Contents
- Example usage
- In a nutshell
- License
- Dependencies
- Installation and use
- Synopsis
- Reported to work with
- Building the tests
- Other implementations of span
- Notes and references
- Appendix
#include "nonstd/span.hpp"
#include <array>
#include <vector>
#include <iostream>
std::ptrdiff_t size( nonstd::span<const int> spn )
{
return spn.size();
}
int main()
{
int arr[] = { 1, };
std::cout <<
"C-array:" << size( arr ) <<
" array:" << size( std::array <int, 2>{ 1, 2, } ) <<
" vector:" << size( std::vector<int >{ 1, 2, 3, } );
}
prompt> g++ -std=c++11 -Wall -I../include -o 01-basic.exe 01-basic.cpp && 01-basic.exe
C-array:1 array:2 vector:3
span lite is a single-file header-only library to provide a bounds-safe view for sequences of objects. The library provides a C++20-like span for use with C++98 and later. If available, std::span
is used, unless configured otherwise. span-lite can detect the presence of byte-lite and if present, it provides as_bytes()
and as_writable_bytes()
also for C++14 and earlier.
Features and properties of span lite are ease of installation (single header), freedom of dependencies other than the standard library. To compensate for the class template argument deduction that is missing from pre-C++17 compilers, nonstd::span
can provide make_span
functions. See configuration.
span lite is distributed under the Boost Software License.
span lite has no other dependencies than the C++ standard library.
span lite is a single-file header-only library. Put span.hpp
in the include folder directly into the project source tree or somewhere reachable from your project.
Contents
Documentation of std::span
Later additions
Non-standard extensions
Configuration
Depending on the compiler and C++-standard used, nonstd::span
behaves less or more like std::span
. To get an idea of the capabilities of nonstd::span
with your configuration, look at the output of the tests, issuing span-main.t --pass @
. For std::span
, see its documentation at cppreference.
span lite can provide back()
and front()
member functions for element access. See the table below and section configuration.
To construct a span from a container with compilers that cannot constrain such a single-parameter constructor to containers, span lite provides a constructor that takes an additional parameter of type with_container_t
. Use with_container
as value for this parameter. See the table below and section configuration.
span lite can provide construction of a span from a std::array
with const data. See the table below and section configuration.
span lite can provide member function call operator()
for element access. It is equivalent to operator[]
and has been marked [[deprecated]]
. Its main purpose is to provide a migration path.
span lite can provide member function at()
for element access. Unless exceptions have been disabled, at()
throws std::out_of_range if the index falls outside the span. With exceptions disabled, at(index_t)
delegates bounds checking to operator[](index_t)
. See the table below and sections configuration and disable exceptions.
span lite can provide a swap()
member function. See the table below and section configuration.
span lite can provide functions to compare the content of two spans. However, C++20's span will not provide comparison and span lite will omit comparison at default in the near future. See the table below and section configuration. See also Revisiting Regular Types.
span lite can provide function same()
to determine if two spans refer as identical spans to the same data via the same type. If same()
is enabled, operator==()
incorporates it in its comparison. See the table below and section configuration.
span lite can provide functions first()
, last()
and subspan()
to avoid having to use the dot template syntax when the span is a dependent type. See the table below and section configuration.
span lite can provide make_span()
creator functions to compensate for the class template argument deduction that is missing from pre-C++17 compilers. See the table below and section configuration.
span lite can provide byte_span()
creator functions to represent an object as a span of bytes. This requires the C++17 type std::byte
to be available. See the table below and section configuration.
