static void Cedric_AnimateDrawEntityRender(EERIE_3DOBJ * eobj, const Vec3f & pos,
Entity * io, float invisibility) {
Skeleton *obj = eobj->m_skeleton;
if(!obj)
return;
ColorMod colorMod;
colorMod.updateFromEntity(io);
/* Get nearest lights */
Vec3f tv = pos;
if(io && io->obj->fastaccess.head_group_origin != ObjVertHandle())
tv.y = io->obj->vertexlist3[io->obj->fastaccess.head_group_origin.handleData()].v.y + 10;
else
tv.y -= 90.f;
ShaderLight lights[llightsSize];
int lightsCount;
UpdateLlights(lights, lightsCount, tv, false);
Cedric_ApplyLighting(lights, lightsCount, eobj, obj, colorMod);
Cedric_RenderObject(eobj, obj, io, pos, invisibility);
// Now we can render Linked Objects
for(size_t k = 0; k < eobj->linked.size(); k++) {
const EERIE_LINKED & link = eobj->linked[k];
if(link.lgroup == ObjVertGroup() || !link.obj)
continue;
// specific check to avoid drawing player weapon on its back when in subjective view
if(io == entities.player() &&
link.lidx == entities.player()->obj->fastaccess.weapon_attach &&
!EXTERNALVIEW
)
continue;
TransformInfo t(
actionPointPosition(eobj, link.lidx),
eobj->m_skeleton->bones[link.lgroup.handleData()].anim.quat,
link.io ? link.io->scale : 1.f,
link.obj->vertexlist[link.lidx2.handleData()].v - link.obj->vertexlist[link.obj->origin].v);
DrawEERIEInter(link.obj, t, link.io, true, invisibility);
}
}
static Vec3f GetChestPos(EntityHandle num) {
if(num == EntityHandle_Player) {
return player.pos + Vec3f(0.f, 70.f, 0.f);
}
if(ValidIONum(num)) {
ObjVertHandle idx = GetGroupOriginByName(entities[num]->obj, "chest");
if(idx != ObjVertHandle()) {
return entities[num]->obj->vertexlist3[idx.handleData()].v;
} else {
return entities[num]->pos + Vec3f(0.f, -120.f, 0.f);
}
} else {
// should not happen
return Vec3f_ZERO;
}
}
static Vec3f GetChestPos(EntityHandle num) {
if(num == EntityHandle_Player) {
return player.pos + Vec3f(0.f, 70.f, 0.f);
}
Entity * io = entities.get(num);
if(!io) {
// should not happen
return Vec3f(0.f);
}
ObjVertHandle idx = GetGroupOriginByName(io->obj, "chest");
if(idx != ObjVertHandle()) {
return io->obj->vertexWorldPositions[idx.handleData()].v;
}
return io->pos + Vec3f(0.f, -120.f, 0.f);
}
void LightningStrikeSpell::Update() {
float fBeta = 0.f;
float falpha = 0.f;
Entity * caster = entities[m_caster];
ObjVertHandle idx = GetGroupOriginByName(caster->obj, "chest");
if(idx != ObjVertHandle()) {
m_caster_pos = caster->obj->vertexlist3[idx.handleData()].v;
} else {
m_caster_pos = caster->pos;
}
if(m_caster == EntityHandle_Player) {
falpha = -player.angle.getPitch();
fBeta = player.angle.getYaw();
} else {
fBeta = caster->angle.getYaw();
if(ValidIONum(caster->targetinfo) && caster->targetinfo != m_caster) {
const Vec3f & p1 = m_caster_pos;
Vec3f p2 = GetChestPos(caster->targetinfo);
falpha = MAKEANGLE(glm::degrees(getAngle(p1.y, p1.z, p2.y, p2.z + glm::distance(Vec2f(p2.x, p2.z), Vec2f(p1.x, p1.z))))); //alpha entre orgn et dest;
} else if(ValidIONum(m_target)) {
const Vec3f & p1 = m_caster_pos;
Vec3f p2 = GetChestPos(m_target);
falpha = MAKEANGLE(glm::degrees(getAngle(p1.y, p1.z, p2.y, p2.z + glm::distance(Vec2f(p2.x, p2.z), Vec2f(p1.x, p1.z))))); //alpha entre orgn et dest;
}
}
m_lightning.m_pos = m_caster_pos;
m_lightning.m_beta = fBeta;
m_lightning.m_alpha = falpha;
m_lightning.m_caster = m_caster;
