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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 // forward declaration
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26 class Address;
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27 class VMRegImpl;
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28 typedef VMRegImpl* VMReg;
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29
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30
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31 // Use Register as shortcut
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32 class RegisterImpl;
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33 typedef RegisterImpl* Register;
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34
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35
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36 inline Register as_Register(int encoding) {
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37 return (Register)(intptr_t) encoding;
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38 }
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39
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40 // The implementation of integer registers for the SPARC architecture
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41 class RegisterImpl: public AbstractRegisterImpl {
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42 public:
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43 enum {
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44 log_set_size = 3, // the number of bits to encode the set register number
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45 number_of_sets = 4, // the number of registers sets (in, local, out, global)
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46 number_of_registers = number_of_sets << log_set_size,
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47
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48 iset_no = 3, ibase = iset_no << log_set_size, // the in register set
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49 lset_no = 2, lbase = lset_no << log_set_size, // the local register set
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50 oset_no = 1, obase = oset_no << log_set_size, // the output register set
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51 gset_no = 0, gbase = gset_no << log_set_size // the global register set
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52 };
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53
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54
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55 friend Register as_Register(int encoding);
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56 // set specific construction
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57 friend Register as_iRegister(int number);
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58 friend Register as_lRegister(int number);
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59 friend Register as_oRegister(int number);
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60 friend Register as_gRegister(int number);
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61
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62 VMReg as_VMReg();
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63
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64 // accessors
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65 int encoding() const { assert(is_valid(), "invalid register"); return value(); }
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66 const char* name() const;
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67
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68 // testers
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69 bool is_valid() const { return (0 <= (value()&0x7F) && (value()&0x7F) < number_of_registers); }
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70 bool is_even() const { return (encoding() & 1) == 0; }
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71 bool is_in() const { return (encoding() >> log_set_size) == iset_no; }
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72 bool is_local() const { return (encoding() >> log_set_size) == lset_no; }
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73 bool is_out() const { return (encoding() >> log_set_size) == oset_no; }
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74 bool is_global() const { return (encoding() >> log_set_size) == gset_no; }
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75
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76 // derived registers, offsets, and addresses
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77 Register successor() const { return as_Register(encoding() + 1); }
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78
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79 int input_number() const {
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80 assert(is_in(), "must be input register");
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81 return encoding() - ibase;
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82 }
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83
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84 Register after_save() const {
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85 assert(is_out() || is_global(), "register not visible after save");
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86 return is_out() ? as_Register(encoding() + (ibase - obase)) : (const Register)this;
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87 }
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88
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89 Register after_restore() const {
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90 assert(is_in() || is_global(), "register not visible after restore");
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91 return is_in() ? as_Register(encoding() + (obase - ibase)) : (const Register)this;
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92 }
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93
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94 int sp_offset_in_saved_window() const {
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95 assert(is_in() || is_local(), "only i and l registers are saved in frame");
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96 return encoding() - lbase;
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97 }
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98
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99 inline Address address_in_saved_window() const; // implemented in assembler_sparc.hpp
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100 };
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101
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102
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103 // set specific construction
