;
- int returnCount =0; //total sum of returned values of func() [Skotlex]
+ int bx, by;
+ int returnCount = 0; //total sum of returned values of func() [Skotlex]
struct block_list *bl;
- int blockcount=bl_list_count,i;
-
- if (m < 0)
+ int blockcount = bl_list_count, i;
+ va_list ap;
+
+ if ( m < 0 )
return 0;
- if (x1 < x0)
- { //Swap range
+
+ if ( x1 < x0 )
swap(x0, x1);
- }
- if (y1 < y0)
- {
+ if ( y1 < y0 )
swap(y0, y1);
- }
+
x0 = max(x0, 0);
y0 = max(y0, 0);
- x1 = min(x1, map[m].xs-1);
- y1 = min(y1, map[m].ys-1);
- if (type&~BL_MOB)
- for(by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++)
- for(bx = x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++)
- for( bl = map[m].block[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- if(bl->type&type && bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1 && bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
-
- if(type&BL_MOB)
- for(by=y0/BLOCK_SIZE;by<=y1/BLOCK_SIZE;by++)
- for(bx=x0/BLOCK_SIZE;bx<=x1/BLOCK_SIZE;bx++)
- for( bl = map[m].block_mob[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- if(bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1 && bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
-
- if(bl_list_count>=BL_LIST_MAX)
+ x1 = min(x1, map[ m ].xs - 1);
+ y1 = min(y1, map[ m ].ys - 1);
+ if ( type&~BL_MOB )
+ for( by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++ )
+ for( bx = x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++ )
+ for( bl = map[ m ].block[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next )
+ if( bl->type&type && bl->x >= x0 && bl->x <= x1 && bl->y >= y0 && bl->y <= y1 && bl_list_count < BL_LIST_MAX )
+ bl_list[ bl_list_count++ ] = bl;
+
+ if( type&BL_MOB )
+ for( by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++ )
+ for( bx = x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++ )
+ for( bl = map[ m ].block_mob[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next )
+ if( bl->x >= x0 && bl->x <= x1 && bl->y >= y0 && bl->y <= y1 && bl_list_count < BL_LIST_MAX )
+ bl_list[ bl_list_count++ ] = bl;
+
+ if( bl_list_count >= BL_LIST_MAX )
ShowWarning("map_foreachinarea: block count too many!\n");
map_freeblock_lock();
- for(i=blockcount;i<bl_list_count;i++)
- if(bl_list[i]->prev)
- {
- va_list ap;
+ for( i = blockcount; i < bl_list_count; i++ )
+ if( bl_list[ i ]->prev ) { //func() may delete this bl_list[] slot, checking for prev ensures it wasnt queued for deletion.
va_start(ap, type);
- returnCount += func(bl_list[i], ap);
+ returnCount += func(bl_list[ i ], ap);
va_end(ap);
}
@@ -732,59 +724,56 @@ int map_foreachinarea(int (*func)(struct block_list*,va_list), int m, int x0, in
*------------------------------------------*/
int map_forcountinrange(int (*func)(struct block_list*,va_list), struct block_list* center, int range, int count, int type, ...)
