void CPlayerStateUtil::FinalizeMovementRequest( CPlayer& player, const SActorFrameMovementParams & movement, SCharacterMoveRequest& request )
{
//////////////////////////////////////////////////////////////////////////
/// Remote players stuff...
UpdateRemotePlayersInterpolation(player, movement, request);
//////////////////////////////////////////////////////////////////////////
/// Send the request to animated character
if (player.m_pAnimatedCharacter)
{
request.allowStrafe = movement.allowStrafe;
request.prediction = movement.prediction;
CRY_ASSERT_TRACE(request.velocity.IsValid(), ("Invalid velocity %.2f %.2f %.2f for %s!", request.velocity.x, request.velocity.y, request.velocity.z, player.GetEntity()->GetEntityTextDescription()));
NETINPUT_TRACE(player.GetEntityId(), request.rotation * FORWARD_DIRECTION);
NETINPUT_TRACE(player.GetEntityId(), request.velocity);
#ifdef STATE_DEBUG
player.DebugGraph_AddValue("ReqVelo", request.velocity.GetLength());
player.DebugGraph_AddValue("ReqVeloX", request.velocity.x);
player.DebugGraph_AddValue("ReqVeloY", request.velocity.y);
player.DebugGraph_AddValue("ReqVeloZ", request.velocity.z);
player.DebugGraph_AddValue("ReqRotZ", RAD2DEG(request.rotation.GetRotZ()));
#endif
player.m_pAnimatedCharacter->AddMovement( request );
}
NETINPUT_TRACE(player.GetEntityId(), request.velocity);
player.m_lastRequestedVelocity = request.velocity;
// reset the request for the next frame!
InitializeMoveRequest( request );
}
void CPlayerStateGround::OnPrePhysicsUpdate( CPlayer& player, const SActorFrameMovementParams &movement, float frameTime, const bool isHeavyWeapon, const bool isPlayer )
{
const Matrix34A baseMtx = Matrix34A(player.GetBaseQuat());
Matrix34A baseMtxZ(baseMtx * Matrix33::CreateScale(Vec3Constants<float>::fVec3_OneZ));
baseMtxZ.SetTranslation(Vec3Constants<float>::fVec3_Zero);
const CAutoAimManager& autoAimManager = g_pGame->GetAutoAimManager();
const EntityId closeCombatTargetId = autoAimManager.GetCloseCombatSnapTarget();
const IActor* pCloseCombatTarget = isPlayer && closeCombatTargetId && player.IsClient() ? g_pGame->GetIGameFramework()->GetIActorSystem()->GetActor(closeCombatTargetId) : NULL;
if (pCloseCombatTarget)
{
ProcessAlignToTarget(autoAimManager, player, pCloseCombatTarget);
}
else
{
// This is to restore inertia if the ProcessAlignToTarget set it previously.