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104 inline Register as_iRegister(int number) { return as_Register(RegisterImpl::ibase + number); }
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105 inline Register as_lRegister(int number) { return as_Register(RegisterImpl::lbase + number); }
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106 inline Register as_oRegister(int number) { return as_Register(RegisterImpl::obase + number); }
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107 inline Register as_gRegister(int number) { return as_Register(RegisterImpl::gbase + number); }
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108
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109 // The integer registers of the SPARC architecture
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110
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111 CONSTANT_REGISTER_DECLARATION(Register, noreg , (-1));
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112
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113 CONSTANT_REGISTER_DECLARATION(Register, G0 , (RegisterImpl::gbase + 0));
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114 CONSTANT_REGISTER_DECLARATION(Register, G1 , (RegisterImpl::gbase + 1));
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115 CONSTANT_REGISTER_DECLARATION(Register, G2 , (RegisterImpl::gbase + 2));
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116 CONSTANT_REGISTER_DECLARATION(Register, G3 , (RegisterImpl::gbase + 3));
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117 CONSTANT_REGISTER_DECLARATION(Register, G4 , (RegisterImpl::gbase + 4));
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118 CONSTANT_REGISTER_DECLARATION(Register, G5 , (RegisterImpl::gbase + 5));
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119 CONSTANT_REGISTER_DECLARATION(Register, G6 , (RegisterImpl::gbase + 6));
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120 CONSTANT_REGISTER_DECLARATION(Register, G7 , (RegisterImpl::gbase + 7));
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121
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122 CONSTANT_REGISTER_DECLARATION(Register, O0 , (RegisterImpl::obase + 0));
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123 CONSTANT_REGISTER_DECLARATION(Register, O1 , (RegisterImpl::obase + 1));
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124 CONSTANT_REGISTER_DECLARATION(Register, O2 , (RegisterImpl::obase + 2));
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125 CONSTANT_REGISTER_DECLARATION(Register, O3 , (RegisterImpl::obase + 3));
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126 CONSTANT_REGISTER_DECLARATION(Register, O4 , (RegisterImpl::obase + 4));
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127 CONSTANT_REGISTER_DECLARATION(Register, O5 , (RegisterImpl::obase + 5));
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128 CONSTANT_REGISTER_DECLARATION(Register, O6 , (RegisterImpl::obase + 6));
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129 CONSTANT_REGISTER_DECLARATION(Register, O7 , (RegisterImpl::obase + 7));
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130
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131 CONSTANT_REGISTER_DECLARATION(Register, L0 , (RegisterImpl::lbase + 0));
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132 CONSTANT_REGISTER_DECLARATION(Register, L1 , (RegisterImpl::lbase + 1));
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133 CONSTANT_REGISTER_DECLARATION(Register, L2 , (RegisterImpl::lbase + 2));
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134 CONSTANT_REGISTER_DECLARATION(Register, L3 , (RegisterImpl::lbase + 3));
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135 CONSTANT_REGISTER_DECLARATION(Register, L4 , (RegisterImpl::lbase + 4));
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136 CONSTANT_REGISTER_DECLARATION(Register, L5 , (RegisterImpl::lbase + 5));
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137 CONSTANT_REGISTER_DECLARATION(Register, L6 , (RegisterImpl::lbase + 6));
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138 CONSTANT_REGISTER_DECLARATION(Register, L7 , (RegisterImpl::lbase + 7));
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139
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140 CONSTANT_REGISTER_DECLARATION(Register, I0 , (RegisterImpl::ibase + 0));
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141 CONSTANT_REGISTER_DECLARATION(Register, I1 , (RegisterImpl::ibase + 1));
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142 CONSTANT_REGISTER_DECLARATION(Register, I2 , (RegisterImpl::ibase + 2));
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143 CONSTANT_REGISTER_DECLARATION(Register, I3 , (RegisterImpl::ibase + 3));
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144 CONSTANT_REGISTER_DECLARATION(Register, I4 , (RegisterImpl::ibase + 4));
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145 CONSTANT_REGISTER_DECLARATION(Register, I5 , (RegisterImpl::ibase + 5));
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146 CONSTANT_REGISTER_DECLARATION(Register, I6 , (RegisterImpl::ibase + 6));
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147 CONSTANT_REGISTER_DECLARATION(Register, I7 , (RegisterImpl::ibase + 7));
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148
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149 CONSTANT_REGISTER_DECLARATION(Register, FP , (RegisterImpl::ibase + 6));
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150 CONSTANT_REGISTER_DECLARATION(Register, SP , (RegisterImpl::obase + 6));
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151
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152 //
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153 // Because sparc has so many registers, #define'ing values for the is
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154 // beneficial in code size and the cost of some of the dangers of
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155 // defines. We don't use them on Intel because win32 uses asm
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156 // directives which use the same names for registers as Hotspot does,
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157 // so #defines would screw up the inline assembly. If a particular
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158 // file has a problem with these defines then it's possible to turn
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159 // them off in that file by defining DONT_USE_REGISTER_DEFINES.
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160 // register_definition_sparc.cpp does that so that it's able to
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161 // provide real definitions of these registers for use in debuggers
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162 // and such.
