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c773de6d61
git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@28394 91177308-0d34-0410-b5e6-96231b3b80d8
508 lines
19 KiB
C++
508 lines
19 KiB
C++
//===- DSNode.h - Node definition for datastructure graphs ------*- C++ -*-===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file was developed by the LLVM research group and is distributed under
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// the University of Illinois Open Source License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// Data structure graph nodes and some implementation of DSNodeHandle.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LLVM_ANALYSIS_DSNODE_H
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#define LLVM_ANALYSIS_DSNODE_H
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#include "llvm/Analysis/DataStructure/DSSupport.h"
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#include "llvm/ADT/hash_map"
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namespace llvm {
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template<typename BaseType>
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class DSNodeIterator; // Data structure graph traversal iterator
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class TargetData;
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//===----------------------------------------------------------------------===//
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/// DSNode - Data structure node class
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///
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/// This class represents an untyped memory object of Size bytes. It keeps
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/// track of any pointers that have been stored into the object as well as the
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/// different types represented in this object.
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///
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class DSNode {
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/// NumReferrers - The number of DSNodeHandles pointing to this node... if
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/// this is a forwarding node, then this is the number of node handles which
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/// are still forwarding over us.
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///
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unsigned NumReferrers;
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/// ForwardNH - This NodeHandle contain the node (and offset into the node)
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/// that this node really is. When nodes get folded together, the node to be
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/// eliminated has these fields filled in, otherwise ForwardNH.getNode() is
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/// null.
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///
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DSNodeHandle ForwardNH;
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/// Next, Prev - These instance variables are used to keep the node on a
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/// doubly-linked ilist in the DSGraph.
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///
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DSNode *Next, *Prev;
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friend struct ilist_traits<DSNode>;
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/// Size - The current size of the node. This should be equal to the size of
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/// the current type record.
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///
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unsigned Size;
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/// ParentGraph - The graph this node is currently embedded into.
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///
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DSGraph *ParentGraph;
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/// Ty - Keep track of the current outer most type of this object, in addition
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/// to whether or not it has been indexed like an array or not. If the
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/// isArray bit is set, the node cannot grow.
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///
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const Type *Ty; // The type itself...
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/// Links - Contains one entry for every sizeof(void*) bytes in this memory
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/// object. Note that if the node is not a multiple of size(void*) bytes
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/// large, that there is an extra entry for the "remainder" of the node as
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/// well. For this reason, nodes of 1 byte in size do have one link.
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///
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std::vector<DSNodeHandle> Links;
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/// Globals - The list of global values that are merged into this node.
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///
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std::vector<GlobalValue*> Globals;
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void operator=(const DSNode &); // DO NOT IMPLEMENT
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DSNode(const DSNode &); // DO NOT IMPLEMENT
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public:
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enum NodeTy {
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ShadowNode = 0, // Nothing is known about this node...
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AllocaNode = 1 << 0, // This node was allocated with alloca
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HeapNode = 1 << 1, // This node was allocated with malloc
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GlobalNode = 1 << 2, // This node was allocated by a global var decl
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UnknownNode = 1 << 3, // This node points to unknown allocated memory
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Incomplete = 1 << 4, // This node may not be complete
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Modified = 1 << 5, // This node is modified in this context
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Read = 1 << 6, // This node is read in this context
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Array = 1 << 7, // This node is treated like an array
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//#ifndef NDEBUG
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DEAD = 1 << 8, // This node is dead and should not be pointed to
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//#endif
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Composition = AllocaNode | HeapNode | GlobalNode | UnknownNode
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};
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/// NodeType - A union of the above bits. "Shadow" nodes do not add any flags
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/// to the nodes in the data structure graph, so it is possible to have nodes
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/// with a value of 0 for their NodeType.
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///
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private:
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unsigned short NodeType;
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public:
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/// DSNode ctor - Create a node of the specified type, inserting it into the
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/// specified graph.
