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improve iplist comments. Switch iplist from allocating its sentinal object (for
end()) eagerly to allocating it lazily. This saves a lot of memory for JIT applications that read a module but don't materialize most of the functions (e.g. 62K for 252.eon). llvm-svn: 41142
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@ -212,13 +212,29 @@ template<typename NodeTy> struct simplify_type<const ilist_iterator<NodeTy> > {
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//===----------------------------------------------------------------------===//
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//
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// iplist - The subset of list functionality that can safely be used on nodes of
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// polymorphic types, i.e. a heterogenous list with a common base class that
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// holds the next/prev pointers...
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//
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/// iplist - The subset of list functionality that can safely be used on nodes
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/// of polymorphic types, i.e. a heterogenous list with a common base class that
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/// holds the next/prev pointers. The only state of the list itself is a single
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/// pointer to the head of the list.
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///
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/// This list can be in one of three interesting states:
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/// 1. The list may be completely unconstructed. In this case, the head
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/// pointer is null. When in this form, any query for an iterator (e.g.
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/// begin() or end()) causes the list to transparently change to state #2.
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/// 2. The list may be empty, but contain a sentinal for the end iterator. This
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/// sentinal is created by the Traits::createSentinel method and is a link
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/// in the list. When the list is empty, the pointer in the iplist points
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/// to the sentinal. Once the sentinal is constructed, it
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/// is not destroyed until the list is.
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/// 3. The list may contain actual objects in it, which are stored as a doubly
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/// linked list of nodes. One invariant of the list is that the predecessor
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/// of the first node in the list always points to the last node in the list,
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/// and the successor pointer for the sentinal (which always stays at the
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/// end of the list) is always null.
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///
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template<typename NodeTy, typename Traits=ilist_traits<NodeTy> >
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class iplist : public Traits {
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NodeTy *Head;
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mutable NodeTy *Head;
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// Use the prev node pointer of 'head' as the tail pointer. This is really a
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// circularly linked list where we snip the 'next' link from the sentinel node
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@ -226,7 +242,16 @@ class iplist : public Traits {
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// the end of the list).
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NodeTy *getTail() { return getPrev(Head); }
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const NodeTy *getTail() const { return getPrev(Head); }
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void setTail(NodeTy *N) { setPrev(Head, N); }
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void setTail(NodeTy *N) const { setPrev(Head, N); }
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/// CreateLazySentinal - This method verifies whether the sentinal for the
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/// list has been created and lazily makes it if not.
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void CreateLazySentinal() const {
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if (Head != 0) return;
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Head = Traits::createSentinel();
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setNext(Head, 0);
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setTail(Head);
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}
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static bool op_less(NodeTy &L, NodeTy &R) { return L < R; }
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static bool op_equal(NodeTy &L, NodeTy &R) { return L == R; }
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@ -243,28 +268,41 @@ public:
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typedef std::reverse_iterator<const_iterator> const_reverse_iterator;
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typedef std::reverse_iterator<iterator> reverse_iterator;
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iplist() : Head(Traits::createSentinel()) {
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setNext(Head, 0);
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setTail(Head);
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iplist() : Head(0) {}
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~iplist() {
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if (!Head) return;
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clear();
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Traits::destroySentinel(getTail());
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}
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~iplist() { clear(); Traits::destroySentinel(getTail()); }
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// Iterator creation methods.
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iterator begin() { return iterator(Head); }
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const_iterator begin() const { return const_iterator(Head); }
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iterator end() { return iterator(getTail()); }
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const_iterator end() const { return const_iterator(getTail()); }
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iterator begin() {
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CreateLazySentinal();
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return iterator(Head);
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}
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const_iterator begin() const {
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CreateLazySentinal();
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return const_iterator(Head);
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}
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iterator end() {
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CreateLazySentinal();
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return iterator(getTail());
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}
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const_iterator end() const {
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CreateLazySentinal();
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return const_iterator(getTail());
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}
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// reverse iterator creation methods.
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reverse_iterator rbegin() { return reverse_iterator(end()); }
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const_reverse_iterator rbegin() const{ return const_reverse_iterator(end()); }
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reverse_iterator rend() { return reverse_iterator(begin()); }
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const_reverse_iterator rend() const { return const_reverse_iterator(begin()); }
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const_reverse_iterator rend() const { return const_reverse_iterator(begin());}
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// Miscellaneous inspection routines.
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size_type max_size() const { return size_type(-1); }
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bool empty() const { return Head == getTail(); }
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bool empty() const { return Head == 0 || Head == getTail(); }
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// Front and back accessor functions...
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reference front() {
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@ -386,6 +424,7 @@ public:
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//
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size_type size() const {
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if (Head == 0) return 0; // Don't require construction of sentinal if empty.
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#if __GNUC__ == 2
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// GCC 2.95 has a broken std::distance
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size_type Result = 0;
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@ -402,7 +441,7 @@ public:
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return last;
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}
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void clear() { erase(begin(), end()); }
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void clear() { if (Head) erase(begin(), end()); }
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// Front and back inserters...
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void push_front(NodeTy *val) { insert(begin(), val); }
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