Kind | std | Function or method |
---|---|---|
Macro | macro span_FEATURE_WITH_CONTAINER macro span_FEATURE_WITH_CONTAINER_TO_STD |
|
Types | with_container_t type to disambiguate below constructors | |
Objects | with_container value to disambiguate below constructors | |
Constructors | macro span_FEATURE_CONSTRUCTION_FROM_STDARRAY_ELEMENT_TYPE |
|
template<class Container> constexpr span(with_container_t, Container & cont) |
||
template<class Container> constexpr span(with_container_t, Container const & cont) |
||
Methods | macro span_FEATURE_MEMBER_CALL_OPERATOR |
|
constexpr reference operator()(index_t idx) const Equivalent to operator[](), marked [[deprecated]] |
||
Methods | macro span_FEATURE_MEMBER_AT |
|
constexpr reference at(index_t idx) const May throw std::out_of_range exception |
||
Methods | macro span_FEATURE_MEMBER_BACK_FRONT (on since v0.5.0) |
|
constexpr reference back() const noexcept | ||
constexpr reference front() const noexcept | ||
Method | macro span_FEATURE_MEMBER_SWAP |
|
constexpr void swap(span & other) noexcept | ||
Free functions | macro span_FEATURE_COMPARISON |
|
== != < > <= >= |
template<class T1, index_t E1, class T2, index_t E2> constexpr bool operator==( span<T1,E1> const & l, span<T2,E2> const & r) noexcept |
|
Free function | macro span_FEATURE_SAME |
|
template<class T1, index_t E1, class T2, index_t E2> constexpr bool same( span<T1,E1> const & l, span<T2,E2> const & r) noexcept |
||
Free functions |
macros span_FEATURE_NON_MEMBER_FIRST_LAST_SUB ,span_FEATURE_NON_MEMBER_FIRST_LAST_SUB_SPAN ,span_FEATURE_NON_MEMBER_FIRST_LAST_SUB_CONTAINER |
|
Free functions | macro span_FEATURE_NON_MEMBER_FIRST_LAST_SUB_SPAN |
|
template<extent_t Count, class T, extent_t Extent> constexpr span<T,Count> first(span<T,Extent> spn) |
||
template<class T, extent_t Extent > constexpr span<T> first(span<T,Extent> spn, size_t count) |
||
template<extent_t Count, class T, extent_t Extent> constexpr span<T,Count> last(span<T,Extent> spn) |
||
template<class T, extent_t Extent > constexpr span<T> last(span<T,Extent> spn, size_t count) |
||
template<size_t Offset, extent_t Count, class T, extent_t Extent> constexpr span<T, Count> subspan(span<T, Extent> spn) |
||
template<class T, extent_t Extent> constexpr span<T> subspan( span<T, Extent> spn, size_t offset, extent_t count = dynamic_extent) |
||
Free functions | macro span_FEATURE_NON_MEMBER_FIRST_LAST_SUB_CONTAINER |
|
>= C++11 | template<extent_t Count, class T> constexpr auto first(T & t) ->... |
|
>= C++11 | template<class T> constexpr auto first(T & t, index_t count) ->... |
|
>= C++11 | template<extent_t Count, class T> constexpr auto last(T & t) ->... |
|
>= C++11 | template<class T> constexpr auto last(T & t, extent_t count) ->... |
|
>= C++11 | template<index_t Offset, extent_t Count = dynamic_extent, class T> constexpr auto subspan(T & t) ->... |
|
>= C++11 | template<class T> constexpr auto subspan(T & t, index_t offset, extent_t count = dynamic_extent) ->... |
|
Free functions | macro span_FEATURE_MAKE_SPAN macro span_FEATURE_MAKE_SPAN_TO_STD |
|
template<class T> constexpr span<T> make_span(T * first, T * last) noexcept |
||
template<class T> constexpr span<T> make_span(T * ptr, index_t count) noexcept |
||
template<class T, size_t N> constexpr span<T,N> make_span(T (&arr)[N]) noexcept |
||
>= C++11 | template<class T, size_t N> constexpr span<T,N> make_span(std::array<T,N> & arr) noexcept |
|
>= C++11 | template<class T, size_t N> constexpr span<const T,N> make_span(std::array<T,N > const & arr) noexcept |
|
