jdk8-mips64-public/hotspot: src/share/vm/code/nmethod.hpp@c64b6b0c40c8 (annotated)

src/share/vm/code/nmethod.hpp@c64b6b0c40c8 (annotated)

src/share/vm/code/nmethod.hpp

Wed, 25 Jun 2014 08:56:57 +0200

author: stefank
date: Wed, 25 Jun 2014 08:56:57 +0200
changeset 6985: c64b6b0c40c8
parent 6983: 9717199cb8de
child 6992: 2c6ef90f030a
permissions: -rw-r--r--

8047326: Consolidate all CompiledIC::CompiledIC implementations and move it to compiledIC.cpp
Reviewed-by: vlivanov, ehelin

 /*
  * Copyright (c) 1997, 2013, Oracle and/or its affiliates. All rights reserved.
  * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License version 2 only, as
  * published by the Free Software Foundation.
  *
  * This code is distributed in the hope that it will be useful, but WITHOUT
  * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
  * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
  * version 2 for more details (a copy is included in the LICENSE file that
  * accompanied this code).
  *
  * You should have received a copy of the GNU General Public License version
  * 2 along with this work; if not, write to the Free Software Foundation,
  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  *
  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  * or visit www.oracle.com if you need additional information or have any
  * questions.
  *
  */
 #ifndef SHARE_VM_CODE_NMETHOD_HPP
 #define SHARE_VM_CODE_NMETHOD_HPP
 #include "code/codeBlob.hpp"
 #include "code/pcDesc.hpp"
 #include "oops/metadata.hpp"
 // This class is used internally by nmethods, to cache
 // exception/pc/handler information.
 class ExceptionCache : public CHeapObj<mtCode> {
   friend class VMStructs;
  private:
   enum { cache_size = 16 };
   Klass*   _exception_type;
   address  _pc[cache_size];
   address  _handler[cache_size];
   int      _count;
   ExceptionCache* _next;
   address pc_at(int index)                     { assert(index >= 0 && index < count(),""); return _pc[index]; }
   void    set_pc_at(int index, address a)      { assert(index >= 0 && index < cache_size,""); _pc[index] = a; }
   address handler_at(int index)                { assert(index >= 0 && index < count(),""); return _handler[index]; }
   void    set_handler_at(int index, address a) { assert(index >= 0 && index < cache_size,""); _handler[index] = a; }
   int     count()                              { return _count; }
   void    increment_count()                    { _count++; }
  public:
   ExceptionCache(Handle exception, address pc, address handler);
   Klass*    exception_type()                { return _exception_type; }
   ExceptionCache* next()                    { return _next; }
   void      set_next(ExceptionCache *ec)    { _next = ec; }
   address match(Handle exception, address pc);
   bool    match_exception_with_space(Handle exception) ;
   address test_address(address addr);
   bool    add_address_and_handler(address addr, address handler) ;
 };
 // cache pc descs found in earlier inquiries
 class PcDescCache VALUE_OBJ_CLASS_SPEC {
   friend class VMStructs;
  private:
   enum { cache_size = 4 };
   // The array elements MUST be volatile! Several threads may modify
   // and read from the cache concurrently. find_pc_desc_internal has
   // returned wrong results. C++ compiler (namely xlC12) may duplicate
   // C++ field accesses if the elements are not volatile.
   typedef PcDesc* PcDescPtr;
   volatile PcDescPtr _pc_descs[cache_size]; // last cache_size pc_descs found
  public:
   PcDescCache() { debug_only(_pc_descs[0] = NULL); }
   void    reset_to(PcDesc* initial_pc_desc);
   PcDesc* find_pc_desc(int pc_offset, bool approximate);
   void    add_pc_desc(PcDesc* pc_desc);
   PcDesc* last_pc_desc() { return _pc_descs[0]; }
 };
 // nmethods (native methods) are the compiled code versions of Java methods.
