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src/hotspot/share/opto/callGenerator.cpp

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  12  * version 2 for more details (a copy is included in the LICENSE file that
  13  * accompanied this code).
  14  *
  15  * You should have received a copy of the GNU General Public License version
  16  * 2 along with this work; if not, write to the Free Software Foundation,
  17  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  18  *
  19  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  20  * or visit www.oracle.com if you need additional information or have any
  21  * questions.
  22  *
  23  */
  24 
  25 #include "ci/bcEscapeAnalyzer.hpp"
  26 #include "ci/ciCallSite.hpp"
  27 #include "ci/ciMemberName.hpp"
  28 #include "ci/ciMethodHandle.hpp"
  29 #include "ci/ciObjArray.hpp"
  30 #include "classfile/javaClasses.hpp"
  31 #include "compiler/compileLog.hpp"

  32 #include "opto/addnode.hpp"
  33 #include "opto/callGenerator.hpp"
  34 #include "opto/callnode.hpp"
  35 #include "opto/castnode.hpp"
  36 #include "opto/cfgnode.hpp"

  37 #include "opto/parse.hpp"
  38 #include "opto/rootnode.hpp"
  39 #include "opto/runtime.hpp"
  40 #include "opto/subnode.hpp"
  41 #include "runtime/os.inline.hpp"
  42 #include "runtime/sharedRuntime.hpp"
  43 #include "utilities/debug.hpp"
  44 
  45 // Utility function.
  46 const TypeFunc* CallGenerator::tf() const {
  47   return TypeFunc::make(method());
  48 }
  49 
  50 bool CallGenerator::is_inlined_method_handle_intrinsic(JVMState* jvms, ciMethod* m) {
  51   return is_inlined_method_handle_intrinsic(jvms->method(), jvms->bci(), m);
  52 }
  53 
  54 bool CallGenerator::is_inlined_method_handle_intrinsic(ciMethod* caller, int bci, ciMethod* m) {
  55   ciMethod* symbolic_info = caller->get_method_at_bci(bci);
  56   return is_inlined_method_handle_intrinsic(symbolic_info, m);
  57 }
  58 
  59 bool CallGenerator::is_inlined_method_handle_intrinsic(ciMethod* symbolic_info, ciMethod* m) {
  60   return symbolic_info->is_method_handle_intrinsic() && !m->is_method_handle_intrinsic();
  61 }
  62 




























  63 //-----------------------------ParseGenerator---------------------------------
  64 // Internal class which handles all direct bytecode traversal.
  65 class ParseGenerator : public InlineCallGenerator {
  66 private:
  67   bool  _is_osr;
  68   float _expected_uses;
  69 
  70 public:
  71   ParseGenerator(ciMethod* method, float expected_uses, bool is_osr = false)
  72     : InlineCallGenerator(method)
  73   {
  74     _is_osr        = is_osr;
  75     _expected_uses = expected_uses;
  76     assert(InlineTree::check_can_parse(method) == nullptr, "parse must be possible");
  77   }
  78 
  79   virtual bool      is_parse() const           { return true; }
  80   virtual JVMState* generate(JVMState* jvms);
  81   bool              is_osr() const             { return _is_osr; }
  82 

 101   GraphKit& exits = parser.exits();
 102 
 103   if (C->failing()) {
 104     while (exits.pop_exception_state() != nullptr) ;
 105     return nullptr;
 106   }
 107 
 108   assert(exits.jvms()->same_calls_as(jvms), "sanity");
 109 
 110   // Simply return the exit state of the parser,
 111   // augmented by any exceptional states.
 112   return exits.transfer_exceptions_into_jvms();
 113 }
 114 
 115 //---------------------------DirectCallGenerator------------------------------
 116 // Internal class which handles all out-of-line calls w/o receiver type checks.
 117 class DirectCallGenerator : public CallGenerator {
 118  private:
 119   CallStaticJavaNode* _call_node;
 120   // Force separate memory and I/O projections for the exceptional
 121   // paths to facilitate late inlinig.
 122   bool                _separate_io_proj;
 123 
 124 protected:
 125   void set_call_node(CallStaticJavaNode* call) { _call_node = call; }
 126 
 127  public:
 128   DirectCallGenerator(ciMethod* method, bool separate_io_proj)
 129     : CallGenerator(method),

 130       _separate_io_proj(separate_io_proj)
 131   {








 132   }
 133   virtual JVMState* generate(JVMState* jvms);
 134 
 135   virtual CallNode* call_node() const { return _call_node; }
 136   virtual CallGenerator* with_call_node(CallNode* call) {
 137     DirectCallGenerator* dcg = new DirectCallGenerator(method(), _separate_io_proj);
 138     dcg->set_call_node(call->as_CallStaticJava());
 139     return dcg;
 140   }
 141 };
 142 
 143 JVMState* DirectCallGenerator::generate(JVMState* jvms) {
 144   GraphKit kit(jvms);
 145   bool is_static = method()->is_static();
 146   address target = is_static ? SharedRuntime::get_resolve_static_call_stub()
 147                              : SharedRuntime::get_resolve_opt_virtual_call_stub();
 148 
 149   if (kit.C->log() != nullptr) {
 150     kit.C->log()->elem("direct_call bci='%d'", jvms->bci());
 151   }

 156     // additional information about the method being invoked should be attached
 157     // to the call site to make resolution logic work
 158     // (see SharedRuntime::resolve_static_call_C).
 159     call->set_override_symbolic_info(true);
 160   }
 161   _call_node = call;  // Save the call node in case we need it later
 162   if (!is_static) {
 163     // Make an explicit receiver null_check as part of this call.
 164     // Since we share a map with the caller, his JVMS gets adjusted.
 165     kit.null_check_receiver_before_call(method());
 166     if (kit.stopped()) {
 167       // And dump it back to the caller, decorated with any exceptions:
 168       return kit.transfer_exceptions_into_jvms();
 169     }
 170     // Mark the call node as virtual, sort of:
 171     call->set_optimized_virtual(true);
 172   }
 173   kit.set_arguments_for_java_call(call);
 174   kit.set_edges_for_java_call(call, false, _separate_io_proj);
 175   Node* ret = kit.set_results_for_java_call(call, _separate_io_proj);
 176   if (is_late_inline() && !call->is_boxing_method() && ret->is_Proj()) {
 177     // If late inlining for this call happens in a dead part of the graph it can leave a dead loop behind
 178     ret->mark_not_dead_loop_safe();
 179   }
 180   kit.push_node(method()->return_type()->basic_type(), ret);
 181   return kit.transfer_exceptions_into_jvms();
 182 }
 183 
 184 //--------------------------VirtualCallGenerator------------------------------
 185 // Internal class which handles all out-of-line calls checking receiver type.
 186 class VirtualCallGenerator : public CallGenerator {
 187 private:
 188   int _vtable_index;
 189   bool _separate_io_proj;
 190   CallDynamicJavaNode* _call_node;
 191 
 192 protected:
 193   void set_call_node(CallDynamicJavaNode* call) { _call_node = call; }
 194 
 195 public:
 196   VirtualCallGenerator(ciMethod* method, int vtable_index, bool separate_io_proj)
 197     : CallGenerator(method), _vtable_index(vtable_index), _separate_io_proj(separate_io_proj), _call_node(nullptr)
 198   {
 199     assert(vtable_index == Method::invalid_vtable_index ||
 200            vtable_index >= 0, "either invalid or usable");
 201   }
 202   virtual bool      is_virtual() const          { return true; }
 203   virtual JVMState* generate(JVMState* jvms);
 204 
 205   virtual CallNode* call_node() const { return _call_node; }
 206   int vtable_index() const { return _vtable_index; }
 207 
 208   virtual CallGenerator* with_call_node(CallNode* call) {
 209     VirtualCallGenerator* cg = new VirtualCallGenerator(method(), _vtable_index, _separate_io_proj);
 210     cg->set_call_node(call->as_CallDynamicJava());
 211     return cg;
 212   }
 213 };
 214 
 215 JVMState* VirtualCallGenerator::generate(JVMState* jvms) {
 216   GraphKit kit(jvms);
 217   Node* receiver = kit.argument(0);
 218 
 219   if (kit.C->log() != nullptr) {
 220     kit.C->log()->elem("virtual_call bci='%d'", jvms->bci());
 221   }
 222 
 223   // If the receiver is a constant null, do not torture the system
 224   // by attempting to call through it.  The compile will proceed
 225   // correctly, but may bail out in final_graph_reshaping, because
 226   // the call instruction will have a seemingly deficient out-count.
 227   // (The bailout says something misleading about an "infinite loop".)
 228   if (kit.gvn().type(receiver)->higher_equal(TypePtr::NULL_PTR)) {
 229     assert(Bytecodes::is_invoke(kit.java_bc()), "%d: %s", kit.java_bc(), Bytecodes::name(kit.java_bc()));
 230     ciMethod* declared_method = kit.method()->get_method_at_bci(kit.bci());
 231     int arg_size = declared_method->signature()->arg_size_for_bc(kit.java_bc());
 232     kit.inc_sp(arg_size);  // restore arguments
 233     kit.uncommon_trap(Deoptimization::Reason_null_check,
 234                       Deoptimization::Action_none,
 235                       nullptr, "null receiver");
 236     return kit.transfer_exceptions_into_jvms();
 237   }
 238 