{
- int bx,by,m;
- int returnCount =0; //total sum of returned values of func() [Skotlex]
+ int bx, by, m;
+ int returnCount = 0; //total sum of returned values of func() [Skotlex]
struct block_list *bl;
- int blockcount=bl_list_count,i;
- int x0,x1,y0,y1;
-
+ int blockcount = bl_list_count, i;
+ int x0, x1, y0, y1;
+ va_list ap;
+
m = center->m;
- x0 = max(center->x-range, 0);
- y0 = max(center->y-range, 0);
- x1 = min(center->x+range, map[m].xs-1);
- y1 = min(center->y+range, map[m].ys-1);
-
- if (type&~BL_MOB)
- for (by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++) {
- for(bx = x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++) {
- for( bl = map[m].block[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- {
+ x0 = max(center->x - range, 0);
+ y0 = max(center->y - range, 0);
+ x1 = min(center->x + range, map[ m ].xs - 1);
+ y1 = min(center->y + range, map[ m ].ys - 1);
+
+ if ( type&~BL_MOB )
+ for ( by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++ ) {
+ for( bx = x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++ ) {
+ for( bl = map[ m ].block[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next ) {
if( bl->type&type
- && bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1
+ && bl->x >= x0 && bl->x <= x1 && bl->y >= y0 && bl->y <= y1
#ifdef CIRCULAR_AREA
&& check_distance_bl(center, bl, range)
#endif
- && bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
+ && bl_list_count < BL_LIST_MAX )
+ bl_list[ bl_list_count++ ] = bl;
}
}
}
- if(type&BL_MOB)
- for(by=y0/BLOCK_SIZE;by<=y1/BLOCK_SIZE;by++){
- for(bx=x0/BLOCK_SIZE;bx<=x1/BLOCK_SIZE;bx++){
- for( bl = map[m].block_mob[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- {
- if( bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1
+ if( type&BL_MOB )
+ for( by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++ ) {
+ for( bx = x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++ ){
+ for( bl = map[ m ].block_mob[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next ) {
+ if( bl->x >= x0 && bl->x <= x1 && bl->y >= y0 && bl->y <= y1
#ifdef CIRCULAR_AREA
&& check_distance_bl(center, bl, range)
#endif
- && bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
+ && bl_list_count < BL_LIST_MAX )
+ bl_list[ bl_list_count++ ] = bl;
}
}
}
- if(bl_list_count>=BL_LIST_MAX)
+ if( bl_list_count >= BL_LIST_MAX )
ShowWarning("map_forcountinrange: block count too many!\n");
map_freeblock_lock();
- for(i=blockcount;i<bl_list_count;i++)
- if(bl_list[i]->prev)
- {
- va_list ap;
+ for( i = blockcount; i < bl_list_count; i++ )
+ if( bl_list[ i ]->prev ) { //func() may delete this bl_list[] slot, checking for prev ensures it wasnt queued for deletion.
va_start(ap, type);
- returnCount += func(bl_list[i], ap);
+ returnCount += func(bl_list[ i ], ap);
va_end(ap);
if( count && returnCount >= count )
break;
@@ -797,51 +786,48 @@ int map_forcountinrange(int (*func)(struct block_list*,va_list), struct block_li
}
int map_forcountinarea(int (*func)(struct block_list*,va_list), int m, int x0, int y0, int x1, int y1, int count, int type, ...)
{
- int bx,by;
- int returnCount =0; //total sum of returned values of func() [Skotlex]
+ int bx, by;
+ int returnCount = 0; //total sum of returned values of func() [Skotlex]
struct block_list *bl;
- int blockcount=bl_list_count,i;
-
- if (m < 0)
+ int blockcount = bl_list_count, i;
+ va_list ap;
+
+ if ( m < 0 )
return 0;
- if (x1 < x0)
- { //Swap range