>= C++11 | template<class Container> constexpr auto make_span(Container & cont) -> span<typename Container::value_type> noexcept |
|
>= C++11 | template<class Container> constexpr auto make_span(Container const & cont) -> span<const typename Container::value_type> noexcept |
|
template<class Container> span<typename Container::value_type> make_span( with_container_t, Container & cont ) |
||
template<class Container> span<const typename Container::value_type> make_span( with_container_t, Container const & cont ) |
||
< C++11 | template<class T, Allocator> span<T> make_span(std::vector<T, Allocator> & cont) |
|
< C++11 | template<class T, Allocator> span<const T> make_span(std::vector<T, Allocator> const & cont) |
|
Free functions | macro span_FEATURE_BYTE_SPAN |
|
>= C++11 | template<class T> span<T, sizeof(T)> byte_span(T & t) |
|
>= C++11 | template<class T> span<const T, sizeof(T)> byte_span(T const & t) |
If the compiler supports __has_include()
, span lite supports the tweak header mechanism. Provide your tweak header as nonstd/span.tweak.hpp
in a folder in the include-search-path. In the tweak header, provide definitions as documented below, like #define span_CONFIG_NO_EXCEPTIONS 1
.
-Dspan_CPLUSPLUS=199711L
Define this macro to override the auto-detection of the supported C++ standard, if your compiler does not set the __cplusplus
macro correctly.
At default, span lite uses std::span
if it is available and lets you use it via namespace nonstd
. You can however override this default and explicitly request to use std::span
or span lite's nonstd::span
as nonstd::span
via the following macros.
-Dspan_CONFIG_SELECT_SPAN=span_SPAN_DEFAULT
Define this to span_SPAN_STD
to select std::span
as nonstd::span
. Define this to span_SPAN_NONSTD
to select nonstd::span
as nonstd::span
. Default is undefined, which has the same effect as defining to span_SPAN_DEFAULT
.
-Dspan_CONFIG_EXTENT_TYPE=std::size_t
Define this to std::ptrdiff_t
to use the signed type. The default is std::size_t
, as in C++20 (since v0.7.0).
-Dspan_CONFIG_SIZE_TYPE=std::size_t
Define this to std::ptrdiff_t
to use the signed type. The default is std::size_t
, as in C++20 (since v0.7.0). Note span_CONFIG_SIZE_TYPE
replaces span_CONFIG_INDEX_TYPE
which is deprecated.
-Dspan_CONFIG_NO_EXCEPTIONS=0
Define this to 1 if you want to compile without exceptions. If not defined, the header tries and detect if exceptions have been disabled (e.g. via -fno-exceptions
). Disabling exceptions will force contract violation to use termination, see contract violation macros. Default is undefined.
-Dspan_FEATURE_WITH_CONTAINER=0
Define this to 1 to enable constructing a span using with_container_t
. Note that span_FEATURE_WITH_CONTAINER
takes precedence over span_FEATURE_WITH_CONTAINER_TO_STD
. Default is undefined.
-Dspan_FEATURE_WITH_CONTAINER_TO_STD=n
Define this to the highest C++ language version for which to enable constructing a span using with_container_t
, like 98, 03, 11, 14, 17, 20. You can use 99 for inclusion with any standard, but prefer to use span_FEATURE_WITH_CONTAINER
for this. Note that span_FEATURE_WITH_CONTAINER
takes precedence over span_FEATURE_WITH_CONTAINER_TO_STD
. Default is undefined.
-Dspan_FEATURE_CONSTRUCTION_FROM_STDARRAY_ELEMENT_TYPE=0
Define this to 1 to enable constructing a span from a std::array with const data. Default is undefined.
-Dspan_FEATURE_MEMBER_CALL_OPERATOR=0
Define this to 1 to provide member function operator()
for element access. It is equivalent to operator[]
and has been marked [[deprecated]]
. Its main purpose is to provide a migration path. Default is undefined.
