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domRigid_body.h - Hosted on DriveHQ Cloud IT Platform
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路径: \\game3dprogramming\materials\DarkPuzzle\libs\bullet_sdk\Extras\COLLADA_DOM\include\1.4\dom\domRigid_body.h
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/* * Copyright 2006 Sony Computer Entertainment Inc. * * Licensed under the SCEA Shared Source License, Version 1.0 (the "License"); you may not use this * file except in compliance with the License. You may obtain a copy of the License at: * http://research.scea.com/scea_shared_source_license.html * * Unless required by applicable law or agreed to in writing, software distributed under the License * is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or * implied. See the License for the specific language governing permissions and limitations under the * License. */ #ifndef __domRigid_body_h__ #define __domRigid_body_h__ #include
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/** * This element allows for describing simulated bodies that do not deform. * These bodies may or may not be connected by constraints (hinge, ball-joint * etc.). Rigid-bodies, constraints etc. are encapsulated in physics_model * elements to allow for instantiating complex models. */ class domRigid_body : public daeElement { public: COLLADA_TYPE::TypeEnum getElementType() const { return COLLADA_TYPE::RIGID_BODY; } public: class domTechnique_common; typedef daeSmartRef
domTechnique_commonRef; typedef daeTArray
domTechnique_common_Array; /** * The technique_common element specifies the rigid_body information for the * common profile which all COLLADA implementations need to support. */ class domTechnique_common : public daeElement { public: COLLADA_TYPE::TypeEnum getElementType() const { return COLLADA_TYPE::TECHNIQUE_COMMON; } public: class domDynamic; typedef daeSmartRef
domDynamicRef; typedef daeTArray
domDynamic_Array; /** * If false, the rigid_body is not moveable */ class domDynamic : public daeElement { public: COLLADA_TYPE::TypeEnum getElementType() const { return COLLADA_TYPE::DYNAMIC; } protected: // Attribute /** * The sid attribute is a text string value containing the sub-identifier * of this element. This value must be unique within the scope of the parent * element. Optional attribute. */ xsNCName attrSid; protected: // Value /** * The domBool value of the text data of this element. */ domBool _value; public: //Accessors and Mutators /** * Gets the sid attribute. * @return Returns a xsNCName of the sid attribute. */ xsNCName getSid() const { return attrSid; } /** * Sets the sid attribute. * @param atSid The new value for the sid attribute. */ void setSid( xsNCName atSid ) { *(daeStringRef*)&attrSid = atSid; _validAttributeArray[0] = true; } /** * Gets the value of this element. * @return a domBool of the value. */ domBool getValue() const { return _value; } /** * Sets the _value of this element. * @param val The new value for this element. */ void setValue( domBool val ) { _value = val; } protected: /** * Constructor */ domDynamic() : attrSid(), _value() {} /** * Destructor */ virtual ~domDynamic() {} /** * Copy Constructor */ domDynamic( const domDynamic &cpy ) : daeElement() { (void)cpy; } /** * Overloaded assignment operator */ virtual domDynamic &operator=( const domDynamic &cpy ) { (void)cpy; return *this; } public: // STATIC METHODS /** * Creates an instance of this class and returns a daeElementRef referencing it. * @param bytes The size allocated for this instance. * @return a daeElementRef referencing an instance of this object. */ static DLLSPEC daeElementRef create(daeInt bytes); /** * Creates a daeMetaElement object that describes this element in the meta object reflection framework. * If a daeMetaElement already exists it will return that instead of creating a new one. * @return A daeMetaElement describing this COLLADA element. */ static DLLSPEC daeMetaElement* registerElement(); public: // STATIC MEMBERS /** * The daeMetaElement that describes this element in the meta object reflection framework. */ static DLLSPEC daeMetaElement* _Meta; }; class domMass_frame; typedef daeSmartRef
domMass_frameRef; typedef daeTArray