 258   assert(!method()->is_static(), "virtual call must not be to static");
 259   assert(!method()->is_final(), "virtual call should not be to final");
 260   assert(!method()->is_private(), "virtual call should not be to private");
 261   assert(_vtable_index == Method::invalid_vtable_index || !UseInlineCaches,
 262          "no vtable calls if +UseInlineCaches ");
 263   address target = SharedRuntime::get_resolve_virtual_call_stub();
 264   // Normal inline cache used for call
 265   CallDynamicJavaNode* call = new CallDynamicJavaNode(tf(), target, method(), _vtable_index);
 266   if (is_inlined_method_handle_intrinsic(jvms, method())) {
 267     // To be able to issue a direct call (optimized virtual or virtual)
 268     // and skip a call to MH.linkTo*/invokeBasic adapter, additional information
 269     // about the method being invoked should be attached to the call site to
 270     // make resolution logic work (see SharedRuntime::resolve_{virtual,opt_virtual}_call_C).
 271     call->set_override_symbolic_info(true);
 272   }
 273   _call_node = call;  // Save the call node in case we need it later
 274 
 275   kit.set_arguments_for_java_call(call);
 276   kit.set_edges_for_java_call(call, false /*must_throw*/, _separate_io_proj);
 277   Node* ret = kit.set_results_for_java_call(call, _separate_io_proj);
 278   if (is_late_inline() && ret->is_Proj()) {
 279     // If late inlining for this call happens in a dead part of the graph it can leave a dead loop behind
 280     ret->mark_not_dead_loop_safe();
 281   }
 282   kit.push_node(method()->return_type()->basic_type(), ret);
 283 
 284   // Represent the effect of an implicit receiver null_check
 285   // as part of this call.  Since we share a map with the caller,
 286   // his JVMS gets adjusted.
 287   kit.cast_not_null(receiver);
 288   return kit.transfer_exceptions_into_jvms();
 289 }
 290 
 291 CallGenerator* CallGenerator::for_inline(ciMethod* m, float expected_uses) {
 292   if (InlineTree::check_can_parse(m) != nullptr)  return nullptr;
 293   return new ParseGenerator(m, expected_uses);
 294 }
 295 
 296 // As a special case, the JVMS passed to this CallGenerator is
 297 // for the method execution already in progress, not just the JVMS
 298 // of the caller.  Thus, this CallGenerator cannot be mixed with others!
 299 CallGenerator* CallGenerator::for_osr(ciMethod* m, int osr_bci) {
 300   if (InlineTree::check_can_parse(m) != nullptr)  return nullptr;
 301   float past_uses = m->interpreter_invocation_count();

 344     // parse is finished.
 345     if (!is_mh_late_inline()) {
 346       C->add_late_inline(this);
 347     }
 348 
 349     // Emit the CallStaticJava and request separate projections so
 350     // that the late inlining logic can distinguish between fall
 351     // through and exceptional uses of the memory and io projections
 352     // as is done for allocations and macro expansion.
 353     return DirectCallGenerator::generate(jvms);
 354   }
 355 
 356   virtual void set_unique_id(jlong id) {
 357     _unique_id = id;
 358   }
 359 
 360   virtual jlong unique_id() const {
 361     return _unique_id;
 362   }
 363 




 364   virtual CallGenerator* with_call_node(CallNode* call) {
 365     LateInlineCallGenerator* cg = new LateInlineCallGenerator(method(), _inline_cg, _is_pure_call);
 366     cg->set_call_node(call->as_CallStaticJava());
 367     return cg;
 368   }
 369 };
 370 
 371 CallGenerator* CallGenerator::for_late_inline(ciMethod* method, CallGenerator* inline_cg) {
 372   return new LateInlineCallGenerator(method, inline_cg);
 373 }
 374 
 375 class LateInlineMHCallGenerator : public LateInlineCallGenerator {
 376   ciMethod* _caller;
 377   bool _input_not_const;
 378 
 379   virtual bool do_late_inline_check(Compile* C, JVMState* jvms);
 380 
 381  public:
 382   LateInlineMHCallGenerator(ciMethod* caller, ciMethod* callee, bool input_not_const) :
 383     LateInlineCallGenerator(callee, nullptr), _caller(caller), _input_not_const(input_not_const) {}

 405     cg->set_call_node(call->as_CallStaticJava());
 406     return cg;
 407   }
 408 };
 409 
 410 bool LateInlineMHCallGenerator::do_late_inline_check(Compile* C, JVMState* jvms) {
 411   // When inlining a virtual call, the null check at the call and the call itself can throw. These 2 paths have different
 412   // expression stacks which causes late inlining to break. The MH invoker is not expected to be called from a method with
 413   // exception handlers. When there is no exception handler, GraphKit::builtin_throw() pops the stack which solves the issue
 414   // of late inlining with exceptions.
 415   assert(!jvms->method()->has_exception_handlers() ||
 416          (method()->intrinsic_id() != vmIntrinsics::_linkToVirtual &&
 417           method()->intrinsic_id() != vmIntrinsics::_linkToInterface), "no exception handler expected");
 418   // Even if inlining is not allowed, a virtual call can be strength-reduced to a direct call.
 419   bool allow_inline = C->inlining_incrementally();
 420   bool input_not_const = true;
 421   CallGenerator* cg = for_method_handle_inline(jvms, _caller, method(), allow_inline, input_not_const);
 422   assert(!input_not_const, "sanity"); // shouldn't have been scheduled for inlining in the first place
 423 
 424   if (cg != nullptr) {








 425     if (!allow_inline) {
 426       C->inline_printer()->record(cg->method(), call_node()->jvms(), InliningResult::FAILURE,
 427                                   "late method handle call resolution");
 428     }
 429     assert(!cg->is_late_inline() || cg->is_mh_late_inline() || cg->is_virtual_late_inline() ||
 430            AlwaysIncrementalInline || StressIncrementalInlining, "we're doing late inlining");
 431     _inline_cg = cg;
 432     return true;
 433   } else {
 434     // Method handle call which has a constant appendix argument should be either inlined or replaced with a direct call
 435     // unless there's a signature mismatch between caller and callee. If the failure occurs, there's not much to be improved later,
 436     // so don't reinstall the generator to avoid pushing the generator between IGVN and incremental inlining indefinitely.
 437     return false;
 438   }
 439 }
 440 
 441 CallGenerator* CallGenerator::for_mh_late_inline(ciMethod* caller, ciMethod* callee, bool input_not_const) {
 442   assert(IncrementalInlineMH, "required");
 443   Compile::current()->mark_has_mh_late_inlines();
 444   CallGenerator* cg = new LateInlineMHCallGenerator(caller, callee, input_not_const);

 565 
 566 void LateInlineMHCallGenerator::do_late_inline() {
 567   CallGenerator::do_late_inline_helper();
 568 }
 569 
 570 void LateInlineVirtualCallGenerator::do_late_inline() {
 571   assert(_callee != nullptr, "required"); // set up in CallDynamicJavaNode::Ideal
 572   CallGenerator::do_late_inline_helper();
 573 }
 574 
 575 void CallGenerator::do_late_inline_helper() {
 576   assert(is_late_inline(), "only late inline allowed");
 577 
 578   // Can't inline it
 579   CallNode* call = call_node();
 580   if (call == nullptr || call->outcnt() == 0 ||
 581       call->in(0) == nullptr || call->in(0)->is_top()) {
 582     return;
 583   }
 584 
 585   const TypeTuple *r = call->tf()->domain();
 586   for (int i1 = 0; i1 < method()->arg_size(); i1++) {
 587     if (call->in(TypeFunc::Parms + i1)->is_top() && r->field_at(TypeFunc::Parms + i1) != Type::HALF) {
 588       assert(Compile::current()->inlining_incrementally(), "shouldn't happen during parsing");
 589       return;
 590     }
 591   }
 592 
 593   if (call->in(TypeFunc::Memory)->is_top()) {
 594     assert(Compile::current()->inlining_incrementally(), "shouldn't happen during parsing");
 595     return;
 596   }
 597   if (call->in(TypeFunc::Memory)->is_MergeMem()) {
 598     MergeMemNode* merge_mem = call->in(TypeFunc::Memory)->as_MergeMem();
 599     if (merge_mem->base_memory() == merge_mem->empty_memory()) {
 600       return; // dead path
 601     }
 602   }
 603 
 604   // check for unreachable loop
 605   CallProjections callprojs;
 606   // Similar to incremental inlining, don't assert that all call
 607   // projections are still there for post-parse call devirtualization.
 608   bool do_asserts = !is_mh_late_inline() && !is_virtual_late_inline();
 609   call->extract_projections(&callprojs, true, do_asserts);
 610   if ((callprojs.fallthrough_catchproj == call->in(0)) ||
 611       (callprojs.catchall_catchproj    == call->in(0)) ||
 612       (callprojs.fallthrough_memproj   == call->in(TypeFunc::Memory)) ||
 613       (callprojs.catchall_memproj      == call->in(TypeFunc::Memory)) ||
 614       (callprojs.fallthrough_ioproj    == call->in(TypeFunc::I_O)) ||
 615       (callprojs.catchall_ioproj       == call->in(TypeFunc::I_O)) ||
 616       (callprojs.resproj != nullptr && call->find_edge(callprojs.resproj) != -1) ||
 617       (callprojs.exobj   != nullptr && call->find_edge(callprojs.exobj) != -1)) {
 618     return;
 619   }
 620 
 621   Compile* C = Compile::current();
 622 
 623   uint endoff = call->jvms()->endoff();
 624   if (C->inlining_incrementally()) {
 625     // No reachability edges should be present when incremental inlining takes place.
 626     // Inlining logic doesn't expect any extra edges past debug info and fails with
 627     // an assert in SafePointNode::grow_stack.
 628     assert(endoff == call->req(), "reachability edges not supported");
 629   } else {
 630     if (call->req() > endoff) { // reachability edges present
 631       assert(OptimizeReachabilityFences, "required");
 632       return; // keep the original call node as the holder of reachability info
 633     }
 634   }
 635 
 636   // Remove inlined methods from Compiler's lists.
 637   if (call->is_macro()) {
 638     C->remove_macro_node(call);
 639   }
 640 
 641   // The call is marked as pure (no important side effects), but result isn't used.
 642   // It's safe to remove the call.
 643   bool result_not_used = (callprojs.resproj == nullptr || callprojs.resproj->outcnt() == 0);









