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src/hotspot/share/gc/shenandoah/c2/shenandoahSupport.cpp

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 446           { -1,  ShenandoahNone},                 { -1,  ShenandoahNone},                 { -1,  ShenandoahNone} },
 447         "sha1_implCompressMB",
 448         { { TypeFunc::Parms, ShenandoahLoad },  { TypeFunc::Parms+1, ShenandoahStore },   { -1, ShenandoahNone },
 449           { -1,  ShenandoahNone},                 { -1,  ShenandoahNone},                 { -1,  ShenandoahNone} },
 450         "sha256_implCompressMB",
 451         { { TypeFunc::Parms, ShenandoahLoad },  { TypeFunc::Parms+1, ShenandoahStore },   { -1, ShenandoahNone },
 452           { -1,  ShenandoahNone},                 { -1,  ShenandoahNone},                 { -1,  ShenandoahNone} },
 453         "sha512_implCompressMB",
 454         { { TypeFunc::Parms, ShenandoahLoad },  { TypeFunc::Parms+1, ShenandoahStore },   { -1, ShenandoahNone },
 455           { -1,  ShenandoahNone},                 { -1,  ShenandoahNone},                 { -1,  ShenandoahNone} },
 456         "encodeBlock",
 457         { { TypeFunc::Parms, ShenandoahLoad },  { TypeFunc::Parms+3, ShenandoahStore },   { -1, ShenandoahNone },
 458           { -1,  ShenandoahNone},                 { -1,  ShenandoahNone},                 { -1,  ShenandoahNone} },
 459         "decodeBlock",
 460         { { TypeFunc::Parms, ShenandoahLoad },  { TypeFunc::Parms+3, ShenandoahStore },   { -1, ShenandoahNone },
 461           { -1,  ShenandoahNone},                 { -1,  ShenandoahNone},                 { -1,  ShenandoahNone} },
 462       };
 463 
 464       if (call->is_call_to_arraycopystub()) {
 465         Node* dest = NULL;
 466         const TypeTuple* args = n->as_Call()->_tf->domain();
 467         for (uint i = TypeFunc::Parms, j = 0; i < args->cnt(); i++) {
 468           if (args->field_at(i)->isa_ptr()) {
 469             j++;
 470             if (j == 2) {
 471               dest = n->in(i);
 472               break;
 473             }
 474           }
 475         }
 476         if (!verify_helper(n->in(TypeFunc::Parms), phis, visited, ShenandoahLoad, trace, barriers_used) ||
 477             !verify_helper(dest, phis, visited, ShenandoahStore, trace, barriers_used)) {
 478           report_verify_failure("Shenandoah verification: ArrayCopy should have barriers", n);
 479         }
 480       } else if (strlen(call->_name) > 5 &&
 481                  !strcmp(call->_name + strlen(call->_name) - 5, "_fill")) {
 482         if (!verify_helper(n->in(TypeFunc::Parms), phis, visited, ShenandoahStore, trace, barriers_used)) {
 483           report_verify_failure("Shenandoah verification: _fill should have barriers", n);
 484         }
 485       } else if (!strcmp(call->_name, "shenandoah_wb_pre")) {
 486         // skip

 565         { { 2, ShenandoahLoad },                  { 4, ShenandoahLoad } },
 566         Op_StrEquals,
 567         { { 2, ShenandoahLoad },                  { 3, ShenandoahLoad } },
 568         Op_EncodeISOArray,
 569         { { 2, ShenandoahLoad },                  { 3, ShenandoahStore } },
 570         Op_CountPositives,
 571         { { 2, ShenandoahLoad },                  { -1, ShenandoahNone} },
 572         Op_CastP2X,
 573         { { 1, ShenandoahLoad },                  { -1, ShenandoahNone} },
 574         Op_StrIndexOfChar,
 575         { { 2, ShenandoahLoad },                  { -1, ShenandoahNone } },
 576       };
 577 
 578       const int others_len = sizeof(others) / sizeof(others[0]);
 579       int i = 0;
 580       for (; i < others_len; i++) {
 581         if (others[i].opcode == n->Opcode()) {
 582           break;
 583         }
 584       }
 585       uint stop = n->is_Call() ? n->as_Call()->tf()->domain()->cnt() : n->req();
 586       if (i != others_len) {
 587         const uint inputs_len = sizeof(others[0].inputs) / sizeof(others[0].inputs[0]);
 588         for (uint j = 0; j < inputs_len; j++) {
 589           int pos = others[i].inputs[j].pos;
 590           if (pos == -1) {
 591             break;
 592           }
 593           if (!verify_helper(n->in(pos), phis, visited, others[i].inputs[j].t, trace, barriers_used)) {
 594             report_verify_failure("Shenandoah verification: intrinsic calls should have barriers", n);
 595           }
 596         }
 597         for (uint j = 1; j < stop; j++) {
 598           if (n->in(j) != NULL && n->in(j)->bottom_type()->make_ptr() &&
 599               n->in(j)->bottom_type()->make_ptr()->make_oopptr()) {
 600             uint k = 0;
 601             for (; k < inputs_len && others[i].inputs[k].pos != (int)j; k++);
 602             if (k == inputs_len) {
 603               fatal("arg %d for node %s not covered", j, n->Name());
 604             }
 605           }

