0
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1 /*
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2 * Copyright 2005-2006 Sun Microsystems, Inc. All Rights Reserved.
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3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
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4 *
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5 * This code is free software; you can redistribute it and/or modify it
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6 * under the terms of the GNU General Public License version 2 only, as
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7 * published by the Free Software Foundation.
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8 *
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9 * This code is distributed in the hope that it will be useful, but WITHOUT
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10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
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11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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12 * version 2 for more details (a copy is included in the LICENSE file that
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13 * accompanied this code).
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14 *
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15 * You should have received a copy of the GNU General Public License version
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16 * 2 along with this work; if not, write to the Free Software Foundation,
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17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
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18 *
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19 * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
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20 * CA 95054 USA or visit www.sun.com if you need additional information or
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21 * have any questions.
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22 *
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23 */
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24
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25 // The classes responsible for code emission and register allocation
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26
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27
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28 class LIRGenerator;
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29 class LIREmitter;
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30 class Invoke;
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31 class SwitchRange;
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32 class LIRItem;
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33
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34 define_array(LIRItemArray, LIRItem*)
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35 define_stack(LIRItemList, LIRItemArray)
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36
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37 class SwitchRange: public CompilationResourceObj {
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38 private:
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39 int _low_key;
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40 int _high_key;
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41 BlockBegin* _sux;
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42 public:
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43 SwitchRange(int start_key, BlockBegin* sux): _low_key(start_key), _high_key(start_key), _sux(sux) {}
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44 void set_high_key(int key) { _high_key = key; }
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45
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46 int high_key() const { return _high_key; }
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47 int low_key() const { return _low_key; }
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48 BlockBegin* sux() const { return _sux; }
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49 };
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50
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51 define_array(SwitchRangeArray, SwitchRange*)
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52 define_stack(SwitchRangeList, SwitchRangeArray)
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53
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54
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55 class ResolveNode;
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56
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57 define_array(NodeArray, ResolveNode*);
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58 define_stack(NodeList, NodeArray);
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59
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60
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61 // Node objects form a directed graph of LIR_Opr
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62 // Edges between Nodes represent moves from one Node to its destinations
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63 class ResolveNode: public CompilationResourceObj {
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64 private:
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65 LIR_Opr _operand; // the source or destinaton
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66 NodeList _destinations; // for the operand
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67 bool _assigned; // Value assigned to this Node?
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68 bool _visited; // Node already visited?
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69 bool _start_node; // Start node already visited?
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70
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71 public:
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72 ResolveNode(LIR_Opr operand)
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73 : _operand(operand)
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74 , _assigned(false)
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75 , _visited(false)
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76 , _start_node(false) {};
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77
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78 // accessors
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79 LIR_Opr operand() const { return _operand; }
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80 int no_of_destinations() const { return _destinations.length(); }
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81 ResolveNode* destination_at(int i) { return _destinations[i]; }
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82 bool assigned() const { return _assigned; }
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83 bool visited() const { return _visited; }
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84 bool start_node() const { return _start_node; }
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85
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86 // modifiers
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87 void append(ResolveNode* dest) { _destinations.append(dest); }
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88 void set_assigned() { _assigned = true; }
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89 void set_visited() { _visited = true; }
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90 void set_start_node() { _start_node = true; }
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91 };
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92
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93
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94 // This is shared state to be used by the PhiResolver so the operand
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95 // arrays don't have to be reallocated for reach resolution.
