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/* ----------------------------------------------------------------------------- This source file is part of OGRE (Object-oriented Graphics Rendering Engine) For the latest info, see http://www.ogre3d.org/ Copyright (c) 2000-2006 Torus Knot Software Ltd Also see acknowledgements in Readme.html This program is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA, or go to http://www.gnu.org/copyleft/lesser.txt. You may alternatively use this source under the terms of a specific version of the OGRE Unrestricted License provided you have obtained such a license from Torus Knot Software Ltd. ----------------------------------------------------------------------------- */ #ifndef __Math_H__ #define __Math_H__ #include "OgrePrerequisites.h" namespace Ogre { /** Wrapper class which indicates a given angle value is in Radians. @remarks Radian values are interchangeable with Degree values, and conversions will be done automatically between them. */ class Radian { Real mRad; public: explicit Radian ( Real r=0 ) : mRad(r) {} Radian ( const Degree& d ); Radian& operator = ( const Real& f ) { mRad = f; return *this; } Radian& operator = ( const Radian& r ) { mRad = r.mRad; return *this; } Radian& operator = ( const Degree& d ); Real valueDegrees() const; // see bottom of this file Real valueRadians() const { return mRad; } Real valueAngleUnits() const; const Radian& operator + () const { return *this; } Radian operator + ( const Radian& r ) const { return Radian ( mRad + r.mRad ); } Radian operator + ( const Degree& d ) const; Radian& operator += ( const Radian& r ) { mRad += r.mRad; return *this; } Radian& operator += ( const Degree& d ); Radian operator - () const { return Radian(-mRad); } Radian operator - ( const Radian& r ) const { return Radian ( mRad - r.mRad ); } Radian operator - ( const Degree& d ) const; Radian& operator -= ( const Radian& r ) { mRad -= r.mRad; return *this; } Radian& operator -= ( const Degree& d ); Radian operator * ( Real f ) const { return Radian ( mRad * f ); } Radian operator * ( const Radian& f ) const { return Radian ( mRad * f.mRad ); } Radian& operator *= ( Real f ) { mRad *= f; return *this; } Radian operator / ( Real f ) const { return Radian ( mRad / f ); } Radian& operator /= ( Real f ) { mRad /= f; return *this; } bool operator < ( const Radian& r ) const { return mRad < r.mRad; } bool operator <= ( const Radian& r ) const { return mRad <= r.mRad; } bool operator == ( const Radian& r ) const { return mRad == r.mRad; } bool operator != ( const Radian& r ) const { return mRad != r.mRad; } bool operator >= ( const Radian& r ) const { return mRad >= r.mRad; } bool operator > ( const Radian& r ) const { return mRad > r.mRad; } }; /** Wrapper class which indicates a given angle value is in Degrees. @remarks Degree values are interchangeable with Radian values, and conversions will be done automatically between them. */ class Degree { Real mDeg; // if you get an error here - make sure to define/typedef 'Real' first public: explicit Degree ( Real d=0 ) : mDeg(d) {} Degree ( const Radian& r ) : mDeg(r.valueDegrees()) {} Degree& operator = ( const Real& f ) { mDeg = f; return *this; } Degree& operator = ( const Degree& d ) { mDeg = d.mDeg; return *this; } Degree& operator = ( const Radian& r ) { mDeg = r.valueDegrees(); return *this; } Real valueDegrees() const { return mDeg; } Real valueRadians() const; // see bottom of this file Real valueAngleUnits() const; const Degree& operator + () const { return *this; } Degree operator + ( const Degree& d ) const { return Degree ( mDeg + d.mDeg ); } Degree operator + ( const Radian& r ) const { return Degree ( mDeg + r.valueDegrees() ); } Degree& operator += ( const Degree& d ) { mDeg += d.mDeg; return *this; } Degree& operator += ( const Radian& r ) { mDeg += r.valueDegrees(); return *this; } Degree operator - () const { return Degree(-mDeg); } Degree operator - ( const Degree& d ) const { return Degree ( mDeg - d.mDeg ); } Degree