 785     mem_ctrl = phase->ctrl_or_self(mem);
 786   }
 787   return mem;
 788 }
 789 
 790 Node* ShenandoahBarrierC2Support::find_bottom_mem(Node* ctrl, PhaseIdealLoop* phase) {
 791   Node* mem = NULL;
 792   Node* c = ctrl;
 793   do {
 794     if (c->is_Region()) {
 795       for (DUIterator_Fast imax, i = c->fast_outs(imax); i < imax && mem == NULL; i++) {
 796         Node* u = c->fast_out(i);
 797         if (u->is_Phi() && u->bottom_type() == Type::MEMORY) {
 798           if (u->adr_type() == TypePtr::BOTTOM) {
 799             mem = u;
 800           }
 801         }
 802       }
 803     } else {
 804       if (c->is_Call() && c->as_Call()->adr_type() != NULL) {
 805         CallProjections projs;
 806         c->as_Call()->extract_projections(&projs, true, false);
 807         if (projs.fallthrough_memproj != NULL) {
 808           if (projs.fallthrough_memproj->adr_type() == TypePtr::BOTTOM) {
 809             if (projs.catchall_memproj == NULL) {
 810               mem = projs.fallthrough_memproj;
 811             } else {
 812               if (phase->is_dominator(projs.fallthrough_catchproj, ctrl)) {
 813                 mem = projs.fallthrough_memproj;
 814               } else {
 815                 assert(phase->is_dominator(projs.catchall_catchproj, ctrl), "one proj must dominate barrier");
 816                 mem = projs.catchall_memproj;
 817               }
 818             }
 819           }
 820         } else {
 821           Node* proj = c->as_Call()->proj_out(TypeFunc::Memory);
 822           if (proj != NULL &&
 823               proj->adr_type() == TypePtr::BOTTOM) {
 824             mem = proj;
 825           }
 826         }
 827       } else {
 828         for (DUIterator_Fast imax, i = c->fast_outs(imax); i < imax; i++) {
 829           Node* u = c->fast_out(i);
 830           if (u->is_Proj() &&
 831               u->bottom_type() == Type::MEMORY &&
 832               u->adr_type() == TypePtr::BOTTOM) {
 833               assert(c->is_SafePoint() || c->is_MemBar() || c->is_Start(), "");
 834               assert(mem == NULL, "only one proj");
 835               mem = u;
 836           }

