/* ----------------------------------------------------------------------------- This source file is part of OGRE (Object-oriented Graphics Rendering Engine) For the latest info, see http://www.ogre3d.org/ Copyright (c) 2000-2012 Torus Knot Software Ltd Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions: The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. ----------------------------------------------------------------------------- */ #ifndef __AnimationSet_H__ #define __AnimationSet_H__ #include "OgrePrerequisites.h" #include "OgreString.h" #include "OgreController.h" #include "OgreIteratorWrappers.h" namespace Ogre { /** \addtogroup Core * @{ */ /** \addtogroup Animation * @{ */ /** Represents the state of an animation and the weight of its influence. @remarks Other classes can hold instances of this class to store the state of any animations they are using. */ class _OgreExport AnimationState : public AnimationAlloc { public: /// Typedef for an array of float values used as a bone blend mask typedef vector::type BoneBlendMask; /** Normal constructor with all params supplied @param animName The name of this state. @param parent The parent AnimationStateSet that this state will belong to. @param timePos The position, in seconds, where this state will begin. @param length The length, in seconds, of this animation state. @param weight Weight to apply the animation state with. @param enabled Whether the animation state is enabled. */ AnimationState(const String& animName, AnimationStateSet *parent, Real timePos, Real length, Real weight = 1.0, bool enabled = false); /// Constructor to copy from an existing state with new parent AnimationState(AnimationStateSet* parent, const AnimationState &rhs); virtual ~AnimationState(); /// Gets the name of the animation to which this state applies const String& getAnimationName() const; /// Gets the time position for this animation Real getTimePosition(void) const; /// Sets the time position for this animation void setTimePosition(Real timePos); /// Gets the total length of this animation (may be shorter than whole animation) Real getLength() const; /// Sets the total length of this animation (may be shorter than whole animation) void setLength(Real len); /// Gets the weight (influence) of this animation Real getWeight(void) const; /// Sets the weight (influence) of this animation void setWeight(Real weight); /** Modifies the time position, adjusting for animation length @param offset The amount of time, in seconds, to extend the animation. @remarks This method loops at the edges if animation looping is enabled. */ void addTime(Real offset); /// Returns true if the animation has reached the end and is not looping bool hasEnded(void) const; /// Returns true if this animation is currently enabled bool getEnabled(void) const; /// Sets whether this animation is enabled void setEnabled(bool enabled); /// Equality operator bool operator==(const AnimationState& rhs) const; /// Inequality operator bool operator!=(const AnimationState& rhs) const; /** Sets whether or not an animation loops at the start and end of the animation if the time continues to be altered. */ void setLoop(bool loop) { mLoop = loop; } /// Gets whether or not this animation loops bool getLoop(void) const { return mLoop; } /** Copies the states from another animation state, preserving the animation name (unlike operator=) but copying everything else. @param animState Reference to animation state which will use as source. */ void copyStateFrom(const AnimationState& animState); /// Get the parent animation state set AnimationStateSet* getParent(void) const { return mParent; } /** @brief Create a new blend mask with the given number of entries * * In addition to assigning a single weight value to a skeletal animation, * it may be desirable to assign animation weights per bone using a 'blend mask'. * * @param blendMaskSizeHint * The number of bones of the skeleton owning this AnimationState. * @param initialWeight * The value all the blend mask entries will be initialised with (negative to skip initialisation) */ void createBlendMask(size_t blendMaskSizeHint, float initialWeight = 1.0f); /// Destroy the currently set blend mask void destroyBlendMask(); /** @brief Set the blend mask data (might be dangerous) * * @par The size of the array should match the number of entries the * blend mask was created with. * * @par Stick to the setBlendMaskEntry method if you don't know exactly what you're doing. */ void _setBlendMaskData(const float* blendMaskData); /** @brief Set the blend mask * * @par The size of the array should match the number of entries the * blend mask was created with. * * @par Stick to the setBlendMaskEntry method if you don't know exactly what you're doing. */ void _setBlendMask(const BoneBlendMask* blendMask); /// Get the current blend mask (const version, may