 //
 // An nmethod contains:
 //  - header                 (the nmethod structure)
 //  [Relocation]
 //  - relocation information
 //  - constant part          (doubles, longs and floats used in nmethod)
 //  - oop table
 //  [Code]
 //  - code body
 //  - exception handler
 //  - stub code
 //  [Debugging information]
 //  - oop array
 //  - data array
 //  - pcs
 //  [Exception handler table]
 //  - handler entry point array
 //  [Implicit Null Pointer exception table]
 //  - implicit null table array
 class Dependencies;
 class ExceptionHandlerTable;
 class ImplicitExceptionTable;
 class AbstractCompiler;
 class xmlStream;
 class nmethod : public CodeBlob {
   friend class VMStructs;
   friend class NMethodSweeper;
   friend class CodeCache;  // scavengable oops
  private:
   // Shared fields for all nmethod's
   Method*   _method;
   int       _entry_bci;        // != InvocationEntryBci if this nmethod is an on-stack replacement method
   jmethodID _jmethod_id;       // Cache of method()->jmethod_id()
   // To support simple linked-list chaining of nmethods:
   nmethod*  _osr_link;         // from InstanceKlass::osr_nmethods_head
   nmethod*  _scavenge_root_link; // from CodeCache::scavenge_root_nmethods
   static nmethod* volatile _oops_do_mark_nmethods;
   nmethod*        volatile _oops_do_mark_link;
   AbstractCompiler* _compiler; // The compiler which compiled this nmethod
   // offsets for entry points
   address _entry_point;                      // entry point with class check
   address _verified_entry_point;             // entry point without class check
   address _osr_entry_point;                  // entry point for on stack replacement
   // Offsets for different nmethod parts
   int _exception_offset;
   // All deoptee's will resume execution at this location described by
   // this offset.
   int _deoptimize_offset;
   // All deoptee's at a MethodHandle call site will resume execution
   // at this location described by this offset.
   int _deoptimize_mh_offset;
   // Offset of the unwind handler if it exists
   int _unwind_handler_offset;
 #ifdef HAVE_DTRACE_H
   int _trap_offset;
 #endif // def HAVE_DTRACE_H
   int _consts_offset;
   int _stub_offset;
   int _oops_offset;                       // offset to where embedded oop table begins (inside data)
   int _metadata_offset;                   // embedded meta data table
   int _scopes_data_offset;
   int _scopes_pcs_offset;
   int _dependencies_offset;
   int _handler_table_offset;
   int _nul_chk_table_offset;
   int _nmethod_end_offset;
   // location in frame (offset for sp) that deopt can store the original
   // pc during a deopt.
   int _orig_pc_offset;
   int _compile_id;                           // which compilation made this nmethod
   int _comp_level;                           // compilation level
   // protected by CodeCache_lock
   bool _has_flushed_dependencies;            // Used for maintenance of dependencies (CodeCache_lock)
   bool _marked_for_reclamation;              // Used by NMethodSweeper (set only by sweeper)
   bool _marked_for_deoptimization;           // Used for stack deoptimization
   // used by jvmti to track if an unload event has been posted for this nmethod.
   bool _unload_reported;
   // set during construction
   unsigned int _has_unsafe_access:1;         // May fault due to unsafe access.
   unsigned int _has_method_handle_invokes:1; // Has this method MethodHandle invokes?
   unsigned int _lazy_critical_native:1;      // Lazy JNI critical native
   unsigned int _has_wide_vectors:1;          // Preserve wide vectors at safepoints
   // Protected by Patching_lock
   volatile unsigned char _state;             // {alive, not_entrant, zombie, unloaded}
 #ifdef ASSERT
   bool _oops_are_stale;  // indicates that it's no longer safe to access oops section
 #endif
   enum { in_use       = 0,   // executable nmethod
          not_entrant  = 1,   // marked for deoptimization but activations may still exist,
                              // will be transformed to zombie when all activations are gone
          zombie       = 2,   // no activations exist, nmethod is ready for purge
          unloaded     = 3 }; // there should be no activations, should not be called,
                              // will be transformed to zombie immediately
   jbyte _scavenge_root_state;
 #if INCLUDE_RTM_OPT
   // RTM state at compile time. Used during deoptimization to decide
   // whether to restart collecting RTM locking abort statistic again.