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///
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DSNode(const Type *T, DSGraph *G);
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/// DSNode "copy ctor" - Copy the specified node, inserting it into the
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/// specified graph. If NullLinks is true, then null out all of the links,
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/// but keep the same number of them. This can be used for efficiency if the
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/// links are just going to be clobbered anyway.
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///
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DSNode(const DSNode &, DSGraph *G, bool NullLinks = false);
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~DSNode() {
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dropAllReferences();
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assert(hasNoReferrers() && "Referrers to dead node exist!");
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}
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// Iterator for graph interface... Defined in DSGraphTraits.h
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typedef DSNodeIterator<DSNode> iterator;
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typedef DSNodeIterator<const DSNode> const_iterator;
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inline iterator begin();
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inline iterator end();
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inline const_iterator begin() const;
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inline const_iterator end() const;
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//===--------------------------------------------------
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// Accessors
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/// getSize - Return the maximum number of bytes occupied by this object...
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///
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unsigned getSize() const { return Size; }
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/// getType - Return the node type of this object...
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///
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const Type *getType() const { return Ty; }
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bool isArray() const { return NodeType & Array; }
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/// hasNoReferrers - Return true if nothing is pointing to this node at all.
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///
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bool hasNoReferrers() const { return getNumReferrers() == 0; }
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/// getNumReferrers - This method returns the number of referrers to the
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/// current node. Note that if this node is a forwarding node, this will
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/// return the number of nodes forwarding over the node!
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unsigned getNumReferrers() const { return NumReferrers; }
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DSGraph *getParentGraph() const { return ParentGraph; }
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void setParentGraph(DSGraph *G) { ParentGraph = G; }
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/// getTargetData - Get the target data object used to construct this node.
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///
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const TargetData &getTargetData() const;
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/// getForwardNode - This method returns the node that this node is forwarded
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/// to, if any.
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///
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DSNode *getForwardNode() const { return ForwardNH.getNode(); }
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/// isForwarding - Return true if this node is forwarding to another.
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///
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bool isForwarding() const { return !ForwardNH.isNull(); }
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/// stopForwarding - When the last reference to this forwarding node has been
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/// dropped, delete the node.
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///
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void stopForwarding() {
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assert(isForwarding() &&
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"Node isn't forwarding, cannot stopForwarding()!");
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ForwardNH.setTo(0, 0);
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assert(ParentGraph == 0 &&
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"Forwarding nodes must have been removed from graph!");
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delete this;
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}
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/// hasLink - Return true if this memory object has a link in slot LinkNo
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///
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bool hasLink(unsigned Offset) const {
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assert((Offset & ((1 << DS::PointerShift)-1)) == 0 &&
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"Pointer offset not aligned correctly!");
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unsigned Index = Offset >> DS::PointerShift;
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assert(Index < Links.size() && "Link index is out of range!");
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return Links[Index].getNode();
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}
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/// getLink - Return the link at the specified offset.
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///
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DSNodeHandle &getLink(unsigned Offset) {
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assert((Offset & ((1 << DS::PointerShift)-1)) == 0 &&
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"Pointer offset not aligned correctly!");
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unsigned Index = Offset >> DS::PointerShift;
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assert(Index < Links.size() && "Link index is out of range!");
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return Links[Index];
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}
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const DSNodeHandle &getLink(unsigned Offset) const {
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assert((Offset & ((1 << DS::PointerShift)-1)) == 0 &&
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"Pointer offset not aligned correctly!");
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unsigned Index = Offset >> DS::PointerShift;
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assert(Index < Links.size() && "Link index is out of range!");
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return Links[Index];
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}
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/// getNumLinks - Return the number of links in a node...
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///
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unsigned getNumLinks() const { return Links.size(); }
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/// edge_* - Provide iterators for accessing outgoing edges. Some outgoing
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/// edges may be null.
