#include "Runtime/Weapon/CNewFlameThrower.hpp" #include "Runtime/CSimplePool.hpp" #include "Runtime/CStateManager.hpp" #include "Runtime/Collision/CCollisionInfoList.hpp" #include "Runtime/GameGlobalObjects.hpp" #include "Runtime/World/CGameArea.hpp" #include "Runtime/World/CGameLight.hpp" #include "Runtime/World/CPlayer.hpp" #include "Runtime/World/CWorld.hpp" #include "TCastTo.hpp" #include "Runtime/Collision/CCollisionPrimitive.hpp" #include "Runtime/World/CPatterned.hpp" #include "Runtime/MP1/World/CFlickerBat.hpp" #include "Runtime/World/CSnakeWeedSwarm.hpp" #include "Runtime/Collision/CMetroidAreaCollider.hpp" #include "Runtime/Collision/CGameCollision.hpp" #include "Runtime/Particle/CParticleGlobals.hpp" #include "Runtime/World/CScriptTrigger.hpp" #include "Runtime/Graphics/CBooRenderer.hpp" namespace urde { namespace { constexpr CMaterialFilter skExcludeProjectilePassthrough = CMaterialFilter::MakeExclude(EMaterialTypes::ProjectilePassthrough); } CNewFlameThrower::CNewFlameThrower(const TToken& desc, std::string_view name, EWeaponType wType, const std::array& resInfo, const zeus::CTransform& xf, EMaterialTypes matType, const CDamageInfo& dInfo, TUniqueId uid, TAreaId aid, TUniqueId owner, EProjectileAttrib attribs) : CGameProjectile(false, desc, name, wType, xf, matType, dInfo, uid, aid, owner, kInvalidUniqueId, attribs, false, zeus::skOne3f, {}, -1, false) , x304_mainFire(g_SimplePool->GetObj(SObjectTag{FOURCC('PART'), resInfo[0]})) , x310_mainSmoke(g_SimplePool->GetObj(SObjectTag{FOURCC('PART'), resInfo[1]})) , x31c_secondarySmoke(g_SimplePool->GetObj(SObjectTag{FOURCC('PART'), resInfo[4]})) , x328_secondaryFire(g_SimplePool->GetObj(SObjectTag{FOURCC('PART'), resInfo[5]})) , x334_secondarySparks(g_SimplePool->GetObj(SObjectTag{FOURCC('PART'), resInfo[6]})) , x340_swooshCenter(g_SimplePool->GetObj(SObjectTag{FOURCC('SWHC'), resInfo[2]})) , x34c_swooshFire(g_SimplePool->GetObj(SObjectTag{FOURCC('SWHC'), resInfo[3]})) { x304_mainFire.GetObj(); x310_mainSmoke.GetObj(); x31c_secondarySmoke.GetObj(); x328_secondaryFire.GetObj(); x334_secondarySparks.GetObj(); x340_swooshCenter.GetObj(); x34c_swooshFire.GetObj(); x380_flameContactPoints.resize(3); } void CNewFlameThrower::Think(float dt, CStateManager& mgr) { CWeapon::Think(dt, mgr); TAreaId cur_area_id = mgr.GetWorld()->GetCurrentAreaId(); mgr.SetActorAreaId(*this, cur_area_id); for (TUniqueId& light_id : x3b8_lightIds) { CEntity* light = mgr.ObjectById(light_id); if (light == nullptr) { light_id = kInvalidUniqueId; } else { mgr.SetActorAreaId(*reinterpret_cast(light), cur_area_id); } } } void CNewFlameThrower::Accept(IVisitor& visitor) { visitor.Visit(this); } void CNewFlameThrower::AcceptScriptMsg(EScriptObjectMessage msg, TUniqueId uid, CStateManager& mgr) { if (msg == EScriptObjectMessage::Deleted) { mgr.RemoveWeaponId(GetOwnerId(), GetType()); DeleteLightObjects(mgr); SetWorldLighting(mgr, mgr.GetPlayer().GetAreaIdAlways(), 4.f, 1.f); } else if (msg == EScriptObjectMessage::Registered) { xe6_27_thermalVisorFlags = 2; // Thermal hot Think(1.f / 60.f, mgr); mgr.AddWeaponId(xec_ownerId, xf0_weaponType); } CGameProjectile::AcceptScriptMsg(msg, uid, mgr); } void CNewFlameThrower::DeleteLightObjects(CStateManager& mgr) { for (TUniqueId const& id : x3b8_lightIds) { mgr.FreeScriptObject(id); } x3b8_lightIds.clear(); } void CNewFlameThrower::AddToRenderer(zeus::CFrustum const& planes, CStateManager& mgr) { zeus::CAABox sorting_bounds = GetSortingBounds(mgr); EnsureRendered(mgr, x34_transform.origin, sorting_bounds); } void