#include "CModelData.hpp" #include "CAnimData.hpp" #include "IAnimReader.hpp" #include "Graphics/CGraphics.hpp" #include "Graphics/CSkinnedModel.hpp" #include "Graphics/CVertexMorphEffect.hpp" #include "Editor/ProjectManager.hpp" #include "CActorLights.hpp" #include "CStateManager.hpp" #include "CPlayerState.hpp" #include "GameGlobalObjects.hpp" #include "CAssetFactory.hpp" #include "CCharacterFactory.hpp" #include "CAdditiveAnimPlayback.hpp" namespace urde { static logvisor::Module Log("urde::CModelData"); CModelData::~CModelData() {} CModelData::CModelData() {} CModelData CModelData::CModelDataNull() {return CModelData();} CModelData::CModelData(const CStaticRes& res, int instCount) : x0_scale(res.GetScale()), m_drawInstCount(instCount) { x1c_normalModel = g_SimplePool->GetObj({SBIG('CMDL'), res.GetId()}); if (!x1c_normalModel) Log.report(logvisor::Fatal, "unable to find CMDL %08X", res.GetId()); m_normalModelInst = x1c_normalModel->MakeNewInstance(0, instCount); } CModelData::CModelData(const CAnimRes& res, int instCount) : x0_scale(res.GetScale()), m_drawInstCount(instCount) { TToken factory = g_CharFactoryBuilder->GetFactory(res); x10_animData = factory->CreateCharacter(res.GetCharacterNodeId(), res.CanLoop(), factory, res.GetDefaultAnim(), instCount); } SAdvancementDeltas CModelData::GetAdvancementDeltas(const CCharAnimTime& a, const CCharAnimTime& b) const { if (x10_animData) return x10_animData->GetAdvancementDeltas(a, b); else return {}; } void CModelData::Render(const CStateManager& stateMgr, const zeus::CTransform& xf, const CActorLights* lights, const CModelFlags& drawFlags) { Render(GetRenderingModel(stateMgr), xf, lights, drawFlags); } CModelData::EWhichModel CModelData::GetRenderingModel(const CStateManager& stateMgr) const { switch (stateMgr.GetPlayerState()->GetActiveVisor(stateMgr)) { case CPlayerState::EPlayerVisor::XRay: return CModelData::EWhichModel::XRay; case CPlayerState::EPlayerVisor::Thermal: return CModelData::EWhichModel::Thermal; default: return CModelData::EWhichModel::Normal; } } CSkinnedModel& CModelData::PickAnimatedModel(EWhichModel which) const { CSkinnedModel* ret = nullptr; switch (which) { case EWhichModel::XRay: ret = x10_animData->xf4_xrayModel.get(); case EWhichModel::Thermal: ret = x10_animData->xf8_infraModel.get(); default: break; } if (ret) return *ret; return *x10_animData->xd8_modelData.GetObj(); } const std::unique_ptr& CModelData::PickStaticModel(EWhichModel which) const { const std::unique_ptr* ret = nullptr; switch (which) { case EWhichModel::XRay: ret = &m_xrayModelInst; case EWhichModel::Thermal: ret = &m_infraModelInst; default: break; } if (ret) return *ret; return m_normalModelInst; } void CModelData::SetXRayModel(const std::pair& modelSkin) { if (modelSkin.first) { if (g_ResFactory->GetResourceTypeById(modelSkin.first) == SBIG('CMDL')) { if (x10_animData && modelSkin.second && g_ResFactory->GetResourceTypeById(modelSkin.second) == SBIG('CSKR')) { x10_animData->SetXRayModel(g_SimplePool->GetObj({SBIG('CMDL'), modelSkin.first}), g_SimplePool->GetObj({SBIG('CSKR'), modelSkin.second})); } else { x2c_xrayModel = g_SimplePool->GetObj({SBIG('CMDL'), modelSkin.first}); if (!x2c_xrayModel) Log.report(logvisor::Fatal, "unable to find CMDL %08X", modelSkin.first); m_xrayModelInst = x2c_xrayModel->MakeNewInstance(0, m_drawInstCount); } } } } void CModelData::SetInfraModel(const std::pair& modelSkin) { if (modelSkin.first) { if (g_ResFactory->GetResourceTypeById(modelSkin.first) == SBIG('CMDL')) { if (x10_animData && modelSkin.second && g_ResFactory->GetResourceTypeById(modelSkin.second) == SBIG('CSKR')) { x10_animData->SetInfraModel(g_SimplePool->GetObj({SBIG('CMDL'), modelSkin.first}), g_SimplePool->GetObj({SBIG('CSKR'), modelSkin.second})); } else { x3c_infraModel = g_SimplePool->GetObj({SBIG('CMDL'), modelSkin.first}); if (!x3c_infraModel) Log.report(logvisor::Fatal, "unable to find CMDL %08X", modelSkin.first); m_infraModelInst = x3c_infraModel->MakeNewInstance(0, m_drawInstCount); } } } } bool CModelData::IsDefinitelyOpaque(EWhichModel which) { if (x10_animData) { CSkinnedModel& model = PickAnimatedModel(which); return model.GetModelInst()->IsOpaque(); } else { const auto& model = PickStaticModel(which); return model->IsOpaque(); } } bool CModelData::GetIsLoop() const { if (!x10_animData) return false; return x10_animData->GetIsLoop(); } float CModelData::GetAnimationDuration(int idx) const { if (!x10_animData) return 0.f; return x10_animData->GetAnimationDuration(idx); } void CModelData::EnableLooping(bool enable) { if (!x10_animData) return; x10_animData->EnableLooping(enable); } void CModelData::AdvanceParticles(const zeus::CTransform& xf, float dt, CStateManager& stateMgr) { if (!x10_animData) return; x10_animData->AdvanceParticles(xf, dt, x0_scale, stateMgr); } zeus::CAABox CModelData::GetBounds() const { if (x10_animData) { return x10_animData->GetBoundingBox(zeus::CTransform::Scale(x0_scale)); } else { const zeus::CAABox& aabb = x1c_normalModel->GetAABB(); return zeus::CAABox(aabb.min * x0_scale, aabb.max * x0_scale); } } zeus::CAABox CModelData::GetBounds(const zeus::CTransform& xf) const { zeus::CTransform xf2 = xf * zeus::CTransform::Scale(x0_scale); if (x10_animData) return x10_animData->GetBoundingBox(xf2); else return x1c_normalModel->GetAABB().getTransformedAABox(xf2); } zeus::CTransform CModelData::GetScaledLocatorTransformDynamic(const std::string& name, const CCharAnimTime* time) const { zeus::CTransform xf = GetLocatorTransformDynamic(name, time); xf.origin *= x0_scale; return xf; } zeus::CTransform CModelData::GetScaledLocatorTransform(const std::string& name) const { zeus::CTransform xf = GetLocatorTransform(name); xf.origin *= x0_scale; return xf; } zeus::CTransform CModelData::GetLocatorTransformDynamic(const std::string& name, const CCharAnimTime* time) const { if (x10_animData) return x10_animData->GetLocatorTransform(name, time); else return {}; } zeus::CTransform CModelData::GetLocatorTransform(const std::string& name) const { if (x10_animData) return x10_animData->GetLocatorTransform(name, nullptr); else return {}; } SAdvancementDeltas CModelData::AdvanceAnimationIgnoreParticles(float dt, CRandom16& rand, bool advTree) { if (x10_animData) return x10_animData->AdvanceIgnoreParticles(dt, rand, advTree); else return {}; } SAdvancementDeltas CModelData::AdvanceAnimation(float dt, CStateManager& stateMgr, TAreaId aid, bool advTree) { if (x10_animData) return x10_animData->Advance(dt, x0_scale, stateMgr, aid, advTree); else return {}; } bool CModelData::IsAnimating() const { if (!x10_animData) return false; return x10_animData->IsAnimating(); } bool CModelData::IsInFrustum(const zeus::CTransform& xf, const zeus::CFrustum& frustum) const { if (!x10_animData && !x1c_normalModel) return true; return frustum.aabbFrustumTest(GetBounds(xf)); } void CModelData::RenderParticles(const zeus::CFrustum& frustum) const { if (x10_animData) x10_animData->RenderAuxiliary(frustum); } void CModelData::Touch(EWhichModel which, int shaderIdx) { if (x10_animData) x10_animData->Touch(PickAnimatedModel(which), shaderIdx); else PickStaticModel(which)->Touch(shaderIdx); } void CModelData::Touch(const CStateManager& stateMgr, int shaderIdx) { Touch(GetRenderingModel(stateMgr), shaderIdx); } void CModelData::RenderThermal(const zeus::CTransform& xf, const zeus::CColor& a, const zeus::CColor& b) { CGraphics::SetModelMatrix(xf * zeus::CTransform::Scale(x0_scale)); CGraphics::DisableAllLights(); CModelFlags drawFlags; drawFlags.m_extendedShader = EExtendedShader::ForcedAlpha; if (x10_animData) { CSkinnedModel& model = PickAnimatedModel(EWhichModel::Thermal); x10_animData->SetupRender(model, drawFlags, {}, nullptr); model.Draw(drawFlags); } else { const auto& model = PickStaticModel(EWhichModel::Thermal); model->Draw(drawFlags, nullptr, nullptr); } } void CModelData::RenderUnsortedParts(EWhichModel which, const zeus::CTransform& xf, const CActorLights* lights, const CModelFlags& drawFlags) { if ((x14_25_sortThermal && which == EWhichModel::Thermal) || x10_animData || !x1c_normalModel || drawFlags.x0_blendMode > 2) { const_cast(this)->x14_24_renderSorted = false; return; } CGraphics::SetModelMatrix(xf * zeus::CTransform::Scale(x0_scale)); const auto& model = PickStaticModel(which); if (lights) lights->ActivateLights(*model); else model->ActivateLights({}); model->DrawNormal(drawFlags, nullptr, nullptr); // Set ambient to white CGraphics::DisableAllLights(); const_cast(this)->x14_24_renderSorted = true; } void CModelData::Render(EWhichModel which, const zeus::CTransform& xf, const CActorLights* lights, const CModelFlags& drawFlags) { if (x14_25_sortThermal && which == EWhichModel::Thermal) { zeus::CColor mul(drawFlags.x4_color.a, drawFlags.x4_color.a, drawFlags.x4_color.a, drawFlags.x4_color.a); RenderThermal(xf, mul, {0.f, 0.f, 0.f, 0.25f}); } else { CGraphics::SetModelMatrix(xf * zeus::CTransform::Scale(x0_scale)); if (x10_animData) { CSkinnedModel& model = PickAnimatedModel(which); if (lights) lights->ActivateLights(*model.GetModelInst()); else model.GetModelInst()->ActivateLights({}); x10_animData->Render(model, drawFlags, {}, nullptr); } else { const auto& model = PickStaticModel(which); if (lights) lights->ActivateLights(*model); else model->ActivateLights({}); if (x14_24_renderSorted) model->DrawAlpha(drawFlags, nullptr, nullptr); else model->Draw(drawFlags, nullptr, nullptr); } // Set ambient to white CGraphics::DisableAllLights(); const_cast(this)->x14_24_renderSorted = false; } } }