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typedef std::vector<DSNodeHandle>::iterator edge_iterator;
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typedef std::vector<DSNodeHandle>::const_iterator const_edge_iterator;
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edge_iterator edge_begin() { return Links.begin(); }
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edge_iterator edge_end() { return Links.end(); }
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const_edge_iterator edge_begin() const { return Links.begin(); }
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const_edge_iterator edge_end() const { return Links.end(); }
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/// mergeTypeInfo - This method merges the specified type into the current
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/// node at the specified offset. This may update the current node's type
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/// record if this gives more information to the node, it may do nothing to
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/// the node if this information is already known, or it may merge the node
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/// completely (and return true) if the information is incompatible with what
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/// is already known.
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///
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/// This method returns true if the node is completely folded, otherwise
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/// false.
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///
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bool mergeTypeInfo(const Type *Ty, unsigned Offset,
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bool FoldIfIncompatible = true);
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/// foldNodeCompletely - If we determine that this node has some funny
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/// behavior happening to it that we cannot represent, we fold it down to a
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/// single, completely pessimistic, node. This node is represented as a
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/// single byte with a single TypeEntry of "void" with isArray = true.
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///
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void foldNodeCompletely();
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/// isNodeCompletelyFolded - Return true if this node has been completely
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/// folded down to something that can never be expanded, effectively losing
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/// all of the field sensitivity that may be present in the node.
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///
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bool isNodeCompletelyFolded() const;
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/// setLink - Set the link at the specified offset to the specified
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/// NodeHandle, replacing what was there. It is uncommon to use this method,
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/// instead one of the higher level methods should be used, below.
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///
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void setLink(unsigned Offset, const DSNodeHandle &NH) {
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assert((Offset & ((1 << DS::PointerShift)-1)) == 0 &&
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"Pointer offset not aligned correctly!");
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unsigned Index = Offset >> DS::PointerShift;
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assert(Index < Links.size() && "Link index is out of range!");
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Links[Index] = NH;
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}
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/// getPointerSize - Return the size of a pointer for the current target.
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///
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unsigned getPointerSize() const { return DS::PointerSize; }
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/// addEdgeTo - Add an edge from the current node to the specified node. This
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/// can cause merging of nodes in the graph.
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///
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void addEdgeTo(unsigned Offset, const DSNodeHandle &NH);
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/// mergeWith - Merge this node and the specified node, moving all links to
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/// and from the argument node into the current node, deleting the node
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/// argument. Offset indicates what offset the specified node is to be merged
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/// into the current node.
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///
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/// The specified node may be a null pointer (in which case, nothing happens).
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///
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void mergeWith(const DSNodeHandle &NH, unsigned Offset);
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/// addGlobal - Add an entry for a global value to the Globals list. This
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/// also marks the node with the 'G' flag if it does not already have it.
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///
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void addGlobal(GlobalValue *GV);
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/// removeGlobal - Remove the specified global that is explicitly in the
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/// globals list.
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void removeGlobal(GlobalValue *GV);
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void mergeGlobals(const std::vector<GlobalValue*> &RHS);
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void clearGlobals() { std::vector<GlobalValue*>().swap(Globals); }
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/// getGlobalsList - Return the set of global leaders that are represented by
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/// this node. Note that globals that are in this equivalence class but are
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/// not leaders are not returned: for that, use addFullGlobalsList().
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const std::vector<GlobalValue*> &getGlobalsList() const { return Globals; }
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/// addFullGlobalsList - Compute the full set of global values that are
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/// represented by this node. Unlike getGlobalsList(), this requires fair
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/// amount of work to compute, so don't treat this method call as free.
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void addFullGlobalsList(std::vector<GlobalValue*> &List) const;
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/// addFullFunctionList - Identical to addFullGlobalsList, but only return the
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/// functions in the full list.
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void addFullFunctionList(std::vector<Function*> &List) const;
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/// globals_iterator/begin/end - Provide iteration methods over the global
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/// value leaders set that is merged into this node. Like the getGlobalsList
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/// method, these iterators do not return globals that are part of the
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/// equivalence classes for globals in this node, but aren't leaders.