   RTMState _rtm_state;
 #endif
   // Nmethod Flushing lock. If non-zero, then the nmethod is not removed
   // and is not made into a zombie. However, once the nmethod is made into
   // a zombie, it will be locked one final time if CompiledMethodUnload
   // event processing needs to be done.
   jint  _lock_count;
   // not_entrant method removal. Each mark_sweep pass will update
   // this mark to current sweep invocation count if it is seen on the
   // stack.  An not_entrant method can be removed when there are no
   // more activations, i.e., when the _stack_traversal_mark is less than
   // current sweep traversal index.
   long _stack_traversal_mark;
   // The _hotness_counter indicates the hotness of a method. The higher
   // the value the hotter the method. The hotness counter of a nmethod is
   // set to [(ReservedCodeCacheSize / (1024 * 1024)) * 2] each time the method
   // is active while stack scanning (mark_active_nmethods()). The hotness
   // counter is decreased (by 1) while sweeping.
   int _hotness_counter;
   ExceptionCache *_exception_cache;
   PcDescCache     _pc_desc_cache;
   // These are used for compiled synchronized native methods to
   // locate the owner and stack slot for the BasicLock so that we can
   // properly revoke the bias of the owner if necessary. They are
   // needed because there is no debug information for compiled native
   // wrappers and the oop maps are insufficient to allow
   // frame::retrieve_receiver() to work. Currently they are expected
   // to be byte offsets from the Java stack pointer for maximum code
   // sharing between platforms. Note that currently biased locking
   // will never cause Class instances to be biased but this code
   // handles the static synchronized case as well.
   // JVMTI's GetLocalInstance() also uses these offsets to find the receiver
   // for non-static native wrapper frames.
   ByteSize _native_receiver_sp_offset;
   ByteSize _native_basic_lock_sp_offset;
   friend class nmethodLocker;
   // For native wrappers
   nmethod(Method* method,
           int nmethod_size,
           int compile_id,
           CodeOffsets* offsets,
           CodeBuffer *code_buffer,
           int frame_size,
           ByteSize basic_lock_owner_sp_offset, /* synchronized natives only */
           ByteSize basic_lock_sp_offset,       /* synchronized natives only */
           OopMapSet* oop_maps);
 #ifdef HAVE_DTRACE_H
   // For native wrappers
   nmethod(Method* method,
           int nmethod_size,
           CodeOffsets* offsets,
           CodeBuffer *code_buffer,
           int frame_size);
 #endif // def HAVE_DTRACE_H
   // Creation support
   nmethod(Method* method,
           int nmethod_size,
           int compile_id,
           int entry_bci,
           CodeOffsets* offsets,
           int orig_pc_offset,
           DebugInformationRecorder *recorder,
           Dependencies* dependencies,
           CodeBuffer *code_buffer,
           int frame_size,
           OopMapSet* oop_maps,
           ExceptionHandlerTable* handler_table,
           ImplicitExceptionTable* nul_chk_table,
           AbstractCompiler* compiler,
           int comp_level);
   // helper methods
   void* operator new(size_t size, int nmethod_size) throw();
   const char* reloc_string_for(u_char* begin, u_char* end);
   // Returns true if this thread changed the state of the nmethod or
   // false if another thread performed the transition.
   bool make_not_entrant_or_zombie(unsigned int state);
   void inc_decompile_count();
   // Used to manipulate the exception cache
   void add_exception_cache_entry(ExceptionCache* new_entry);
   ExceptionCache* exception_cache_entry_for_exception(Handle exception);
   // Inform external interfaces that a compiled method has been unloaded
   void post_compiled_method_unload();
   // Initailize fields to their default values
   void init_defaults();
  public:
   // create nmethod with entry_bci
   static nmethod* new_nmethod(methodHandle method,
                               int compile_id,
                               int entry_bci,
                               CodeOffsets* offsets,
                               int orig_pc_offset,
                               DebugInformationRecorder* recorder,
                               Dependencies* dependencies,
                               CodeBuffer *code_buffer,
                               int frame_size,
                               OopMapSet* oop_maps,
                               ExceptionHandlerTable* handler_table,
                               ImplicitExceptionTable* nul_chk_table,
                               AbstractCompiler* compiler,
                               int comp_level);
   static nmethod* new_native_nmethod(methodHandle method,
                                      int compile_id,
                                      CodeBuffer *code_buffer,
                                      int vep_offset,
                                      int frame_complete,
                                      int frame_size,
                                      ByteSize receiver_sp_offset,
                                      ByteSize basic_lock_sp_offset,
                                      OopMapSet* oop_maps);
 #ifdef HAVE_DTRACE_H
   // The method we generate for a dtrace probe has to look
   // like an nmethod as far as the rest of the system is concerned
   // which is somewhat unfortunate.