-Dspan_FEATURE_MEMBER_AT=0
Define this to 1 to provide member function at()
. Define this to 2 to include index and size in message of std::out_of_range exception. Default is undefined.
-Dspan_FEATURE_MEMBER_BACK_FRONT=1 (on since v0.5.0)
Define this to 0 to omit member functions back()
and front()
. Default is undefined.
-Dspan_FEATURE_MEMBER_SWAP=0
Define this to 1 to provide member function swap()
. Default is undefined.
-Dspan_FEATURE_COMPARISON=0
Define this to 1 to include the comparison functions to compare the content of two spans. C++20's span does not provide comparison and span lite omits comparison from v0.7.0. Default is undefined.
-Dspan_FEATURE_SAME=0
Define this to 1 to provide function same()
to test if two spans refer as identical spans to the same data via the same type. If same()
is enabled, operator==()
incorporates it in its comparison. Default is undefined.
-Dspan_FEATURE_NON_MEMBER_FIRST_LAST_SUB=0
Define this to 1 to enable both span_FEATURE_NON_MEMBER_FIRST_LAST_SUB_SPAN
and span_FEATURE_NON_MEMBER_FIRST_LAST_SUB_CONTAINER
. Default is undefined.
-Dspan_FEATURE_NON_MEMBER_FIRST_LAST_SUB_SPAN=0
Define this to 1 to provide functions first()
, last()
and subspan()
that take a span<>
(work with C++98). This implies span_FEATURE_MAKE_SPAN
to provide functions make_span()
that are required for this feature. Default is undefined.
-Dspan_FEATURE_NON_MEMBER_FIRST_LAST_SUB_CONTAINER=0
Define this to 1 to provide functions first()
, last()
and subspan()
that take a compatible container (requires C++11). This implies span_FEATURE_MAKE_SPAN
to provide functions make_span()
that are required for this feature. Default is undefined.
-Dspan_FEATURE_MAKE_SPAN=0
Define this to 1 to provide creator functions nonstd::make_span()
. This feature is implied by using span_FEATURE_NON_MEMBER_FIRST_LAST_SUB=1
. Note that span_FEATURE_MAKE_SPAN
takes precedence over span_FEATURE_MAKE_SPAN_TO_STD
. Default is undefined.
-Dspan_FEATURE_MAKE_SPAN_TO_STD=n
Define this to the highest C++ language version for which to provide creator functions nonstd::make_span()
, like 98, 03, 11, 14, 17, 20. You can use 99 for inclusion with any standard, but prefer to use span_FEATURE_MAKE_SPAN
for this. Note that span_FEATURE_MAKE_SPAN
takes precedence over span_FEATURE_MAKE_SPAN_TO_STD
. Default is undefined.
-Dspan_FEATURE_BYTE_SPAN=0
Define this to 1 to provide creator functions nonstd::byte_span()
. Default is undefined.
span-lite provides contract violation response control as suggested in proposal N4415.
-Dspan_CONFIG_CONTRACT_LEVEL_ON (default)
Define this macro to include both span_EXPECTS
and span_ENSURES
in the code. This is the default case.
-Dspan_CONFIG_CONTRACT_LEVEL_OFF
Define this macro to exclude both span_EXPECTS
and span_ENSURES
from the code.
-Dspan_CONFIG_CONTRACT_LEVEL_EXPECTS_ONLY
Define this macro to include span_EXPECTS
in the code and exclude span_ENSURES
from the code.
-Dspan_CONFIG_CONTRACT_LEVEL_ENSURES_ONLY
Define this macro to exclude span_EXPECTS
from the code and include span_ENSURES
in the code.
-Dspan_CONFIG_CONTRACT_VIOLATION_TERMINATES (default)
Define this macro to call std::terminate()
on a contract violation in span_EXPECTS
, span_ENSURES
. This is the default case.
