rtc::Rotation2D< T > Member List

This is the complete list of members for rtc::Rotation2D< T >, including all inherited members.

add(const Mat< T, M, N > &m)	rtc::Mat< T, M, M >
add(const T a)	rtc::Mat< T, M, M >
apply(Vec2< T > &v) const	rtc::Rotation2D< T >	[inline]
apply(const Vec2< T > &v) const	rtc::Rotation2D< T >	[inline]
choleskyDecomp()	rtc::SMat< T, 2 >
choleskyDecomp(SMat< T, M > &r)	rtc::SMat< T, 2 >
choleskySolve(Vec< T, M > &b)	rtc::SMat< T, 2 >
compareTo(const Mat< T, M, N > &m) const	rtc::Mat< T, M, M >
covarianceMatrixOfRows() const	rtc::Mat< T, M, M >
det() const	rtc::SMat2< T >	[inline]
equalTo(const Mat< T, M, N > &m, const T tol=T(0)) const	rtc::Mat< T, M, M >
fromCols(const Vec2< T > &v0, const Vec2< T > &v1)	rtc::SMat2< T >	[inline, static]
fromRows(const Vec2< T > &v0, const Vec2< T > &v1)	rtc::SMat2< T >	[inline, static]
getCol(int c) const	rtc::Mat< T, M, M >
getDiag()	rtc::SMat< T, 2 >
getRow(int r) const	rtc::Mat< T, M, M >
getSubMat(const int i, const int j)	rtc::Mat< T, M, M >
getTheta()	rtc::Rotation2D< T >	[inline]
interpolate(const float i, const float j) const	rtc::Mat< T, M, M >
invert()	rtc::SMat2< T >	[inline]
inverted() const	rtc::SMat2< T >	[inline]
leftMultiply(const SMat< T, M > &m)	rtc::SMat< T, 2 >
luDecomp(Vec< int, M > &indx, T *d=NULL)	rtc::SMat< T, 2 >
luSolve(const Vec< int, M > &indx, Vec< T, M > &b)	rtc::SMat< T, 2 >
Mat()	rtc::Mat< T, M, M >
Mat(const T *d)	rtc::Mat< T, M, M >
Mat(const T a)	rtc::Mat< T, M, M >
Mat(const Mat< T, M, N > &m)	rtc::Mat< T, M, M >
Mat(const Mat< U, M, N > &m)	rtc::Mat< T, M, M >
meanOfRows() const	rtc::Mat< T, M, M >
minorMat(const int ip, const int jp) const	rtc::SMat< T, 2 >
multivariateGauss(const Vec< T, M > &mean, const SMat< T, M > &cov)	rtc::Mat< T, M, M >	[static]
normalRand(const T mean=T(0), const T stdev=T(1))	rtc::Mat< T, M, M >	[static]
operator!=(const Mat< T, M, N > &m) const	rtc::Mat< T, M, M >
operator()(const int r, const int c) const	rtc::Mat< T, M, M >
operator()(const int r, const int c)	rtc::Mat< T, M, M >
operator*(const T a) const	rtc::Mat< T, M, M >
operator*(const Vec< T, N > &v) const	rtc::Mat< T, M, M >
operator*(const Mat< T, N, P > &m) const	rtc::Mat< T, M, M >
operator*=(const T a)	rtc::Mat< T, M, M >
operator*=(const Mat< T, N, N > &m)	rtc::Mat< T, M, M >
operator+(const Mat< T, M, N > &m) const	rtc::Mat< T, M, M >
operator+(const T a) const	rtc::Mat< T, M, M >
operator+=(const Mat< T, M, N > &m)	rtc::Mat< T, M, M >
operator+=(const T a)	rtc::Mat< T, M, M >
operator-(const Mat< T, M, N > &m) const	rtc::Mat< T, M, M >
operator-() const	rtc::Mat< T, M, M >
operator-(const T a) const	rtc::Mat< T, M, M >
operator-=(const Mat< T, M, N > &m)	rtc::Mat< T, M, M >
operator-=(const T a)	rtc::Mat< T, M, M >
operator/(const T a) const	rtc::Mat< T, M, M >