CNewFlameThrower::CreateLightObjects(CStateManager& mgr) { DeleteLightObjects(mgr); for (int i = 0; i < 4; ++i) { TUniqueId uid = mgr.AllocateUniqueId(); CLight lObj = x358_mainFireGen->GetLight(); CGameLight* light = new CGameLight(uid, GetAreaId(), false, "FlamethrowerLight", zeus::CTransform(), x8_uid, lObj, u32(reinterpret_cast(this) + (i & 0x1)), 0, 0.f); mgr.AddObject(light); x3b8_lightIds.push_back(uid); } } void CNewFlameThrower::EnableFx(CStateManager& mgr) { DeleteProjectileLight(mgr); x358_mainFireGen = std::make_unique(x304_mainFire); x35c_mainSmokeGen = std::make_unique(x310_mainSmoke); x360_secondarySmokeGen = std::make_unique(x31c_secondarySmoke); x364_secondaryFireGen = std::make_unique(x328_secondaryFire); x368_secondarySparksGen = std::make_unique(x334_secondarySparks); x36c_swooshCenterGen = std::make_unique(x340_swooshCenter, 0); x36c_swooshCenterGen->SetRenderGaps(true); x370_swooshFireGen = std::make_unique(x34c_swooshFire, 0); x370_swooshFireGen->SetRenderGaps(true); if (x358_mainFireGen && x358_mainFireGen->SystemHasLight() && x3b8_lightIds.empty()) CreateLightObjects(mgr); } void CNewFlameThrower::StartFiring(const zeus::CTransform& xf, CStateManager& mgr) { SetActive(true); x37c_25_firing = true; x37c_24_renderAuxEffects = true; x374_flameState = EFlameState::FireStart; EnableFx(mgr); } bool CNewFlameThrower::AreEffectsFinished() const { if (x358_mainFireGen && x358_mainFireGen->GetParticleCount() != 0) return false; if (x35c_mainSmokeGen && x35c_mainSmokeGen->GetParticleCount() != 0) return false; if (x360_secondarySmokeGen && x360_secondarySmokeGen->GetParticleCount() != 0) return false; if (x364_secondaryFireGen && x364_secondaryFireGen->GetParticleCount() != 0) return false; return !(x368_secondarySparksGen && x368_secondarySparksGen->GetParticleCount() != 0); } /* Used for old CNewFlameThrower::RenderParticles void CNewFlameThrower::LoadParticleGenQuads() { if (!loaded_textures) { beam_filters[0] = std::make_unique( EFilterType::Add, x358_mainFireGen->GetLoadedDesc()->x54_x40_TEXR->GetValueTexture(0)); beam_filters[1] = std::make_unique( EFilterType::Add, x35c_mainSmokeGen->GetLoadedDesc()->x54_x40_TEXR->GetValueTexture(0)); beam_filters[2] = std::make_unique( EFilterType::Add, x360_secondarySmokeGen->GetLoadedDesc()->x54_x40_TEXR->GetValueTexture(0)); beam_filters[3] = std::make_unique( EFilterType::Add, x364_secondaryFireGen->GetLoadedDesc()->x54_x40_TEXR->GetValueTexture(0)); beam_filters[4] = std::make_unique( EFilterType::Add, x368_secondarySparksGen->GetLoadedDesc()->x54_x40_TEXR->GetValueTexture(0)); loaded_textures = true; } } */ void CNewFlameThrower::Render(CStateManager& mgr) { if (x30_24_active) { x36c_swooshCenterGen->Render(); x370_swooshFireGen->Render(); x368_secondarySparksGen->Render(); x364_secondaryFireGen->Render(); x360_secondarySmokeGen->Render(); x35c_mainSmokeGen->Render(); x358_mainFireGen->Render(); /*RenderBeam({x358_mainFireGen.get(), x35c_mainSmokeGen.get(), x360_secondarySmokeGen.get(), x364_secondaryFireGen.get(), x368_secondarySparksGen.get()});*/ } } /* Removed this, source function was painfully similar to CElementGen::RenderParticles void CNewFlameThrower::RenderParticles(std::array const& elem_gens) { LoadParticleGenQuads(); zeus::CTransform xf(CGraphics::g_ViewMatrix); zeus::CTransform xf2 = xf; xf2.origin = zeus::skZero3f; zeus::CTransform xf3 = xf2.inverse(); zeus::CTransform xf4 = xf3; // CGraphics::SetModelMatrix(xf2); // CGraphics::SetCullMode(ERglCullMode::None); // CGraphics::SetDepthWriteMode(true, ERglEnum::LEqual, false); // CGraphics::SetAlphaCompare(ERglAlphaFunc::Always, 