Boost.Hana  1.7.1
Your standard library for metaprogramming
boost::hana::lazy< implementation_defined > Struct Template Reference

Description

template<typename implementation_defined>
struct boost::hana::lazy< implementation_defined >

hana::lazy implements superficial laziness via a monadic interface.

It is important to understand that the laziness implemented by lazy is only superficial; only function applications made inside the lazy monad can be made lazy, not all their subexpressions.

Note
The actual representation of hana::lazy is completely implementation-defined. Lazy values may only be created through hana::make_lazy, and they can be stored in variables using auto, but any other assumption about the representation of hana::lazy<...> should be avoided. In particular, one should not rely on the fact that hana::lazy<...> can be pattern-matched on, because it may be a dependent type.

Modeled concepts

  1. Functor
    Applying a function over a lazy value with transform returns the result of applying the function, as a lazy value.
    // Copyright Louis Dionne 2013-2017
    // Distributed under the Boost Software License, Version 1.0.
    // (See accompanying file LICENSE.md or copy at http://boost.org/LICENSE_1_0.txt)
    namespace hana = boost::hana;
    using hana::_;
    int main() {
    static_assert(hana::eval(hana::transform(hana::make_lazy(4 / _)(1), _ * 3)) == (4 / 1) * 3, "");
    hana::transform(hana::make_lazy(4 / _)(0), _ * 3); // never evaluated
    }
    Defines boost::hana::eval.
    constexpr unspecified _
    Create simple functions representing C++ operators inline.
    Definition: placeholder.hpp:70
    Defines boost::hana::lazy.
    Namespace containing everything in the library.
    Definition: accessors.hpp:20
    Defines boost::hana::_.
    Defines boost::hana::transform.
  2. Applicative
    A normal value can be lifted into a lazy value by using lift<lazy_tag>. A lazy function can be lazily applied to a lazy value by using ap.
  3. Monad
    The lazy monad allows combining lazy computations into larger lazy computations. Note that the | operator can be used in place of the chain function.
    // Copyright Louis Dionne 2013-2017
    // Distributed under the Boost Software License, Version 1.0.
    // (See accompanying file LICENSE.md or copy at http://boost.org/LICENSE_1_0.txt)
    #include <functional>
    #include <iostream>
    #include <sstream>
    namespace hana = boost::hana;
    template <typename T>
    T read_(std::istream& stream) {
    T x;
    stream >> x;
    std::cout << "read " << x << " from the stream\n";
    return x;
    }
    int main() {
    std::stringstream ss;
    int in = 123;
    std::cout << "creating the monadic chain...\n";
    auto out = hana::make_lazy(read_<int>)(std::ref(ss))
    | [](auto x) {
    std::cout << "performing x + 1...\n";
    return hana::make_lazy(x + 1);
    }
    | [](auto x) {
    std::cout << "performing x / 2...\n";
    return hana::make_lazy(x / 2);
    };
    std::cout << "putting " << in << " in the stream...\n";
    ss << in; // nothing is evaluated yet
    std::cout << "evaluating the monadic chain...\n";
    auto eout = hana::eval(out);
    std::cout << "the result of the monadic chain is " << eout << "\n";
    BOOST_HANA_RUNTIME_CHECK(eout == (in + 1) / 2);
    }
    Defines macros to perform different kinds of assertions.
    Defines boost::hana::chain.
    constexpr auto in
    Return whether the key occurs in the structure.
    Definition: contains.hpp:70
    #define BOOST_HANA_RUNTIME_CHECK(...)
    Equivalent to BOOST_HANA_RUNTIME_ASSERT, but not influenced by the BOOST_HANA_CONFIG_DISABLE_ASSERTIO...
    Definition: assert.hpp:209
  4. Comonad
    The lazy comonad allows evaluating a lazy computation to get its result and lazily applying functions taking lazy inputs to lazy values. This blog post goes into more details about lazy evaluation and comonads.
    // Copyright Louis Dionne 2013-2017
    // Distributed under the Boost Software License, Version 1.0.
    // (See accompanying file LICENSE.md or copy at http://boost.org/LICENSE_1_0.txt)
    #include <sstream>
    namespace hana = boost::hana;
    int main() {
    std::stringstream s("1 2 3");
    auto i = hana::make_lazy([&] {
    int i;
    s >> i;
    return i;
    })();
    auto i_plus_one = hana::extend(i, [](auto lazy_int) {
    return hana::eval(lazy_int) + 1;
    });
    BOOST_HANA_RUNTIME_CHECK(hana::extract(i_plus_one) == 2);
    BOOST_HANA_RUNTIME_CHECK(hana::extract(i_plus_one) == 3);
    BOOST_HANA_RUNTIME_CHECK(hana::extract(i_plus_one) == 4);
    }
    Defines boost::hana::extend.
    Defines boost::hana::extract.
Note
hana::lazy only models a few concepts because providing more functionality would require evaluating the lazy values in most cases. Since this raises some issues such as side effects and memoization, the interface is kept minimal.