 644 
 645   if (is_pure_call() && result_not_used) {


 646     GraphKit kit(call->jvms());
 647     kit.replace_call(call, C->top(), true, do_asserts);
 648   } else {
 649     // Make a clone of the JVMState that appropriate to use for driving a parse
 650     JVMState* old_jvms = call->jvms();
 651     JVMState* jvms = old_jvms->clone_shallow(C);
 652     uint size = call->req();
 653     SafePointNode* map = new SafePointNode(size, jvms);
 654     for (uint i1 = 0; i1 < size; i1++) {
 655       map->init_req(i1, call->in(i1));
 656     }
 657     // Call node has in(ReturnAdr) set to top() node.
 658     // We have to set map->in(ReturnAdr) to correct value
 659     // because it is used by uncommon traps.
 660     Node* ret_adr = C->start()->proj_out_or_null(TypeFunc::ReturnAdr);
 661     precond(ret_adr != nullptr);
 662     map->set_req(TypeFunc::ReturnAdr, ret_adr);
 663 

 664     // Make sure the state is a MergeMem for parsing.
 665     if (!map->in(TypeFunc::Memory)->is_MergeMem()) {
 666       Node* mem = MergeMemNode::make(map->in(TypeFunc::Memory));
 667       C->initial_gvn()->set_type_bottom(mem);
 668       map->set_req(TypeFunc::Memory, mem);
 669     }
 670 
 671     uint nargs = method()->arg_size();
 672     // blow away old call arguments
 673     Node* top = C->top();
 674     for (uint i1 = 0; i1 < nargs; i1++) {
 675       map->set_req(TypeFunc::Parms + i1, top);
 676     }
 677     jvms->set_map(map);
 678     precond(ret_adr == jvms->map()->returnadr());
 679 
 680     // Make enough space in the expression stack to transfer
 681     // the incoming arguments and return value.
 682     map->ensure_stack(jvms, jvms->method()->max_stack());






 683     for (uint i1 = 0; i1 < nargs; i1++) {
 684       map->set_argument(jvms, i1, call->in(TypeFunc::Parms + i1));
















 685     }
 686 
 687     C->log_late_inline(this);
 688 
 689     // JVMState is ready, so time to perform some checks and prepare for inlining attempt.
 690     if (!do_late_inline_check(C, jvms)) {
 691       map->disconnect_inputs(C);
 692       return;
 693     }
 694 






















 695     // Setup default node notes to be picked up by the inlining
 696     Node_Notes* old_nn = C->node_notes_at(call->_idx);
 697     if (old_nn != nullptr) {
 698       Node_Notes* entry_nn = old_nn->clone(C);
 699       entry_nn->set_jvms(jvms);
 700       C->set_default_node_notes(entry_nn);
 701     }
 702 
 703     // Now perform the inlining using the synthesized JVMState
 704     JVMState* new_jvms = inline_cg()->generate(jvms);
 705     if (new_jvms == nullptr)  return;  // no change
 706     if (C->failing())      return;
 707 
 708     if (is_mh_late_inline()) {
 709       C->inline_printer()->record(method(), jvms, InliningResult::SUCCESS, "late inline succeeded (method handle)");
 710     } else if (is_string_late_inline()) {
 711       C->inline_printer()->record(method(), jvms, InliningResult::SUCCESS, "late inline succeeded (string method)");
 712     } else if (is_boxing_late_inline()) {
 713       C->inline_printer()->record(method(), jvms, InliningResult::SUCCESS, "late inline succeeded (boxing method)");
 714     } else if (is_vector_reboxing_late_inline()) {
 715       C->inline_printer()->record(method(), jvms, InliningResult::SUCCESS, "late inline succeeded (vector reboxing method)");
 716     } else {
 717       C->inline_printer()->record(method(), jvms, InliningResult::SUCCESS, "late inline succeeded");
 718     }
 719 
 720     // Capture any exceptional control flow
 721     GraphKit kit(new_jvms);
 722 
 723     // Find the result object
 724     Node* result = C->top();
 725     int   result_size = method()->return_type()->size();
 726     if (result_size != 0 && !kit.stopped()) {
 727       result = (result_size == 1) ? kit.pop() : kit.pop_pair();
 728     }
 729 
 730     if (call->is_CallStaticJava() && call->as_CallStaticJava()->is_boxing_method()) {

 731       result = kit.must_be_not_null(result, false);
 732     }
 733 
 734     if (inline_cg()->is_inline()) {
 735       C->set_has_loops(C->has_loops() || inline_cg()->method()->has_loops());
 736       C->env()->notice_inlined_method(inline_cg()->method());
 737     }
 738     C->set_inlining_progress(true);
 739     C->set_do_cleanup(kit.stopped()); // path is dead; needs cleanup






















































 740     kit.replace_call(call, result, true, do_asserts);
 741   }
 742 }
 743 
 744 class LateInlineStringCallGenerator : public LateInlineCallGenerator {
 745 
 746  public:
 747   LateInlineStringCallGenerator(ciMethod* method, CallGenerator* inline_cg) :
 748     LateInlineCallGenerator(method, inline_cg) {}
 749 
 750   virtual JVMState* generate(JVMState* jvms) {
 751     Compile *C = Compile::current();
 752 
 753     C->log_inline_id(this);
 754 
 755     C->add_string_late_inline(this);
 756 
 757     JVMState* new_jvms = DirectCallGenerator::generate(jvms);
 758     return new_jvms;
 759   }

 982   // Merge memory
 983   kit.merge_memory(slow_map->merged_memory(), region, 2);
 984   // Transform new memory Phis.
 985   for (MergeMemStream mms(kit.merged_memory()); mms.next_non_empty();) {
 986     Node* phi = mms.memory();
 987     if (phi->is_Phi() && phi->in(0) == region) {
 988       mms.set_memory(gvn.transform(phi));
 989     }
 990   }
 991   uint tos = kit.jvms()->stkoff() + kit.sp();
 992   uint limit = slow_map->req();
 993   for (uint i = TypeFunc::Parms; i < limit; i++) {
 994     // Skip unused stack slots; fast forward to monoff();
 995     if (i == tos) {
 996       i = kit.jvms()->monoff();
 997       if( i >= limit ) break;
 998     }
 999     Node* m = kit.map()->in(i);
1000     Node* n = slow_map->in(i);
1001     if (m != n) {






1002       const Type* t = gvn.type(m)->meet_speculative(gvn.type(n));
1003       Node* phi = PhiNode::make(region, m, t);
1004       phi->set_req(2, n);
1005       kit.map()->set_req(i, gvn.transform(phi));
1006     }
1007   }
1008   return kit.transfer_exceptions_into_jvms();
1009 }
1010 
1011 
1012 CallGenerator* CallGenerator::for_method_handle_call(JVMState* jvms, ciMethod* caller, ciMethod* callee, bool allow_inline) {
1013   assert(callee->is_method_handle_intrinsic(), "for_method_handle_call mismatch");
1014   bool input_not_const;
1015   CallGenerator* cg = CallGenerator::for_method_handle_inline(jvms, caller, callee, allow_inline, input_not_const);
1016   Compile* C = Compile::current();
1017   bool should_delay = C->should_delay_inlining();
1018   if (cg != nullptr) {
1019     if (should_delay && IncrementalInlineMH) {
1020       return CallGenerator::for_mh_late_inline(caller, callee, input_not_const);
1021     } else {
1022       return cg;
1023     }
1024   }
1025   int bci = jvms->bci();
1026   ciCallProfile profile = caller->call_profile_at_bci(bci);
1027   int call_site_count = caller->scale_count(profile.count());
1028 
1029   if (IncrementalInlineMH && call_site_count > 0 &&
1030       (should_delay || input_not_const || !C->inlining_incrementally() || C->over_inlining_cutoff())) {
1031     return CallGenerator::for_mh_late_inline(caller, callee, input_not_const);
1032   } else {
1033     // Out-of-line call.
1034     return CallGenerator::for_direct_call(callee);
1035   }
1036 }
1037 

1038 CallGenerator* CallGenerator::for_method_handle_inline(JVMState* jvms, ciMethod* caller, ciMethod* callee, bool allow_inline, bool& input_not_const) {
1039   GraphKit kit(jvms);
1040   PhaseGVN& gvn = kit.gvn();
1041   Compile* C = kit.C;
1042   vmIntrinsics::ID iid = callee->intrinsic_id();
1043   input_not_const = true;
1044   if (StressMethodHandleLinkerInlining) {
1045     allow_inline = false;
1046   }
1047   switch (iid) {
1048   case vmIntrinsics::_invokeBasic:
1049     {
1050       // Get MethodHandle receiver:
1051       Node* receiver = kit.argument(0);
1052       if (receiver->Opcode() == Op_ConP) {
1053         input_not_const = false;
1054         const TypeOopPtr* recv_toop = receiver->bottom_type()->isa_oopptr();
1055         if (recv_toop != nullptr) {
1056           ciMethod* target = recv_toop->const_oop()->as_method_handle()->get_vmtarget();
1057           const int vtable_index = Method::invalid_vtable_index;

1065                                                 false /* call_does_dispatch */,
1066                                                 jvms,
1067                                                 allow_inline,
1068                                                 PROB_ALWAYS);
1069           return cg;
1070         } else {
1071           assert(receiver->bottom_type() == TypePtr::NULL_PTR, "not a null: %s",
1072                  Type::str(receiver->bottom_type()));
1073           print_inlining_failure(C, callee, jvms, "receiver is always null");
1074         }
1075       } else {
1076         print_inlining_failure(C, callee, jvms, "receiver not constant");
1077       }
1078   } break;
1079 
1080   case vmIntrinsics::_linkToVirtual:
1081   case vmIntrinsics::_linkToStatic:
1082   case vmIntrinsics::_linkToSpecial:
1083   case vmIntrinsics::_linkToInterface:
1084     {