be 0) const BoneBlendMask* getBlendMask() const {return mBlendMask;} /// Return whether there is currently a valid blend mask set bool hasBlendMask() const {return mBlendMask != 0;} /// Set the weight for the bone identified by the given handle void setBlendMaskEntry(size_t boneHandle, float weight); /// Get the weight for the bone identified by the given handle inline float getBlendMaskEntry(size_t boneHandle) const { assert(mBlendMask && mBlendMask->size() > boneHandle); return (*mBlendMask)[boneHandle]; } protected: /// The blend mask (containing per bone weights) BoneBlendMask* mBlendMask; String mAnimationName; AnimationStateSet* mParent; Real mTimePos; Real mLength; Real mWeight; bool mEnabled; bool mLoop; }; // A map of animation states typedef map::type AnimationStateMap; typedef MapIterator AnimationStateIterator; typedef ConstMapIterator ConstAnimationStateIterator; // A list of enabled animation states typedef list::type EnabledAnimationStateList; typedef ConstVectorIterator ConstEnabledAnimationStateIterator; /** Class encapsulating a set of AnimationState objects. */ class _OgreExport AnimationStateSet : public AnimationAlloc { public: /// Mutex, public for external locking if needed OGRE_AUTO_MUTEX /// Create a blank animation state set AnimationStateSet(); /// Create an animation set by copying the contents of another AnimationStateSet(const AnimationStateSet& rhs); ~AnimationStateSet(); /** Create a new AnimationState instance. @param animName The name of the animation @param timePos Starting time position @param length Length of the animation to play @param weight Weight to apply the animation with @param enabled Whether the animation is enabled */ AnimationState* createAnimationState(const String& animName, Real timePos, Real length, Real weight = 1.0, bool enabled = false); /// Get an animation state by the name of the animation AnimationState* getAnimationState(const String& name) const; /// Tests if state for the named animation is present bool hasAnimationState(const String& name) const; /// Remove animation state with the given name void removeAnimationState(const String& name); /// Remove all animation states void removeAllAnimationStates(void); /** Get an iterator over all the animation states in this set. @note The iterator returned from this method is not threadsafe, you will need to manually lock the public mutex on this class to ensure thread safety if you need it. */ AnimationStateIterator getAnimationStateIterator(void); /** Get an iterator over all the animation states in this set. @note The iterator returned from this method is not threadsafe, you will need to manually lock the public mutex on this class to ensure thread safety if you need it. */ ConstAnimationStateIterator getAnimationStateIterator(void) const; /// Copy the state of any matching animation states from this to another void copyMatchingState(AnimationStateSet* target) const; /// Set the dirty flag and dirty frame number on this state set void _notifyDirty(void); /// Get the latest animation state been altered frame number unsigned long getDirtyFrameNumber(void) const { return mDirtyFrameNumber; } /// Internal method respond to enable/disable an animation state void _notifyAnimationStateEnabled(AnimationState* target, bool enabled); /// Tests if exists enabled animation state in this set bool hasEnabledAnimationState(void) const { return !mEnabledAnimationStates.empty(); } /** Get an iterator over all the enabled animation states in this set @note The iterator returned from this method is not threadsafe, you will need to manually lock the public mutex on this class to ensure thread safety if you need it. */ ConstEnabledAnimationStateIterator getEnabledAnimationStateIterator(void) const; protected: unsigned long mDirtyFrameNumber; AnimationStateMap mAnimationStates; EnabledAnimationStateList mEnabledAnimationStates; }; /** ControllerValue wrapper class for AnimationState. @remarks In Azathoth and earlier, AnimationState was a ControllerValue but this actually causes memory problems since Controllers delete their values automatically when there are no further references to them, but AnimationState is deleted explicitly elsewhere so this causes double-free problems. This wrapper acts as a bridge and it is this which is destroyed automatically. */ class _OgreExport AnimationStateControllerValue : public ControllerValue { protected: AnimationState* mTargetAnimationState; public: /** Constructor, pass in the target animation state. */ AnimationStateControllerValue(AnimationState* targetAnimationState) : mTargetAnimationState(targetAnimationState) {} /// Destructor (parent already virtual) ~AnimationStateControllerValue() {} /** ControllerValue implementation. */ Real getValue(void) const; /** ControllerValue implementation. */ void setValue(Real value); }; /** @} */ /** @} */ } #endif