// *************************************************************************** // // Generated automatically by genwrapper. // Please DO NOT EDIT this file! // // *************************************************************************** #include #include #include #include #include #include #include // Must undefine IN and OUT macros defined in Windows headers #ifdef IN #undef IN #endif #ifdef OUT #undef OUT #endif #include TYPE_NAME_ALIAS(osg::BoundingBoxImpl< osg::Vec3f >, osg::BoundingBoxf) TYPE_NAME_ALIAS(osg::BoundingBoxImpl< osg::Vec3d >, osg::BoundingBoxd) TYPE_NAME_ALIAS(osg::BoundingBoxf, osg::BoundingBox) BEGIN_VALUE_REFLECTOR(osg::BoundingBoxImpl< osg::Vec3d >) I_DeclaringFile("osg/BoundingBox"); I_Constructor0(____BoundingBoxImpl, "Creates an uninitialized bounding box. ", ""); I_Constructor6(IN, osg::BoundingBoxImpl< osg::Vec3d >::value_type, xmin, IN, osg::BoundingBoxImpl< osg::Vec3d >::value_type, ymin, IN, osg::BoundingBoxImpl< osg::Vec3d >::value_type, zmin, IN, osg::BoundingBoxImpl< osg::Vec3d >::value_type, xmax, IN, osg::BoundingBoxImpl< osg::Vec3d >::value_type, ymax, IN, osg::BoundingBoxImpl< osg::Vec3d >::value_type, zmax, ____BoundingBoxImpl__value_type__value_type__value_type__value_type__value_type__value_type, "Creates a bounding box initialized to the given extents. ", ""); I_Constructor2(IN, const osg::BoundingBoxImpl< osg::Vec3d >::vec_type &, min, IN, const osg::BoundingBoxImpl< osg::Vec3d >::vec_type &, max, ____BoundingBoxImpl__C5_vec_type_R1__C5_vec_type_R1, "Creates a bounding box initialized to the given extents. ", ""); I_Method0(void, init, Properties::NON_VIRTUAL, __void__init, "Clear the bounding box. ", "Erases existing minimum and maximum extents. "); I_Method0(bool, valid, Properties::NON_VIRTUAL, __bool__valid, "Returns true if the bounding box extents are valid, false otherwise. ", ""); I_Method6(void, set, IN, osg::BoundingBoxImpl< osg::Vec3d >::value_type, xmin, IN, osg::BoundingBoxImpl< osg::Vec3d >::value_type, ymin, IN, osg::BoundingBoxImpl< osg::Vec3d >::value_type, zmin, IN, osg::BoundingBoxImpl< osg::Vec3d >::value_type, xmax, IN, osg::BoundingBoxImpl< osg::Vec3d >::value_type, ymax, IN, osg::BoundingBoxImpl< osg::Vec3d >::value_type, zmax, Properties::NON_VIRTUAL, __void__set__value_type__value_type__value_type__value_type__value_type__value_type, "Sets the bounding box extents. ", ""); I_Method2(void, set, IN, const osg::BoundingBoxImpl< osg::Vec3d >::vec_type &, min, IN, const osg::BoundingBoxImpl< osg::Vec3d >::vec_type &, max, Properties::NON_VIRTUAL, __void__set__C5_vec_type_R1__C5_vec_type_R1, "Sets the bounding box extents. ", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type &, xMin, Properties::NON_VIRTUAL, __value_type_R1__xMin, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type, xMin, Properties::NON_VIRTUAL, __value_type__xMin, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type &, yMin, Properties::NON_VIRTUAL, __value_type_R1__yMin, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type, yMin, Properties::NON_VIRTUAL, __value_type__yMin, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type &, zMin, Properties::NON_VIRTUAL, __value_type_R1__zMin, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type, zMin, Properties::NON_VIRTUAL, __value_type__zMin, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type &, xMax, Properties::NON_VIRTUAL, __value_type_R1__xMax, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type, xMax, Properties::NON_VIRTUAL, __value_type__xMax, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type &, yMax, Properties::NON_VIRTUAL, __value_type_R1__yMax, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type, yMax, Properties::NON_VIRTUAL, __value_type__yMax, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type &, zMax, Properties::NON_VIRTUAL, __value_type_R1__zMax, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type, zMax, Properties::NON_VIRTUAL, __value_type__zMax, "", ""); I_Method0(const osg::BoundingBoxImpl< osg::Vec3d >::vec_type, center, Properties::NON_VIRTUAL, __C5_vec_type__center, "Calculates and returns the bounding box center. ", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type, radius, Properties::NON_VIRTUAL, __value_type__radius, "Calculates and returns the bounding box radius. ", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type, radius2, Properties::NON_VIRTUAL, __value_type__radius2, "Calculates and returns the squared length of the bounding box radius. ", "Note, radius2() is faster to calculate than radius(). "); I_Method1(const