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96 class PhiResolverState: public CompilationResourceObj {
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97 friend class PhiResolver;
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98
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99 private:
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100 NodeList _virtual_operands; // Nodes where the operand is a virtual register
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101 NodeList _other_operands; // Nodes where the operand is not a virtual register
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102 NodeList _vreg_table; // Mapping from virtual register to Node
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103
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104 public:
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105 PhiResolverState() {}
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106
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107 void reset(int max_vregs);
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108 };
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109
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110
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111 // class used to move value of phi operand to phi function
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112 class PhiResolver: public CompilationResourceObj {
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113 private:
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114 LIRGenerator* _gen;
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115 PhiResolverState& _state; // temporary state cached by LIRGenerator
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116
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117 ResolveNode* _loop;
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118 LIR_Opr _temp;
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119
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120 // access to shared state arrays
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121 NodeList& virtual_operands() { return _state._virtual_operands; }
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122 NodeList& other_operands() { return _state._other_operands; }
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123 NodeList& vreg_table() { return _state._vreg_table; }
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124
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125 ResolveNode* create_node(LIR_Opr opr, bool source);
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126 ResolveNode* source_node(LIR_Opr opr) { return create_node(opr, true); }
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127 ResolveNode* destination_node(LIR_Opr opr) { return create_node(opr, false); }
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128
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129 void emit_move(LIR_Opr src, LIR_Opr dest);
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130 void move_to_temp(LIR_Opr src);
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131 void move_temp_to(LIR_Opr dest);
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132 void move(ResolveNode* src, ResolveNode* dest);
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133
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134 LIRGenerator* gen() {
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135 return _gen;
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136 }
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137
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138 public:
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139 PhiResolver(LIRGenerator* _lir_gen, int max_vregs);
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140 ~PhiResolver();
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141
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142 void move(LIR_Opr src, LIR_Opr dest);
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143 };
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144
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145
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146 // only the classes below belong in the same file
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147 class LIRGenerator: public InstructionVisitor, public BlockClosure {
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148 private:
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149 Compilation* _compilation;
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150 ciMethod* _method; // method that we are compiling
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151 PhiResolverState _resolver_state;
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152 BlockBegin* _block;
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153 int _virtual_register_number;
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154 Values _instruction_for_operand;
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155 BitMap2D _vreg_flags; // flags which can be set on a per-vreg basis
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156 LIR_List* _lir;
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157
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158 LIRGenerator* gen() {
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159 return this;
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160 }
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161
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162 #ifdef ASSERT
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163 LIR_List* lir(const char * file, int line) const {
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164 _lir->set_file_and_line(file, line);
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165 return _lir;
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166 }
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167 #endif
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168 LIR_List* lir() const {
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169 return _lir;
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170 }
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171
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172 // a simple cache of constants used within a block
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173 GrowableArray<LIR_Const*> _constants;
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174 LIR_OprList _reg_for_constants;
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175 Values _unpinned_constants;
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176
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177 LIR_Const* _card_table_base;
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178
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179 friend class PhiResolver;
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180
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181 // unified bailout support
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182 void bailout(const char* msg) const { compilation()->bailout(msg); }
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183 bool bailed_out() const { return compilation()->bailed_out(); }
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184
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185 void block_do_prolog(BlockBegin* block);
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186 void block_do_epilog(BlockBegin* block);
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187
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188 // register allocation
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189 LIR_Opr rlock(Value instr); // lock a free register
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190 LIR_Opr rlock_result(Value instr);
