author | never |
Sun, 11 Sep 2011 14:48:24 -0700 | |
changeset 10547 | ea4a2ec31ae2 |
parent 8319 | aedb3bd871bc |
child 10982 | 85bcf8ef9cc8 |
permissions | -rw-r--r-- |
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/* |
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* Copyright (c) 2005, 2011, Oracle and/or its affiliates. All rights reserved. |
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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
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* |
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* This code is free software; you can redistribute it and/or modify it |
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* under the terms of the GNU General Public License version 2 only, as |
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* published by the Free Software Foundation. |
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* |
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* This code is distributed in the hope that it will be useful, but WITHOUT |
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or |
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
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* version 2 for more details (a copy is included in the LICENSE file that |
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* accompanied this code). |
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* |
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* You should have received a copy of the GNU General Public License version |
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* 2 along with this work; if not, write to the Free Software Foundation, |
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* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. |
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* |
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* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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* or visit www.oracle.com if you need additional information or have any |
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* questions. |
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* |
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*/ |
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||
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#ifndef SHARE_VM_OPTO_ESCAPE_HPP |
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#define SHARE_VM_OPTO_ESCAPE_HPP |
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||
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#include "opto/addnode.hpp" |
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#include "opto/node.hpp" |
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#include "utilities/growableArray.hpp" |
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// |
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// Adaptation for C2 of the escape analysis algorithm described in: |
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// |
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// [Choi99] Jong-Deok Shoi, Manish Gupta, Mauricio Seffano, |
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// Vugranam C. Sreedhar, Sam Midkiff, |
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// "Escape Analysis for Java", Procedings of ACM SIGPLAN |
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// OOPSLA Conference, November 1, 1999 |
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// |
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// The flow-insensitive analysis described in the paper has been implemented. |
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// |
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// The analysis requires construction of a "connection graph" (CG) for |
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// the method being analyzed. The nodes of the connection graph are: |
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// |
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// - Java objects (JO) |
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// - Local variables (LV) |
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// - Fields of an object (OF), these also include array elements |
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// |
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// The CG contains 3 types of edges: |
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// |
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// - PointsTo (-P>) {LV, OF} to JO |
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// - Deferred (-D>) from {LV, OF} to {LV, OF} |
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// - Field (-F>) from JO to OF |
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// |
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// The following utility functions is used by the algorithm: |
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// |
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// PointsTo(n) - n is any CG node, it returns the set of JO that n could |
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// point to. |
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// |
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// The algorithm describes how to construct the connection graph |
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// in the following 4 cases: |
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// |
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// Case Edges Created |
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// |
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// (1) p = new T() LV -P> JO |
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// (2) p = q LV -D> LV |
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// (3) p.f = q JO -F> OF, OF -D> LV |
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// (4) p = q.f JO -F> OF, LV -D> OF |
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// |
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// In all these cases, p and q are local variables. For static field |
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// references, we can construct a local variable containing a reference |
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// to the static memory. |
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// |
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// C2 does not have local variables. However for the purposes of constructing |
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// the connection graph, the following IR nodes are treated as local variables: |
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// Phi (pointer values) |
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// LoadP |
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// Proj#5 (value returned from callnodes including allocations) |
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// CheckCastPP, CastPP |
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// |
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// The LoadP, Proj and CheckCastPP behave like variables assigned to only once. |
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// Only a Phi can have multiple assignments. Each input to a Phi is treated |
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// as an assignment to it. |
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// |
