mirror of https://github.com/AxioDL/metaforce.git
320 lines
12 KiB
C++
320 lines
12 KiB
C++
#include "CRagDoll.hpp"
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#include "Collision/CMetroidAreaCollider.hpp"
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#include "Collision/CGameCollision.hpp"
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#include "Collision/CMaterialFilter.hpp"
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#include "Collision/CCollidableSphere.hpp"
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#include "Collision/CCollisionInfo.hpp"
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#include "CStateManager.hpp"
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namespace urde {
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void CRagDoll::CRagDollLengthConstraint::Update() {
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zeus::CVector3f delta = x4_p2->x4_curPos - x0_p1->x4_curPos;
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float magSq = delta.magSquared();
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float lenSq = x8_length * x8_length;
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bool doSolve = true;
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switch (xc_ineqType) {
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case 1: // Min
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doSolve = magSq < lenSq;
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break;
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case 2: // Max
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doSolve = magSq > lenSq;
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break;
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default:
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break;
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}
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if (!doSolve)
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return;
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zeus::CVector3f solveVec = delta * (lenSq / (magSq + lenSq) - 0.5f);
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x0_p1->x4_curPos -= solveVec;
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x4_p2->x4_curPos += solveVec;
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}
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void CRagDoll::CRagDollJointConstraint::Update() {
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// L_hip, R_shoulder, L_shoulder, L_hip, L_knee, L_ankle
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zeus::CVector3f P4ToP5 = x10_p5->x4_curPos - xc_p4->x4_curPos; // L_hip->L_knee
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zeus::CVector3f cross =
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P4ToP5.cross((x8_p3->x4_curPos - x0_p1->x4_curPos).cross(x4_p2->x4_curPos - x0_p1->x4_curPos));
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// L_hip->L_knee X (L_hip->L_shoulder X L_hip->R_shoulder)
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if (cross.canBeNormalized()) {
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zeus::CVector3f hipUp = cross.cross(P4ToP5).normalized();
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float dot = (x14_p6->x4_curPos - x10_p5->x4_curPos).dot(hipUp);
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if (dot > 0.f) {
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zeus::CVector3f solveVec = 0.5f * dot * hipUp;
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x14_p6->x4_curPos -= solveVec;
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x10_p5->x4_curPos += solveVec;
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}
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}
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}
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void CRagDoll::CRagDollPlaneConstraint::Update() {
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zeus::CVector3f P1ToP2 = (x4_p2->x4_curPos - x0_p1->x4_curPos).normalized();
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float dot = P1ToP2.dot(xc_p4->x4_curPos - x8_p3->x4_curPos);
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if (dot < 0.f) {
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zeus::CVector3f solveVec = 0.5f * dot * P1ToP2;
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xc_p4->x4_curPos -= solveVec;
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x10_p5->x4_curPos += solveVec;
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}
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}
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CRagDoll::CRagDoll(float normalGravity, float floatingGravity, float overTime, u32 flags)
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: x44_normalGravity(normalGravity), x48_floatingGravity(floatingGravity), x50_overTimer(overTime) {
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x68_27_continueSmallMovements = bool(flags & 0x1);
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x68_28_noOverTimer = bool(flags & 0x2);
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x68_29_noAiCollision = bool(flags & 0x4);
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}
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void CRagDoll::AccumulateForces(float dt, float waterTop) {
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float fps = 1.f / dt;
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x64_angTimer += dt;
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if (x64_angTimer > 4.f)
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x64_angTimer -= 4.f;
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float targetZ = std::sin(zeus::degToRad(90.f) * x64_angTimer) * 0.1f + (waterTop - 0.2f);
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zeus::CVector3f centerOfVolume;
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float totalVolume = 0.f;
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for (auto& particle : x4_particles) {
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float volume = particle.x10_radius * particle.x10_radius * particle.x10_radius;
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totalVolume += volume;
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centerOfVolume += particle.x4_curPos * volume;
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float fromTargetZ = particle.x4_curPos.z() - targetZ;
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float verticalAcc = x48_floatingGravity;
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float termVelCoefficient = 0.f;
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if (std::fabs(fromTargetZ) < 0.5f) {
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termVelCoefficient = 0.5f * fromTargetZ / 0.5f + 0.5f;
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verticalAcc = x48_floatingGravity * -fromTargetZ / 0.5f;
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} else if (fromTargetZ > 0.f) {
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verticalAcc = x44_normalGravity;
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termVelCoefficient = 1.f;
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}
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particle.x20_velocity.z() += verticalAcc;
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zeus::CVector3f vel = (particle.x4_curPos - particle.x14_prevPos) * fps;
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float velMag = vel.magnitude();
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if (velMag > FLT_EPSILON) {
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particle.x20_velocity -=
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vel * (1.f / velMag) *
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((velMag * velMag * 0.75f * (1.2f * termVelCoefficient + 1000.f * (1.f - termVelCoefficient))) /
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(8000.f * particle.x10_radius));
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}
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}
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zeus::CVector3f averageTorque;
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centerOfVolume = centerOfVolume / totalVolume;
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for (const auto& particle : x4_particles) {
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float volume = particle.x10_radius * particle.x10_radius * particle.x10_radius;
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averageTorque += (particle.x4_curPos - centerOfVolume).cross(particle.x4_curPos - particle.x14_prevPos) * volume;
