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src/hotspot/share/opto/divnode.cpp

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1601     const Type* divisor_type = phase->type(divisor());
1602     if (dividend_type == Type::TOP || divisor_type == Type::TOP) {
1603       return phase->C->top();
1604     }
1605     const Type* constant_result = get_result_if_constant(dividend_type, divisor_type);
1606     if (constant_result != nullptr) {
1607       return make_tuple_of_input_state_and_constant_result(igvn, constant_result);
1608     }
1609   }
1610 
1611   return CallLeafPureNode::Ideal(phase, can_reshape);
1612 }
1613 
1614 /* Give a tuple node for ::Ideal to return, made of the input state (control to return addr)
1615  * and the given constant result. Idealization of projections will make sure to transparently
1616  * propagate the input state and replace the result by the said constant.
1617  */
1618 TupleNode* ModFloatingNode::make_tuple_of_input_state_and_constant_result(PhaseIterGVN* phase, const Type* con) const {
1619   Node* con_node = phase->makecon(con);
1620   TupleNode* tuple = TupleNode::make(
1621       tf()->range(),
1622       in(TypeFunc::Control),
1623       in(TypeFunc::I_O),
1624       in(TypeFunc::Memory),
1625       in(TypeFunc::FramePtr),
1626       in(TypeFunc::ReturnAdr),
1627       con_node);
1628 
1629   return tuple;
1630 }
1631 
1632 //=============================================================================
1633 
1634 DivModNode::DivModNode( Node *c, Node *dividend, Node *divisor ) : MultiNode(3) {
1635   init_req(0, c);
1636   init_req(1, dividend);
1637   init_req(2, divisor);
1638 }
1639 
1640 DivModNode* DivModNode::make(Node* div_or_mod, BasicType bt, bool is_unsigned) {
1641   assert(bt == T_INT || bt == T_LONG, "only int or long input pattern accepted");

1664   DivModINode* divmod = new DivModINode(n->in(0), n->in(1), n->in(2));
1665   Node*        dproj  = new ProjNode(divmod, DivModNode::div_proj_num);
1666   Node*        mproj  = new ProjNode(divmod, DivModNode::mod_proj_num);
1667   return divmod;
1668 }
1669 
1670 //------------------------------make------------------------------------------
1671 DivModLNode* DivModLNode::make(Node* div_or_mod) {
1672   Node* n = div_or_mod;
1673   assert(n->Opcode() == Op_DivL || n->Opcode() == Op_ModL,
1674          "only div or mod input pattern accepted");
1675 
1676   DivModLNode* divmod = new DivModLNode(n->in(0), n->in(1), n->in(2));
1677   Node*        dproj  = new ProjNode(divmod, DivModNode::div_proj_num);
1678   Node*        mproj  = new ProjNode(divmod, DivModNode::mod_proj_num);
1679   return divmod;
1680 }
1681 
1682 //------------------------------match------------------------------------------
1683 // return result(s) along with their RegMask info
1684 Node *DivModINode::match( const ProjNode *proj, const Matcher *match ) {
1685   uint ideal_reg = proj->ideal_reg();
1686   RegMask rm;
1687   if (proj->_con == div_proj_num) {
1688     rm.assignFrom(match->divI_proj_mask());
1689   } else {
1690     assert(proj->_con == mod_proj_num, "must be div or mod projection");
1691     rm.assignFrom(match->modI_proj_mask());
1692   }
1693   return new MachProjNode(this, proj->_con, rm, ideal_reg);
1694 }
1695 
1696 
1697 //------------------------------match------------------------------------------
1698 // return result(s) along with their RegMask info
1699 Node *DivModLNode::match( const ProjNode *proj, const Matcher *match ) {
1700   uint ideal_reg = proj->ideal_reg();
1701   RegMask rm;
1702   if (proj->_con == div_proj_num) {
1703     rm.assignFrom(match->divL_proj_mask());
1704   } else {
1705     assert(proj->_con == mod_proj_num, "must be div or mod projection");
1706     rm.assignFrom(match->modL_proj_mask());
1707   }
1708   return new MachProjNode(this, proj->_con, rm, ideal_reg);
1709 }
1710 
1711 //------------------------------make------------------------------------------
1712 UDivModINode* UDivModINode::make(Node* div_or_mod) {
1713   Node* n = div_or_mod;
1714   assert(n->Opcode() == Op_UDivI || n->Opcode() == Op_UModI,