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// The following node types are JavaObject: |
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// |
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// top() |
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// Allocate |
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// AllocateArray |
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// Parm (for incoming arguments) |
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// CastX2P ("unsafe" operations) |
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// CreateEx |
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// ConP |
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// LoadKlass |
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// ThreadLocal |
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// |
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// AddP nodes are fields. |
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// |
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// After building the graph, a pass is made over the nodes, deleting deferred |
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// nodes and copying the edges from the target of the deferred edge to the |
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// source. This results in a graph with no deferred edges, only: |
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// |
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// LV -P> JO |
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// OF -P> JO (the object whose oop is stored in the field) |
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// JO -F> OF |
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// |
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// Then, for each node which is GlobalEscape, anything it could point to |
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// is marked GlobalEscape. Finally, for any node marked ArgEscape, anything |
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// it could point to is marked ArgEscape. |
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// |
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class Compile; |
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class Node; |
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class CallNode; |
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class PhiNode; |
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class PhaseTransform; |
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class Type; |
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class TypePtr; |
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class VectorSet; |
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class PointsToNode { |
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friend class ConnectionGraph; |
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public: |
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typedef enum { |
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UnknownType = 0, |
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JavaObject = 1, |
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LocalVar = 2, |
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Field = 3 |
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} NodeType; |
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typedef enum { |
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UnknownEscape = 0, |
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NoEscape = 1, // A scalar replaceable object with unique type. |
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ArgEscape = 2, // An object passed as argument or referenced by |
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// argument (and not globally escape during call). |
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GlobalEscape = 3 // An object escapes the method and thread. |
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} EscapeState; |
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typedef enum { |
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UnknownEdge = 0, |
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PointsToEdge = 1, |
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DeferredEdge = 2, |
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FieldEdge = 3 |
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} EdgeType; |
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private: |
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enum { |
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EdgeMask = 3, |
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EdgeShift = 2, |
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INITIAL_EDGE_COUNT = 4 |
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}; |
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NodeType _type; |
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EscapeState _escape; |
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GrowableArray<uint>* _edges; // outgoing edges |
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public: |
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Node* _node; // Ideal node corresponding to this PointsTo node. |
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int _offset; // Object fields offsets. |
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bool _scalar_replaceable;// Not escaped object could be replaced with scalar |
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bool _hidden_alias; // This node is an argument to a function. |
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// which may return it creating a hidden alias. |
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PointsToNode(): |
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_type(UnknownType), |
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_escape(UnknownEscape), |
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_edges(NULL), |
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_node(NULL), |
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_offset(-1), |
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_scalar_replaceable(true), |
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_hidden_alias(false) {} |
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EscapeState escape_state() const { return _escape; } |
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NodeType node_type() const { return _type;} |
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int offset() { return _offset;} |
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void set_offset(int offs) { _offset = offs;} |
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void set_escape_state(EscapeState state) { _escape = state; } |
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void set_node_type(NodeType ntype) { |
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assert(_type == UnknownType || _type == ntype, "Can't change node type"); |
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_type = ntype; |
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} |
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// count of outgoing edges |
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uint edge_count() const { return (_edges == NULL) ? 0 : _edges->length(); } |
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// node index of target of outgoing edge "e" |
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uint edge_target(uint e) const { |