operator/=(const T a)	rtc::Mat< T, M, M >
operator<(const Mat< T, M, N > &m) const	rtc::Mat< T, M, M >
operator<=(const Mat< T, M, N > &m) const	rtc::Mat< T, M, M >
operator=(const T *d)	rtc::Mat< T, M, M >
operator=(const T a)	rtc::Mat< T, M, M >
operator=(const Mat< T, M, N > &m)	rtc::Mat< T, M, M >
operator=(const Mat< U, M, N > &m)	rtc::Mat< T, M, M >
operator==(const Mat< T, M, N > &m) const	rtc::Mat< T, M, M >
operator>(const Mat< T, M, N > &m) const	rtc::Mat< T, M, M >
operator>=(const Mat< T, M, N > &m) const	rtc::Mat< T, M, M >
perform(T(*mathFun)(T))	rtc::Mat< T, M, M >
read(InputHandler &ih)	rtc::Mat< T, M, M >
Rotation2D()	rtc::Rotation2D< T >	[inline]
Rotation2D(const T x11, const T x12, const T x21, const T x22)	rtc::Rotation2D< T >	[inline]
Rotation2D(const Mat< T, 2, 2 > &m)	rtc::Rotation2D< T >	[inline]
Rotation2D(const T &theta)	rtc::Rotation2D< T >	[inline]
set(const T &theta)	rtc::Rotation2D< T >	[inline]
rtc::SMat2::set(const T x11, const T x12, const T x21, const T x22)	rtc::SMat2< T >	[inline]
SMat< T, 2 >::set(const T *d)	rtc::Mat< T, M, M >
SMat< T, 2 >::set(const T a)	rtc::Mat< T, M, M >
SMat< T, 2 >::set(const Mat< T, M, N > &m)	rtc::Mat< T, M, M >
SMat< T, 2 >::set(const Mat< U, M, N > &m)	rtc::Mat< T, M, M >
setCol(const int j, const Vec< T, M > &v)	rtc::Mat< T, M, M >
setCols(const Vec2< T > &v0, const Vec2< T > &v1)	rtc::SMat2< T >	[inline]
setDiag(const T a)	rtc::SMat< T, 2 >
setDiag(const Vec< T, M > &diagVec)	rtc::SMat< T, 2 >
setIdentity()	rtc::SMat< T, 2 >
setRow(const int i, const Vec< T, N > &v)	rtc::Mat< T, M, M >
setRows(const Vec2< T > &v0, const Vec2< T > &v1)	rtc::SMat2< T >	[inline]
setSubMat(const int r, const int c, const Mat< T, P, Q > &m)	rtc::Mat< T, M, M >
SMat()	rtc::SMat< T, 2 >
SMat(const T *d)	rtc::SMat< T, 2 >
SMat(const T diagVal)	rtc::SMat< T, 2 >
SMat(const Vec< T, M > &diagVec)	rtc::SMat< T, 2 >
SMat(const Mat< T, M, M > &m)	rtc::SMat< T, 2 >
SMat(const Mat< U, M, M > &m)	rtc::SMat< T, 2 >
SMat2()	rtc::SMat2< T >	[inline]
SMat2(const T *d)	rtc::SMat2< T >	[inline]
SMat2(const T diagVal)	rtc::SMat2< T >	[inline]
SMat2(const Vec2< T > &diagVec)	rtc::SMat2< T >	[inline]
SMat2(const Mat< T, 2, 2 > &m)	rtc::SMat2< T >	[inline]
SMat2(const T x11, const T x12, const T x21, const T x22)	rtc::SMat2< T >	[inline]
SMat2(const Vec2< T > &q0, const Vec2< T > &q1)	rtc::SMat2< T >	[inline]
SMat2(const Mat< U, 2, 2 > &m)	rtc::SMat2< T >	[inline]
subtract(const Mat< T, M, N > &m)	rtc::Mat< T, M, M >
subtract(const T a)	rtc::Mat< T, M, M >
sum() const	rtc::Mat< T, M, M >
trace() const	rtc::SMat< T, 2 >
transpose()	rtc::SMat< T, 2 >
transposed() const	rtc::Mat< T, M, M >
uniformRand(const T a=T(0), const T b=T(1))	rtc::Mat< T, M, M >	[static]
write(OutputHandler &oh) const	rtc::Mat< T, M, M >
x	rtc::Mat< T, M, M >