0, ERglAlphaOp::And, ERglAlphaFunc::Always, 0); // TODO: check sMoveRedToAlphaBuffer // CGraphics::SetBlendMode(ERglBlendMode::Blend, ERglBlendFactor::One, ERglBlendFactor::One, ERglLogicOp::Clear); int total_particles = 0; for (CElementGen* elem : elem_gens) { total_particles += elem->GetParticleCount(); } // This is... something isn't it struct ParticleElement { u16 elem_gen_idx; u16 part_idx; zeus::CVector3f vec; }; auto* translated_sorted_particles = reinterpret_cast(_alloca(sizeof(ParticleElement) * total_particles)); int active_particle_count = 0; for (int i = 0; i < elem_gens.size(); i++) { CElementGen* elem = elem_gens[i]; int iter_count = elem->GetParticleCount(); for (int j = 0; j < iter_count; j++) { CParticle& part = elem->GetParticles()[j]; if (part.x0_endFrame == -1) { continue; } // ???? // translated_sorted_particles[part_idx].vec = xf4 * part.x4_pos; translated_sorted_particles[active_particle_count].vec = xf4 * (((part.x4_pos - part.x10_prevPos) * elem->GetTimeDeltaScale()) + part.x10_prevPos); translated_sorted_particles[active_particle_count].elem_gen_idx = static_cast(i); translated_sorted_particles[active_particle_count].part_idx = static_cast(j); active_particle_count++; } } Log.report(logvisor::Info, FMT_STRING("Active particle count (render count) {}"), active_particle_count); std::sort(translated_sorted_particles, translated_sorted_particles + active_particle_count, [](ParticleElement const& l, ParticleElement const& r) { return l.vec.y() > r.vec.y(); }); int last_gen_idx = 0xffff; CElementGen* cur_gen = nullptr; CGenDescription* gen_desc = nullptr; u32 emitter_time = 0; for (int i = 0; i < active_particle_count; i++) { ParticleElement* pe = translated_sorted_particles + i; if (pe->elem_gen_idx != last_gen_idx) { cur_gen = elem_gens[pe->elem_gen_idx]; emitter_time = cur_gen->GetEmitterTime(); gen_desc = cur_gen->GetLoadedDesc(); if (CElementGen::sMoveRedToAlphaBuffer) { // TEV stuff } else { if (gen_desc->x44_26_x30_26_AAPH) { // CGraphics::SetBlendMode(ERglBlendMode::Blend, ERglBlendFactor::SrcAlpha, ERglBlendFactor::One, // ERglLogicOp::Clear); } else { // CGraphics::SetBlendMode(ERglBlendMode::Blend, ERglBlendFactor::SrcAlpha, ERglBlendFactor::InvSrcAlpha, // ERglLogicOp::Clear); } } // more TEV stuff last_gen_idx = pe->elem_gen_idx; } CParticle& part = cur_gen->GetParticles()[pe->part_idx]; u32 elapsed_time = emitter_time - part.x28_startFrame - 1; CParticleGlobals::instance()->SetParticleLifetime(part.x0_endFrame - part.x28_startFrame); CParticleGlobals::instance()->UpdateParticleLifetimeTweenValues(elapsed_time); SUVElementSet uvs; xf3 = xf2.inverse(); zeus::CTransform system_camera_matrix = xf3 * cur_gen->x22c_globalOrientation; xf3 = ((zeus::CTransform::Translate(cur_gen->xe8_globalTranslation) * cur_gen->x10c_globalScaleTransform) * xf3) * cur_gen->x178_localScaleTransform; g_Renderer->SetModelMatrix(xf3); gen_desc->x54_x40_TEXR->GetValueUV(elapsed_time, uvs); float ang = zeus::degToRad(part.x30_lineWidthOrRota); float size = part.x2c_lineLengthOrSize * 0.5f; float sin_extent = sinf(ang) * size; float cos_extent = cosf(ang) * size; std::array vertices; zeus::CVector3f simd_vec(sin_extent + cos_extent, 0, cos_extent - sin_extent); vertices[0].m_pos = pe->vec + zeus::CVector3f(sin_extent + cos_extent, 0, cos_extent - sin_extent); vertices[0].m_uv = zeus::CVector2f(uvs.xMax, uvs.yMax); vertices[1].m_pos = pe->vec - zeus::CVector3f(sin_extent - cos_extent, 0, sin_extent + cos_extent); vertices[1].m_uv = zeus::CVector2f(uvs.xMin, uvs.yMax); vertices[2].m_pos = pe->vec - zeus::CVector3f(sin_extent + cos_extent, 0, cos_extent - sin_extent); vertices[2].m_uv = zeus::CVector2f(uvs.xMin, uvs.yMin); vertices[3].m_pos = pe->vec + zeus::CVector3f(sin_extent - cos_extent, 0, sin_extent + cos_extent); vertices[3].m_uv = zeus::CVector2f(uvs.xMin, uvs.yMax); beam_filters[pe->elem_gen_idx]->drawVerts(part.x34_color, vertices); } } */ void CNewFlameThrower::UpdateFx(const zeus::CTransform& xf, float dt, CStateManager& mgr) { if (!x30_24_active) { return; } float active_time = 0; // g_Main.x118_avgTickTimePerSec + g_Main.x11c_avgDrawTimePerSec; omitting this until handled by URDE x37c_26_runningSlowish = (active_time > 0.65f); UpdateFlameState(dt, mgr); zeus::CVector3f org = xf.origin; zeus::CTransform rot = xf.getRotation(); zeus::CTransform rot_copy(rot); x358_mainFireGen->SetTranslation(org); x358_mainFireGen->SetOrientation(rot_copy); x36c_swooshCenterGen->SetTranslation(org); x36c_swooshCenterGen->SetOrientation(rot_copy); x370_swooshFireGen->SetTranslation(org); x370_swooshFireGen->SetOrientation(rot_copy); float particle_rate = (x37c_26_runningSlowish ? 1.f : 0.5f); x358_mainFireGen->SetGeneratorRate(particle_rate); x358_mainFireGen->Update(dt); x35c_mainSmokeGen->Update(dt); x360_secondarySmokeGen->Update(dt); x364_secondaryFireGen->Update(dt); x368_secondarySparksGen->Update(dt); x36c_swooshCenterGen->Update(dt); x370_swooshFireGen->Update(dt); rstl::reserved_vector collision_list; UpdateParticleCollisions(dt, mgr, collision_list); if (collision_list.size() > 0) { for (auto& swoosh : x36c_swooshCenterGen->GetSwooshes()) { for (auto& cube : collision_list) { float dpos = (cube.center - swoosh.xc_translation).magSquared(); if (dpos < (cube.bounds * cube.bounds)) { swoosh.x0_active = false; } } } for (auto& particle : x358_mainFireGen->GetParticles()) { for (auto& cube : collision_list) { float dpos = (cube.center - particle.x4_pos).magSquared(); if (dpos < (cube.bounds * cube.bounds)) { particle.x0_endFrame = -1; } } } for (auto& particle : x35c_mainSmokeGen->GetParticles()) { for (auto& cube : collision_list) { float dpos = (cube.center - particle.x4_pos).magSquared(); if (dpos < (cube.bounds * cube.bounds)) { particle.x0_endFrame = -1; } } } } if (x374_flameState == EFlameState::FireActive) { int free_space = x36c_swooshCenterGen->GetSwooshes().capacity() - x36c_swooshCenterGen->GetSwooshes().size(); if (free_space < 4) { const int swoosh_count = static_cast(x36c_swooshCenterGen->GetSwooshes().size()); int quarter_behind_cur = ((((swoosh_count / 2) * 3) / 2) + x36c_swooshCenterGen->GetCurParticle()) % swoosh_count; if (x36c_swooshCenterGen->GetSwooshes()[quarter_behind_cur].x0_active) { // Need better names here int next_idx = (quarter_behind_cur + 1) % swoosh_count; auto& swoosh_1 = x36c_swooshCenterGen->GetSwooshes()[quarter_behind_cur]; auto& swoosh_2 = x36c_swooshCenterGen->GetSwooshes()[next_idx]; zeus::CVector3f delta = swoosh_1.xc_translation - swoosh_2.xc_translation; float f0 = delta.dot(swoosh_1.x38_orientation.frontVector()); zeus::CVector3f unk = delta - (swoosh_1.x38_orientation.frontVector() * f0); float tmp = std::clamp(unk.magnitude() * 30.f, 1.f, x37c_26_runningSlowish ? 