operator - ( const Radian& r ) const { return Degree ( mDeg - r.valueDegrees() ); } Degree& operator -= ( const Degree& d ) { mDeg -= d.mDeg; return *this; } Degree& operator -= ( const Radian& r ) { mDeg -= r.valueDegrees(); return *this; } Degree operator * ( Real f ) const { return Degree ( mDeg * f ); } Degree operator * ( const Degree& f ) const { return Degree ( mDeg * f.mDeg ); } Degree& operator *= ( Real f ) { mDeg *= f; return *this; } Degree operator / ( Real f ) const { return Degree ( mDeg / f ); } Degree& operator /= ( Real f ) { mDeg /= f; return *this; } bool operator < ( const Degree& d ) const { return mDeg < d.mDeg; } bool operator <= ( const Degree& d ) const { return mDeg <= d.mDeg; } bool operator == ( const Degree& d ) const { return mDeg == d.mDeg; } bool operator != ( const Degree& d ) const { return mDeg != d.mDeg; } bool operator >= ( const Degree& d ) const { return mDeg >= d.mDeg; } bool operator > ( const Degree& d ) const { return mDeg > d.mDeg; } }; /** Wrapper class which identifies a value as the currently default angle type, as defined by Math::setAngleUnit. @remarks Angle values will be automatically converted between radians and degrees, as appropriate. */ class Angle { Real mAngle; public: explicit Angle ( Real angle ) : mAngle(angle) {} operator Radian() const; operator Degree() const; }; // these functions could not be defined within the class definition of class // Radian because they required class Degree to be defined inline Radian::Radian ( const Degree& d ) : mRad(d.valueRadians()) { } inline Radian& Radian::operator = ( const Degree& d ) { mRad = d.valueRadians(); return *this; } inline Radian Radian::operator + ( const Degree& d ) const { return Radian ( mRad + d.valueRadians() ); } inline Radian& Radian::operator += ( const Degree& d ) { mRad += d.valueRadians(); return *this; } inline Radian Radian::operator - ( const Degree& d ) const { return Radian ( mRad - d.valueRadians() ); } inline Radian& Radian::operator -= ( const Degree& d ) { mRad -= d.valueRadians(); return *this; } /** Class to provide access to common mathematical functions. @remarks Most of the maths functions are aliased versions of the C runtime library functions. They are aliased here to provide future optimisation opportunities, either from faster RTLs or custom math approximations. @note
This is based on MgcMath.h from
Wild Magic
. */ class _OgreExport Math { public: /** The angular units used by the API. This functionality is now deprecated in favor of discreet angular unit types ( see Degree and Radian above ). The only place this functionality is actually still used is when parsing files. Search for usage of the Angle class for those instances */ enum AngleUnit { AU_DEGREE, AU_RADIAN }; protected: // angle units used by the api static AngleUnit msAngleUnit; /// Size of the trig tables as determined by constructor. static int mTrigTableSize; /// Radian -> index factor value ( mTrigTableSize / 2 * PI ) static Real mTrigTableFactor; static Real* mSinTable; static Real* mTanTable; /** Private function to build trig tables. */ void buildTrigTables(); static Real SinTable (Real fValue); static Real TanTable (Real fValue); public: /** Default constructor. @param trigTableSize Optional parameter to set the size of the tables used to implement Sin, Cos, Tan */ Math(unsigned int trigTableSize = 4096); /** Default destructor. */ ~Math(); static inline int IAbs (int iValue) { return ( iValue >= 0 ? iValue : -iValue ); } static inline int ICeil (float fValue) { return int(ceil(fValue)); } static inline int IFloor (float fValue) { return int(floor(fValue)); } static int ISign (int iValue); static inline Real Abs (Real fValue) { return Real(fabs(fValue)); } static inline Degree Abs (const Degree& dValue) { return Degree(fabs(dValue.valueDegrees())); } static inline Radian Abs (const Radian& rValue) { return Radian(fabs(rValue.valueRadians())); } static Radian ACos (Real fValue); static Radian ASin (Real fValue); static inline Radian ATan (Real