-Dspan_CONFIG_CONTRACT_VIOLATION_THROWS
Define this macro to throw an exception of implementation-defined type that is derived from std::runtime_exception
instead of calling std::terminate()
on a contract violation in span_EXPECTS
and span_ENSURES
. See also disable exceptions.
The table below mentions the compiler versions span lite is reported to work with.
OS | Compiler | Where | Versions |
---|---|---|---|
GNU/Linux | Clang/LLVM | Travis | 3.5.0, 3.6.2, 3.7.1, 3.8.0, 3.9.1, 4.0.1 |
GCC | Travis | 5.5.0, 6.4.0, 7.3.0 | |
OS X | ? | Local | ? |
Windows | Clang/LLVM | Local | 6.0.0 |
GCC | Local | 7.2.0 | |
Visual C++ (Visual Studio) |
Local | 8 (2005), 10 (2010), 11 (2012), 12 (2013), 14 (2015), 15 (2017) |
|
Visual C++ (Visual Studio) |
AppVeyor | 10 (2010), 11 (2012), 12 (2013), 14 (2015), 15 (2017) |
To build the tests you need:
- CMake, version 3.0 or later to be installed and in your PATH.
- A suitable compiler.
The lest test framework is included in the test folder.
The following steps assume that the span lite source code has been cloned into a directory named ./span-lite
.
-
Create a directory for the build outputs.
cd ./span-lite md build && cd build
-
Configure CMake to use the compiler of your choice (run
cmake --help
for a list).cmake -G "Unix Makefiles" -DSPAN_LITE_OPT_BUILD_TESTS=ON ..
-
Optional. You can control above configuration through the following options:
-DSPAN_LITE_OPT_BUILD_TESTS=ON
: build the tests for span, default off
-DSPAN_LITE_OPT_BUILD_EXAMPLES=OFF
: build the examples, default off -
Build the test suite.
cmake --build .
-
Run the test suite.
ctest -V
All tests should pass, indicating your platform is supported and you are ready to use span lite.
- gsl-lite span.
- Microsoft GSL span.
- Google Abseil span.
- Marshall Clow's libc++ span snippet.
- Tristan Brindle's Implementation of C++20's std::span for older compilers.
- Search span c++ on GitHub.
Interface and specification
Presentations
- TBD
Proposals
- p0122 - span: bounds-safe views for sequences of objects.
- p1024 - Usability Enhancements for std::span.
- p1419 - A SFINAE-friendly trait to determine the extent of statically sized containers.
- p0805 - Comparing Containers.
- p1085 - Should Span be Regular?.
- p0091 - Template argument deduction for class templates.
- p0856 - Restrict Access Property for mdspan and span.
- p1428 - Subscripts and sizes should be signed.
- p1089 - Sizes Should Only span Unsigned.
- p1227 - Signed size() functions.
- p1872 - span should have size_type, not index_type.
- lwg 3101 - span's Container constructors need another constraint.
- Reddit - 2018-06 Rapperswil ISO C++ Committee Trip Report
- Reddit - 2018-11 San Diego ISO C++ Committee Trip Report.
- Reddit - 2019-02 Kona ISO C++ Committee Trip Report.
- Reddit - 2019-07 Cologne ISO C++ Committee Trip Report
- Reddit - 2019-11 Belfast ISO C++ Committee Trip Report
- Titus Winters. Revisiting Regular Types. Abseil Blog. 31 May 2018.