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191 LIR_Opr rlock_result(Value instr, BasicType type);
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192 LIR_Opr rlock_byte(BasicType type);
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193 LIR_Opr rlock_callee_saved(BasicType type);
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194
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195 // get a constant into a register and get track of what register was used
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196 LIR_Opr load_constant(Constant* x);
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197 LIR_Opr load_constant(LIR_Const* constant);
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198
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199 LIR_Const* card_table_base() const { return _card_table_base; }
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200
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201 void set_result(Value x, LIR_Opr opr) {
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202 assert(opr->is_valid(), "must set to valid value");
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203 assert(x->operand()->is_illegal(), "operand should never change");
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204 assert(!opr->is_register() || opr->is_virtual(), "should never set result to a physical register");
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205 x->set_operand(opr);
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206 assert(opr == x->operand(), "must be");
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207 if (opr->is_virtual()) {
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208 _instruction_for_operand.at_put_grow(opr->vreg_number(), x, NULL);
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209 }
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210 }
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211 void set_no_result(Value x) { assert(!x->has_uses(), "can't have use"); x->clear_operand(); }
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212
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213 friend class LIRItem;
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214
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215 LIR_Opr round_item(LIR_Opr opr);
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216 LIR_Opr force_to_spill(LIR_Opr value, BasicType t);
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217
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218 void profile_branch(If* if_instr, If::Condition cond);
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219
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220 PhiResolverState& resolver_state() { return _resolver_state; }
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221
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222 void move_to_phi(PhiResolver* resolver, Value cur_val, Value sux_val);
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223 void move_to_phi(ValueStack* cur_state);
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224
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225 // code emission
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226 void do_ArithmeticOp_Long (ArithmeticOp* x);
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227 void do_ArithmeticOp_Int (ArithmeticOp* x);
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228 void do_ArithmeticOp_FPU (ArithmeticOp* x);
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229
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230 // platform dependent
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231 LIR_Opr getThreadPointer();
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232
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233 void do_RegisterFinalizer(Intrinsic* x);
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234 void do_getClass(Intrinsic* x);
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235 void do_currentThread(Intrinsic* x);
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236 void do_MathIntrinsic(Intrinsic* x);
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237 void do_ArrayCopy(Intrinsic* x);
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238 void do_CompareAndSwap(Intrinsic* x, ValueType* type);
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239 void do_AttemptUpdate(Intrinsic* x);
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240 void do_NIOCheckIndex(Intrinsic* x);
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241 void do_FPIntrinsics(Intrinsic* x);
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242
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243 void do_UnsafePrefetch(UnsafePrefetch* x, bool is_store);
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244
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245 LIR_Opr call_runtime(BasicTypeArray* signature, LIRItemList* args, address entry, ValueType* result_type, CodeEmitInfo* info);
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246 LIR_Opr call_runtime(BasicTypeArray* signature, LIR_OprList* args, address entry, ValueType* result_type, CodeEmitInfo* info);
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247
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248 // convenience functions
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249 LIR_Opr call_runtime(Value arg1, address entry, ValueType* result_type, CodeEmitInfo* info);
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250 LIR_Opr call_runtime(Value arg1, Value arg2, address entry, ValueType* result_type, CodeEmitInfo* info);
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251
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252 // GC Barriers
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253
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254 // generic interface
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255
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256 void post_barrier(LIR_OprDesc* addr, LIR_OprDesc* new_val);
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257
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258 // specific implementations
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259
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260 // post barriers
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261
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262 void CardTableModRef_post_barrier(LIR_OprDesc* addr, LIR_OprDesc* new_val);
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263
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264
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265 static LIR_Opr result_register_for(ValueType* type, bool callee = false);
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266
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267 ciObject* get_jobject_constant(Value value);
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268
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269 LIRItemList* invoke_visit_arguments(Invoke* x);
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270 void invoke_load_arguments(Invoke* x, LIRItemList* args, const LIR_OprList* arg_list);
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271
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272 void trace_block_entry(BlockBegin* block);
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273
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274 // volatile field operations are never patchable because a klass
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275 // must be loaded to know it's volatile which means that the offset
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276 // it always known as well.