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163 //
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164
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165 #ifndef DONT_USE_REGISTER_DEFINES
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166 #define noreg ((Register)(noreg_RegisterEnumValue))
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167
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168 #define G0 ((Register)(G0_RegisterEnumValue))
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169 #define G1 ((Register)(G1_RegisterEnumValue))
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170 #define G2 ((Register)(G2_RegisterEnumValue))
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171 #define G3 ((Register)(G3_RegisterEnumValue))
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172 #define G4 ((Register)(G4_RegisterEnumValue))
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173 #define G5 ((Register)(G5_RegisterEnumValue))
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174 #define G6 ((Register)(G6_RegisterEnumValue))
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175 #define G7 ((Register)(G7_RegisterEnumValue))
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176
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177 #define O0 ((Register)(O0_RegisterEnumValue))
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178 #define O1 ((Register)(O1_RegisterEnumValue))
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179 #define O2 ((Register)(O2_RegisterEnumValue))
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180 #define O3 ((Register)(O3_RegisterEnumValue))
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181 #define O4 ((Register)(O4_RegisterEnumValue))
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182 #define O5 ((Register)(O5_RegisterEnumValue))
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183 #define O6 ((Register)(O6_RegisterEnumValue))
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184 #define O7 ((Register)(O7_RegisterEnumValue))
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185
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186 #define L0 ((Register)(L0_RegisterEnumValue))
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187 #define L1 ((Register)(L1_RegisterEnumValue))
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188 #define L2 ((Register)(L2_RegisterEnumValue))
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189 #define L3 ((Register)(L3_RegisterEnumValue))
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190 #define L4 ((Register)(L4_RegisterEnumValue))
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191 #define L5 ((Register)(L5_RegisterEnumValue))
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192 #define L6 ((Register)(L6_RegisterEnumValue))
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193 #define L7 ((Register)(L7_RegisterEnumValue))
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194
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195 #define I0 ((Register)(I0_RegisterEnumValue))
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196 #define I1 ((Register)(I1_RegisterEnumValue))
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197 #define I2 ((Register)(I2_RegisterEnumValue))
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198 #define I3 ((Register)(I3_RegisterEnumValue))
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199 #define I4 ((Register)(I4_RegisterEnumValue))
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200 #define I5 ((Register)(I5_RegisterEnumValue))
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201 #define I6 ((Register)(I6_RegisterEnumValue))
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202 #define I7 ((Register)(I7_RegisterEnumValue))
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203
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204 #define FP ((Register)(FP_RegisterEnumValue))
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205 #define SP ((Register)(SP_RegisterEnumValue))
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206 #endif // DONT_USE_REGISTER_DEFINES
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207
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208 // Use FloatRegister as shortcut
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209 class FloatRegisterImpl;
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210 typedef FloatRegisterImpl* FloatRegister;
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211
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212
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213 // construction
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214 inline FloatRegister as_FloatRegister(int encoding) {
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215 return (FloatRegister)(intptr_t)encoding;
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216 }
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217
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218 // The implementation of float registers for the SPARC architecture
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219
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220 class FloatRegisterImpl: public AbstractRegisterImpl {
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221 public:
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222 enum {
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223 number_of_registers = 64
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224 };
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225
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226 enum Width {
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227 S = 1, D = 2, Q = 3
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228 };
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229
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230 // construction
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231 VMReg as_VMReg( );
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232
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233 // accessors
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234 int encoding() const { assert(is_valid(), "invalid register"); return value(); }
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235
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236 public:
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237 int encoding(Width w) const {
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238 const int c = encoding();
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239 switch (w) {
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240 case S:
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241 assert(c < 32, "bad single float register");
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242 return c;
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243
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244 case D:
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245 assert(c < 64 && (c & 1) == 0, "bad double float register");
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246 assert(c < 32 || VM_Version::v9_instructions_work(), "V9 float work only on V9 platform");
