Meta C++
This project contains a library for C++ AST parsing, metaprogramming and reflection.
Also included is a tool for generating the necessary meta and reflection information for use by each of the respective libraries.
Dependencies
System dependencies:
External dependencies (will be found or downloaded as required):
Including in a project
Although standalone compilation is supported and is important for bug-testing and development, the entire project is intended to be included as a subproject.
Fetching the library
Using FetchContent (recommended)
From within your projects main CMakeLists.txt add the following before any targets that depend on the library:
FetchContent_Declare(
metapp
GIT_REPOSITORY https://github.com/RamblingMadMan/metacpp.git
)
FetchContent_MakeAvailable(metapp)As a git submodule
From the source directory of a project initialized with git run the following command:
git submodule add --depth 1 https://github.com/RamblingMadMan/metacpp.git deps/metacppReplace deps/metacpp with your own location if required.
Then from within your projects main CMakeLists.txt add the following before any targets that depend on the library:
add_subdirectory(deps/metacpp)Generating information
For any targets that will use the meta or refl libraries, add the following to the correct CMakeLists.txt:
target_reflect(<target>)Usage
CMakeLists.txt:
add_executable(example example.h example.cpp)
target_reflect(example)example.h:
#pragma once
#include <string_view>
#include <tuple>
class [[my::attrib(1, "2", 3.0)]] example{
public:
void method1(std::string_view s) const noexcept;
void method1(const std::string &str) noexcept;
std::tuple<int, float, char> method2();
};
enum class example_enum{
case_0 = 69,
case_1 = 420,
case_2 = 1337
};
example.cpp:
#include <iostream>
#include "example.meta.h"
int main(int argc, char *argv[]){
// --------------
// C++17 Features
// --------------
// iterate over all public class methods
meta::for_all<meta::methods<example>>([]<class Method>{
// get method names
std::cout << "Method " << Method::name << "\n";
// as well as information about the method
std::cout << "\t" "pointer type: " << meta::type_name<typename Method::ptr_type> << "\n";
// iterate over every parameter of a method
meta::for_all_i<typename Method::params>([](auto param, std::size_t idx){
// 'param' is a meta::type<T>
using info = meta::get_t<decltype(param)>;
// get parameter types
using param_type = typename info::type;
// and names
std::cout << "\t" "parameter '" << info::name << "': " << meta::type_name<param_type> << "\n";
});
// and don't forget the result type
std::cout << "\t" "result type: " << meta::type_name<typename Method::result> << "\n";
});
// alias the info for the example class
using example_info = meta::class_info<example>;
// do some checks on the attributes
static_assert(example_info::attributes::size == 1);
// handy shortcut for getting the attributes of a type
using my_attribs = meta::attributes<example>;
// get the only attribute; by default 0 is passed as the second argument to get_t
using my_attrib = meta::get_t<my_attribs>;
// this can make the signal-to-noise ratio better
using meta::get_t;
using meta::for_all;
using meta::for_all_i;
// we can even inspect the arguments!
using my_attrib_args = typename my_attrib::args;
static_assert(my_attrib_args::size == 3);
// do some checking on the attribute arguments
static_assert(get_t<my_attrib_args, 0>::value == R"(1)");
static_assert(get_t<my_attrib_args, 1>::value == R"("2")");
static_assert(get_t<my_attrib_args, 2>::value == R"(3.0)");
// iterate over all class attributes
for_all<meta::attributes<example>>([](auto attrib){
using info = get_t<decltype(attrib)>;
// supports [[scoped::attributes]]
if constexpr(!info::scope.empty()){
std::cout << info::scope << "::";
}
// get attribute names
std::cout << info::name;
// also supports [[attributes(with, "args")]]
if constexpr(!info::args::empty){
std::cout << "(";
// iterate over all attribute arguments
for_all_i<typename info::args>([]<class Arg, std::size_t Idx>{
if constexpr(Idx != 0){
std::cout << ", ";
}
std::cout << Arg::value;
});
std::cout << ")";
}
});
// we can also reflect enums
using enum_info = meta::enum_info<example_enum>;
// get the name of an enum and if it is scoped
std::cout << (enum_info::is_scoped ? "Scoped " : "") << "Enum " << enum_info::name << "\n";
// iterate over all enum values
for_all<typename enum_info::values>([](auto value){
using info = get_t<decltype(value)>;
// get the value name and unsigned integer representation
std::cout << "\t" "Enum value '" << info::name << "' == " << info::value << "\n";
});
// Get enum values from strings at compile time
static_assert(meta::get_value<example_enum>("case_0") == static_cast<example_enum>(69));
static_assert(meta::get_value<example_enum>("case_1") == static_cast<example_enum>(420));
static_assert(meta::get_value<example_enum>("case_2") == static_cast<example_enum>(1337));
// --------------
// C++20 Features
// --------------
// do compile-time queries on class info
static_assert(example_info::query_methods<"method1">::size == 2);
// specify a signature
static_assert(example_info::query_methods<"method1", void(std::string_view)>::size == 1);
// or just part of one
static_assert(example_info::query_methods<"method2", meta::ignore()>::size == 1);
// also supports attribute queries
static_assert(example_info::query_attributes<"my", "attrib">::size == 1);
}
Bugs
Still in early development phase, so lots of bugs to be found.
If you do find any bugs; please, create an issue in this repo so I can prompty get them fixed.
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