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}
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averageTorque = averageTorque * (fps / totalVolume);
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if (averageTorque.canBeNormalized())
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for (auto& particle : x4_particles)
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particle.x20_velocity -= averageTorque.cross(particle.x4_curPos - centerOfVolume) * 25.f;
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}
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void CRagDoll::AddParticle(CSegId id, const zeus::CVector3f& prevPos, const zeus::CVector3f& curPos, float radius) {
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x4_particles.emplace_back(id, curPos, radius, prevPos);
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}
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void CRagDoll::AddLengthConstraint(int i1, int i2) {
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x14_lengthConstraints.emplace_back(&x4_particles[i1], &x4_particles[i2],
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(x4_particles[i1].x4_curPos - x4_particles[i2].x4_curPos).magnitude(), 0);
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}
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void CRagDoll::AddMaxLengthConstraint(int i1, int i2, float length) {
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x14_lengthConstraints.emplace_back(&x4_particles[i1], &x4_particles[i2], length, 2);
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}
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void CRagDoll::AddMinLengthConstraint(int i1, int i2, float length) {
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x14_lengthConstraints.emplace_back(&x4_particles[i1], &x4_particles[i2], length, 1);
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}
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void CRagDoll::AddJointConstraint(int i1, int i2, int i3, int i4, int i5, int i6) {
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x24_jointConstraints.emplace_back(&x4_particles[i1], &x4_particles[i2], &x4_particles[i3], &x4_particles[i4],
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&x4_particles[i5], &x4_particles[i6]);
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}
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zeus::CQuaternion CRagDoll::BoneAlign(CHierarchyPoseBuilder& pb, const CCharLayoutInfo& charInfo, int i1, int i2,
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const zeus::CQuaternion& q) {
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zeus::CVector3f fromParent = charInfo.GetFromParentUnrotated(x4_particles[i2].x0_id);
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zeus::CVector3f delta = x4_particles[i2].x4_curPos - x4_particles[i1].x4_curPos;
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delta = q.inverse().transform(delta);
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zeus::CQuaternion ret = zeus::CQuaternion::shortestRotationArc(fromParent, delta);
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pb.GetTreeMap()[x4_particles[i1].x0_id].x4_rotation = ret;
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return ret;
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}
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zeus::CAABox CRagDoll::CalculateRenderBounds() const {
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zeus::CAABox aabb;
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for (const auto& particle : x4_particles) {
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aabb.accumulateBounds(
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zeus::CAABox(particle.x4_curPos - particle.x10_radius, particle.x4_curPos + particle.x10_radius));
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}
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return aabb;
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}
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void CRagDoll::CheckStatic(float dt) {
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x4c_impactCount = 0;
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x54_impactVel = 0.f;
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float halfDt = 0.5f * dt;
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float halfDeltaUnitSq = halfDt * halfDt;
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x58_averageVel = zeus::CVector3f::skZero;
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bool movingSlowly = true;
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for (auto& particle : x4_particles) {
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zeus::CVector3f delta = particle.x4_curPos - particle.x14_prevPos;
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x58_averageVel += delta;
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if (delta.magSquared() > halfDeltaUnitSq)
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movingSlowly = false;
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if (particle.x3c_24_impactPending) {
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x4c_impactCount += 1;
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x54_impactVel = std::max(particle.x38_impactFrameVel, x54_impactVel);
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}
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}
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if (!x4_particles.empty())
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x58_averageVel = x58_averageVel * (1.f / (dt * x4_particles.size()));
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x54_impactVel /= dt;
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if (!x68_28_noOverTimer) {
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x50_overTimer -= dt;
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if (x50_overTimer <= 0.f)
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x68_25_over = true;
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}
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if (movingSlowly && x68_24_prevMovingSlowly)
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x68_25_over = true;
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x68_24_prevMovingSlowly = movingSlowly;
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}
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void CRagDoll::ClearForces() {
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for (auto& particle : x4_particles)
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particle.x20_velocity = zeus::CVector3f::skZero;
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}
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void CRagDoll::SatisfyConstraints(CStateManager& mgr) {
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for (auto& length : x14_lengthConstraints)
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length.Update();
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for (auto& joint : x24_jointConstraints)
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joint.Update();
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for (auto& plane : x34_planeConstraints)
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plane.Update();
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if (SatisfyWorldConstraints(mgr, 1))
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SatisfyWorldConstraints(mgr, 2);
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}
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bool CRagDoll::SatisfyWorldConstraints(CStateManager& mgr, int pass) {
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zeus::CAABox aabb;
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for (const auto& particle : x4_particles) {
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if (pass == 1 || particle.x3c_24_impactPending) {
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aabb.accumulateBounds(particle.x14_prevPos - particle.x10_radius);
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aabb.accumulateBounds(particle.x14_prevPos + particle.x10_radius);
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aabb.accumulateBounds(particle.x4_curPos - particle.x10_radius);
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aabb.accumulateBounds(particle.x4_curPos + particle.x10_radius);
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}
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}
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CAreaCollisionCache ccache(aabb);
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CGameCollision::BuildAreaCollisionCache(mgr, ccache);