fValue) { return Radian(atan(fValue)); } static inline Radian ATan2 (Real fY, Real fX) { return Radian(atan2(fY,fX)); } static inline Real Ceil (Real fValue) { return Real(ceil(fValue)); } /** Cosine function. @param fValue Angle in radians @param useTables If true, uses lookup tables rather than calculation - faster but less accurate. */ static inline Real Cos (const Radian& fValue, bool useTables = false) { return (!useTables) ? Real(cos(fValue.valueRadians())) : SinTable(fValue.valueRadians() + HALF_PI); } /** Cosine function. @param fValue Angle in radians @param useTables If true, uses lookup tables rather than calculation - faster but less accurate. */ static inline Real Cos (Real fValue, bool useTables = false) { return (!useTables) ? Real(cos(fValue)) : SinTable(fValue + HALF_PI); } static inline Real Exp (Real fValue) { return Real(exp(fValue)); } static inline Real Floor (Real fValue) { return Real(floor(fValue)); } static inline Real Log (Real fValue) { return Real(log(fValue)); } static inline Real Pow (Real fBase, Real fExponent) { return Real(pow(fBase,fExponent)); } static Real Sign (Real fValue); static inline Radian Sign ( const Radian& rValue ) { return Radian(Sign(rValue.valueRadians())); } static inline Degree Sign ( const Degree& dValue ) { return Degree(Sign(dValue.valueDegrees())); } /** Sine function. @param fValue Angle in radians @param useTables If true, uses lookup tables rather than calculation - faster but less accurate. */ static inline Real Sin (const Radian& fValue, bool useTables = false) { return (!useTables) ? Real(sin(fValue.valueRadians())) : SinTable(fValue.valueRadians()); } /** Sine function. @param fValue Angle in radians @param useTables If true, uses lookup tables rather than calculation - faster but less accurate. */ static inline Real Sin (Real fValue, bool useTables = false) { return (!useTables) ? Real(sin(fValue)) : SinTable(fValue); } static inline Real Sqr (Real fValue) { return fValue*fValue; } static inline Real Sqrt (Real fValue) { return Real(sqrt(fValue)); } static inline Radian Sqrt (const Radian& fValue) { return Radian(sqrt(fValue.valueRadians())); } static inline Degree Sqrt (const Degree& fValue) { return Degree(sqrt(fValue.valueDegrees())); } /** Inverse square root i.e. 1 / Sqrt(x), good for vector normalisation. */ static Real InvSqrt(Real fValue); static Real UnitRandom (); // in [0,1] static Real RangeRandom (Real fLow, Real fHigh); // in [fLow,fHigh] static Real SymmetricRandom (); // in [-1,1] /** Tangent function. @param fValue Angle in radians @param useTables If true, uses lookup tables rather than calculation - faster but less accurate. */ static inline Real Tan (const Radian& fValue, bool useTables = false) { return (!useTables) ? Real(tan(fValue.valueRadians())) : TanTable(fValue.valueRadians()); } /** Tangent function. @param fValue Angle in radians @param useTables If true, uses lookup tables rather than calculation - faster but less accurate. */ static inline Real Tan (Real fValue, bool useTables = false) { return (!useTables) ? Real(tan(fValue)) : TanTable(fValue); } static inline Real DegreesToRadians(Real degrees) { return degrees * fDeg2Rad; } static inline Real RadiansToDegrees(Real radians) { return radians * fRad2Deg; } /** These functions used to set the assumed angle units (radians or degrees) expected when using the Angle type. @par You can set this directly after creating a new Root, and also before/after resource creation, depending on whether you want the change to affect resource files. */ static void setAngleUnit(AngleUnit unit); /** Get the unit being used for angles. */ static AngleUnit getAngleUnit(void); /** Convert from the current AngleUnit to radians. */ static Real AngleUnitsToRadians(Real units); /** Convert from radians to the current AngleUnit . */ static Real RadiansToAngleUnits(Real radians); /** Convert from the current AngleUnit to degrees. */ static Real AngleUnitsToDegrees(Real units); /** Convert from degrees to the current AngleUnit. */ static Real DegreesToAngleUnits(Real degrees); /** Checks whether a given point is inside a triangle, in a 2-dimensional (Cartesian) space. @remarks The vertices of the triangle must be given in either trigonometrical (anticlockwise) or inverse trigonometrical (clockwise) order. @param p The point. @param a The triangle's first vertex. @param b The triangle's second vertex. @param c The triangle's third vertex. @returns If the point resides in the triangle,