1085       // Get MemberName argument:
1086       Node* member_name = kit.argument(callee->arg_size() - 1);
1087       if (member_name->Opcode() == Op_ConP) {
1088         input_not_const = false;
1089         const TypeOopPtr* oop_ptr = member_name->bottom_type()->is_oopptr();
1090         ciMethod* target = oop_ptr->const_oop()->as_member_name()->get_vmtarget();
1091 
1092         if (!ciMethod::is_consistent_info(callee, target)) {
1093           print_inlining_failure(C, callee, jvms, "signatures mismatch");
1094           return nullptr;
1095         }
1096 
1097         // In lambda forms we erase signature types to avoid resolving issues
1098         // involving class loaders.  When we optimize a method handle invoke
1099         // to a direct call we must cast the receiver and arguments to its
1100         // actual types.
1101         ciSignature* signature = target->signature();
1102         const int receiver_skip = target->is_static() ? 0 : 1;
1103         // Cast receiver to its type.
1104         if (!target->is_static()) {
1105           Node* recv = kit.argument(0);
1106           Node* casted_recv = kit.maybe_narrow_object_type(recv, signature->accessing_klass());
1107           if (casted_recv->is_top()) {
1108             print_inlining_failure(C, callee, jvms, "argument types mismatch");
1109             return nullptr; // FIXME: effectively dead; issue a halt node instead
1110           } else if (casted_recv != recv) {
1111             kit.set_argument(0, casted_recv);
1112           }
1113         }
1114         // Cast reference arguments to its type.
1115         for (int i = 0, j = 0; i < signature->count(); i++) {
1116           ciType* t = signature->type_at(i);
1117           if (t->is_klass()) {
1118             Node* arg = kit.argument(receiver_skip + j);
1119             Node* casted_arg = kit.maybe_narrow_object_type(arg, t->as_klass());
1120             if (casted_arg->is_top()) {
1121               print_inlining_failure(C, callee, jvms, "argument types mismatch");
1122               return nullptr; // FIXME: effectively dead; issue a halt node instead
1123             } else if (casted_arg != arg) {
1124               kit.set_argument(receiver_skip + j, casted_arg);
1125             }
1126           }
1127           j += t->size();  // long and double take two slots
1128         }
1129 
1130         // Try to get the most accurate receiver type
1131         const bool is_virtual              = (iid == vmIntrinsics::_linkToVirtual);
1132         const bool is_virtual_or_interface = (is_virtual || iid == vmIntrinsics::_linkToInterface);
1133         int  vtable_index       = Method::invalid_vtable_index;
1134         bool call_does_dispatch = false;
1135 
1136         ciKlass* speculative_receiver_type = nullptr;
1137         if (is_virtual_or_interface) {
1138           ciInstanceKlass* klass = target->holder();
1139           Node*             receiver_node = kit.argument(0);
1140           const TypeOopPtr* receiver_type = gvn.type(receiver_node)->isa_oopptr();
1141           // call_does_dispatch and vtable_index are out-parameters.  They might be changed.
1142           // optimize_virtual_call() takes 2 different holder
1143           // arguments for a corner case that doesn't apply here (see
1144           // Parse::do_call())
1145           target = C->optimize_virtual_call(caller, klass, klass,
1146                                             target, receiver_type, is_virtual,
1147                                             call_does_dispatch, vtable_index, // out-parameters
1148                                             false /* check_access */);
1149           // We lack profiling at this call but type speculation may
1150           // provide us with a type
1151           speculative_receiver_type = (receiver_type != nullptr) ? receiver_type->speculative_type() : nullptr;
1152         }
1153         CallGenerator* cg = C->call_generator(target, vtable_index, call_does_dispatch, jvms,
1154                                               allow_inline,
1155                                               PROB_ALWAYS,
1156                                               speculative_receiver_type);

1157         return cg;
1158       } else {
1159         print_inlining_failure(C, callee, jvms, "member_name not constant");
1160       }
1161   } break;
1162 
1163   case vmIntrinsics::_linkToNative:
1164     print_inlining_failure(C, callee, jvms, "native call");
1165     break;
1166 
1167   default:
1168     fatal("unexpected intrinsic %d: %s", vmIntrinsics::as_int(iid), vmIntrinsics::name_at(iid));
1169     break;
1170   }
1171   return nullptr;
1172 }
1173 
1174 //------------------------PredicatedIntrinsicGenerator------------------------------
1175 // Internal class which handles all predicated Intrinsic calls.
1176 class PredicatedIntrinsicGenerator : public CallGenerator {

1208   //        do_intrinsic(0)
1209   //    else
1210   //    if (predicate(1))
1211   //        do_intrinsic(1)
1212   //    ...
1213   //    else
1214   //        do_java_comp
1215 
1216   GraphKit kit(jvms);
1217   PhaseGVN& gvn = kit.gvn();
1218 
1219   CompileLog* log = kit.C->log();
1220   if (log != nullptr) {
1221     log->elem("predicated_intrinsic bci='%d' method='%d'",
1222               jvms->bci(), log->identify(method()));
1223   }
1224 
1225   if (!method()->is_static()) {
1226     // We need an explicit receiver null_check before checking its type in predicate.
1227     // We share a map with the caller, so his JVMS gets adjusted.
1228     Node* receiver = kit.null_check_receiver_before_call(method());
1229     if (kit.stopped()) {
1230       return kit.transfer_exceptions_into_jvms();
1231     }
1232   }
1233 
1234   int n_predicates = _intrinsic->predicates_count();
1235   assert(n_predicates > 0, "sanity");
1236 
1237   JVMState** result_jvms = NEW_RESOURCE_ARRAY(JVMState*, (n_predicates+1));
1238 
1239   // Region for normal compilation code if intrinsic failed.
1240   Node* slow_region = new RegionNode(1);
1241 
1242   int results = 0;
1243   for (int predicate = 0; (predicate < n_predicates) && !kit.stopped(); predicate++) {
1244 #ifdef ASSERT
1245     JVMState* old_jvms = kit.jvms();
1246     SafePointNode* old_map = kit.map();
1247     Node* old_io  = old_map->i_o();
1248     Node* old_mem = old_map->memory();

  12  * version 2 for more details (a copy is included in the LICENSE file that
  13  * accompanied this code).
  14  *
  15  * You should have received a copy of the GNU General Public License version
  16  * 2 along with this work; if not, write to the Free Software Foundation,
  17  * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
  18  *
  19  * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
  20  * or visit www.oracle.com if you need additional information or have any
  21  * questions.
  22  *
  23  */
  24 
  25 #include "ci/bcEscapeAnalyzer.hpp"
  26 #include "ci/ciCallSite.hpp"
  27 #include "ci/ciMemberName.hpp"
  28 #include "ci/ciMethodHandle.hpp"
  29 #include "ci/ciObjArray.hpp"
  30 #include "classfile/javaClasses.hpp"
  31 #include "compiler/compileLog.hpp"
  32 #include "oops/accessDecorators.hpp"
  33 #include "opto/addnode.hpp"
  34 #include "opto/callGenerator.hpp"
  35 #include "opto/callnode.hpp"
  36 #include "opto/castnode.hpp"
  37 #include "opto/cfgnode.hpp"
  38 #include "opto/inlinetypenode.hpp"
  39 #include "opto/parse.hpp"
  40 #include "opto/rootnode.hpp"
  41 #include "opto/runtime.hpp"
  42 #include "opto/subnode.hpp"
  43 #include "runtime/os.inline.hpp"
  44 #include "runtime/sharedRuntime.hpp"
  45 #include "utilities/debug.hpp"
  46 
  47 // Utility function.
  48 const TypeFunc* CallGenerator::tf() const {
  49   return TypeFunc::make(method());
  50 }
  51 
  52 bool CallGenerator::is_inlined_method_handle_intrinsic(JVMState* jvms, ciMethod* m) {
  53   return is_inlined_method_handle_intrinsic(jvms->method(), jvms->bci(), m);
  54 }
  55 
  56 bool CallGenerator::is_inlined_method_handle_intrinsic(ciMethod* caller, int bci, ciMethod* m) {
  57   ciMethod* symbolic_info = caller->get_method_at_bci(bci);
  58   return is_inlined_method_handle_intrinsic(symbolic_info, m);
  59 }
  60 
  61 bool CallGenerator::is_inlined_method_handle_intrinsic(ciMethod* symbolic_info, ciMethod* m) {
  62   return symbolic_info->is_method_handle_intrinsic() && !m->is_method_handle_intrinsic();
  63 }
  64 
  65 // If late inlining for this call happens in a dead part of the graph it can leave a dead loop behind
  66 void CallGenerator::mark_projs_not_dead_loop_safe(Node* ret) const {
  67   if (!is_late_inline()) {
  68     return;
  69   }
  70   CallNode* call = call_node();
  71   if (ret->is_Proj() && ret->in(0) == call) {
  72     ret->mark_not_dead_loop_safe();
  73   } else if (ret->isa_InlineType()) {
  74     InlineTypeNode* vt = ret->as_InlineType();
  75     Node* oop = vt->get_oop();
  76     if (oop->is_Proj() && oop->in(0) == call) {
  77       oop->mark_not_dead_loop_safe();
  78     }
  79     Node* null_marker = vt->get_null_marker();
  80     if (null_marker->is_Proj() && null_marker->in(0) == call) {
  81       null_marker->mark_not_dead_loop_safe();
  82     }
  83 
  84     for (uint i = 0; i < vt->field_count(); i++) {
  85       Node* field = vt->field_value(i);
  86       if (field->is_Proj() && field->in(0) == call) {
  87         field->mark_not_dead_loop_safe();
  88       }
  89     }
  90   }
  91 }
  92 
  93 //-----------------------------ParseGenerator---------------------------------
  94 // Internal class which handles all direct bytecode traversal.
  95 class ParseGenerator : public InlineCallGenerator {
  96 private:
  97   bool  _is_osr;
  98   float _expected_uses;
  99 
 100 public:
 101   ParseGenerator(ciMethod* method, float expected_uses, bool is_osr = false)
 102     : InlineCallGenerator(method)
 103   {
 104     _is_osr        = is_osr;
 105     _expected_uses = expected_uses;
 106     assert(InlineTree::check_can_parse(method) == nullptr, "parse must be possible");
 107   }
 108 
 109   virtual bool      is_parse() const           { return true; }
 110   virtual JVMState* generate(JVMState* jvms);
 111   bool              is_osr() const             { return _is_osr; }
 112 

