Array() | Imagine::Array< T > | inline |
Array(size_t size) | Imagine::Array< T > | inlineexplicit |
Array(T *ptr, size_t size, bool handleDelete=false) | Imagine::Array< T > | inline |
Array(const Array &A) | Imagine::Array< T > | inlineexplicit |
Array(const Array< T2 > &A) | Imagine::Array< T > | inline |
Array(const std::list< T > &L) | Imagine::Array< T > | inline |
begin() | Imagine::Array< T > | inline |
begin() const | Imagine::Array< T > | inline |
clone() const | Imagine::Image< T, dim > | inline |
const_iterator typedef | Imagine::Image< T, dim > | |
coordsBegin() const | Imagine::MultiArray< T, dim > | inline |
coordsEnd() const | Imagine::MultiArray< T, dim > | inline |
data() | Imagine::Array< T > | inline |
data() const | Imagine::Array< T > | inline |
depth() const | Imagine::MultiArray< T, dim > | inline |
dirichlet(const Coords< dim > &c, T out=T(0)) const | Imagine::Image< T, dim > | inline |
dirichlet(int x, int y, T out=T(0)) const | Imagine::Image< T, dim > | inline |
dirichlet(int x, int y, int z, T out=T(0)) const | Imagine::Image< T, dim > | inline |
empty() const | Imagine::Array< T > | inline |
end() | Imagine::Array< T > | inline |
end() const | Imagine::Array< T > | inline |
fill(T x) | Imagine::Image< T, dim > | inline |
Imagine::Array::fill(const T &x) | Imagine::Array< T > | inline |
getSubArray(const Coords< dim > &offset, const Coords< dim > &sz) const | Imagine::MultiArray< T, dim > | inline |
Imagine::Array::getSubArray(size_t offset, size_t size) const | Imagine::Array< T > | inline |
getSubImage(const Coords< dim > &offset, const Coords< dim > &sz) const | Imagine::Image< T, dim > | inline |
getSubImage(int x, int y, int w, int h) const | Imagine::Image< T, dim > | inline |
getSubImage(int x, int y, int z, int w, int h, int d) const | Imagine::Image< T, dim > | inline |
height() const | Imagine::MultiArray< T, dim > | inline |
Image() | Imagine::Image< T, dim > | inline |
Image(const Coords< dim > &sz) | Imagine::Image< T, dim > | inlineexplicit |
Image(int w, int h) | Imagine::Image< T, dim > | inline |
Image(int w, int h, int d) | Imagine::Image< T, dim > | inline |
Image(T *ptr, const Coords< dim > &sz, bool handleDelete=false) | Imagine::Image< T, dim > | inline |
Image(T *ptr, int w, int h, bool handleDelete=false) | Imagine::Image< T, dim > | inline |
Image(T *ptr, int w, int h, int d, bool handleDelete=false) | Imagine::Image< T, dim > | inline |
Image(const Base &I) | Imagine::Image< T, dim > | inline |
Image(const MultiArray< T2, dim > &I) | Imagine::Image< T, dim > | inline |
interpolate(const FVector< V, dim > &c) const | Imagine::Image< T, dim > | inline |
interpolate(V x, V y) const | Imagine::Image< T, dim > | inline |
interpolate(V x, V y, V z) const | Imagine::Image< T, dim > | inline |
invMirror(const Coords< dim > &c) const | Imagine::Image< T, dim > | inline |
invMirror(int x, int y) const | Imagine::Image< T, dim > | inline |
invMirror(int x, int y, int z) const | Imagine::Image< T, dim > | inline |
iterator typedef | Imagine::Image< T, dim > | |
mirror(const Coords< dim > &c) const | Imagine::Image< T, dim > | inline |
mirror(int x, int y) const | Imagine::Image< T, dim > | inline |
mirror(int x, int y, int z) const | Imagine::Image< T, dim > | inline |
MultiArray() | Imagine::MultiArray< T, dim > | inline |
MultiArray(const Coords< dim > &sz) | Imagine::MultiArray< T, dim > | inlineexplicit |
MultiArray(int s0, int s1) | Imagine::MultiArray< T, dim > | inline |
MultiArray(int s0, int s1, int s2) | Imagine::MultiArray< T, dim > | inline |
MultiArray(T *ptr, const Coords< dim > &sz, bool handleDelete=false) | Imagine::MultiArray< T, dim > | inline |
MultiArray(T *ptr, int s0, int s1, bool handleDelete=false) | Imagine::MultiArray< T, dim > | inline |
MultiArray(T *ptr, int s0, int s1, int s2, bool handleDelete=false) | Imagine::MultiArray< T, dim > | inline |
MultiArray(const MultiArray &A) | Imagine::MultiArray< T, dim > | inlineexplicit |
