I have a problem with compiling llvm. The problem is that my current compiler (clang + libc++) tries to instantiate a template before the template parameter gets defined. Here is the code example:

// ----- TYPEDEFS -----
class NodeEntry;
class EdgeEntry;

typedef std::list<NodeEntry> NodeList;
typedef std::list<EdgeEntry> EdgeList;

typedef NodeList::iterator NodeItr; // line 39 
typedef NodeList::const_iterator ConstNodeItr;

typedef EdgeList::iterator EdgeItr;
typedef EdgeList::const_iterator ConstEdgeItr;

typedef std::list<EdgeItr> AdjEdgeList;

typedef AdjEdgeList::iterator AdjEdgeItr;

class NodeEntry {
  AdjEdgeList adjEdges;

class EdgeEntry {
  AdjEdgeItr node1AEItr, node2AEItr;

The error from the compiler is this:

error: field has incomplete type 'PBQP::Graph::NodeEntry'

/Developer/Extras/llvm/include/llvm/CodeGen/PBQP/Graph.h:39:13: note: in instantiation of template class
  'std::__1::list<PBQP::Graph::NodeEntry, std::__1::allocator<PBQP::Graph::NodeEntry> >' requested here
typedef NodeList::iterator NodeItr;
/Developer/Extras/llvm/include/llvm/CodeGen/PBQP/Graph.h:31:11: note: forward declaration of 'PBQP::Graph::NodeEntry'
class NodeEntry;

As far as I can tell the compiler tries to instantiate std::list<NodeEntry> in order to get the iterator. This fails as NodeEntry is not defined yet. And of course EdgeEntry is using NodeEntry and vice versa.

The obvious question is: How do I fix it?
The educational question is: Why does the compiler try to instantiate the template when defining the type? Should it not wait until we do something with the list?



If you want guaranteed support for incomplete types, your best bet is to create unique_ptr's to them:

typedef std::list<std::unique_ptr<NodeEntry>> NodeList;
typedef std::list<std::unique_ptr<EdgeEntry>> EdgeList;

In the past, many times std::list<incomplete_type> would just work. However with C++11 and noexcept specifications, it is becoming more likely that a complete type is needed, just so that the noexcept spec can be validated.

C++11 guarantees that unique_ptr<incomplete_type> and shared_ptr<incomplete_type> will work, although there are strict limits. For example wherever ~unique_ptr() is executed, the type has to be complete there. But you can usually outline such code to a source and #include the complete type at that point.

unique_ptr<incomplete_type> and shared_ptr<incomplete_type> are the only class templates in the C++11 std::lib that are guaranteed to work with incomplete types. Everything else is undefined behavior:


In particular, the effects are undefined in the following cases:


  • if an incomplete type (3.9) is used as a template argument when instantiating a template component, unless specifically allowed for that component.

If for some reason the std::list does not need to own the pointer to the incomplete type, then std::list<NodeEntry*> would work even better. You might also want to entertain using vector instead of list since the cost of moving pointers (or even unique_ptr's) around is relatively small.


According to the clang docs also already linked, they are not willing to support incomplete types for stl containers in libc++.

Something funny that stems from this is the following code will not compile with libc++:

#include <list>

struct Tree {
    // ... more stuff ...
    std::list<Tree> mChildren;

but this code compiles fine, because list's template parameter also depends on a template parameter:

template<typename T>
struct TreeT {
    // ... more stuff ...
    std::list<TreeT<T> > mChildren;

This strikes me as odd, since the latter is more complex.

On a similar post, which also contains a reference to the ISO section concerning incomplete types in templates, Boost.Container is mentioned as an alternative because it explicitly allows recursive data structures. I came across this post while diagnosing a similar problem and this is my solution for now.

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