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I'm trying to create a simple dynamic language interpreter in C++. I'd like to be able to declare dynamically typed arrays, but I'm not sure how to store them in some object in C++.

In Ruby/Python I can store anything I want, but what's an efficient way of doing this in C++?

(Also, if someone has a link to a simple open source lexer/parser/interpreter for dynamic languages like Ruby, I'd appreciate a link).

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3 Answers 3

up vote 1 down vote accepted

You will have to roll some custom solution based on your language's semantics. For example, you can use boost::any to store any object, but you won't be able to perform, for example, name lookups. A knowledge of some assembler is useful here because you're basically emulating that. What most people do is something like

struct Object {
    boost::any cppobject;
    std::unordered_map<std::string, std::function<void(boost::any&, std::vector<boost::any>&)> funcs;
};

std::vector<Object> stuff;

When, in your hypothetical language, you have something like

stuff[0].hi();

Then you can convert it into something like

std::vector<boost::any> args;
// fill args
stuff.at(0).funcs["hi"](stuff.at(0).cppobject, args);
// now args holds the result

It's quite possible to optimize this scheme further, but not to generalize it further, as it's already maximally general.

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Sounds like the best idea among the 4 responses I've got. I'll give it a try. Thanks :) –  user1527166 Dec 1 '12 at 19:30

The way dynamic languages store universal objects is via pointers, you can do the same thing in C++. Store a pointer to a generic "object" that you define in your C++ classes, that's an efficient way of doing it.

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An alternative to using unions or dynamically allocating objects of a common base type (and downcasting them as appropriate via dynamic_cast or an equivalent construct) is boost::variant, which allows you to write code such as:

typedef boost::variant<int, float, char, std::string> LangType;
std::vector<LangType> langObjects;

If your design allows for such an implementation, this has the advantage of being compile-time safe and avoiding any penalty imposed by use of the heap, virtual functions and polymorphic downcasts.

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