   static nmethod* new_dtrace_nmethod(methodHandle method,
                                      CodeBuffer *code_buffer,
                                      int vep_offset,
                                      int trap_offset,
                                      int frame_complete,
                                      int frame_size);
   int trap_offset() const      { return _trap_offset; }
   address trap_address() const { return insts_begin() + _trap_offset; }
 #endif // def HAVE_DTRACE_H
   // accessors
   Method* method() const                          { return _method; }
   AbstractCompiler* compiler() const              { return _compiler; }
   // type info
   bool is_nmethod() const                         { return true; }
   bool is_java_method() const                     { return !method()->is_native(); }
   bool is_native_method() const                   { return method()->is_native(); }
   bool is_osr_method() const                      { return _entry_bci != InvocationEntryBci; }
   bool is_compiled_by_c1() const;
   bool is_compiled_by_c2() const;
   bool is_compiled_by_shark() const;
   // boundaries for different parts
   address consts_begin          () const          { return           header_begin() + _consts_offset        ; }
   address consts_end            () const          { return           header_begin() +  code_offset()        ; }
   address insts_begin           () const          { return           header_begin() +  code_offset()        ; }
   address insts_end             () const          { return           header_begin() + _stub_offset          ; }
   address stub_begin            () const          { return           header_begin() + _stub_offset          ; }
   address stub_end              () const          { return           header_begin() + _oops_offset          ; }
   address exception_begin       () const          { return           header_begin() + _exception_offset     ; }
   address deopt_handler_begin   () const          { return           header_begin() + _deoptimize_offset    ; }
   address deopt_mh_handler_begin() const          { return           header_begin() + _deoptimize_mh_offset ; }
   address unwind_handler_begin  () const          { return _unwind_handler_offset != -1 ? (header_begin() + _unwind_handler_offset) : NULL; }
   oop*    oops_begin            () const          { return (oop*)   (header_begin() + _oops_offset)         ; }
   oop*    oops_end              () const          { return (oop*)   (header_begin() + _metadata_offset)     ; }
   Metadata** metadata_begin   () const            { return (Metadata**)  (header_begin() + _metadata_offset)     ; }
   Metadata** metadata_end     () const            { return (Metadata**)  (header_begin() + _scopes_data_offset)  ; }
   address scopes_data_begin     () const          { return           header_begin() + _scopes_data_offset   ; }
   address scopes_data_end       () const          { return           header_begin() + _scopes_pcs_offset    ; }
   PcDesc* scopes_pcs_begin      () const          { return (PcDesc*)(header_begin() + _scopes_pcs_offset   ); }
   PcDesc* scopes_pcs_end        () const          { return (PcDesc*)(header_begin() + _dependencies_offset) ; }
   address dependencies_begin    () const          { return           header_begin() + _dependencies_offset  ; }
   address dependencies_end      () const          { return           header_begin() + _handler_table_offset ; }
   address handler_table_begin   () const          { return           header_begin() + _handler_table_offset ; }
   address handler_table_end     () const          { return           header_begin() + _nul_chk_table_offset ; }
   address nul_chk_table_begin   () const          { return           header_begin() + _nul_chk_table_offset ; }
   address nul_chk_table_end     () const          { return           header_begin() + _nmethod_end_offset   ; }
   // Sizes
   int consts_size       () const                  { return            consts_end       () -            consts_begin       (); }
   int insts_size        () const                  { return            insts_end        () -            insts_begin        (); }
   int stub_size         () const                  { return            stub_end         () -            stub_begin         (); }
   int oops_size         () const                  { return (address)  oops_end         () - (address)  oops_begin         (); }
   int metadata_size     () const                  { return (address)  metadata_end     () - (address)  metadata_begin     (); }
   int scopes_data_size  () const                  { return            scopes_data_end  () -            scopes_data_begin  (); }
   int scopes_pcs_size   () const                  { return (intptr_t) scopes_pcs_end   () - (intptr_t) scopes_pcs_begin   (); }
   int dependencies_size () const                  { return            dependencies_end () -            dependencies_begin (); }
   int handler_table_size() const                  { return            handler_table_end() -            handler_table_begin(); }