+
+ if ( x1 < x0 )
swap(x0, x1);
- }
- if (y1 < y0)
- {
+ if ( y1 < y0 )
swap(y0, y1);
- }
+
x0 = max(x0, 0);
y0 = max(y0, 0);
- x1 = min(x1, map[m].xs-1);
- y1 = min(y1, map[m].ys-1);
-
- if (type&~BL_MOB)
- for(by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++)
- for(bx = x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++)
- for( bl = map[m].block[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- if(bl->type&type && bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1 && bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
-
- if(type&BL_MOB)
- for(by=y0/BLOCK_SIZE;by<=y1/BLOCK_SIZE;by++)
- for(bx=x0/BLOCK_SIZE;bx<=x1/BLOCK_SIZE;bx++)
- for( bl = map[m].block_mob[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- if(bl->x>=x0 && bl->x<=x1 && bl->y>=y0 && bl->y<=y1 && bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
-
- if(bl_list_count>=BL_LIST_MAX)
+ x1 = min(x1, map[ m ].xs - 1);
+ y1 = min(y1, map[ m ].ys - 1);
+
+ if ( type&~BL_MOB )
+ for( by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++ )
+ for( bx = x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++ )
+ for( bl = map[ m ].block[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next )
+ if( bl->type&type && bl->x >= x0 && bl->x <= x1 && bl->y >= y0 && bl->y <= y1 && bl_list_count < BL_LIST_MAX )
+ bl_list[ bl_list_count++ ] = bl;
+
+ if( type&BL_MOB )
+ for( by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++ )
+ for( bx = x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++ )
+ for( bl = map[ m ].block_mob[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next )
+ if( bl->x >= x0 && bl->x <= x1 && bl->y >= y0 && bl->y <= y1 && bl_list_count < BL_LIST_MAX )
+ bl_list[ bl_list_count++ ] = bl;
+
+ if( bl_list_count >= BL_LIST_MAX )
ShowWarning("map_foreachinarea: block count too many!\n");
map_freeblock_lock();
- for(i=blockcount;i<bl_list_count;i++)
- if(bl_list[i]->prev)
- {
- va_list ap;
+ for( i = blockcount; i < bl_list_count; i++ )
+ if(bl_list[ i ]->prev) { //func() may delete this bl_list[] slot, checking for prev ensures it wasnt queued for deletion.
va_start(ap, type);
- returnCount += func(bl_list[i], ap);
+ returnCount += func(bl_list[ i ], ap);
va_end(ap);
if( count && returnCount >= count )
break;
@@ -860,102 +846,100 @@ int map_forcountinarea(int (*func)(struct block_list*,va_list), int m, int x0, i
*------------------------------------------*/
int map_foreachinmovearea(int (*func)(struct block_list*,va_list), struct block_list* center, int range, int dx, int dy, int type, ...)
{
- int bx,by,m;
- int returnCount =0; //total sum of returned values of func() [Skotlex]
+ int bx, by, m;
+ int returnCount = 0; //total sum of returned values of func() [Skotlex]
struct block_list *bl;
- int blockcount=bl_list_count,i;
+ int blockcount = bl_list_count, i;
int x0, x1, y0, y1;
+ va_list ap;
- if (!range) return 0;
- if (!dx && !dy) return 0; //No movement.
+ if ( !range ) return 0;
+ if ( !dx && !dy ) return 0; //No movement.
+
m = center->m;
- x0 = center->x-range;
- x1 = center->x+range;
- y0 = center->y-range;
- y1 = center->y+range;
+ x0 = center->x - range;
+ x1 = center->x + range;
+ y0 = center->y - range;
+ y1 = center->y + range;
- if (x1 < x0)
- { //Swap range
+ if ( x1 < x0 )
swap(x0, x1);
- }
- if (y1 < y0)
- {
+ if ( y1 < y0 )
swap(y0, y1);
- }
- if(dx==0 || dy==0){
+
+ if( dx == 0 || dy == 0 ) {
//Movement along one axis only.
