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Updated wrappers

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This commit is contained in:
Robert Osfield
2008-11-26 16:40:01 +00:00
parent d952172559
commit c470752182
3 changed files with 328 additions and 90 deletions
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5
src/osgWrappers/genwrapper.conf
View File

@@ -91,6 +91,11 @@ configure file /osg\/BoundingBox/
"
end
configure file /osg\/BoundingSphere/
emit before "#include <osg/BoundingBox>
"
end
#############################################################################
# add <io_utils> header to Plane, Quat and Vec* files

237
src/osgWrappers/osg/BoundingBox.cpp
View File

@@ -11,7 +11,8 @@
#include <osgIntrospection/Attributes>
#include <osg/BoundingBox>
#include <osg/BoundingSphere>
#include <osg/Vec3d>
#include <osg/Vec3f>
// Must undefine IN and OUT macros defined in Windows headers
#ifdef IN
@@ -21,21 +22,25 @@
#undef OUT
#endif
TYPE_NAME_ALIAS(osg::Vec3f, osg::BoundingBox::vec_type)
#include <osg/BoundingSphere>
TYPE_NAME_ALIAS(osg::BoundingBoxImpl< osg::Vec3f >, osg::BoundingBoxf)
TYPE_NAME_ALIAS(float, osg::BoundingBox::value_type)
TYPE_NAME_ALIAS(osg::BoundingBoxImpl< osg::Vec3d >, osg::BoundingBoxd)
BEGIN_VALUE_REFLECTOR(osg::BoundingBox)
TYPE_NAME_ALIAS(osg::BoundingBoxf, osg::BoundingBox)
BEGIN_VALUE_REFLECTOR(osg::BoundingBoxImpl< osg::Vec3d >)
I_DeclaringFile("osg/BoundingBox");
I_Constructor0(____BoundingBox,
I_Constructor0(____BoundingBoxImpl,
"Creates an uninitialized bounding box. ",
"");
I_Constructor6(IN, osg::BoundingBox::value_type, xmin, IN, osg::BoundingBox::value_type, ymin, IN, osg::BoundingBox::value_type, zmin, IN, osg::BoundingBox::value_type, xmax, IN, osg::BoundingBox::value_type, ymax, IN, osg::BoundingBox::value_type, zmax,
____BoundingBox__value_type__value_type__value_type__value_type__value_type__value_type,
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::BoundingBox::vec_type &, min, IN, const osg::BoundingBox::vec_type &, max,
____BoundingBox__C5_vec_type_R1__C5_vec_type_R1,
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,
@@ -48,132 +53,284 @@ BEGIN_VALUE_REFLECTOR(osg::BoundingBox)
__bool__valid,
"Returns true if the bounding box extents are valid, false otherwise. ",
"");
I_Method6(void, set, IN, osg::BoundingBox::value_type, xmin, IN, osg::BoundingBox::value_type, ymin, IN, osg::BoundingBox::value_type, zmin, IN, osg::BoundingBox::value_type, xmax, IN, osg::BoundingBox::value_type, ymax, IN, osg::BoundingBox::value_type, zmax,
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::BoundingBox::vec_type &, min, IN, const osg::BoundingBox::vec_type &, max,
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::BoundingBox::value_type &, xMin,
I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type &, xMin,
Properties::NON_VIRTUAL,
__value_type_R1__xMin,
"",
"");
I_Method0(osg::BoundingBox::value_type, xMin,
I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type, xMin,
Properties::NON_VIRTUAL,
__value_type__xMin,
"",
"");
I_Method0(osg::BoundingBox::value_type &, yMin,
I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type &, yMin,
Properties::NON_VIRTUAL,
__value_type_R1__yMin,
"",
"");
I_Method0(osg::BoundingBox::value_type, yMin,
I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type, yMin,
Properties::NON_VIRTUAL,
__value_type__yMin,
"",
"");
I_Method0(osg::BoundingBox::value_type &, zMin,
I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type &, zMin,
Properties::NON_VIRTUAL,
__value_type_R1__zMin,
"",
"");
I_Method0(osg::BoundingBox::value_type, zMin,
I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type, zMin,
Properties::NON_VIRTUAL,
__value_type__zMin,
"",
"");