MultiArray(const MultiArray< T2, dim > &A) | Imagine::MultiArray< T, dim > | inline |
neumann(const Coords< dim > &c) const | Imagine::Image< T, dim > | inline |
neumann(int x, int y) const | Imagine::Image< T, dim > | inline |
neumann(int x, int y, int z) const | Imagine::Image< T, dim > | inline |
norm(const Image &I) | Imagine::Image< T, dim > | friend |
norm2(const Image &I) | Imagine::Image< T, dim > | friend |
offset(const Coords< dim > &c) const | Imagine::MultiArray< T, dim > | inline |
offset(int x, int y) const | Imagine::MultiArray< T, dim > | inline |
offset(int x, int y, int z) const | Imagine::MultiArray< T, dim > | inline |
operator!=(const Array &A) const | Imagine::Array< T > | inline |
operator()(const Coords< dim > &c) const | Imagine::MultiArray< T, dim > | inline |
operator()(const Coords< dim > &c) | Imagine::MultiArray< T, dim > | inline |
operator()(int x, int y) const | Imagine::MultiArray< T, dim > | inline |
operator()(int x, int y) | Imagine::MultiArray< T, dim > | inline |
operator()(int x, int y, int z) const | Imagine::MultiArray< T, dim > | inline |
operator()(int x, int y, int z) | Imagine::MultiArray< T, dim > | inline |
operator*(scalar_type s) const | Imagine::Image< T, dim > | inline |
operator*(scalar_type s, const Image &I) | Imagine::Image< T, dim > | friend |
operator*(const Image< scalar_type, dim > &B) const | Imagine::Image< T, dim > | inline |
operator*=(scalar_type s) | Imagine::Image< T, dim > | inline |
operator*=(const Image< scalar_type, dim > &B) | Imagine::Image< T, dim > | inline |
operator+(const Image &B) const | Imagine::Image< T, dim > | inline |
operator+(T v) const | Imagine::Image< T, dim > | inline |
operator+(T v, const Image &I) | Imagine::Image< T, dim > | friend |
operator+=(const Image &B) | Imagine::Image< T, dim > | inline |
operator+=(T v) | Imagine::Image< T, dim > | inline |
operator-() const | Imagine::Image< T, dim > | inline |
operator-(const Image &B) const | Imagine::Image< T, dim > | inline |
operator-(T v) const | Imagine::Image< T, dim > | inline |
operator-(T v, const Image &I) | Imagine::Image< T, dim > | friend |
operator-=(const Image &B) | Imagine::Image< T, dim > | inline |
operator-=(T v) | Imagine::Image< T, dim > | inline |
operator/(scalar_type s) const | Imagine::Image< T, dim > | inline |
operator/(const Image< scalar_type, dim > &B) const | Imagine::Image< T, dim > | inline |
operator/=(scalar_type s) | Imagine::Image< T, dim > | inline |
operator/=(const Image< scalar_type, dim > &B) | Imagine::Image< T, dim > | inline |
operator=(const Base &I) | Imagine::Image< T, dim > | inline |
operator=(const MultiArray< T2, dim > &I) | Imagine::Image< T, dim > | inline |
Imagine::MultiArray::operator=(const MultiArray &A) | Imagine::MultiArray< T, dim > | inline |
Imagine::Array::operator=(const Array< T2 > &A) | Imagine::Array< T > | inline |
operator==(const Array &A) const | Imagine::Array< T > | inline |
operator[](size_t i) const | Imagine::Array< T > | inline |
operator[](size_t i) | Imagine::Array< T > | inline |
scalar_type typedef | Imagine::Image< T, dim > | |
setSize(const Coords< dim > &sz) | Imagine::MultiArray< T, dim > | inline |
setSize(int s0, int s1) | Imagine::MultiArray< T, dim > | inline |
setSize(int s0, int s1, int s2) | Imagine::MultiArray< T, dim > | inline |
Imagine::Array::setSize(size_t size) | Imagine::Array< T > | inline |
size(int i) const | Imagine::MultiArray< T, dim > | inline |
Imagine::Array::size() const | Imagine::Array< T > | inline |
sizes() const | Imagine::MultiArray< T, dim > | inline |
stride() const | Imagine::MultiArray< T, dim > | inline |
stride(int i) const | Imagine::MultiArray< T, dim > | inline |
sum(const Image &I) | Imagine::Image< T, dim > | friend |
totalSize() const | Imagine::MultiArray< T, dim > | inline |
width() const | Imagine::MultiArray< T, dim > | inline |
~Array() | Imagine::Array< T > | inlinevirtual |
~Image() | Imagine::Image< T, dim > | inlinevirtual |
~MultiArray() | Imagine::MultiArray< T, dim > | inlinevirtual |