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1 /*
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2 * Copyright 1999-2005 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 // ciBytecodeStream
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26 //
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27 // The class is used to iterate over the bytecodes of a method.
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28 // It hides the details of constant pool structure/access by
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29 // providing accessors for constant pool items. It returns only pure
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30 // Java bytecodes; VM-internal _fast bytecodes are translated back to
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31 // their original form during iteration.
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32 class ciBytecodeStream : StackObj {
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33 private:
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34 // Handling for the weird bytecodes
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35 Bytecodes::Code wide(); // Handle wide bytecode
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36 Bytecodes::Code table(Bytecodes::Code); // Handle complicated inline table
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37
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38 static Bytecodes::Code check_java(Bytecodes::Code c) {
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39 assert(Bytecodes::is_java_code(c), "should not return _fast bytecodes");
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40 return c;
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41 }
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42
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43 ciMethod* _method; // the method
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44 ciInstanceKlass* _holder;
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45 address _bc_start; // Start of current bytecode for table
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46 address _was_wide; // Address past last wide bytecode
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47 jint* _table_base; // Aligned start of last table or switch
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48
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49 address _start; // Start of bytecodes
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50 address _end; // Past end of bytecodes
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51 address _pc; // Current PC
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52 Bytecodes::Code _bc; // Current bytecode
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53
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54 void reset( address base, unsigned int size ) {
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55 _bc_start =_was_wide = 0;
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56 _start = _pc = base; _end = base + size; }
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57
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58 public:
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59 // End-Of-Bytecodes
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60 static Bytecodes::Code EOBC() {
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61 return Bytecodes::_illegal;
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62 }
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63
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64 ciBytecodeStream(ciMethod* m) {
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65 reset_to_method(m);
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66 }
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67
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68 ciBytecodeStream() {
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69 reset_to_method(NULL);
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70 }
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71
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72 ciMethod* method() const { return _method; }
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73
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74 void reset_to_method(ciMethod* m) {
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75 _method = m;
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76 if (m == NULL) {
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77 _holder = NULL;
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78 reset(NULL, 0);
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79 } else {
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80 _holder = m->holder();
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81 reset(m->code(), m->code_size());
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82 }
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83 }
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84
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85 void reset_to_bci( int bci );
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86
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87 // Force the iterator to report a certain bci.
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88 void force_bci(int bci);
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89
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90 void set_max_bci( int max ) {
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91 _end = _start + max;
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92 }
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93
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94 address cur_bcp() { return _bc_start; } // Returns bcp to current instruction
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95 int next_bci() const { return _pc -_start; }
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96 int cur_bci() const { return _bc_start - _start; }
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97
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98 Bytecodes::Code cur_bc() const{ return check_java(_bc); }
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99 Bytecodes::Code next_bc() { return Bytecodes::java_code((Bytecodes::Code)* _pc); }
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100
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101 // Return current ByteCode and increment PC to next bytecode, skipping all
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102 // intermediate constants. Returns EOBC at end.
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103 // Expected usage:
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104 // while( (bc = iter.next()) != EOBC() ) { ... }
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105 Bytecodes::Code next() {
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106 _bc_start = _pc; // Capture start of bc
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107 if( _pc >= _end ) return EOBC(); // End-Of-Bytecodes
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108
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109 // Fetch Java bytecode
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110 // All rewritten bytecodes maintain the size of original bytecode.
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111 _bc = Bytecodes::java_code((Bytecodes::Code)*_pc);
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112 int csize = Bytecodes::length_for(_bc); // Expected size
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113
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114 if( _bc == Bytecodes::_wide ) {
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115 _bc=wide(); // Handle wide bytecode
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116 } else if( csize == 0 ) {
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117 _bc=table(_bc); // Handle inline tables
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118 } else {
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119 _pc += csize; // Bump PC past bytecode
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120 }
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121 return check_java(_bc);
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122 }
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123
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124 bool is_wide() { return ( _pc == _was_wide ); }
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125
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126 // Get a byte index following this bytecode.
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127 // If prefixed with a wide bytecode, get a wide index.
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128 int get_index() const {
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129 return (_pc == _was_wide) // was widened?
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130 ? Bytes::get_Java_u2(_bc_start+2) // yes, return wide index
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131 : _bc_start[1]; // no, return narrow index
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132 }
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133
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134 // Set a byte index following this bytecode.