- if(dx==0){
- if(dy<0) //Moving south
- y0=y1+dy+1;
+ if( dx == 0 ){
+ if( dy < 0 ) //Moving south
+ y0 = y1 + dy + 1;
else //North
- y1=y0+dy-1;
+ y1 = y0 + dy - 1;
} else { //dy == 0
- if(dx<0) //West
- x0=x1+dx+1;
+ if( dx < 0 ) //West
+ x0 = x1 + dx + 1;
else //East
- x1=x0+dx-1;
+ x1 = x0 + dx - 1;
}
+
x0 = max(x0, 0);
y0 = max(y0, 0);
- x1 = min(x1, map[m].xs-1);
- y1 = min(y1, map[m].ys-1);
- for(by=y0/BLOCK_SIZE;by<=y1/BLOCK_SIZE;by++){
- for(bx=x0/BLOCK_SIZE;bx<=x1/BLOCK_SIZE;bx++){
- if (type&~BL_MOB) {
- for( bl = map[m].block[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- {
- if(bl->type&type &&
- bl->x>=x0 && bl->x<=x1 &&
- bl->y>=y0 && bl->y<=y1 &&
- bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
+ x1 = min(x1, map[ m ].xs - 1);
+ y1 = min(y1, map[ m ].ys - 1);
+
+ for( by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++ ) {
+ for( bx = x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++ ) {
+ if ( type&~BL_MOB ) {
+ for( bl = map[m].block[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next ) {
+ if( bl->type&type &&
+ bl->x >= x0 && bl->x <= x1 &&
+ bl->y >= y0 && bl->y <= y1 &&
+ bl_list_count < BL_LIST_MAX )
+ bl_list[ bl_list_count++ ] = bl;
}
}
- if (type&BL_MOB) {
- for( bl = map[m].block_mob[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- {
- if(bl->x>=x0 && bl->x<=x1 &&
- bl->y>=y0 && bl->y<=y1 &&
- bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
+ if ( type&BL_MOB ) {
+ for( bl = map[ m ].block_mob[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next ) {
+ if( bl->x >= x0 && bl->x <= x1 &&
+ bl->y >= y0 && bl->y <= y1 &&
+ bl_list_count < BL_LIST_MAX )
+ bl_list[ bl_list_count++ ] = bl;
}
}
}
}
- }else{
- // Diagonal movement
+ } else { // Diagonal movement
+
x0 = max(x0, 0);
y0 = max(y0, 0);
- x1 = min(x1, map[m].xs-1);
- y1 = min(y1, map[m].ys-1);
- for(by=y0/BLOCK_SIZE;by<=y1/BLOCK_SIZE;by++){
- for(bx=x0/BLOCK_SIZE;bx<=x1/BLOCK_SIZE;bx++){
- if (type & ~BL_MOB) {
- for( bl = map[m].block[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- {
+ x1 = min(x1, map[ m ].xs - 1);
+ y1 = min(y1, map[ m ].ys - 1);
+
+ for( by = y0 / BLOCK_SIZE; by <= y1 / BLOCK_SIZE; by++ ) {
+ for( bx = x0 / BLOCK_SIZE; bx <= x1 / BLOCK_SIZE; bx++ ) {
+ if ( type & ~BL_MOB ) {
+ for( bl = map[ m ].block[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next ) {
if( bl->type&type &&
- bl->x>=x0 && bl->x<=x1 &&
- bl->y>=y0 && bl->y<=y1 &&
- bl_list_count<BL_LIST_MAX )
- if((dx>0 && bl->x<x0+dx) ||
- (dx<0 && bl->x>x1+dx) ||
- (dy>0 && bl->y<y0+dy) ||
- (dy<0 && bl->y>y1+dy))
- bl_list[bl_list_count++]=bl;
+ bl->x >= x0 && bl->x <= x1 &&
+ bl->y >= y0 && bl->y <= y1 &&
+ bl_list_count < BL_LIST_MAX )
+ if( ( dx > 0 && bl->x < x0 + dx) ||
+ ( dx < 0 && bl->x > x1 + dx) ||
+ ( dy > 0 && bl->y < y0 + dy) ||
+ ( dy < 0 && bl->y > y1 + dy) )
+ bl_list[ bl_list_count++ ] = bl;
}
}
- if (type & BL_MOB) {
- for( bl = map[m].block_mob[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- {
- if( bl->x>=x0 && bl->x<=x1 &&
- bl->y>=y0 && bl->y<=y1 &&
- bl_list_count<BL_LIST_MAX)
- if((dx>0 && bl->x<x0+dx) ||
- (dx<0 && bl->x>x1+dx) ||
- (dy>0 && bl->y<y0+dy) ||
- (dy<0 && bl->y>y1+dy))
- bl_list[bl_list_count++]=bl;
+ if ( type&BL_MOB ) {
+ for( bl = map[ m ].block_mob[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next ) {
+ if( bl->x >= x0 && bl->x <= x1 &&
+ bl->y >= y0 && bl->y <= y1 &&
+ bl_list_count < BL_LIST_MAX)
+ if( ( dx > 0 && bl->x < x0 + dx) ||
+ ( dx < 0 && bl->x > x1 + dx) ||
+ ( dy > 0 && bl->y < y0 + dy) ||
+ ( dy < 0 && bl->y > y1 + dy) )
+ bl_list[ bl_list_count++ ] = bl;
}
}
}
@@ -963,17 +947,15 @@ int map_foreachinmovearea(int (*func)(struct block_list*,va_list), struct block_
}
- if(bl_list_count>=BL_LIST_MAX)
+ if( bl_list_count >= BL_LIST_MAX )
ShowWarning("map_foreachinmovearea: block count too many!\n");
map_freeblock_lock(); // Prohibit the release from memory
- for(i=blockcount;i<bl_list_count;i++)
- if(bl_list[i]->prev)
- {
- va_list ap;
+ for( i = blockcount; i < bl_list_count; i++ )
+ if( bl_list[ i ]->prev ) { //func() may delete this bl_list[] slot, checking for prev ensures it wasnt queued for deletion.
