0
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1 /*
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2 * Copyright 2000-2007 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 #include "incls/_precompiled.incl"
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26 #include "incls/_ciTypeFlow.cpp.incl"
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27
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28 // ciTypeFlow::JsrSet
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29 //
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30 // A JsrSet represents some set of JsrRecords. This class
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31 // is used to record a set of all jsr routines which we permit
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32 // execution to return (ret) from.
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33 //
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34 // During abstract interpretation, JsrSets are used to determine
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35 // whether two paths which reach a given block are unique, and
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36 // should be cloned apart, or are compatible, and should merge
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37 // together.
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38
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39 // ------------------------------------------------------------------
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40 // ciTypeFlow::JsrSet::JsrSet
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41 ciTypeFlow::JsrSet::JsrSet(Arena* arena, int default_len) {
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42 if (arena != NULL) {
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43 // Allocate growable array in Arena.
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44 _set = new (arena) GrowableArray<JsrRecord*>(arena, default_len, 0, NULL);
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45 } else {
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46 // Allocate growable array in current ResourceArea.
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47 _set = new GrowableArray<JsrRecord*>(4, 0, NULL, false);
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48 }
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49 }
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50
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51 // ------------------------------------------------------------------
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52 // ciTypeFlow::JsrSet::copy_into
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53 void ciTypeFlow::JsrSet::copy_into(JsrSet* jsrs) {
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54 int len = size();
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55 jsrs->_set->clear();
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56 for (int i = 0; i < len; i++) {
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57 jsrs->_set->append(_set->at(i));
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58 }
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59 }
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60
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61 // ------------------------------------------------------------------
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62 // ciTypeFlow::JsrSet::is_compatible_with
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63 //
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64 // !!!! MISGIVINGS ABOUT THIS... disregard
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65 //
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66 // Is this JsrSet compatible with some other JsrSet?
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67 //
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68 // In set-theoretic terms, a JsrSet can be viewed as a partial function
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69 // from entry addresses to return addresses. Two JsrSets A and B are
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70 // compatible iff
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71 //
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72 // For any x,
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73 // A(x) defined and B(x) defined implies A(x) == B(x)
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74 //
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75 // Less formally, two JsrSets are compatible when they have identical
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76 // return addresses for any entry addresses they share in common.
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77 bool ciTypeFlow::JsrSet::is_compatible_with(JsrSet* other) {
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78 // Walk through both sets in parallel. If the same entry address
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79 // appears in both sets, then the return address must match for
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80 // the sets to be compatible.
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81 int size1 = size();
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82 int size2 = other->size();
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83
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84 // Special case. If nothing is on the jsr stack, then there can
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85 // be no ret.
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86 if (size2 == 0) {
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87 return true;
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88 } else if (size1 != size2) {
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89 return false;
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90 } else {
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91 for (int i = 0; i < size1; i++) {
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92 JsrRecord* record1 = record_at(i);
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93 JsrRecord* record2 = other->record_at(i);
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94 if (record1->entry_address() != record2->entry_address() ||
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95 record1->return_address() != record2->return_address()) {
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96 return false;
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97 }
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98 }
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99 return true;
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100 }
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101
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102 #if 0
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103 int pos1 = 0;
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104 int pos2 = 0;
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105 int size1 = size();
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106 int size2 = other->size();
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107 while (pos1 < size1 && pos2 < size2) {
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108 JsrRecord* record1 = record_at(pos1);
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109 JsrRecord* record2 = other->record_at(pos2);
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110 int entry1 = record1->entry_address();
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111 int entry2 = record2->entry_address();
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112 if (entry1 < entry2) {
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113 pos1++;
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114 } else if (entry1 > entry2) {
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115 pos2++;
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116 } else {
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117 if (record1->return_address() == record2->return_address()) {
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118 pos1++;
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119 pos2++;
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120 } else {
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121 // These two JsrSets are incompatible.
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122 return false;
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123 }
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124 }
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125 }
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126 // The two JsrSets agree.
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127 return true;
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128 #endif
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129 }
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130
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131 // ------------------------------------------------------------------
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132 // ciTypeFlow::JsrSet::insert_jsr_record
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133 //
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134 // Insert the given JsrRecord into the JsrSet, maintaining the order
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135 // of the set and replacing any element with the same entry address.
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136 void ciTypeFlow::JsrSet::insert_jsr_record(JsrRecord* record) {
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137 int len = size();
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138 int entry = record->entry_address();
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139 int pos = 0;
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140 for ( ; pos < len; pos++) {
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141 JsrRecord* current = record_at(pos);
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142 if (entry == current->entry_address()) {
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143 // Stomp over this entry.
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144 _set->at_put(pos, record);
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145 assert(size() == len, "must be same size");
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146 return;
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147 } else if (entry < current->entry_address()) {
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148 break;
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149 }
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150 }
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151
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152 // Insert the record into the list.
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153 JsrRecord* swap = record;
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154 JsrRecord* temp = NULL;
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155 for ( ; pos < len; pos++) {
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156 temp = _set->at(pos);
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157 _set->at_put(pos, swap);
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158 swap = temp;
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159 }
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160 _set->append(swap);
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161 assert(size() == len+1, "must be larger");
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162 }
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163
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164 // ------------------------------------------------------------------
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165 // ciTypeFlow::JsrSet::remove_jsr_record
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166 //
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167 // Remove the JsrRecord with the given return address from the JsrSet.
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168 void ciTypeFlow::JsrSet::remove_jsr_record(int return_address) {
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169 int len = size();
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170 for (int i = 0; i < len; i++) {
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171 if (record_at(i)->return_address() == return_address) {
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172 // We have found the proper entry. Remove it from the
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173 // JsrSet and exit.
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174 for (int j = i+1; j < len ; j++) {
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175 _set->at_put(j-1, _set->at(j));
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176 }
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177 _set->trunc_to(len-1);
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178 assert(size() == len-1, "must be smaller");
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179 return;
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180 }
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181 }
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182 assert(false, "verify: returning from invalid subroutine");
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183 }
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184
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185 // ------------------------------------------------------------------
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186 // ciTypeFlow::JsrSet::apply_control
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187 //
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188 // Apply the effect of a control-flow bytecode on the JsrSet. The
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189 // only bytecodes that modify the JsrSet are jsr and ret.
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190 void ciTypeFlow::JsrSet::apply_control(ciTypeFlow* analyzer,
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191 ciBytecodeStream* str,
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192 ciTypeFlow::StateVector* state) {
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193 Bytecodes::Code code = str->cur_bc();
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194 if (code == Bytecodes::_jsr) {
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195 JsrRecord* record =
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196 analyzer->make_jsr_record(str->get_dest(), str->next_bci());
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197 insert_jsr_record(record);
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198 } else if (code == Bytecodes::_jsr_w) {
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199 JsrRecord* record =
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200 analyzer->make_jsr_record(str->get_far_dest(), str->next_bci());
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201 insert_jsr_record(record);
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202 } else if (code == Bytecodes::_ret) {
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203 Cell local = state->local(str->get_index());
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204 ciType* return_address = state->type_at(local);
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205 assert(return_address->is_return_address(), "verify: wrong type");
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206 if (size() == 0) {
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207 // Ret-state underflow: Hit a ret w/o any previous jsrs. Bail out.
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208 // This can happen when a loop is inside a finally clause (4614060).
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209 analyzer->record_failure("OSR in finally clause");
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210 return;
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211 }
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212 remove_jsr_record(return_address->as_return_address()->bci());
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213 }
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214 }
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215
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216 #ifndef PRODUCT
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217 // ------------------------------------------------------------------
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218 // ciTypeFlow::JsrSet::print_on
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219 void ciTypeFlow::JsrSet::print_on(outputStream* st) const {
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220 st->print("{ ");
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221 int num_elements = size();
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222 if (num_elements > 0) {
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223 int i = 0;
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224 for( ; i < num_elements - 1; i++) {
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225 _set->at(i)->print_on(st);
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226 st->print(", ");
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227 }
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228 _set->at(i)->print_on(st);
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229 st->print(" ");
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230 }
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231 st->print("}");
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232 }
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233 #endif
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234
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235 // ciTypeFlow::StateVector
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236 //
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237 // A StateVector summarizes the type information at some point in
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238 // the program.
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239
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240 // ------------------------------------------------------------------
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241 // ciTypeFlow::StateVector::type_meet
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242 //
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243 // Meet two types.
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244 //
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245 // The semi-lattice of types use by this analysis are modeled on those
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246 // of the verifier. The lattice is as follows:
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247 //
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248 // top_type() >= all non-extremal types >= bottom_type
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249 // and
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250 // Every primitive type is comparable only with itself. The meet of
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251 // reference types is determined by their kind: instance class,
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252 // interface, or array class. The meet of two types of the same
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253 // kind is their least common ancestor. The meet of two types of
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254 // different kinds is always java.lang.Object.
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255 ciType* ciTypeFlow::StateVector::type_meet_internal(ciType* t1, ciType* t2, ciTypeFlow* analyzer) {
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256 assert(t1 != t2, "checked in caller");
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257 if (t1->equals(top_type())) {
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258 return t2;
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259 } else if (t2->equals(top_type())) {
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260 return t1;
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261 } else if (t1->is_primitive_type() || t2->is_primitive_type()) {
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262 // Special case null_type. null_type meet any reference type T
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263 // is T. null_type meet null_type is null_type.
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264 if (t1->equals(null_type())) {
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265 if (!t2->is_primitive_type() || t2->equals(null_type())) {
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266 return t2;
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267 }
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268 } else if (t2->equals(null_type())) {
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269 if (!t1->is_primitive_type()) {
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270 return t1;
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271 }
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272 }
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273
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274 // At least one of the two types is a non-top primitive type.
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275 // The other type is not equal to it. Fall to bottom.
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276 return bottom_type();
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277 } else {
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278 // Both types are non-top non-primitive types. That is,
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279 // both types are either instanceKlasses or arrayKlasses.
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280 ciKlass* object_klass = analyzer->env()->Object_klass();
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281 ciKlass* k1 = t1->as_klass();
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282 ciKlass* k2 = t2->as_klass();
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283 if (k1->equals(object_klass) || k2->equals(object_klass)) {
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284 return object_klass;
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285 } else if (!k1->is_loaded() || !k2->is_loaded()) {
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286 // Unloaded classes fall to java.lang.Object at a merge.
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287 return object_klass;
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288 } else if (k1->is_interface() != k2->is_interface()) {
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289 // When an interface meets a non-interface, we get Object;
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290 // This is what the verifier does.
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291 return object_klass;
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292 } else if (k1->is_array_klass() || k2->is_array_klass()) {
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293 // When an array meets a non-array, we get Object.
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294 // When objArray meets typeArray, we also get Object.
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295 // And when typeArray meets different typeArray, we again get Object.
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296 // But when objArray meets objArray, we look carefully at element types.
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297 if (k1->is_obj_array_klass() && k2->is_obj_array_klass()) {
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298 // Meet the element types, then construct the corresponding array type.
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299 ciKlass* elem1 = k1->as_obj_array_klass()->element_klass();
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300 ciKlass* elem2 = k2->as_obj_array_klass()->element_klass();
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301 ciKlass* elem = type_meet_internal(elem1, elem2, analyzer)->as_klass();
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302 // Do an easy shortcut if one type is a super of the other.
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303 if (elem == elem1) {
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304 assert(k1 == ciObjArrayKlass::make(elem), "shortcut is OK");
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305 return k1;
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306 } else if (elem == elem2) {
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307 assert(k2 == ciObjArrayKlass::make(elem), "shortcut is OK");
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308 return k2;
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309 } else {
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310 return ciObjArrayKlass::make(elem);
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311 }
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312 } else {
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313 return object_klass;
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314 }
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315 } else {
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316 // Must be two plain old instance klasses.
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317 assert(k1->is_instance_klass(), "previous cases handle non-instances");
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318 assert(k2->is_instance_klass(), "previous cases handle non-instances");
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319 return k1->least_common_ancestor(k2);
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320 }
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321 }
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322 }
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323
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324
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325 // ------------------------------------------------------------------
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326 // ciTypeFlow::StateVector::StateVector
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327 //
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328 // Build a new state vector
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329 ciTypeFlow::StateVector::StateVector(ciTypeFlow* analyzer) {
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330 _outer = analyzer;
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331 _stack_size = -1;
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332 _monitor_count = -1;
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333 // Allocate the _types array
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334 int max_cells = analyzer->max_cells();
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335 _types = (ciType**)analyzer->arena()->Amalloc(sizeof(ciType*) * max_cells);
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336 for (int i=0; i<max_cells; i++) {
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337 _types[i] = top_type();
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338 }
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339 _trap_bci = -1;
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340 _trap_index = 0;
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341 }
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342
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343 // ------------------------------------------------------------------
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344 // ciTypeFlow::get_start_state
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345 //
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346 // Set this vector to the method entry state.
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347 const ciTypeFlow::StateVector* ciTypeFlow::get_start_state() {
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348 StateVector* state = new StateVector(this);
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349 if (is_osr_flow()) {
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350 ciTypeFlow* non_osr_flow = method()->get_flow_analysis();
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351 if (non_osr_flow->failing()) {
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352 record_failure(non_osr_flow->failure_reason());
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353 return NULL;
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354 }
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355 JsrSet* jsrs = new JsrSet(NULL, 16);
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356 Block* non_osr_block = non_osr_flow->existing_block_at(start_bci(), jsrs);
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357 if (non_osr_block == NULL) {
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358 record_failure("cannot reach OSR point");
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359 return NULL;
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360 }
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361 // load up the non-OSR state at this point
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362 non_osr_block->copy_state_into(state);
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363 int non_osr_start = non_osr_block->start();
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364 if (non_osr_start != start_bci()) {
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365 // must flow forward from it
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366 if (CITraceTypeFlow) {
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367 tty->print_cr(">> Interpreting pre-OSR block %d:", non_osr_start);
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368 }
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369 Block* block = block_at(non_osr_start, jsrs);
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370 assert(block->limit() == start_bci(), "must flow forward to start");
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371 flow_block(block, state, jsrs);
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372 }
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373 return state;
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374 // Note: The code below would be an incorrect for an OSR flow,
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375 // even if it were possible for an OSR entry point to be at bci zero.