domMass_frame_Array; /** * Defines the center and orientation of mass of the rigid-body relative to * the local origin of the “root” shape.This makes the off-diagonal elements * of the inertia tensor (products of inertia) all 0 and allows us to just * store the diagonal elements (moments of inertia). */ class domMass_frame : public daeElement { public: COLLADA_TYPE::TypeEnum getElementType() const { return COLLADA_TYPE::MASS_FRAME; } protected: // Elements domTranslate_Array elemTranslate_array; domRotate_Array elemRotate_array; /** * Used to preserve order in elements that do not specify strict sequencing of sub-elements. */ daeElementRefArray _contents; /** * Used to preserve order in elements that have a complex content model. */ daeUIntArray _contentsOrder; public: //Accessors and Mutators /** * Gets the translate element array. * @return Returns a reference to the array of translate elements. */ domTranslate_Array &getTranslate_array() { return elemTranslate_array; } /** * Gets the translate element array. * @return Returns a constant reference to the array of translate elements. */ const domTranslate_Array &getTranslate_array() const { return elemTranslate_array; } /** * Gets the rotate element array. * @return Returns a reference to the array of rotate elements. */ domRotate_Array &getRotate_array() { return elemRotate_array; } /** * Gets the rotate element array. * @return Returns a constant reference to the array of rotate elements. */ const domRotate_Array &getRotate_array() const { return elemRotate_array; } /** * Gets the _contents array. * @return Returns a reference to the _contents element array. */ daeElementRefArray &getContents() { return _contents; } /** * Gets the _contents array. * @return Returns a constant reference to the _contents element array. */ const daeElementRefArray &getContents() const { return _contents; } protected: /** * Constructor */ domMass_frame() : elemTranslate_array(), elemRotate_array() {} /** * Destructor */ virtual ~domMass_frame() {} /** * Copy Constructor */ domMass_frame( const domMass_frame &cpy ) : daeElement() { (void)cpy; } /** * Overloaded assignment operator */ virtual domMass_frame &operator=( const domMass_frame &cpy ) { (void)cpy; return *this; } public: // STATIC METHODS /** * Creates an instance of this class and returns a daeElementRef referencing it. * @param bytes The size allocated for this instance. * @return a daeElementRef referencing an instance of this object. */ static DLLSPEC daeElementRef create(daeInt bytes); /** * Creates a daeMetaElement object that describes this element in the meta object reflection framework. * If a daeMetaElement already exists it will return that instead of creating a new one. * @return A daeMetaElement describing this COLLADA element. */ static DLLSPEC daeMetaElement* registerElement(); public: // STATIC MEMBERS /** * The daeMetaElement that describes this element in the meta object reflection framework. */ static DLLSPEC daeMetaElement* _Meta; }; class domShape; typedef daeSmartRef
domShapeRef; typedef daeTArray
domShape_Array; /** * This element allows for describing components of a rigid_body. */ class domShape : public daeElement { public: COLLADA_TYPE::TypeEnum getElementType() const { return COLLADA_TYPE::SHAPE; } public: class domHollow; typedef daeSmartRef
domHollowRef; typedef daeTArray
domHollow_Array; /** * If true, the mass is distributed along the surface of the shape */ class domHollow : public daeElement { public: COLLADA_TYPE::TypeEnum getElementType() const { return COLLADA_TYPE::HOLLOW; } protected: // Attribute /** * The sid attribute is a text string value containing the sub-identifier * of this element. This value must be unique within the scope of the parent * element. Optional attribute. */ xsNCName attrSid; protected: // Value /** * The domBool value of the text data of this element. */ domBool _value; public: //Accessors and Mutators /** * Gets the sid attribute. * @return Returns a xsNCName of the sid attribute. */ xsNCName getSid() const { return attrSid; } /** * Sets the sid attribute. * @param atSid The new value for the sid attribute. */ void setSid( xsNCName atSid ) { *(daeStringRef*)&attrSid = atSid; _validAttributeArray[0] = true; } /** * Gets the value of this element. * @return a domBool of the value. */ domBool getValue() const { return _value; } /** * Sets the _value of this element. * @param val The new value for this element. */ void setValue( domBool val ) { _value = val; } protected: /** * Constructor */ domHollow() : attrSid(), _value() {} /** * Destructor */ virtual ~domHollow() {} /** * Copy Constructor */ domHollow( const domHollow &cpy ) : daeElement() { (void)cpy; } /** * Overloaded assignment operator */ virtual domHollow &operator=( const domHollow &cpy ) { (void)cpy; return *this; } public: // STATIC METHODS /** * Creates an instance of this class and returns a daeElementRef referencing it. * @param bytes The size allocated for this instance. * @return a daeElementRef referencing an instance of this object. */ static DLLSPEC daeElementRef create(daeInt bytes); /** * Creates a daeMetaElement object that describes this element in the meta object reflection framework. * If a daeMetaElement already exists it will return that instead of creating a new one. * @return A daeMetaElement describing this COLLADA element. */ static DLLSPEC daeMetaElement* registerElement(); public: // STATIC MEMBERS /** * The daeMetaElement that describes this element in the meta object reflection framework. */ static DLLSPEC daeMetaElement* _Meta; }; protected: // Elements /** * If true, the mass is distributed along the surface of the shape @see domHollow */ domHollowRef elemHollow; /** * The mass of the shape. @see domMass */ domTargetableFloatRef elemMass; /** * The density of the shape. @see domDensity */ domTargetableFloatRef elemDensity; /** * References a physics_material for the shape. @see domInstance_physics_material */ domInstance_physics_materialRef elemInstance_physics_material; /** * Defines a physics_material for the shape. @see domPhysics_material */ domPhysics_materialRef elemPhysics_material; /** * Instances a geometry to use to define this shape. @see domInstance_geometry */ domInstance_geometryRef elemInstance_geometry; /** * Defines a plane to use for this shape. @see domPlane */ domPlaneRef elemPlane; /** * Defines a box to use for this shape. @see domBox */ domBoxRef elemBox; /** * Defines a sphere to use for this shape. @see domSphere */ domSphereRef elemSphere; /** * Defines a cyliner to use for this shape. @see domCylinder */ domCylinderRef elemCylinder; /** * Defines a tapered_cylinder to use for this shape. @see domTapered_cylinder */ domTapered_cylinderRef elemTapered_cylinder; /** * Defines a capsule to use for this shape. @see domCapsule */ domCapsuleRef elemCapsule; /** * Defines a tapered_capsule to use for this shape. @see domTapered_capsule */ domTapered_capsuleRef elemTapered_capsule; /** * Allows a tranformation for the shape. @see domTranslate */ domTranslate_Array elemTranslate_array; /** * Allows a tranformation for the shape. @see domRotate */ domRotate_Array elemRotate_array; /** * The extra element may appear any number of times. @see domExtra */ domExtra_Array elemExtra_array; /** * Used to preserve order in elements that do not specify strict sequencing of sub-elements. */ daeElementRefArray _contents; /** * Used to preserve order in elements that have a complex content model. */ daeUIntArray _contentsOrder; public: //Accessors and Mutators /** * Gets the hollow element. * @return a daeSmartRef to the hollow element. */ const domHollowRef getHollow() const { return elemHollow; } /** * Gets the mass element. * @return a daeSmartRef to the mass element. */ const domTargetableFloatRef getMass() const { return elemMass; } /** * Gets the density element. * @return a daeSmartRef to the density element. */ const domTargetableFloatRef getDensity() const { return elemDensity; } /** * Gets the instance_physics_material element. * @return a daeSmartRef to the instance_physics_material element. */ const domInstance_physics_materialRef getInstance_physics_material() const { return elemInstance_physics_material; } /** * Gets the physics_material element. * @return a daeSmartRef to the physics_material element. */ const domPhysics_materialRef getPhysics_material() const { return elemPhysics_material; } /** * Gets the instance_geometry element. * @return a daeSmartRef to the instance_geometry element. */ const domInstance_geometryRef getInstance_geometry() const { return elemInstance_geometry; } /** * Gets the plane element. * @return a daeSmartRef to the plane element. */ const domPlaneRef getPlane() const { return elemPlane; } /** * Gets the box element. * @return a daeSmartRef to the box element. */ const domBoxRef getBox() const { return elemBox; } /** * Gets the sphere element. * @return a daeSmartRef to the sphere element. */ const domSphereRef getSphere() const { return elemSphere; } /** * Gets the cylinder element. * @return a daeSmartRef to the cylinder element. */ const domCylinderRef getCylinder() const { return elemCylinder; } /** * Gets the tapered_cylinder element. * @return a daeSmartRef to the tapered_cylinder element. */ const domTapered_cylinderRef getTapered_cylinder() const { return elemTapered_cylinder; } /** * Gets the capsule element. * @return a daeSmartRef to the capsule element. */ const domCapsuleRef getCapsule() const { return elemCapsule; } /** * Gets the tapered_capsule element. * @return a daeSmartRef to the tapered_capsule element. */ const domTapered_capsuleRef getTapered_capsule() const { return elemTapered_capsule; } /** * Gets the translate element array. * @return Returns a reference to the array of translate elements. */ domTranslate_Array &getTranslate_array() { return elemTranslate_array; } /** * Gets the translate element array. * @return Returns a constant reference to the array of translate elements. */ const domTranslate_Array &getTranslate_array() const { return elemTranslate_array; } /** * Gets the rotate element array. * @return Returns a reference to the array of rotate elements. */ domRotate_Array &getRotate_array() { return elemRotate_array; } /** * Gets the rotate element array. * @return Returns a constant reference to the array of rotate elements. */ const domRotate_Array &getRotate_array() const { return elemRotate_array; } /** * Gets the extra element array. * @return Returns a reference to the array of extra elements. */ domExtra_Array &getExtra_array() { return elemExtra_array; } /** * Gets the extra