2.f : 4.f); x3b4_numSmokeParticlesSpawned = std::max(static_cast(round(tmp)), x3b4_numSmokeParticlesSpawned - 1); x35c_mainSmokeGen->SetTranslation(swoosh_1.xc_translation); x35c_mainSmokeGen->SetOrientation(swoosh_1.x38_orientation); if (x3b4_numSmokeParticlesSpawned > 0) { x35c_mainSmokeGen->ForceParticleCreation(x3b4_numSmokeParticlesSpawned); } } } } UpdateLights(mgr); } // TODO: lights don't actually light void CNewFlameThrower::UpdateLights(CStateManager& mgr) { CGlobalRandom rand(x2e8_rand); int lit_particle_step = std::max(2, static_cast(x370_swooshFireGen->GetSwooshes().size() / 4)); int prev_particle = (x370_swooshFireGen->GetCurParticle() - 1) % x370_swooshFireGen->GetSwooshes().size(); int lit_particle_offset = 0; const int fire_swoosh_count = static_cast(x370_swooshFireGen->GetSwooshes().size()); for (auto& light_id : x3b8_lightIds) { if (TCastToPtr light = mgr.ObjectById(light_id)) { bool should_light = true; if (fire_swoosh_count <= lit_particle_offset) { should_light = false; } auto& light_swoosh = x370_swooshFireGen->GetSwooshes()[(lit_particle_offset + prev_particle) % fire_swoosh_count]; if (!light_swoosh.x0_active) { should_light = false; } light->SetActive(should_light); if (!should_light) { lit_particle_offset += lit_particle_step; continue; } CLight light_data = x358_mainFireGen->GetLight(); if (x304_mainFire.GetObj()->x104_xf0_LCLR.get()) { s32 rand_int = x2e8_rand.Range(0, 16); CParticleGlobals::instance()->SetEmitterTime(rand_int); zeus::CColor out_color(0xffff00ff); x304_mainFire.GetObj()->x104_xf0_LCLR->GetValue(rand_int, out_color); light_data.SetColor(out_color); } if (x304_mainFire.GetObj()->x108_xf4_LINT.get()) { s32 rand_int = x2e8_rand.Range(0, 16); CParticleGlobals::instance()->SetEmitterTime(rand_int); float out_const_attenuation = 1.f; x304_mainFire.GetObj()->x108_xf4_LINT->GetValue(rand_int, out_const_attenuation); light_data.SetAngleAttenuation(out_const_attenuation, 0.f, 0.f); } light->SetLight(light_data); light->SetTranslation(light_swoosh.xc_translation); lit_particle_offset += lit_particle_step; } } } bool CNewFlameThrower::UpdateParticleCollisions(float dt, CStateManager& mgr, rstl::reserved_vector& collisions_out) { x300_wasPointAdded = false; bool any_particle_collisions = false; rstl::reserved_vector near_list_cache; // rstl::reserved_vector, ?> unk_rstl_vec; // inner vectors of size 0x90c, never used // though CCollisionInfoList cached_cinfo; auto& swoosh_vec = x370_swooshFireGen->GetSwooshes(); const int swoosh_count = static_cast(swoosh_vec.size()); const int tmp = swoosh_count / 4; const int batch_process_size = tmp < 6 ? 6 : tmp; const int prev_particle = ((swoosh_count + x370_swooshFireGen->GetCurParticle()) - 1) % swoosh_count; int i = 0; while (i < swoosh_count) { int batch_start = i; int batch_end = i + batch_process_size; if (batch_end >= swoosh_count) { batch_end = swoosh_count; } float batch_highest_speed = 0.f; bool processed_swoosh_in_batch = false; zeus::CAABox batch_particle_bounds; // Accumulate bounds of this batch and its max speed for (int j = batch_start; j < batch_end; j++) { if (!swoosh_vec[j].x0_active) { continue; } if (!processed_swoosh_in_batch) { // Retro assigned MIN_FLOAT and MAX_FLOAT, but this should suffice batch_particle_bounds = zeus::CAABox(); } processed_swoosh_in_batch = true; batch_particle_bounds.accumulateBounds(swoosh_vec[j].xc_translation); float swoosh_speed_sq = swoosh_vec[j].x74_velocity.magSquared(); if (batch_highest_speed < swoosh_speed_sq) { batch_highest_speed = swoosh_speed_sq; } } batch_highest_speed = sqrtf(batch_highest_speed) + 0.1f; batch_particle_bounds.accumulateBounds(batch_particle_bounds.min - zeus::CVector3f(batch_highest_speed)); batch_particle_bounds.accumulateBounds(batch_particle_bounds.max + zeus::CVector3f(batch_highest_speed)); near_list_cache.clear(); CMaterialFilter