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376 }
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377 // "Push" the method signature into the first few locals.
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378 state->set_stack_size(-max_locals());
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379 if (!method()->is_static()) {
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380 state->push(method()->holder());
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381 assert(state->tos() == state->local(0), "");
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382 }
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383 for (ciSignatureStream str(method()->signature());
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384 !str.at_return_type();
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385 str.next()) {
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386 state->push_translate(str.type());
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387 }
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388 // Set the rest of the locals to bottom.
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389 Cell cell = state->next_cell(state->tos());
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390 state->set_stack_size(0);
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391 int limit = state->limit_cell();
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392 for (; cell < limit; cell = state->next_cell(cell)) {
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393 state->set_type_at(cell, state->bottom_type());
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394 }
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395 // Lock an object, if necessary.
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396 state->set_monitor_count(method()->is_synchronized() ? 1 : 0);
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397 return state;
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398 }
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399
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400 // ------------------------------------------------------------------
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401 // ciTypeFlow::StateVector::copy_into
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402 //
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403 // Copy our value into some other StateVector
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404 void ciTypeFlow::StateVector::copy_into(ciTypeFlow::StateVector* copy)
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405 const {
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406 copy->set_stack_size(stack_size());
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407 copy->set_monitor_count(monitor_count());
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408 Cell limit = limit_cell();
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409 for (Cell c = start_cell(); c < limit; c = next_cell(c)) {
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410 copy->set_type_at(c, type_at(c));
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411 }
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412 }
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413
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414 // ------------------------------------------------------------------
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415 // ciTypeFlow::StateVector::meet
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416 //
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417 // Meets this StateVector with another, destructively modifying this
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418 // one. Returns true if any modification takes place.
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419 bool ciTypeFlow::StateVector::meet(const ciTypeFlow::StateVector* incoming) {
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420 if (monitor_count() == -1) {
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421 set_monitor_count(incoming->monitor_count());
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422 }
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423 assert(monitor_count() == incoming->monitor_count(), "monitors must match");
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424
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425 if (stack_size() == -1) {
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426 set_stack_size(incoming->stack_size());
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427 Cell limit = limit_cell();
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428 #ifdef ASSERT
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429 { for (Cell c = start_cell(); c < limit; c = next_cell(c)) {
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430 assert(type_at(c) == top_type(), "");
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431 } }
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432 #endif
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433 // Make a simple copy of the incoming state.
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434 for (Cell c = start_cell(); c < limit; c = next_cell(c)) {
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435 set_type_at(c, incoming->type_at(c));
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436 }
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437 return true; // it is always different the first time
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438 }
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439 #ifdef ASSERT
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440 if (stack_size() != incoming->stack_size()) {
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441 _outer->method()->print_codes();
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442 tty->print_cr("!!!! Stack size conflict");
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443 tty->print_cr("Current state:");
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444 print_on(tty);
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445 tty->print_cr("Incoming state:");
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446 ((StateVector*)incoming)->print_on(tty);
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447 }
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448 #endif
|
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449 assert(stack_size() == incoming->stack_size(), "sanity");
|
|
450
|
|
451 bool different = false;
|
|
452 Cell limit = limit_cell();
|
|
453 for (Cell c = start_cell(); c < limit; c = next_cell(c)) {
|
|
454 ciType* t1 = type_at(c);
|
|
455 ciType* t2 = incoming->type_at(c);
|
|
456 if (!t1->equals(t2)) {
|
|
457 ciType* new_type = type_meet(t1, t2);
|
|
458 if (!t1->equals(new_type)) {
|
|
459 set_type_at(c, new_type);
|
|
460 different = true;
|
|
461 }
|
|
462 }
|
|
463 }
|
|
464 return different;
|
|
465 }
|
|
466
|
|
467 // ------------------------------------------------------------------
|
|
468 // ciTypeFlow::StateVector::meet_exception
|
|
469 //
|
|
470 // Meets this StateVector with another, destructively modifying this
|
|
471 // one. The incoming state is coming via an exception. Returns true
|
|
472 // if any modification takes place.
|
|
473 bool ciTypeFlow::StateVector::meet_exception(ciInstanceKlass* exc,
|
|
474 const ciTypeFlow::StateVector* incoming) {
|
|
475 if (monitor_count() == -1) {
|
|
476 set_monitor_count(incoming->monitor_count());
|
|
477 }
|
|
478 assert(monitor_count() == incoming->monitor_count(), "monitors must match");
|
|
479
|
|
480 if (stack_size() == -1) {
|
|
481 set_stack_size(1);
|
|
482 }
|
|
483
|
|
484 assert(stack_size() == 1, "must have one-element stack");
|
|
485
|
|
486 bool different = false;
|
|
487
|
|
488 // Meet locals from incoming array.
|
|
489 Cell limit = local(_outer->max_locals()-1);
|
|
490 for (Cell c = start_cell(); c <= limit; c = next_cell(c)) {
|
|
491 ciType* t1 = type_at(c);
|
|
492 ciType* t2 = incoming->type_at(c);
|
|
493 if (!t1->equals(t2)) {
|
|
494 ciType* new_type = type_meet(t1, t2);
|
|
495 if (!t1->equals(new_type)) {
|
|
496 set_type_at(c, new_type);
|
|
497 different = true;
|
|
498 }
|
|
499 }
|
|
500 }
|
|
501
|
|
502 // Handle stack separately. When an exception occurs, the
|
|
503 // only stack entry is the exception instance.
|
|
504 ciType* tos_type = type_at_tos();
|
|
505 if (!tos_type->equals(exc)) {
|
|
506 ciType* new_type = type_meet(tos_type, exc);
|
|
507 if (!tos_type->equals(new_type)) {
|
|
508 set_type_at_tos(new_type);
|
|
509 different = true;
|
|
510 }
|
|
511 }
|
|
512
|
|
513 return different;
|
|
514 }
|
|
515
|
|
516 // ------------------------------------------------------------------
|
|
517 // ciTypeFlow::StateVector::push_translate
|
|
518 void ciTypeFlow::StateVector::push_translate(ciType* type) {
|
|
519 BasicType basic_type = type->basic_type();
|
|
520 if (basic_type == T_BOOLEAN || basic_type == T_CHAR ||
|
|
521 basic_type == T_BYTE || basic_type == T_SHORT) {
|
|
522 push_int();
|
|
523 } else {
|
|
524 push(type);
|
|
525 if (type->is_two_word()) {
|
|
526 push(half_type(type));
|
|
527 }
|
|
528 }
|
|
529 }
|
|
530
|
|
531 // ------------------------------------------------------------------
|
|
532 // ciTypeFlow::StateVector::do_aaload
|
|
533 void ciTypeFlow::StateVector::do_aaload(ciBytecodeStream* str) {
|
|
534 pop_int();
|
|
535 ciObjArrayKlass* array_klass = pop_objArray();
|
|
536 if (array_klass == NULL) {
|
|
537 // Did aaload on a null reference; push a null and ignore the exception.
|
|
538 // This instruction will never continue normally. All we have to do
|
|
539 // is report a value that will meet correctly with any downstream
|
|
540 // reference types on paths that will truly be executed. This null type
|
|
541 // meets with any reference type to yield that same reference type.
|
|
542 // (The compiler will generate an unconditonal exception here.)
|
|
543 push(null_type());
|
|
544 return;
|
|
545 }
|
|
546 if (!array_klass->is_loaded()) {
|
|
547 // Only fails for some -Xcomp runs
|
|
548 trap(str, array_klass,
|
|
549 Deoptimization::make_trap_request
|
|
550 (Deoptimization::Reason_unloaded,
|
|
551 Deoptimization::Action_reinterpret));
|
|
552 return;
|
|
553 }
|
|
554 ciKlass* element_klass = array_klass->element_klass();
|
|
555 if (!element_klass->is_loaded() && element_klass->is_instance_klass()) {
|
|
556 Untested("unloaded array element class in ciTypeFlow");
|
|
557 trap(str, element_klass,
|
|
558 Deoptimization::make_trap_request
|
|
559 (Deoptimization::Reason_unloaded,
|
|
560 Deoptimization::Action_reinterpret));
|
|
561 } else {
|
|
562 push_object(element_klass);
|
|
563 }
|
|
564 }
|
|
565
|
|
566
|
|
567 // ------------------------------------------------------------------
|
|
568 // ciTypeFlow::StateVector::do_checkcast
|
|
569 void ciTypeFlow::StateVector::do_checkcast(ciBytecodeStream* str) {
|
|
570 bool will_link;
|
|
571 ciKlass* klass = str->get_klass(will_link);
|
|
572 if (!will_link) {
|
|
573 // VM's interpreter will not load 'klass' if object is NULL.
|
|
574 // Type flow after this block may still be needed in two situations:
|
|
575 // 1) C2 uses do_null_assert() and continues compilation for later blocks
|
|
576 // 2) C2 does an OSR compile in a later block (see bug 4778368).
|
|
577 pop_object();
|
|
578 do_null_assert(klass);
|
|
579 } else {
|
|
580 pop_object();
|
|
581 push_object(klass);
|
|
582 }
|
|
583 }
|
|
584
|
|
585 // ------------------------------------------------------------------
|
|
586 // ciTypeFlow::StateVector::do_getfield
|
|
587 void ciTypeFlow::StateVector::do_getfield(ciBytecodeStream* str) {
|
|
588 // could add assert here for type of object.
|
|
589 pop_object();
|
|
590 do_getstatic(str);
|
|
591 }
|
|
592
|
|
593 // ------------------------------------------------------------------
|
|
594 // ciTypeFlow::StateVector::do_getstatic
|
|
595 void ciTypeFlow::StateVector::do_getstatic(ciBytecodeStream* str) {
|
|
596 bool will_link;
|
|
597 ciField* field = str->get_field(will_link);
|
|
598 if (!will_link) {
|
|
599 trap(str, field->holder(), str->get_field_holder_index());
|
|
600 } else {
|
|
601 ciType* field_type = field->type();
|
|
602 if (!field_type->is_loaded()) {
|
|
603 // Normally, we need the field's type to be loaded if we are to
|
|
604 // do anything interesting with its value.
|
|
605 // We used to do this: trap(str, str->get_field_signature_index());
|
|
606 //
|
|
607 // There is one good reason not to trap here. Execution can
|
|
608 // get past this "getfield" or "getstatic" if the value of
|
|
609 // the field is null. As long as the value is null, the class
|
|
610 // does not need to be loaded! The compiler must assume that
|
|
611 // the value of the unloaded class reference is null; if the code
|
|
612 // ever sees a non-null value, loading has occurred.
|
|
613 //
|
|
614 // This actually happens often enough to be annoying. If the
|
|
615 // compiler throws an uncommon trap at this bytecode, you can
|
|
616 // get an endless loop of recompilations, when all the code
|
|
617 // needs to do is load a series of null values. Also, a trap
|
|
618 // here can make an OSR entry point unreachable, triggering the
|
|
619 // assert on non_osr_block in ciTypeFlow::get_start_state.
|
|
620 // (See bug 4379915.)
|
|
621 do_null_assert(field_type->as_klass());
|
|
622 } else {
|
|
623 push_translate(field_type);
|
|
624 }
|
|
625 }
|
|
626 }
|
|
627
|
|
628 // ------------------------------------------------------------------
|
|
629 // ciTypeFlow::StateVector::do_invoke
|
|
630 void ciTypeFlow::StateVector::do_invoke(ciBytecodeStream* str,
|
|
631 bool has_receiver) {
|
|
632 bool will_link;
|
|
633 ciMethod* method = str->get_method(will_link);
|
|
634 if (!will_link) {
|
|
635 // We weren't able to find the method.
|
|
636 ciKlass* unloaded_holder = method->holder();
|
|
637 trap(str, unloaded_holder, str->get_method_holder_index());
|
|
638 } else {
|
|
639 ciSignature* signature = method->signature();
|
|
640 ciSignatureStream sigstr(signature);
|
|
641 int arg_size = signature->size();
|
|
642 int stack_base = stack_size() - arg_size;
|
|
643 int i = 0;
|
|
644 for( ; !sigstr.at_return_type(); sigstr.next()) {
|
|
645 ciType* type = sigstr.type();
|
|
646 ciType* stack_type = type_at(stack(stack_base + i++));
|
|
647 // Do I want to check this type?
|
|
648 // assert(stack_type->is_subtype_of(type), "bad type for field value");
|
|
649 if (type->is_two_word()) {
|
|
650 ciType* stack_type2 = type_at(stack(stack_base + i++));
|
|
651 assert(stack_type2->equals(half_type(type)), "must be 2nd half");
|
|
652 }
|
|
653 }
|
|
654 assert(arg_size == i, "must match");
|
|
655 for (int j = 0; j < arg_size; j++) {
|
|
656 pop();
|
|
657 }
|
|
658 if (has_receiver) {
|
|
659 // Check this?
|
|
660 pop_object();
|
|
661 }
|
|
662 assert(!sigstr.is_done(), "must have return type");
|
|
663 ciType* return_type = sigstr.type();
|
|
664 if (!return_type->is_void()) {
|
|
665 if (!return_type->is_loaded()) {
|
|
666 // As in do_getstatic(), generally speaking, we need the return type to
|
|
667 // be loaded if we are to do anything interesting with its value.
