Single header implementation of std::optional
with functional-style extensions and support for references.
std::optional
is the preferred way to represent an object which may or may not have a value. Unfortunately, chaining together many computations which may or may not produce a value can be verbose, as empty-checking code will be mixed in with the actual programming logic. This implementation provides a number of utilities to make coding with optional
cleaner.
For example, instead of writing this code:
std::optional<image> get_cute_cat (const image& img) {
auto cropped = crop_to_cat(img);
if (!cropped) {
return std::nullopt;
}
auto with_tie = add_bow_tie(*cropped);
if (!with_tie) {
return std::nullopt;
}
auto with_sparkles = make_eyes_sparkle(*with_tie);
if (!with_sparkles) {
return std::nullopt;
}
return add_rainbow(make_smaller(*with_sparkles));
}
You can do this:
tl::optional<image> get_cute_cat (const image& img) {
return crop_to_cat(img)
.and_then(add_bow_tie)
.and_then(make_eyes_sparkle)
.map(make_smaller)
.map(add_rainbow);
}
The interface is the same as std::optional
, but the following member functions are also defined. Explicit types are for clarity.
map
: carries out some operation on the stored object if there is one.tl::optional<std::size_t> s = opt_string.map(&std::string::size);
and_then
: likemap
, but for operations which return atl::optional
.tl::optional<int> stoi (const std::string& s);
tl::optional<int> i = opt_string.and_then(stoi);
or_else
: calls some function if there is no value stored.opt.or_else([] { throw std::runtime_error{"oh no"}; });
map_or
: carries out amap
if there is a value, otherwise returns a default value.tl::optional<std::size_t> s = opt_string.map_or(&std::string::size, 0);
map_or_else
: carries out amap
if there is a value, otherwise returns the result of a given default function.std::size_t get_default();
tl::optional<std::size_t> s = opt_string.map_or(&std::string::size, get_default);
conjunction
: returns the argument if a value is stored in the optional, otherwise an empty optional.tl::make_optional(42).conjunction(13); //13
tl::optional<int>){}.conjunction(13); //empty
disjunction
: returns the argument if the optional is empty, otherwise the current value.tl::make_optional(42).disjunction(13); //42
tl::optional<int>{}.disjunction(13); //13
take
: returns the current value, leaving the optional empty.opt_string.take().map(&std::string::size); //opt_string now empty;
In addition to those member functions, optional references are also supported:
int i = 42;
tl::optional<int&> o = i;
*o == 42; //true
i = 12;
*o = 12; //true
&*o == &i; //true
Assignment has rebind semantics rather than assign-through semantics:
int j = 8;
o = j;
&*o == &j; //true
Tested on:
- Linux
- clang 6.0.1
- clang 5.0.2
- clang 4.0.1
- clang 3.9
- clang 3.8
- clang 3.7
- clang 3.6
- clang 3.5
- g 8.0.1
- g 7.3
- g 6.4
- g 5.5
- g 4.9
- g 4.8
- Windows
- MSVC 2015
- MSVC 2017
Requires Standardese for generating documentation.
Requires Catch for testing. This is bundled in the test directory.
This library also serves as an implementation of WG21 standards paper P0798R0: Monadic operations for std::optional. This paper proposes adding map
, and_then
, and or_else
to std::optional
.
To the extent possible under law, Simon Brand has waived all copyright and related or neighboring rights to the optional
library. This work is published from: United Kingdom.