 131   GraphKit& exits = parser.exits();
 132 
 133   if (C->failing()) {
 134     while (exits.pop_exception_state() != nullptr) ;
 135     return nullptr;
 136   }
 137 
 138   assert(exits.jvms()->same_calls_as(jvms), "sanity");
 139 
 140   // Simply return the exit state of the parser,
 141   // augmented by any exceptional states.
 142   return exits.transfer_exceptions_into_jvms();
 143 }
 144 
 145 //---------------------------DirectCallGenerator------------------------------
 146 // Internal class which handles all out-of-line calls w/o receiver type checks.
 147 class DirectCallGenerator : public CallGenerator {
 148  private:
 149   CallStaticJavaNode* _call_node;
 150   // Force separate memory and I/O projections for the exceptional
 151   // paths to facilitate late inlining.
 152   bool                _separate_io_proj;
 153 
 154 protected:
 155   void set_call_node(CallStaticJavaNode* call) { _call_node = call; }
 156 
 157  public:
 158   DirectCallGenerator(ciMethod* method, bool separate_io_proj)
 159     : CallGenerator(method),
 160       _call_node(nullptr),
 161       _separate_io_proj(separate_io_proj)
 162   {
 163     if (InlineTypeReturnedAsFields && method->is_method_handle_intrinsic()) {
 164       // If that call has not been optimized by the time optimizations are over,
 165       // we'll need to add a call to create an inline type instance from the klass
 166       // returned by the call (see PhaseMacroExpand::expand_mh_intrinsic_return).
 167       // Separating memory and I/O projections for exceptions is required to
 168       // perform that graph transformation.
 169       _separate_io_proj = true;
 170     }
 171   }
 172   virtual JVMState* generate(JVMState* jvms);
 173 
 174   virtual CallNode* call_node() const { return _call_node; }
 175   virtual CallGenerator* with_call_node(CallNode* call) {
 176     DirectCallGenerator* dcg = new DirectCallGenerator(method(), _separate_io_proj);
 177     dcg->set_call_node(call->as_CallStaticJava());
 178     return dcg;
 179   }
 180 };
 181 
 182 JVMState* DirectCallGenerator::generate(JVMState* jvms) {
 183   GraphKit kit(jvms);
 184   bool is_static = method()->is_static();
 185   address target = is_static ? SharedRuntime::get_resolve_static_call_stub()
 186                              : SharedRuntime::get_resolve_opt_virtual_call_stub();
 187 
 188   if (kit.C->log() != nullptr) {
 189     kit.C->log()->elem("direct_call bci='%d'", jvms->bci());
 190   }

 195     // additional information about the method being invoked should be attached
 196     // to the call site to make resolution logic work
 197     // (see SharedRuntime::resolve_static_call_C).
 198     call->set_override_symbolic_info(true);
 199   }
 200   _call_node = call;  // Save the call node in case we need it later
 201   if (!is_static) {
 202     // Make an explicit receiver null_check as part of this call.
 203     // Since we share a map with the caller, his JVMS gets adjusted.
 204     kit.null_check_receiver_before_call(method());
 205     if (kit.stopped()) {
 206       // And dump it back to the caller, decorated with any exceptions:
 207       return kit.transfer_exceptions_into_jvms();
 208     }
 209     // Mark the call node as virtual, sort of:
 210     call->set_optimized_virtual(true);
 211   }
 212   kit.set_arguments_for_java_call(call);
 213   kit.set_edges_for_java_call(call, false, _separate_io_proj);
 214   Node* ret = kit.set_results_for_java_call(call, _separate_io_proj);
 215   if (!call->is_boxing_method()) {
 216     mark_projs_not_dead_loop_safe(ret);

 217   }
 218   kit.push_node(method()->return_type()->basic_type(), ret);
 219   return kit.transfer_exceptions_into_jvms();
 220 }
 221 
 222 //--------------------------VirtualCallGenerator------------------------------
 223 // Internal class which handles all out-of-line calls checking receiver type.
 224 class VirtualCallGenerator : public CallGenerator {
 225 private:
 226   int _vtable_index;
 227   bool _separate_io_proj;
 228   CallDynamicJavaNode* _call_node;
 229 
 230 protected:
 231   void set_call_node(CallDynamicJavaNode* call) { _call_node = call; }
 232 
 233 public:
 234   VirtualCallGenerator(ciMethod* method, int vtable_index, bool separate_io_proj)
 235     : CallGenerator(method), _vtable_index(vtable_index), _separate_io_proj(separate_io_proj), _call_node(nullptr)
 236   {
 237     assert(vtable_index == Method::invalid_vtable_index ||
 238            vtable_index >= 0, "either invalid or usable");
 239   }
 240   virtual bool      is_virtual() const          { return true; }
 241   virtual JVMState* generate(JVMState* jvms);
 242 
 243   virtual CallNode* call_node() const { return _call_node; }
 244   int vtable_index() const { return _vtable_index; }
 245 
 246   virtual CallGenerator* with_call_node(CallNode* call) {
 247     VirtualCallGenerator* cg = new VirtualCallGenerator(method(), _vtable_index, _separate_io_proj);
 248     cg->set_call_node(call->as_CallDynamicJava());
 249     return cg;
 250   }
 251 };
 252 
 253 JVMState* VirtualCallGenerator::generate(JVMState* jvms) {
 254   GraphKit kit(jvms);
 255   Node* receiver = kit.argument(0);

 256   if (kit.C->log() != nullptr) {
 257     kit.C->log()->elem("virtual_call bci='%d'", jvms->bci());
 258   }
 259 
 260   // If the receiver is a constant null, do not torture the system
 261   // by attempting to call through it.  The compile will proceed
 262   // correctly, but may bail out in final_graph_reshaping, because
 263   // the call instruction will have a seemingly deficient out-count.
 264   // (The bailout says something misleading about an "infinite loop".)
 265   if (kit.gvn().type(receiver)->higher_equal(TypePtr::NULL_PTR)) {
 266     assert(Bytecodes::is_invoke(kit.java_bc()), "%d: %s", kit.java_bc(), Bytecodes::name(kit.java_bc()));
 267     ciMethod* declared_method = kit.method()->get_method_at_bci(kit.bci());
 268     int arg_size = declared_method->signature()->arg_size_for_bc(kit.java_bc());
 269     kit.inc_sp(arg_size);  // restore arguments
 270     kit.uncommon_trap(Deoptimization::Reason_null_check,
 271                       Deoptimization::Action_none,
 272                       nullptr, "null receiver");
 273     return kit.transfer_exceptions_into_jvms();
 274   }
 275 

 295   assert(!method()->is_static(), "virtual call must not be to static");
 296   assert(!method()->is_final(), "virtual call should not be to final");
 297   assert(!method()->is_private(), "virtual call should not be to private");
 298   assert(_vtable_index == Method::invalid_vtable_index || !UseInlineCaches,
 299          "no vtable calls if +UseInlineCaches ");
 300   address target = SharedRuntime::get_resolve_virtual_call_stub();
 301   // Normal inline cache used for call
 302   CallDynamicJavaNode* call = new CallDynamicJavaNode(tf(), target, method(), _vtable_index);
 303   if (is_inlined_method_handle_intrinsic(jvms, method())) {
 304     // To be able to issue a direct call (optimized virtual or virtual)
 305     // and skip a call to MH.linkTo*/invokeBasic adapter, additional information
 306     // about the method being invoked should be attached to the call site to
 307     // make resolution logic work (see SharedRuntime::resolve_{virtual,opt_virtual}_call_C).
 308     call->set_override_symbolic_info(true);
 309   }
 310   _call_node = call;  // Save the call node in case we need it later
 311 
 312   kit.set_arguments_for_java_call(call);
 313   kit.set_edges_for_java_call(call, false /*must_throw*/, _separate_io_proj);
 314   Node* ret = kit.set_results_for_java_call(call, _separate_io_proj);
 315   mark_projs_not_dead_loop_safe(ret);



 316   kit.push_node(method()->return_type()->basic_type(), ret);
 317 
 318   // Represent the effect of an implicit receiver null_check
 319   // as part of this call.  Since we share a map with the caller,
 320   // his JVMS gets adjusted.
 321   kit.cast_not_null(receiver);
 322   return kit.transfer_exceptions_into_jvms();
 323 }
 324 
 325 CallGenerator* CallGenerator::for_inline(ciMethod* m, float expected_uses) {
 326   if (InlineTree::check_can_parse(m) != nullptr)  return nullptr;
 327   return new ParseGenerator(m, expected_uses);
 328 }
 329 
 330 // As a special case, the JVMS passed to this CallGenerator is
 331 // for the method execution already in progress, not just the JVMS
 332 // of the caller.  Thus, this CallGenerator cannot be mixed with others!
 333 CallGenerator* CallGenerator::for_osr(ciMethod* m, int osr_bci) {
 334   if (InlineTree::check_can_parse(m) != nullptr)  return nullptr;
 335   float past_uses = m->interpreter_invocation_count();