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assert(_edges != NULL, "valid edge index"); |
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return (_edges->at(e) >> EdgeShift); |
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} |
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// type of outgoing edge "e" |
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EdgeType edge_type(uint e) const { |
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assert(_edges != NULL, "valid edge index"); |
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return (EdgeType) (_edges->at(e) & EdgeMask); |
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} |
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// add a edge of the specified type pointing to the specified target |
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void add_edge(uint targIdx, EdgeType et); |
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// remove an edge of the specified type pointing to the specified target |
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void remove_edge(uint targIdx, EdgeType et); |
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#ifndef PRODUCT |
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void dump(bool print_state=true) const; |
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#endif |
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}; |
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class ConnectionGraph: public ResourceObj { |
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private: |
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GrowableArray<PointsToNode> _nodes; // Connection graph nodes indexed |
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// by ideal node index. |
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Unique_Node_List _delayed_worklist; // Nodes to be processed before |
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// the call build_connection_graph(). |
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GrowableArray<MergeMemNode *> _mergemem_worklist; // List of all MergeMem nodes |
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VectorSet _processed; // Records which nodes have been |
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// processed. |
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bool _collecting; // Indicates whether escape information |
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// is still being collected. If false, |
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// no new nodes will be processed. |
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bool _progress; // Indicates whether new Graph's edges |
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// were created. |
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uint _phantom_object; // Index of globally escaping object |
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// that pointer values loaded from |
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// a field which has not been set |
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// are assumed to point to. |
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uint _oop_null; // ConP(#NULL) |
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uint _noop_null; // ConN(#NULL) |
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Compile * _compile; // Compile object for current compilation |
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PhaseIterGVN * _igvn; // Value numbering |
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// Address of an element in _nodes. Used when the element is to be modified |
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PointsToNode *ptnode_adr(uint idx) const { |
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// There should be no new ideal nodes during ConnectionGraph build, |
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// growableArray::adr_at() will throw assert otherwise. |
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return _nodes.adr_at(idx); |
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} |
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uint nodes_size() const { return _nodes.length(); } |
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// Add node to ConnectionGraph. |
251 |
void add_node(Node *n, PointsToNode::NodeType nt, PointsToNode::EscapeState es, bool done); |
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// offset of a field reference |
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int address_offset(Node* adr, PhaseTransform *phase); |
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// compute the escape state for arguments to a call |
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void process_call_arguments(CallNode *call, PhaseTransform *phase); |
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258 |
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// compute the escape state for the return value of a call |
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void process_call_result(ProjNode *resproj, PhaseTransform *phase); |
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// Populate Connection Graph with Ideal nodes. |
263 |
void record_for_escape_analysis(Node *n, PhaseTransform *phase); |
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1 | 264 |
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238 | 265 |
// Build Connection Graph and set nodes escape state. |
266 |
void build_connection_graph(Node *n, PhaseTransform *phase); |
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1 | 267 |
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// walk the connection graph starting at the node corresponding to "n" and |
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// add the index of everything it could point to, to "ptset". This may cause |
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// Phi's encountered to get (re)processed (which requires "phase".) |
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8319 | 271 |
VectorSet* PointsTo(Node * n); |
272 |
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273 |
// Reused structures for PointsTo(). |
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274 |
VectorSet pt_ptset; |
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275 |
VectorSet pt_visited; |
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276 |
GrowableArray<uint> pt_worklist; |
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1 | 277 |
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278 |
// Edge manipulation. The "from_i" and "to_i" arguments are the |
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// node indices of the source and destination of the edge |
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280 |
void add_pointsto_edge(uint from_i, uint to_i); |
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281 |
void add_deferred_edge(uint from_i, uint to_i); |
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282 |
void add_field_edge(uint from_i, uint to_i, int offs); |
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283 |
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7122 | 284 |
// Add an edge of the specified type pointing to the specified target. |
285 |
// Set _progress if new edge is added. |
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286 |
void add_edge(PointsToNode *f, uint to_i, PointsToNode::EdgeType et) { |
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287 |
uint e_cnt = f->edge_count(); |