1056       if (c != ctrl ||
1057           is_dominator_same_ctrl(old_c, barrier, u, phase) ||
1058           ShenandoahBarrierSetC2::is_shenandoah_state_load(u)) {
1059         phase->igvn().rehash_node_delayed(u);
1060         int nb = u->replace_edge(ctrl, region, &phase->igvn());
1061         if (u->is_CFG()) {
1062           if (phase->idom(u) == ctrl) {
1063             phase->set_idom(u, region, phase->dom_depth(region));
1064           }
1065         } else if (phase->get_ctrl(u) == ctrl) {
1066           assert(u != init_raw_mem, "should leave input raw mem above the barrier");
1067           uses.push(u);
1068         }
1069         assert(nb == 1, "more than 1 ctrl input?");
1070         --i, imax -= nb;
1071       }
1072     }
1073   }
1074 }
1075 
1076 static Node* create_phis_on_call_return(Node* ctrl, Node* c, Node* n, Node* n_clone, const CallProjections& projs, PhaseIdealLoop* phase) {
1077   Node* region = NULL;
1078   while (c != ctrl) {
1079     if (c->is_Region()) {
1080       region = c;
1081     }
1082     c = phase->idom(c);
1083   }
1084   assert(region != NULL, "");
1085   Node* phi = new PhiNode(region, n->bottom_type());
1086   for (uint j = 1; j < region->req(); j++) {
1087     Node* in = region->in(j);
1088     if (phase->is_dominator(projs.fallthrough_catchproj, in)) {
1089       phi->init_req(j, n);
1090     } else if (phase->is_dominator(projs.catchall_catchproj, in)) {
1091       phi->init_req(j, n_clone);
1092     } else {
1093       phi->init_req(j, create_phis_on_call_return(ctrl, in, n, n_clone, projs, phase));
1094     }
1095   }
1096   phase->register_new_node(phi, region);
1097   return phi;
1098 }
1099 
1100 void ShenandoahBarrierC2Support::pin_and_expand(PhaseIdealLoop* phase) {
1101   ShenandoahBarrierSetC2State* state = ShenandoahBarrierSetC2::bsc2()->state();
1102 
1103   Unique_Node_List uses;
1104   for (int i = 0; i < state->iu_barriers_count(); i++) {
1105     Node* barrier = state->iu_barrier(i);
1106     Node* ctrl = phase->get_ctrl(barrier);
1107     IdealLoopTree* loop = phase->get_loop(ctrl);
1108     Node* head = loop->head();
1109     if (head->is_OuterStripMinedLoop()) {
1110       // Expanding a barrier here will break loop strip mining