   int nul_chk_table_size() const                  { return            nul_chk_table_end() -            nul_chk_table_begin(); }
   int total_size        () const;
   void dec_hotness_counter()        { _hotness_counter--; }
   void set_hotness_counter(int val) { _hotness_counter = val; }
   int  hotness_counter() const      { return _hotness_counter; }
   // Containment
   bool consts_contains       (address addr) const { return consts_begin       () <= addr && addr < consts_end       (); }
   bool insts_contains        (address addr) const { return insts_begin        () <= addr && addr < insts_end        (); }
   bool stub_contains         (address addr) const { return stub_begin         () <= addr && addr < stub_end         (); }
   bool oops_contains         (oop*    addr) const { return oops_begin         () <= addr && addr < oops_end         (); }
   bool metadata_contains     (Metadata** addr) const   { return metadata_begin     () <= addr && addr < metadata_end     (); }
   bool scopes_data_contains  (address addr) const { return scopes_data_begin  () <= addr && addr < scopes_data_end  (); }
   bool scopes_pcs_contains   (PcDesc* addr) const { return scopes_pcs_begin   () <= addr && addr < scopes_pcs_end   (); }
   bool handler_table_contains(address addr) const { return handler_table_begin() <= addr && addr < handler_table_end(); }
   bool nul_chk_table_contains(address addr) const { return nul_chk_table_begin() <= addr && addr < nul_chk_table_end(); }
   // entry points
   address entry_point() const                     { return _entry_point;             } // normal entry point
   address verified_entry_point() const            { return _verified_entry_point;    } // if klass is correct
   // flag accessing and manipulation
   bool  is_in_use() const                         { return _state == in_use; }
   bool  is_alive() const                          { return _state == in_use || _state == not_entrant; }
   bool  is_not_entrant() const                    { return _state == not_entrant; }
   bool  is_zombie() const                         { return _state == zombie; }
   bool  is_unloaded() const                       { return _state == unloaded;   }
 #if INCLUDE_RTM_OPT
   // rtm state accessing and manipulating
   RTMState  rtm_state() const                     { return _rtm_state; }
   void set_rtm_state(RTMState state)              { _rtm_state = state; }
 #endif
   // Make the nmethod non entrant. The nmethod will continue to be
   // alive.  It is used when an uncommon trap happens.  Returns true
   // if this thread changed the state of the nmethod or false if
   // another thread performed the transition.
   bool  make_not_entrant() { return make_not_entrant_or_zombie(not_entrant); }
   bool  make_zombie()      { return make_not_entrant_or_zombie(zombie); }
   // used by jvmti to track if the unload event has been reported
   bool  unload_reported()                         { return _unload_reported; }
   void  set_unload_reported()                     { _unload_reported = true; }
   bool  is_marked_for_deoptimization() const      { return _marked_for_deoptimization; }
   void  mark_for_deoptimization()                 { _marked_for_deoptimization = true; }
   void  make_unloaded(BoolObjectClosure* is_alive, oop cause);
   bool has_dependencies()                         { return dependencies_size() != 0; }
   void flush_dependencies(BoolObjectClosure* is_alive);
   bool has_flushed_dependencies()                 { return _has_flushed_dependencies; }
   void set_has_flushed_dependencies()             {
     assert(!has_flushed_dependencies(), "should only happen once");
     _has_flushed_dependencies = 1;
   }
   bool  is_marked_for_reclamation() const         { return _marked_for_reclamation; }
   void  mark_for_reclamation()                    { _marked_for_reclamation = 1; }
   bool  has_unsafe_access() const                 { return _has_unsafe_access; }
   void  set_has_unsafe_access(bool z)             { _has_unsafe_access = z; }
   bool  has_method_handle_invokes() const         { return _has_method_handle_invokes; }
   void  set_has_method_handle_invokes(bool z)     { _has_method_handle_invokes = z; }
   bool  is_lazy_critical_native() const           { return _lazy_critical_native; }
   void  set_lazy_critical_native(bool z)          { _lazy_critical_native = z; }
   bool  has_wide_vectors() const                  { return _has_wide_vectors; }
   void  set_has_wide_vectors(bool z)              { _has_wide_vectors = z; }
   int   comp_level() const                        { return _comp_level; }
   // Support for oops in scopes and relocs:
   // Note: index 0 is reserved for null.
   oop   oop_at(int index) const                   { return index == 0 ? (oop) NULL: *oop_addr_at(index); }
   oop*  oop_addr_at(int index) const {  // for GC
     // relocation indexes are biased by 1 (because 0 is reserved)
     assert(index > 0 && index <= oops_size(), "must be a valid non-zero index");
     assert(!_oops_are_stale, "oops are stale");
     return &oops_begin()[index - 1];
   }
   // Support for meta data in scopes and relocs:
   // Note: index 0 is reserved for null.
