819 
 820   // Masking off sign bits?  Dont make them!
 821   if (op == Op_RShiftL) {
 822     const TypeInt* t12 = phase->type(in1->in(2))->isa_int();
 823     if( t12 && t12->is_con() ) { // Shift is by a constant
 824       int shift = t12->get_con();
 825       shift &= BitsPerJavaLong - 1;  // semantics of Java shifts
 826       if (shift != 0) {
 827         const julong sign_bits_mask = ~(((julong)CONST64(1) << (julong)(BitsPerJavaLong - shift)) -1);
 828         // If the AND'ing of the 2 masks has no bits, then only original shifted
 829         // bits survive.  NO sign-extension bits survive the maskings.
 830         if( (sign_bits_mask & mask) == 0 ) {
 831           // Use zero-fill shift instead
 832           Node *zshift = phase->transform(new URShiftLNode(in1->in(1), in1->in(2)));
 833           return new AndLNode(zshift, in(2));
 834         }
 835       }
 836     }
 837   }
 838 









































 839   return MulNode::Ideal(phase, can_reshape);
 840 }
 841 
 842 LShiftNode* LShiftNode::make(Node* in1, Node* in2, BasicType bt) {
 843   switch (bt) {
 844     case T_INT:
 845       return new LShiftINode(in1, in2);
 846     case T_LONG:
 847       return new LShiftLNode(in1, in2);
 848     default:
 849       fatal("Not implemented for %s", type2name(bt));
 850   }
 851   return nullptr;
 852 }
 853 
 854 // Returns whether the shift amount is constant or effectively constant (low bits known).
 855 //
 856 // Parameters:
 857 //   masked_shift - always initialized to 0; if the function returns true, it indicates
 858 //                  the masked shift amount.

 819 
 820   // Masking off sign bits?  Dont make them!
 821   if (op == Op_RShiftL) {
 822     const TypeInt* t12 = phase->type(in1->in(2))->isa_int();
 823     if( t12 && t12->is_con() ) { // Shift is by a constant
 824       int shift = t12->get_con();
 825       shift &= BitsPerJavaLong - 1;  // semantics of Java shifts
 826       if (shift != 0) {
 827         const julong sign_bits_mask = ~(((julong)CONST64(1) << (julong)(BitsPerJavaLong - shift)) -1);
 828         // If the AND'ing of the 2 masks has no bits, then only original shifted
 829         // bits survive.  NO sign-extension bits survive the maskings.
 830         if( (sign_bits_mask & mask) == 0 ) {
 831           // Use zero-fill shift instead
 832           Node *zshift = phase->transform(new URShiftLNode(in1->in(1), in1->in(2)));
 833           return new AndLNode(zshift, in(2));
 834         }
 835       }
 836     }
 837   }
 838 
 839   // Search for GraphKit::mark_word_test patterns and fold the test if the result is statically known
 840   Node* load1 = in(1);
 841   Node* load2 = nullptr;
 842   if (load1->is_Phi() && phase->type(load1)->isa_long()) {
 843     load1 = in(1)->in(1);
 844     load2 = in(1)->in(2);
 845   }
 846   if (load1 != nullptr && load1->is_Load() && phase->type(load1)->isa_long() &&
 847       (load2 == nullptr || (load2->is_Load() && phase->type(load2)->isa_long()))) {
 848     const TypePtr* adr_t1 = phase->type(load1->in(MemNode::Address))->isa_ptr();
 849     const TypePtr* adr_t2 = (load2 != nullptr) ? phase->type(load2->in(MemNode::Address))->isa_ptr() : nullptr;
 850     if (adr_t1 != nullptr && adr_t1->offset() == oopDesc::mark_offset_in_bytes() &&
 851         (load2 == nullptr || (adr_t2 != nullptr && adr_t2->offset() == in_bytes(Klass::prototype_header_offset())))) {
 852       if (mask == markWord::inline_type_pattern) {
 853         if (adr_t1->is_inlinetypeptr()) {
 854           set_req_X(1, in(2), phase);
 855           return this;
 856         } else if (!adr_t1->can_be_inline_type()) {
 857           set_req_X(1, phase->longcon(0), phase);
 858           return this;
 859         }
 860       } else if (mask == markWord::null_free_array_bit_in_place) {
 861         if (adr_t1->is_null_free()) {
 862           set_req_X(1, in(2), phase);
 863           return this;
 864         } else if (adr_t1->is_not_null_free()) {
 865           set_req_X(1, phase->longcon(0), phase);
 866           return this;
 867         }
 868       } else if (mask == markWord::flat_array_bit_in_place) {
 869         if (adr_t1->is_flat()) {
 870           set_req_X(1, in(2), phase);
 871           return this;
 872         } else if (adr_t1->is_not_flat()) {
 873           set_req_X(1, phase->longcon(0), phase);
 874           return this;
 875         }
 876       }
 877     }
 878   }
 879 
 880   return MulNode::Ideal(phase, can_reshape);
 881 }
 882 
 883 LShiftNode* LShiftNode::make(Node* in1, Node* in2, BasicType bt) {
 884   switch (bt) {
 885     case T_INT:
 886       return new LShiftINode(in1, in2);
 887     case T_LONG:
 888       return new LShiftLNode(in1, in2);
 889     default:
 890       fatal("Not implemented for %s", type2name(bt));
 891   }
 892   return nullptr;
 893 }
 894 
 895 // Returns whether the shift amount is constant or effectively constant (low bits known).
 896 //
 897 // Parameters:
 898 //   masked_shift - always initialized to 0; if the function returns true, it indicates
 899 //                  the masked shift amount.