1186               if (phase->has_ctrl(in)) {
1187                 if (phase->is_dominator(call, phase->get_ctrl(in))) {
1188 #ifdef ASSERT
1189                   for (uint i = 0; i < stack.size(); i++) {
1190                     assert(stack.node_at(i) != in, "node shouldn't have been seen yet");
1191                   }
1192 #endif
1193                   stack.push(in, 0);
1194                 }
1195               } else {
1196                 assert(phase->is_dominator(in, call->in(0)), "no dependency on the call");
1197               }
1198             }
1199           } else {
1200             phase->set_ctrl(n, call->in(0));
1201             stack.pop();
1202           }
1203         } while(stack.size() > 0);
1204         continue;
1205       }
1206       CallProjections projs;
1207       call->extract_projections(&projs, false, false);
1208 
1209 #ifdef ASSERT
1210       VectorSet cloned;
1211 #endif
1212       Node* lrb_clone = lrb->clone();
1213       phase->register_new_node(lrb_clone, projs.catchall_catchproj);
1214       phase->set_ctrl(lrb, projs.fallthrough_catchproj);
1215 
1216       stack.push(lrb, 0);
1217       clones.push(lrb_clone);
1218 
1219       do {
1220         assert(stack.size() == clones.size(), "");
1221         Node* n = stack.node();
1222 #ifdef ASSERT
1223         if (n->is_Load()) {
1224           Node* mem = n->in(MemNode::Memory);
1225           for (DUIterator_Fast jmax, j = mem->fast_outs(jmax); j < jmax; j++) {
1226             Node* u = mem->fast_out(j);
1227             assert(!u->is_Store() || !u->is_LoadStore() || phase->get_ctrl(u) != ctrl, "anti dependent store?");
1228           }
1229         }
1230 #endif
1231         uint idx = stack.index();
1232         Node* n_clone = clones.at(clones.size()-1);
1233         if (idx < n->outcnt()) {
1234           Node* u = n->raw_out(idx);
1235           Node* c = phase->ctrl_or_self(u);
1236           if (phase->is_dominator(call, c) && phase->is_dominator(c, projs.fallthrough_proj)) {
1237             stack.set_index(idx+1);
1238             assert(!u->is_CFG(), "");
1239             stack.push(u, 0);
1240             assert(!cloned.test_set(u->_idx), "only one clone");
1241             Node* u_clone = u->clone();
1242             int nb = u_clone->replace_edge(n, n_clone, &phase->igvn());
1243             assert(nb > 0, "should have replaced some uses");
1244             phase->register_new_node(u_clone, projs.catchall_catchproj);
1245             clones.push(u_clone);
1246             phase->set_ctrl(u, projs.fallthrough_catchproj);
1247           } else {
1248             bool replaced = false;
1249             if (u->is_Phi()) {
1250               for (uint k = 1; k < u->req(); k++) {
1251                 if (u->in(k) == n) {
1252                   if (phase->is_dominator(projs.catchall_catchproj, u->in(0)->in(k))) {
1253                     phase->igvn().replace_input_of(u, k, n_clone);
1254                     replaced = true;
1255                   } else if (!phase->is_dominator(projs.fallthrough_catchproj, u->in(0)->in(k))) {
1256                     phase->igvn().replace_input_of(u, k, create_phis_on_call_return(ctrl, u->in(0)->in(k), n, n_clone, projs, phase));
1257                     replaced = true;
1258                   }
1259                 }
1260               }
1261             } else {
1262               if (phase->is_dominator(projs.catchall_catchproj, c)) {
1263                 phase->igvn().rehash_node_delayed(u);
1264                 int nb = u->replace_edge(n, n_clone, &phase->igvn());
1265                 assert(nb > 0, "should have replaced some uses");
1266                 replaced = true;
1267               } else if (!phase->is_dominator(projs.fallthrough_catchproj, c)) {
1268                 if (u->is_If()) {
1269                   // Can't break If/Bool/Cmp chain
1270                   assert(n->is_Bool(), "unexpected If shape");
1271                   assert(stack.node_at(stack.size()-2)->is_Cmp(), "unexpected If shape");
1272                   assert(n_clone->is_Bool(), "unexpected clone");
1273                   assert(clones.at(clones.size()-2)->is_Cmp(), "unexpected clone");
1274                   Node* bol_clone = n->clone();
1275                   Node* cmp_clone = stack.node_at(stack.size()-2)->clone();
1276                   bol_clone->set_req(1, cmp_clone);
1277 
1278                   Node* nn = stack.node_at(stack.size()-3);
1279                   Node* nn_clone = clones.at(clones.size()-3);
1280                   assert(nn->Opcode() == nn_clone->Opcode(), "mismatch");
1281 
1282                   int nb = cmp_clone->replace_edge(nn, create_phis_on_call_return(ctrl, c, nn, nn_clone, projs, phase),
1283                                                    &phase->igvn());
1284                   assert(nb > 0, "should have replaced some uses");
1285 
1286                   phase->register_new_node(bol_clone, u->in(0));
1287                   phase->register_new_node(cmp_clone, u->in(0));

2320             } else {
2321               assert(c != c->in(0), "");
2322               c = c->in(0);
2323             }
2324           }
2325         }
2326       }
2327     } while (stack.size() > 0);
2328     assert(mem != NULL, "should have found safepoint");
2329   } else {
2330     mem = phi_mem;
2331   }
2332   return mem;
2333 }
2334 
2335 Node* MemoryGraphFixer::get_ctrl(Node* n) const {
2336   Node* c = _phase->get_ctrl(n);
2337   if (n->is_Proj() && n->in(0) != NULL && n->in(0)->is_Call()) {
2338     assert(c == n->in(0), "");
2339     CallNode* call = c->as_Call();
2340     CallProjections projs;
2341     call->extract_projections(&projs, true, false);
2342     if (projs.catchall_memproj != NULL) {
2343       if (projs.fallthrough_memproj == n) {
2344         c = projs.fallthrough_catchproj;
2345       } else {
2346         assert(projs.catchall_memproj == n, "");
2347         c = projs.catchall_catchproj;
2348       }
2349     }
2350   }
2351   return c;
2352 }
2353 
2354 Node* MemoryGraphFixer::ctrl_or_self(Node* n) const {
2355   if (_phase->has_ctrl(n))
2356     return get_ctrl(n);
2357   else {
2358     assert (n->is_CFG(), "must be a CFG node");
2359     return n;
2360   }
2361 }
2362 
2363 bool MemoryGraphFixer::mem_is_valid(Node* m, Node* c) const {
2364   return m != NULL && get_ctrl(m) == c;
2365 }
2366 
2367 Node* MemoryGraphFixer::find_mem(Node* ctrl, Node* n) const {