va_start(ap, type);
- returnCount += func(bl_list[i], ap);
+ returnCount += func(bl_list[ i ], ap);
va_end(ap);
}
@@ -989,37 +971,35 @@ int map_foreachinmovearea(int (*func)(struct block_list*,va_list), struct block_
//
int map_foreachincell(int (*func)(struct block_list*,va_list), int m, int x, int y, int type, ...)
{
- int bx,by;
- int returnCount =0; //total sum of returned values of func() [Skotlex]
+ int bx, by;
+ int returnCount = 0; //total sum of returned values of func() [Skotlex]
struct block_list *bl;
- int blockcount=bl_list_count,i;
+ int blockcount = bl_list_count, i;
+ va_list ap;
- if (x < 0 || y < 0 || x >= map[m].xs || y >= map[m].ys) return 0;
+ if ( x < 0 || y < 0 || x >= map[ m ].xs || y >= map[ m ].ys ) return 0;
- by=y/BLOCK_SIZE;
- bx=x/BLOCK_SIZE;
+ by = y / BLOCK_SIZE;
+ bx = x / BLOCK_SIZE;
- if(type&~BL_MOB)
- for( bl = map[m].block[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- if(bl->type&type && bl->x==x && bl->y==y && bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
+ if( type&~BL_MOB )
+ for( bl = map[ m ].block[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next )
+ if( bl->type&type && bl->x == x && bl->y == y && bl_list_count < BL_LIST_MAX )
+ bl_list[ bl_list_count++ ] = bl;
+ if( type&BL_MOB )
+ for( bl = map[ m ].block_mob[ bx + by * map[ m ].bxs]; bl != NULL; bl = bl->next )
+ if( bl->x == x && bl->y == y && bl_list_count < BL_LIST_MAX)
+ bl_list[ bl_list_count++ ] = bl;
- if(type&BL_MOB)
- for( bl = map[m].block_mob[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- if(bl->x==x && bl->y==y && bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
-
- if(bl_list_count>=BL_LIST_MAX)
+ if( bl_list_count >= BL_LIST_MAX )
ShowWarning("map_foreachincell: block count too many!\n");
map_freeblock_lock();
- for(i=blockcount;i<bl_list_count;i++)
- if(bl_list[i]->prev)
- {
- va_list ap;
+ for( i = blockcount; i < bl_list_count; i++ )
+ if( bl_list[ i ]->prev ) { //func() may delete this bl_list[] slot, checking for prev ensures it wasnt queued for deletion.
va_start(ap, type);
- returnCount += func(bl_list[i], ap);
+ returnCount += func(bl_list[ i ], ap);
va_end(ap);
}
@@ -1034,7 +1014,7 @@ int map_foreachincell(int (*func)(struct block_list*,va_list), int m, int x, int
*------------------------------------------------------------*/
int map_foreachinpath(int (*func)(struct block_list*,va_list),int m,int x0,int y0,int x1,int y1,int range,int length, int type,...)
