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According the cplusplus.com, the std::type_info::before() function...

Returns true if the type precedes the type of rhs in the collation order.
The collation order is just an internal order kept by a particular implementation and is not necessarily related to inheritance relations or declaring order.

So what is it useful for?

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4 Answers 4

up vote 15 down vote accepted

Consider you want to put your type_info objects as keys into a map<type_info*, value>. The type_info doesn't have an operator < defined, so you must provide your own comparator. The only thing that is guaranteed to work from the type_info interface is the before() function, since neither the addresses of type_info nor the name() must be unique:

struct compare {
    bool operator ()(const type_info* a, const type_info* b) const {
        return a->before(*b);

std::map<const type_info*, std::string, compare> m;

void f() {
    m[&typeid(int)] = "Hello world";
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"The type_info doesn't have an operator < defined, so you must provide your own comparator." std::less<> (std::map<>'s default comparitor) works for all pointers, you just get address ordering instead of collation ordering. –  ildjarn Dec 30 '11 at 18:34
In the presence of dynamically loaded libraries using the address of typeinfo object doesn't necessarily work while collation order does. –  Dietmar Kühl Dec 30 '11 at 18:39
@ildjarn: you misunderstand the problem. The standard doesn't guarantee that at most one type_info per type exists. Infact it's common to encounter more than one typeinfo created for the same type. The most trivial case is in context of dynamically-linked libraries, like Dietmar said. –  ybungalobill Dec 30 '11 at 19:01
@ildjarn Reread your quotation. It talks about operator < of type_info, but you argue about validity of comparing pointers to type_info, implying that the quoted sentence is somehow wrong. But it is not, because I did not say anything about comparing pointers. Then why you people write irrelevant comments? –  ybungalobill Aug 20 '14 at 9:12

This is useful to define an order on typeinfo objects, e.g. to put them into a std::map. The obvious follow-up question is: why isn't it spelled operator<()? I don't know the answer to this question.

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"The obvious follow-up question is: why isn't it spelled operator<()?" How would one define an operator < for a pointer type? –  ildjarn Dec 30 '11 at 18:36
type_info isn't a pointer but a value type (of sorts). You can put them e.g. into a map. You can't define operators for built-in types although it is possible to define an order on pointers. –  Dietmar Kühl Dec 30 '11 at 18:51
type_info has no copy constructor or copy-assignment operator, so it can't be stored directly into a container. And of course, the key type of an associative container cannot be a reference, so the only remaining option is to store a type_info*, for which one cannot supply an operator<. Possibly the sensible thing to do is to specialize std::less<type_info*>. –  ildjarn Dec 30 '11 at 18:55
@ildjarn: Dietmar's question is 'why type_info has before() but not operator<'. Although what you say is correct, it doesn't answer his question. E.g. why can't I write typeid(int) < typeid(long), instead I have to use typeid(int).before(typeid(long)). –  ybungalobill Dec 30 '11 at 19:04
@DietmarKühl: note that C++11 defines type_index that is just a wrapper for const type_info* with all the comparison operators defined. –  ybungalobill Dec 30 '11 at 21:09

It gives an ordering.

That is required if you want to store values in some containers, like std::map.

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Think of it as less-than (<) operator for type_info objects. If you ever wanted to store in ordered collection - such a set of map - you can use it to make an appropriate comparator. It's a reliable and preferred way, as opposed to, say, using type's name which might not be unique.

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