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typedef std::vector<GlobalValue*>::const_iterator globals_iterator;
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globals_iterator globals_begin() const { return Globals.begin(); }
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globals_iterator globals_end() const { return Globals.end(); }
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/// maskNodeTypes - Apply a mask to the node types bitfield.
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///
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void maskNodeTypes(unsigned Mask) {
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NodeType &= Mask;
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}
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void mergeNodeFlags(unsigned RHS) {
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NodeType |= RHS;
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}
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/// getNodeFlags - Return all of the flags set on the node. If the DEAD flag
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/// is set, hide it from the caller.
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///
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unsigned getNodeFlags() const { return NodeType & ~DEAD; }
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bool isAllocaNode() const { return NodeType & AllocaNode; }
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bool isHeapNode() const { return NodeType & HeapNode; }
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bool isGlobalNode() const { return NodeType & GlobalNode; }
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bool isUnknownNode() const { return NodeType & UnknownNode; }
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bool isModified() const { return NodeType & Modified; }
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bool isRead() const { return NodeType & Read; }
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bool isIncomplete() const { return NodeType & Incomplete; }
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bool isComplete() const { return !isIncomplete(); }
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bool isDeadNode() const { return NodeType & DEAD; }
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DSNode *setAllocaNodeMarker() { NodeType |= AllocaNode; return this; }
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DSNode *setHeapNodeMarker() { NodeType |= HeapNode; return this; }
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DSNode *setGlobalNodeMarker() { NodeType |= GlobalNode; return this; }
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DSNode *setUnknownNodeMarker() { NodeType |= UnknownNode; return this; }
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DSNode *setIncompleteMarker() { NodeType |= Incomplete; return this; }
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DSNode *setModifiedMarker() { NodeType |= Modified; return this; }
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DSNode *setReadMarker() { NodeType |= Read; return this; }
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DSNode *setArrayMarker() { NodeType |= Array; return this; }
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void makeNodeDead() {
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Globals.clear();
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assert(hasNoReferrers() && "Dead node shouldn't have refs!");
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NodeType = DEAD;
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}
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/// forwardNode - Mark this node as being obsolete, and all references to it
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/// should be forwarded to the specified node and offset.
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///
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void forwardNode(DSNode *To, unsigned Offset);
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void print(std::ostream &O, const DSGraph *G) const;
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void dump() const;
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void assertOK() const;
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void dropAllReferences() {
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Links.clear();
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if (isForwarding())
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ForwardNH.setTo(0, 0);
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}
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/// remapLinks - Change all of the Links in the current node according to the
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/// specified mapping.
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///
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void remapLinks(hash_map<const DSNode*, DSNodeHandle> &OldNodeMap);
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/// markReachableNodes - This method recursively traverses the specified
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/// DSNodes, marking any nodes which are reachable. All reachable nodes it
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/// adds to the set, which allows it to only traverse visited nodes once.
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///
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void markReachableNodes(hash_set<const DSNode*> &ReachableNodes) const;
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private:
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friend class DSNodeHandle;
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// static mergeNodes - Helper for mergeWith()
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static void MergeNodes(DSNodeHandle& CurNodeH, DSNodeHandle& NH);
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};
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//===----------------------------------------------------------------------===//
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// Define the ilist_traits specialization for the DSGraph ilist.
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//
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template<>
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struct ilist_traits<DSNode> {
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static DSNode *getPrev(const DSNode *N) { return N->Prev; }
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static DSNode *getNext(const DSNode *N) { return N->Next; }
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static void setPrev(DSNode *N, DSNode *Prev) { N->Prev = Prev; }
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static void setNext(DSNode *N, DSNode *Next) { N->Next = Next; }
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static DSNode *createSentinel() { return new DSNode(0,0); }
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static void destroySentinel(DSNode *N) { delete N; }
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//static DSNode *createNode(const DSNode &V) { return new DSNode(V); }
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void addNodeToList(DSNode *NTy) {}
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void removeNodeFromList(DSNode *NTy) {}
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void transferNodesFromList(iplist<DSNode, ilist_traits> &L2,
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ilist_iterator<DSNode> first,
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ilist_iterator<DSNode> last) {}
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};
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template<>
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struct ilist_traits<const DSNode> : public ilist_traits<DSNode> {};
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//===----------------------------------------------------------------------===//
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// Define inline DSNodeHandle functions that depend on the definition of DSNode
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//
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inline DSNode *DSNodeHandle::getNode() const {
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// Disabling this assertion because it is failing on a "magic" struct
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// in named (from bind). The fourth field is an array of length 0,
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// presumably used to create struct instances of different sizes.