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277 void volatile_field_store(LIR_Opr value, LIR_Address* address, CodeEmitInfo* info);
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278 void volatile_field_load(LIR_Address* address, LIR_Opr result, CodeEmitInfo* info);
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279
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280 void put_Object_unsafe(LIR_Opr src, LIR_Opr offset, LIR_Opr data, BasicType type, bool is_volatile);
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281 void get_Object_unsafe(LIR_Opr dest, LIR_Opr src, LIR_Opr offset, BasicType type, bool is_volatile);
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282
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283 void arithmetic_call_op (Bytecodes::Code code, LIR_Opr result, LIR_OprList* args);
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284
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285 void increment_counter(address counter, int step = 1);
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286 void increment_counter(LIR_Address* addr, int step = 1);
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287
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288 // increment a counter returning the incremented value
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289 LIR_Opr increment_and_return_counter(LIR_Opr base, int offset, int increment);
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290
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291 // is_strictfp is only needed for mul and div (and only generates different code on i486)
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292 void arithmetic_op(Bytecodes::Code code, LIR_Opr result, LIR_Opr left, LIR_Opr right, bool is_strictfp, LIR_Opr tmp, CodeEmitInfo* info = NULL);
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293 // machine dependent. returns true if it emitted code for the multiply
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294 bool strength_reduce_multiply(LIR_Opr left, int constant, LIR_Opr result, LIR_Opr tmp);
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295
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296 void store_stack_parameter (LIR_Opr opr, ByteSize offset_from_sp_in_bytes);
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297
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298 void jobject2reg_with_patching(LIR_Opr r, ciObject* obj, CodeEmitInfo* info);
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299
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300 // this loads the length and compares against the index
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301 void array_range_check (LIR_Opr array, LIR_Opr index, CodeEmitInfo* null_check_info, CodeEmitInfo* range_check_info);
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302 // For java.nio.Buffer.checkIndex
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303 void nio_range_check (LIR_Opr buffer, LIR_Opr index, LIR_Opr result, CodeEmitInfo* info);
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304
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305 void arithmetic_op_int (Bytecodes::Code code, LIR_Opr result, LIR_Opr left, LIR_Opr right, LIR_Opr tmp);
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306 void arithmetic_op_long (Bytecodes::Code code, LIR_Opr result, LIR_Opr left, LIR_Opr right, CodeEmitInfo* info = NULL);
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307 void arithmetic_op_fpu (Bytecodes::Code code, LIR_Opr result, LIR_Opr left, LIR_Opr right, bool is_strictfp, LIR_Opr tmp = LIR_OprFact::illegalOpr);
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308
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309 void shift_op (Bytecodes::Code code, LIR_Opr dst_reg, LIR_Opr value, LIR_Opr count, LIR_Opr tmp);
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310
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311 void logic_op (Bytecodes::Code code, LIR_Opr dst_reg, LIR_Opr left, LIR_Opr right);
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312
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313 void monitor_enter (LIR_Opr object, LIR_Opr lock, LIR_Opr hdr, LIR_Opr scratch, int monitor_no, CodeEmitInfo* info_for_exception, CodeEmitInfo* info);
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314 void monitor_exit (LIR_Opr object, LIR_Opr lock, LIR_Opr hdr, int monitor_no);
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315
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316 void new_instance (LIR_Opr dst, ciInstanceKlass* klass, LIR_Opr scratch1, LIR_Opr scratch2, LIR_Opr scratch3, LIR_Opr scratch4, LIR_Opr klass_reg, CodeEmitInfo* info);
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317
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318 // machine dependent
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319 void cmp_mem_int(LIR_Condition condition, LIR_Opr base, int disp, int c, CodeEmitInfo* info);
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320 void cmp_reg_mem(LIR_Condition condition, LIR_Opr reg, LIR_Opr base, int disp, BasicType type, CodeEmitInfo* info);
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321 void cmp_reg_mem(LIR_Condition condition, LIR_Opr reg, LIR_Opr base, LIR_Opr disp, BasicType type, CodeEmitInfo* info);
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322
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323 void arraycopy_helper(Intrinsic* x, int* flags, ciArrayKlass** expected_type);
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324
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325 // returns a LIR_Address to address an array location. May also
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326 // emit some code as part of address calculation. If
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327 // needs_card_mark is true then compute the full address for use by
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328 // both the store and the card mark.
