|
struct | utility::tuple::ElemTypeHolder< size_t, class > |
| ElemTypeHolder class is used to specify the types of the elements inside the tuple. More...
|
|
struct | utility::tuple::ElemTypeHolder< 0, Tuple< T, Ts... > > |
| specialisation of the ElemTypeHolder class when the number of elements inside the tuple is 1 More...
|
|
struct | utility::tuple::ElemTypeHolder< k, Tuple< T, Ts... > > |
| specialisation of the ElemTypeHolder class when the number of elements inside the tuple is bigger than 1. It recursively calls itself to detect the type of each element in the tuple More...
|
|
struct | utility::tuple::IndexList< Is > |
| Creates a list of index from the elements in the tuple. More...
|
|
struct | utility::tuple::IndexRange< MIN, MAX > |
| IndexRange that returns a [MIN, MAX) index range. More...
|
|
struct | utility::tuple::RangeBuilder< MIN, N, Is > |
| Collects internal details for generating index ranges [MIN, MAX) Declare primary template for index range builder. More...
|
|
struct | utility::tuple::RangeBuilder< MIN, N, Is > |
| Collects internal details for generating index ranges [MIN, MAX) Declare primary template for index range builder. More...
|
|
struct | utility::tuple::RangeBuilder< MIN, MIN, Is... > |
| base Step: Specialisation of the RangeBuilder when the MIN==MAX. In this case the Is... is [0 to sizeof...(tuple elements)) More...
|
|
struct | utility::tuple::StaticIf< bool, T > |
| The StaticIf struct is used to statically choose the type based on the condition. More...
|
|
struct | utility::tuple::StaticIf< true, T > |
| specialisation of the StaticIf when the condition is true More...
|
|
struct | utility::tuple::Tuple< Ts > |
| is a fixed-size collection of heterogeneous values More...
|
|
struct | utility::tuple::Tuple< T, Ts... > |
| specialisation of the Tuple class when the tuple has at least one element. More...
|
|
|
template<typename... Args, typename T > |
Tuple< Args..., T > | utility::tuple::append (Tuple< Args... > t, T a) |
| the deduction function for append_base that automatically generate the IndexRange More...
|
|
template<typename... Args1, typename... Args2> |
Tuple< Args1..., Args2... > | utility::tuple::append (Tuple< Args1... > t1, Tuple< Args2... > t2) |
| deduction function for append_base when we are appending tuple t1 by tuple t2. In this case the IndexRange for both tuple are automatically generated. More...
|
|
template<typename... Args, typename T , size_t... I> |
Tuple< Args..., T > | utility::tuple::append_base (Tuple< Args... > t, T a, IndexList< I... >) |
| unpacking the elements of the input tuple t and creating a new tuple by adding element a at the end of it. More...
|
|
template<typename... Args1, typename... Args2, size_t... I1, size_t... I2> |
Tuple< Args1..., Args2... > | utility::tuple::append_base (Tuple< Args1... > t1, Tuple< Args2... > t2, IndexList< I1... >, IndexList< I2... >) |
| This is a specialisation of append_base when we want to concatenate tuple t2 at the end of the tuple t1. Here we unpack both tuples, generate the IndexRange for each of them and create an output tuple T that contains both elements of t1 and t2. More...
|
|
template<typename... Args> |
Tuple< Args... > | utility::tuple::make_tuple (Args...args) |
| Creates a tuple object, deducing the target type from the types of arguments. More...
|
|
template<typename... Args> |
static constexpr size_t | utility::tuple::size (Tuple< Args... > &) |
| Provides access to the number of elements in a tuple as a compile-time constant expression. More...
|
|