|
|
668 // We used to do this: trap(str, str->get_method_signature_index());
|
|
669 //
|
|
670 // We do not trap here since execution can get past this invoke if
|
|
671 // the return value is null. As long as the value is null, the class
|
|
672 // does not need to be loaded! The compiler must assume that
|
|
673 // the value of the unloaded class reference is null; if the code
|
|
674 // ever sees a non-null value, loading has occurred.
|
|
675 //
|
|
676 // See do_getstatic() for similar explanation, as well as bug 4684993.
|
|
677 do_null_assert(return_type->as_klass());
|
|
678 } else {
|
|
679 push_translate(return_type);
|
|
680 }
|
|
681 }
|
|
682 }
|
|
683 }
|
|
684
|
|
685 // ------------------------------------------------------------------
|
|
686 // ciTypeFlow::StateVector::do_jsr
|
|
687 void ciTypeFlow::StateVector::do_jsr(ciBytecodeStream* str) {
|
|
688 push(ciReturnAddress::make(str->next_bci()));
|
|
689 }
|
|
690
|
|
691 // ------------------------------------------------------------------
|
|
692 // ciTypeFlow::StateVector::do_ldc
|
|
693 void ciTypeFlow::StateVector::do_ldc(ciBytecodeStream* str) {
|
|
694 ciConstant con = str->get_constant();
|
|
695 BasicType basic_type = con.basic_type();
|
|
696 if (basic_type == T_ILLEGAL) {
|
|
697 // OutOfMemoryError in the CI while loading constant
|
|
698 push_null();
|
|
699 outer()->record_failure("ldc did not link");
|
|
700 return;
|
|
701 }
|
|
702 if (basic_type == T_OBJECT || basic_type == T_ARRAY) {
|
|
703 ciObject* obj = con.as_object();
|
|
704 if (obj->is_null_object()) {
|
|
705 push_null();
|
|
706 } else if (obj->is_klass()) {
|
|
707 // The type of ldc <class> is java.lang.Class
|
|
708 push_object(outer()->env()->Class_klass());
|
|
709 } else {
|
|
710 push_object(obj->klass());
|
|
711 }
|
|
712 } else {
|
|
713 push_translate(ciType::make(basic_type));
|
|
714 }
|
|
715 }
|
|
716
|
|
717 // ------------------------------------------------------------------
|
|
718 // ciTypeFlow::StateVector::do_multianewarray
|
|
719 void ciTypeFlow::StateVector::do_multianewarray(ciBytecodeStream* str) {
|
|
720 int dimensions = str->get_dimensions();
|
|
721 bool will_link;
|
|
722 ciArrayKlass* array_klass = str->get_klass(will_link)->as_array_klass();
|
|
723 if (!will_link) {
|
|
724 trap(str, array_klass, str->get_klass_index());
|
|
725 } else {
|
|
726 for (int i = 0; i < dimensions; i++) {
|
|
727 pop_int();
|
|
728 }
|
|
729 push_object(array_klass);
|
|
730 }
|
|
731 }
|
|
732
|
|
733 // ------------------------------------------------------------------
|
|
734 // ciTypeFlow::StateVector::do_new
|
|
735 void ciTypeFlow::StateVector::do_new(ciBytecodeStream* str) {
|
|
736 bool will_link;
|
|
737 ciKlass* klass = str->get_klass(will_link);
|
|
738 if (!will_link) {
|
|
739 trap(str, klass, str->get_klass_index());
|
|
740 } else {
|
|
741 push_object(klass);
|
|
742 }
|
|
743 }
|
|
744
|
|
745 // ------------------------------------------------------------------
|
|
746 // ciTypeFlow::StateVector::do_newarray
|
|
747 void ciTypeFlow::StateVector::do_newarray(ciBytecodeStream* str) {
|
|
748 pop_int();
|
|
749 ciKlass* klass = ciTypeArrayKlass::make((BasicType)str->get_index());
|
|
750 push_object(klass);
|
|
751 }
|
|
752
|
|
753 // ------------------------------------------------------------------
|
|
754 // ciTypeFlow::StateVector::do_putfield
|
|
755 void ciTypeFlow::StateVector::do_putfield(ciBytecodeStream* str) {
|
|
756 do_putstatic(str);
|
|
757 if (_trap_bci != -1) return; // unloaded field holder, etc.
|
|
758 // could add assert here for type of object.
|
|
759 pop_object();
|
|
760 }
|
|
761
|
|
762 // ------------------------------------------------------------------
|
|
763 // ciTypeFlow::StateVector::do_putstatic
|
|
764 void ciTypeFlow::StateVector::do_putstatic(ciBytecodeStream* str) {
|
|
765 bool will_link;
|
|
766 ciField* field = str->get_field(will_link);
|
|
767 if (!will_link) {
|
|
768 trap(str, field->holder(), str->get_field_holder_index());
|
|
769 } else {
|
|
770 ciType* field_type = field->type();
|
|
771 ciType* type = pop_value();
|
|
772 // Do I want to check this type?
|
|
773 // assert(type->is_subtype_of(field_type), "bad type for field value");
|
|
774 if (field_type->is_two_word()) {
|
|
775 ciType* type2 = pop_value();
|
|
776 assert(type2->is_two_word(), "must be 2nd half");
|
|
777 assert(type == half_type(type2), "must be 2nd half");
|
|
778 }
|
|
779 }
|
|
780 }
|
|
781
|
|
782 // ------------------------------------------------------------------
|
|
783 // ciTypeFlow::StateVector::do_ret
|
|
784 void ciTypeFlow::StateVector::do_ret(ciBytecodeStream* str) {
|
|
785 Cell index = local(str->get_index());
|
|
786
|
|
787 ciType* address = type_at(index);
|
|
788 assert(address->is_return_address(), "bad return address");
|
|
789 set_type_at(index, bottom_type());
|
|
790 }
|
|
791
|
|
792 // ------------------------------------------------------------------
|
|
793 // ciTypeFlow::StateVector::trap
|
|
794 //
|
|
795 // Stop interpretation of this path with a trap.
|
|
796 void ciTypeFlow::StateVector::trap(ciBytecodeStream* str, ciKlass* klass, int index) {
|
|
797 _trap_bci = str->cur_bci();
|
|
798 _trap_index = index;
|
|
799
|
|
800 // Log information about this trap:
|
|
801 CompileLog* log = outer()->env()->log();
|
|
802 if (log != NULL) {
|
|
803 int mid = log->identify(outer()->method());
|
|
804 int kid = (klass == NULL)? -1: log->identify(klass);
|
|
805 log->begin_elem("uncommon_trap method='%d' bci='%d'", mid, str->cur_bci());
|
|
806 char buf[100];
|
|
807 log->print(" %s", Deoptimization::format_trap_request(buf, sizeof(buf),
|
|
808 index));
|
|
809 if (kid >= 0)
|
|
810 log->print(" klass='%d'", kid);
|
|
811 log->end_elem();
|
|
812 }
|
|
813 }
|
|
814
|
|
815 // ------------------------------------------------------------------
|
|
816 // ciTypeFlow::StateVector::do_null_assert
|
|
817 // Corresponds to graphKit::do_null_assert.
|
|
818 void ciTypeFlow::StateVector::do_null_assert(ciKlass* unloaded_klass) {
|
|
819 if (unloaded_klass->is_loaded()) {
|
|
820 // We failed to link, but we can still compute with this class,
|
|
821 // since it is loaded somewhere. The compiler will uncommon_trap
|
|
822 // if the object is not null, but the typeflow pass can not assume
|
|
823 // that the object will be null, otherwise it may incorrectly tell
|
|
824 // the parser that an object is known to be null. 4761344, 4807707
|
|
825 push_object(unloaded_klass);
|
|
826 } else {
|
|
827 // The class is not loaded anywhere. It is safe to model the
|
|
828 // null in the typestates, because we can compile in a null check
|
|
829 // which will deoptimize us if someone manages to load the
|
|
830 // class later.
|
|
831 push_null();
|
|
832 }
|
|
833 }
|
|
834
|
|
835
|
|
836 // ------------------------------------------------------------------
|
|
837 // ciTypeFlow::StateVector::apply_one_bytecode
|
|
838 //
|
|
839 // Apply the effect of one bytecode to this StateVector
|
|
840 bool ciTypeFlow::StateVector::apply_one_bytecode(ciBytecodeStream* str) {
|
|
841 _trap_bci = -1;
|
|
842 _trap_index = 0;
|
|
843
|
|
844 if (CITraceTypeFlow) {
|
|
845 tty->print_cr(">> Interpreting bytecode %d:%s", str->cur_bci(),
|
|
846 Bytecodes::name(str->cur_bc()));
|
|
847 }
|
|
848
|
|
849 switch(str->cur_bc()) {
|
|
850 case Bytecodes::_aaload: do_aaload(str); break;
|
|
851
|
|
852 case Bytecodes::_aastore:
|
|
853 {
|
|
854 pop_object();
|
|
855 pop_int();
|
|
856 pop_objArray();
|
|
857 break;
|
|
858 }
|
|
859 case Bytecodes::_aconst_null:
|
|
860 {
|
|
861 push_null();
|
|
862 break;
|
|
863 }
|
|
864 case Bytecodes::_aload: load_local_object(str->get_index()); break;
|
|
865 case Bytecodes::_aload_0: load_local_object(0); break;
|
|
866 case Bytecodes::_aload_1: load_local_object(1); break;
|
|
867 case Bytecodes::_aload_2: load_local_object(2); break;
|
|
868 case Bytecodes::_aload_3: load_local_object(3); break;
|
|
869
|
|
870 case Bytecodes::_anewarray:
|
|
871 {
|
|
872 pop_int();
|
|
873 bool will_link;
|
|
874 ciKlass* element_klass = str->get_klass(will_link);
|
|
875 if (!will_link) {
|
|
876 trap(str, element_klass, str->get_klass_index());
|
|
877 } else {
|
|
878 push_object(ciObjArrayKlass::make(element_klass));
|
|
879 }
|
|
880 break;
|
|
881 }
|
|
882 case Bytecodes::_areturn:
|
|
883 case Bytecodes::_ifnonnull:
|
|
884 case Bytecodes::_ifnull:
|
|
885 {
|
|
886 pop_object();
|
|
887 break;
|
|
888 }
|
|
889 case Bytecodes::_monitorenter:
|
|
890 {
|
|
891 pop_object();
|
|
892 set_monitor_count(monitor_count() + 1);
|
|
893 break;
|
|
894 }
|
|
895 case Bytecodes::_monitorexit:
|
|
896 {
|
|
897 pop_object();
|
|
898 assert(monitor_count() > 0, "must be a monitor to exit from");
|
|
899 set_monitor_count(monitor_count() - 1);
|
|
900 break;
|
|
901 }
|
|
902 case Bytecodes::_arraylength:
|
|
903 {
|
|
904 pop_array();
|
|
905 push_int();
|
|
906 break;
|
|
907 }
|
|
908 case Bytecodes::_astore: store_local_object(str->get_index()); break;
|
|
909 case Bytecodes::_astore_0: store_local_object(0); break;
|
|
910 case Bytecodes::_astore_1: store_local_object(1); break;
|
|
911 case Bytecodes::_astore_2: store_local_object(2); break;
|
|
912 case Bytecodes::_astore_3: store_local_object(3); break;
|
|
913
|
|
914 case Bytecodes::_athrow:
|
|
915 {
|
|
916 NEEDS_CLEANUP;
|
|
917 pop_object();
|
|
918 break;
|
|
919 }
|
|
920 case Bytecodes::_baload:
|
|
921 case Bytecodes::_caload:
|
|
922 case Bytecodes::_iaload:
|
|
923 case Bytecodes::_saload:
|
|
924 {
|
|
925 pop_int();
|
|
926 ciTypeArrayKlass* array_klass = pop_typeArray();
|
|
927 // Put assert here for right type?
|
|
928 push_int();
|
|
929 break;
|
|
930 }
|
|
931 case Bytecodes::_bastore:
|
|
932 case Bytecodes::_castore:
|
|
933 case Bytecodes::_iastore:
|
|
934 case Bytecodes::_sastore:
|
|
935 {
|
|
936 pop_int();
|
|
937 pop_int();
|
|
938 pop_typeArray();
|
|
939 // assert here?
|
|
940 break;
|
|
941 }
|
|
942 case Bytecodes::_bipush:
|
|
943 case Bytecodes::_iconst_m1:
|
|
944 case Bytecodes::_iconst_0:
|
|
945 case Bytecodes::_iconst_1:
|
|
946 case Bytecodes::_iconst_2:
|
|
947 case Bytecodes::_iconst_3:
|
|
948 case Bytecodes::_iconst_4:
|
|
949 case Bytecodes::_iconst_5:
|
|
950 case Bytecodes::_sipush:
|
|
951 {
|
|
952 push_int();
|
|
953 break;
|
|
954 }
|
|
955 case Bytecodes::_checkcast: do_checkcast(str); break;
|
|
956
|
|
957 case Bytecodes::_d2f:
|
|
958 {
|
|
959 pop_double();
|
|
960 push_float();
|
|
961 break;
|
|
962 }
|
|
963 case Bytecodes::_d2i:
|
|
964 {
|
|
965 pop_double();
|
|
966 push_int();
|
|
967 break;
|
|
968 }
|
|
969 case Bytecodes::_d2l:
|
|
970 {
|
|
971 pop_double();
|
|
972 push_long();
|
|
973 break;
|
|
974 }
|
|
975 case Bytecodes::_dadd:
|
|
976 case Bytecodes::_ddiv:
|
|
977 case Bytecodes::_dmul:
|
|
978 case Bytecodes::_drem:
|
|
979 case Bytecodes::_dsub:
|
|
980 {
|
|
981 pop_double();
|
|
982 pop_double();
|
|
983 push_double();
|
|
984 break;
|
|
985 }
|
|
986 case Bytecodes::_daload:
|
|
987 {
|
|
988 pop_int();
|
|
989 ciTypeArrayKlass* array_klass = pop_typeArray();
|
|
990 // Put assert here for right type?