 446           { -1,  ShenandoahNone},                 { -1,  ShenandoahNone},                 { -1,  ShenandoahNone} },
 447         "sha1_implCompressMB",
 448         { { TypeFunc::Parms, ShenandoahLoad },  { TypeFunc::Parms+1, ShenandoahStore },   { -1, ShenandoahNone },
 449           { -1,  ShenandoahNone},                 { -1,  ShenandoahNone},                 { -1,  ShenandoahNone} },
 450         "sha256_implCompressMB",
 451         { { TypeFunc::Parms, ShenandoahLoad },  { TypeFunc::Parms+1, ShenandoahStore },   { -1, ShenandoahNone },
 452           { -1,  ShenandoahNone},                 { -1,  ShenandoahNone},                 { -1,  ShenandoahNone} },
 453         "sha512_implCompressMB",
 454         { { TypeFunc::Parms, ShenandoahLoad },  { TypeFunc::Parms+1, ShenandoahStore },   { -1, ShenandoahNone },
 455           { -1,  ShenandoahNone},                 { -1,  ShenandoahNone},                 { -1,  ShenandoahNone} },
 456         "encodeBlock",
 457         { { TypeFunc::Parms, ShenandoahLoad },  { TypeFunc::Parms+3, ShenandoahStore },   { -1, ShenandoahNone },
 458           { -1,  ShenandoahNone},                 { -1,  ShenandoahNone},                 { -1,  ShenandoahNone} },
 459         "decodeBlock",
 460         { { TypeFunc::Parms, ShenandoahLoad },  { TypeFunc::Parms+3, ShenandoahStore },   { -1, ShenandoahNone },
 461           { -1,  ShenandoahNone},                 { -1,  ShenandoahNone},                 { -1,  ShenandoahNone} },
 462       };
 463 
 464       if (call->is_call_to_arraycopystub()) {
 465         Node* dest = NULL;
 466         const TypeTuple* args = n->as_Call()->_tf->domain_sig();
 467         for (uint i = TypeFunc::Parms, j = 0; i < args->cnt(); i++) {
 468           if (args->field_at(i)->isa_ptr()) {
 469             j++;
 470             if (j == 2) {
 471               dest = n->in(i);
 472               break;
 473             }
 474           }
 475         }
 476         if (!verify_helper(n->in(TypeFunc::Parms), phis, visited, ShenandoahLoad, trace, barriers_used) ||
 477             !verify_helper(dest, phis, visited, ShenandoahStore, trace, barriers_used)) {
 478           report_verify_failure("Shenandoah verification: ArrayCopy should have barriers", n);
 479         }
 480       } else if (strlen(call->_name) > 5 &&
 481                  !strcmp(call->_name + strlen(call->_name) - 5, "_fill")) {
 482         if (!verify_helper(n->in(TypeFunc::Parms), phis, visited, ShenandoahStore, trace, barriers_used)) {
 483           report_verify_failure("Shenandoah verification: _fill should have barriers", n);
 484         }
 485       } else if (!strcmp(call->_name, "shenandoah_wb_pre")) {
 486         // skip

 565         { { 2, ShenandoahLoad },                  { 4, ShenandoahLoad } },
 566         Op_StrEquals,
 567         { { 2, ShenandoahLoad },                  { 3, ShenandoahLoad } },
 568         Op_EncodeISOArray,
 569         { { 2, ShenandoahLoad },                  { 3, ShenandoahStore } },
 570         Op_CountPositives,
 571         { { 2, ShenandoahLoad },                  { -1, ShenandoahNone} },
 572         Op_CastP2X,
 573         { { 1, ShenandoahLoad },                  { -1, ShenandoahNone} },
 574         Op_StrIndexOfChar,
 575         { { 2, ShenandoahLoad },                  { -1, ShenandoahNone } },
 576       };
 577 
 578       const int others_len = sizeof(others) / sizeof(others[0]);
 579       int i = 0;
 580       for (; i < others_len; i++) {
 581         if (others[i].opcode == n->Opcode()) {
 582           break;
 583         }
 584       }
 585       uint stop = n->is_Call() ? n->as_Call()->tf()->domain_sig()->cnt() : n->req();
 586       if (i != others_len) {
 587         const uint inputs_len = sizeof(others[0].inputs) / sizeof(others[0].inputs[0]);
 588         for (uint j = 0; j < inputs_len; j++) {
 589           int pos = others[i].inputs[j].pos;
 590           if (pos == -1) {
 591             break;
 592           }
 593           if (!verify_helper(n->in(pos), phis, visited, others[i].inputs[j].t, trace, barriers_used)) {
 594             report_verify_failure("Shenandoah verification: intrinsic calls should have barriers", n);
 595           }
 596         }
 597         for (uint j = 1; j < stop; j++) {
 598           if (n->in(j) != NULL && n->in(j)->bottom_type()->make_ptr() &&
 599               n->in(j)->bottom_type()->make_ptr()->make_oopptr()) {
 600             uint k = 0;
 601             for (; k < inputs_len && others[i].inputs[k].pos != (int)j; k++);
 602             if (k == inputs_len) {
 603               fatal("arg %d for node %s not covered", j, n->Name());
 604             }
 605           }