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135 // If prefixed with a wide bytecode, get a wide index.
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136 void put_index(int idx) {
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137 if (_pc == _was_wide) // was widened?
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138 Bytes::put_Java_u2(_bc_start+2,idx); // yes, set wide index
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139 else
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140 _bc_start[1]=idx; // no, set narrow index
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141 }
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142
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143 // Get 2-byte index (getfield/putstatic/etc)
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144 int get_index_big() const { return Bytes::get_Java_u2(_bc_start+1); }
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145
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146 // Get dimensions byte (multinewarray)
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147 int get_dimensions() const { return *(unsigned char*)(_pc-1); }
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148
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149 // Get unsigned index fast
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150 int get_index_fast() const { return Bytes::get_native_u2(_pc-2); }
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151
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152 // Sign-extended index byte/short, no widening
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153 int get_byte() const { return (int8_t)(_pc[-1]); }
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154 int get_short() const { return (int16_t)Bytes::get_Java_u2(_pc-2); }
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155 int get_long() const { return (int32_t)Bytes::get_Java_u4(_pc-4); }
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156
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157 // Get a byte signed constant for "iinc". Invalid for other bytecodes.
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158 // If prefixed with a wide bytecode, get a wide constant
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159 int get_iinc_con() const {return (_pc==_was_wide) ? get_short() :get_byte();}
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160
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161 // 2-byte branch offset from current pc
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162 int get_dest( ) const {
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163 assert( Bytecodes::length_at(_bc_start) == sizeof(jshort)+1, "get_dest called with bad bytecode" );
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164 return _bc_start-_start + (short)Bytes::get_Java_u2(_pc-2);
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165 }
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166
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167 // 2-byte branch offset from next pc
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168 int next_get_dest( ) const {
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169 address next_bc_start = _pc;
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170 assert( _pc < _end, "" );
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171 Bytecodes::Code next_bc = (Bytecodes::Code)*_pc;
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172 assert( next_bc != Bytecodes::_wide, "");
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173 int next_csize = Bytecodes::length_for(next_bc);
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174 assert( next_csize != 0, "" );
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175 assert( next_bc <= Bytecodes::_jsr_w, "");
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176 address next_pc = _pc + next_csize;
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177 assert( Bytecodes::length_at(next_bc_start) == sizeof(jshort)+1, "next_get_dest called with bad bytecode" );
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178 return next_bc_start-_start + (short)Bytes::get_Java_u2(next_pc-2);
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179 }
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180
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181 // 4-byte branch offset from current pc
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182 int get_far_dest( ) const {
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183 assert( Bytecodes::length_at(_bc_start) == sizeof(jint)+1, "dest4 called with bad bytecode" );
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184 return _bc_start-_start + (int)Bytes::get_Java_u4(_pc-4);
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185 }
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186
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187 // For a lookup or switch table, return target destination
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188 int get_int_table( int index ) const {
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189 return Bytes::get_Java_u4((address)&_table_base[index]); }
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190
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191 // For tableswitch - get length of offset part
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192 int get_tableswitch_length() { return get_int_table(2)-get_int_table(1)+1; }
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193
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194 int get_dest_table( int index ) const {
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195 return cur_bci() + get_int_table(index); }
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196
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197 // --- Constant pool access ---
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198 int get_constant_index() const;
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199 int get_field_index();
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200 int get_method_index();
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201
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202 // If this bytecode is a new, newarray, multianewarray, instanceof,
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203 // or checkcast, get the referenced klass.
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204 ciKlass* get_klass(bool& will_link);
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205 int get_klass_index() const;
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206
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207 // If this bytecode is one of the ldc variants, get the referenced
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208 // constant
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209 ciConstant get_constant();
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210 // True if the ldc variant points to an unresolved string
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211 bool is_unresolved_string() const;
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212 // True if the ldc variant points to an unresolved klass
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213 bool is_unresolved_klass() const;
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214
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215 // If this bytecode is one of get_field, get_static, put_field,
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216 // or put_static, get the referenced field.
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217 ciField* get_field(bool& will_link);
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218
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219 ciInstanceKlass* get_declared_field_holder();
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220 int get_field_holder_index();
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221 int get_field_signature_index();
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222
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223 // If this is a method invocation bytecode, get the invoked method.
