// // Copyright 2016 Pixar // // Licensed under the Apache License, Version 2.0 (the "Apache License") // with the following modification; you may not use this file except in // compliance with the Apache License and the following modification to it: // Section 6. Trademarks. is deleted and replaced with: // // 6. Trademarks. This License does not grant permission to use the trade // names, trademarks, service marks, or product names of the Licensor // and its affiliates, except as required to comply with Section 4(c) of // the License and to reproduce the content of the NOTICE file. // // You may obtain a copy of the Apache License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the Apache License with the above modification is // distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY // KIND, either express or implied. See the Apache License for the specific // language governing permissions and limitations under the Apache License. // //////////////////////////////////////////////////////////////////////// // This file is generated by a script. Do not edit directly. Edit the // range.template.h file to make changes. #ifndef PXR_BASE_GF_RANGE3F_H #define PXR_BASE_GF_RANGE3F_H /// \file gf/range3f.h /// \ingroup group_gf_BasicGeometry #include "pxr/pxr.h" #include "pxr/base/gf/api.h" #include "pxr/base/gf/vec3d.h" #include "pxr/base/gf/vec3f.h" #include "pxr/base/gf/traits.h" #include #include #include #include PXR_NAMESPACE_OPEN_SCOPE class GfRange3d; class GfRange3f; template <> struct GfIsGfRange { static const bool value = true; }; /// \class GfRange3f /// \ingroup group_gf_BasicGeometry /// /// Basic type: 3-dimensional floating point range. /// /// This class represents a 3-dimensional range (or interval) All /// operations are component-wise and conform to interval mathematics. An /// empty range is one where max < min. /// The default empty is [FLT_MAX,-FLT_MAX] class GfRange3f { public: /// Helper typedef. typedef GfVec3f MinMaxType; static const size_t dimension = GfVec3f::dimension; typedef GfVec3f::ScalarType ScalarType; /// Sets the range to an empty interval // TODO check whether this can be deprecated. void inline SetEmpty() { _min[0] = _min[1] = _min[2] = FLT_MAX; _max[0] = _max[1] = _max[2] = -FLT_MAX; } /// The default constructor creates an empty range. GfRange3f() { SetEmpty(); } /// This constructor initializes the minimum and maximum points. GfRange3f(const GfVec3f &min, const GfVec3f &max) : _min(min), _max(max) { } /// Returns the minimum value of the range. const GfVec3f &GetMin() const { return _min; } /// Returns the maximum value of the range. const GfVec3f &GetMax() const { return _max; } /// Returns the size of the range. GfVec3f GetSize() const { return _max - _min; } /// Returns the midpoint of the range, that is, 0.5*(min+max). /// Note: this returns zero in the case of default-constructed ranges, /// or ranges set via SetEmpty(). GfVec3f GetMidpoint() const { return static_cast(0.5) * _min + static_cast(0.5) * _max; } /// Sets the minimum value of the range. void SetMin(const GfVec3f &min) { _min = min; } /// Sets the maximum value of the range. void SetMax(const GfVec3f &max) { _max = max; } /// Returns whether the range is empty (max < min). bool IsEmpty() const { return _min[0] > _max[0] || _min[1] > _max[1] || _min[2] > _max[2]; } /// Modifies the range if necessary to surround the given value. /// \deprecated Use UnionWith() instead. void ExtendBy(const GfVec3f &point) { UnionWith(point); } /// Modifies the range if necessary to surround the given range. /// \deprecated Use UnionWith() instead. void ExtendBy(const GfRange3f &range) { UnionWith(range); } /// Returns true if the \p point is located inside the range. As with all /// operations of this type, the range is assumed to include its extrema. bool Contains(const GfVec3f &point) const { return (point[0] >= _min[0] && point[0] <= _max[0] && point[1] >= _min[1] && point[1] <= _max[1] && point[2] >= _min[2] && point[2] <= _max[2]); } /// Returns true if the \p range is located entirely inside the range. As /// with all operations of this type, the ranges are assumed to include /// their extrema. bool Contains(const GfRange3f &range) const { return Contains(range._min) && Contains(range._max); } /// Returns true if the \p point is located inside the range. As with all /// operations of this type, the range is assumed to include its extrema. /// \deprecated Use Contains() instead. bool IsInside(const GfVec3f &point) const { return Contains(point); } /// Returns true if the \p range is located entirely inside the range. As /// with all operations of this type, the ranges are assumed to include /// their extrema. /// \deprecated Use Contains() instead. bool IsInside(const GfRange3f &range) const { return Contains(range); } /// Returns true if the \p range is located entirely outside the range. As /// with all operations of this type, the ranges are assumed to include /// their extrema. bool IsOutside(const GfRange3f &range) const { return ((range._max[0] < _min[0] || range._min[0] > _max[0]) || (range._max[1] < _min[1] || range._min[1] > _max[1]) || (range._max[2] < _min[2] || range._min[2] > _max[2])); } /// Returns the smallest \c GfRange3f which contains both \p a and \p b. static GfRange3f