#ifndef CONTROLLABLEPHYSICSCOMPONENT_H #define CONTROLLABLEPHYSICSCOMPONENT_H #include "dCommonVars.h" #include "RakNetTypes.h" #include "NiPoint3.h" #include "NiQuaternion.h" #include "tinyxml2.h" #include "Component.h" #include "dpCollisionChecks.h" #include "PhantomPhysicsComponent.h" #include "eBubbleType.h" class Entity; class dpEntity; /** * Handles the movement of controllable Entities, e.g. enemies and players */ class ControllablePhysicsComponent : public Component { public: static const uint32_t ComponentType = COMPONENT_TYPE_CONTROLLABLE_PHYSICS; ControllablePhysicsComponent(Entity* entity); ~ControllablePhysicsComponent() override; void Update(float deltaTime) override; void Serialize(RakNet::BitStream* outBitStream, bool bIsInitialUpdate, unsigned int& flags); void LoadFromXml(tinyxml2::XMLDocument* doc) override; void ResetFlags(); void UpdateXml(tinyxml2::XMLDocument* doc) override; /** * Sets the position of this entity, also ensures this update is serialized next tick. * If the entity is static, this is a no-op. * @param pos The position to set */ void SetPosition(const NiPoint3& pos); /** * Returns the current position of the entity * @return The current position of the entity */ const NiPoint3& GetPosition() const { return m_Position; } /** * Sets the rotation of this entity, ensures this change is serialized next tick. If the entity is static, this is * a no-op. * @param rot the rotation to set */ void SetRotation(const NiQuaternion& rot); /** * Returns the current rotation of this entity * @return the current rotation of this entity */ const NiQuaternion& GetRotation() const { return m_Rotation; } /** * Sets the current velocity of this entity, ensures that this change is serialized next tick. If the entity is * marked as static this is a no-op. * @param vel the velocity to set */ void SetVelocity(const NiPoint3& vel); /** * Returns the current velocity of this entity * @return the current velocity of this entity */ const NiPoint3& GetVelocity() const { return m_Velocity; } /** * Sets the angular velocity (e.g. rotational velocity) of this entity and ensures this is serialized next tick. * If the entity is marked as static this is a no-op. * @param vel the angular velocity to set. */ void SetAngularVelocity(const NiPoint3& vel); /** * Returns the current angular velocity of this entity * @return the current angular velocity of this entity */ const NiPoint3& GetAngularVelocity() const { return m_AngularVelocity; } /** * Sets the IsOnGround value, determining whether or not the entity is stuck to the ground. Note that this is mostly * a client side flag as no server-side entities jump around and therefore this does not have to be updated server * side. * @param val whether the entity is on the ground. */ void SetIsOnGround(bool val); /** * Returns whether or not the entity is currently on the ground * @return whether the entity is currently on the ground */ const bool GetIsOnGround() const { return m_IsOnGround; } /** * Sets the on-rail parameter, determining if a player is currently on a rail (e.g. the lamps in Ninjago). * Also ensures that this change is serialized. * @param val whether the player is currently on a rail */ void SetIsOnRail(bool val); /** * Returns whether or not this entity is currently on a rail. * @return whether or not this entity is currently on a rail */ const bool GetIsOnRail() const { return m_IsOnRail; } /** * Mark the position as dirty, forcing a serialization update next tick * @param val whether or not the position is dirty */ void SetDirtyPosition(bool val); /** * Mark the velocity as dirty, forcing a serializtion update next tick * @param val whether or not the velocity is dirty */ void SetDirtyVelocity(bool val); /** * Mark the angular velocity as dirty, forcing a serialization update next tick * @param val whether or not the angular velocity is dirty */ void SetDirtyAngularVelocity(bool val); /** * Sets whether or not the entity is currently wearing a jetpack * @param val whether or not the entity is currently wearing a jetpack */ void SetInJetpackMode(bool val) { m_InJetpackMode = val; } /** * Returns whether