 785     mem_ctrl = phase->ctrl_or_self(mem);
 786   }
 787   return mem;
 788 }
 789 
 790 Node* ShenandoahBarrierC2Support::find_bottom_mem(Node* ctrl, PhaseIdealLoop* phase) {
 791   Node* mem = NULL;
 792   Node* c = ctrl;
 793   do {
 794     if (c->is_Region()) {
 795       for (DUIterator_Fast imax, i = c->fast_outs(imax); i < imax && mem == NULL; i++) {
 796         Node* u = c->fast_out(i);
 797         if (u->is_Phi() && u->bottom_type() == Type::MEMORY) {
 798           if (u->adr_type() == TypePtr::BOTTOM) {
 799             mem = u;
 800           }
 801         }
 802       }
 803     } else {
 804       if (c->is_Call() && c->as_Call()->adr_type() != NULL) {
 805         CallProjections* projs = c->as_Call()->extract_projections(true, false);
 806         if (projs->fallthrough_memproj != NULL) {
 807           if (projs->fallthrough_memproj->adr_type() == TypePtr::BOTTOM) {
 808             if (projs->catchall_memproj == NULL) {
 809               mem = projs->fallthrough_memproj;

 810             } else {
 811               if (phase->is_dominator(projs->fallthrough_catchproj, ctrl)) {
 812                 mem = projs->fallthrough_memproj;
 813               } else {
 814                 assert(phase->is_dominator(projs->catchall_catchproj, ctrl), "one proj must dominate barrier");
 815                 mem = projs->catchall_memproj;
 816               }
 817             }
 818           }
 819         } else {
 820           Node* proj = c->as_Call()->proj_out(TypeFunc::Memory);
 821           if (proj != NULL &&
 822               proj->adr_type() == TypePtr::BOTTOM) {
 823             mem = proj;
 824           }
 825         }
 826       } else {
 827         for (DUIterator_Fast imax, i = c->fast_outs(imax); i < imax; i++) {
 828           Node* u = c->fast_out(i);
 829           if (u->is_Proj() &&
 830               u->bottom_type() == Type::MEMORY &&
 831               u->adr_type() == TypePtr::BOTTOM) {
 832               assert(c->is_SafePoint() || c->is_MemBar() || c->is_Start(), "");
 833               assert(mem == NULL, "only one proj");
 834               mem = u;
 835           }