element array. * @return Returns a constant reference to the array of extra elements. */ const domExtra_Array &getExtra_array() const { return elemExtra_array; } /** * Gets the _contents array. * @return Returns a reference to the _contents element array. */ daeElementRefArray &getContents() { return _contents; } /** * Gets the _contents array. * @return Returns a constant reference to the _contents element array. */ const daeElementRefArray &getContents() const { return _contents; } protected: /** * Constructor */ domShape() : elemHollow(), elemMass(), elemDensity(), elemInstance_physics_material(), elemPhysics_material(), elemInstance_geometry(), elemPlane(), elemBox(), elemSphere(), elemCylinder(), elemTapered_cylinder(), elemCapsule(), elemTapered_capsule(), elemTranslate_array(), elemRotate_array(), elemExtra_array() {} /** * Destructor */ virtual ~domShape() {} /** * Copy Constructor */ domShape( const domShape &cpy ) : daeElement() { (void)cpy; } /** * Overloaded assignment operator */ virtual domShape &operator=( const domShape &cpy ) { (void)cpy; return *this; } public: // STATIC METHODS /** * Creates an instance of this class and returns a daeElementRef referencing it. * @param bytes The size allocated for this instance. * @return a daeElementRef referencing an instance of this object. */ static DLLSPEC daeElementRef create(daeInt bytes); /** * Creates a daeMetaElement object that describes this element in the meta object reflection framework. * If a daeMetaElement already exists it will return that instead of creating a new one. * @return A daeMetaElement describing this COLLADA element. */ static DLLSPEC daeMetaElement* registerElement(); public: // STATIC MEMBERS /** * The daeMetaElement that describes this element in the meta object reflection framework. */ static DLLSPEC daeMetaElement* _Meta; }; protected: // Elements /** * If false, the rigid_body is not moveable @see domDynamic */ domDynamicRef elemDynamic; /** * The total mass of the rigid-body @see domMass */ domTargetableFloatRef elemMass; /** * Defines the center and orientation of mass of the rigid-body relative to * the local origin of the “root” shape.This makes the off-diagonal elements * of the inertia tensor (products of inertia) all 0 and allows us to just * store the diagonal elements (moments of inertia). @see domMass_frame */ domMass_frameRef elemMass_frame; /** * float3 – The diagonal elements of the inertia tensor (moments of inertia), * which is represented in the local frame of the center of mass. See above. * @see domInertia */ domTargetableFloat3Ref elemInertia; /** * References a physics_material for the rigid_body. @see domInstance_physics_material */ domInstance_physics_materialRef elemInstance_physics_material; /** * Defines a physics_material for the rigid_body. @see domPhysics_material */ domPhysics_materialRef elemPhysics_material; /** * This element allows for describing components of a rigid_body. @see domShape */ domShape_Array elemShape_array; /** * Used to preserve order in elements that do not specify strict sequencing of sub-elements. */ daeElementRefArray _contents; /** * Used to preserve order in elements that have a complex content model. */ daeUIntArray _contentsOrder; public: //Accessors and Mutators /** * Gets the dynamic element. * @return a daeSmartRef to the dynamic element. */ const domDynamicRef getDynamic() const { return elemDynamic; } /** * Gets the mass element. * @return a daeSmartRef to the mass element. */ const domTargetableFloatRef getMass() const { return elemMass; } /** * Gets the mass_frame element. * @return a daeSmartRef to the mass_frame element. */ const domMass_frameRef getMass_frame() const { return elemMass_frame; } /** * Gets the inertia element. * @return a daeSmartRef to the inertia element. */ const domTargetableFloat3Ref getInertia() const { return elemInertia; } /** * Gets the instance_physics_material element. * @return a daeSmartRef to the instance_physics_material element. */ const domInstance_physics_materialRef getInstance_physics_material() const { return elemInstance_physics_material; } /** * Gets the physics_material element. * @return a daeSmartRef to the physics_material element. */ const domPhysics_materialRef getPhysics_material() const { return elemPhysics_material; } /** * Gets the shape element array. * @return Returns a reference to the array of shape elements. */ domShape_Array &getShape_array() { return elemShape_array; } /** * Gets the shape element array. * @return Returns a constant reference to the array of shape elements. */ const domShape_Array &getShape_array() const { return elemShape_array; } /** * Gets the _contents array. * @return Returns a reference to the _contents element array. */ daeElementRefArray &getContents() { return _contents; } /** * Gets the _contents array. * @return Returns a constant reference to the _contents element array. */ const daeElementRefArray &getContents() const { return _contents; } protected: /** * Constructor */ domTechnique_common() : elemDynamic(), elemMass(), elemMass_frame(), elemInertia(), elemInstance_physics_material(), elemPhysics_material(), elemShape_array() {} /** * Destructor */ virtual ~domTechnique_common() {} /** * Copy Constructor */ domTechnique_common( const domTechnique_common &cpy ) : daeElement() { (void)cpy; } /** * Overloaded assignment operator */ virtual domTechnique_common &operator=( const domTechnique_common &cpy ) { (void)cpy; return *this; } public: // STATIC METHODS /** * Creates an instance of this class and returns a daeElementRef referencing it. * @param bytes The size allocated for this instance. * @return a daeElementRef referencing an instance of this object. */ static DLLSPEC daeElementRef create(daeInt bytes); /** * Creates a daeMetaElement object that describes this element in the meta object reflection framework. * If a daeMetaElement already exists it will return that instead of creating a new one. * @return A daeMetaElement describing this COLLADA element. */ static DLLSPEC daeMetaElement* registerElement(); public: // STATIC MEMBERS /** * The daeMetaElement that describes this element in the meta object reflection framework. */ static DLLSPEC daeMetaElement* _Meta; }; protected: // Attributes /** * The sid attribute is a text string value containing the sub-identifier * of this element. This value must be unique within the scope of the parent * element. Optional attribute. */ xsNCName attrSid; /** * The name attribute is the text string name of this element. Optional attribute. */ xsNCName attrName; protected: // Elements /** * The technique_common element specifies the rigid_body information for the * common profile which all COLLADA implementations need to support. @see * domTechnique_common */ domTechnique_commonRef elemTechnique_common; /** * This element may contain any number of non-common profile techniques. * @see domTechnique */ domTechnique_Array elemTechnique_array; /** * The extra element may appear any number of times. @see domExtra */ domExtra_Array elemExtra_array; public: //Accessors and Mutators /** * Gets the sid attribute. * @return Returns a xsNCName of the sid attribute. */ xsNCName getSid() const { return attrSid; } /** * Sets the sid attribute. * @param atSid The new value for the sid attribute. */ void setSid( xsNCName atSid ) { *(daeStringRef*)&attrSid = atSid; _validAttributeArray[0] = true; } /** * Gets the name attribute. * @return Returns a xsNCName of the name attribute. */ xsNCName getName() const { return attrName; } /** * Sets the name attribute. * @param atName The new value for the name attribute. */ void setName( xsNCName atName ) { *(daeStringRef*)&attrName = atName; _validAttributeArray[1] = true; } /** * Gets the technique_common element. * @return a daeSmartRef to the technique_common element. */ const domTechnique_commonRef getTechnique_common() const { return elemTechnique_common; } /** * Gets the technique element array. * @return Returns a reference to the array of technique elements. */ domTechnique_Array &getTechnique_array() { return elemTechnique_array; } /** * Gets the technique element array. * @return Returns a constant reference to the array of technique elements. */ const domTechnique_Array &getTechnique_array() const { return elemTechnique_array; } /** * Gets the extra element array. * @return Returns a reference to the array of extra elements. */ domExtra_Array &getExtra_array() { return elemExtra_array; } /** * Gets the extra element array. * @return Returns a constant reference to the array of extra elements. */ const domExtra_Array &getExtra_array() const { return elemExtra_array; } protected: /** * Constructor */ domRigid_body() : attrSid(), attrName(), elemTechnique_common(), elemTechnique_array(), elemExtra_array() {} /** * Destructor */ virtual ~domRigid_body() {} /** * Copy Constructor */ domRigid_body( const domRigid_body &cpy ) : daeElement() { (void)cpy; } /** * Overloaded assignment operator */ virtual domRigid_body &operator=( const domRigid_body &cpy ) { (void)cpy; return *this; } public: // STATIC METHODS /** * Creates an instance of this class and returns a daeElementRef referencing it. * @param bytes The size allocated for this instance. * @return a daeElementRef referencing an instance of this object. */ static DLLSPEC daeElementRef create(daeInt bytes); /** * Creates a daeMetaElement object that describes this element in the meta object reflection framework. * If a daeMetaElement already exists it will return that instead of creating a new one. * @return A daeMetaElement describing this COLLADA element. */ static DLLSPEC daeMetaElement* registerElement(); public: // STATIC MEMBERS /** * The daeMetaElement that describes this element in the meta object reflection framework. */ static DLLSPEC daeMetaElement* _Meta; }; #endif
domRigid_body.h
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