1715          "only div or mod input pattern accepted");
1716 
1717   UDivModINode* divmod = new UDivModINode(n->in(0), n->in(1), n->in(2));
1718   Node*        dproj  = new ProjNode(divmod, DivModNode::div_proj_num);
1719   Node*        mproj  = new ProjNode(divmod, DivModNode::mod_proj_num);
1720   return divmod;
1721 }
1722 
1723 //------------------------------make------------------------------------------
1724 UDivModLNode* UDivModLNode::make(Node* div_or_mod) {
1725   Node* n = div_or_mod;
1726   assert(n->Opcode() == Op_UDivL || n->Opcode() == Op_UModL,
1727          "only div or mod input pattern accepted");
1728 
1729   UDivModLNode* divmod = new UDivModLNode(n->in(0), n->in(1), n->in(2));
1730   Node*        dproj  = new ProjNode(divmod, DivModNode::div_proj_num);
1731   Node*        mproj  = new ProjNode(divmod, DivModNode::mod_proj_num);
1732   return divmod;
1733 }
1734 
1735 //------------------------------match------------------------------------------
1736 // return result(s) along with their RegMask info
1737 Node* UDivModINode::match( const ProjNode *proj, const Matcher *match ) {
1738   uint ideal_reg = proj->ideal_reg();
1739   RegMask rm;
1740   if (proj->_con == div_proj_num) {
1741     rm.assignFrom(match->divI_proj_mask());
1742   } else {
1743     assert(proj->_con == mod_proj_num, "must be div or mod projection");
1744     rm.assignFrom(match->modI_proj_mask());
1745   }
1746   return new MachProjNode(this, proj->_con, rm, ideal_reg);
1747 }
1748 
1749 
1750 //------------------------------match------------------------------------------
1751 // return result(s) along with their RegMask info
1752 Node* UDivModLNode::match( const ProjNode *proj, const Matcher *match ) {
1753   uint ideal_reg = proj->ideal_reg();
1754   RegMask rm;
1755   if (proj->_con == div_proj_num) {
1756     rm.assignFrom(match->divL_proj_mask());
1757   } else {
1758     assert(proj->_con == mod_proj_num, "must be div or mod projection");
1759     rm.assignFrom(match->modL_proj_mask());
1760   }
1761   return new MachProjNode(this, proj->_con, rm, ideal_reg);
1762 }

1601     const Type* divisor_type = phase->type(divisor());
1602     if (dividend_type == Type::TOP || divisor_type == Type::TOP) {
1603       return phase->C->top();
1604     }
1605     const Type* constant_result = get_result_if_constant(dividend_type, divisor_type);
1606     if (constant_result != nullptr) {
1607       return make_tuple_of_input_state_and_constant_result(igvn, constant_result);
1608     }
1609   }
1610 
1611   return CallLeafPureNode::Ideal(phase, can_reshape);
1612 }
1613 
1614 /* Give a tuple node for ::Ideal to return, made of the input state (control to return addr)
1615  * and the given constant result. Idealization of projections will make sure to transparently
1616  * propagate the input state and replace the result by the said constant.
1617  */
1618 TupleNode* ModFloatingNode::make_tuple_of_input_state_and_constant_result(PhaseIterGVN* phase, const Type* con) const {
1619   Node* con_node = phase->makecon(con);
1620   TupleNode* tuple = TupleNode::make(
1621       tf()->range_cc(),
1622       in(TypeFunc::Control),
1623       in(TypeFunc::I_O),
1624       in(TypeFunc::Memory),
1625       in(TypeFunc::FramePtr),
1626       in(TypeFunc::ReturnAdr),
1627       con_node);
1628 
1629   return tuple;
1630 }
1631 
1632 //=============================================================================
1633 
1634 DivModNode::DivModNode( Node *c, Node *dividend, Node *divisor ) : MultiNode(3) {
1635   init_req(0, c);
1636   init_req(1, dividend);
1637   init_req(2, divisor);
1638 }
1639 
1640 DivModNode* DivModNode::make(Node* div_or_mod, BasicType bt, bool is_unsigned) {
1641   assert(bt == T_INT || bt == T_LONG, "only int or long input pattern accepted");

1664   DivModINode* divmod = new DivModINode(n->in(0), n->in(1), n->in(2));
1665   Node*        dproj  = new ProjNode(divmod, DivModNode::div_proj_num);
1666   Node*        mproj  = new ProjNode(divmod, DivModNode::mod_proj_num);
1667   return divmod;
1668 }
1669 
1670 //------------------------------make------------------------------------------