osg::BoundingBoxImpl< osg::Vec3d >::vec_type, corner, IN, unsigned int, pos, Properties::NON_VIRTUAL, __C5_vec_type__corner__unsigned_int, "Returns a specific corner of the bounding box. ", "pos specifies the corner as a number between 0 and 7. Each bit selects an axis, X, Y, or Z from least- to most-significant. Unset bits select the minimum value for that axis, and set bits select the maximum. "); I_Method1(void, expandBy, IN, const osg::BoundingBoxImpl< osg::Vec3d >::vec_type &, v, Properties::NON_VIRTUAL, __void__expandBy__C5_vec_type_R1, "Expands the bounding box to include the given coordinate. ", "If the box is uninitialized, set its min and max extents to v. "); I_Method3(void, expandBy, IN, osg::BoundingBoxImpl< osg::Vec3d >::value_type, x, IN, osg::BoundingBoxImpl< osg::Vec3d >::value_type, y, IN, osg::BoundingBoxImpl< osg::Vec3d >::value_type, z, Properties::NON_VIRTUAL, __void__expandBy__value_type__value_type__value_type, "Expands the bounding box to include the given coordinate. ", "If the box is uninitialized, set its min and max extents to Vec3(x,y,z). "); I_Method1(void, expandBy, IN, const osg::BoundingBoxImpl< osg::Vec3d > &, bb, Properties::NON_VIRTUAL, __void__expandBy__C5_BoundingBoxImpl_R1, "Expands this bounding box to include the given bounding box. ", "If this box is uninitialized, set it equal to bb. "); I_Method1(void, expandBy, IN, const osg::BoundingSphereImpl< osg::Vec3d > &, sh, Properties::NON_VIRTUAL, __void__expandBy__C5_BoundingSphereImplT1_VT__R1, "Expands this bounding box to include the given sphere. ", "If this box is uninitialized, set it to include sh. "); I_Method1(osg::BoundingBoxImpl< osg::Vec3d >, intersect, IN, const osg::BoundingBoxImpl< osg::Vec3d > &, bb, Properties::NON_VIRTUAL, __BoundingBoxImpl__intersect__C5_BoundingBoxImpl_R1, "Returns the intersection of this bounding box and the specified bounding box. ", ""); I_Method1(bool, intersects, IN, const osg::BoundingBoxImpl< osg::Vec3d > &, bb, Properties::NON_VIRTUAL, __bool__intersects__C5_BoundingBoxImpl_R1, "Return true if this bounding box intersects the specified bounding box. ", ""); I_Method1(bool, contains, IN, const osg::BoundingBoxImpl< osg::Vec3d >::vec_type &, v, Properties::NON_VIRTUAL, __bool__contains__C5_vec_type_R1, "Returns true if this bounding box contains the specified coordinate. ", ""); I_PublicMemberProperty(osg::BoundingBoxImpl< osg::Vec3d >::vec_type, _min); I_PublicMemberProperty(osg::BoundingBoxImpl< osg::Vec3d >::vec_type, _max); END_REFLECTOR BEGIN_VALUE_REFLECTOR(osg::BoundingBoxImpl< osg::Vec3f >) I_DeclaringFile("osg/BoundingBox"); I_Constructor0(____BoundingBoxImpl, "Creates an uninitialized bounding box. ", ""); I_Constructor6(IN, osg::BoundingBoxImpl< osg::Vec3f >::value_type, xmin, IN, osg::BoundingBoxImpl< osg::Vec3f >::value_type, ymin, IN, osg::BoundingBoxImpl< osg::Vec3f >::value_type, zmin, IN, osg::BoundingBoxImpl< osg::Vec3f >::value_type, xmax, IN, osg::BoundingBoxImpl< osg::Vec3f >::value_type, ymax, IN, osg::BoundingBoxImpl< osg::Vec3f >::value_type, zmax, ____BoundingBoxImpl__value_type__value_type__value_type__value_type__value_type__value_type, "Creates a bounding box initialized to the given extents. ", ""); I_Constructor2(IN, const osg::BoundingBoxImpl< osg::Vec3f >::vec_type &, min, IN, const osg::BoundingBoxImpl< osg::Vec3f >::vec_type &, max, ____BoundingBoxImpl__C5_vec_type_R1__C5_vec_type_R1, "Creates a bounding box initialized to the given extents. ", ""); I_Method0(void, init, Properties::NON_VIRTUAL, __void__init, "Clear the bounding box. ", "Erases existing minimum and maximum extents. "); I_Method0(bool, valid, Properties::NON_VIRTUAL, __bool__valid, "Returns true if the bounding box extents are valid, false otherwise. ", ""); I_Method6(void, set, IN, osg::BoundingBoxImpl< osg::Vec3f >::value_type, xmin, IN, osg::BoundingBoxImpl< osg::Vec3f >::value_type, ymin, IN, osg::BoundingBoxImpl< osg::Vec3f >::value_type, zmin, IN, osg::BoundingBoxImpl< osg::Vec3f >::value_type, xmax, IN, osg::BoundingBoxImpl< osg::Vec3f >::value_type, ymax, IN, osg::BoundingBoxImpl< osg::Vec3f >::value_type, zmax, Properties::NON_VIRTUAL, __void__set__value_type__value_type__value_type__value_type__value_type__value_type, "Sets the bounding box extents. ", ""); I_Method2(void, set, IN, const osg::BoundingBoxImpl< osg::Vec3f >::vec_type &, min, IN, const osg::BoundingBoxImpl< osg::Vec3f >::vec_type &, max, Properties::NON_VIRTUAL, __void__set__C5_vec_type_R1__C5_vec_type_R1, "Sets the bounding box extents. ", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3f >::value_type &, xMin, Properties::NON_VIRTUAL, __value_type_R1__xMin, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3f >::value_type, xMin, Properties::NON_VIRTUAL, __value_type__xMin, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3f >::value_type &, yMin, Properties::NON_VIRTUAL, __value_type_R1__yMin, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3f >::value_type, yMin, Properties::NON_VIRTUAL, __value_type__yMin, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3f >::value_type &, zMin, Properties::NON_VIRTUAL, __value_type_R1__zMin, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3f >::value_type, zMin, Properties::NON_VIRTUAL, __value_type__zMin, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3f >::value_type &, xMax, Properties::NON_VIRTUAL, __value_type_R1__xMax, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3f >::value_type, xMax, Properties::NON_VIRTUAL, __value_type__xMax, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3f >::value_type &, yMax, Properties::NON_VIRTUAL, __value_type_R1__yMax, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3f >::value_type, yMax, Properties::NON_VIRTUAL, __value_type__yMax, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3f >::value_type &, zMax, Properties::NON_VIRTUAL, __value_type_R1__zMax, "", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3f >::value_type, zMax, Properties::NON_VIRTUAL, __value_type__zMax, "", ""); I_Method0(const osg::BoundingBoxImpl< osg::Vec3f >::vec_type, center, Properties::NON_VIRTUAL, __C5_vec_type__center, "Calculates and returns the bounding box center. ", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3f >::value_type, radius, Properties::NON_VIRTUAL, __value_type__radius, "Calculates and returns the bounding box radius. ", ""); I_Method0(osg::BoundingBoxImpl< osg::Vec3f >::value_type, radius2, Properties::NON_VIRTUAL, __value_type__radius2, "Calculates and returns the squared length of the bounding box radius. ", "Note, radius2() is faster to calculate than radius(). "); I_Method1(const osg::BoundingBoxImpl< osg::Vec3f >::vec_type, corner, IN, unsigned int, pos, Properties::NON_VIRTUAL, __C5_vec_type__corner__unsigned_int, "Returns a specific corner of the bounding box. ", "pos specifies the corner as a number between 0 and 7. Each bit selects an axis, X, Y, or Z from least- to most-significant. Unset bits select the minimum value for that axis, and set bits select the maximum. "); I_Method1(void, expandBy, IN, const osg::BoundingBoxImpl< osg::Vec3f >::vec_type &, v, Properties::NON_VIRTUAL, __void__expandBy__C5_vec_type_R1, "Expands the bounding box to include the given coordinate. ", "If the box is uninitialized, set its min and max extents to v. "); I_Method3(void, expandBy, IN, osg::BoundingBoxImpl< osg::Vec3f >::value_type, x, IN, osg::BoundingBoxImpl< osg::Vec3f >::value_type, y, IN, osg::BoundingBoxImpl< osg::Vec3f >::value_type, z, Properties::NON_VIRTUAL, __void__expandBy__value_type__value_type__value_type, "Expands the bounding box to include the given coordinate. ", "If the box is uninitialized, set its min and max extents to Vec3(x,y,z). "); I_Method1(void, expandBy, IN, const osg::BoundingBoxImpl< osg::Vec3f > &, bb, Properties::NON_VIRTUAL, __void__expandBy__C5_BoundingBoxImpl_R1, "Expands this bounding box to include the given bounding box. ", "If this box is uninitialized, set it equal to bb. "); I_Method1(void, expandBy, IN, const osg::BoundingSphereImpl< osg::Vec3f > &, sh, Properties::NON_VIRTUAL, __void__expandBy__C5_BoundingSphereImplT1_VT__R1, "Expands this bounding box to include the given sphere. ", "If this box is uninitialized, set it to include sh. "); I_Method1(osg::BoundingBoxImpl< osg::Vec3f >, intersect, IN, const osg::BoundingBoxImpl< osg::Vec3f > &, bb, Properties::NON_VIRTUAL, __BoundingBoxImpl__intersect__C5_BoundingBoxImpl_R1, "Returns the intersection of this bounding box and the specified bounding box. ", ""); I_Method1(bool, intersects, IN, const osg::BoundingBoxImpl< osg::Vec3f > &, bb, Properties::NON_VIRTUAL, __bool__intersects__C5_BoundingBoxImpl_R1, "Return true if this bounding box intersects the specified bounding box. ", ""); I_Method1(bool, contains, IN, const osg::BoundingBoxImpl< osg::Vec3f >::vec_type &, v, Properties::NON_VIRTUAL, __bool__contains__C5_vec_type_R1, "Returns true if this bounding box contains the specified coordinate. ", ""); I_PublicMemberProperty(osg::BoundingBoxImpl< osg::Vec3f >::vec_type, _min); I_PublicMemberProperty(osg::BoundingBoxImpl< osg::Vec3f >::vec_type, _max); END_REFLECTOR