{
- int returnCount =0; //total sum of returned values of func() [Skotlex]
+ int returnCount = 0; //total sum of returned values of func() [Skotlex]
//////////////////////////////////////////////////////////////
//
// sharp shooting 3 [Skotlex]
@@ -1076,140 +1056,129 @@ int map_foreachinpath(int (*func)(struct block_list*,va_list),int m,int x0,int y
int magnitude2, len_limit; //The square of the magnitude
int k, xi, yi, xu, yu;
int mx0 = x0, mx1 = x1, my0 = y0, my1 = y1;
-
+ va_list ap;
+
//Avoid needless calculations by not getting the sqrt right away.
- #define MAGNITUDE2(x0, y0, x1, y1) (((x1)-(x0))*((x1)-(x0)) + ((y1)-(y0))*((y1)-(y0)))
+ #define MAGNITUDE2(x0, y0, x1, y1) ( ( ( x1 ) - ( x0 ) ) * ( ( x1 ) - ( x0 ) ) + ( ( y1 ) - ( y0 ) ) * ( ( y1 ) - ( y0 ) ) )
- if (m < 0)
+ if ( m < 0 )
return 0;
- len_limit = magnitude2 = MAGNITUDE2(x0,y0, x1,y1);
- if (magnitude2 < 1) //Same begin and ending point, can't trace path.
+ len_limit = magnitude2 = MAGNITUDE2(x0, y0, x1, y1);
+ if ( magnitude2 < 1 ) //Same begin and ending point, can't trace path.
return 0;
- if (length)
- { //Adjust final position to fit in the given area.
+ if ( length ) { //Adjust final position to fit in the given area.
//TODO: Find an alternate method which does not requires a square root calculation.
k = (int)sqrt((float)magnitude2);
- mx1 = x0 + (x1 - x0)*length/k;
- my1 = y0 + (y1 - y0)*length/k;
- len_limit = MAGNITUDE2(x0,y0, mx1,my1);
+ mx1 = x0 + (x1 - x0) * length / k;
+ my1 = y0 + (y1 - y0) * length / k;
+ len_limit = MAGNITUDE2(x0, y0, mx1, my1);
}
//Expand target area to cover range.
- if (mx0 > mx1)
- {
- mx0+=range;
- mx1-=range;
+ if ( mx0 > mx1 ) {
+ mx0 += range;
+ mx1 -= range;
} else {
- mx0-=range;
- mx1+=range;
+ mx0 -= range;
+ mx1 += range;
}
- if (my0 > my1)
- {
- my0+=range;
- my1-=range;
+ if (my0 > my1) {
+ my0 += range;
+ my1 -= range;
} else {
- my0-=range;
- my1+=range;
+ my0 -= range;
+ my1 += range;
}
//The two fors assume mx0 < mx1 && my0 < my1
- if (mx0 > mx1)
- {
+ if ( mx0 > mx1 )
swap(mx0, mx1);
- }
- if (my0 > my1)
- {
+ if ( my0 > my1 )
swap(my0, my1);
- }
mx0 = max(mx0, 0);
my0 = max(my0, 0);
- mx1 = min(mx1, map[m].xs-1);
- my1 = min(my1, map[m].ys-1);
-
- range*=range<<8; //Values are shifted later on for higher precision using int math.
-
- if (type & ~BL_MOB)
- for (by = my0 / BLOCK_SIZE; by <= my1 / BLOCK_SIZE; by++) {
- for(bx=mx0/BLOCK_SIZE;bx<=mx1/BLOCK_SIZE;bx++){
- for( bl = map[m].block[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- {
- if(bl->prev && bl->type&type && bl_list_count<BL_LIST_MAX)
- {
+ mx1 = min(mx1, map[ m ].xs - 1);
+ my1 = min(my1, map[ m ].ys - 1);
+
+ range *= range << 8; //Values are shifted later on for higher precision using int math.
