void P_LoadNodes(int lump)
{
byte *data;
int i, j, k;
mapnode_t *mn;
node_t *no;
numnodes = W_LumpLength(lump) / sizeof(mapnode_t);
nodes = Z_Malloc(numnodes * sizeof(node_t), PU_LEVEL, 0);
data = I_TempBuffer();
W_ReadLump(lump, data);
mn = (mapnode_t *)data;
no = nodes;
for(i = 0; i < numnodes; i++, no++, mn++)
{
no->x = LITTLESHORT(mn->x ) << FRACBITS;
no->y = LITTLESHORT(mn->y ) << FRACBITS;
no->dx = LITTLESHORT(mn->dx) << FRACBITS;
no->dy = LITTLESHORT(mn->dy) << FRACBITS;
for(j = 0; j < 2; j++)
{
no->children[j] = (unsigned short)LITTLESHORT(mn->children[j]);
for(k = 0; k < 4; k++)
no->bbox[j][k] = LITTLESHORT(mn->bbox[j][k]) << FRACBITS;
}
}
}
void P_LoadSideDefs(int lump)
{
byte *data;
int i;
mapsidedef_t *msd;
side_t *sd;
for(i = 0; i < numtextures; i++)
textures[i].usecount = 0;
numsides = W_LumpLength(lump) / sizeof(mapsidedef_t);
sides = Z_Malloc(numsides * sizeof(side_t), PU_LEVEL, 0);
D_memset(sides, 0, numsides * sizeof(side_t));
data = I_TempBuffer();
W_ReadLump(lump, data);
msd = (mapsidedef_t *)data;
sd = sides;
for(i = 0; i < numsides; i++, msd++, sd++)
{
sd->textureoffset = LITTLESHORT(msd->textureoffset) << FRACBITS;
sd->rowoffset = LITTLESHORT(msd->rowoffset) << FRACBITS;
sd->toptexture = R_TextureNumForName(msd->toptexture);
sd->bottomtexture = R_TextureNumForName(msd->bottomtexture);
sd->midtexture = R_TextureNumForName(msd->midtexture);
sd->sector = §ors[LITTLESHORT(msd->sector)];
textures[sd->toptexture].usecount++;
textures[sd->bottomtexture].usecount++;
textures[sd->midtexture].usecount++;
}
}
void P_LoadSectors(int lump)
{
byte *data;
int i;
mapsector_t *ms;
sector_t *ss;
numsectors = W_LumpLength(lump) / sizeof(mapsector_t);
sectors = Z_Malloc(numsectors * sizeof(sector_t), PU_LEVEL, 0);
D_memset(sectors, 0, numsectors * sizeof(sector_t));
data = I_TempBuffer();
W_ReadLump(lump, data);
ms = (mapsector_t *)data;
ss = sectors;
for(i = 0; i < numsectors; i++, ss++, ms++)
{
ss->floorheight = LITTLESHORT(ms->floorheight) << FRACBITS;
ss->ceilingheight = LITTLESHORT(ms->ceilingheight) << FRACBITS;
ss->floorpic = R_FlatNumForName(ms->floorpic);
if(!D_strncasecmp(ms->ceilingpic,"F_SKY1", 6))
ss->ceilingpic = -1;
else
{
ss->ceilingpic = R_FlatNumForName(ms->ceilingpic);
}
ss->lightlevel = LITTLESHORT(ms->lightlevel);
ss->special = LITTLESHORT(ms->special);
ss->tag = LITTLESHORT(ms->tag);
ss->thinglist = NULL;
}
}
void P_LoadVertexes (int lump)
{
#ifdef MARS
numvertexes = W_LumpLength (lump) / sizeof(vertex_t);
vertexes = (vertex_t *)(wadfileptr+BIGLONG(lumpinfo[lump].filepos));
#else
byte *data;
int i;
mapvertex_t *ml;
vertex_t *li;
numvertexes = W_LumpLength (lump) / sizeof(mapvertex_t);
vertexes = Z_Malloc (numvertexes*sizeof(vertex_t),PU_LEVEL,0);
data = I_TempBuffer ();
W_ReadLump (lump,data);
ml = (mapvertex_t *)data;
li = vertexes;
for (i=0 ; i<numvertexes ; i++, li++, ml++)
{
li->x = LITTLESHORT(ml->x)<<FRACBITS;
li->y = LITTLESHORT(ml->y)<<FRACBITS;
}
#endif
}
void P_LoadVertexes(int lump)
{
byte *data;
int i;
mapvertex_t *ml;
vertex_t *li;
numvertexes = W_LumpLength(lump) / sizeof(mapvertex_t);
vertexes = Z_Malloc(numvertexes * sizeof(vertex_t), PU_LEVEL, 0);
data = I_TempBuffer();
W_ReadLump(lump, data);
ml = (mapvertex_t *)data;
li = vertexes;
for(i = 0; i < numvertexes; i++, li++, ml++)
{
li->x = LITTLESHORT(ml->x) << FRACBITS;