1671 DivModLNode* DivModLNode::make(Node* div_or_mod) {
1672   Node* n = div_or_mod;
1673   assert(n->Opcode() == Op_DivL || n->Opcode() == Op_ModL,
1674          "only div or mod input pattern accepted");
1675 
1676   DivModLNode* divmod = new DivModLNode(n->in(0), n->in(1), n->in(2));
1677   Node*        dproj  = new ProjNode(divmod, DivModNode::div_proj_num);
1678   Node*        mproj  = new ProjNode(divmod, DivModNode::mod_proj_num);
1679   return divmod;
1680 }
1681 
1682 //------------------------------match------------------------------------------
1683 // return result(s) along with their RegMask info
1684 Node *DivModINode::match(const ProjNode *proj, const Matcher *match, const RegMask* mask) {
1685   uint ideal_reg = proj->ideal_reg();
1686   RegMask rm;
1687   if (proj->_con == div_proj_num) {
1688     rm.assignFrom(match->divI_proj_mask());
1689   } else {
1690     assert(proj->_con == mod_proj_num, "must be div or mod projection");
1691     rm.assignFrom(match->modI_proj_mask());
1692   }
1693   return new MachProjNode(this, proj->_con, rm, ideal_reg);
1694 }
1695 
1696 
1697 //------------------------------match------------------------------------------
1698 // return result(s) along with their RegMask info
1699 Node *DivModLNode::match(const ProjNode *proj, const Matcher *match, const RegMask* mask) {
1700   uint ideal_reg = proj->ideal_reg();
1701   RegMask rm;
1702   if (proj->_con == div_proj_num) {
1703     rm.assignFrom(match->divL_proj_mask());
1704   } else {
1705     assert(proj->_con == mod_proj_num, "must be div or mod projection");
1706     rm.assignFrom(match->modL_proj_mask());
1707   }
1708   return new MachProjNode(this, proj->_con, rm, ideal_reg);
1709 }
1710 
1711 //------------------------------make------------------------------------------
1712 UDivModINode* UDivModINode::make(Node* div_or_mod) {
1713   Node* n = div_or_mod;
1714   assert(n->Opcode() == Op_UDivI || n->Opcode() == Op_UModI,
1715          "only div or mod input pattern accepted");
1716 
1717   UDivModINode* divmod = new UDivModINode(n->in(0), n->in(1), n->in(2));
1718   Node*        dproj  = new ProjNode(divmod, DivModNode::div_proj_num);
1719   Node*        mproj  = new ProjNode(divmod, DivModNode::mod_proj_num);
1720   return divmod;
1721 }
1722 
1723 //------------------------------make------------------------------------------
1724 UDivModLNode* UDivModLNode::make(Node* div_or_mod) {
1725   Node* n = div_or_mod;
1726   assert(n->Opcode() == Op_UDivL || n->Opcode() == Op_UModL,
1727          "only div or mod input pattern accepted");
1728 
1729   UDivModLNode* divmod = new UDivModLNode(n->in(0), n->in(1), n->in(2));
1730   Node*        dproj  = new ProjNode(divmod, DivModNode::div_proj_num);
1731   Node*        mproj  = new ProjNode(divmod, DivModNode::mod_proj_num);
1732   return divmod;
1733 }
1734 
1735 //------------------------------match------------------------------------------
1736 // return result(s) along with their RegMask info
1737 Node* UDivModINode::match(const ProjNode* proj, const Matcher* match, const RegMask* mask) {
1738   uint ideal_reg = proj->ideal_reg();
1739   RegMask rm;
1740   if (proj->_con == div_proj_num) {
1741     rm.assignFrom(match->divI_proj_mask());
1742   } else {
1743     assert(proj->_con == mod_proj_num, "must be div or mod projection");
1744     rm.assignFrom(match->modI_proj_mask());
1745   }
1746   return new MachProjNode(this, proj->_con, rm, ideal_reg);
1747 }
1748 
1749 
1750 //------------------------------match------------------------------------------
1751 // return result(s) along with their RegMask info
1752 Node* UDivModLNode::match( const ProjNode* proj, const Matcher* match, const RegMask* mask) {
1753   uint ideal_reg = proj->ideal_reg();
1754   RegMask rm;
1755   if (proj->_con == div_proj_num) {
1756     rm.assignFrom(match->divL_proj_mask());
1757   } else {
1758     assert(proj->_con == mod_proj_num, "must be div or mod projection");
1759     rm.assignFrom(match->modL_proj_mask());
1760   }
1761   return new MachProjNode(this, proj->_con, rm, ideal_reg);
1762 }
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