+
+ if ( type&~BL_MOB )
+ for ( by = my0 / BLOCK_SIZE; by <= my1 / BLOCK_SIZE; by++ ) {
+ for( bx = mx0 / BLOCK_SIZE; bx <= mx1 / BLOCK_SIZE; bx++ ) {
+ for( bl = map[ m ].block[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next ) {
+ if( bl->prev && bl->type&type && bl_list_count < BL_LIST_MAX ) {
xi = bl->x;
yi = bl->y;
- k = (xi-x0)*(x1-x0) + (yi-y0)*(y1-y0);
- if (k < 0 || k > len_limit) //Since more skills use this, check for ending point as well.
+ k = ( xi - x0 ) * ( x1 - x0 ) + ( yi - y0 ) * ( y1 - y0 );
+
+ if ( k < 0 || k > len_limit ) //Since more skills use this, check for ending point as well.
continue;
- if (k > magnitude2 && !path_search_long(NULL,m,x0,y0,xi,yi,CELL_CHKWALL))
+ if ( k > magnitude2 && !path_search_long(NULL, m, x0, y0, xi, yi, CELL_CHKWALL) )
continue; //Targets beyond the initial ending point need the wall check.
//All these shifts are to increase the precision of the intersection point and distance considering how it's
//int math.
- k = (k<<4)/magnitude2; //k will be between 1~16 instead of 0~1
- xi<<=4;
- yi<<=4;
- xu= (x0<<4) +k*(x1-x0);
- yu= (y0<<4) +k*(y1-y0);
- k = MAGNITUDE2(xi, yi, xu, yu);
+ k = ( k << 4 ) / magnitude2; //k will be between 1~16 instead of 0~1
+ xi <<= 4;
+ yi <<= 4;
+ xu = ( x0 << 4 ) + k * ( x1 - x0 );
+ yu = ( y0 << 4 ) + k * ( y1 - y0 );
+ k = MAGNITUDE2(xi, yi, xu, yu);
//If all dot coordinates were <<4 the square of the magnitude is <<8
- if (k > range)
+ if ( k > range )
continue;
- bl_list[bl_list_count++]=bl;
+ bl_list[ bl_list_count++ ] = bl;
}
}
}
}
-
- if(type&BL_MOB)
- for(by=my0/BLOCK_SIZE;by<=my1/BLOCK_SIZE;by++){
- for(bx=mx0/BLOCK_SIZE;bx<=mx1/BLOCK_SIZE;bx++){
- for( bl = map[m].block_mob[bx+by*map[m].bxs] ; bl != NULL ; bl = bl->next )
- {
- if(bl->prev && bl_list_count<BL_LIST_MAX)
- {
+ if( type&BL_MOB )
+ for( by = my0 / BLOCK_SIZE; by <= my1 / BLOCK_SIZE; by++ ) {
+ for( bx = mx0 / BLOCK_SIZE; bx <= mx1 / BLOCK_SIZE; bx++ ) {
+ for( bl = map[ m ].block_mob[ bx + by * map[ m ].bxs ]; bl != NULL; bl = bl->next ) {
+ if( bl->prev && bl_list_count < BL_LIST_MAX ) {
xi = bl->x;
yi = bl->y;
- k = (xi-x0)*(x1-x0) + (yi-y0)*(y1-y0);
- if (k < 0 || k > len_limit)
+ k = ( xi - x0 ) * ( x1 - x0 ) + ( yi - y0 ) * ( y1 - y0 );
+
+ if ( k < 0 || k > len_limit )
continue;
- if (k > magnitude2 && !path_search_long(NULL,m,x0,y0,xi,yi,CELL_CHKWALL))
+ if ( k > magnitude2 && !path_search_long(NULL, m, x0, y0, xi, yi, CELL_CHKWALL) )
continue; //Targets beyond the initial ending point need the wall check.
