Quoting loosely from the standard:
numeric_limits shall not be specialized for non-arithmetic standard types (e.g.
shared_ptr shall be CopyConstructible, CopyAssignable, and LessThanComparable [and] convertible to
weak_ptr shall be CopyConstructible and CopyAssignable."
"[T]emplate specializations [of
std::hash] shall meet the requirements of class template hash."
<type_traits>: "The behavior of a program that adds specializations for any of the class templates defined in this subclause is undefined unless otherwise specified." (only some specializations of
common_type are explicitly allowed)
Locales have certain required specializations.
All specializations of
istreambuf_iterator shall have a trivial copy constructor, a constexpr default constructor, and a trivial destructor.
"The effect of instantiating the class template
complex for any type other than float, double, or long double is unspecified." I take it that means that defining such other specializations is pointless.
"Specializations and instantiations of the
atomic template shall have a deleted copy constructor, a deleted copy assignment operator, and a constexpr value constructor."
"The class templates
binary_function are deprecated. A program shall not declare specializations of these templates."
And of course the overarching clause 22.214.171.124.1, sentence 1 (thanks @sehe and @curiousguy):
The behavior of a C++ program is undefined if it adds declarations or definitions to namespace std or to a
namespace within namespace std unless otherwise specified. A program may add a template specialization
for any standard library template to namespace std only if the declaration depends on a user-defined type
and the specialization meets the standard library requirements for the original template and is not explicitly
And sentence 2:
The behavior of a C++ program is undefined if it declares
an explicit specialization of any member function of a standard library class template, or
an explicit specialization of any member function template of a standard library class or class template, or
an explicit or partial specialization of any member class template of a standard library class or class template.
A program may explicitly instantiate a template defined in the standard library only if the declaration
depends on the name of a user-defined type and the instantiation meets the standard library requirements
for the original template.