I_Method0(osg::BoundingBox::value_type &, xMax,
I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type &, xMax,
Properties::NON_VIRTUAL,
__value_type_R1__xMax,
"",
"");
I_Method0(osg::BoundingBox::value_type, xMax,
I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type, xMax,
Properties::NON_VIRTUAL,
__value_type__xMax,
"",
"");
I_Method0(osg::BoundingBox::value_type &, yMax,
I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type &, yMax,
Properties::NON_VIRTUAL,
__value_type_R1__yMax,
"",
"");
I_Method0(osg::BoundingBox::value_type, yMax,
I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type, yMax,
Properties::NON_VIRTUAL,
__value_type__yMax,
"",
"");
I_Method0(osg::BoundingBox::value_type &, zMax,
I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type &, zMax,
Properties::NON_VIRTUAL,
__value_type_R1__zMax,
"",
"");
I_Method0(osg::BoundingBox::value_type, zMax,
I_Method0(osg::BoundingBoxImpl< osg::Vec3d >::value_type, zMax,
Properties::NON_VIRTUAL,
__value_type__zMax,
"",
"");
I_Method0(const osg::BoundingBox::vec_type, center,
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::BoundingBox::value_type, radius,
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::BoundingBox::value_type, radius2,
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::BoundingBox::vec_type, corner, IN, unsigned int, pos,
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::BoundingBox::vec_type &, v,
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::BoundingBox::value_type, x, IN, osg::BoundingBox::value_type, y, IN, osg::BoundingBox::value_type, z,
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::BoundingBox &, bb,
I_Method1(void, expandBy, IN, const osg::BoundingBoxImpl< osg::Vec3d > &, bb,
Properties::NON_VIRTUAL,
__void__expandBy__C5_BoundingBox_R1,
__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::BoundingSphere &, sh,
I_Method1(void, expandBy, IN, const osg::BoundingSphereImpl< osg::Vec3d > &, sh,
Properties::NON_VIRTUAL,
__void__expandBy__C5_BoundingSphere_R1,
__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::BoundingBox, intersect, IN, const osg::BoundingBox &, bb,
I_Method1(osg::BoundingBoxImpl< osg::Vec3d >, intersect, IN, const osg::BoundingBoxImpl< osg::Vec3d > &, bb,
Properties::NON_VIRTUAL,
__BoundingBox__intersect__C5_BoundingBox_R1,
__BoundingBoxImpl__intersect__C5_BoundingBoxImpl_R1,
"Returns the intersection of this bounding box and the specified bounding box. ",
"");
I_Method1(bool, intersects, IN, const osg::BoundingBox &, bb,
I_Method1(bool, intersects, IN, const osg::BoundingBoxImpl< osg::Vec3d > &, bb,
Properties::NON_VIRTUAL,
__bool__intersects__C5_BoundingBox_R1,
__bool__intersects__C5_BoundingBoxImpl_R1,
"Return true if this bounding box intersects the specified bounding box. ",
"");
I_Method1(bool, contains, IN, const osg::BoundingBox::vec_type &, v,
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::BoundingBox::vec_type, _min);
I_PublicMemberProperty(osg::BoundingBox::vec_type, _max);
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

176
src/osgWrappers/osg/BoundingSphere.cpp
View File

@@ -10,7 +10,6 @@
#include <osgIntrospection/StaticMethodInfo>
#include <osgIntrospection/Attributes>
#include <osg/BoundingBox>
#include <osg/BoundingSphere>
#include <osg/Vec3d>
#include <osg/Vec3f>
@@ -23,27 +22,31 @@
#undef OUT
#endif
TYPE_NAME_ALIAS(osg::Vec3f, osg::BoundingSphere::vec_type)
#include <osg/BoundingBox>
TYPE_NAME_ALIAS(osg::BoundingSphereImpl< osg::Vec3f >, osg::BoundingSpheref)
TYPE_NAME_ALIAS(float, osg::BoundingSphere::value_type)
TYPE_NAME_ALIAS(osg::BoundingSphereImpl< osg::Vec3d >, osg::BoundingSphered)
BEGIN_VALUE_REFLECTOR(osg::BoundingSphere)
TYPE_NAME_ALIAS(osg::BoundingSpheref, osg::BoundingSphere)
