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24 
25 #ifndef SHARE_OPTO_PHASE_HPP
26 #define SHARE_OPTO_PHASE_HPP
27 
28 #include "runtime/timer.hpp"
29 
30 class IfNode;
31 class MergeMemNode;
32 class Node;
33 class PhaseGVN;
34 
35 //------------------------------Phase------------------------------------------
36 // Most optimizations are done in Phases.  Creating a phase does any long
37 // running analysis required, and caches the analysis in internal data
38 // structures.  Later the analysis is queried using transform() calls to
39 // guide transforming the program.  When the Phase is deleted, so is any
40 // cached analysis info.  This basic Phase class mostly contains timing and
41 // memory management code.
42 class Phase : public StackObj {
43 public:
44   enum PhaseNumber {
45     Compiler,                         // Top-level compiler phase
46     Parser,                           // Parse bytecodes
47     Remove_Useless,                   // Remove useless nodes
48     Remove_Useless_And_Renumber_Live, // First, remove useless nodes from the graph. Then, renumber live nodes.
49     Optimistic,                       // Optimistic analysis phase
50     GVN,                              // Pessimistic global value numbering phase
51     Ins_Select,                       // Instruction selection phase
52     CFG,                              // Build a CFG
53     BlockLayout,                      // Linear ordering of blocks
54     Register_Allocation,              // Register allocation, duh
55     LIVE,                             // Dragon-book LIVE range problem
56     StringOpts,                       // StringBuilder related optimizations
57     Interference_Graph,               // Building the IFG
58     Coalesce,                         // Coalescing copies
59     Ideal_Loop,                       // Find idealized trip-counted loops
60     Macro_Expand,                     // Expand macro nodes
61     Peephole,                         // Apply peephole optimizations
62     Vector,
63     Output,
64     last_phase
65   };
66 
67   enum PhaseTraceId {
68     _t_parser,
69     _t_optimizer,
70       _t_escapeAnalysis,
71         _t_connectionGraph,
72         _t_macroEliminate,
73       _t_iterGVN,
74       _t_incrInline,
75         _t_incrInline_ideal,
76         _t_incrInline_igvn,
77         _t_incrInline_pru,
78         _t_incrInline_inline,
79       _t_vector,
80         _t_vector_elimination,
81           _t_vector_igvn,
82           _t_vector_pru,
83       _t_renumberLive,
84       _t_idealLoop,
85       _t_idealLoopVerify,
86       _t_ccp,
87       _t_iterGVN2,
88       _t_macroExpand,
89       _t_barrierExpand,
90       _t_graphReshaping,
91     _t_matcher,
92       _t_postselect_cleanup,
93     _t_scheduler,
94     _t_registerAllocation,
95       _t_ctorChaitin,
96       _t_buildIFGvirtual,
97       _t_buildIFGphysical,
98       _t_computeLive,
99       _t_regAllocSplit,
100       _t_postAllocCopyRemoval,
101       _t_mergeMultidefs,
102       _t_fixupSpills,
103       _t_chaitinCompact,
104       _t_chaitinCoalesce1,
105       _t_chaitinCoalesce2,
106       _t_chaitinCoalesce3,
107       _t_chaitinCacheLRG,
108       _t_chaitinSimplify,
109       _t_chaitinSelect,
110     _t_blockOrdering,
111     _t_peephole,
112     _t_postalloc_expand,
113     _t_output,
114        _t_instrSched,
115        _t_buildOopMaps,
116     _t_registerMethod,
117     _t_temporaryTimer1,
118     _t_temporaryTimer2,
119     max_phase_timers
120    };
121 
122   static elapsedTimer timers[max_phase_timers];
123 
124 protected:
125   enum PhaseNumber _pnum;       // Phase number (for stat gathering)
126 
127   static int _total_bytes_compiled;
128 
129   // accumulated timers
130   static elapsedTimer _t_totalCompilation;
131   static elapsedTimer _t_methodCompilation;
132   static elapsedTimer _t_stubCompilation;
133 
134   // Generate a subtyping check.  Takes as input the subtype and supertype.
135   // Returns 2 values: sets the default control() to the true path and
136   // returns the false path.  Only reads from constant memory taken from the
137   // default memory; does not write anything.  It also doesn't take in an
138   // Object; if you wish to check an Object you need to load the Object's
139   // class prior to coming here.
140   // Used in GraphKit and PhaseMacroExpand
141   static Node* gen_subtype_check(Node* subklass, Node* superklass, Node** ctrl, Node* mem, PhaseGVN& gvn);
142 
143 public:
144   Compile * C;
145   Phase( PhaseNumber pnum );
146 
147   static void print_timers();
148 };
149 
150 #endif // SHARE_OPTO_PHASE_HPP
151