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1 /*
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2 * Copyright 1997-2007 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/_typeArrayKlass.cpp.incl"
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27
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28 bool typeArrayKlass::compute_is_subtype_of(klassOop k) {
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29 if (!k->klass_part()->oop_is_typeArray()) {
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30 return arrayKlass::compute_is_subtype_of(k);
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31 }
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32
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33 typeArrayKlass* tak = typeArrayKlass::cast(k);
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34 if (dimension() != tak->dimension()) return false;
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35
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36 return element_type() == tak->element_type();
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37 }
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38
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39 klassOop typeArrayKlass::create_klass(BasicType type, int scale, TRAPS) {
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40 typeArrayKlass o;
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41
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42 symbolHandle sym(symbolOop(NULL));
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43 // bootstrapping: don't create sym if symbolKlass not created yet
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44 if (Universe::symbolKlassObj() != NULL) {
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45 sym = oopFactory::new_symbol_handle(external_name(type), CHECK_NULL);
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46 }
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47 KlassHandle klassklass (THREAD, Universe::typeArrayKlassKlassObj());
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48
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49 arrayKlassHandle k = base_create_array_klass(o.vtbl_value(), header_size(), klassklass, CHECK_NULL);
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50 typeArrayKlass* ak = typeArrayKlass::cast(k());
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51 ak->set_name(sym());
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52 ak->set_layout_helper(array_layout_helper(type));
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53 assert(scale == (1 << ak->log2_element_size()), "scale must check out");
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54 assert(ak->oop_is_javaArray(), "sanity");
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55 assert(ak->oop_is_typeArray(), "sanity");
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56 ak->set_max_length(arrayOopDesc::max_array_length(type));
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57 assert(k()->size() > header_size(), "bad size");
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58
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59 // Call complete_create_array_klass after all instance variables have been initialized.
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60 KlassHandle super (THREAD, k->super());
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61 complete_create_array_klass(k, super, CHECK_NULL);
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62
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63 return k();
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64 }
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65
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66 typeArrayOop typeArrayKlass::allocate(int length, TRAPS) {
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67 assert(log2_element_size() >= 0, "bad scale");
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68 if (length >= 0) {
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69 if (length <= max_length()) {
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70 size_t size = typeArrayOopDesc::object_size(layout_helper(), length);
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71 KlassHandle h_k(THREAD, as_klassOop());
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72 typeArrayOop t;
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73 CollectedHeap* ch = Universe::heap();
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74 if (size < ch->large_typearray_limit()) {
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75 t = (typeArrayOop)CollectedHeap::array_allocate(h_k, (int)size, length, CHECK_NULL);
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76 } else {
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77 t = (typeArrayOop)CollectedHeap::large_typearray_allocate(h_k, (int)size, length, CHECK_NULL);
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78 }
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79 assert(t->is_parsable(), "Don't publish unless parsable");
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80 return t;
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81 } else {
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82 THROW_OOP_0(Universe::out_of_memory_error_array_size());
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83 }
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84 } else {
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85 THROW_0(vmSymbols::java_lang_NegativeArraySizeException());
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86 }
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87 }
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88
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89 typeArrayOop typeArrayKlass::allocate_permanent(int length, TRAPS) {
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90 if (length < 0) THROW_0(vmSymbols::java_lang_NegativeArraySizeException());
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91 int size = typeArrayOopDesc::object_size(layout_helper(), length);
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92 KlassHandle h_k(THREAD, as_klassOop());
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93 typeArrayOop t = (typeArrayOop)
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94 CollectedHeap::permanent_array_allocate(h_k, size, length, CHECK_NULL);
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95 assert(t->is_parsable(), "Can't publish until parsable");
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96 return t;
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97 }
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98
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99 oop typeArrayKlass::multi_allocate(int rank, jint* last_size, TRAPS) {
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100 // For typeArrays this is only called for the last dimension
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101 assert(rank == 1, "just checking");
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102 int length = *last_size;
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103 return allocate(length, THREAD);
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104 }
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105
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106
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107 void typeArrayKlass::copy_array(arrayOop s, int src_pos, arrayOop d, int dst_pos, int length, TRAPS) {
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108 assert(s->is_typeArray(), "must be type array");
