bool
TerrainPatch::BuildDetailLevel(int level)
{
int i, j;
int detail_size = 1 << level;
int ds1 = detail_size+1;
if (detail_size > PATCH_SIZE)
return false;
Model* model = new(__FILE__,__LINE__) Model;
detail_levels[level] = model;
model->SetLuminous(luminous);
model->SetDynamic(true);
const int NUM_STRIPS = 4;
const int NUM_INDICES_TRI = 3;
const int NUM_INDICES_QUAD = 6;
int nverts = ds1*ds1 + ds1*2*NUM_STRIPS;
int npolys = detail_size*detail_size*2;
int strip_len = detail_size;
int total = npolys + strip_len*NUM_STRIPS;
if (water) {
nverts = ds1*ds1;
strip_len = 0;
total = npolys;
}
Surface* s = new(__FILE__,__LINE__) Surface;
VertexSet* vset = 0;
if (s) {
s->SetName("default");
s->CreateVerts(nverts);
s->CreatePolys(total);
s->AddIndices(npolys*NUM_INDICES_TRI + strip_len*NUM_STRIPS*NUM_INDICES_QUAD);
vset = s->GetVertexSet();
if (!water)
vset->CreateAdditionalTexCoords();
ZeroMemory(vset->loc, nverts * sizeof(Vec3));
ZeroMemory(vset->diffuse, nverts * sizeof(DWORD));
ZeroMemory(vset->specular, nverts * sizeof(DWORD));
ZeroMemory(vset->tu, nverts * sizeof(float));
ZeroMemory(vset->tv, nverts * sizeof(float));
if (!water) {
ZeroMemory(vset->tu1, nverts * sizeof(float));
ZeroMemory(vset->tv1, nverts * sizeof(float));
}
ZeroMemory(vset->rw, nverts * sizeof(float));
// initialize vertices
Vec3* pVert = vset->loc;
float* pTu = vset->tu;
float* pTv = vset->tv;
float* pTu1 = vset->tu1;
float* pTv1 = vset->tv1;
DWORD* pSpec = vset->specular;
int dscale = (PATCH_SIZE-1)/detail_size;
double dt = 0.0625 / (ds1-1); // terrain texture scale
double dtt = 2.0000 / (ds1-1); // tile texture scale
double tu0 = (double) rect.x / rect.w / 16.0 + 1.0/16.0;
double tv0 = (double) rect.y / rect.h / 16.0;
// surface verts
for (i = 0; i < ds1; i++) {
for (j = 0; j < ds1; j++) {
*pVert = Vec3((float) (j* scale * dscale - (HALF_PATCH_SIZE*scale)),
(float) (heights[i*dscale*PATCH_SIZE + j*dscale]),
(float) (i* scale * dscale - (HALF_PATCH_SIZE*scale)));
if (level >= 2) {
*pTu++ = (float) (-j*dtt);
*pTv++ = (float) ( i*dtt);
if (level >= 4 && !water) {
*pTu1++ = (float) (-j*dtt*3);
*pTv1++ = (float) ( i*dtt*3);
}
*pSpec++ = BlendValue(pVert->y);
}
else {
*pTu++ = (float) (tu0 - j*dt);
*pTv++ = (float) (tv0 + i*dt);
}
pVert++;
}
}
if (!water) {
// strip 1 & 2 verts
for (i = 0; i < ds1; i += detail_size) {
for (j = 0; j < ds1; j++) {
Vec3 vl = Vec3((float) (j* scale * dscale - (HALF_PATCH_SIZE*scale)),
(float) (heights[i*dscale*PATCH_SIZE + j*dscale]),
(float) (i* scale * dscale - (HALF_PATCH_SIZE*scale)));
*pVert++ = vl;
DWORD blend = 0;
if (level >= 2) {
blend = BlendValue(vl.y);
*pSpec++ = blend;
*pTu++ = (float) (-j*dtt);
*pTv++ = (float) ( i*dtt);
}
else {
*pTu++ = (float) (tu0 - j*dt);
*pTv++ = (float) (tv0 + i*dt);
}
vl.y = -5000.0f;
*pVert++ = vl;
if (level >= 2) {
*pSpec++ = blend;
*pTu++ = (float) (-j*dtt);
*pTv++ = (float) ( i*dtt);
}
else {
*pTu++ = (float) (tu0 - j*dt);
*pTv++ = (float) (tv0 + i*dt);
}
}
}
// strip 3 & 4 verts
for (j = 0; j < ds1; j += detail_size) {