Synopsis of associated functions

constexpr auto eval
 Evaluate a lazy value and return it. More...
 
template<>
constexpr auto make< lazy_tag >
 Lifts a normal value to a lazy one. More...
 
constexpr auto make_lazy = make<lazy_tag>
 Alias to make<lazy_tag>; provided for convenience. More...
 

Friends

template<typename ... T, typename F >
constexpr friend auto operator| (lazy< T... >, F)
 Equivalent to hana::chain.
 

Associated functions

◆ eval

template<typename implementation_defined >
constexpr auto eval
related
Initial value:
= [](auto&& see_documentation) -> decltype(auto) {
return tag-dispatched;
}

Evaluate a lazy value and return it.

Given a lazy expression expr, eval evaluates expr and returns the result as a normal value. However, for convenience, eval can also be used with nullary and unary function objects. Specifically, if expr is not a hana::lazy, it is called with no arguments at all and the result of that call (expr()) is returned. Otherwise, if expr() is ill-formed, then expr(hana::id) is returned instead. If that expression is ill-formed, then a compile-time error is triggered.

The reason for allowing nullary callables in eval is because this allows using nullary lambdas as lazy branches to eval_if, which is convenient. The reason for allowing unary callables and calling them with hana::id is because this allows deferring the compile-time evaluation of selected expressions inside the callable. How this can be achieved is documented by hana::eval_if.

Example

// Copyright Louis Dionne 2013-2017
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE.md or copy at http://boost.org/LICENSE_1_0.txt)
namespace hana = boost::hana;
static_assert(hana::eval(hana::make_lazy(hana::_ + 1)(3)) == 4, "");
int main() { }

◆ make< lazy_tag >

template<typename implementation_defined >
template<>
constexpr auto make< lazy_tag >
related
Initial value:
= [](auto&& x) {
return lazy<implementation_defined>{forwarded(x)};
}

Lifts a normal value to a lazy one.

make<lazy_tag> can be used to lift a normal value or a function call into a lazy expression. Precisely, make<lazy_tag>(x) is a lazy value equal to x, and make<lazy_tag>(f)(x1, ..., xN) is a lazy function call that is equal to f(x1, ..., xN) when it is evaluated.

Note
It is interesting to note that make<lazy_tag>(f)(x1, ..., xN) is equivalent to
ap(make<lazy_tag>(f), lift<lazy_tag>(x1), ..., lift<lazy_tag>(xN))
constexpr auto make< lazy_tag >
Lifts a normal value to a lazy one.
Definition: lazy.hpp:110
which in turn is equivalent to make<lazy_tag>(f(x1, ..., xN)), except for the fact that the inner call to f is evaluated lazily.

Example

// Copyright Louis Dionne 2013-2017
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE.md or copy at http://boost.org/LICENSE_1_0.txt)
namespace hana = boost::hana;
int main() {
BOOST_HANA_CONSTEXPR_LAMBDA auto f = hana::make<hana::lazy_tag>([](auto x) {
return 1 / x;
});
BOOST_HANA_CONSTEXPR_LAMBDA auto g = hana::make_lazy([](auto x) {
return x + 1;
});
BOOST_HANA_CONSTEXPR_CHECK(hana::eval(hana::if_(hana::false_c, f(0), g(0))) == 0 + 1);
}
Defines the Logical and Comparable models of boost::hana::integral_constant.
Defines configuration macros used throughout the library.
constexpr auto if_
Conditionally return one of two values based on a condition.
Definition: if.hpp:41
#define BOOST_HANA_CONSTEXPR_CHECK(...)
Equivalent to BOOST_HANA_CONSTEXPR_ASSERT, but not influenced by the BOOST_HANA_CONFIG_DISABLE_ASSERT...
Definition: assert.hpp:300
Defines boost::hana::if_.

◆ make_lazy

template<typename implementation_defined >
constexpr auto make_lazy = make<lazy_tag>
related

Alias to make<lazy_tag>; provided for convenience.

Example

// Copyright Louis Dionne 2013-2017
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE.md or copy at http://boost.org/LICENSE_1_0.txt)
namespace hana = boost::hana;
int main() {
BOOST_HANA_CONSTEXPR_LAMBDA auto f = hana::make<hana::lazy_tag>([](auto x) {
return 1 / x;
});
BOOST_HANA_CONSTEXPR_LAMBDA auto g = hana::make_lazy([](auto x) {
return x + 1;
});
BOOST_HANA_CONSTEXPR_CHECK(hana::eval(hana::if_(hana::false_c, f(0), g(0))) == 0 + 1);
}