m_lightning.m_level = m_level;
m_lightning.Update(ArxDurationMs(g_framedelay));
m_lightning.Render();
ARX_SOUND_RefreshPosition(m_snd_loop, entities[m_caster]->pos);
}
void ConfuseSpell::Update() {
Vec3f pos = entities[m_target]->pos;
if(m_target != EntityHandle_Player) {
pos.y += entities[m_target]->physics.cyl.height - 30.f;
}
ObjVertHandle idx = entities[m_target]->obj->fastaccess.head_group_origin;
if(idx != ObjVertHandle()) {
pos = entities[m_target]->obj->vertexlist3[idx.handleData()].v;
pos.y -= 50.f;
}
eCurPos = pos;
RenderMaterial mat;
mat.setDepthTest(false);
mat.setBlendType(RenderMaterial::Additive);
mat.setTexture(tex_trail);
Anglef stiteangle = Anglef(0.f, -glm::degrees(arxtime.now_f() * ( 1.0f / 500 )), 0.f);
{
AnimationDuration delta = AnimationDurationUs(s64(g_framedelay * 1000.f));
EERIEDrawAnimQuatUpdate(spapi, animlayer, stiteangle, eCurPos, delta, NULL, false);
EERIEDrawAnimQuatRender(spapi, eCurPos, NULL, 0.f);
}
for(int i = 0; i < 6; i++) {
PARTICLE_DEF * pd = createParticle();
if(!pd) {
break;
}
Vec2f p = glm::diskRand(15.f);
pd->ov = eCurPos + Vec3f(p.x, 0.f, p.y);
pd->move = Vec3f(0.f, Random::getf(1.f, 4.f), 0.f);
pd->siz = 0.25f;
pd->tolive = Random::getu(2300, 3300);
pd->tc = tex_p1;
pd->m_flags = PARTICLE_GOLDRAIN | FADE_IN_AND_OUT | ROTATING | DISSIPATING;
pd->m_rotation = 0.0000001f;
Color3f baseColor = Color3f(0.4f, 0.2f, 0.4f);
Color3f randomFactor = Color3f(0.4f, 0.6f, 0.4f);
Color3f c = baseColor + randomColor3f() * randomFactor;
while(glm::abs(c.r - c.g) > 0.3f && glm::abs(c.g - c.b) > 0.3f) {
c = baseColor + randomColor3f() * randomFactor;
}
pd->rgb = c * Color3f(0.8f, 0.8f, 0.8f);
}
EERIE_LIGHT * light = dynLightCreate(m_light);
if(light) {
light->intensity = 1.3f;
light->fallstart = 180.f;
light->fallend = 420.f;
light->rgb = Color3f(0.3f, 0.3f, 0.5f) + Color3f(0.2f, 0.f, 0.2f) * randomColor3f();
light->pos = eCurPos;
light->duration = ArxDurationMs(200);
light->extras = 0;
}
}
// Converts a Theo Object to an EERIE object
static EERIE_3DOBJ * TheoToEerie(const char * adr, long size, const res::path & texpath, const res::path & fic) {
LogWarning << "TheoToEerie " << fic;
if(!adr)
return NULL;
res::path txpath = texpath.empty() ? "graph/obj3d/textures" : texpath;
if(size < 10) {
return NULL;
}
size_t pos = 0;
const THEO_HEADER * pth = reinterpret_cast<const THEO_HEADER *>(adr + pos);
pos += sizeof(THEO_HEADER);
if(pth->version < 3003 || pth->version > 3011) {
LogError << "TheoToEerie: invalid version in " << fic << ": found " << pth->version
<< " expected 3004 to 3011";
return NULL;
}
EERIE_3DOBJ * eerie = new EERIE_3DOBJ;
eerie->clear();
eerie->file = fic;
if(pth->type_write == 0) {
// read the texture
LogError << "WARNING object " << fic << " SAVE MAP IN OBJECT = INVALID... Using Dummy Textures...";
eerie->texturecontainer.resize(pth->nb_maps);
for(long i = 0; i < pth->nb_maps; i++) {
pos += sizeof(THEO_TEXTURE);
eerie->texturecontainer[i] = GetAnyTexture();
}
} else {
if((pth->type_write & SAVE_MAP_BMP) || (pth->type_write & SAVE_MAP_TGA)) {
eerie->texturecontainer.resize(pth->nb_maps);
for(long i = 0; i < pth->nb_maps; i++) {
res::path name;
if(pth->version >= 3008) {
const THEO_SAVE_MAPS_IN_3019 * tsmi3019 = reinterpret_cast<const THEO_SAVE_MAPS_IN_3019 *>(adr + pos);