for (i = 0; i < ds1; i++) {
Vec3 vl = Vec3((float) (j* scale * dscale - (HALF_PATCH_SIZE*scale)),
(float) (heights[i*dscale*PATCH_SIZE + j*dscale]),
(float) (i* scale * dscale - (HALF_PATCH_SIZE*scale)));
*pVert++ = vl;
DWORD blend = 0;
if (level >= 2) {
blend = BlendValue(vl.y);
*pSpec++ = blend;
*pTu++ = (float) (-j*dtt);
*pTv++ = (float) ( i*dtt);
}
else {
*pTu++ = (float) (tu0 - j*dt);
*pTv++ = (float) (tv0 + i*dt);
}
vl.y = -5000.0f;
*pVert++ = vl;
if (level >= 2) {
*pSpec++ = blend;
*pTu++ = (float) (-j*dtt);
*pTv++ = (float) ( i*dtt);
}
else {
*pTu++ = (float) (tu0 - j*dt);
*pTv++ = (float) (tv0 + i*dt);
}
}
}
}
Material* m = materials.first();
// initialize the polys
for (i = 0; i < npolys; i++) {
Poly* p = s->GetPolys() + i;
p->nverts = 3;
p->vertex_set = vset;
p->visible = 1;
p->sortval = 0;
p->material = m;
if (level >= 2 && !water) {
p->material = materials.at(1);
p->sortval = 1;
}
}
for (i = npolys; i < total; i++) {
Poly* p = s->GetPolys() + i;
p->nverts = 4;
p->vertex_set = vset;
p->visible = 1;
p->sortval = 0;
p->material = m;
}
int index = 0;
// build main patch polys:
for (i = 0; i < detail_size; i++) {
for (j = 0; j < detail_size; j++) {
int v[4] = {
(ds1 * (i ) + (j )),
(ds1 * (i ) + (j+1)),
(ds1 * (i+1) + (j )),
(ds1 * (i+1) + (j+1)) };
bisect(vset, v);
// first triangle
Poly* p = s->GetPolys() + index++;
p->verts[0] = v[0];
p->verts[1] = v[1];
p->verts[2] = v[3];
if (level >= 2 && !water) {
int layer = CalcLayer(p) + 1;
p->material = materials.at(layer);
p->sortval = layer;
}
// second triangle
p = s->GetPolys() + index++;
p->verts[0] = v[0];
p->verts[1] = v[3];
p->verts[2] = v[2];
if (level >= 2 && !water) {
int layer = CalcLayer(p) + 1;
p->material = materials.at(layer);
p->sortval = layer;
}
}
}
// build vertical edge strip polys:
if (!water) {
for (i = 0; i < NUM_STRIPS; i++) {
Poly* p = s->GetPolys() + npolys + i*strip_len;
int base_index = ds1*ds1 + ds1*2*i;
for (j = 0; j < strip_len; j++) {
int v = base_index + j * 2;
p->nverts = 4;
if (i == 1 || i == 2) {
p->verts[0] = v;
p->verts[1] = v+2;
p->verts[2] = v+3;
p->verts[3] = v+1;
}
else {
p->verts[0] = v;
p->verts[1] = v+1;
p->verts[2] = v+3;
p->verts[3] = v+2;
}
if (level >= 2) {
int layer = CalcLayer(p) + 1;
p->material = materials.at(layer);
p->sortval = layer;
}
p++;
}
}
}
// update the poly planes:
for (i = 0; i < total; i++) {
Poly* p = s->GetPolys() + i;
Plane& plane = p->plane;
WORD* v = p->verts;
plane = Plane(vset->loc[v[0]] + loc,
vset->loc[v[1]] + loc,
vset->loc[v[2]] + loc);
}
s->Normalize();
// create continguous segments for each material:
// sort the polys by material index:
qsort((void*) s->GetPolys(), s->NumPolys(), sizeof(Poly), mcomp);
// then assign them to cohesive segments:
Segment* segment = 0;
Poly* spolys = s->GetPolys();
for (int n = 0; n < s->NumPolys(); n++) {
if (segment && segment->material == spolys[n].material) {
segment->npolys++;
}
else {
segment = 0;
}
if (!segment) {
segment = new(__FILE__,__LINE__) Segment;
segment->npolys = 1;
segment->polys = &spolys[n];