The version of span lite is available via tag [.version]
. The following tags are available for information on the compiler and on the C++ standard library used: [.compiler]
, [.stdc++]
, [.stdlanguage]
and [.stdlibrary]
.
click to expand
span<>: Terminates construction from a nullptr and a non-zero size (C++11)
span<>: Terminates construction from two pointers in the wrong order
span<>: Terminates construction from a null pointer and a non-zero size
span<>: Terminates creation of a sub span of the first n elements for n exceeding the span
span<>: Terminates creation of a sub span of the last n elements for n exceeding the span
span<>: Terminates creation of a sub span outside the span
span<>: Terminates access outside the span
span<>: Throws on access outside the span via at(): std::out_of_range [span_FEATURE_MEMBER_AT>0][span_CONFIG_NO_EXCEPTIONS=0]
span<>: Termination throws std::logic_error-derived exception [span_CONFIG_CONTRACT_VIOLATION_THROWS=1]
span<>: Allows to default-construct
span<>: Allows to construct from a nullptr and a zero size (C++11)
span<>: Allows to construct from two pointers
span<>: Allows to construct from two iterators
span<>: Allows to construct from two iterators - empty range
span<>: Allows to construct from an iterator and a size
span<>: Allows to construct from an iterator and a size - empty range
span<>: Allows to construct from two pointers to const
span<>: Allows to construct from a non-null pointer and a size
span<>: Allows to construct from a non-null pointer to const and a size
span<>: Allows to construct from a temporary pointer and a size
span<>: Allows to construct from a temporary pointer to const and a size
span<>: Allows to construct from any pointer and a zero size (C++98)
span<>: Allows to construct from a pointer and a size via a deduction guide (C++17)
span<>: Allows to construct from an iterator and a size via a deduction guide (C++17)
span<>: Allows to construct from two iterators via a deduction guide (C++17)
span<>: Allows to construct from a C-array
span<>: Allows to construct from a C-array via a deduction guide (C++17)
span<>: Allows to construct from a const C-array
span<>: Allows to construct from a C-array with size via decay to pointer (potentially dangerous)
span<>: Allows to construct from a const C-array with size via decay to pointer (potentially dangerous)
span<>: Allows to construct from a std::initializer_list<> (C++11)
span<>: Allows to construct from a std::array<> (C++11)
span<>: Allows to construct from a std::array via a deduction guide (C++17)
span<>: Allows to construct from a std::array<> with const data (C++11, span_FEATURE_CONSTR..._ELEMENT_TYPE=1)
span<>: Allows to construct from an empty std::array<> (C++11)
span<>: Allows to construct from a container (std::vector<>)
span<>: Allows to construct from a container via a deduction guide (std::vector<>, C++17)
span<>: Allows to tag-construct from a container (std::vector<>)
span<>: Allows to tag-construct from a const container (std::vector<>)
span<>: Allows to copy-construct from another span of the same type
span<>: Allows to copy-construct from another span of a compatible type
span<>: Allows to copy-construct from a temporary span of the same type (C++11)
span<>: Allows to copy-assign from another span of the same type
span<>: Allows to copy-assign from a temporary span of the same type (C++11)
span<>: Allows to create a sub span of the first n elements
span<>: Allows to create a sub span of the last n elements
span<>: Allows to create a sub span starting at a given offset
span<>: Allows to create a sub span starting at a given offset with a given length
span<>: Allows to observe an element via array indexing
span<>: Allows to observe an element via call indexing
span<>: Allows to observe an element via at() [span_FEATURE_MEMBER_AT>0]
span<>: Allows to observe an element via data()
span<>: Allows to observe the first element via front() [span_FEATURE_MEMBER_BACK_FRONT=1]
span<>: Allows to observe the last element via back() [span_FEATURE_MEMBER_BACK_FRONT=1]
span<>: Allows to change an element via array indexing
span<>: Allows to change an element via call indexing
span<>: Allows to change an element via at() [span_FEATURE_MEMBER_AT>0]
span<>: Allows to change an element via data()
span<>: Allows to change the first element via front() [span_FEATURE_MEMBER_BACK_FRONT=1]