BEGIN_VALUE_REFLECTOR(osg::BoundingSphereImpl< osg::Vec3d >)
I_DeclaringFile("osg/BoundingSphere");
I_Constructor0(____BoundingSphere,
I_Constructor0(____BoundingSphereImpl,
"Construct a default bounding sphere with radius to -1.0f, representing an invalid/unset bounding sphere. ",
"");
I_Constructor2(IN, const osg::BoundingSphere::vec_type &, center, IN, osg::BoundingSphere::value_type, radius,
____BoundingSphere__C5_vec_type_R1__value_type,
I_Constructor2(IN, const osg::BoundingSphereImpl< osg::Vec3d >::vec_type &, center, IN, osg::BoundingSphereImpl< osg::Vec3d >::value_type, radius,
____BoundingSphereImpl__C5_vec_type_R1__value_type,
"Creates a bounding sphere initialized to the given extents. ",
"");
I_Constructor1(IN, const osg::BoundingSphere &, bs,
I_Constructor1(IN, const osg::BoundingSphereImpl< osg::Vec3d > &, bs,
Properties::NON_EXPLICIT,
____BoundingSphere__C5_BoundingSphere_R1,
____BoundingSphereImpl__C5_BoundingSphereImpl_R1,
"Creates a bounding sphere initialized to the given extents. ",
"");
I_Constructor1(IN, const osg::BoundingBox &, bb,
I_Constructor1(IN, const osg::BoundingBoxImpl< osg::Vec3d > &, bb,
Properties::NON_EXPLICIT,
____BoundingSphere__C5_BoundingBox_R1,
____BoundingSphereImpl__C5_BoundingBoxImplT1_VT__R1,
"Creates a bounding sphere initialized to the given extents. ",
"");
I_Method0(void, init,
@@ -56,87 +59,160 @@ BEGIN_VALUE_REFLECTOR(osg::BoundingSphere)
__bool__valid,
"Returns true of the bounding sphere extents are valid, false otherwise. ",
"");
I_Method2(void, set, IN, const osg::BoundingSphere::vec_type &, center, IN, osg::BoundingSphere::value_type, radius,
I_Method2(void, set, IN, const osg::BoundingSphereImpl< osg::Vec3d >::vec_type &, center, IN, osg::BoundingSphereImpl< osg::Vec3d >::value_type, radius,
Properties::NON_VIRTUAL,
__void__set__C5_vec_type_R1__value_type,
"Set the bounding sphere to the given center/radius using floats. ",
"");
I_Method0(osg::BoundingSphere::vec_type &, center,
I_Method0(osg::BoundingSphereImpl< osg::Vec3d >::vec_type &, center,
Properties::NON_VIRTUAL,
__vec_type_R1__center,
"Returns the center of the bounding sphere. ",
"");
I_Method0(const osg::BoundingSphere::vec_type &, center,
I_Method0(const osg::BoundingSphereImpl< osg::Vec3d >::vec_type &, center,
Properties::NON_VIRTUAL,
__C5_vec_type_R1__center,
"Returns the const center of the bounding sphere. ",
"");
I_Method0(osg::BoundingSphere::value_type &, radius,
I_Method0(osg::BoundingSphereImpl< osg::Vec3d >::value_type &, radius,
Properties::NON_VIRTUAL,
__value_type_R1__radius,
"Returns the radius of the bounding sphere. ",
"");
I_Method0(osg::BoundingSphere::value_type, radius,
I_Method0(osg::BoundingSphereImpl< osg::Vec3d >::value_type, radius,
Properties::NON_VIRTUAL,
__value_type__radius,
"Returns the const radius of the bounding sphere. ",
"");
I_Method0(osg::BoundingSphere::value_type, radius2,
I_Method0(osg::BoundingSphereImpl< osg::Vec3d >::value_type, radius2,
Properties::NON_VIRTUAL,
__value_type__radius2,
"Returns the squared length of the radius. ",
"Note, For performance reasons, the calling method is responsible for checking to make sure the sphere is valid. ");
I_Method1(void, expandBy, IN, const osg::Vec3f &, v,
I_Method1(void, expandBy, IN, const osg::BoundingSphereImpl< osg::Vec3d > &, sh,
Properties::NON_VIRTUAL,
__void__expandBy__C5_Vec3f_R1,
"Expands the sphere to encompass the given point. ",
"Repositions the sphere center to minimize the radius increase. If the sphere is uninitialized, set its center to v and radius to zero. ");
I_Method1(void, expandRadiusBy, IN, const osg::Vec3f &, v,
Properties::NON_VIRTUAL,
__void__expandRadiusBy__C5_Vec3f_R1,
"Expands the sphere to encompass the given point. ",