li->y = LITTLESHORT(ml->y) << FRACBITS;
}
}
void P_LoadSubsectors(int lump)
{
byte *data;
int i;
mapsubsector_t *ms;
subsector_t *ss;
numsubsectors = W_LumpLength(lump) / sizeof(mapsubsector_t);
subsectors = Z_Malloc(numsubsectors * sizeof(subsector_t), PU_LEVEL, 0);
data = I_TempBuffer();
W_ReadLump(lump, data);
ms = (mapsubsector_t *)data;
D_memset (subsectors,0, numsubsectors * sizeof(subsector_t));
ss = subsectors;
for(i = 0; i < numsubsectors; i++, ss++, ms++)
{
ss->numlines = LITTLESHORT(ms->numsegs);
ss->firstline = LITTLESHORT(ms->firstseg);
}
}
void P_LoadSegs(int lump)
{
byte *data;
int i;
mapseg_t *ml;
seg_t *li;
line_t *ldef;
int linedef, side;
numsegs = W_LumpLength(lump) / sizeof(mapseg_t);
segs = Z_Malloc(numsegs * sizeof(seg_t), PU_LEVEL, 0);
D_memset(segs, 0, numsegs * sizeof(seg_t));
data = I_TempBuffer();
W_ReadLump(lump, data);
ml = (mapseg_t *)data;
li = segs;
for(i = 0; i < numsegs; i++, li++, ml++)
{
li->v1 = &vertexes[LITTLESHORT(ml->v1)];
li->v2 = &vertexes[LITTLESHORT(ml->v2)];
li->angle = (LITTLESHORT(ml->angle)) << 16;
li->offset = (LITTLESHORT(ml->offset)) << 16;
linedef = LITTLESHORT(ml->linedef);
ldef = &lines[linedef];
li->linedef = ldef;
side = LITTLESHORT(ml->side);
li->sidedef = &sides[ldef->sidenum[side]];
li->frontsector = sides[ldef->sidenum[side]].sector;
if(ldef-> flags & ML_TWOSIDED)
li->backsector = sides[ldef->sidenum[side ^ 1]].sector;
else
li->backsector = 0;
if(ldef->v1 == li->v1)
ldef->fineangle = li->angle >> ANGLETOFINESHIFT;
}
}
void P_LoadThings(int lump)
{
byte *data;
int i;
mapthing_t *mt;
int numthings;
data = I_TempBuffer();
W_ReadLump(lump, data);
numthings = W_LumpLength(lump) / sizeof(mapthing_t);
mt = (mapthing_t *)data;
for(i = 0; i < numthings; i++, mt++)
{
mt->x = LITTLESHORT(mt->x);
mt->y = LITTLESHORT(mt->y);
mt->angle = LITTLESHORT(mt->angle);
mt->type = LITTLESHORT(mt->type);
mt->options = LITTLESHORT(mt->options);
P_SpawnMapThing(mt);
}
}
void P_LoadLineDefs(int lump)
{
byte *data;
int i;
maplinedef_t *mld;
line_t *ld;
vertex_t *v1, *v2;
numlines = W_LumpLength(lump) / sizeof(maplinedef_t);
lines = Z_Malloc(numlines * sizeof(line_t), PU_LEVEL, 0);
D_memset(lines, 0, numlines * sizeof(line_t));
data = I_TempBuffer();
W_ReadLump(lump, data);
mld = (maplinedef_t *)data;
ld = lines;
for(i = 0; i < numlines; i++, mld++, ld++)
{
ld->flags = LITTLESHORT(mld->flags);
ld->special = LITTLESHORT(mld->special);
ld->tag = LITTLESHORT(mld->tag);
v1 = ld->v1 = &vertexes[LITTLESHORT(mld->v1)];
v2 = ld->v2 = &vertexes[LITTLESHORT(mld->v2)];
ld->dx = v2->x - v1->x;
ld->dy = v2->y - v1->y;
if(!ld->dx)
ld->slopetype = ST_VERTICAL;
else if(!ld->dy)
ld->slopetype = ST_HORIZONTAL;
else
{
if(FixedDiv(ld->dy , ld->dx) > 0)
ld->slopetype = ST_POSITIVE;
else
ld->slopetype = ST_NEGATIVE;
}
if(v1->x < v2->x)
{
ld->bbox[BOXLEFT ] = v1->x;
ld->bbox[BOXRIGHT] = v2->x;
}
else
{
ld->bbox[BOXLEFT ] = v2->x;
ld->bbox[BOXRIGHT] = v1->x;
}
if(v1->y < v2->y)
{
ld->bbox[BOXBOTTOM] = v1->y;
ld->bbox[BOXTOP ] = v2->y;
}
else
{
ld->bbox[BOXBOTTOM] = v2->y;
ld->bbox[BOXTOP ] = v1->y;
}
ld->sidenum[0] = LITTLESHORT(mld->sidenum[0]);
ld->sidenum[1] = LITTLESHORT(mld->sidenum[1]);
if(ld->sidenum[0] != -1)
ld->frontsector = sides[ld->sidenum[0]].sector;
else
ld->frontsector = 0;
if(ld->sidenum[1] != -1)
ld->backsector = sides[ld->sidenum[1]].sector;
else
ld->backsector = 0;
}
}