   Metadata*     metadata_at(int index) const      { return index == 0 ? NULL: *metadata_addr_at(index); }
   Metadata**  metadata_addr_at(int index) const {  // for GC
     // relocation indexes are biased by 1 (because 0 is reserved)
     assert(index > 0 && index <= metadata_size(), "must be a valid non-zero index");
     return &metadata_begin()[index - 1];
   }
   void copy_values(GrowableArray<jobject>* oops);
   void copy_values(GrowableArray<Metadata*>* metadata);
   // Relocation support
 private:
   void fix_oop_relocations(address begin, address end, bool initialize_immediates);
   inline void initialize_immediate_oop(oop* dest, jobject handle);
 public:
   void fix_oop_relocations(address begin, address end) { fix_oop_relocations(begin, end, false); }
   void fix_oop_relocations()                           { fix_oop_relocations(NULL, NULL, false); }
   void verify_oop_relocations();
   bool is_at_poll_return(address pc);
   bool is_at_poll_or_poll_return(address pc);
   // Scavengable oop support
   bool  on_scavenge_root_list() const                  { return (_scavenge_root_state & 1) != 0; }
  protected:
   enum { sl_on_list = 0x01, sl_marked = 0x10 };
   void  set_on_scavenge_root_list()                    { _scavenge_root_state = sl_on_list; }
   void  clear_on_scavenge_root_list()                  { _scavenge_root_state = 0; }
   // assertion-checking and pruning logic uses the bits of _scavenge_root_state
 #ifndef PRODUCT
   void  set_scavenge_root_marked()                     { _scavenge_root_state |= sl_marked; }
   void  clear_scavenge_root_marked()                   { _scavenge_root_state &= ~sl_marked; }
   bool  scavenge_root_not_marked()                     { return (_scavenge_root_state &~ sl_on_list) == 0; }
   // N.B. there is no positive marked query, and we only use the not_marked query for asserts.
 #endif //PRODUCT
   nmethod* scavenge_root_link() const                  { return _scavenge_root_link; }
   void     set_scavenge_root_link(nmethod *n)          { _scavenge_root_link = n; }
  public:
   // Sweeper support
   long  stack_traversal_mark()                    { return _stack_traversal_mark; }
   void  set_stack_traversal_mark(long l)          { _stack_traversal_mark = l; }
   // Exception cache support
   ExceptionCache* exception_cache() const         { return _exception_cache; }
   void set_exception_cache(ExceptionCache *ec)    { _exception_cache = ec; }
   address handler_for_exception_and_pc(Handle exception, address pc);
   void add_handler_for_exception_and_pc(Handle exception, address pc, address handler);
   void clean_exception_cache(BoolObjectClosure* is_alive);
   // implicit exceptions support
   address continuation_for_implicit_exception(address pc);
   // On-stack replacement support
   int   osr_entry_bci() const                     { assert(is_osr_method(), "wrong kind of nmethod"); return _entry_bci; }
   address  osr_entry() const                      { assert(is_osr_method(), "wrong kind of nmethod"); return _osr_entry_point; }
   void  invalidate_osr_method();
   nmethod* osr_link() const                       { return _osr_link; }
   void     set_osr_link(nmethod *n)               { _osr_link = n; }
   // tells whether frames described by this nmethod can be deoptimized
   // note: native wrappers cannot be deoptimized.
   bool can_be_deoptimized() const { return is_java_method(); }
   // Inline cache support
   void clear_inline_caches();
   void cleanup_inline_caches();
   bool inlinecache_check_contains(address addr) const {
     return (addr >= code_begin() && addr < verified_entry_point());
   }
   // Check that all metadata is still alive
   void verify_metadata_loaders(address low_boundary, BoolObjectClosure* is_alive);
   // unlink and deallocate this nmethod
   // Only NMethodSweeper class is expected to use this. NMethodSweeper is not
   // expected to use any other private methods/data in this class.