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bool needs2ndPass = false;
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TUniqueId bestId = kInvalidUniqueId;
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CMaterialList include;
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if (x68_29_noAiCollision)
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include = CMaterialList(EMaterialTypes::Solid);
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else
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include = CMaterialList(EMaterialTypes::Solid, EMaterialTypes::AIBlock);
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CMaterialList exclude;
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if (x68_29_noAiCollision)
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exclude = CMaterialList(EMaterialTypes::Character, EMaterialTypes::Player, EMaterialTypes::AIBlock,
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EMaterialTypes::Occluder);
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else
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exclude = CMaterialList(EMaterialTypes::Character, EMaterialTypes::Player);
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rstl::reserved_vector<TUniqueId, 1024> nearList;
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CMaterialFilter filter = CMaterialFilter::MakeIncludeExclude(include, exclude);
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mgr.BuildNearList(nearList, aabb, filter, nullptr);
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for (auto& particle : x4_particles) {
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if (pass == 1 || particle.x3c_24_impactPending) {
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zeus::CVector3f delta = particle.x4_curPos - particle.x14_prevPos;
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float deltaMag = delta.magnitude();
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if (deltaMag > 0.0001f) {
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delta = delta * (1.f / deltaMag);
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double d = deltaMag;
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CCollidableSphere sphere(zeus::CSphere(particle.x14_prevPos, particle.x10_radius), include);
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CCollisionInfo info;
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CGameCollision::DetectCollision_Cached_Moving(mgr, ccache, sphere, {}, filter, nearList, delta, bestId, info,
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d);
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if (info.IsValid()) {
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needs2ndPass = true;
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switch (pass) {
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case 1: {
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particle.x3c_24_impactPending = true;
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float dot = delta.dot(info.GetNormalLeft());
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particle.x2c_impactResponseDelta = -0.125f * dot * deltaMag * info.GetNormalLeft();
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particle.x38_impactFrameVel = -dot * deltaMag;
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particle.x4_curPos += (0.0001f - (deltaMag - float(d)) * dot) * info.GetNormalLeft();
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break;
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}
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case 2:
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particle.x4_curPos = float(d - 0.0001) * delta + particle.x14_prevPos;
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break;
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default:
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break;
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}
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}
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} else if (!x68_27_continueSmallMovements) {
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particle.x4_curPos = particle.x14_prevPos;
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}
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}
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}
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return needs2ndPass;
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}
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void CRagDoll::SatisfyWorldConstraintsOnConstruction(CStateManager& mgr) {
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for (auto& particle : x4_particles)
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particle.x3c_24_impactPending = true;
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SatisfyWorldConstraints(mgr, 2);
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for (auto& particle : x4_particles)
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particle.x14_prevPos = particle.x4_curPos;
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}
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void CRagDoll::Verlet(float dt) {
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for (auto& particle : x4_particles) {
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zeus::CVector3f oldPos = particle.x4_curPos;
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particle.x4_curPos += (particle.x4_curPos - particle.x14_prevPos) * (particle.x3c_24_impactPending ? 0.9f : 1.f);
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particle.x4_curPos += particle.x20_velocity * (dt * dt);
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particle.x4_curPos += particle.x2c_impactResponseDelta;
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particle.x14_prevPos = oldPos;
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zeus::CVector3f deltaPos = particle.x4_curPos - particle.x14_prevPos;
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if (deltaPos.magSquared() > 4.f)
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particle.x4_curPos = deltaPos.normalized() * 2.f + particle.x14_prevPos;
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particle.x3c_24_impactPending = false;
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particle.x2c_impactResponseDelta = zeus::CVector3f::skZero;
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}
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}
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void CRagDoll::PreRender(const zeus::CVector3f& v, CModelData& mData) {
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// Empty
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}
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void CRagDoll::Update(CStateManager& mgr, float dt, float waterTop) {
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if (!x68_25_over || x68_27_continueSmallMovements) {
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AccumulateForces(dt, waterTop);
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Verlet(dt);
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SatisfyConstraints(mgr);
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ClearForces();
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CheckStatic(dt);
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}
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}
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void CRagDoll::Prime(CStateManager& mgr, const zeus::CTransform& xf, CModelData& mData) {
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zeus::CVector3f scale = mData.GetScale();
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CAnimData* aData = mData.AnimationData();
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aData->BuildPose();
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for (auto& particle : x4_particles)
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if (particle.x0_id != 0xff)
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particle.x4_curPos = xf * (aData->GetPose().GetOffset(particle.x0_id) * scale);
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SatisfyWorldConstraints(mgr, 2);
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for (auto& particle : x4_particles)
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particle.x3c_24_impactPending = false;
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x68_26_primed = true;
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}
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} // namespace urde
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