"Does not reposition the sphere center. If the sphere is uninitialized, set its center to v and radius to zero. ");
I_Method1(void, expandBy, IN, const osg::Vec3d &, v,
Properties::NON_VIRTUAL,
__void__expandBy__C5_Vec3d_R1,
"Expands the sphere to encompass the given point. ",
"Repositions the sphere center to minimize the radius increase. If the sphere is uninitialized, set its center to v and radius to zero. ");
I_Method1(void, expandRadiusBy, IN, const osg::Vec3d &, v,
Properties::NON_VIRTUAL,
__void__expandRadiusBy__C5_Vec3d_R1,
"Expands the sphere to encompass the given point. ",
"Does not reposition the sphere center. If the sphere is uninitialized, set its center to v and radius to zero. ");
I_Method1(void, expandBy, IN, const osg::BoundingSphere &, sh,
Properties::NON_VIRTUAL,
__void__expandBy__C5_BoundingSphere_R1,
__void__expandBy__C5_BoundingSphereImpl_R1,
"Expands the sphere to encompass the given sphere. ",
"Repositions the sphere center to minimize the radius increase. If the sphere is uninitialized, set its center and radius to match sh. ");
I_Method1(void, expandRadiusBy, IN, const osg::BoundingSphere &, sh,
I_Method1(void, expandRadiusBy, IN, const osg::BoundingSphereImpl< osg::Vec3d > &, sh,
Properties::NON_VIRTUAL,
__void__expandRadiusBy__C5_BoundingSphere_R1,
__void__expandRadiusBy__C5_BoundingSphereImpl_R1,
"Expands the sphere to encompass the given sphere. ",
"Does not repositions the sphere center. If the sphere is uninitialized, set its center and radius to match sh. ");
I_Method1(void, expandBy, IN, const osg::BoundingBox &, bb,
I_Method1(void, expandBy, IN, const osg::BoundingBoxImpl< osg::Vec3d > &, bb,
Properties::NON_VIRTUAL,
__void__expandBy__C5_BoundingBox_R1,
__void__expandBy__C5_BoundingBoxImplT1_VT__R1,
"Expands the sphere to encompass the given box. ",
"Repositions the sphere center to minimize the radius increase. ");
I_Method1(void, expandRadiusBy, IN, const osg::BoundingBox &, bb,
I_Method1(void, expandRadiusBy, IN, const osg::BoundingBoxImpl< osg::Vec3d > &, bb,
Properties::NON_VIRTUAL,
__void__expandRadiusBy__C5_BoundingBox_R1,
__void__expandRadiusBy__C5_BoundingBoxImplT1_VT__R1,
"Expands the sphere to encompass the given box. ",
"Does not repositions the sphere center. ");
I_Method1(bool, contains, IN, const osg::BoundingSphere::vec_type &, v,
I_Method1(bool, contains, IN, const osg::BoundingSphereImpl< osg::Vec3d >::vec_type &, v,
Properties::NON_VIRTUAL,
__bool__contains__C5_vec_type_R1,
"Returns true if v is within the sphere. ",
"");
I_Method1(bool, intersects, IN, const osg::BoundingSphere &, bs,
I_Method1(bool, intersects, IN, const osg::BoundingSphereImpl< osg::Vec3d > &, bs,
Properties::NON_VIRTUAL,
__bool__intersects__C5_BoundingSphere_R1,
__bool__intersects__C5_BoundingSphereImpl_R1,
"Returns true if there is a non-empty intersection with the given bounding sphere. ",
"");
I_PublicMemberProperty(osg::BoundingSphere::vec_type, _center);
I_PublicMemberProperty(osg::BoundingSphere::value_type, _radius);
I_PublicMemberProperty(osg::BoundingSphereImpl< osg::Vec3d >::vec_type, _center);
I_PublicMemberProperty(osg::BoundingSphereImpl< osg::Vec3d >::value_type, _radius);
END_REFLECTOR
BEGIN_VALUE_REFLECTOR(osg::BoundingSphereImpl< osg::Vec3f >)
I_DeclaringFile("osg/BoundingSphere");
I_Constructor0(____BoundingSphereImpl,
"Construct a default bounding sphere with radius to -1.0f, representing an invalid/unset bounding sphere. ",
"");
I_Constructor2(IN, const osg::BoundingSphereImpl< osg::Vec3f >::vec_type &, center, IN, osg::BoundingSphereImpl< osg::Vec3f >::value_type, radius,
____BoundingSphereImpl__C5_vec_type_R1__value_type,
"Creates a bounding sphere initialized to the given extents. ",
"");
I_Constructor1(IN, const osg::BoundingSphereImpl< osg::Vec3f > &, bs,