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109
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110 // Check destination
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111 if (!d->is_typeArray() || element_type() != typeArrayKlass::cast(d->klass())->element_type()) {
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112 THROW(vmSymbols::java_lang_ArrayStoreException());
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113 }
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114
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115 // Check is all offsets and lengths are non negative
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116 if (src_pos < 0 || dst_pos < 0 || length < 0) {
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117 THROW(vmSymbols::java_lang_ArrayIndexOutOfBoundsException());
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118 }
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119 // Check if the ranges are valid
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120 if ( (((unsigned int) length + (unsigned int) src_pos) > (unsigned int) s->length())
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121 || (((unsigned int) length + (unsigned int) dst_pos) > (unsigned int) d->length()) ) {
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122 THROW(vmSymbols::java_lang_ArrayIndexOutOfBoundsException());
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123 }
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124
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125 // This is an attempt to make the copy_array fast.
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126 // NB: memmove takes care of overlapping memory segments.
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127 // Potential problem: memmove is not guaranteed to be word atomic
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128 // Revisit in Merlin
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129 int l2es = log2_element_size();
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130 int ihs = array_header_in_bytes() / wordSize;
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131 char* src = (char*) ((oop*)s + ihs) + (src_pos << l2es);
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132 char* dst = (char*) ((oop*)d + ihs) + (dst_pos << l2es);
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133 memmove(dst, src, length << l2es);
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134 }
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135
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136
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137 // create a klass of array holding typeArrays
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138 klassOop typeArrayKlass::array_klass_impl(bool or_null, int n, TRAPS) {
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139 typeArrayKlassHandle h_this(THREAD, as_klassOop());
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140 return array_klass_impl(h_this, or_null, n, THREAD);
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141 }
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142
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143 klassOop typeArrayKlass::array_klass_impl(typeArrayKlassHandle h_this, bool or_null, int n, TRAPS) {
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144 int dimension = h_this->dimension();
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145 assert(dimension <= n, "check order of chain");
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146 if (dimension == n)
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147 return h_this();
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148
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149 objArrayKlassHandle h_ak(THREAD, h_this->higher_dimension());
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150 if (h_ak.is_null()) {
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151 if (or_null) return NULL;
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152
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153 ResourceMark rm;
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154 JavaThread *jt = (JavaThread *)THREAD;
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155 {
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156 MutexLocker mc(Compile_lock, THREAD); // for vtables
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157 // Atomic create higher dimension and link into list
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158 MutexLocker mu(MultiArray_lock, THREAD);
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159
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160 h_ak = objArrayKlassHandle(THREAD, h_this->higher_dimension());
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161 if (h_ak.is_null()) {
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162 klassOop oak = objArrayKlassKlass::cast(
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163 Universe::objArrayKlassKlassObj())->allocate_objArray_klass(
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164 dimension + 1, h_this, CHECK_NULL);
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165 h_ak = objArrayKlassHandle(THREAD, oak);
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166 h_ak->set_lower_dimension(h_this());
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167 h_this->set_higher_dimension(h_ak());
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168 assert(h_ak->oop_is_objArray(), "incorrect initialization of objArrayKlass");
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169 }
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170 }
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171 } else {
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172 CHECK_UNHANDLED_OOPS_ONLY(Thread::current()->clear_unhandled_oops());
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173 }
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174 if (or_null) {
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175 return h_ak->array_klass_or_null(n);
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176 }
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177 return h_ak->array_klass(n, CHECK_NULL);
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178 }
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179
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180 klassOop typeArrayKlass::array_klass_impl(bool or_null, TRAPS) {
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181 return array_klass_impl(or_null, dimension() + 1, THREAD);
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182 }
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183
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184 int typeArrayKlass::oop_size(oop obj) const {
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185 assert(obj->is_typeArray(),"must be a type array");
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186 typeArrayOop t = typeArrayOop(obj);
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187 return t->object_size();
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188 }
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189
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190 void typeArrayKlass::oop_follow_contents(oop obj) {
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191 assert(obj->is_typeArray(),"must be a type array");
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192 // Performance tweak: We skip iterating over the klass pointer since we
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193 // know that Universe::typeArrayKlass never moves.