|
|
991 push_double();
|
|
992 break;
|
|
993 }
|
|
994 case Bytecodes::_dastore:
|
|
995 {
|
|
996 pop_double();
|
|
997 pop_int();
|
|
998 pop_typeArray();
|
|
999 // assert here?
|
|
1000 break;
|
|
1001 }
|
|
1002 case Bytecodes::_dcmpg:
|
|
1003 case Bytecodes::_dcmpl:
|
|
1004 {
|
|
1005 pop_double();
|
|
1006 pop_double();
|
|
1007 push_int();
|
|
1008 break;
|
|
1009 }
|
|
1010 case Bytecodes::_dconst_0:
|
|
1011 case Bytecodes::_dconst_1:
|
|
1012 {
|
|
1013 push_double();
|
|
1014 break;
|
|
1015 }
|
|
1016 case Bytecodes::_dload: load_local_double(str->get_index()); break;
|
|
1017 case Bytecodes::_dload_0: load_local_double(0); break;
|
|
1018 case Bytecodes::_dload_1: load_local_double(1); break;
|
|
1019 case Bytecodes::_dload_2: load_local_double(2); break;
|
|
1020 case Bytecodes::_dload_3: load_local_double(3); break;
|
|
1021
|
|
1022 case Bytecodes::_dneg:
|
|
1023 {
|
|
1024 pop_double();
|
|
1025 push_double();
|
|
1026 break;
|
|
1027 }
|
|
1028 case Bytecodes::_dreturn:
|
|
1029 {
|
|
1030 pop_double();
|
|
1031 break;
|
|
1032 }
|
|
1033 case Bytecodes::_dstore: store_local_double(str->get_index()); break;
|
|
1034 case Bytecodes::_dstore_0: store_local_double(0); break;
|
|
1035 case Bytecodes::_dstore_1: store_local_double(1); break;
|
|
1036 case Bytecodes::_dstore_2: store_local_double(2); break;
|
|
1037 case Bytecodes::_dstore_3: store_local_double(3); break;
|
|
1038
|
|
1039 case Bytecodes::_dup:
|
|
1040 {
|
|
1041 push(type_at_tos());
|
|
1042 break;
|
|
1043 }
|
|
1044 case Bytecodes::_dup_x1:
|
|
1045 {
|
|
1046 ciType* value1 = pop_value();
|
|
1047 ciType* value2 = pop_value();
|
|
1048 push(value1);
|
|
1049 push(value2);
|
|
1050 push(value1);
|
|
1051 break;
|
|
1052 }
|
|
1053 case Bytecodes::_dup_x2:
|
|
1054 {
|
|
1055 ciType* value1 = pop_value();
|
|
1056 ciType* value2 = pop_value();
|
|
1057 ciType* value3 = pop_value();
|
|
1058 push(value1);
|
|
1059 push(value3);
|
|
1060 push(value2);
|
|
1061 push(value1);
|
|
1062 break;
|
|
1063 }
|
|
1064 case Bytecodes::_dup2:
|
|
1065 {
|
|
1066 ciType* value1 = pop_value();
|
|
1067 ciType* value2 = pop_value();
|
|
1068 push(value2);
|
|
1069 push(value1);
|
|
1070 push(value2);
|
|
1071 push(value1);
|
|
1072 break;
|
|
1073 }
|
|
1074 case Bytecodes::_dup2_x1:
|
|
1075 {
|
|
1076 ciType* value1 = pop_value();
|
|
1077 ciType* value2 = pop_value();
|
|
1078 ciType* value3 = pop_value();
|
|
1079 push(value2);
|
|
1080 push(value1);
|
|
1081 push(value3);
|
|
1082 push(value2);
|
|
1083 push(value1);
|
|
1084 break;
|
|
1085 }
|
|
1086 case Bytecodes::_dup2_x2:
|
|
1087 {
|
|
1088 ciType* value1 = pop_value();
|
|
1089 ciType* value2 = pop_value();
|
|
1090 ciType* value3 = pop_value();
|
|
1091 ciType* value4 = pop_value();
|
|
1092 push(value2);
|
|
1093 push(value1);
|
|
1094 push(value4);
|
|
1095 push(value3);
|
|
1096 push(value2);
|
|
1097 push(value1);
|
|
1098 break;
|
|
1099 }
|
|
1100 case Bytecodes::_f2d:
|
|
1101 {
|
|
1102 pop_float();
|
|
1103 push_double();
|
|
1104 break;
|
|
1105 }
|
|
1106 case Bytecodes::_f2i:
|
|
1107 {
|
|
1108 pop_float();
|
|
1109 push_int();
|
|
1110 break;
|
|
1111 }
|
|
1112 case Bytecodes::_f2l:
|
|
1113 {
|
|
1114 pop_float();
|
|
1115 push_long();
|
|
1116 break;
|
|
1117 }
|
|
1118 case Bytecodes::_fadd:
|
|
1119 case Bytecodes::_fdiv:
|
|
1120 case Bytecodes::_fmul:
|
|
1121 case Bytecodes::_frem:
|
|
1122 case Bytecodes::_fsub:
|
|
1123 {
|
|
1124 pop_float();
|
|
1125 pop_float();
|
|
1126 push_float();
|
|
1127 break;
|
|
1128 }
|
|
1129 case Bytecodes::_faload:
|
|
1130 {
|
|
1131 pop_int();
|
|
1132 ciTypeArrayKlass* array_klass = pop_typeArray();
|
|
1133 // Put assert here.
|
|
1134 push_float();
|
|
1135 break;
|
|
1136 }
|
|
1137 case Bytecodes::_fastore:
|
|
1138 {
|
|
1139 pop_float();
|
|
1140 pop_int();
|
|
1141 ciTypeArrayKlass* array_klass = pop_typeArray();
|
|
1142 // Put assert here.
|
|
1143 break;
|
|
1144 }
|
|
1145 case Bytecodes::_fcmpg:
|
|
1146 case Bytecodes::_fcmpl:
|
|
1147 {
|
|
1148 pop_float();
|
|
1149 pop_float();
|
|
1150 push_int();
|
|
1151 break;
|
|
1152 }
|
|
1153 case Bytecodes::_fconst_0:
|
|
1154 case Bytecodes::_fconst_1:
|
|
1155 case Bytecodes::_fconst_2:
|
|
1156 {
|
|
1157 push_float();
|
|
1158 break;
|
|
1159 }
|
|
1160 case Bytecodes::_fload: load_local_float(str->get_index()); break;
|
|
1161 case Bytecodes::_fload_0: load_local_float(0); break;
|
|
1162 case Bytecodes::_fload_1: load_local_float(1); break;
|
|
1163 case Bytecodes::_fload_2: load_local_float(2); break;
|
|
1164 case Bytecodes::_fload_3: load_local_float(3); break;
|
|
1165
|
|
1166 case Bytecodes::_fneg:
|
|
1167 {
|
|
1168 pop_float();
|
|
1169 push_float();
|
|
1170 break;
|
|
1171 }
|
|
1172 case Bytecodes::_freturn:
|
|
1173 {
|
|
1174 pop_float();
|
|
1175 break;
|
|
1176 }
|
|
1177 case Bytecodes::_fstore: store_local_float(str->get_index()); break;
|
|
1178 case Bytecodes::_fstore_0: store_local_float(0); break;
|
|
1179 case Bytecodes::_fstore_1: store_local_float(1); break;
|
|
1180 case Bytecodes::_fstore_2: store_local_float(2); break;
|
|
1181 case Bytecodes::_fstore_3: store_local_float(3); break;
|
|
1182
|
|
1183 case Bytecodes::_getfield: do_getfield(str); break;
|
|
1184 case Bytecodes::_getstatic: do_getstatic(str); break;
|
|
1185
|
|
1186 case Bytecodes::_goto:
|
|
1187 case Bytecodes::_goto_w:
|
|
1188 case Bytecodes::_nop:
|
|
1189 case Bytecodes::_return:
|
|
1190 {
|
|
1191 // do nothing.
|
|
1192 break;
|
|
1193 }
|
|
1194 case Bytecodes::_i2b:
|
|
1195 case Bytecodes::_i2c:
|
|
1196 case Bytecodes::_i2s:
|
|
1197 case Bytecodes::_ineg:
|
|
1198 {
|
|
1199 pop_int();
|
|
1200 push_int();
|
|
1201 break;
|
|
1202 }
|
|
1203 case Bytecodes::_i2d:
|
|
1204 {
|
|
1205 pop_int();
|
|
1206 push_double();
|
|
1207 break;
|
|
1208 }
|
|
1209 case Bytecodes::_i2f:
|
|
1210 {
|
|
1211 pop_int();
|
|
1212 push_float();
|
|
1213 break;
|
|
1214 }
|
|
1215 case Bytecodes::_i2l:
|
|
1216 {
|
|
1217 pop_int();
|
|
1218 push_long();
|
|
1219 break;
|
|
1220 }
|
|
1221 case Bytecodes::_iadd:
|
|
1222 case Bytecodes::_iand:
|
|
1223 case Bytecodes::_idiv:
|
|
1224 case Bytecodes::_imul:
|
|
1225 case Bytecodes::_ior:
|
|
1226 case Bytecodes::_irem:
|
|
1227 case Bytecodes::_ishl:
|
|
1228 case Bytecodes::_ishr:
|
|
1229 case Bytecodes::_isub:
|
|
1230 case Bytecodes::_iushr:
|
|
1231 case Bytecodes::_ixor:
|
|
1232 {
|
|
1233 pop_int();
|
|
1234 pop_int();
|
|
1235 push_int();
|
|
1236 break;
|
|
1237 }
|
|
1238 case Bytecodes::_if_acmpeq:
|
|
1239 case Bytecodes::_if_acmpne:
|
|
1240 {
|
|
1241 pop_object();
|
|
1242 pop_object();
|
|
1243 break;
|
|
1244 }
|
|
1245 case Bytecodes::_if_icmpeq:
|
|
1246 case Bytecodes::_if_icmpge:
|
|
1247 case Bytecodes::_if_icmpgt:
|
|
1248 case Bytecodes::_if_icmple:
|
|
1249 case Bytecodes::_if_icmplt:
|
|
1250 case Bytecodes::_if_icmpne:
|
|
1251 {
|
|
1252 pop_int();
|
|
1253 pop_int();
|
|
1254 break;
|
|
1255 }
|
|
1256 case Bytecodes::_ifeq:
|
|
1257 case Bytecodes::_ifle:
|
|
1258 case Bytecodes::_iflt:
|
|
1259 case Bytecodes::_ifge:
|
|
1260 case Bytecodes::_ifgt:
|
|
1261 case Bytecodes::_ifne:
|
|
1262 case Bytecodes::_ireturn:
|
|
1263 case Bytecodes::_lookupswitch:
|
|
1264 case Bytecodes::_tableswitch:
|
|
1265 {
|
|
1266 pop_int();
|
|
1267 break;
|
|
1268 }
|
|
1269 case Bytecodes::_iinc:
|
|
1270 {
|
|
1271 check_int(local(str->get_index()));
|
|
1272 break;
|
|
1273 }
|
|
1274 case Bytecodes::_iload: load_local_int(str->get_index()); break;
|
|
1275 case Bytecodes::_iload_0: load_local_int(0); break;
|
|
1276 case Bytecodes::_iload_1: load_local_int(1); break;
|
|
1277 case Bytecodes::_iload_2: load_local_int(2); break;
|
|
1278 case Bytecodes::_iload_3: load_local_int(3); break;
|
|
1279
|
|
1280 case Bytecodes::_instanceof:
|
|
1281 {
|
|
1282 // Check for uncommon trap:
|
|
1283 do_checkcast(str);
|
|
1284 pop_object();
|
|
1285 push_int();
|
|
1286 break;
|
|
1287 }
|
|
1288 case Bytecodes::_invokeinterface: do_invoke(str, true); break;
|
|
1289 case Bytecodes::_invokespecial: do_invoke(str, true); break;
|
|
1290 case Bytecodes::_invokestatic: do_invoke(str, false); break;
|
|
1291
|
|
1292 case Bytecodes::_invokevirtual: do_invoke(str, true); break;
|
|
1293
|
|
1294 case Bytecodes::_istore: store_local_int(str->get_index()); break;
|
|
1295 case Bytecodes::_istore_0: store_local_int(0); break;
|
|
1296 case Bytecodes::_istore_1: store_local_int(1); break;
|
|
1297 case Bytecodes::_istore_2: store_local_int(2); break;
|
|
1298 case Bytecodes::_istore_3: store_local_int(3); break;
|
|
1299
|
|
1300 case Bytecodes::_jsr:
|
|
1301 case Bytecodes::_jsr_w: do_jsr(str); break;
|
|
1302
|
|
1303 case Bytecodes::_l2d:
|
|
1304 {
|
|
1305 pop_long();
|
|
1306 push_double();
|
|
1307 break;
|
|
1308 }
|
|
1309 case Bytecodes::_l2f:
|
|
1310 {
|
|
1311 pop_long();
|
|
1312 push_float();
|
|
1313 break;
|
|
1314 }
|
|
1315 case Bytecodes::_l2i:
|
|
1316 {
|
|
1317 pop_long();
|
|
1318 push_int();
|
|
1319 break;
|
|
1320 }
|
|
1321 case Bytecodes::_ladd:
|
|
1322 case Bytecodes::_land:
|
|
1323 case Bytecodes::_ldiv:
|
|
1324 case Bytecodes::_lmul:
|
|
1325 case Bytecodes::_lor:
|
|
1326 case Bytecodes::_lrem:
|
|
1327 case Bytecodes::_lsub:
|
|
1328 case Bytecodes::_lxor:
|
|
1329 {
|
|
1330 pop_long();
|
|
1331 pop_long();
|
|
1332 push_long();
|
|
1333 break;
|
|
1334 }
|
|
1335 case Bytecodes::_laload:
|
|
1336 {
|
|
1337 pop_int();
|
|
1338 ciTypeArrayKlass* array_klass = pop_typeArray();
|
|
1339 // Put assert here for right type?