Properties::NON_EXPLICIT,
____BoundingSphereImpl__C5_BoundingSphereImpl_R1,
"Creates a bounding sphere initialized to the given extents. ",
"");
I_Constructor1(IN, const osg::BoundingBoxImpl< osg::Vec3f > &, bb,
Properties::NON_EXPLICIT,
____BoundingSphereImpl__C5_BoundingBoxImplT1_VT__R1,
"Creates a bounding sphere initialized to the given extents. ",
"");
I_Method0(void, init,
Properties::NON_VIRTUAL,
__void__init,
"Clear the bounding sphere. ",
"Reset to default values. ");
I_Method0(bool, valid,
Properties::NON_VIRTUAL,
__bool__valid,
"Returns true of the bounding sphere extents are valid, false otherwise. ",
"");
I_Method2(void, set, IN, const osg::BoundingSphereImpl< osg::Vec3f >::vec_type &, center, IN, osg::BoundingSphereImpl< osg::Vec3f >::value_type, radius,
Properties::NON_VIRTUAL,
__void__set__C5_vec_type_R1__value_type,
"Set the bounding sphere to the given center/radius using floats. ",
"");
I_Method0(osg::BoundingSphereImpl< osg::Vec3f >::vec_type &, center,
Properties::NON_VIRTUAL,
__vec_type_R1__center,
"Returns the center of the bounding sphere. ",
"");
I_Method0(const osg::BoundingSphereImpl< osg::Vec3f >::vec_type &, center,
Properties::NON_VIRTUAL,
__C5_vec_type_R1__center,
"Returns the const center of the bounding sphere. ",
"");
I_Method0(osg::BoundingSphereImpl< osg::Vec3f >::value_type &, radius,
Properties::NON_VIRTUAL,
__value_type_R1__radius,
"Returns the radius of the bounding sphere. ",
"");
I_Method0(osg::BoundingSphereImpl< osg::Vec3f >::value_type, radius,
Properties::NON_VIRTUAL,
__value_type__radius,
"Returns the const radius of the bounding sphere. ",
"");
I_Method0(osg::BoundingSphereImpl< osg::Vec3f >::value_type, radius2,
Properties::NON_VIRTUAL,
__value_type__radius2,
"Returns the squared length of the radius. ",
"Note, For performance reasons, the calling method is responsible for checking to make sure the sphere is valid. ");
I_Method1(void, expandBy, IN, const osg::BoundingSphereImpl< osg::Vec3f > &, sh,
Properties::NON_VIRTUAL,
__void__expandBy__C5_BoundingSphereImpl_R1,
"Expands the sphere to encompass the given sphere. ",
"Repositions the sphere center to minimize the radius increase. If the sphere is uninitialized, set its center and radius to match sh. ");
I_Method1(void, expandRadiusBy, IN, const osg::BoundingSphereImpl< osg::Vec3f > &, sh,
Properties::NON_VIRTUAL,
__void__expandRadiusBy__C5_BoundingSphereImpl_R1,
"Expands the sphere to encompass the given sphere. ",
"Does not repositions the sphere center. If the sphere is uninitialized, set its center and radius to match sh. ");
I_Method1(void, expandBy, IN, const osg::BoundingBoxImpl< osg::Vec3f > &, bb,
Properties::NON_VIRTUAL,
__void__expandBy__C5_BoundingBoxImplT1_VT__R1,
"Expands the sphere to encompass the given box. ",
"Repositions the sphere center to minimize the radius increase. ");
I_Method1(void, expandRadiusBy, IN, const osg::BoundingBoxImpl< osg::Vec3f > &, bb,
Properties::NON_VIRTUAL,
__void__expandRadiusBy__C5_BoundingBoxImplT1_VT__R1,
"Expands the sphere to encompass the given box. ",
"Does not repositions the sphere center. ");
I_Method1(bool, contains, IN, const osg::BoundingSphereImpl< osg::Vec3f >::vec_type &, v,
Properties::NON_VIRTUAL,
__bool__contains__C5_vec_type_R1,
"Returns true if v is within the sphere. ",
"");
I_Method1(bool, intersects, IN, const osg::BoundingSphereImpl< osg::Vec3f > &, bs,
Properties::NON_VIRTUAL,
__bool__intersects__C5_BoundingSphereImpl_R1,
"Returns true if there is a non-empty intersection with the given bounding sphere. ",
"");
I_PublicMemberProperty(osg::BoundingSphereImpl< osg::Vec3f >::vec_type, _center);
I_PublicMemberProperty(osg::BoundingSphereImpl< osg::Vec3f >::value_type, _radius);
END_REFLECTOR