- k = (k<<4)/magnitude2; //k will be between 1~16 instead of 0~1
- xi<<=4;
- yi<<=4;
- xu= (x0<<4) +k*(x1-x0);
- yu= (y0<<4) +k*(y1-y0);
- k = MAGNITUDE2(xi, yi, xu, yu);
+ k = ( k << 4 ) / magnitude2; //k will be between 1~16 instead of 0~1
+ xi <<= 4;
+ yi <<= 4;
+ xu = ( x0 << 4 ) + k * ( x1 - x0 );
+ yu = ( y0 << 4 ) + k * ( y1 - y0 );
+ k = MAGNITUDE2(xi, yi, xu, yu);
//If all dot coordinates were <<4 the square of the magnitude is <<8
- if (k > range)
+ if ( k > range )
continue;
- bl_list[bl_list_count++]=bl;
+ bl_list[ bl_list_count++ ] = bl;
}
}
}
}
- if(bl_list_count>=BL_LIST_MAX)
+ if( bl_list_count >= BL_LIST_MAX )
ShowWarning("map_foreachinpath: block count too many!\n");
map_freeblock_lock();
- for(i=blockcount;i<bl_list_count;i++)
- if(bl_list[i]->prev) //This check is done in case some object gets killed due to further skill processing.
- {
- va_list ap;
+ for( i = blockcount; i < bl_list_count; i++ )
+ if( bl_list[ i ]->prev ) { //func() may delete this bl_list[] slot, checking for prev ensures it wasnt queued for deletion.
va_start(ap, type);
- returnCount += func(bl_list[i], ap);
+ returnCount += func(bl_list[ i ], ap);
va_end(ap);
}
@@ -1224,35 +1193,34 @@ int map_foreachinpath(int (*func)(struct block_list*,va_list),int m,int x0,int y
int map_foreachinmap(int (*func)(struct block_list*,va_list), int m, int type,...)
{
int b, bsize;
- int returnCount =0; //total sum of returned values of func() [Skotlex]
+ int returnCount = 0; //total sum of returned values of func() [Skotlex]
struct block_list *bl;
- int blockcount=bl_list_count,i;
-
- bsize = map[m].bxs * map[m].bys;
+ int blockcount = bl_list_count, i;
+ va_list ap;
+
+ bsize = map[ m ].bxs * map[ m ].bys;
- if(type&~BL_MOB)
- for(b=0;b<bsize;b++)
- for( bl = map[m].block[b] ; bl != NULL ; bl = bl->next )
- if(bl->type&type && bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
+ if( type&~BL_MOB )
+ for( b = 0; b < bsize; b++ )
+ for( bl = map[ m ].block[ b ]; bl != NULL; bl = bl->next )
+ if( bl->type&type && bl_list_count < BL_LIST_MAX )
+ bl_list[ bl_list_count++ ] = bl;
- if(type&BL_MOB)
- for(b=0;b<bsize;b++)
- for( bl = map[m].block_mob[b] ; bl != NULL ; bl = bl->next )
- if(bl_list_count<BL_LIST_MAX)
- bl_list[bl_list_count++]=bl;
+ if( type&BL_MOB )
+ for( b = 0; b < bsize; b++ )
+ for( bl = map[ m ].block[ b ]; bl != NULL; bl = bl->next )
+ if( bl_list_count < BL_LIST_MAX )
+ bl_list[ bl_list_count++ ] = bl;
- if(bl_list_count>=BL_LIST_MAX)
+ if( bl_list_count >= BL_LIST_MAX )
ShowWarning("map_foreachinmap: block count too many!\n");
map_freeblock_lock();
- for(i=blockcount;i<bl_list_count;i++)
- if(bl_list[i]->prev)
- {
- va_list ap;
+ for( i = blockcount; i < bl_list_count ; i++ )
+ if( bl_list[ i ]->prev ) { //func() may delete this bl_list[] slot, checking for prev ensures it wasnt queued for deletion.
va_start(ap, type);
- returnCount += func(bl_list[i], ap);
+ returnCount += func(bl_list[ i ], ap);
va_end(ap);
}