  protected:
   void flush();
  public:
   // When true is returned, it is unsafe to remove this nmethod even if
   // it is a zombie, since the VM or the ServiceThread might still be
   // using it.
   bool is_locked_by_vm() const                    { return _lock_count >0; }
   // See comment at definition of _last_seen_on_stack
   void mark_as_seen_on_stack();
   bool can_not_entrant_be_converted();
   // Evolution support. We make old (discarded) compiled methods point to new Method*s.
   void set_method(Method* method) { _method = method; }
   // GC support
   void do_unloading(BoolObjectClosure* is_alive, bool unloading_occurred);
   bool can_unload(BoolObjectClosure* is_alive, oop* root, bool unloading_occurred);
   void preserve_callee_argument_oops(frame fr, const RegisterMap *reg_map,
                                      OopClosure* f);
   void oops_do(OopClosure* f) { oops_do(f, false); }
   void oops_do(OopClosure* f, bool allow_zombie);
   bool detect_scavenge_root_oops();
   void verify_scavenge_root_oops() PRODUCT_RETURN;
   bool test_set_oops_do_mark();
   static void oops_do_marking_prologue();
   static void oops_do_marking_epilogue();
   static bool oops_do_marking_is_active() { return _oops_do_mark_nmethods != NULL; }
   bool test_oops_do_mark() { return _oops_do_mark_link != NULL; }
   // ScopeDesc for an instruction
   ScopeDesc* scope_desc_at(address pc);
  private:
   ScopeDesc* scope_desc_in(address begin, address end);
   address* orig_pc_addr(const frame* fr) { return (address*) ((address)fr->unextended_sp() + _orig_pc_offset); }
   PcDesc* find_pc_desc_internal(address pc, bool approximate);
   PcDesc* find_pc_desc(address pc, bool approximate) {
     PcDesc* desc = _pc_desc_cache.last_pc_desc();
     if (desc != NULL && desc->pc_offset() == pc - code_begin()) {
       return desc;
     }
     return find_pc_desc_internal(pc, approximate);
   }
  public:
   // ScopeDesc retrieval operation
   PcDesc* pc_desc_at(address pc)   { return find_pc_desc(pc, false); }
   // pc_desc_near returns the first PcDesc at or after the givne pc.
   PcDesc* pc_desc_near(address pc) { return find_pc_desc(pc, true); }
  public:
   // copying of debugging information
   void copy_scopes_pcs(PcDesc* pcs, int count);
   void copy_scopes_data(address buffer, int size);
   // Deopt
   // Return true is the PC is one would expect if the frame is being deopted.
   bool is_deopt_pc      (address pc) { return is_deopt_entry(pc) || is_deopt_mh_entry(pc); }
   bool is_deopt_entry   (address pc) { return pc == deopt_handler_begin(); }
   bool is_deopt_mh_entry(address pc) { return pc == deopt_mh_handler_begin(); }
   // Accessor/mutator for the original pc of a frame before a frame was deopted.
   address get_original_pc(const frame* fr) { return *orig_pc_addr(fr); }
   void    set_original_pc(const frame* fr, address pc) { *orig_pc_addr(fr) = pc; }
   static address get_deopt_original_pc(const frame* fr);
   // MethodHandle
   bool is_method_handle_return(address return_pc);
   // jvmti support:
   void post_compiled_method_load_event();
   jmethodID get_and_cache_jmethod_id();
   // verify operations
   void verify();
   void verify_scopes();
   void verify_interrupt_point(address interrupt_point);
   // printing support
   void print()                          const;
   void print_code();
   void print_relocations()                        PRODUCT_RETURN;
   void print_pcs()                                PRODUCT_RETURN;
   void print_scopes()                             PRODUCT_RETURN;
   void print_dependencies()                       PRODUCT_RETURN;
   void print_value_on(outputStream* st) const     PRODUCT_RETURN;
   void print_calls(outputStream* st)              PRODUCT_RETURN;
   void print_handler_table()                      PRODUCT_RETURN;
   void print_nul_chk_table()                      PRODUCT_RETURN;
   void print_nmethod(bool print_code);
   // need to re-define this from CodeBlob else the overload hides it
   virtual void print_on(outputStream* st) const { CodeBlob::print_on(st); }
   void print_on(outputStream* st, const char* msg) const;
   // Logging
   void log_identity(xmlStream* log) const;
   void log_new_nmethod() const;
   void log_state_change() const;
   // Prints block-level comments, including nmethod specific block labels:
   virtual void print_block_comment(outputStream* stream, address block_begin) const {
     print_nmethod_labels(stream, block_begin);
     CodeBlob::print_block_comment(stream, block_begin);
   }
   void print_nmethod_labels(outputStream* stream, address block_begin) const;
   // Prints a comment for one native instruction (reloc info, pc desc)
   void print_code_comment_on(outputStream* st, int column, address begin, address end);
   static void print_statistics()                  PRODUCT_RETURN;
   // Compiler task identification.  Note that all OSR methods
   // are numbered in an independent sequence if CICountOSR is true,
   // and native method wrappers are also numbered independently if
   // CICountNative is true.