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194 }
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195
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196 #ifndef SERIALGC
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197 void typeArrayKlass::oop_follow_contents(ParCompactionManager* cm, oop obj) {
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198 assert(obj->is_typeArray(),"must be a type array");
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199 // Performance tweak: We skip iterating over the klass pointer since we
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200 // know that Universe::typeArrayKlass never moves.
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201 }
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202 #endif // SERIALGC
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203
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204 int typeArrayKlass::oop_adjust_pointers(oop obj) {
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205 assert(obj->is_typeArray(),"must be a type array");
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206 typeArrayOop t = typeArrayOop(obj);
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207 // Performance tweak: We skip iterating over the klass pointer since we
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208 // know that Universe::typeArrayKlass never moves.
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209 return t->object_size();
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210 }
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211
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212 int typeArrayKlass::oop_oop_iterate(oop obj, OopClosure* blk) {
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213 assert(obj->is_typeArray(),"must be a type array");
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214 typeArrayOop t = typeArrayOop(obj);
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215 // Performance tweak: We skip iterating over the klass pointer since we
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216 // know that Universe::typeArrayKlass never moves.
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217 return t->object_size();
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218 }
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219
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220 int typeArrayKlass::oop_oop_iterate_m(oop obj, OopClosure* blk, MemRegion mr) {
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221 assert(obj->is_typeArray(),"must be a type array");
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222 typeArrayOop t = typeArrayOop(obj);
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223 // Performance tweak: We skip iterating over the klass pointer since we
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224 // know that Universe::typeArrayKlass never moves.
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225 return t->object_size();
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226 }
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227
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228 #ifndef SERIALGC
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229 void typeArrayKlass::oop_copy_contents(PSPromotionManager* pm, oop obj) {
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230 assert(obj->is_typeArray(),"must be a type array");
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231 }
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232
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233 void typeArrayKlass::oop_push_contents(PSPromotionManager* pm, oop obj) {
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234 assert(obj->is_typeArray(),"must be a type array");
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235 }
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236
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237 int
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238 typeArrayKlass::oop_update_pointers(ParCompactionManager* cm, oop obj) {
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239 assert(obj->is_typeArray(),"must be a type array");
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240 return typeArrayOop(obj)->object_size();
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241 }
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242
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243 int
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244 typeArrayKlass::oop_update_pointers(ParCompactionManager* cm, oop obj,
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245 HeapWord* beg_addr, HeapWord* end_addr) {
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246 assert(obj->is_typeArray(),"must be a type array");
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247 return typeArrayOop(obj)->object_size();
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248 }
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249 #endif // SERIALGC
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250
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251 void typeArrayKlass::initialize(TRAPS) {
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252 // Nothing to do. Having this function is handy since objArrayKlasses can be
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253 // initialized by calling initialize on their bottom_klass, see objArrayKlass::initialize
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254 }
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255
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256 const char* typeArrayKlass::external_name(BasicType type) {
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257 switch (type) {
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258 case T_BOOLEAN: return "[Z";
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259 case T_CHAR: return "[C";
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260 case T_FLOAT: return "[F";
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261 case T_DOUBLE: return "[D";
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262 case T_BYTE: return "[B";
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263 case T_SHORT: return "[S";
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264 case T_INT: return "[I";
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265 case T_LONG: return "[J";
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266 default: ShouldNotReachHere();
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267 }
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268 return NULL;
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269 }
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270
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271 #ifndef PRODUCT
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272 // Printing
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273
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274 static void print_boolean_array(typeArrayOop ta, int print_len, outputStream* st) {
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275 for (int index = 0; index < print_len; index++) {
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276 st->print_cr(" - %3d: %s", index, (ta->bool_at(index) == 0) ? "false" : "true");