 378     // parse is finished.
 379     if (!is_mh_late_inline()) {
 380       C->add_late_inline(this);
 381     }
 382 
 383     // Emit the CallStaticJava and request separate projections so
 384     // that the late inlining logic can distinguish between fall
 385     // through and exceptional uses of the memory and io projections
 386     // as is done for allocations and macro expansion.
 387     return DirectCallGenerator::generate(jvms);
 388   }
 389 
 390   virtual void set_unique_id(jlong id) {
 391     _unique_id = id;
 392   }
 393 
 394   virtual jlong unique_id() const {
 395     return _unique_id;
 396   }
 397 
 398   virtual CallGenerator* inline_cg() {
 399     return _inline_cg;
 400   }
 401 
 402   virtual CallGenerator* with_call_node(CallNode* call) {
 403     LateInlineCallGenerator* cg = new LateInlineCallGenerator(method(), _inline_cg, _is_pure_call);
 404     cg->set_call_node(call->as_CallStaticJava());
 405     return cg;
 406   }
 407 };
 408 
 409 CallGenerator* CallGenerator::for_late_inline(ciMethod* method, CallGenerator* inline_cg) {
 410   return new LateInlineCallGenerator(method, inline_cg);
 411 }
 412 
 413 class LateInlineMHCallGenerator : public LateInlineCallGenerator {
 414   ciMethod* _caller;
 415   bool _input_not_const;
 416 
 417   virtual bool do_late_inline_check(Compile* C, JVMState* jvms);
 418 
 419  public:
 420   LateInlineMHCallGenerator(ciMethod* caller, ciMethod* callee, bool input_not_const) :
 421     LateInlineCallGenerator(callee, nullptr), _caller(caller), _input_not_const(input_not_const) {}

 443     cg->set_call_node(call->as_CallStaticJava());
 444     return cg;
 445   }
 446 };
 447 
 448 bool LateInlineMHCallGenerator::do_late_inline_check(Compile* C, JVMState* jvms) {
 449   // When inlining a virtual call, the null check at the call and the call itself can throw. These 2 paths have different
 450   // expression stacks which causes late inlining to break. The MH invoker is not expected to be called from a method with
 451   // exception handlers. When there is no exception handler, GraphKit::builtin_throw() pops the stack which solves the issue
 452   // of late inlining with exceptions.
 453   assert(!jvms->method()->has_exception_handlers() ||
 454          (method()->intrinsic_id() != vmIntrinsics::_linkToVirtual &&
 455           method()->intrinsic_id() != vmIntrinsics::_linkToInterface), "no exception handler expected");
 456   // Even if inlining is not allowed, a virtual call can be strength-reduced to a direct call.
 457   bool allow_inline = C->inlining_incrementally();
 458   bool input_not_const = true;
 459   CallGenerator* cg = for_method_handle_inline(jvms, _caller, method(), allow_inline, input_not_const);
 460   assert(!input_not_const, "sanity"); // shouldn't have been scheduled for inlining in the first place
 461 
 462   if (cg != nullptr) {
 463     // AlwaysIncrementalInline causes for_method_handle_inline() to
 464     // return a LateInlineCallGenerator. Extract the
 465     // InlineCallGenerator from it.
 466     if (AlwaysIncrementalInline && cg->is_late_inline() && !cg->is_virtual_late_inline()) {
 467       cg = cg->inline_cg();
 468       assert(cg != nullptr, "inline call generator expected");
 469     }
 470 
 471     if (!allow_inline) {
 472       C->inline_printer()->record(cg->method(), call_node()->jvms(), InliningResult::FAILURE,
 473                                   "late method handle call resolution");
 474     }
 475     assert(!cg->is_late_inline() || cg->is_mh_late_inline() || cg->is_virtual_late_inline() ||
 476            AlwaysIncrementalInline || StressIncrementalInlining, "we're doing late inlining");
 477     _inline_cg = cg;
 478     return true;
 479   } else {
 480     // Method handle call which has a constant appendix argument should be either inlined or replaced with a direct call
 481     // unless there's a signature mismatch between caller and callee. If the failure occurs, there's not much to be improved later,
 482     // so don't reinstall the generator to avoid pushing the generator between IGVN and incremental inlining indefinitely.
 483     return false;
 484   }
 485 }
 486 
 487 CallGenerator* CallGenerator::for_mh_late_inline(ciMethod* caller, ciMethod* callee, bool input_not_const) {
 488   assert(IncrementalInlineMH, "required");
 489   Compile::current()->mark_has_mh_late_inlines();
 490   CallGenerator* cg = new LateInlineMHCallGenerator(caller, callee, input_not_const);

 611 
 612 void LateInlineMHCallGenerator::do_late_inline() {
 613   CallGenerator::do_late_inline_helper();
 614 }
 615 
 616 void LateInlineVirtualCallGenerator::do_late_inline() {
 617   assert(_callee != nullptr, "required"); // set up in CallDynamicJavaNode::Ideal
 618   CallGenerator::do_late_inline_helper();
 619 }
 620 
 621 void CallGenerator::do_late_inline_helper() {
 622   assert(is_late_inline(), "only late inline allowed");
 623 
 624   // Can't inline it
 625   CallNode* call = call_node();
 626   if (call == nullptr || call->outcnt() == 0 ||
 627       call->in(0) == nullptr || call->in(0)->is_top()) {
 628     return;
 629   }
 630 
 631   const TypeTuple* r = call->tf()->domain_cc();
 632   for (uint i1 = TypeFunc::Parms; i1 < r->cnt(); i1++) {
 633     if (call->in(i1)->is_top() && r->field_at(i1) != Type::HALF) {
 634       assert(Compile::current()->inlining_incrementally(), "shouldn't happen during parsing");
 635       return;
 636     }
 637   }
 638 
 639   if (call->in(TypeFunc::Memory)->is_top()) {
 640     assert(Compile::current()->inlining_incrementally(), "shouldn't happen during parsing");
 641     return;
 642   }
 643   if (call->in(TypeFunc::Memory)->is_MergeMem()) {
 644     MergeMemNode* merge_mem = call->in(TypeFunc::Memory)->as_MergeMem();
 645     if (merge_mem->base_memory() == merge_mem->empty_memory()) {
 646       return; // dead path
 647     }
 648   }
 649 
 650   // check for unreachable loop

 651   // Similar to incremental inlining, don't assert that all call
 652   // projections are still there for post-parse call devirtualization.
 653   bool do_asserts = !is_mh_late_inline() && !is_virtual_late_inline();
 654   CallProjections* callprojs = call->extract_projections(true, do_asserts);
 655   if ((callprojs->fallthrough_catchproj == call->in(0)) ||
 656       (callprojs->catchall_catchproj    == call->in(0)) ||
 657       (callprojs->fallthrough_memproj   == call->in(TypeFunc::Memory)) ||
 658       (callprojs->catchall_memproj      == call->in(TypeFunc::Memory)) ||
 659       (callprojs->fallthrough_ioproj    == call->in(TypeFunc::I_O)) ||
 660       (callprojs->catchall_ioproj       == call->in(TypeFunc::I_O)) ||
 661       (callprojs->exobj != nullptr && call->find_edge(callprojs->exobj) != -1)) {

 662     return;
 663   }
 664 
 665   Compile* C = Compile::current();
 666 
 667   uint endoff = call->jvms()->endoff();
 668   if (C->inlining_incrementally()) {
 669     // No reachability edges should be present when incremental inlining takes place.
 670     // Inlining logic doesn't expect any extra edges past debug info and fails with
 671     // an assert in SafePointNode::grow_stack.
 672     assert(endoff == call->req(), "reachability edges not supported");
 673   } else {
 674     if (call->req() > endoff) { // reachability edges present
 675       assert(OptimizeReachabilityFences, "required");
 676       return; // keep the original call node as the holder of reachability info
 677     }
 678   }
 679 
 680   // Remove inlined methods from Compiler's lists.
 681   if (call->is_macro()) {
 682     C->remove_macro_node(call);
 683   }
 684 
 685 
 686   bool result_not_used = true;
 687   for (uint i = 0; i < callprojs->nb_resproj; i++) {
 688     if (callprojs->resproj[i] != nullptr) {
 689       if (callprojs->resproj[i]->outcnt() != 0) {
 690         result_not_used = false;
 691       }
 692       if (call->find_edge(callprojs->resproj[i]) != -1) {
 693         return;
 694       }
 695     }
 696   }
 697 
 698   if (is_pure_call() && result_not_used) {
 699     // The call is marked as pure (no important side effects), but result isn't used.
 700     // It's safe to remove the call.
 701     GraphKit kit(call->jvms());
 702     kit.replace_call(call, C->top(), true, do_asserts);
 703   } else {
 704     // Make a clone of the JVMState that appropriate to use for driving a parse
 705     JVMState* old_jvms = call->jvms();
 706     JVMState* jvms = old_jvms->clone_shallow(C);
 707     uint size = call->req();
 708     SafePointNode* map = new SafePointNode(size, jvms);
 709     for (uint i1 = 0; i1 < size; i1++) {
 710       map->init_req(i1, call->in(i1));
 711     }
 712     // Call node has in(ReturnAdr) set to top() node.
 713     // We have to set map->in(ReturnAdr) to correct value
 714     // because it is used by uncommon traps.
 715     Node* ret_adr = C->start()->proj_out_or_null(TypeFunc::ReturnAdr);
 716     precond(ret_adr != nullptr);
 717     map->set_req(TypeFunc::ReturnAdr, ret_adr);
 718 
 719     PhaseGVN& gvn = *C->initial_gvn();
 720     // Make sure the state is a MergeMem for parsing.
 721     if (!map->in(TypeFunc::Memory)->is_MergeMem()) {
 722       Node* mem = MergeMemNode::make(map->in(TypeFunc::Memory));
 723       gvn.set_type_bottom(mem);
 724       map->set_req(TypeFunc::Memory, mem);
 725     }
 726 

 727     // blow away old call arguments
 728     for (uint i1 = TypeFunc::Parms; i1 < r->cnt(); i1++) {
 729       map->set_req(i1, C->top());