|
|
1340 push_long();
|
|
1341 break;
|
|
1342 }
|
|
1343 case Bytecodes::_lastore:
|
|
1344 {
|
|
1345 pop_long();
|
|
1346 pop_int();
|
|
1347 pop_typeArray();
|
|
1348 // assert here?
|
|
1349 break;
|
|
1350 }
|
|
1351 case Bytecodes::_lcmp:
|
|
1352 {
|
|
1353 pop_long();
|
|
1354 pop_long();
|
|
1355 push_int();
|
|
1356 break;
|
|
1357 }
|
|
1358 case Bytecodes::_lconst_0:
|
|
1359 case Bytecodes::_lconst_1:
|
|
1360 {
|
|
1361 push_long();
|
|
1362 break;
|
|
1363 }
|
|
1364 case Bytecodes::_ldc:
|
|
1365 case Bytecodes::_ldc_w:
|
|
1366 case Bytecodes::_ldc2_w:
|
|
1367 {
|
|
1368 do_ldc(str);
|
|
1369 break;
|
|
1370 }
|
|
1371
|
|
1372 case Bytecodes::_lload: load_local_long(str->get_index()); break;
|
|
1373 case Bytecodes::_lload_0: load_local_long(0); break;
|
|
1374 case Bytecodes::_lload_1: load_local_long(1); break;
|
|
1375 case Bytecodes::_lload_2: load_local_long(2); break;
|
|
1376 case Bytecodes::_lload_3: load_local_long(3); break;
|
|
1377
|
|
1378 case Bytecodes::_lneg:
|
|
1379 {
|
|
1380 pop_long();
|
|
1381 push_long();
|
|
1382 break;
|
|
1383 }
|
|
1384 case Bytecodes::_lreturn:
|
|
1385 {
|
|
1386 pop_long();
|
|
1387 break;
|
|
1388 }
|
|
1389 case Bytecodes::_lshl:
|
|
1390 case Bytecodes::_lshr:
|
|
1391 case Bytecodes::_lushr:
|
|
1392 {
|
|
1393 pop_int();
|
|
1394 pop_long();
|
|
1395 push_long();
|
|
1396 break;
|
|
1397 }
|
|
1398 case Bytecodes::_lstore: store_local_long(str->get_index()); break;
|
|
1399 case Bytecodes::_lstore_0: store_local_long(0); break;
|
|
1400 case Bytecodes::_lstore_1: store_local_long(1); break;
|
|
1401 case Bytecodes::_lstore_2: store_local_long(2); break;
|
|
1402 case Bytecodes::_lstore_3: store_local_long(3); break;
|
|
1403
|
|
1404 case Bytecodes::_multianewarray: do_multianewarray(str); break;
|
|
1405
|
|
1406 case Bytecodes::_new: do_new(str); break;
|
|
1407
|
|
1408 case Bytecodes::_newarray: do_newarray(str); break;
|
|
1409
|
|
1410 case Bytecodes::_pop:
|
|
1411 {
|
|
1412 pop();
|
|
1413 break;
|
|
1414 }
|
|
1415 case Bytecodes::_pop2:
|
|
1416 {
|
|
1417 pop();
|
|
1418 pop();
|
|
1419 break;
|
|
1420 }
|
|
1421
|
|
1422 case Bytecodes::_putfield: do_putfield(str); break;
|
|
1423 case Bytecodes::_putstatic: do_putstatic(str); break;
|
|
1424
|
|
1425 case Bytecodes::_ret: do_ret(str); break;
|
|
1426
|
|
1427 case Bytecodes::_swap:
|
|
1428 {
|
|
1429 ciType* value1 = pop_value();
|
|
1430 ciType* value2 = pop_value();
|
|
1431 push(value1);
|
|
1432 push(value2);
|
|
1433 break;
|
|
1434 }
|
|
1435 case Bytecodes::_wide:
|
|
1436 default:
|
|
1437 {
|
|
1438 // The iterator should skip this.
|
|
1439 ShouldNotReachHere();
|
|
1440 break;
|
|
1441 }
|
|
1442 }
|
|
1443
|
|
1444 if (CITraceTypeFlow) {
|
|
1445 print_on(tty);
|
|
1446 }
|
|
1447
|
|
1448 return (_trap_bci != -1);
|
|
1449 }
|
|
1450
|
|
1451 #ifndef PRODUCT
|
|
1452 // ------------------------------------------------------------------
|
|
1453 // ciTypeFlow::StateVector::print_cell_on
|
|
1454 void ciTypeFlow::StateVector::print_cell_on(outputStream* st, Cell c) const {
|
|
1455 ciType* type = type_at(c);
|
|
1456 if (type == top_type()) {
|
|
1457 st->print("top");
|
|
1458 } else if (type == bottom_type()) {
|
|
1459 st->print("bottom");
|
|
1460 } else if (type == null_type()) {
|
|
1461 st->print("null");
|
|
1462 } else if (type == long2_type()) {
|
|
1463 st->print("long2");
|
|
1464 } else if (type == double2_type()) {
|
|
1465 st->print("double2");
|
|
1466 } else if (is_int(type)) {
|
|
1467 st->print("int");
|
|
1468 } else if (is_long(type)) {
|
|
1469 st->print("long");
|
|
1470 } else if (is_float(type)) {
|
|
1471 st->print("float");
|
|
1472 } else if (is_double(type)) {
|
|
1473 st->print("double");
|
|
1474 } else if (type->is_return_address()) {
|
|
1475 st->print("address(%d)", type->as_return_address()->bci());
|
|
1476 } else {
|
|
1477 if (type->is_klass()) {
|
|
1478 type->as_klass()->name()->print_symbol_on(st);
|
|
1479 } else {
|
|
1480 st->print("UNEXPECTED TYPE");
|
|
1481 type->print();
|
|
1482 }
|
|
1483 }
|
|
1484 }
|
|
1485
|
|
1486 // ------------------------------------------------------------------
|
|
1487 // ciTypeFlow::StateVector::print_on
|
|
1488 void ciTypeFlow::StateVector::print_on(outputStream* st) const {
|
|
1489 int num_locals = _outer->max_locals();
|
|
1490 int num_stack = stack_size();
|
|
1491 int num_monitors = monitor_count();
|
|
1492 st->print_cr(" State : locals %d, stack %d, monitors %d", num_locals, num_stack, num_monitors);
|
|
1493 if (num_stack >= 0) {
|
|
1494 int i;
|
|
1495 for (i = 0; i < num_locals; i++) {
|
|
1496 st->print(" local %2d : ", i);
|
|
1497 print_cell_on(st, local(i));
|
|
1498 st->cr();
|
|
1499 }
|
|
1500 for (i = 0; i < num_stack; i++) {
|
|
1501 st->print(" stack %2d : ", i);
|
|
1502 print_cell_on(st, stack(i));
|
|
1503 st->cr();
|
|
1504 }
|
|
1505 }
|
|
1506 }
|
|
1507 #endif
|
|
1508
|
|
1509 // ciTypeFlow::Block
|
|
1510 //
|
|
1511 // A basic block.
|
|
1512
|
|
1513 // ------------------------------------------------------------------
|
|
1514 // ciTypeFlow::Block::Block
|
|
1515 ciTypeFlow::Block::Block(ciTypeFlow* outer,
|
|
1516 ciBlock *ciblk,
|
|
1517 ciTypeFlow::JsrSet* jsrs) {
|
|
1518 _ciblock = ciblk;
|
|
1519 _exceptions = NULL;
|
|
1520 _exc_klasses = NULL;
|
|
1521 _successors = NULL;
|
|
1522 _state = new (outer->arena()) StateVector(outer);
|
|
1523 JsrSet* new_jsrs =
|
|
1524 new (outer->arena()) JsrSet(outer->arena(), jsrs->size());
|
|
1525 jsrs->copy_into(new_jsrs);
|
|
1526 _jsrs = new_jsrs;
|
|
1527 _next = NULL;
|
|
1528 _on_work_list = false;
|
|
1529 _pre_order = -1; assert(!has_pre_order(), "");
|
|
1530 _private_copy = false;
|
|
1531 _trap_bci = -1;
|
|
1532 _trap_index = 0;
|
|
1533
|
|
1534 if (CITraceTypeFlow) {
|
|
1535 tty->print_cr(">> Created new block");
|
|
1536 print_on(tty);
|
|
1537 }
|
|
1538
|
|
1539 assert(this->outer() == outer, "outer link set up");
|
|
1540 assert(!outer->have_block_count(), "must not have mapped blocks yet");
|
|
1541 }
|
|
1542
|
|
1543 // ------------------------------------------------------------------
|
|
1544 // ciTypeFlow::Block::clone_loop_head
|
|
1545 //
|
|
1546 ciTypeFlow::Block*
|
|
1547 ciTypeFlow::Block::clone_loop_head(ciTypeFlow* analyzer,
|
|
1548 int branch_bci,
|
|
1549 ciTypeFlow::Block* target,
|
|
1550 ciTypeFlow::JsrSet* jsrs) {
|
|
1551 // Loop optimizations are not performed on Tier1 compiles. Do nothing.
|
|
1552 if (analyzer->env()->comp_level() < CompLevel_full_optimization) {
|
|
1553 return target;
|
|
1554 }
|
|
1555
|
|
1556 // The current block ends with a branch.
|
|
1557 //
|
|
1558 // If the target block appears to be the test-clause of a for loop, and
|
|
1559 // it is not too large, and it has not yet been cloned, clone it.
|
|
1560 // The pre-existing copy becomes the private clone used only by
|
|
1561 // the initial iteration of the loop. (We know we are simulating
|
|
1562 // the initial iteration right now, since we have never calculated
|
|
1563 // successors before for this block.)
|
|
1564
|
|
1565 if (branch_bci <= start()
|
|
1566 && (target->limit() - target->start()) <= CICloneLoopTestLimit
|
|
1567 && target->private_copy_count() == 0) {
|
|
1568 // Setting the private_copy bit ensures that the target block cannot be
|
|
1569 // reached by any other paths, such as fall-in from the loop body.
|
|
1570 // The private copy will be accessible only on successor lists
|
|
1571 // created up to this point.
|
|
1572 target->set_private_copy(true);
|
|
1573 if (CITraceTypeFlow) {
|
|
1574 tty->print(">> Cloning a test-clause block ");
|
|
1575 print_value_on(tty);
|
|
1576 tty->cr();
|
|
1577 }
|
|
1578 // If the target is the current block, then later on a new copy of the
|
|
1579 // target block will be created when its bytecodes are reached by
|
|
1580 // an alternate path. (This is the case for loops with the loop
|
|
1581 // head at the bci-wise bottom of the loop, as with pre-1.4.2 javac.)
|
|
1582 //
|
|
1583 // Otherwise, duplicate the target block now and use it immediately.
|
|
1584 // (The case for loops with the loop head at the bci-wise top of the
|
|
1585 // loop, as with 1.4.2 javac.)
|
|
1586 //
|
|
1587 // In either case, the new copy of the block will remain public.
|
|
1588 if (target != this) {
|
|
1589 target = analyzer->block_at(branch_bci, jsrs);
|
|
1590 }
|
|
1591 }
|
|
1592 return target;
|
|
1593 }
|
|
1594
|
|
1595 // ------------------------------------------------------------------
|
|
1596 // ciTypeFlow::Block::successors
|
|
1597 //
|
|
1598 // Get the successors for this Block.
|
|
1599 GrowableArray<ciTypeFlow::Block*>*
|
|
1600 ciTypeFlow::Block::successors(ciBytecodeStream* str,
|
|
1601 ciTypeFlow::StateVector* state,
|
|
1602 ciTypeFlow::JsrSet* jsrs) {
|
|
1603 if (_successors == NULL) {
|
|
1604 if (CITraceTypeFlow) {
|
|
1605 tty->print(">> Computing successors for block ");
|
|
1606 print_value_on(tty);
|
|
1607 tty->cr();
|
|
1608 }
|
|
1609
|
|
1610 ciTypeFlow* analyzer = outer();
|
|
1611 Arena* arena = analyzer->arena();
|
|
1612 Block* block = NULL;
|
|
1613 bool has_successor = !has_trap() &&
|
|
1614 (control() != ciBlock::fall_through_bci || limit() < analyzer->code_size());
|
|
1615 if (!has_successor) {
|
|
1616 _successors =
|
|
1617 new (arena) GrowableArray<Block*>(arena, 1, 0, NULL);
|
|
1618 // No successors
|
|
1619 } else if (control() == ciBlock::fall_through_bci) {
|
|
1620 assert(str->cur_bci() == limit(), "bad block end");
|
|
1621 // This block simply falls through to the next.
|
|
1622 _successors =
|
|
1623 new (arena) GrowableArray<Block*>(arena, 1, 0, NULL);
|
|
1624
|
|
1625 Block* block = analyzer->block_at(limit(), _jsrs);
|
|
1626 assert(_successors->length() == FALL_THROUGH, "");
|
|
1627 _successors->append(block);
|
|
1628 } else {
|
|
1629 int current_bci = str->cur_bci();
|
|
1630 int next_bci = str->next_bci();
|
|
1631 int branch_bci = -1;
|
|
1632 Block* target = NULL;
|
|
1633 assert(str->next_bci() == limit(), "bad block end");
|
|
1634 // This block is not a simple fall-though. Interpret
|
|
1635 // the current bytecode to find our successors.