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277 }
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278 }
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279
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280
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281 static void print_char_array(typeArrayOop ta, int print_len, outputStream* st) {
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282 for (int index = 0; index < print_len; index++) {
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283 jchar c = ta->char_at(index);
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284 st->print_cr(" - %3d: %x %c", index, c, isprint(c) ? c : ' ');
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285 }
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286 }
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287
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288
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289 static void print_float_array(typeArrayOop ta, int print_len, outputStream* st) {
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290 for (int index = 0; index < print_len; index++) {
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291 st->print_cr(" - %3d: %g", index, ta->float_at(index));
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292 }
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293 }
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294
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295
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296 static void print_double_array(typeArrayOop ta, int print_len, outputStream* st) {
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297 for (int index = 0; index < print_len; index++) {
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298 st->print_cr(" - %3d: %g", index, ta->double_at(index));
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299 }
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300 }
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301
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302
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303 static void print_byte_array(typeArrayOop ta, int print_len, outputStream* st) {
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304 for (int index = 0; index < print_len; index++) {
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305 jbyte c = ta->byte_at(index);
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306 st->print_cr(" - %3d: %x %c", index, c, isprint(c) ? c : ' ');
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307 }
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308 }
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309
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310
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311 static void print_short_array(typeArrayOop ta, int print_len, outputStream* st) {
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312 for (int index = 0; index < print_len; index++) {
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313 int v = ta->ushort_at(index);
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314 st->print_cr(" - %3d: 0x%x\t %d", index, v, v);
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315 }
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316 }
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317
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318
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319 static void print_int_array(typeArrayOop ta, int print_len, outputStream* st) {
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320 for (int index = 0; index < print_len; index++) {
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321 jint v = ta->int_at(index);
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322 st->print_cr(" - %3d: 0x%x %d", index, v, v);
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323 }
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324 }
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325
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326
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327 static void print_long_array(typeArrayOop ta, int print_len, outputStream* st) {
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328 for (int index = 0; index < print_len; index++) {
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329 jlong v = ta->long_at(index);
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330 st->print_cr(" - %3d: 0x%x 0x%x", index, high(v), low(v));
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331 }
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332 }
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333
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334
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335 void typeArrayKlass::oop_print_on(oop obj, outputStream* st) {
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336 arrayKlass::oop_print_on(obj, st);
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337 typeArrayOop ta = typeArrayOop(obj);
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338 int print_len = MIN2((intx) ta->length(), MaxElementPrintSize);
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339 switch (element_type()) {
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340 case T_BOOLEAN: print_boolean_array(ta, print_len, st); break;
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341 case T_CHAR: print_char_array(ta, print_len, st); break;
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342 case T_FLOAT: print_float_array(ta, print_len, st); break;
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343 case T_DOUBLE: print_double_array(ta, print_len, st); break;
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344 case T_BYTE: print_byte_array(ta, print_len, st); break;
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345 case T_SHORT: print_short_array(ta, print_len, st); break;
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346 case T_INT: print_int_array(ta, print_len, st); break;
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347 case T_LONG: print_long_array(ta, print_len, st); break;
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348 default: ShouldNotReachHere();
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349 }
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350 int remaining = ta->length() - print_len;
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351 if (remaining > 0) {
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352 tty->print_cr(" - <%d more elements, increase MaxElementPrintSize to print>", remaining);
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353 }
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354 }
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355
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356 #endif // PRODUCT
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357
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358 const char* typeArrayKlass::internal_name() const {
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359 return Klass::external_name();
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360 }
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