near_list_filter = CMaterialFilter::MakeIncludeExclude( CMaterialList(EMaterialTypes::Solid), CMaterialList(EMaterialTypes::ProjectilePassthrough)); mgr.BuildNearList(near_list_cache, batch_particle_bounds, near_list_filter, mgr.Player()); CAreaCollisionCache coll_cache(batch_particle_bounds); CGameCollision::BuildAreaCollisionCache(mgr, coll_cache); for (int j = batch_start; j < batch_end; j++) { if (j == prev_particle || !swoosh_vec[j].x0_active) { continue; } auto& cur_swoosh = swoosh_vec[j]; CCollidableSphere coll_prim(zeus::CSphere(cur_swoosh.xc_translation, batch_highest_speed), CMaterialList(EMaterialTypes::Solid)); CCollisionInfoList coll_info_out; bool collided_static = CGameCollision::DetectStaticCollision_Cached( mgr, coll_cache, coll_prim, zeus::CTransform(), skExcludeProjectilePassthrough, coll_info_out); TUniqueId first_actor_hit = kInvalidUniqueId; bool collided_other = FindCollisionInNearList(mgr, near_list_cache, coll_prim, first_actor_hit, coll_info_out); if ((collided_static || collided_other) && coll_info_out.GetCount() > 0) { cur_swoosh.x0_active = false; any_particle_collisions = true; cached_cinfo.Clear(); coll_info_out.AccumulateNewContactsInto(cached_cinfo); int k = 0; zeus::CVector3f last_added_pt = zeus::skZero3f; for (CCollisionInfo const& info : cached_cinfo) { if (k > 3) { break; } float overlap_range = x37c_26_runningSlowish ? 1 : 0.75f; int num_overlap = SortAndFindOverlappingPoints(Cube{info.GetPoint(), overlap_range}); const int max_overlapping = (x37c_26_runningSlowish ? 2 : 3); if (num_overlap < max_overlapping) { AddContactPoint(info, 10); zeus::CTransform xf = zeus::lookAt(zeus::skZero3f, info.GetNormalLeft(), zeus::skUp); x360_secondarySmokeGen->SetOrientation(xf); x364_secondaryFireGen->SetOrientation(xf); x368_secondarySparksGen->SetOrientation(xf); x360_secondarySmokeGen->SetTranslation(info.GetPoint()); x364_secondaryFireGen->SetTranslation(info.GetPoint()); x368_secondarySparksGen->SetTranslation(info.GetPoint()); x360_secondarySmokeGen->ForceParticleCreation(1); x364_secondaryFireGen->ForceParticleCreation(max_overlapping); x368_secondarySparksGen->ForceParticleCreation(x37c_26_runningSlowish ? 3 : 5); if (x37c_26_runningSlowish) { break; } last_added_pt = info.GetPoint(); } k++; } if (!x37c_26_runningSlowish && !x300_wasPointAdded) { float dist_between = (x2f4_lastParticleCollisionLoc - last_added_pt).magSquared(); if (cached_cinfo.GetCount() < 3 || dist_between > 3.0f) { zeus::CVector3f avg_loc = (x2f4_lastParticleCollisionLoc + last_added_pt) * 0.5f; x364_secondaryFireGen->SetTranslation(avg_loc); x364_secondaryFireGen->ForceParticleCreation(2); } } x2f4_lastParticleCollisionLoc = last_added_pt; x300_wasPointAdded = true; if (first_actor_hit != kInvalidUniqueId) { if (TCastToPtr act = mgr.ObjectById(first_actor_hit)) { if (CanDamageActor(*act, mgr)) { CDamageInfo dmg_info(x12c_curDamageInfo, dt); mgr.ApplyDamage(x8_uid, act->GetUniqueId(), xec_ownerId, dmg_info, xf8_filter, cur_swoosh.x74_velocity.normalized()); } } } CDamageInfo dmg_info(x12c_curDamageInfo, dt); mgr.ApplyDamageToWorld(xec_ownerId, *this, cur_swoosh.xc_translation, dmg_info, xf8_filter); collisions_out.push_back({cur_swoosh.xc_translation, batch_highest_speed}); if (collisions_out.size() == 32) { cached_cinfo.Clear(); coll_info_out.Clear(); near_list_cache.clear(); return true; } cached_cinfo.Clear(); } coll_info_out.Clear(); } near_list_cache.clear(); mgr.BuildNearList(near_list_cache, batch_particle_bounds, CMaterialFilter::MakeInclude(CMaterialList(EMaterialTypes::NonSolidDamageable)), mgr.Player()); for (TUniqueId const& uid : near_list_cache) { if (TCastToPtr sw = mgr.ObjectById(uid)) { for (int j = batch_start; j < batch_end; j++) { if (j == prev_particle || !swoosh_vec[j].x0_active) { continue; } float damage_radius_multiplier = batch_highest_speed < 1.f ? 