true
is returned. @par If the point is outside the triangle,
false
is returned. */ static bool pointInTri2D(const Vector2& p, const Vector2& a, const Vector2& b, const Vector2& c); /** Checks whether a given 3D point is inside a triangle. @remarks The vertices of the triangle must be given in either trigonometrical (anticlockwise) or inverse trigonometrical (clockwise) order, and the point must be guaranteed to be in the same plane as the triangle @param p The point. @param a The triangle's first vertex. @param b The triangle's second vertex. @param c The triangle's third vertex. @param normal The triangle plane's normal (passed in rather than calculated on demand since the callermay already have it) @returns If the point resides in the triangle,
true
is returned. @par If the point is outside the triangle,
false
is returned. */ static bool pointInTri3D(const Vector3& p, const Vector3& a, const Vector3& b, const Vector3& c, const Vector3& normal); /** Ray / plane intersection, returns boolean result and distance. */ static std::pair
intersects(const Ray& ray, const Plane& plane); /** Ray / sphere intersection, returns boolean result and distance. */ static std::pair
intersects(const Ray& ray, const Sphere& sphere, bool discardInside = true); /** Ray / box intersection, returns boolean result and distance. */ static std::pair
intersects(const Ray& ray, const AxisAlignedBox& box); /** Ray / box intersection, returns boolean result and two intersection distance. @param ray The ray. @param box The box. @param d1 A real pointer to retrieve the near intersection distance from the ray origin, maybe
null
which means don't care about the near intersection distance. @param d2 A real pointer to retrieve the far intersection distance from the ray origin, maybe
null
which means don't care about the far intersection distance. @returns If the ray is intersects the box,
true
is returned, and the near intersection distance is return by
d1
, the far intersection distance is return by
d2
. Guarantee
0
<=
d1
<=
d2
. @par If the ray isn't intersects the box,
false
is returned, and
d1
and
d2
is unmodified. */ static bool intersects(const Ray& ray, const AxisAlignedBox& box, Real* d1, Real* d2); /** Ray / triangle intersection, returns boolean result and distance. @param ray The ray. @param a The triangle's first vertex. @param b The triangle's second vertex. @param c The triangle's third vertex. @param normal The triangle plane's normal (passed in rather than calculated on demand since the callermay already have it), doesn't need normalised since we don't care. @param positiveSide Intersect with "positive side" of the triangle @param negativeSide Intersect with "negative side" of the triangle @returns If the ray is intersects the triangle, a pair of
true
and the distance between intersection point and ray origin returned. @par If the ray isn't intersects the triangle, a pair of
false
and
0
returned. */ static std::pair
intersects(const Ray& ray, const Vector3& a, const Vector3& b, const Vector3& c, const Vector3& normal, bool positiveSide = true, bool negativeSide = true); /** Ray / triangle intersection, returns boolean result and distance. @param ray The ray. @param a The triangle's first vertex. @param b The triangle's second vertex. @param c The triangle's third vertex. @param positiveSide Intersect with "positive side" of the triangle @param negativeSide Intersect with "negative side" of the triangle @returns If the ray is intersects the triangle, a pair of
true
