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C++ templates are the first language feature to require more intelligence from the environment than one usually finds on a UNIX system. Somehow the compiler and linker have to make sure that each template instance occurs exactly once in the executable if it is needed, and not at all otherwise. There are two basic approaches to this problem, which are referred to as the Borland model and the Cfront model.
When used with GNU ld version 2.8 or later on an ELF system such as GNU/Linux or Solaris 2, or on Microsoft Windows, G++ supports the Borland model. On other systems, G++ implements neither automatic model.
You have the following options for dealing with template instantiations:
This is your best option for application code written for the Borland
model, as it just works. Code written for the Cfront model
needs to be modified so that the template definitions are available at
one or more points of instantiation; usually this is as simple as adding
#include <tmethods.cc>
to the end of each template header.
For library code, if you want the library to provide all of the template instantiations it needs, just try to link all of its object files together; the link will fail, but cause the instantiations to be generated as a side effect. Be warned, however, that this may cause conflicts if multiple libraries try to provide the same instantiations. For greater control, use explicit instantiation as described in the next option.
#include "Foo.h" #include "Foo.cc" template class Foo<int>; template ostream& operator << (ostream&, const Foo<int>&);
for each of the instances you need, and create a template instantiation library from those.
If you are using Cfront-model code, you can probably get away with not using -fno-implicit-templates when compiling files that don't ‘#include’ the member template definitions.
If you use one big file to do the instantiations, you may want to compile it without -fno-implicit-templates so you get all of the instances required by your explicit instantiations (but not by any other files) without having to specify them as well.
The ISO C++ 2011 standard allows forward declaration of explicit
instantiations (with extern
). G++ supports explicit instantiation
declarations in C++98 mode and has extended the template instantiation
syntax to support instantiation of the compiler support data for a
template class (i.e. the vtable) without instantiating any of its
members (with inline
), and instantiation of only the static data
members of a template class, without the support data or member
functions (with static
):
extern template int max (int, int); inline template class Foo<int>; static template class Foo<int>;