if( m_inertiaIsZero )
{
CPlayerStateUtil::RestorePlayerPhysics( player );
m_inertiaIsZero = false;
}
//process movement
const bool isRemote = isPlayer && !player.IsClient();
Vec3 move(ZERO);
CPlayerStateUtil::CalculateGroundOrJumpMovement( player, movement, isHeavyWeapon, move );
player.GetMoveRequest().type = eCMT_Normal;
//apply movement
Vec3 desiredVel(ZERO);
Vec3 entityPos = player.GetEntity()->GetWorldPos();
Vec3 entityRight(player.GetBaseQuat().GetColumn0());
hwvec3 xmDesiredVel = HWV3Zero();
hwmtx33 xmBaseMtxZ;
HWMtx33LoadAligned(xmBaseMtxZ, baseMtxZ);
hwmtx33 xmBaseMtxZOpt = HWMtx33GetOptimized(xmBaseMtxZ);
hwvec3 xmMove = HWVLoadVecUnaligned(&move);
simdf fGroundNormalZ;
#ifdef STATE_DEBUG
bool debugJumping = (g_pGameCVars->pl_debug_jumping != 0);
#endif
const SPlayerStats& stats = *player.GetActorStats();
{
xmDesiredVel = xmMove;
Vec3 groundNormal = player.GetActorPhysics().groundNormal;
if(!gEnv->bMultiplayer)
{
if (player.IsAIControlled())
fGroundNormalZ = SIMDFLoadFloat(square(groundNormal.z));
else
fGroundNormalZ = SIMDFLoadFloat(groundNormal.z);
}
else
{
//If the hill steepness is greater than our minimum threshold
if(groundNormal.z > 1.f - cosf(g_pGameCVars->pl_movement.mp_slope_speed_multiplier_minHill))
{
//Check if we are trying to move up or downhill
groundNormal.z = 0.f;
groundNormal.Normalize();
Vec3 moveDir = move;
moveDir.z = 0.f;
moveDir.Normalize();
float normalDotMove = groundNormal.Dot(moveDir);
//Apply speed multiplier based on moving up/down hill and hill steepness
float multiplier = normalDotMove < 0.f ? g_pGameCVars->pl_movement.mp_slope_speed_multiplier_uphill : g_pGameCVars->pl_movement.mp_slope_speed_multiplier_downhill;
fGroundNormalZ = SIMDFLoadFloat(1.f - (1.f - player.GetActorPhysics().groundNormal.z) * multiplier);
}
else
{
fGroundNormalZ = SIMDFLoadFloat(1.0f);
}
}
const float depthHi = g_pGameCVars->cl_shallowWaterDepthHi;
const float depthLo = g_pGameCVars->cl_shallowWaterDepthLo;
const float relativeBottomDepth = player.m_playerStateSwim_WaterTestProxy.GetRelativeBottomDepth();
if( relativeBottomDepth > depthLo )
{ // Shallow water speed slowdown
float shallowWaterMultiplier = 1.0f;
shallowWaterMultiplier = isPlayer
? g_pGameCVars->cl_shallowWaterSpeedMulPlayer
: g_pGameCVars->cl_shallowWaterSpeedMulAI;
shallowWaterMultiplier = max(shallowWaterMultiplier, 0.1f);
assert(shallowWaterMultiplier <= 1.0f);
float shallowWaterDepthSpan = (depthHi - depthLo);
shallowWaterDepthSpan = max(0.1f, shallowWaterDepthSpan);
float slowdownFraction = (relativeBottomDepth - depthLo) / shallowWaterDepthSpan;
slowdownFraction = clamp_tpl(slowdownFraction, 0.0f, 1.0f);
shallowWaterMultiplier = LERP(1.0f, shallowWaterMultiplier, slowdownFraction);
//avoid branch if m_stats.relativeBottomDepth <= 0.0f;
shallowWaterMultiplier = (float)__fsel(-relativeBottomDepth, 1.0f, shallowWaterMultiplier);
simdf vfShallowWaterMultiplier = SIMDFLoadFloat(shallowWaterMultiplier);
xmDesiredVel = HWVMultiplySIMDF(xmDesiredVel, vfShallowWaterMultiplier);
}
}
// Slow down on sloped terrain, simply proportional to the slope.