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// In a variable length struct, Offset could exceed Size when getNode()
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// is called before such a node is folded. In this case, the DS Analysis now
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// correctly folds this node after calling getNode.
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/* assert((!N ||
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N->isNodeCompletelyFolded() ||
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(N->Size == 0 && Offset == 0) ||
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(int(Offset) >= 0 && Offset < N->Size) ||
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(int(Offset) < 0 && -int(Offset) < int(N->Size)) ||
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N->isForwarding()) && "Node handle offset out of range!");
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*/
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if (N == 0 || !N->isForwarding())
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return N;
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return HandleForwarding();
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}
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inline void DSNodeHandle::setTo(DSNode *n, unsigned NewOffset) const {
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assert(!n || !n->isForwarding() && "Cannot set node to a forwarded node!");
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if (N) getNode()->NumReferrers--;
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N = n;
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Offset = NewOffset;
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if (N) {
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N->NumReferrers++;
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if (Offset >= N->Size) {
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assert((Offset == 0 || N->Size == 1) &&
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"Pointer to non-collapsed node with invalid offset!");
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Offset = 0;
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}
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}
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assert(!N || ((N->NodeType & DSNode::DEAD) == 0));
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assert((!N || Offset < N->Size || (N->Size == 0 && Offset == 0) ||
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N->isForwarding()) && "Node handle offset out of range!");
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}
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inline bool DSNodeHandle::hasLink(unsigned Num) const {
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assert(N && "DSNodeHandle does not point to a node yet!");
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return getNode()->hasLink(Num+Offset);
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}
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/// getLink - Treat this current node pointer as a pointer to a structure of
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/// some sort. This method will return the pointer a mem[this+Num]
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///
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inline const DSNodeHandle &DSNodeHandle::getLink(unsigned Off) const {
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assert(N && "DSNodeHandle does not point to a node yet!");
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return getNode()->getLink(Offset+Off);
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}
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inline DSNodeHandle &DSNodeHandle::getLink(unsigned Off) {
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assert(N && "DSNodeHandle does not point to a node yet!");
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return getNode()->getLink(Off+Offset);
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}
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inline void DSNodeHandle::setLink(unsigned Off, const DSNodeHandle &NH) {
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assert(N && "DSNodeHandle does not point to a node yet!");
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getNode()->setLink(Off+Offset, NH);
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}
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/// addEdgeTo - Add an edge from the current node to the specified node. This
|
|
/// can cause merging of nodes in the graph.
|
|
///
|
|
inline void DSNodeHandle::addEdgeTo(unsigned Off, const DSNodeHandle &Node) {
|
|
assert(N && "DSNodeHandle does not point to a node yet!");
|
|
getNode()->addEdgeTo(Off+Offset, Node);
|
|
}
|
|
|
|
/// mergeWith - Merge the logical node pointed to by 'this' with the node
|
|
/// pointed to by 'N'.
|
|
///
|
|
inline void DSNodeHandle::mergeWith(const DSNodeHandle &Node) const {
|
|
if (!isNull())
|
|
getNode()->mergeWith(Node, Offset);
|
|
else { // No node to merge with, so just point to Node
|
|
Offset = 0;
|
|
DSNode *NN = Node.getNode();
|
|
setTo(NN, Node.getOffset());
|
|
}
|
|
}
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|
|
|
} // End llvm namespace
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|
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#endif
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