or not the entity is currently wearing a jetpack * @return whether or not the entity is currently wearing a jetpack */ const bool GetInJetpackMode() const { return m_InJetpackMode; } /** * Sets whether or not the entity is currently flying a jetpack * @param val whether or not the entity is currently flying a jetpack */ void SetJetpackFlying(bool val) { m_JetpackFlying = val; } /** * Returns whether or not an entity is currently flying a jetpack * @return whether or not an entity is currently flying a jetpack */ const bool GetJetpackFlying() const { return m_JetpackFlying; } /** * UNUSED: necessary for serialization */ void SetJetpackBypassChecks(bool val) { m_JetpackBypassChecks = val; } /** * UNUSUED: necessary for serialization */ const bool GetJetpackBypassChecks() const { return m_JetpackBypassChecks; } /** * Set the jetpack effect ID * @param effectID the effect to play while using the jetpack */ void SetJetpackEffectID(int effectID) { m_JetpackEffectID = effectID; } /** * Returns the current jetpack effect ID * @return the current jetpack effect ID */ const int GetJetpackEffectID() const { return m_JetpackEffectID; } /** * Sets a speed multiplier, altering the entities speed * @param value the multiplier to set */ void SetSpeedMultiplier(float value) { m_SpeedMultiplier = value; m_DirtyCheats = true; } /** * Returns the current speed multiplier * @return the current speed multiplier */ const float GetSpeedMultiplier() const { return m_SpeedMultiplier; } /** * Sets the current gravity scale, allowing the entity to move using altered gravity * @param value the gravity value to set */ void SetGravityScale(float value) { m_GravityScale = value; m_DirtyCheats = true; } /** * Returns the current gravity scale * @return the current gravity scale */ const float GetGravityScale() const { return m_GravityScale; } /** * Sets the ignore multipliers value, allowing you to skip the serialization of speed and gravity multipliers * @param value whether or not to ignore multipliers */ void SetIgnoreMultipliers(bool value) { m_IgnoreMultipliers = value; } /** * Returns the current ignore multipliers value * @return the current ignore multipliers value */ const bool GetIgnoreMultipliers() const { return m_IgnoreMultipliers; } /** * Can make an entity static, making it unable to move around * @param value whether or not the entity is static */ void SetStatic(const bool value) { m_Static = value; } /** * Returns whether or not this entity is currently static * @return whether or not this entity is currently static */ bool GetStatic() const { return m_Static; } /** * Sets if the entity is Teleporting, * @param value whether or not the entity is Is Teleporting */ void SetIsTeleporting(const bool value) { m_IsTeleporting = value; } /** * Returns whether or not this entity is currently is teleporting * @return whether or not this entity is currently is teleporting */ bool GetIsTeleporting() const { return m_IsTeleporting; } /** * Returns the Physics entity for the component * @return Physics entity for the component */ dpEntity* GetdpEntity() const { return m_dpEntity; } /** * I store this in a vector because if I have 2 separate pickup radii being applied to the player, I dont know which one is correctly active. * This method adds the pickup radius to the vector of active radii and if its larger than the current one, is applied as the new pickup radius. */ void AddPickupRadiusScale(float value); /** * Removes the provided pickup radius scale from our list of buffs * The recalculates what our pickup radius is. */ void RemovePickupRadiusScale(float value); /** * The pickup radii of this component. * @return All active radii scales for this component. */ std::vector GetActivePickupRadiusScales() { return m_ActivePickupRadiusScales; }; /** * Add a Speed boost to the entity * This will recalculate the speed boost based on what is being added */ void AddSpeedboost(float value); /** * Remove speed boost from entity * This will recalculate the speed boost based on what is the last one in te vector */ void RemoveSpeedboost(float value); /** * The speed boosts of this component. * @return