GetUnion(const GfRange3f &a, const GfRange3f &b) { GfRange3f res = a; _FindMin(res._min,b._min); _FindMax(res._max,b._max); return res; } /// Extend \p this to include \p b. const GfRange3f &UnionWith(const GfRange3f &b) { _FindMin(_min,b._min); _FindMax(_max,b._max); return *this; } /// Extend \p this to include \p b. const GfRange3f &UnionWith(const GfVec3f &b) { _FindMin(_min,b); _FindMax(_max,b); return *this; } /// Returns the smallest \c GfRange3f which contains both \p a and \p b /// \deprecated Use GetUnion() instead. static GfRange3f Union(const GfRange3f &a, const GfRange3f &b) { return GetUnion(a, b); } /// Extend \p this to include \p b. /// \deprecated Use UnionWith() instead. const GfRange3f &Union(const GfRange3f &b) { return UnionWith(b); } /// Extend \p this to include \p b. /// \deprecated Use UnionWith() instead. const GfRange3f &Union(const GfVec3f &b) { return UnionWith(b); } /// Returns a \c GfRange3f that describes the intersection of \p a and \p b. static GfRange3f GetIntersection(const GfRange3f &a, const GfRange3f &b) { GfRange3f res = a; _FindMax(res._min,b._min); _FindMin(res._max,b._max); return res; } /// Returns a \c GfRange3f that describes the intersection of \p a and \p b. /// \deprecated Use GetIntersection() instead. static GfRange3f Intersection(const GfRange3f &a, const GfRange3f &b) { return GetIntersection(a, b); } /// Modifies this range to hold its intersection with \p b and returns the /// result const GfRange3f &IntersectWith(const GfRange3f &b) { _FindMax(_min,b._min); _FindMin(_max,b._max); return *this; } /// Modifies this range to hold its intersection with \p b and returns the /// result. /// \deprecated Use IntersectWith() instead. const GfRange3f &Intersection(const GfRange3f &b) { return IntersectWith(b); } /// unary sum. GfRange3f operator +=(const GfRange3f &b) { _min += b._min; _max += b._max; return *this; } /// unary difference. GfRange3f operator -=(const GfRange3f &b) { _min -= b._max; _max -= b._min; return *this; } /// unary multiply. GfRange3f operator *=(double m) { if (m > 0) { _min *= m; _max *= m; } else { GfVec3f tmp = _min; _min = _max * m; _max = tmp * m; } return *this; } /// unary division. GfRange3f operator /=(double m) { return *this *= (1.0 / m); } /// binary sum. GfRange3f operator +(const GfRange3f &b) const { return GfRange3f(_min + b._min, _max + b._max); } /// binary difference. GfRange3f operator -(const GfRange3f &b) const { return GfRange3f(_min - b._max, _max - b._min); } /// scalar multiply. friend GfRange3f operator *(double m, const GfRange3f &r) { return (m > 0 ? GfRange3f(r._min*m, r._max*m) : GfRange3f(r._max*m, r._min*m)); } /// scalar multiply. friend GfRange3f operator *(const GfRange3f &r, double m) { return (m > 0 ? GfRange3f(r._min*m, r._max*m) : GfRange3f(r._max*m, r._min*m)); } /// scalar divide. friend GfRange3f operator /(const GfRange3f &r, double m) { return r * (1.0 / m); } /// hash. friend inline size_t hash_value(const GfRange3f &r) { size_t h = 0; boost::hash_combine(h, r._min); boost::hash_combine(h, r._max); return h; } /// The min and max points must match exactly for equality. bool operator ==(const GfRange3f &b) const { return (_min == b._min && _max == b._max); } bool operator !=(const GfRange3f &b) const { return !(*this == b); } /// Compare this range to a GfRange3d. /// /// The values must match exactly and it does exactly what you might /// expect when comparing float and double values. GF_API inline bool operator ==(const GfRange3d& other) const; GF_API inline bool operator !=(const GfRange3d& other) const; /// Compute the squared distance from a point to the range. GF_API double GetDistanceSquared(const GfVec3f &p) const; /// Returns the ith corner of the range, in the following order: /// LDB, RDB, LUB, RUB, LDF, RDF, LUF, RUF. Where L/R is left/right, /// D/U is down/up, and B/F is back/front. GF_API GfVec3f GetCorner(size_t i) const; /// Returns the ith octant of the range, in the following order: /// LDB, RDB, LUB, RUB, LDF, RDF, LUF, RUF. Where L/R is left/right, /// D/U is down/up, and B/F is back/front. GF_API GfRange3f GetOctant(size_t i) const; /// The unit cube. GF_API static const GfRange3f UnitCube; private: /// Minimum and maximum points. GfVec3f _min, _max; /// Extends minimum point if necessary to contain given point. static void _FindMin(GfVec3f &dest, const GfVec3f &point) { if (point[0] < dest[0]) dest[0] = point[0]; if (point[1] < dest[1]) dest[1] = point[1]; if (point[2] < dest[2]) dest[2] = point[2]; } /// Extends maximum point if necessary to contain given point. static void _FindMax(GfVec3f &dest, const GfVec3f &point) { if (point[0] > dest[0]) dest[0] = point[0]; if (point[1] > dest[1]) dest[1] = point[1]; if (point[2] > dest[2]) dest[2] = point[2]; } }; /// Output a GfRange3f. /// \ingroup group_gf_DebuggingOutput GF_API std::ostream& operator<<(std::ostream &, GfRange3f const &); PXR_NAMESPACE_CLOSE_SCOPE #include "pxr/base/gf/range3d.h" PXR_NAMESPACE_OPEN_SCOPE inline bool GfRange3f::operator ==(const GfRange3d& other) const { return _min == GfVec3f(other.GetMin()) && _max == GfVec3f(other.GetMax()); } inline bool GfRange3f::operator !=(const GfRange3d& other) const { return !(*this == other); } PXR_NAMESPACE_CLOSE_SCOPE #endif // PXR_BASE_GF_RANGE3F_H