|
|
1636 switch (str->cur_bc()) {
|
|
1637 case Bytecodes::_ifeq: case Bytecodes::_ifne:
|
|
1638 case Bytecodes::_iflt: case Bytecodes::_ifge:
|
|
1639 case Bytecodes::_ifgt: case Bytecodes::_ifle:
|
|
1640 case Bytecodes::_if_icmpeq: case Bytecodes::_if_icmpne:
|
|
1641 case Bytecodes::_if_icmplt: case Bytecodes::_if_icmpge:
|
|
1642 case Bytecodes::_if_icmpgt: case Bytecodes::_if_icmple:
|
|
1643 case Bytecodes::_if_acmpeq: case Bytecodes::_if_acmpne:
|
|
1644 case Bytecodes::_ifnull: case Bytecodes::_ifnonnull:
|
|
1645 // Our successors are the branch target and the next bci.
|
|
1646 branch_bci = str->get_dest();
|
|
1647 clone_loop_head(analyzer, branch_bci, this, jsrs);
|
|
1648 _successors =
|
|
1649 new (arena) GrowableArray<Block*>(arena, 2, 0, NULL);
|
|
1650 assert(_successors->length() == IF_NOT_TAKEN, "");
|
|
1651 _successors->append(analyzer->block_at(next_bci, jsrs));
|
|
1652 assert(_successors->length() == IF_TAKEN, "");
|
|
1653 _successors->append(analyzer->block_at(branch_bci, jsrs));
|
|
1654 break;
|
|
1655
|
|
1656 case Bytecodes::_goto:
|
|
1657 branch_bci = str->get_dest();
|
|
1658 _successors =
|
|
1659 new (arena) GrowableArray<Block*>(arena, 1, 0, NULL);
|
|
1660 assert(_successors->length() == GOTO_TARGET, "");
|
|
1661 target = analyzer->block_at(branch_bci, jsrs);
|
|
1662 // If the target block has not been visited yet, and looks like
|
|
1663 // a two-way branch, attempt to clone it if it is a loop head.
|
|
1664 if (target->_successors != NULL
|
|
1665 && target->_successors->length() == (IF_TAKEN + 1)) {
|
|
1666 target = clone_loop_head(analyzer, branch_bci, target, jsrs);
|
|
1667 }
|
|
1668 _successors->append(target);
|
|
1669 break;
|
|
1670
|
|
1671 case Bytecodes::_jsr:
|
|
1672 branch_bci = str->get_dest();
|
|
1673 _successors =
|
|
1674 new (arena) GrowableArray<Block*>(arena, 1, 0, NULL);
|
|
1675 assert(_successors->length() == GOTO_TARGET, "");
|
|
1676 _successors->append(analyzer->block_at(branch_bci, jsrs));
|
|
1677 break;
|
|
1678
|
|
1679 case Bytecodes::_goto_w:
|
|
1680 case Bytecodes::_jsr_w:
|
|
1681 _successors =
|
|
1682 new (arena) GrowableArray<Block*>(arena, 1, 0, NULL);
|
|
1683 assert(_successors->length() == GOTO_TARGET, "");
|
|
1684 _successors->append(analyzer->block_at(str->get_far_dest(), jsrs));
|
|
1685 break;
|
|
1686
|
|
1687 case Bytecodes::_tableswitch: {
|
|
1688 Bytecode_tableswitch *tableswitch =
|
|
1689 Bytecode_tableswitch_at(str->cur_bcp());
|
|
1690
|
|
1691 int len = tableswitch->length();
|
|
1692 _successors =
|
|
1693 new (arena) GrowableArray<Block*>(arena, len+1, 0, NULL);
|
|
1694 int bci = current_bci + tableswitch->default_offset();
|
|
1695 Block* block = analyzer->block_at(bci, jsrs);
|
|
1696 assert(_successors->length() == SWITCH_DEFAULT, "");
|
|
1697 _successors->append(block);
|
|
1698 while (--len >= 0) {
|
|
1699 int bci = current_bci + tableswitch->dest_offset_at(len);
|
|
1700 block = analyzer->block_at(bci, jsrs);
|
|
1701 assert(_successors->length() >= SWITCH_CASES, "");
|
|
1702 _successors->append_if_missing(block);
|
|
1703 }
|
|
1704 break;
|
|
1705 }
|
|
1706
|
|
1707 case Bytecodes::_lookupswitch: {
|
|
1708 Bytecode_lookupswitch *lookupswitch =
|
|
1709 Bytecode_lookupswitch_at(str->cur_bcp());
|
|
1710
|
|
1711 int npairs = lookupswitch->number_of_pairs();
|
|
1712 _successors =
|
|
1713 new (arena) GrowableArray<Block*>(arena, npairs+1, 0, NULL);
|
|
1714 int bci = current_bci + lookupswitch->default_offset();
|
|
1715 Block* block = analyzer->block_at(bci, jsrs);
|
|
1716 assert(_successors->length() == SWITCH_DEFAULT, "");
|
|
1717 _successors->append(block);
|
|
1718 while(--npairs >= 0) {
|
|
1719 LookupswitchPair *pair = lookupswitch->pair_at(npairs);
|
|
1720 int bci = current_bci + pair->offset();
|
|
1721 Block* block = analyzer->block_at(bci, jsrs);
|
|
1722 assert(_successors->length() >= SWITCH_CASES, "");
|
|
1723 _successors->append_if_missing(block);
|
|
1724 }
|
|
1725 break;
|
|
1726 }
|
|
1727
|
|
1728 case Bytecodes::_athrow: case Bytecodes::_ireturn:
|
|
1729 case Bytecodes::_lreturn: case Bytecodes::_freturn:
|
|
1730 case Bytecodes::_dreturn: case Bytecodes::_areturn:
|
|
1731 case Bytecodes::_return:
|
|
1732 _successors =
|
|
1733 new (arena) GrowableArray<Block*>(arena, 1, 0, NULL);
|
|
1734 // No successors
|
|
1735 break;
|
|
1736
|
|
1737 case Bytecodes::_ret: {
|
|
1738 _successors =
|
|
1739 new (arena) GrowableArray<Block*>(arena, 1, 0, NULL);
|
|
1740
|
|
1741 Cell local = state->local(str->get_index());
|
|
1742 ciType* return_address = state->type_at(local);
|
|
1743 assert(return_address->is_return_address(), "verify: wrong type");
|
|
1744 int bci = return_address->as_return_address()->bci();
|
|
1745 assert(_successors->length() == GOTO_TARGET, "");
|
|
1746 _successors->append(analyzer->block_at(bci, jsrs));
|
|
1747 break;
|
|
1748 }
|
|
1749
|
|
1750 case Bytecodes::_wide:
|
|
1751 default:
|
|
1752 ShouldNotReachHere();
|
|
1753 break;
|
|
1754 }
|
|
1755 }
|
|
1756 }
|
|
1757 return _successors;
|
|
1758 }
|
|
1759
|
|
1760 // ------------------------------------------------------------------
|
|
1761 // ciTypeFlow::Block:compute_exceptions
|
|
1762 //
|
|
1763 // Compute the exceptional successors and types for this Block.
|
|
1764 void ciTypeFlow::Block::compute_exceptions() {
|
|
1765 assert(_exceptions == NULL && _exc_klasses == NULL, "repeat");
|
|
1766
|
|
1767 if (CITraceTypeFlow) {
|
|
1768 tty->print(">> Computing exceptions for block ");
|
|
1769 print_value_on(tty);
|
|
1770 tty->cr();
|
|
1771 }
|
|
1772
|
|
1773 ciTypeFlow* analyzer = outer();
|
|
1774 Arena* arena = analyzer->arena();
|
|
1775
|
|
1776 // Any bci in the block will do.
|
|
1777 ciExceptionHandlerStream str(analyzer->method(), start());
|
|
1778
|
|
1779 // Allocate our growable arrays.
|
|
1780 int exc_count = str.count();
|
|
1781 _exceptions = new (arena) GrowableArray<Block*>(arena, exc_count, 0, NULL);
|
|
1782 _exc_klasses = new (arena) GrowableArray<ciInstanceKlass*>(arena, exc_count,
|
|
1783 0, NULL);
|
|
1784
|
|
1785 for ( ; !str.is_done(); str.next()) {
|
|
1786 ciExceptionHandler* handler = str.handler();
|
|
1787 int bci = handler->handler_bci();
|
|
1788 ciInstanceKlass* klass = NULL;
|
|
1789 if (bci == -1) {
|
|
1790 // There is no catch all. It is possible to exit the method.
|
|
1791 break;
|
|
1792 }
|
|
1793 if (handler->is_catch_all()) {
|
|
1794 klass = analyzer->env()->Throwable_klass();
|
|
1795 } else {
|
|
1796 klass = handler->catch_klass();
|
|
1797 }
|
|
1798 _exceptions->append(analyzer->block_at(bci, _jsrs));
|
|
1799 _exc_klasses->append(klass);
|
|
1800 }
|
|
1801 }
|
|
1802
|
|
1803 // ------------------------------------------------------------------
|
|
1804 // ciTypeFlow::Block::is_simpler_than
|
|
1805 //
|
|
1806 // A relation used to order our work list. We work on a block earlier
|
|
1807 // if it has a smaller jsr stack or it occurs earlier in the program
|
|
1808 // text.
|
|
1809 //
|
|
1810 // Note: maybe we should redo this functionality to make blocks
|
|
1811 // which correspond to exceptions lower priority.
|
|
1812 bool ciTypeFlow::Block::is_simpler_than(ciTypeFlow::Block* other) {
|
|
1813 if (other == NULL) {
|
|
1814 return true;
|
|
1815 } else {
|
|
1816 int size1 = _jsrs->size();
|
|
1817 int size2 = other->_jsrs->size();
|
|
1818 if (size1 < size2) {
|
|
1819 return true;
|
|
1820 } else if (size2 < size1) {
|
|
1821 return false;
|
|
1822 } else {
|
|
1823 #if 0
|
|
1824 if (size1 > 0) {
|
|
1825 int r1 = _jsrs->record_at(0)->return_address();
|
|
1826 int r2 = _jsrs->record_at(0)->return_address();
|
|
1827 if (r1 < r2) {
|
|
1828 return true;
|
|
1829 } else if (r2 < r1) {
|
|
1830 return false;
|
|
1831 } else {
|
|
1832 int e1 = _jsrs->record_at(0)->return_address();
|
|
1833 int e2 = _jsrs->record_at(0)->return_address();
|
|
1834 if (e1 < e2) {
|
|
1835 return true;
|
|
1836 } else if (e2 < e1) {
|
|
1837 return false;
|
|
1838 }
|
|
1839 }
|
|
1840 }
|
|
1841 #endif
|
|
1842 return (start() <= other->start());
|
|
1843 }
|
|
1844 }
|
|
1845 }
|
|
1846
|
|
1847 // ------------------------------------------------------------------
|
|
1848 // ciTypeFlow::Block::set_private_copy
|
|
1849 // Use this only to make a pre-existing public block into a private copy.
|
|
1850 void ciTypeFlow::Block::set_private_copy(bool z) {
|
|
1851 assert(z || (z == is_private_copy()), "cannot make a private copy public");
|
|
1852 _private_copy = z;
|
|
1853 }
|
|
1854
|
|
1855 #ifndef PRODUCT
|
|
1856 // ------------------------------------------------------------------
|
|
1857 // ciTypeFlow::Block::print_value_on
|
|
1858 void ciTypeFlow::Block::print_value_on(outputStream* st) const {
|
|
1859 if (has_pre_order()) st->print("#%-2d ", pre_order());
|
|
1860 st->print("[%d - %d)", start(), limit());
|
|
1861 if (_jsrs->size() > 0) { st->print("/"); _jsrs->print_on(st); }
|
|
1862 if (is_private_copy()) st->print("/private_copy");
|
|
1863 }
|
|
1864
|
|
1865 // ------------------------------------------------------------------
|
|
1866 // ciTypeFlow::Block::print_on
|
|
1867 void ciTypeFlow::Block::print_on(outputStream* st) const {
|
|
1868 if ((Verbose || WizardMode)) {
|
|
1869 outer()->method()->print_codes_on(start(), limit(), st);
|
|
1870 }
|
|
1871 st->print_cr(" ==================================================== ");
|
|
1872 st->print (" ");
|
|
1873 print_value_on(st);
|
|
1874 st->cr();
|
|
1875 _state->print_on(st);
|
|
1876 if (_successors == NULL) {
|
|
1877 st->print_cr(" No successor information");
|
|
1878 } else {
|
|
1879 int num_successors = _successors->length();
|
|
1880 st->print_cr(" Successors : %d", num_successors);
|
|
1881 for (int i = 0; i < num_successors; i++) {
|
|
1882 Block* successor = _successors->at(i);
|
|
1883 st->print(" ");
|
|
1884 successor->print_value_on(st);
|
|
1885 st->cr();
|
|
1886 }
|
|
1887 }
|
|
1888 if (_exceptions == NULL) {
|
|
1889 st->print_cr(" No exception information");
|
|
1890 } else {
|
|
1891 int num_exceptions = _exceptions->length();
|
|
1892 st->print_cr(" Exceptions : %d", num_exceptions);
|
|
1893 for (int i = 0; i < num_exceptions; i++) {
|
|
1894 Block* exc_succ = _exceptions->at(i);
|
|
1895 ciInstanceKlass* exc_klass = _exc_klasses->at(i);
|
|
1896 st->print(" ");
|
|
1897 exc_succ->print_value_on(st);
|
|
1898 st->print(" -- ");
|
|
1899 exc_klass->name()->print_symbol_on(st);
|
|
1900 st->cr();
|
|
1901 }
|
|
1902 }
|
|
1903 if (has_trap()) {
|
|
1904 st->print_cr(" Traps on %d with trap index %d", trap_bci(), trap_index());
|
|
1905 }
|
|
1906 st->print_cr(" ==================================================== ");
|
|
1907 }
|
|
1908 #endif
|
|
1909
|
|
1910 // ciTypeFlow
|
|
1911 //
|
|
1912 // This is a pass over the bytecodes which computes the following:
|
|
1913 // basic block structure
|
|
1914 // interpreter type-states (a la the verifier)
|
|
1915
|
|
1916 // ------------------------------------------------------------------
|
|
1917 // ciTypeFlow::ciTypeFlow
|
|
1918 ciTypeFlow::ciTypeFlow(ciEnv* env, ciMethod* method, int osr_bci) {
|
|
1919 _env = env;
|
|
1920 _method = method;
|
|
1921 _methodBlocks = method->get_method_blocks();
|
|
1922 _max_locals = method->max_locals();
|
|
1923 _max_stack = method->max_stack();
|
|
1924 _code_size = method->code_size();
|
|
1925 _osr_bci = osr_bci;
|
|
1926 _failure_reason = NULL;
|
|
1927 assert(start_bci() >= 0 && start_bci() < code_size() , "correct osr_bci argument");
|
|
1928
|
|
1929 _work_list = NULL;
|
|
1930 _next_pre_order = 0;
|
|
1931
|
|
1932 _ciblock_count = _methodBlocks->num_blocks();
|
|
1933 _idx_to_blocklist = NEW_ARENA_ARRAY(arena(), GrowableArray<Block*>*, _ciblock_count);
|
|
1934 for (int i = 0; i < _ciblock_count; i++) {
|
|
1935 _idx_to_blocklist[i] = NULL;
|
|
1936 }
|
|
1937 _block_map = NULL; // until all blocks are seen
|
|
1938 _jsr_count = 0;
|
|
1939 _jsr_records = NULL;
|
|
1940 }
|
|
1941
|
|
1942 // ------------------------------------------------------------------
|
|
1943 // ciTypeFlow::work_list_next
|
|
1944 //
|
|
1945 // Get the next basic block from our work list.