xmDesiredVel = HWVMultiplySIMDF(xmDesiredVel, fGroundNormalZ);
//be sure desired velocity is flat to the ground
hwvec3 vDesiredVelVert = HWMtx33RotateVecOpt(xmBaseMtxZOpt, xmDesiredVel);
xmDesiredVel = HWVSub(xmDesiredVel, vDesiredVelVert);
HWVSaveVecUnaligned(&desiredVel, xmDesiredVel);
if (isPlayer)
{
Vec3 modifiedSlopeNormal = player.GetActorPhysics().groundNormal;
float h = Vec2(modifiedSlopeNormal.x, modifiedSlopeNormal.y).GetLength(); // TODO: OPT: sqrt(x*x+y*y)
float v = modifiedSlopeNormal.z;
float slopeAngleCur = RAD2DEG(atan2_tpl(h, v));
const float divisorH = (float)__fsel(-h, 1.0f, h);
const float divisorV = (float)__fsel(-v, 1.0f, v);
const float invV = __fres(divisorV);
const float invH = __fres(divisorH);
const float slopeAngleHor = 10.0f;
const float slopeAngleVer = 50.0f;
float slopeAngleFraction = clamp_tpl((slopeAngleCur - slopeAngleHor) * __fres(slopeAngleVer - slopeAngleHor), 0.0f, 1.0f);
slopeAngleFraction = slopeAngleFraction * slopeAngleFraction * slopeAngleFraction;
float slopeAngleMod = LERP(0.0f, 90.0f, slopeAngleFraction);
float s, c;
sincos_tpl(DEG2RAD(slopeAngleMod), &s, &c);
const float hMultiplier = (float)__fsel(-h, 1.0f, s * invH);
const float vMultiplier = (float)__fsel(-v, 1.0f, c * invV);
modifiedSlopeNormal.x *= hMultiplier;
modifiedSlopeNormal.y *= hMultiplier;
modifiedSlopeNormal.z *= vMultiplier;
//Normalize the slope normal if possible
const float fSlopeNormalLength = modifiedSlopeNormal.len();
const float fSlopeNormalLengthSafe = (float)__fsel(fSlopeNormalLength - 0.000001f, fSlopeNormalLength, 1.0f);
modifiedSlopeNormal = modifiedSlopeNormal * __fres(fSlopeNormalLengthSafe);
float alignment = min(modifiedSlopeNormal * desiredVel, 0.0f);
// Also affect air control (but not as much), to prevent jumping up against steep slopes.
alignment *= (float)__fsel(-fabsf(stats.onGround), LERP(0.7f, 1.0f, 1.0f - clamp_tpl(modifiedSlopeNormal.z * 100.0f, 0.0f, 1.0f)), 1.0f);
modifiedSlopeNormal.z = modifiedSlopeNormal.z;
desiredVel -= modifiedSlopeNormal * alignment;
#ifdef STATE_DEBUG
if (debugJumping)
{
player.DebugGraph_AddValue("GroundSlope", slopeAngleCur);
player.DebugGraph_AddValue("GroundSlopeMod", slopeAngleMod);
}
#endif
}
Vec3 newVelocity = desiredVel;
const float fNewSpeed = newVelocity.len();
const float fVelocityMultiplier = (float)__fsel(fNewSpeed - 22.0f, __fres(fNewSpeed+FLT_EPSILON) * 22.0f, 1.0f);
// TODO: Maybe we should tell physics about this new velocity ? Or maybe SPlayerStats::velocity ? (stephenn).
player.GetMoveRequest().velocity = newVelocity * (stats.flashBangStunMult * fVelocityMultiplier);
#ifdef STATE_DEBUG
if(g_pGameCVars->pl_debug_movement > 0)
{
const char* filter = g_pGameCVars->pl_debug_filter->GetString();
const char* name = player.GetEntity()->GetName();
if ((strcmp(filter, "0") == 0) || (strcmp(filter, name) == 0))
{
float white[] = {1.0f,1.0f,1.0f,1.0f};
gEnv->pRenderer->Draw2dLabel(20, 450, 2.0f, white, false, "Speed: %.3f m/s", player.GetMoveRequest().velocity.len());
if(g_pGameCVars->pl_debug_movement > 1)
{
gEnv->pRenderer->Draw2dLabel(35, 470, 1.8f, white, false, "Stance Speed: %.3f m/s - (%sSprinting)", player.GetStanceMaxSpeed(player.GetStance()), player.IsSprinting() ? "" : "Not ");
}
}
}
#endif
}
if( isPlayer )
{
CheckForVaultTrigger(player, frameTime);
}
}