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329 LIR_Address* generate_address(LIR_Opr base,
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330 LIR_Opr index, int shift,
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331 int disp,
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332 BasicType type);
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333 LIR_Address* generate_address(LIR_Opr base, int disp, BasicType type) {
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334 return generate_address(base, LIR_OprFact::illegalOpr, 0, disp, type);
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335 }
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336 LIR_Address* emit_array_address(LIR_Opr array_opr, LIR_Opr index_opr, BasicType type, bool needs_card_mark);
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337
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338 // machine preferences and characteristics
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339 bool can_inline_as_constant(Value i) const;
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340 bool can_inline_as_constant(LIR_Const* c) const;
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341 bool can_store_as_constant(Value i, BasicType type) const;
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342
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343 LIR_Opr safepoint_poll_register();
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344 void increment_invocation_counter(CodeEmitInfo* info, bool backedge = false);
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345 void increment_backedge_counter(CodeEmitInfo* info) {
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346 increment_invocation_counter(info, true);
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347 }
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348
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349 CodeEmitInfo* state_for(Instruction* x, ValueStack* state, bool ignore_xhandler = false);
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350 CodeEmitInfo* state_for(Instruction* x);
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351
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352 // allocates a virtual register for this instruction if
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353 // one isn't already allocated. Only for Phi and Local.
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354 LIR_Opr operand_for_instruction(Instruction *x);
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355
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356 void set_block(BlockBegin* block) { _block = block; }
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357
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358 void block_prolog(BlockBegin* block);
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359 void block_epilog(BlockBegin* block);
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360
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361 void do_root (Instruction* instr);
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362 void walk (Instruction* instr);
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363
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364 void bind_block_entry(BlockBegin* block);
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365 void start_block(BlockBegin* block);
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366
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367 LIR_Opr new_register(BasicType type);
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368 LIR_Opr new_register(Value value) { return new_register(as_BasicType(value->type())); }
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369 LIR_Opr new_register(ValueType* type) { return new_register(as_BasicType(type)); }
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370
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371 // returns a register suitable for doing pointer math
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372 LIR_Opr new_pointer_register() {
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373 #ifdef _LP64
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374 return new_register(T_LONG);
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375 #else
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376 return new_register(T_INT);
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377 #endif
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378 }
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379
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380 static LIR_Condition lir_cond(If::Condition cond) {
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381 LIR_Condition l;
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382 switch (cond) {
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383 case If::eql: l = lir_cond_equal; break;
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384 case If::neq: l = lir_cond_notEqual; break;
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385 case If::lss: l = lir_cond_less; break;
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386 case If::leq: l = lir_cond_lessEqual; break;
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387 case If::geq: l = lir_cond_greaterEqual; break;
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388 case If::gtr: l = lir_cond_greater; break;
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389 };
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390 return l;