|
|
1946 ciTypeFlow::Block* ciTypeFlow::work_list_next() {
|
|
1947 assert(!work_list_empty(), "work list must not be empty");
|
|
1948 Block* next_block = _work_list;
|
|
1949 _work_list = next_block->next();
|
|
1950 next_block->set_next(NULL);
|
|
1951 next_block->set_on_work_list(false);
|
|
1952 if (!next_block->has_pre_order()) {
|
|
1953 // Assign "pre_order" as each new block is taken from the work list.
|
|
1954 // This number may be used by following phases to order block visits.
|
|
1955 assert(!have_block_count(), "must not have mapped blocks yet")
|
|
1956 next_block->set_pre_order(_next_pre_order++);
|
|
1957 }
|
|
1958 return next_block;
|
|
1959 }
|
|
1960
|
|
1961 // ------------------------------------------------------------------
|
|
1962 // ciTypeFlow::add_to_work_list
|
|
1963 //
|
|
1964 // Add a basic block to our work list.
|
|
1965 void ciTypeFlow::add_to_work_list(ciTypeFlow::Block* block) {
|
|
1966 assert(!block->is_on_work_list(), "must not already be on work list");
|
|
1967
|
|
1968 if (CITraceTypeFlow) {
|
|
1969 tty->print(">> Adding block%s ", block->has_pre_order() ? " (again)" : "");
|
|
1970 block->print_value_on(tty);
|
|
1971 tty->print_cr(" to the work list : ");
|
|
1972 }
|
|
1973
|
|
1974 block->set_on_work_list(true);
|
|
1975 if (block->is_simpler_than(_work_list)) {
|
|
1976 block->set_next(_work_list);
|
|
1977 _work_list = block;
|
|
1978 } else {
|
|
1979 Block *temp = _work_list;
|
|
1980 while (!block->is_simpler_than(temp->next())) {
|
|
1981 if (CITraceTypeFlow) {
|
|
1982 tty->print(".");
|
|
1983 }
|
|
1984 temp = temp->next();
|
|
1985 }
|
|
1986 block->set_next(temp->next());
|
|
1987 temp->set_next(block);
|
|
1988 }
|
|
1989 if (CITraceTypeFlow) {
|
|
1990 tty->cr();
|
|
1991 }
|
|
1992 }
|
|
1993
|
|
1994 // ------------------------------------------------------------------
|
|
1995 // ciTypeFlow::block_at
|
|
1996 //
|
|
1997 // Return the block beginning at bci which has a JsrSet compatible
|
|
1998 // with jsrs.
|
|
1999 ciTypeFlow::Block* ciTypeFlow::block_at(int bci, ciTypeFlow::JsrSet* jsrs, CreateOption option) {
|
|
2000 // First find the right ciBlock.
|
|
2001 if (CITraceTypeFlow) {
|
|
2002 tty->print(">> Requesting block for %d/", bci);
|
|
2003 jsrs->print_on(tty);
|
|
2004 tty->cr();
|
|
2005 }
|
|
2006
|
|
2007 ciBlock* ciblk = _methodBlocks->block_containing(bci);
|
|
2008 assert(ciblk->start_bci() == bci, "bad ciBlock boundaries");
|
|
2009 Block* block = get_block_for(ciblk->index(), jsrs, option);
|
|
2010
|
|
2011 assert(block == NULL? (option == no_create): block->is_private_copy() == (option == create_private_copy), "create option consistent with result");
|
|
2012
|
|
2013 if (CITraceTypeFlow) {
|
|
2014 if (block != NULL) {
|
|
2015 tty->print(">> Found block ");
|
|
2016 block->print_value_on(tty);
|
|
2017 tty->cr();
|
|
2018 } else {
|
|
2019 tty->print_cr(">> No such block.");
|
|
2020 }
|
|
2021 }
|
|
2022
|
|
2023 return block;
|
|
2024 }
|
|
2025
|
|
2026 // ------------------------------------------------------------------
|
|
2027 // ciTypeFlow::make_jsr_record
|
|
2028 //
|
|
2029 // Make a JsrRecord for a given (entry, return) pair, if such a record
|
|
2030 // does not already exist.
|
|
2031 ciTypeFlow::JsrRecord* ciTypeFlow::make_jsr_record(int entry_address,
|
|
2032 int return_address) {
|
|
2033 if (_jsr_records == NULL) {
|
|
2034 _jsr_records = new (arena()) GrowableArray<JsrRecord*>(arena(),
|
|
2035 _jsr_count,
|
|
2036 0,
|
|
2037 NULL);
|
|
2038 }
|
|
2039 JsrRecord* record = NULL;
|
|
2040 int len = _jsr_records->length();
|
|
2041 for (int i = 0; i < len; i++) {
|
|
2042 JsrRecord* record = _jsr_records->at(i);
|
|
2043 if (record->entry_address() == entry_address &&
|
|
2044 record->return_address() == return_address) {
|
|
2045 return record;
|
|
2046 }
|
|
2047 }
|
|
2048
|
|
2049 record = new (arena()) JsrRecord(entry_address, return_address);
|
|
2050 _jsr_records->append(record);
|
|
2051 return record;
|
|
2052 }
|
|
2053
|
|
2054 // ------------------------------------------------------------------
|
|
2055 // ciTypeFlow::flow_exceptions
|
|
2056 //
|
|
2057 // Merge the current state into all exceptional successors at the
|
|
2058 // current point in the code.
|
|
2059 void ciTypeFlow::flow_exceptions(GrowableArray<ciTypeFlow::Block*>* exceptions,
|
|
2060 GrowableArray<ciInstanceKlass*>* exc_klasses,
|
|
2061 ciTypeFlow::StateVector* state) {
|
|
2062 int len = exceptions->length();
|
|
2063 assert(exc_klasses->length() == len, "must have same length");
|
|
2064 for (int i = 0; i < len; i++) {
|
|
2065 Block* block = exceptions->at(i);
|
|
2066 ciInstanceKlass* exception_klass = exc_klasses->at(i);
|
|
2067
|
|
2068 if (!exception_klass->is_loaded()) {
|
|
2069 // Do not compile any code for unloaded exception types.
|
|
2070 // Following compiler passes are responsible for doing this also.
|
|
2071 continue;
|
|
2072 }
|
|
2073
|
|
2074 if (block->meet_exception(exception_klass, state)) {
|
|
2075 // Block was modified. Add it to the work list.
|
|
2076 if (!block->is_on_work_list()) {
|
|
2077 add_to_work_list(block);
|
|
2078 }
|
|
2079 }
|
|
2080 }
|
|
2081 }
|
|
2082
|
|
2083 // ------------------------------------------------------------------
|
|
2084 // ciTypeFlow::flow_successors
|
|
2085 //
|
|
2086 // Merge the current state into all successors at the current point
|
|
2087 // in the code.
|
|
2088 void ciTypeFlow::flow_successors(GrowableArray<ciTypeFlow::Block*>* successors,
|
|
2089 ciTypeFlow::StateVector* state) {
|
|
2090 int len = successors->length();
|
|
2091 for (int i = 0; i < len; i++) {
|
|
2092 Block* block = successors->at(i);
|
|
2093 if (block->meet(state)) {
|
|
2094 // Block was modified. Add it to the work list.
|
|
2095 if (!block->is_on_work_list()) {
|
|
2096 add_to_work_list(block);
|
|
2097 }
|
|
2098 }
|
|
2099 }
|
|
2100 }
|
|
2101
|
|
2102 // ------------------------------------------------------------------
|
|
2103 // ciTypeFlow::can_trap
|
|
2104 //
|
|
2105 // Tells if a given instruction is able to generate an exception edge.
|
|
2106 bool ciTypeFlow::can_trap(ciBytecodeStream& str) {
|
|
2107 // Cf. GenerateOopMap::do_exception_edge.
|
|
2108 if (!Bytecodes::can_trap(str.cur_bc())) return false;
|
|
2109
|
|
2110 switch (str.cur_bc()) {
|
|
2111 case Bytecodes::_ldc:
|
|
2112 case Bytecodes::_ldc_w:
|
|
2113 case Bytecodes::_ldc2_w:
|
|
2114 case Bytecodes::_aload_0:
|
|
2115 // These bytecodes can trap for rewriting. We need to assume that
|
|
2116 // they do not throw exceptions to make the monitor analysis work.
|
|
2117 return false;
|
|
2118
|
|
2119 case Bytecodes::_ireturn:
|
|
2120 case Bytecodes::_lreturn:
|
|
2121 case Bytecodes::_freturn:
|
|
2122 case Bytecodes::_dreturn:
|
|
2123 case Bytecodes::_areturn:
|
|
2124 case Bytecodes::_return:
|
|
2125 // We can assume the monitor stack is empty in this analysis.
|
|
2126 return false;
|
|
2127
|
|
2128 case Bytecodes::_monitorexit:
|
|
2129 // We can assume monitors are matched in this analysis.
|
|
2130 return false;
|
|
2131 }
|
|
2132
|
|
2133 return true;
|
|
2134 }
|
|
2135
|
|
2136
|
|
2137 // ------------------------------------------------------------------
|
|
2138 // ciTypeFlow::flow_block
|
|
2139 //
|
|
2140 // Interpret the effects of the bytecodes on the incoming state
|
|
2141 // vector of a basic block. Push the changed state to succeeding
|
|
2142 // basic blocks.
|
|
2143 void ciTypeFlow::flow_block(ciTypeFlow::Block* block,
|
|
2144 ciTypeFlow::StateVector* state,
|
|
2145 ciTypeFlow::JsrSet* jsrs) {
|
|
2146 if (CITraceTypeFlow) {
|
|
2147 tty->print("\n>> ANALYZING BLOCK : ");
|
|
2148 tty->cr();
|
|
2149 block->print_on(tty);
|
|
2150 }
|
|
2151 assert(block->has_pre_order(), "pre-order is assigned before 1st flow");
|
|
2152
|
|
2153 int start = block->start();
|
|
2154 int limit = block->limit();
|
|
2155 int control = block->control();
|
|
2156 if (control != ciBlock::fall_through_bci) {
|
|
2157 limit = control;
|
|
2158 }
|
|
2159
|
|
2160 // Grab the state from the current block.
|
|
2161 block->copy_state_into(state);
|
|
2162
|
|
2163 GrowableArray<Block*>* exceptions = block->exceptions();
|
|
2164 GrowableArray<ciInstanceKlass*>* exc_klasses = block->exc_klasses();
|
|
2165 bool has_exceptions = exceptions->length() > 0;
|
|
2166
|
|
2167 ciBytecodeStream str(method());
|
|
2168 str.reset_to_bci(start);
|
|
2169 Bytecodes::Code code;
|
|
2170 while ((code = str.next()) != ciBytecodeStream::EOBC() &&
|
|
2171 str.cur_bci() < limit) {
|
|
2172 // Check for exceptional control flow from this point.
|
|
2173 if (has_exceptions && can_trap(str)) {
|
|
2174 flow_exceptions(exceptions, exc_klasses, state);
|
|
2175 }
|
|
2176 // Apply the effects of the current bytecode to our state.
|
|
2177 bool res = state->apply_one_bytecode(&str);
|
|
2178
|
|
2179 // Watch for bailouts.
|
|
2180 if (failing()) return;
|
|
2181
|
|
2182 if (res) {
|
|
2183
|
|
2184 // We have encountered a trap. Record it in this block.