 730     }
 731     jvms->set_map(map);
 732     precond(ret_adr == jvms->map()->returnadr());
 733 
 734     // Make enough space in the expression stack to transfer
 735     // the incoming arguments and return value.
 736     map->ensure_stack(jvms, jvms->method()->max_stack());
 737     const TypeTuple* domain_sig = call->_tf->domain_sig();
 738     uint nargs = method()->arg_size();
 739     assert(domain_sig->cnt() - TypeFunc::Parms == nargs, "inconsistent signature");
 740 
 741     uint j = TypeFunc::Parms;
 742     int arg_num = 0;
 743     for (uint i1 = 0; i1 < nargs; i1++) {
 744       const Type* t = domain_sig->field_at(TypeFunc::Parms + i1);
 745       if (t->is_inlinetypeptr() && !method()->mismatch() && method()->is_scalarized_arg(arg_num)) {
 746         // Inline type arguments are not passed by reference: we get an argument per
 747         // field of the inline type. Build InlineTypeNodes from the inline type arguments.
 748         GraphKit arg_kit(jvms, &gvn);
 749         Node* vt = InlineTypeNode::make_from_multi(&arg_kit, call, t->inline_klass(), j, /* in= */ true, /* null_free= */ !t->maybe_null());
 750         // GraphKit::access_load_at() may be called from InlineTypeNode::make_from_multi() and it may change the map
 751         // that arg_kit uses.
 752         map = arg_kit.map();
 753         map->set_control(arg_kit.control());
 754         map->set_argument(jvms, i1, vt);
 755       } else {
 756         map->set_argument(jvms, i1, call->in(j++));
 757       }
 758       if (t != Type::HALF) {
 759         arg_num++;
 760       }
 761     }
 762 
 763     C->log_late_inline(this);
 764 
 765     // JVMState is ready, so time to perform some checks and prepare for inlining attempt.
 766     if (!do_late_inline_check(C, jvms)) {
 767       map->disconnect_inputs(C);
 768       return;
 769     }
 770 
 771     // Check if we are late inlining a method handle call that returns an inline type as fields.
 772     Node* buffer_oop = nullptr;
 773     ciMethod* inline_method = inline_cg()->method();
 774     ciType* return_type = inline_method->return_type();
 775     if (!call->tf()->returns_inline_type_as_fields() &&
 776         return_type->is_inlinetype() && return_type->as_inline_klass()->can_be_returned_as_fields()) {
 777       assert(is_mh_late_inline(), "Unexpected return type");
 778 
 779       // Allocate a buffer for the inline type returned as fields because the caller expects an oop return.
 780       // Do this before the method handle call in case the buffer allocation triggers deoptimization and
 781       // we need to "re-execute" the call in the interpreter (to make sure the call is only executed once).
 782       GraphKit arg_kit(jvms, &gvn);
 783       {
 784         PreserveReexecuteState preexecs(&arg_kit);
 785         arg_kit.jvms()->set_should_reexecute(true);
 786         arg_kit.inc_sp(nargs);
 787         Node* klass_node = arg_kit.makecon(TypeKlassPtr::make(return_type->as_inline_klass()));
 788         buffer_oop = arg_kit.new_instance(klass_node, nullptr, nullptr, /* deoptimize_on_exception */ true);
 789       }
 790       jvms = arg_kit.transfer_exceptions_into_jvms();
 791     }
 792 
 793     // Setup default node notes to be picked up by the inlining
 794     Node_Notes* old_nn = C->node_notes_at(call->_idx);
 795     if (old_nn != nullptr) {
 796       Node_Notes* entry_nn = old_nn->clone(C);
 797       entry_nn->set_jvms(jvms);
 798       C->set_default_node_notes(entry_nn);
 799     }
 800 
 801     // Now perform the inlining using the synthesized JVMState
 802     JVMState* new_jvms = inline_cg()->generate(jvms);
 803     if (new_jvms == nullptr)  return;  // no change
 804     if (C->failing())      return;
 805 
 806     if (is_mh_late_inline()) {
 807       C->inline_printer()->record(method(), jvms, InliningResult::SUCCESS, "late inline succeeded (method handle)");
 808     } else if (is_string_late_inline()) {
 809       C->inline_printer()->record(method(), jvms, InliningResult::SUCCESS, "late inline succeeded (string method)");
 810     } else if (is_boxing_late_inline()) {
 811       C->inline_printer()->record(method(), jvms, InliningResult::SUCCESS, "late inline succeeded (boxing method)");
 812     } else if (is_vector_reboxing_late_inline()) {
 813       C->inline_printer()->record(method(), jvms, InliningResult::SUCCESS, "late inline succeeded (vector reboxing method)");
 814     } else {
 815       C->inline_printer()->record(method(), jvms, InliningResult::SUCCESS, "late inline succeeded");
 816     }
 817 
 818     // Capture any exceptional control flow
 819     GraphKit kit(new_jvms);
 820 
 821     // Find the result object
 822     Node* result = C->top();
 823     int   result_size = method()->return_type()->size();
 824     if (result_size != 0 && !kit.stopped()) {
 825       result = (result_size == 1) ? kit.pop() : kit.pop_pair();
 826     }
 827 
 828     if (call->is_CallStaticJava() && call->as_CallStaticJava()->is_boxing_method()
 829         && !call->tf()->returns_inline_type_as_fields()) {
 830       result = kit.must_be_not_null(result, false);
 831     }
 832 
 833     if (inline_cg()->is_inline()) {
 834       C->set_has_loops(C->has_loops() || inline_method->has_loops());
 835       C->env()->notice_inlined_method(inline_method);
 836     }
 837     C->set_inlining_progress(true);
 838     C->set_do_cleanup(kit.stopped()); // path is dead; needs cleanup
 839 
 840     // Handle inline type returns
 841     InlineTypeNode* vt = result->isa_InlineType();
 842     if (vt != nullptr) {
 843       if (call->tf()->returns_inline_type_as_fields()) {
 844         vt->replace_call_results(&kit, call, C);
 845       } else {
 846         // Result might still be allocated (for example, if it has been stored to a non-flat field)
 847         if (!vt->is_allocated(&kit.gvn())) {
 848           assert(buffer_oop != nullptr, "should have allocated a buffer");
 849           RegionNode* region = new RegionNode(3);
 850 
 851           // Check if result is null
 852           Node* null_ctl = kit.top();
 853           kit.null_check_common(vt->get_null_marker(), T_INT, false, &null_ctl);
 854           region->init_req(1, null_ctl);
 855           PhiNode* oop = PhiNode::make(region, kit.gvn().zerocon(T_OBJECT), TypeInstPtr::make(TypePtr::BotPTR, vt->type()->inline_klass()));
 856           Node* init_mem = kit.reset_memory();
 857           PhiNode* mem = PhiNode::make(region, init_mem, Type::MEMORY, TypePtr::BOTTOM);
 858 
 859           // Not null, initialize the buffer
 860           kit.set_all_memory(init_mem);
 861 
 862           Node* payload_ptr = kit.basic_plus_adr(buffer_oop, kit.gvn().type(vt)->inline_klass()->payload_offset());
 863           vt->store_flat(&kit, buffer_oop, payload_ptr, false, true, true, IN_HEAP | MO_UNORDERED);
 864           // Do not let stores that initialize this buffer be reordered with a subsequent
 865           // store that would make this buffer accessible by other threads.
 866           AllocateNode* alloc = AllocateNode::Ideal_allocation(buffer_oop);
 867           assert(alloc != nullptr, "must have an allocation node");
 868           kit.insert_mem_bar(Op_MemBarStoreStore, alloc->proj_out_or_null(AllocateNode::RawAddress));
 869           region->init_req(2, kit.control());
 870           oop->init_req(2, buffer_oop);
 871           mem->init_req(2, kit.merged_memory());
 872 
 873           // Update oop input to buffer
 874           kit.gvn().hash_delete(vt);
 875           vt->set_oop(kit.gvn(), kit.gvn().transform(oop));
 876           vt->set_is_buffered(kit.gvn());
 877           vt = kit.gvn().transform(vt)->as_InlineType();
 878 
 879           kit.set_control(kit.gvn().transform(region));
 880           kit.set_all_memory(kit.gvn().transform(mem));
 881           kit.record_for_igvn(region);
 882           kit.record_for_igvn(oop);
 883           kit.record_for_igvn(mem);
 884         }
 885         result = vt;
 886       }
 887       DEBUG_ONLY(buffer_oop = nullptr);
 888     } else {
 889       assert(result->is_top() || !call->tf()->returns_inline_type_as_fields() || !call->as_CallJava()->method()->return_type()->is_loaded(), "Unexpected return value");
 890     }
 891     assert(kit.stopped() || buffer_oop == nullptr, "unused buffer allocation");
 892 
 893     kit.replace_call(call, result, true, do_asserts);
 894   }
 895 }
 896 
 897 class LateInlineStringCallGenerator : public LateInlineCallGenerator {
 898 
 899  public:
 900   LateInlineStringCallGenerator(ciMethod* method, CallGenerator* inline_cg) :
 901     LateInlineCallGenerator(method, inline_cg) {}
 902 
 903   virtual JVMState* generate(JVMState* jvms) {
 904     Compile *C = Compile::current();
 905 
 906     C->log_inline_id(this);
 907 
 908     C->add_string_late_inline(this);
 909 
 910     JVMState* new_jvms = DirectCallGenerator::generate(jvms);
 911     return new_jvms;
 912   }