pos += sizeof(THEO_SAVE_MAPS_IN_3019);
name = res::path::load(util::loadString(tsmi3019->texture_name)).remove_ext();
} else {
const THEO_SAVE_MAPS_IN * tsmi = reinterpret_cast<const THEO_SAVE_MAPS_IN *>(adr + pos);
pos += sizeof(THEO_SAVE_MAPS_IN);
name = res::path::load(util::loadString(tsmi->texture_name)).remove_ext();
}
if(!name.empty()) {
eerie->texturecontainer[i] = TextureContainer::Load(txpath / name, TextureContainer::Level);
}
}
}
}
pos = pth->object_seek;
loadObjectData(eerie, adr, &pos, pth->version);
eerie->angle = Anglef::ZERO;
eerie->pos = Vec3f_ZERO;
// NORMALS CALCULATIONS
//Compute Faces Areas
for(size_t i = 0; i < eerie->facelist.size(); i++) {
const Vec3f & p0 = eerie->vertexlist[eerie->facelist[i].vid[0]].v;
const Vec3f & p1 = eerie->vertexlist[eerie->facelist[i].vid[1]].v;
const Vec3f & p2 = eerie->vertexlist[eerie->facelist[i].vid[2]].v;
eerie->facelist[i].temp = glm::distance((p0 + p1) * .5f, p2) * glm::distance(p0, p1) * .5f;
}
for(size_t i = 0; i < eerie->facelist.size(); i++) {
eerie->facelist[i].norm = CalcObjFaceNormal(
eerie->vertexlist[eerie->facelist[i].vid[0]].v,
eerie->vertexlist[eerie->facelist[i].vid[1]].v,
eerie->vertexlist[eerie->facelist[i].vid[2]].v
);
float area = eerie->facelist[i].temp;
for(long j = 0; j < 3; j++) {
float mod = area * area;
Vec3f nrml = eerie->facelist[i].norm * mod;
float count = mod;
for(size_t i2 = 0; i2 < eerie->facelist.size(); i2++) {
if(i != i2) {
float area2 = eerie->facelist[i].temp;
for(long j2 = 0; j2 < 3; j2++) {
if(closerThan(eerie->vertexlist[eerie->facelist[i2].vid[j2]].v, eerie->vertexlist[eerie->facelist[i].vid[j]].v, .1f)) {
mod = (area2 * area2);
nrml += eerie->facelist[i2].norm * mod;
count += mod;
}
}
}
}
count = 1.f / count;
eerie->vertexlist[eerie->facelist[i].vid[j]].vert.p = nrml * count;
}
}
for(size_t i = 0; i < eerie->facelist.size(); i++) {
for(long j = 0; j < 3; j++) {
eerie->vertexlist[eerie->facelist[i].vid[j]].norm = eerie->vertexlist[eerie->facelist[i].vid[j]].vert.p;
}
}
// Apply Normals Spherical correction for NPC head
ObjVertHandle neck_orgn = GetGroupOriginByName(eerie, "neck");
ObjVertGroup head_idx = EERIE_OBJECT_GetGroup(eerie, "head");
if(head_idx != ObjVertGroup() && neck_orgn != ObjVertHandle()) {
VertexGroup & headGroup = eerie->grouplist[head_idx.handleData()];
Vec3f center = Vec3f_ZERO;
Vec3f origin = eerie->vertexlist[neck_orgn.handleData()].v;
float count = (float)headGroup.indexes.size();
if(count > 0.f) {
for(size_t idx = 0 ; idx < headGroup.indexes.size(); idx++) {
center += eerie->vertexlist[ headGroup.indexes[idx] ].v;
}
center = (center * (1.f / count) + origin + origin) * (1.0f / 3);
float max_threshold = glm::distance(origin, center);
for(size_t i = 0; i < headGroup.indexes.size(); i++) {
EERIE_VERTEX * ev = &eerie->vertexlist[headGroup.indexes[i]];
float d = glm::distance(ev->v, origin);
float factor = 1.f;
if(d < max_threshold) {
factor = d / max_threshold;
}
float ifactor = 1.f - factor;
Vec3f fakenorm;
fakenorm = ev->v - center;
fakenorm = glm::normalize(fakenorm);
ev->norm = ev->norm * ifactor + fakenorm * factor;
ev->norm = glm::normalize(ev->norm);
}
}
}
// NORMALS CALCULATIONS END
//***********************************************************
eerie->m_skeleton = NULL;
EERIE_CreateCedricData(eerie);
return eerie;
}