|
|
2185 block->set_trap(state->trap_bci(), state->trap_index());
|
|
2186
|
|
2187 if (CITraceTypeFlow) {
|
|
2188 tty->print_cr(">> Found trap");
|
|
2189 block->print_on(tty);
|
|
2190 }
|
|
2191
|
|
2192 // Record (no) successors.
|
|
2193 block->successors(&str, state, jsrs);
|
|
2194
|
|
2195 // Discontinue interpretation of this Block.
|
|
2196 return;
|
|
2197 }
|
|
2198 }
|
|
2199
|
|
2200 GrowableArray<Block*>* successors = NULL;
|
|
2201 if (control != ciBlock::fall_through_bci) {
|
|
2202 // Check for exceptional control flow from this point.
|
|
2203 if (has_exceptions && can_trap(str)) {
|
|
2204 flow_exceptions(exceptions, exc_klasses, state);
|
|
2205 }
|
|
2206
|
|
2207 // Fix the JsrSet to reflect effect of the bytecode.
|
|
2208 block->copy_jsrs_into(jsrs);
|
|
2209 jsrs->apply_control(this, &str, state);
|
|
2210
|
|
2211 // Find successor edges based on old state and new JsrSet.
|
|
2212 successors = block->successors(&str, state, jsrs);
|
|
2213
|
|
2214 // Apply the control changes to the state.
|
|
2215 state->apply_one_bytecode(&str);
|
|
2216 } else {
|
|
2217 // Fall through control
|
|
2218 successors = block->successors(&str, NULL, NULL);
|
|
2219 }
|
|
2220
|
|
2221 // Pass our state to successors.
|
|
2222 flow_successors(successors, state);
|
|
2223 }
|
|
2224
|
|
2225 // ------------------------------------------------------------------
|
|
2226 // ciTypeFlow::flow_types
|
|
2227 //
|
|
2228 // Perform the type flow analysis, creating and cloning Blocks as
|
|
2229 // necessary.
|
|
2230 void ciTypeFlow::flow_types() {
|
|
2231 ResourceMark rm;
|
|
2232 StateVector* temp_vector = new StateVector(this);
|
|
2233 JsrSet* temp_set = new JsrSet(NULL, 16);
|
|
2234
|
|
2235 // Create the method entry block.
|
|
2236 Block* block = block_at(start_bci(), temp_set);
|
|
2237 block->set_pre_order(_next_pre_order++);
|
|
2238 assert(block->is_start(), "start block must have order #0");
|
|
2239
|
|
2240 // Load the initial state into it.
|
|
2241 const StateVector* start_state = get_start_state();
|
|
2242 if (failing()) return;
|
|
2243 block->meet(start_state);
|
|
2244 add_to_work_list(block);
|
|
2245
|
|
2246 // Trickle away.
|
|
2247 while (!work_list_empty()) {
|
|
2248 Block* block = work_list_next();
|
|
2249 flow_block(block, temp_vector, temp_set);
|
|
2250
|
|
2251
|
|
2252 // NodeCountCutoff is the number of nodes at which the parser
|
|
2253 // will bail out. Probably if we already have lots of BBs,
|
|
2254 // the parser will generate at least twice that many nodes and bail out.
|
|
2255 // Therefore, this is a conservatively large limit at which to
|
|
2256 // bail out in the pre-parse typeflow pass.
|
|
2257 int block_limit = MaxNodeLimit / 2;
|
|
2258
|
|
2259 if (_next_pre_order >= block_limit) {
|
|
2260 // Too many basic blocks. Bail out.
|
|
2261 //
|
|
2262 // This can happen when try/finally constructs are nested to depth N,
|
|
2263 // and there is O(2**N) cloning of jsr bodies. See bug 4697245!
|
|
2264 record_failure("too many basic blocks");
|
|
2265 return;
|
|
2266 }
|
|
2267
|
|
2268 // Watch for bailouts.
|
|
2269 if (failing()) return;
|
|
2270 }
|
|
2271 }
|
|
2272
|
|
2273 // ------------------------------------------------------------------
|
|
2274 // ciTypeFlow::map_blocks
|
|
2275 //
|
|
2276 // Create the block map, which indexes blocks in pre_order.
|
|
2277 void ciTypeFlow::map_blocks() {
|
|
2278 assert(_block_map == NULL, "single initialization");
|
|
2279 int pre_order_limit = _next_pre_order;
|
|
2280 _block_map = NEW_ARENA_ARRAY(arena(), Block*, pre_order_limit);
|
|
2281 assert(pre_order_limit == block_count(), "");
|
|
2282 int po;
|
|
2283 for (po = 0; po < pre_order_limit; po++) {
|
|
2284 debug_only(_block_map[po] = NULL);
|
|
2285 }
|
|
2286 ciMethodBlocks *mblks = _methodBlocks;
|
|
2287 ciBlock* current = NULL;
|
|
2288 int limit_bci = code_size();
|
|
2289 for (int bci = 0; bci < limit_bci; bci++) {
|
|
2290 ciBlock* ciblk = mblks->block_containing(bci);
|
|
2291 if (ciblk != NULL && ciblk != current) {
|
|
2292 current = ciblk;
|
|
2293 int curidx = ciblk->index();
|
|
2294 int block_count = (_idx_to_blocklist[curidx] == NULL) ? 0 : _idx_to_blocklist[curidx]->length();
|
|
2295 for (int i = 0; i < block_count; i++) {
|
|
2296 Block* block = _idx_to_blocklist[curidx]->at(i);
|
|
2297 if (!block->has_pre_order()) continue;
|
|
2298 int po = block->pre_order();
|
|
2299 assert(_block_map[po] == NULL, "unique ref to block");
|
|
2300 assert(0 <= po && po < pre_order_limit, "");
|
|
2301 _block_map[po] = block;
|
|
2302 }
|
|
2303 }
|
|
2304 }
|
|
2305 for (po = 0; po < pre_order_limit; po++) {
|
|
2306 assert(_block_map[po] != NULL, "must not drop any blocks");
|
|
2307 Block* block = _block_map[po];
|
|
2308 // Remove dead blocks from successor lists:
|
|
2309 for (int e = 0; e <= 1; e++) {
|
|
2310 GrowableArray<Block*>* l = e? block->exceptions(): block->successors();
|
|
2311 for (int i = 0; i < l->length(); i++) {
|
|
2312 Block* s = l->at(i);
|
|
2313 if (!s->has_pre_order()) {
|
|
2314 if (CITraceTypeFlow) {
|
|
2315 tty->print("Removing dead %s successor of #%d: ", (e? "exceptional": "normal"), block->pre_order());
|
|
2316 s->print_value_on(tty);
|
|
2317 tty->cr();
|
|
2318 }
|
|
2319 l->remove(s);
|
|
2320 --i;
|
|
2321 }
|
|
2322 }
|
|
2323 }
|
|
2324 }
|
|
2325 }
|
|
2326
|
|
2327 // ------------------------------------------------------------------
|
|
2328 // ciTypeFlow::get_block_for
|
|
2329 //
|
|
2330 // Find a block with this ciBlock which has a compatible JsrSet.
|
|
2331 // If no such block exists, create it, unless the option is no_create.
|
|
2332 // If the option is create_private_copy, always create a fresh private copy.
|
|
2333 ciTypeFlow::Block* ciTypeFlow::get_block_for(int ciBlockIndex, ciTypeFlow::JsrSet* jsrs, CreateOption option) {
|
|
2334 Arena* a = arena();
|
|
2335 GrowableArray<Block*>* blocks = _idx_to_blocklist[ciBlockIndex];
|
|
2336 if (blocks == NULL) {
|
|
2337 // Query only?
|
|
2338 if (option == no_create) return NULL;
|
|
2339
|
|
2340 // Allocate the growable array.
|
|
2341 blocks = new (a) GrowableArray<Block*>(a, 4, 0, NULL);
|
|
2342 _idx_to_blocklist[ciBlockIndex] = blocks;
|
|
2343 }
|
|
2344
|
|
2345 if (option != create_private_copy) {
|
|
2346 int len = blocks->length();
|
|
2347 for (int i = 0; i < len; i++) {
|
|
2348 Block* block = blocks->at(i);
|
|
2349 if (!block->is_private_copy() && block->is_compatible_with(jsrs)) {
|
|
2350 return block;
|
|
2351 }
|
|
2352 }
|
|
2353 }
|
|
2354
|
|
2355 // Query only?
|
|
2356 if (option == no_create) return NULL;
|
|
2357
|
|
2358 // We did not find a compatible block. Create one.
|
|
2359 Block* new_block = new (a) Block(this, _methodBlocks->block(ciBlockIndex), jsrs);
|
|
2360 if (option == create_private_copy) new_block->set_private_copy(true);
|
|
2361 blocks->append(new_block);
|
|
2362 return new_block;
|
|
2363 }
|
|
2364
|
|
2365 // ------------------------------------------------------------------
|
|
2366 // ciTypeFlow::private_copy_count
|
|
2367 //
|
|
2368 int ciTypeFlow::private_copy_count(int ciBlockIndex, ciTypeFlow::JsrSet* jsrs) const {
|
|
2369 GrowableArray<Block*>* blocks = _idx_to_blocklist[ciBlockIndex];
|
|
2370
|
|
2371 if (blocks == NULL) {
|
|
2372 return 0;
|
|
2373 }
|
|
2374
|
|
2375 int count = 0;
|
|
2376 int len = blocks->length();
|
|
2377 for (int i = 0; i < len; i++) {
|
|
2378 Block* block = blocks->at(i);
|
|
2379 if (block->is_private_copy() && block->is_compatible_with(jsrs)) {
|
|
2380 count++;
|
|
2381 }
|
|
2382 }
|
|
2383
|
|
2384 return count;
|
|
2385 }
|
|
2386
|
|
2387 // ------------------------------------------------------------------
|
|
2388 // ciTypeFlow::do_flow
|
|
2389 //
|
|
2390 // Perform type inference flow analysis.
|
|
2391 void ciTypeFlow::do_flow() {
|
|
2392 if (CITraceTypeFlow) {
|
|
2393 tty->print_cr("\nPerforming flow analysis on method");
|
|
2394 method()->print();
|
|
2395 if (is_osr_flow()) tty->print(" at OSR bci %d", start_bci());
|
|
2396 tty->cr();
|
|
2397 method()->print_codes();
|
|
2398 }
|
|
2399 if (CITraceTypeFlow) {
|
|
2400 tty->print_cr("Initial CI Blocks");
|
|
2401 print_on(tty);
|
|
2402 }
|
|
2403 flow_types();
|
|
2404 // Watch for bailouts.
|
|
2405 if (failing()) {
|
|
2406 return;
|
|
2407 }
|
|
2408 if (CIPrintTypeFlow || CITraceTypeFlow) {
|
|
2409 print_on(tty);
|
|
2410 }
|
|
2411 map_blocks();
|
|
2412 }
|
|
2413
|
|
2414 // ------------------------------------------------------------------
|
|
2415 // ciTypeFlow::record_failure()
|
|
2416 // The ciTypeFlow object keeps track of failure reasons separately from the ciEnv.
|
|
2417 // This is required because there is not a 1-1 relation between the ciEnv and
|
|
2418 // the TypeFlow passes within a compilation task. For example, if the compiler
|
|
2419 // is considering inlining a method, it will request a TypeFlow. If that fails,
|
|
2420 // the compilation as a whole may continue without the inlining. Some TypeFlow
|
|
2421 // requests are not optional; if they fail the requestor is responsible for
|
|
2422 // copying the failure reason up to the ciEnv. (See Parse::Parse.)
|
|
2423 void ciTypeFlow::record_failure(const char* reason) {
|
|
2424 if (env()->log() != NULL) {
|
|
2425 env()->log()->elem("failure reason='%s' phase='typeflow'", reason);
|
|
2426 }
|
|
2427 if (_failure_reason == NULL) {
|
|
2428 // Record the first failure reason.
|
|
2429 _failure_reason = reason;
|
|
2430 }
|
|
2431 }
|
|
2432
|
|
2433 #ifndef PRODUCT
|
|
2434 // ------------------------------------------------------------------
|
|
2435 // ciTypeFlow::print_on
|
|
2436 void ciTypeFlow::print_on(outputStream* st) const {
|
|
2437 // Walk through CI blocks
|
|
2438 st->print_cr("********************************************************");
|
|
2439 st->print ("TypeFlow for ");
|
|
2440 method()->name()->print_symbol_on(st);
|
|
2441 int limit_bci = code_size();
|
|
2442 st->print_cr(" %d bytes", limit_bci);
|
|
2443 ciMethodBlocks *mblks = _methodBlocks;
|
|
2444 ciBlock* current = NULL;
|
|
2445 for (int bci = 0; bci < limit_bci; bci++) {
|
|
2446 ciBlock* blk = mblks->block_containing(bci);
|
|
2447 if (blk != NULL && blk != current) {
|
|
2448 current = blk;
|
|
2449 current->print_on(st);
|
|
2450
|
|
2451 GrowableArray<Block*>* blocks = _idx_to_blocklist[blk->index()];
|
|
2452 int num_blocks = (blocks == NULL) ? 0 : blocks->length();
|
|
2453
|
|
2454 if (num_blocks == 0) {
|
|
2455 st->print_cr(" No Blocks");
|
|
2456 } else {
|
|
2457 for (int i = 0; i < num_blocks; i++) {
|
|
2458 Block* block = blocks->at(i);
|
|
2459 block->print_on(st);
|
|
2460 }
|
|
2461 }
|
|
2462 st->print_cr("--------------------------------------------------------");
|
|
2463 st->cr();
|
|
2464 }
|
|
2465 }
|
|
2466 st->print_cr("********************************************************");
|
|
2467 st->cr();
|
|
2468 }
|
|
2469 #endif
|