1135   // Merge memory
1136   kit.merge_memory(slow_map->merged_memory(), region, 2);
1137   // Transform new memory Phis.
1138   for (MergeMemStream mms(kit.merged_memory()); mms.next_non_empty();) {
1139     Node* phi = mms.memory();
1140     if (phi->is_Phi() && phi->in(0) == region) {
1141       mms.set_memory(gvn.transform(phi));
1142     }
1143   }
1144   uint tos = kit.jvms()->stkoff() + kit.sp();
1145   uint limit = slow_map->req();
1146   for (uint i = TypeFunc::Parms; i < limit; i++) {
1147     // Skip unused stack slots; fast forward to monoff();
1148     if (i == tos) {
1149       i = kit.jvms()->monoff();
1150       if( i >= limit ) break;
1151     }
1152     Node* m = kit.map()->in(i);
1153     Node* n = slow_map->in(i);
1154     if (m != n) {
1155 #ifdef ASSERT
1156       if (m->is_InlineType() != n->is_InlineType()) {
1157         InlineTypeNode* unique_vt = m->is_InlineType() ? m->as_InlineType() : n->as_InlineType();
1158         assert(unique_vt->is_allocated(&gvn), "InlineType can be merged with an oop only if it is allocated");
1159       }
1160 #endif
1161       const Type* t = gvn.type(m)->meet_speculative(gvn.type(n));
1162       Node* phi = PhiNode::make(region, m, t);
1163       phi->set_req(2, n);
1164       kit.map()->set_req(i, gvn.transform(phi));
1165     }
1166   }
1167   return kit.transfer_exceptions_into_jvms();
1168 }
1169 
1170 
1171 CallGenerator* CallGenerator::for_method_handle_call(JVMState* jvms, ciMethod* caller, ciMethod* callee, bool allow_inline) {
1172   assert(callee->is_method_handle_intrinsic(), "for_method_handle_call mismatch");
1173   bool input_not_const;
1174   CallGenerator* cg = CallGenerator::for_method_handle_inline(jvms, caller, callee, allow_inline, input_not_const);
1175   Compile* C = Compile::current();
1176   bool should_delay = C->should_delay_inlining();
1177   if (cg != nullptr) {
1178     if (should_delay && IncrementalInlineMH) {
1179       return CallGenerator::for_mh_late_inline(caller, callee, input_not_const);
1180     } else {
1181       return cg;
1182     }
1183   }
1184   int bci = jvms->bci();
1185   ciCallProfile profile = caller->call_profile_at_bci(bci);
1186   int call_site_count = caller->scale_count(profile.count());
1187 
1188   if (IncrementalInlineMH && (AlwaysIncrementalInline ||
1189                             (call_site_count > 0 && (should_delay || input_not_const || !C->inlining_incrementally() || C->over_inlining_cutoff())))) {
1190     return CallGenerator::for_mh_late_inline(caller, callee, input_not_const);
1191   } else {
1192     // Out-of-line call.
1193     return CallGenerator::for_direct_call(callee);
1194   }
1195 }
1196 
1197 
1198 CallGenerator* CallGenerator::for_method_handle_inline(JVMState* jvms, ciMethod* caller, ciMethod* callee, bool allow_inline, bool& input_not_const) {
1199   GraphKit kit(jvms);
1200   PhaseGVN& gvn = kit.gvn();
1201   Compile* C = kit.C;
1202   vmIntrinsics::ID iid = callee->intrinsic_id();
1203   input_not_const = true;
1204   if (StressMethodHandleLinkerInlining) {
1205     allow_inline = false;
1206   }
1207   switch (iid) {
1208   case vmIntrinsics::_invokeBasic:
1209     {
1210       // Get MethodHandle receiver:
1211       Node* receiver = kit.argument(0);
1212       if (receiver->Opcode() == Op_ConP) {
1213         input_not_const = false;
1214         const TypeOopPtr* recv_toop = receiver->bottom_type()->isa_oopptr();
1215         if (recv_toop != nullptr) {
1216           ciMethod* target = recv_toop->const_oop()->as_method_handle()->get_vmtarget();
1217           const int vtable_index = Method::invalid_vtable_index;

1225                                                 false /* call_does_dispatch */,
1226                                                 jvms,
1227                                                 allow_inline,
1228                                                 PROB_ALWAYS);
1229           return cg;
1230         } else {
1231           assert(receiver->bottom_type() == TypePtr::NULL_PTR, "not a null: %s",
1232                  Type::str(receiver->bottom_type()));
1233           print_inlining_failure(C, callee, jvms, "receiver is always null");
1234         }
1235       } else {
1236         print_inlining_failure(C, callee, jvms, "receiver not constant");
1237       }
1238   } break;
1239 
1240   case vmIntrinsics::_linkToVirtual:
1241   case vmIntrinsics::_linkToStatic:
1242   case vmIntrinsics::_linkToSpecial:
1243   case vmIntrinsics::_linkToInterface:
1244     {
1245       int nargs = callee->arg_size();
1246       // Get MemberName argument:
1247       Node* member_name = kit.argument(nargs - 1);
1248       if (member_name->Opcode() == Op_ConP) {
1249         input_not_const = false;
1250         const TypeOopPtr* oop_ptr = member_name->bottom_type()->is_oopptr();
1251         ciMethod* target = oop_ptr->const_oop()->as_member_name()->get_vmtarget();
1252 
1253         if (!ciMethod::is_consistent_info(callee, target)) {
1254           print_inlining_failure(C, callee, jvms, "signatures mismatch");
1255           return nullptr;
1256         }
1257 
1258         // In lambda forms we erase signature types to avoid resolving issues
1259         // involving class loaders.  When we optimize a method handle invoke
1260         // to a direct call we must cast the receiver and arguments to its
1261         // actual types.
1262         ciSignature* signature = target->signature();
1263         const int receiver_skip = target->is_static() ? 0 : 1;
1264         // Cast receiver to its type.
1265         if (!target->is_static()) {
1266           Node* recv = kit.argument(0);
1267           Node* casted_recv = kit.maybe_narrow_object_type(recv, signature->accessing_klass(), target->receiver_maybe_larval());
1268           if (casted_recv->is_top()) {
1269             print_inlining_failure(C, callee, jvms, "argument types mismatch");
1270             return nullptr; // FIXME: effectively dead; issue a halt node instead
1271           } else if (casted_recv != recv) {
1272             kit.set_argument(0, casted_recv);
1273           }
1274         }
1275         // Cast reference arguments to its type.
1276         for (int i = 0, j = 0; i < signature->count(); i++) {
1277           ciType* t = signature->type_at(i);
1278           if (t->is_klass()) {
1279             Node* arg = kit.argument(receiver_skip + j);
1280             Node* casted_arg = kit.maybe_narrow_object_type(arg, t->as_klass(), false);
1281             if (casted_arg->is_top()) {
1282               print_inlining_failure(C, callee, jvms, "argument types mismatch");
1283               return nullptr; // FIXME: effectively dead; issue a halt node instead
1284             } else if (casted_arg != arg) {
1285               kit.set_argument(receiver_skip + j, casted_arg);
1286             }
1287           }
1288           j += t->size();  // long and double take two slots
1289         }
1290 
1291         // Try to get the most accurate receiver type
1292         const bool is_virtual              = (iid == vmIntrinsics::_linkToVirtual);
1293         const bool is_virtual_or_interface = (is_virtual || iid == vmIntrinsics::_linkToInterface);
1294         int  vtable_index       = Method::invalid_vtable_index;
1295         bool call_does_dispatch = false;
1296 
1297         ciKlass* speculative_receiver_type = nullptr;
1298         if (is_virtual_or_interface) {
1299           ciInstanceKlass* klass = target->holder();
1300           Node*             receiver_node = kit.argument(0);
1301           const TypeOopPtr* receiver_type = gvn.type(receiver_node)->isa_oopptr();
1302           // call_does_dispatch and vtable_index are out-parameters.  They might be changed.
1303           // optimize_virtual_call() takes 2 different holder
1304           // arguments for a corner case that doesn't apply here (see
1305           // Parse::do_call())
1306           target = C->optimize_virtual_call(caller, klass, klass,
1307                                             target, receiver_type, is_virtual,
1308                                             call_does_dispatch, vtable_index, // out-parameters
1309                                             false /* check_access */);
1310           // We lack profiling at this call but type speculation may
1311           // provide us with a type
1312           speculative_receiver_type = (receiver_type != nullptr) ? receiver_type->speculative_type() : nullptr;
1313         }
1314         CallGenerator* cg = C->call_generator(target, vtable_index, call_does_dispatch, jvms,
1315                                               allow_inline,
1316                                               PROB_ALWAYS,
1317                                               speculative_receiver_type,
1318                                               true);
1319         return cg;
1320       } else {
1321         print_inlining_failure(C, callee, jvms, "member_name not constant");
1322       }
1323   } break;
1324 
1325   case vmIntrinsics::_linkToNative:
1326     print_inlining_failure(C, callee, jvms, "native call");
1327     break;
1328 
1329   default:
1330     fatal("unexpected intrinsic %d: %s", vmIntrinsics::as_int(iid), vmIntrinsics::name_at(iid));
1331     break;
1332   }
1333   return nullptr;
1334 }
1335 
1336 //------------------------PredicatedIntrinsicGenerator------------------------------
1337 // Internal class which handles all predicated Intrinsic calls.
1338 class PredicatedIntrinsicGenerator : public CallGenerator {

1370   //        do_intrinsic(0)
1371   //    else
1372   //    if (predicate(1))
1373   //        do_intrinsic(1)
1374   //    ...
1375   //    else
1376   //        do_java_comp
1377 
1378   GraphKit kit(jvms);
1379   PhaseGVN& gvn = kit.gvn();
1380 
1381   CompileLog* log = kit.C->log();
1382   if (log != nullptr) {
1383     log->elem("predicated_intrinsic bci='%d' method='%d'",
1384               jvms->bci(), log->identify(method()));
1385   }
1386 
1387   if (!method()->is_static()) {
1388     // We need an explicit receiver null_check before checking its type in predicate.
1389     // We share a map with the caller, so his JVMS gets adjusted.
1390     kit.null_check_receiver_before_call(method());
1391     if (kit.stopped()) {
1392       return kit.transfer_exceptions_into_jvms();
1393     }
1394   }
1395 
1396   int n_predicates = _intrinsic->predicates_count();
1397   assert(n_predicates > 0, "sanity");
1398 
1399   JVMState** result_jvms = NEW_RESOURCE_ARRAY(JVMState*, (n_predicates+1));
1400 
1401   // Region for normal compilation code if intrinsic failed.
1402   Node* slow_region = new RegionNode(1);
1403 
1404   int results = 0;
1405   for (int predicate = 0; (predicate < n_predicates) && !kit.stopped(); predicate++) {
1406 #ifdef ASSERT
1407     JVMState* old_jvms = kit.jvms();
1408     SafePointNode* old_map = kit.map();
1409     Node* old_io  = old_map->i_o();
1410     Node* old_mem = old_map->memory();
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