1055       if (c != ctrl ||
1056           is_dominator_same_ctrl(old_c, barrier, u, phase) ||
1057           ShenandoahBarrierSetC2::is_shenandoah_state_load(u)) {
1058         phase->igvn().rehash_node_delayed(u);
1059         int nb = u->replace_edge(ctrl, region, &phase->igvn());
1060         if (u->is_CFG()) {
1061           if (phase->idom(u) == ctrl) {
1062             phase->set_idom(u, region, phase->dom_depth(region));
1063           }
1064         } else if (phase->get_ctrl(u) == ctrl) {
1065           assert(u != init_raw_mem, "should leave input raw mem above the barrier");
1066           uses.push(u);
1067         }
1068         assert(nb == 1, "more than 1 ctrl input?");
1069         --i, imax -= nb;
1070       }
1071     }
1072   }
1073 }
1074 
1075 static Node* create_phis_on_call_return(Node* ctrl, Node* c, Node* n, Node* n_clone, const CallProjections* projs, PhaseIdealLoop* phase) {
1076   Node* region = NULL;
1077   while (c != ctrl) {
1078     if (c->is_Region()) {
1079       region = c;
1080     }
1081     c = phase->idom(c);
1082   }
1083   assert(region != NULL, "");
1084   Node* phi = new PhiNode(region, n->bottom_type());
1085   for (uint j = 1; j < region->req(); j++) {
1086     Node* in = region->in(j);
1087     if (phase->is_dominator(projs->fallthrough_catchproj, in)) {
1088       phi->init_req(j, n);
1089     } else if (phase->is_dominator(projs->catchall_catchproj, in)) {
1090       phi->init_req(j, n_clone);
1091     } else {
1092       phi->init_req(j, create_phis_on_call_return(ctrl, in, n, n_clone, projs, phase));
1093     }
1094   }
1095   phase->register_new_node(phi, region);
1096   return phi;
1097 }
1098 
1099 void ShenandoahBarrierC2Support::pin_and_expand(PhaseIdealLoop* phase) {
1100   ShenandoahBarrierSetC2State* state = ShenandoahBarrierSetC2::bsc2()->state();
1101 
1102   Unique_Node_List uses;
1103   for (int i = 0; i < state->iu_barriers_count(); i++) {
1104     Node* barrier = state->iu_barrier(i);
1105     Node* ctrl = phase->get_ctrl(barrier);
1106     IdealLoopTree* loop = phase->get_loop(ctrl);
1107     Node* head = loop->head();
1108     if (head->is_OuterStripMinedLoop()) {
1109       // Expanding a barrier here will break loop strip mining

1185               if (phase->has_ctrl(in)) {
1186                 if (phase->is_dominator(call, phase->get_ctrl(in))) {
1187 #ifdef ASSERT
1188                   for (uint i = 0; i < stack.size(); i++) {
1189                     assert(stack.node_at(i) != in, "node shouldn't have been seen yet");
1190                   }
1191 #endif
1192                   stack.push(in, 0);
1193                 }
1194               } else {
1195                 assert(phase->is_dominator(in, call->in(0)), "no dependency on the call");
1196               }
1197             }
1198           } else {
1199             phase->set_ctrl(n, call->in(0));
1200             stack.pop();
1201           }
1202         } while(stack.size() > 0);
1203         continue;
1204       }
1205       CallProjections* projs = call->extract_projections(false, false);