All active Speed boosts for this component. */ std::vector GetActiveSpeedboosts() { return m_ActivePickupRadiusScales; }; /** * Activates the Bubble Buff */ void ActivateBubbleBuff(eBubbleType bubbleType = eBubbleType::DEFAULT, bool specialAnims = true); /** * Deactivates the Bubble Buff */ void DeactivateBubbleBuff(); /** * Gets if the Entity is in a bubble */ bool GetIsInBubble(){ return m_IsInBubble; }; /** * Push or Pop a layer of stun immunity to this entity */ void SetStunImmunity( const eStateChangeType state, const LWOOBJID originator = LWOOBJID_EMPTY, const bool bImmuneToStunAttack = false, const bool bImmuneToStunEquip = false, const bool bImmuneToStunInteract = false, const bool bImmuneToStunJump = false, const bool bImmuneToStunMove = false, const bool bImmuneToStunTurn = false, const bool bImmuneToStunUseItem = false ); // getters for stun immunities const bool GetImmuneToStunAttack() { return m_ImmuneToStunAttackCount > 0;}; const bool GetImmuneToStunEquip() { return m_ImmuneToStunEquipCount > 0;}; const bool GetImmuneToStunInteract() { return m_ImmuneToStunInteractCount > 0;}; const bool GetImmuneToStunJump() { return m_ImmuneToStunJumpCount > 0;}; const bool GetImmuneToStunMove() { return m_ImmuneToStunMoveCount > 0;}; const bool GetImmuneToStunTurn() { return m_ImmuneToStunTurnCount > 0;}; const bool GetImmuneToStunUseItem() { return m_ImmuneToStunUseItemCount > 0;}; private: /** * The entity that owns this component */ dpEntity* m_dpEntity; /** * Whether or not the position is dirty, forcing a serialization update of the position */ bool m_DirtyPosition; /** * The current position of the entity */ NiPoint3 m_Position; /** * The current rotation of the entity */ NiQuaternion m_Rotation; /** * Whether or not the velocity is dirty, forcing a serialization of the velocity */ bool m_DirtyVelocity; /** * The current velocity of the entity */ NiPoint3 m_Velocity; /** * Whether or not the angular velocity is dirty, forcing a serialization */ bool m_DirtyAngularVelocity; /** * The current angular velocity of the entity */ NiPoint3 m_AngularVelocity; /** * Whether or not the entity is on the ground, generally unused */ bool m_IsOnGround; /** * Whether or not the entity is on a rail, e.g. in Ninjago */ bool m_IsOnRail; /** * Whether or not this entity has a jetpack equipped */ bool m_InJetpackMode; /** * Whether or not this entity is currently flying a jetpack */ bool m_JetpackFlying; /** * Bypass jetpack checks, currently unused */ bool m_JetpackBypassChecks; /** * The effect that plays while using the jetpack */ int32_t m_JetpackEffectID; /** * The current speed multiplier, allowing an entity to run faster */ float m_SpeedMultiplier; /** * The current gravity scale, allowing an entity to move at an altered gravity */ float m_GravityScale; /** * Forces a serialization of the speed multiplier and the gravity scale */ bool m_DirtyCheats; /** * Makes it so that the speed multiplier and gravity scale are no longer serialized if false */ bool m_IgnoreMultipliers; /** * Whether this entity is static, making it unable to move */ bool m_Static; /** * Whether the pickup scale is dirty. */ bool m_DirtyEquippedItemInfo; /** * The list of pickup radius scales for this entity */ std::vector m_ActivePickupRadiusScales; /** * The active pickup radius for this entity */ float m_PickupRadius; /** * If the entity is teleporting */ bool m_IsTeleporting; /** * The list of speed boosts for this entity */ std::vector m_ActiveSpeedBoosts; /** * The active speed boost for this entity */ float m_SpeedBoost; /* * If Bubble info is dirty */ bool m_DirtyBubble; /* * If the entity is in a bubble */ bool m_IsInBubble; /* * The type of bubble the entity has */ eBubbleType m_BubbleType; /* * If the entity should be using the special animations */ bool m_SpecialAnims; /** * stun immunity counters */ int32_t m_ImmuneToStunAttackCount; int32_t m_ImmuneToStunEquipCount; int32_t m_ImmuneToStunInteractCount; int32_t m_ImmuneToStunJumpCount; int32_t m_ImmuneToStunMoveCount; int32_t m_ImmuneToStunTurnCount; int32_t m_ImmuneToStunUseItemCount; }; #endif // CONTROLLABLEPHYSICSCOMPONENT_H