and the distance between intersection point and ray origin returned. @par If the ray isn't intersects the triangle, a pair of
false
and
0
returned. */ static std::pair
intersects(const Ray& ray, const Vector3& a, const Vector3& b, const Vector3& c, bool positiveSide = true, bool negativeSide = true); /** Sphere / box intersection test. */ static bool intersects(const Sphere& sphere, const AxisAlignedBox& box); /** Plane / box intersection test. */ static bool intersects(const Plane& plane, const AxisAlignedBox& box); /** Ray / convex plane list intersection test. @param ray The ray to test with @param plaeList List of planes which form a convex volume @param normalIsOutside Does the normal point outside the volume */ static std::pair
intersects( const Ray& ray, const std::vector
& planeList, bool normalIsOutside); /** Ray / convex plane list intersection test. @param ray The ray to test with @param plaeList List of planes which form a convex volume @param normalIsOutside Does the normal point outside the volume */ static std::pair
intersects( const Ray& ray, const std::list
& planeList, bool normalIsOutside); /** Sphere / plane intersection test. @remarks NB just do a plane.getDistance(sphere.getCenter()) for more detail! */ static bool intersects(const Sphere& sphere, const Plane& plane); /** Compare 2 reals, using tolerance for inaccuracies. */ static bool RealEqual(Real a, Real b, Real tolerance = std::numeric_limits
::epsilon()); /** Calculates the tangent space vector for a given set of positions / texture coords. */ static Vector3 calculateTangentSpaceVector( const Vector3& position1, const Vector3& position2, const Vector3& position3, Real u1, Real v1, Real u2, Real v2, Real u3, Real v3); /** Build a reflection matrix for the passed in plane. */ static Matrix4 buildReflectionMatrix(const Plane& p); /** Calculate a face normal, including the w component which is the offset from the origin. */ static Vector4 calculateFaceNormal(const Vector3& v1, const Vector3& v2, const Vector3& v3); /** Calculate a face normal, no w-information. */ static Vector3 calculateBasicFaceNormal(const Vector3& v1, const Vector3& v2, const Vector3& v3); /** Calculate a face normal without normalize, including the w component which is the offset from the origin. */ static Vector4 calculateFaceNormalWithoutNormalize(const Vector3& v1, const Vector3& v2, const Vector3& v3); /** Calculate a face normal without normalize, no w-information. */ static Vector3 calculateBasicFaceNormalWithoutNormalize(const Vector3& v1, const Vector3& v2, const Vector3& v3); /** Generates a value based on the gaussian (normal) distribution function with the given offset and scale parameters. */ static Real gaussianDistribution(Real x, Real offset = 0.0f, Real scale = 1.0f); static const Real POS_INFINITY; static const Real NEG_INFINITY; static const Real PI; static const Real TWO_PI; static const Real HALF_PI; static const Real fDeg2Rad; static const Real fRad2Deg; }; // these functions must be defined down here, because they rely on the // angle unit conversion functions in class Math: inline Real Radian::valueDegrees() const { return Math::RadiansToDegrees ( mRad ); } inline Real Radian::valueAngleUnits() const { return Math::RadiansToAngleUnits ( mRad ); } inline Real Degree::valueRadians() const { return Math::DegreesToRadians ( mDeg ); } inline Real Degree::valueAngleUnits() const { return Math::DegreesToAngleUnits ( mDeg ); } inline Angle::operator Radian() const { return Radian(Math::AngleUnitsToRadians(mAngle)); } inline Angle::operator Degree() const { return Degree(Math::AngleUnitsToDegrees(mAngle)); } inline Radian operator * ( Real a, const Radian& b ) { return Radian ( a * b.valueRadians() ); } inline Radian operator / ( Real a, const Radian& b ) { return Radian ( a / b.valueRadians() ); } inline Degree operator * ( Real a, const Degree& b ) { return Degree ( a * b.valueDegrees() ); } inline Degree operator / ( Real a, const Degree& b ) { return Degree ( a / b.valueDegrees() ); } } #endif
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