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391 }
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392
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393 void init();
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394
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395 SwitchRangeArray* create_lookup_ranges(TableSwitch* x);
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396 SwitchRangeArray* create_lookup_ranges(LookupSwitch* x);
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397 void do_SwitchRanges(SwitchRangeArray* x, LIR_Opr value, BlockBegin* default_sux);
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398
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399 public:
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400 Compilation* compilation() const { return _compilation; }
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401 FrameMap* frame_map() const { return _compilation->frame_map(); }
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402 ciMethod* method() const { return _method; }
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403 BlockBegin* block() const { return _block; }
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404 IRScope* scope() const { return block()->scope(); }
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405
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406 int max_virtual_register_number() const { return _virtual_register_number; }
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407
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408 void block_do(BlockBegin* block);
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409
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410 // Flags that can be set on vregs
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411 enum VregFlag {
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412 must_start_in_memory = 0 // needs to be assigned a memory location at beginning, but may then be loaded in a register
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413 , callee_saved = 1 // must be in a callee saved register
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414 , byte_reg = 2 // must be in a byte register
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415 , num_vreg_flags
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416
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417 };
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418
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419 LIRGenerator(Compilation* compilation, ciMethod* method)
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420 : _compilation(compilation)
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421 , _method(method)
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422 , _virtual_register_number(LIR_OprDesc::vreg_base)
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423 , _vreg_flags(NULL, 0, num_vreg_flags) {
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424 init();
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425 }
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426
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427 // for virtual registers, maps them back to Phi's or Local's
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428 Instruction* instruction_for_opr(LIR_Opr opr);
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429 Instruction* instruction_for_vreg(int reg_num);
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430
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431 void set_vreg_flag (int vreg_num, VregFlag f);
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432 bool is_vreg_flag_set(int vreg_num, VregFlag f);
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433 void set_vreg_flag (LIR_Opr opr, VregFlag f) { set_vreg_flag(opr->vreg_number(), f); }
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434 bool is_vreg_flag_set(LIR_Opr opr, VregFlag f) { return is_vreg_flag_set(opr->vreg_number(), f); }
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435
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436 // statics
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437 static LIR_Opr exceptionOopOpr();
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438 static LIR_Opr exceptionPcOpr();
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439 static LIR_Opr divInOpr();
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440 static LIR_Opr divOutOpr();
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441 static LIR_Opr remOutOpr();
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442 static LIR_Opr shiftCountOpr();
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443 LIR_Opr syncTempOpr();
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444
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445 // returns a register suitable for saving the thread in a
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446 // call_runtime_leaf if one is needed.
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447 LIR_Opr getThreadTemp();
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448
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449 // visitor functionality
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450 virtual void do_Phi (Phi* x);
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451 virtual void do_Local (Local* x);
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452 virtual void do_Constant (Constant* x);