1206 #ifdef ASSERT
1207       VectorSet cloned;
1208 #endif
1209       Node* lrb_clone = lrb->clone();
1210       phase->register_new_node(lrb_clone, projs->catchall_catchproj);
1211       phase->set_ctrl(lrb, projs->fallthrough_catchproj);
1212 
1213       stack.push(lrb, 0);
1214       clones.push(lrb_clone);
1215 
1216       do {
1217         assert(stack.size() == clones.size(), "");
1218         Node* n = stack.node();
1219 #ifdef ASSERT
1220         if (n->is_Load()) {
1221           Node* mem = n->in(MemNode::Memory);
1222           for (DUIterator_Fast jmax, j = mem->fast_outs(jmax); j < jmax; j++) {
1223             Node* u = mem->fast_out(j);
1224             assert(!u->is_Store() || !u->is_LoadStore() || phase->get_ctrl(u) != ctrl, "anti dependent store?");
1225           }
1226         }
1227 #endif
1228         uint idx = stack.index();
1229         Node* n_clone = clones.at(clones.size()-1);
1230         if (idx < n->outcnt()) {
1231           Node* u = n->raw_out(idx);
1232           Node* c = phase->ctrl_or_self(u);
1233           if (phase->is_dominator(call, c) && phase->is_dominator(c, projs->fallthrough_proj)) {
1234             stack.set_index(idx+1);
1235             assert(!u->is_CFG(), "");
1236             stack.push(u, 0);
1237             assert(!cloned.test_set(u->_idx), "only one clone");
1238             Node* u_clone = u->clone();
1239             int nb = u_clone->replace_edge(n, n_clone, &phase->igvn());
1240             assert(nb > 0, "should have replaced some uses");
1241             phase->register_new_node(u_clone, projs->catchall_catchproj);
1242             clones.push(u_clone);
1243             phase->set_ctrl(u, projs->fallthrough_catchproj);
1244           } else {
1245             bool replaced = false;
1246             if (u->is_Phi()) {
1247               for (uint k = 1; k < u->req(); k++) {
1248                 if (u->in(k) == n) {
1249                   if (phase->is_dominator(projs->catchall_catchproj, u->in(0)->in(k))) {
1250                     phase->igvn().replace_input_of(u, k, n_clone);
1251                     replaced = true;
1252                   } else if (!phase->is_dominator(projs->fallthrough_catchproj, u->in(0)->in(k))) {
1253                     phase->igvn().replace_input_of(u, k, create_phis_on_call_return(ctrl, u->in(0)->in(k), n, n_clone, projs, phase));
1254                     replaced = true;
1255                   }
1256                 }
1257               }
1258             } else {
1259               if (phase->is_dominator(projs->catchall_catchproj, c)) {
1260                 phase->igvn().rehash_node_delayed(u);
1261                 int nb = u->replace_edge(n, n_clone, &phase->igvn());
1262                 assert(nb > 0, "should have replaced some uses");
1263                 replaced = true;
1264               } else if (!phase->is_dominator(projs->fallthrough_catchproj, c)) {
1265                 if (u->is_If()) {
1266                   // Can't break If/Bool/Cmp chain
1267                   assert(n->is_Bool(), "unexpected If shape");
1268                   assert(stack.node_at(stack.size()-2)->is_Cmp(), "unexpected If shape");
1269                   assert(n_clone->is_Bool(), "unexpected clone");
1270                   assert(clones.at(clones.size()-2)->is_Cmp(), "unexpected clone");
1271                   Node* bol_clone = n->clone();
1272                   Node* cmp_clone = stack.node_at(stack.size()-2)->clone();
1273                   bol_clone->set_req(1, cmp_clone);
1274 
1275                   Node* nn = stack.node_at(stack.size()-3);
1276                   Node* nn_clone = clones.at(clones.size()-3);
1277                   assert(nn->Opcode() == nn_clone->Opcode(), "mismatch");
1278 
1279                   int nb = cmp_clone->replace_edge(nn, create_phis_on_call_return(ctrl, c, nn, nn_clone, projs, phase),
1280                                                    &phase->igvn());
1281                   assert(nb > 0, "should have replaced some uses");
1282 
1283                   phase->register_new_node(bol_clone, u->in(0));
1284                   phase->register_new_node(cmp_clone, u->in(0));

2317             } else {
2318               assert(c != c->in(0), "");
2319               c = c->in(0);
2320             }
2321           }
2322         }
2323       }
2324     } while (stack.size() > 0);
2325     assert(mem != NULL, "should have found safepoint");
2326   } else {
2327     mem = phi_mem;
2328   }
2329   return mem;
2330 }
2331 
2332 Node* MemoryGraphFixer::get_ctrl(Node* n) const {
2333   Node* c = _phase->get_ctrl(n);
2334   if (n->is_Proj() && n->in(0) != NULL && n->in(0)->is_Call()) {
2335     assert(c == n->in(0), "");
2336     CallNode* call = c->as_Call();
2337     CallProjections* projs = call->extract_projections(true, false);
2338     if (projs->catchall_memproj != NULL) {
2339       if (projs->fallthrough_memproj == n) {
2340         c = projs->fallthrough_catchproj;

2341       } else {
2342         assert(projs->catchall_memproj == n, "");
2343         c = projs->catchall_catchproj;
2344       }
2345     }
2346   }
2347   return c;
2348 }
2349 
2350 Node* MemoryGraphFixer::ctrl_or_self(Node* n) const {
2351   if (_phase->has_ctrl(n))
2352     return get_ctrl(n);
2353   else {
2354     assert (n->is_CFG(), "must be a CFG node");
2355     return n;
2356   }
2357 }
2358 
2359 bool MemoryGraphFixer::mem_is_valid(Node* m, Node* c) const {
2360   return m != NULL && get_ctrl(m) == c;
2361 }
2362 
2363 Node* MemoryGraphFixer::find_mem(Node* ctrl, Node* n) const {
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