   int  compile_id() const                         { return _compile_id; }
   const char* compile_kind() const;
   // For debugging
   // CompiledIC*    IC_at(char* p) const;
   // PrimitiveIC*   primitiveIC_at(char* p) const;
   oop embeddedOop_at(address p);
   // tells if any of this method's dependencies have been invalidated
   // (this is expensive!)
   bool check_all_dependencies();
   // tells if this compiled method is dependent on the given changes,
   // and the changes have invalidated it
   bool check_dependency_on(DepChange& changes);
   // Evolution support. Tells if this compiled method is dependent on any of
   // methods m() of class dependee, such that if m() in dependee is replaced,
   // this compiled method will have to be deoptimized.
   bool is_evol_dependent_on(Klass* dependee);
   // Fast breakpoint support. Tells if this compiled method is
   // dependent on the given method. Returns true if this nmethod
   // corresponds to the given method as well.
   bool is_dependent_on_method(Method* dependee);
   // is it ok to patch at address?
   bool is_patchable_at(address instr_address);
   // UseBiasedLocking support
   ByteSize native_receiver_sp_offset() {
     return _native_receiver_sp_offset;
   }
   ByteSize native_basic_lock_sp_offset() {
     return _native_basic_lock_sp_offset;
   }
   // support for code generation
   static int verified_entry_point_offset()        { return offset_of(nmethod, _verified_entry_point); }
   static int osr_entry_point_offset()             { return offset_of(nmethod, _osr_entry_point); }
   static int entry_bci_offset()                   { return offset_of(nmethod, _entry_bci); }
   // RedefineClasses support.   Mark metadata in nmethods as on_stack so that
   // redefine classes doesn't purge it.
   static void mark_on_stack(nmethod* nm) {
     nm->metadata_do(Metadata::mark_on_stack);
   }
   void metadata_do(void f(Metadata*));
 };
 // Locks an nmethod so its code will not get removed and it will not
 // be made into a zombie, even if it is a not_entrant method. After the
 // nmethod becomes a zombie, if CompiledMethodUnload event processing
 // needs to be done, then lock_nmethod() is used directly to keep the
 // generated code from being reused too early.
 class nmethodLocker : public StackObj {
   nmethod* _nm;
  public:
   // note: nm can be NULL
   // Only JvmtiDeferredEvent::compiled_method_unload_event()
   // should pass zombie_ok == true.
   static void lock_nmethod(nmethod* nm, bool zombie_ok = false);
   static void unlock_nmethod(nmethod* nm); // (ditto)
   nmethodLocker(address pc); // derive nm from pc
   nmethodLocker(nmethod *nm) { _nm = nm; lock_nmethod(_nm); }
   nmethodLocker() { _nm = NULL; }
   ~nmethodLocker() { unlock_nmethod(_nm); }
   nmethod* code() { return _nm; }
   void set_code(nmethod* new_nm) {
     unlock_nmethod(_nm);   // note:  This works even if _nm==new_nm.
     _nm = new_nm;
     lock_nmethod(_nm);
   }
 };
 #endif // SHARE_VM_CODE_NMETHOD_HPP

Mercurial > jdk8-mips64-public > hotspot / annotate

src/share/vm/code/nmethod.hpp@c64b6b0c40c8 (annotated)

src/share/vm/code/nmethod.hpp