segment->material = segment->polys->material;
segment->model = model;
s->GetSegments().append(segment);
}
}
Solid::EnableCollision(false);
model->AddSurface(s);
Solid::EnableCollision(true);
// copy vertex normals:
const Vec3B* tnorms = terrain->Normals();
for (i = 0; i < ds1; i++) {
for (j = 0; j < ds1; j++) {
if (water) {
vset->nrm[i*ds1+j] = Point(0,1,0);
}
// blend adjacent normals:
else if (dscale > 1) {
Point normal;
// but don't blend more than 16 normals per vertex:
int step = 1;
if (dscale > 4)
step = dscale / 4;
for (int dy = -dscale/2; dy < dscale/2; dy += step) {
for (int dx = -dscale/2; dx < dscale/2; dx += step) {
int ix = rect.x + (ds1-1-j)*dscale + dx;
int iy = rect.y + i*dscale + dy;
if (ix < 0) ix = 0;
if (ix > terrain_width-1) ix = terrain_width-1;
if (iy < 0) iy = 0;
if (iy > terrain_width-1) iy = terrain_width-1;
Vec3B vbn = tnorms[iy*terrain_width + ix];
normal += Point((128-vbn.x)/127.0, (vbn.z-128)/127.0, (vbn.y-128)/127.0);
}
}
normal.Normalize();
vset->nrm[i*ds1+j] = normal;
}
// just copy the one normal:
else {
Vec3B vbn = tnorms[(rect.y + i*dscale)*terrain_width + (rect.x + (ds1-1-j) * dscale)];
Point normal = Point((128-vbn.x)/127.0, (vbn.z-128)/127.0, (vbn.y-128)/127.0);
vset->nrm[i*ds1+j] = normal;
}
}
}
if (!water) {
pVert = &vset->nrm[ds1*ds1];
// strip 1 & 2 verts
for (i = 0; i < ds1; i += detail_size) {
for (j = 0; j < ds1; j++) {
Vec3 vn = vset->nrm[i*ds1 + j];
*pVert++ = vn;
*pVert++ = vn;
}
}
// strip 3 & 4 verts
for (j = 0; j < ds1; j += detail_size) {
for (i = 0; i < ds1; i++) {
Vec3 vn = vset->nrm[i*ds1 + j];
*pVert++ = vn;
*pVert++ = vn;
}
}
}
}
if (level > max_detail)
max_detail = level;
return true;
}
void
Hoop::CreatePolys()
{
Material* mtl = new(__FILE__,__LINE__) Material;
mtl->tex_diffuse = hoop_texture;
mtl->blend = Material::MTL_ADDITIVE;
int w = width /2;
int h = height/2;
model = new(__FILE__,__LINE__) Model;
own_model = 1;
Surface* surface = new(__FILE__,__LINE__) Surface;
surface->SetName("hoop");
surface->CreateVerts(4);
surface->CreatePolys(2);
VertexSet* vset = surface->GetVertexSet();
Poly* polys = surface->GetPolys();
ZeroMemory(polys, sizeof(Poly) * 2);
for (int i = 0; i < 4; i++) {
int x = w;
int y = h;
float u = 0;
float v = 0;
if (i == 0 || i == 3)
x = -x;
else
u = 1;
if (i < 2)
y = -y;
else
v = 1;
vset->loc[i] = Vec3(x, y, 0);
vset->nrm[i] = Vec3(0, 0, 0);
vset->tu[i] = u;
vset->tv[i] = v;
}
for (int i = 0; i < 2; i++) {
Poly& poly = polys[i];
poly.nverts = 4;
poly.vertex_set = vset;
poly.material = mtl;
poly.verts[0] = i ? 3 : 0;
poly.verts[1] = i ? 2 : 1;
poly.verts[2] = i ? 1 : 2;
poly.verts[3] = i ? 0 : 3;
poly.plane = Plane(vset->loc[poly.verts[0]],
vset->loc[poly.verts[2]],
vset->loc[poly.verts[1]]);
surface->AddIndices(6);
}
// then assign them to cohesive segments:
Segment* segment = new(__FILE__,__LINE__) Segment;
segment->npolys = 2;
segment->polys = &polys[0];
segment->material = segment->polys->material;
surface->GetSegments().append(segment);
model->AddSurface(surface);
SetLuminous(true);
}