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453 virtual void do_LoadField (LoadField* x);
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454 virtual void do_StoreField (StoreField* x);
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455 virtual void do_ArrayLength (ArrayLength* x);
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456 virtual void do_LoadIndexed (LoadIndexed* x);
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457 virtual void do_StoreIndexed (StoreIndexed* x);
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458 virtual void do_NegateOp (NegateOp* x);
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459 virtual void do_ArithmeticOp (ArithmeticOp* x);
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460 virtual void do_ShiftOp (ShiftOp* x);
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461 virtual void do_LogicOp (LogicOp* x);
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462 virtual void do_CompareOp (CompareOp* x);
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463 virtual void do_IfOp (IfOp* x);
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464 virtual void do_Convert (Convert* x);
|
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465 virtual void do_NullCheck (NullCheck* x);
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466 virtual void do_Invoke (Invoke* x);
|
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467 virtual void do_NewInstance (NewInstance* x);
|
|
468 virtual void do_NewTypeArray (NewTypeArray* x);
|
|
469 virtual void do_NewObjectArray (NewObjectArray* x);
|
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470 virtual void do_NewMultiArray (NewMultiArray* x);
|
|
471 virtual void do_CheckCast (CheckCast* x);
|
|
472 virtual void do_InstanceOf (InstanceOf* x);
|
|
473 virtual void do_MonitorEnter (MonitorEnter* x);
|
|
474 virtual void do_MonitorExit (MonitorExit* x);
|
|
475 virtual void do_Intrinsic (Intrinsic* x);
|
|
476 virtual void do_BlockBegin (BlockBegin* x);
|
|
477 virtual void do_Goto (Goto* x);
|
|
478 virtual void do_If (If* x);
|
|
479 virtual void do_IfInstanceOf (IfInstanceOf* x);
|
|
480 virtual void do_TableSwitch (TableSwitch* x);
|
|
481 virtual void do_LookupSwitch (LookupSwitch* x);
|
|
482 virtual void do_Return (Return* x);
|
|
483 virtual void do_Throw (Throw* x);
|
|
484 virtual void do_Base (Base* x);
|
|
485 virtual void do_OsrEntry (OsrEntry* x);
|
|
486 virtual void do_ExceptionObject(ExceptionObject* x);
|
|
487 virtual void do_RoundFP (RoundFP* x);
|
|
488 virtual void do_UnsafeGetRaw (UnsafeGetRaw* x);
|
|
489 virtual void do_UnsafePutRaw (UnsafePutRaw* x);
|
|
490 virtual void do_UnsafeGetObject(UnsafeGetObject* x);
|
|
491 virtual void do_UnsafePutObject(UnsafePutObject* x);
|
|
492 virtual void do_UnsafePrefetchRead (UnsafePrefetchRead* x);
|
|
493 virtual void do_UnsafePrefetchWrite(UnsafePrefetchWrite* x);
|
|
494 virtual void do_ProfileCall (ProfileCall* x);
|
|
495 virtual void do_ProfileCounter (ProfileCounter* x);
|
|
496 };
|
|
497
|
|
498
|
|
499 class LIRItem: public CompilationResourceObj {
|
|
500 private:
|
|
501 Value _value;
|
|
502 LIRGenerator* _gen;
|
|
503 LIR_Opr _result;
|
|
504 bool _destroys_register;
|
|
505 LIR_Opr _new_result;
|
|
506
|
|
507 LIRGenerator* gen() const { return _gen; }
|
|
508
|
|
509 public:
|
|
510 LIRItem(Value value, LIRGenerator* gen) {
|
|
511 _destroys_register = false;
|
|
512 _gen = gen;
|
|
513 set_instruction(value);
|
|
514 }
|
|
515
|
|
516 LIRItem(LIRGenerator* gen) {
|
|
517 _destroys_register = false;
|
|
518 _gen = gen;
|
|
519 _result = LIR_OprFact::illegalOpr;
|
|
520 set_instruction(NULL);
|
|
521 }
|
|
522
|
|
523 void set_instruction(Value value) {
|
|
524 _value = value;
|
|
525 _result = LIR_OprFact::illegalOpr;
|
|
526 if (_value != NULL) {
|
|
527 _gen->walk(_value);
|
|
528 _result = _value->operand();
|
|
529 }
|
|
530 _new_result = LIR_OprFact::illegalOpr;
|
|
531 }
|
|
532
|
|
533 Value value() const { return _value; }
|
|
534 ValueType* type() const { return value()->type(); }
|
|
535 LIR_Opr result() {
|
|
536 assert(!_destroys_register || (!_result->is_register() || _result->is_virtual()),
|
|
537 "shouldn't use set_destroys_register with physical regsiters");
|
|
538 if (_destroys_register && _result->is_register()) {
|
|
539 if (_new_result->is_illegal()) {
|
|
540 _new_result = _gen->new_register(type());
|
|
541 gen()->lir()->move(_result, _new_result);
|
|
542 }
|
|
543 return _new_result;
|
|
544 } else {
|
|
545 return _result;
|
|
546 }
|
|
547 return _result;
|
|
548 }
|
|
549
|
|
550 void set_result(LIR_Opr opr);
|
|
551
|
|
552 void load_item();
|
|
553 void load_byte_item();
|
|
554 void load_nonconstant();
|
|
555 // load any values which can't be expressed as part of a single store instruction
|
|
556 void load_for_store(BasicType store_type);
|
|
557 void load_item_force(LIR_Opr reg);
|
|
558
|
|
559 void dont_load_item() {
|
|
560 // do nothing
|
|
561 }
|
|
562
|
|
563 void set_destroys_register() {
|
|
564 _destroys_register = true;
|
|
565 }
|
|
566
|
|
567 bool is_constant() const { return value()->as_Constant() != NULL; }
|
|
568 bool is_stack() { return result()->is_stack(); }
|
|
569 bool is_register() { return result()->is_register(); }
|
|
570
|
|
571 ciObject* get_jobject_constant() const;
|
|
572 jint get_jint_constant() const;
|
|
573 jlong get_jlong_constant() const;
|
|
574 jfloat get_jfloat_constant() const;
|
|
575 jdouble get_jdouble_constant() const;
|
|
576 jint get_address_constant() const;
|
|
577 };
|