1 : batch_highest_speed; sw->HandleRadiusDamage(damage_radius_multiplier * sw->GetWeaponDamageRadius(), mgr, swoosh_vec[j].xc_translation); } } } for (int j = batch_start; j < batch_end; j++) { if (j == prev_particle || !swoosh_vec[j].x0_active) { continue; } auto& cur_swoosh = swoosh_vec[j]; CCollidableSphere coll_prim(zeus::CSphere(cur_swoosh.xc_translation, batch_highest_speed), CMaterialList(EMaterialTypes::Solid)); CCollisionInfoList coll_info_out; TUniqueId first_actor_hit; FindCollisionInNearList(mgr, near_list_cache, coll_prim, first_actor_hit, coll_info_out); if (first_actor_hit != kInvalidUniqueId) { if (TCastToPtr act = mgr.ObjectById(first_actor_hit)) { if (CanDamageActor(*act, mgr)) { CDamageInfo dmg_info(x12c_curDamageInfo, dt); mgr.ApplyDamage(x8_uid, act->GetUniqueId(), xec_ownerId, dmg_info, xf8_filter, cur_swoosh.x74_velocity.normalized()); } } } coll_info_out.Clear(); } i += batch_process_size; } DecrementContactPointTimers(); near_list_cache.clear(); return any_particle_collisions; } bool CNewFlameThrower::CanDamageActor(CActor& hit_actor, CStateManager& mgr) { CDamageVulnerability const* vuln = hit_actor.GetDamageVulnerability(); if (vuln->GetVulnerability(x12c_curDamageInfo.GetWeaponMode(), false) == EVulnerability::PassThrough) { return false; } if (TCastToPtr trigger = hit_actor) { CProjectileTouchResult res = CanCollideWithTrigger(*trigger, mgr); return res.GetActorId() != kInvalidUniqueId; } if (TCastToPtr platform = hit_actor) { return true; } if (TCastToPtr coll_actor = hit_actor) { return true; } if (CPatterned::CastTo(&hit_actor)) { return true; } CProjectileTouchResult res = CanCollideWithGameObject(hit_actor, mgr); return res.GetActorId() != kInvalidUniqueId; } void CNewFlameThrower::AddContactPoint(CCollisionInfo const& cinfo, u32 time) { int elem = 0; for (auto& cp_vec : x380_flameContactPoints) { cp_vec.emplace_back(cinfo.GetPoint()[elem], time); elem++; } x37c_27_newPointAdded = true; } int CNewFlameThrower::SortAndFindOverlappingPoints(Cube const& box) { if (x37c_27_newPointAdded) { for (auto& component_vec : x380_flameContactPoints) { std::sort(component_vec.begin(), component_vec.end()); } } int min_overlap = std::numeric_limits::max(); for (int i = 0; i < x380_flameContactPoints.size(); i++) { auto const& component_vec = x380_flameContactPoints[i]; float search_min = box.center[i] - box.bounds; float search_max = box.center[i] + box.bounds; auto min_result = rstl::binary_find(component_vec.begin(), component_vec.end(), Contact{search_min, 0}); auto max_result = rstl::binary_find(component_vec.begin(), component_vec.end(), Contact{search_max, 0}); if (min_result == component_vec.end()) { min_result = component_vec.begin(); } int num_overlap = static_cast(max_result - min_result); num_overlap = num_overlap < min_overlap ? num_overlap : min_overlap; if (num_overlap == 0) { return 0; } min_overlap = num_overlap; } return min_overlap; } bool CNewFlameThrower::FindCollisionInNearList(CStateManager& mgr, rstl::reserved_vector const& near_list, CCollisionPrimitive const& coll, TUniqueId& first_coll_out, CCollisionInfoList& collisions) { for (TUniqueId const& cur_uid : near_list) { if (TCastToPtr near_actor = mgr.ObjectById(cur_uid)) { if (TCastToPtr pa = *near_actor) { CInternalCollisionStructure::CPrimDesc pa_desc(*pa->GetCollisionPrimitive(), pa->GetMaterialFilter(), pa->GetPrimitiveTransform()); CInternalCollisionStructure::CPrimDesc param_desc(coll, skExcludeProjectilePassthrough, zeus::CTransform()); if (CCollisionPrimitive::Collide(pa_desc, param_desc, collisions)) { first_coll_out = cur_uid; return true; } } else { auto bounds = near_actor->GetTouchBounds(); if (!bounds.has_value()) { continue; } CCollidableAABox coll_aabb(bounds.value(), CMaterialList(EMaterialTypes::Solid)); CInternalCollisionStructure::CPrimDesc aabb_desc(coll_aabb, CMaterialFilter::skPassEverything, zeus::CTransform()); CInternalCollisionStructure::CPrimDesc param_desc(coll, skExcludeProjectilePassthrough, zeus::CTransform()); if (CCollisionPrimitive::Collide(param_desc, aabb_desc, collisions)) { first_coll_out = cur_uid; return true; } } } } return false; } void CNewFlameThrower::DecrementContactPointTimers() { for (auto& vec : x380_flameContactPoints) { int end = static_cast(vec.size() - 1); for (size_t i = 0; i < vec.size(); i++) { vec[i].remainingTime--; if (vec[i].remainingTime == 0) { vec[i] = vec[end]; vec.pop_back(); // forgot to decrement iterator ? // i--; end--; } } } } void CNewFlameThrower::Reset(CStateManager& mgr, bool deactivate) { if (deactivate) { SetLightsActive(mgr, false); SetActive(false); x374_flameState = EFlameState::Default; x2ec_particlesDoneTimer = 0.f; x2f0_flamesDoneTimer = 0.f; } else { x374_flameState = EFlameState::FireStopTimer; } x37c_25_firing = false; x358_mainFireGen->SetParticleEmission(false); x35c_mainSmokeGen->SetParticleEmission(false); x36c_swooshCenterGen->SetParticleEmission(false); x370_swooshFireGen->SetParticleEmission(false); } void CNewFlameThrower::SetLightsActive(CStateManager& mgr, bool active) { for (TUniqueId const& uid : x3b8_lightIds) { if (TCastToPtr light = mgr.ObjectById(uid)) { light->SetActive(active); } } } void CNewFlameThrower::UpdateFlameState(float dt, CStateManager& mgr) { bool flame_light_active = false; switch (x374_flameState) { case EFlameState::FireWaitForParticlesDone: x2ec_particlesDoneTimer += dt; if (x2ec_particlesDoneTimer > 0.1f && AreEffectsFinished()) { x374_flameState = EFlameState::Default; Reset(mgr, true); } break; case EFlameState::FireStopTimer: flame_light_active = true; x2f0_flamesDoneTimer = (dt * 4) + x2f0_flamesDoneTimer; if (x2f0_flamesDoneTimer > 1.f) { x2f0_flamesDoneTimer = 1.f; x374_flameState = EFlameState::FireWaitForParticlesDone; x37c_24_renderAuxEffects = false; } break; case EFlameState::FireStart: x374_flameState = EFlameState::FireActive; break; case EFlameState::FireActive: flame_light_active = true; break; default: break; } const float speed = flame_light_active ? 4.f : 1.f; const float target = flame_light_active ? 0.7f : 1.f; SetWorldLighting(mgr, mgr.GetPlayer().GetAreaIdAlways(), speed, target); } void CNewFlameThrower::SetWorldLighting(CStateManager& mgr, TAreaId area, float speed, float target) { if (x37c_28_activeLighting && x378_currentLitArea != kInvalidAreaId) { CGameArea* lit_area = mgr.GetWorld()->GetArea(x378_currentLitArea); // Restore previous area's lighting if (!lit_area->IsPostConstructed()) { lit_area->SetWeaponWorldLighting(1.f, 1.f); } } x378_currentLitArea = area; x37c_28_activeLighting = (target != 1.f); if (x378_currentLitArea != kInvalidAreaId) { CGameArea* lit_area = mgr.GetWorld()->GetArea(x378_currentLitArea); if (!lit_area->IsPostConstructed()) { lit_area->SetWeaponWorldLighting(speed, target); } } } } // namespace urde