#include "Runtime/Character/CBoneTracking.hpp" #include "Runtime/CStateManager.hpp" #include "Runtime/Character/CAnimData.hpp" #include "Runtime/Character/CBodyController.hpp" #include "Runtime/Character/CHierarchyPoseBuilder.hpp" #include "Runtime/World/CPatterned.hpp" #include "TCastTo.hpp" // Generated file, do not modify include path namespace metaforce { CBoneTracking::CBoneTracking(const CAnimData& animData, std::string_view bone, float maxTrackingAngle, float angSpeed, EBoneTrackingFlags flags) : x14_segId(animData.GetCharLayoutInfo().GetSegIdFromString(bone)) , x1c_maxTrackingAngle(maxTrackingAngle) , x20_angSpeed(angSpeed) , x36_26_noParent(True(flags & EBoneTrackingFlags::NoParent)) , x36_27_noParentOrigin(True(flags & EBoneTrackingFlags::NoParentOrigin)) , x36_28_noHorizontalAim(True(flags & EBoneTrackingFlags::NoHorizontalAim)) , x36_29_parentIk(True(flags & EBoneTrackingFlags::ParentIk)) {} void CBoneTracking::Update(float dt) { x18_time += dt; } void CBoneTracking::PreRender(const CStateManager& mgr, CAnimData& animData, const zeus::CTransform& xf, const zeus::CVector3f& vec, const CBodyController& bodyController) { TCastToPtr patterned = bodyController.GetOwner(); PreRender(mgr, animData, xf, vec, (bodyController.GetBodyStateInfo().ApplyHeadTracking() && patterned && patterned->ApplyBoneTracking())); } void CBoneTracking::PreRender(const CStateManager& mgr, CAnimData& animData, const zeus::CTransform& worldXf, const zeus::CVector3f& localOffsetScale, bool tracking) { if (x14_segId == 0) return; CHierarchyPoseBuilder& pb = animData.PoseBuilder(); TCastToConstPtr targetAct = mgr.GetObjectById(x34_target); if (x36_24_active && tracking && (targetAct || x24_targetPosition)) { x36_25_hasTrackedRotation = true; const auto& layoutInfo = pb.CharLayoutInfo(); CSegId bone; if (x36_26_noParent) bone = x14_segId; else bone = layoutInfo->GetRootNode()->GetBoneMap()[x14_segId].x0_parentId; zeus::CTransform parentBoneXf; pb.BuildTransform(bone, parentBoneXf); zeus::CVector3f pos = parentBoneXf.origin; if (x36_27_noParentOrigin && !x36_26_noParent) { zeus::CTransform thisBoneXf; pb.BuildTransform(x14_segId, thisBoneXf); pos = thisBoneXf.origin; } parentBoneXf.origin = pos * localOffsetScale; zeus::CTransform finalXf = worldXf * parentBoneXf; zeus::CVector3f localDir = finalXf.transposeRotate( (targetAct ? targetAct->GetAimPosition(mgr, 0.f) : *x24_targetPosition) - finalXf.origin).normalized(); if (x36_28_noHorizontalAim) localDir = zeus::CVector3f(0.f, localDir.toVec2f().magnitude(), localDir.z()); if (x36_29_parentIk) { float negElev = -parentBoneXf.basis[1].z(); zeus::CVector3f ikBase(0.f, std::sqrt(1.f - negElev * negElev), negElev); float angle = zeus::CVector3f::getAngleDiff(ikBase, localDir); angle = std::min(angle, x1c_maxTrackingAngle); localDir = zeus::CVector3f::slerp(ikBase, localDir, angle); } else { float angle = zeus::CVector3f::getAngleDiff(zeus::skForward, localDir); angle = std::min(angle, x1c_maxTrackingAngle); localDir = zeus::CVector3f::slerp(zeus::skForward, localDir, angle); } float angle = zeus::CVector3f::getAngleDiff(x0_curRotation.transform(zeus::skForward), localDir); float clampedAngle = std::min(angle, x18_time * x20_angSpeed); if (clampedAngle > 1.0e-05f) { x0_curRotation = zeus::CQuaternion::slerpShort(x0_curRotation, zeus::CQuaternion::lookAt(zeus::skForward, zeus::CUnitVector3f(localDir), 2.f * M_PIF), clampedAngle / angle); } pb.GetTreeMap()[x14_segId].x4_rotation = x0_curRotation; animData.MarkPoseDirty(); } else if (x36_25_hasTrackedRotation) { zeus::CQuaternion qb = pb.GetTreeMap()[x14_segId].x4_rotation; float angle = zeus::CVector3f::getAngleDiff(x0_curRotation.transform(zeus::skForward), qb.transform(zeus::skForward)); float maxAngDelta = x18_time * x20_angSpeed; float clampedAngle = std::min(angle, maxAngDelta); if (clampedAngle > 0.5f * maxAngDelta) { x0_curRotation = zeus::CQuaternion::slerpShort(x0_curRotation, qb, clampedAngle / angle); pb.GetTreeMap()[x14_segId].x4_rotation = x0_curRotation; animData.MarkPoseDirty(); } else { x36_25_hasTrackedRotation = false; x0_curRotation = qb; } } else { x0_curRotation = pb.GetTreeMap()[x14_segId].x4_rotation; } x18_time = 0.f; } void CBoneTracking::SetActive(bool active) { x36_24_active = active; } void CBoneTracking::SetTarget(TUniqueId target) { x34_target = target; } void CBoneTracking::UnsetTarget() { x34_target = kInvalidUniqueId; } void CBoneTracking::SetTargetPosition(const zeus::CVector3f& targetPos) { x24_targetPosition = targetPos; } void CBoneTracking::SetNoHorizontalAim(bool b) { x36_28_noHorizontalAim = b; } } // namespace metaforce