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224 ciMethod* get_method(bool& will_link);
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225 ciKlass* get_declared_method_holder();
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226 int get_method_holder_index();
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227 int get_method_signature_index();
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228 };
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229
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230
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231 // ciSignatureStream
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232 //
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233 // The class is used to iterate over the elements of a method signature.
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234 class ciSignatureStream : public StackObj {
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235 private:
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236 ciSignature* _sig;
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237 int _pos;
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238 public:
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239 ciSignatureStream(ciSignature* signature) {
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240 _sig = signature;
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241 _pos = 0;
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242 }
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243
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244 bool at_return_type() { return _pos == _sig->count(); }
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245
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246 bool is_done() { return _pos > _sig->count(); }
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247
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248 void next() {
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249 if (_pos <= _sig->count()) {
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250 _pos++;
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251 }
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252 }
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253
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254 ciType* type() {
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255 if (at_return_type()) {
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256 return _sig->return_type();
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257 } else {
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258 return _sig->type_at(_pos);
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259 }
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260 }
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261 };
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262
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263
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264 // ciExceptionHandlerStream
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265 //
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266 // The class is used to iterate over the exception handlers of
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267 // a method.
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268 class ciExceptionHandlerStream : public StackObj {
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269 private:
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270 // The method whose handlers we are traversing
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271 ciMethod* _method;
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272
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273 // Our current position in the list of handlers
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274 int _pos;
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275 int _end;
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276
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277 ciInstanceKlass* _exception_klass;
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278 int _bci;
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279 bool _is_exact;
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280
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281 public:
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282 ciExceptionHandlerStream(ciMethod* method) {
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283 _method = method;
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284
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285 // Force loading of method code and handlers.
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286 _method->code();
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287
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288 _pos = 0;
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289 _end = _method->_handler_count;
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290 _exception_klass = NULL;
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291 _bci = -1;
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292 _is_exact = false;
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293 }
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294
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295 ciExceptionHandlerStream(ciMethod* method, int bci,
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296 ciInstanceKlass* exception_klass = NULL,
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297 bool is_exact = false) {
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298 _method = method;
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299
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300 // Force loading of method code and handlers.
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301 _method->code();
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302
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303 _pos = -1;
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304 _end = _method->_handler_count + 1; // include the rethrow handler
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305 _exception_klass = (exception_klass != NULL && exception_klass->is_loaded()
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306 ? exception_klass
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307 : NULL);
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308 _bci = bci;
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309 assert(_bci >= 0, "bci out of range");
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310 _is_exact = is_exact;
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311 next();
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312 }
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313
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314 // These methods are currently implemented in an odd way.
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315 // Count the number of handlers the iterator has ever produced
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316 // or will ever produce. Do not include the final rethrow handler.
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317 // That is, a trivial exception handler stream will have a count
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318 // of zero and produce just the rethrow handler.
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319 int count();
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320
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321 // Count the number of handlers this stream will produce from now on.
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322 // Include the current handler, and the final rethrow handler.
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323 // The remaining count will be zero iff is_done() is true,
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324 int count_remaining();
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325
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326 bool is_done() {
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327 return (_pos >= _end);
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328 }
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329
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330 void next() {
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331 _pos++;
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332 if (_bci != -1) {
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333 // We are not iterating over all handlers...
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334 while (!is_done()) {
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335 ciExceptionHandler* handler = _method->_exception_handlers[_pos];
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336 if (handler->is_in_range(_bci)) {
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337 if (handler->is_catch_all()) {
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338 // Found final active catch block.
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339 _end = _pos+1;
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340 return;
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341 } else if (_exception_klass == NULL || !handler->catch_klass()->is_loaded()) {
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342 // We cannot do any type analysis here. Must conservatively assume
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343 // catch block is reachable.
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344 return;
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345 } else if (_exception_klass->is_subtype_of(handler->catch_klass())) {
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346 // This catch clause will definitely catch the exception.
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347 // Final candidate.
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348 _end = _pos+1;
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349 return;
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350 } else if (!_is_exact &&
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351 handler->catch_klass()->is_subtype_of(_exception_klass)) {
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352 // This catch block may be reachable.
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353 return;
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354 }
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355 }
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356
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357 // The catch block was not pertinent. Go on.
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358 _pos++;
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359 }
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360 } else {
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361 // This is an iteration over all handlers.
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362 return;
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363 }
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364 }
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365
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366 ciExceptionHandler* handler() {
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367 return _method->_exception_handlers[_pos];
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368 }
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369 };
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