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288 |
f->add_edge(to_i, et); |
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289 |
_progress |= (f->edge_count() != e_cnt); |
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290 |
} |
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1 | 291 |
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292 |
// Add an edge to node given by "to_i" from any field of adr_i whose offset |
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293 |
// matches "offset" A deferred edge is added if to_i is a LocalVar, and |
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// a pointsto edge is added if it is a JavaObject |
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295 |
void add_edge_from_fields(uint adr, uint to_i, int offs); |
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296 |
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238 | 297 |
// Add a deferred edge from node given by "from_i" to any field |
298 |
// of adr_i whose offset matches "offset" |
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1 | 299 |
void add_deferred_edge_to_fields(uint from_i, uint adr, int offs); |
300 |
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301 |
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302 |
// Remove outgoing deferred edges from the node referenced by "ni". |
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// Any outgoing edges from the target of the deferred edge are copied |
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// to "ni". |
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void remove_deferred(uint ni, GrowableArray<uint>* deferred_edges, VectorSet* visited); |
1 | 306 |
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307 |
Node_Array _node_map; // used for bookeeping during type splitting |
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308 |
// Used for the following purposes: |
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309 |
// Memory Phi - most recent unique Phi split out |
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310 |
// from this Phi |
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311 |
// MemNode - new memory input for this node |
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// ChecCastPP - allocation that this is a cast of |
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// allocation - CheckCastPP of the allocation |
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bool split_AddP(Node *addp, Node *base, PhaseGVN *igvn); |
1 | 315 |
PhiNode *create_split_phi(PhiNode *orig_phi, int alias_idx, GrowableArray<PhiNode *> &orig_phi_worklist, PhaseGVN *igvn, bool &new_created); |
316 |
PhiNode *split_memory_phi(PhiNode *orig_phi, int alias_idx, GrowableArray<PhiNode *> &orig_phi_worklist, PhaseGVN *igvn); |
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void move_inst_mem(Node* n, GrowableArray<PhiNode *> &orig_phis, PhaseGVN *igvn); |
238 | 318 |
Node *find_inst_mem(Node *mem, int alias_idx,GrowableArray<PhiNode *> &orig_phi_worklist, PhaseGVN *igvn); |
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1 | 320 |
// Propagate unique types created for unescaped allocated objects |
321 |
// through the graph |
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322 |
void split_unique_types(GrowableArray<Node *> &alloc_worklist); |
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323 |
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324 |
// manage entries in _node_map |
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325 |
void set_map(int idx, Node *n) { _node_map.map(idx, n); } |
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326 |
Node *get_map(int idx) { return _node_map[idx]; } |
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327 |
PhiNode *get_map_phi(int idx) { |
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328 |
Node *phi = _node_map[idx]; |
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329 |
return (phi == NULL) ? NULL : phi->as_Phi(); |
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330 |
} |
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331 |
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332 |
// Notify optimizer that a node has been modified |
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333 |
// Node: This assumes that escape analysis is run before |
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334 |
// PhaseIterGVN creation |
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335 |
void record_for_optimizer(Node *n) { |
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_igvn->_worklist.push(n); |
1 | 337 |
} |
338 |
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339 |
// Set the escape state of a node |
|
340 |
void set_escape_state(uint ni, PointsToNode::EscapeState es); |
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341 |
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// Adjust escape state after Connection Graph is built. |
343 |
void adjust_escape_state(int nidx, PhaseTransform* phase); |
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344 |
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345 |
// Compute the escape information |
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346 |
bool compute_escape(); |
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public: |
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ConnectionGraph(Compile *C, PhaseIterGVN *igvn); |
1 | 350 |
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// Check for non-escaping candidates |
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static bool has_candidates(Compile *C); |
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// Perform escape analysis |
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static void do_analysis(Compile *C, PhaseIterGVN *igvn); |
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1 | 357 |
// escape state of a node |
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PointsToNode::EscapeState escape_state(Node *n); |
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// other information we have collected |
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bool is_scalar_replaceable(Node *n) { |
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if (_collecting || (n->_idx >= nodes_size())) |
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return false; |
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PointsToNode* ptn = ptnode_adr(n->_idx); |
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return ptn->escape_state() == PointsToNode::NoEscape && ptn->_scalar_replaceable; |
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} |
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bool hidden_alias(Node *n) { |
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if (_collecting || (n->_idx >= nodes_size())) |
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return true; |
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PointsToNode* ptn = ptnode_adr(n->_idx); |
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return (ptn->escape_state() != PointsToNode::NoEscape) || ptn->_hidden_alias; |
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} |
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#ifndef PRODUCT |
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void dump(); |
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#endif |
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}; |
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#endif // SHARE_VM_OPTO_ESCAPE_HPP |