span<>: Allows to change the last element via back() [span_FEATURE_MEMBER_BACK_FRONT=1]
span<>: Allows to swap with another span [span_FEATURE_MEMBER_SWAP=1]
span<>: Allows forward iteration
span<>: Allows const forward iteration
span<>: Allows reverse iteration
span<>: Allows const reverse iteration
span<>: Allows to identify if a span is the same as another span [span_FEATURE_SAME=1]
span<>: Allows to compare equal to another span of the same type [span_FEATURE_COMPARISON=1]
span<>: Allows to compare unequal to another span of the same type [span_FEATURE_COMPARISON=1]
span<>: Allows to compare less than another span of the same type [span_FEATURE_COMPARISON=1]
span<>: Allows to compare less than or equal to another span of the same type [span_FEATURE_COMPARISON=1]
span<>: Allows to compare greater than another span of the same type [span_FEATURE_COMPARISON=1]
span<>: Allows to compare greater than or equal to another span of the same type [span_FEATURE_COMPARISON=1]
span<>: Allows to compare to another span of the same type and different cv-ness [span_FEATURE_SAME=0]
span<>: Allows to compare empty spans as equal [span_FEATURE_COMPARISON=1]
span<>: Allows to test for empty span via empty(), empty case
span<>: Allows to test for empty span via empty(), non-empty case
span<>: Allows to obtain the number of elements via size()
span<>: Allows to obtain the number of elements via ssize()
span<>: Allows to obtain the number of bytes via size_bytes()
span<>: Allows to view the elements as read-only bytes
span<>: Allows to view and change the elements as writable bytes
make_span() [span_FEATURE_MAKE_SPAN_TO_STD=99]
make_span(): Allows building from two pointers
make_span(): Allows building from two const pointers
make_span(): Allows building from a non-null pointer and a size
make_span(): Allows building from a non-null const pointer and a size
make_span(): Allows building from a C-array
make_span(): Allows building from a const C-array
make_span(): Allows building from a std::initializer_list<> (C++11)
make_span(): Allows building from a std::array<> (C++11)
make_span(): Allows building from a const std::array<> (C++11)
make_span(): Allows building from a container (std::vector<>)
make_span(): Allows building from a const container (std::vector<>)
make_span(): Allows building from a container (with_container_t, std::vector<>)
make_span(): Allows building from a const container (with_container_t, std::vector<>)
byte_span() [span_FEATURE_BYTE_SPAN=1]
byte_span(): Allows building a span of std::byte from a single object (C++17, byte-lite)
byte_span(): Allows building a span of const std::byte from a single const object (C++17, byte-lite)
first(), last(), subspan() [span_FEATURE_NON_MEMBER_FIRST_LAST_SUB=1]
first(): Allows to create a sub span of the first n elements (span, template parameter)
first(): Allows to create a sub span of the first n elements (span, function parameter)
first(): Allows to create a sub span of the first n elements (compatible container, template parameter)
first(): Allows to create a sub span of the first n elements (compatible container, function parameter)
last(): Allows to create a sub span of the last n elements (span, template parameter)
last(): Allows to create a sub span of the last n elements (span, function parameter)
last(): Allows to create a sub span of the last n elements (compatible container, template parameter)
last(): Allows to create a sub span of the last n elements (compatible container, function parameter)
subspan(): Allows to create a sub span starting at a given offset (span, template parameter)
subspan(): Allows to create a sub span starting at a given offset (span, function parameter)
subspan(): Allows to create a sub span starting at a given offset (compatible container, template parameter)
subspan(): Allows to create a sub span starting at a given offset (compatible container, function parameter)
size(): Allows to obtain the number of elements via size()
ssize(): Allows to obtain the number of elements via ssize()
tuple_size<>: Allows to obtain the number of elements via std::tuple_size<> (C++11)
tuple_element<>: Allows to obtain an element via std::tuple_element<> (C++11)
tuple_element<>: Allows to obtain an element via std::tuple_element_t<> (C++11)
get<I>(spn): Allows to access an element via std::get<>()
tweak header: reads tweak header if supported [tweak]