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247 return (c & 0x1e) | ((c & 0x20) >> 5);
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248
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249 case Q:
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250 assert(c < 64 && (c & 3) == 0, "bad quad float register");
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251 assert(c < 32 || VM_Version::v9_instructions_work(), "V9 float work only on V9 platform");
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252 return (c & 0x1c) | ((c & 0x20) >> 5);
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253 }
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254 ShouldNotReachHere();
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255 return -1;
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256 }
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257
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258 bool is_valid() const { return 0 <= value() && value() < number_of_registers; }
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259 const char* name() const;
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260
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261 FloatRegister successor() const { return as_FloatRegister(encoding() + 1); }
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262 };
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263
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264
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265 // The float registers of the SPARC architecture
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266
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267 CONSTANT_REGISTER_DECLARATION(FloatRegister, fnoreg , (-1));
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268
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269 CONSTANT_REGISTER_DECLARATION(FloatRegister, F0 , ( 0));
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270 CONSTANT_REGISTER_DECLARATION(FloatRegister, F1 , ( 1));
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271 CONSTANT_REGISTER_DECLARATION(FloatRegister, F2 , ( 2));
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272 CONSTANT_REGISTER_DECLARATION(FloatRegister, F3 , ( 3));
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273 CONSTANT_REGISTER_DECLARATION(FloatRegister, F4 , ( 4));
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274 CONSTANT_REGISTER_DECLARATION(FloatRegister, F5 , ( 5));
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275 CONSTANT_REGISTER_DECLARATION(FloatRegister, F6 , ( 6));
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276 CONSTANT_REGISTER_DECLARATION(FloatRegister, F7 , ( 7));
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277 CONSTANT_REGISTER_DECLARATION(FloatRegister, F8 , ( 8));
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278 CONSTANT_REGISTER_DECLARATION(FloatRegister, F9 , ( 9));
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279 CONSTANT_REGISTER_DECLARATION(FloatRegister, F10 , (10));
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280 CONSTANT_REGISTER_DECLARATION(FloatRegister, F11 , (11));
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281 CONSTANT_REGISTER_DECLARATION(FloatRegister, F12 , (12));
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282 CONSTANT_REGISTER_DECLARATION(FloatRegister, F13 , (13));
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283 CONSTANT_REGISTER_DECLARATION(FloatRegister, F14 , (14));
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284 CONSTANT_REGISTER_DECLARATION(FloatRegister, F15 , (15));
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285 CONSTANT_REGISTER_DECLARATION(FloatRegister, F16 , (16));
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286 CONSTANT_REGISTER_DECLARATION(FloatRegister, F17 , (17));
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287 CONSTANT_REGISTER_DECLARATION(FloatRegister, F18 , (18));
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288 CONSTANT_REGISTER_DECLARATION(FloatRegister, F19 , (19));
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289 CONSTANT_REGISTER_DECLARATION(FloatRegister, F20 , (20));
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290 CONSTANT_REGISTER_DECLARATION(FloatRegister, F21 , (21));
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291 CONSTANT_REGISTER_DECLARATION(FloatRegister, F22 , (22));
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292 CONSTANT_REGISTER_DECLARATION(FloatRegister, F23 , (23));
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293 CONSTANT_REGISTER_DECLARATION(FloatRegister, F24 , (24));
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294 CONSTANT_REGISTER_DECLARATION(FloatRegister, F25 , (25));
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295 CONSTANT_REGISTER_DECLARATION(FloatRegister, F26 , (26));
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296 CONSTANT_REGISTER_DECLARATION(FloatRegister, F27 , (27));
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297 CONSTANT_REGISTER_DECLARATION(FloatRegister, F28 , (28));
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298 CONSTANT_REGISTER_DECLARATION(FloatRegister, F29 , (29));
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299 CONSTANT_REGISTER_DECLARATION(FloatRegister, F30 , (30));
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300 CONSTANT_REGISTER_DECLARATION(FloatRegister, F31 , (31));
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301
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302 CONSTANT_REGISTER_DECLARATION(FloatRegister, F32 , (32));
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303 CONSTANT_REGISTER_DECLARATION(FloatRegister, F34 , (34));
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304 CONSTANT_REGISTER_DECLARATION(FloatRegister, F36 , (36));
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305 CONSTANT_REGISTER_DECLARATION(FloatRegister, F38 , (38));
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306 CONSTANT_REGISTER_DECLARATION(FloatRegister, F40 , (40));
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307 CONSTANT_REGISTER_DECLARATION(FloatRegister, F42 , (42));
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308 CONSTANT_REGISTER_DECLARATION(FloatRegister, F44 , (44));
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309 CONSTANT_REGISTER_DECLARATION(FloatRegister, F46 , (46));
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310 CONSTANT_REGISTER_DECLARATION(FloatRegister, F48 , (48));
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311 CONSTANT_REGISTER_DECLARATION(FloatRegister, F50 , (50));
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312 CONSTANT_REGISTER_DECLARATION(FloatRegister, F52 , (52));
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313 CONSTANT_REGISTER_DECLARATION(FloatRegister, F54 , (54));
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314 CONSTANT_REGISTER_DECLARATION(FloatRegister, F56 , (56));
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315 CONSTANT_REGISTER_DECLARATION(FloatRegister, F58 , (58));
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316 CONSTANT_REGISTER_DECLARATION(FloatRegister, F60 , (60));
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317 CONSTANT_REGISTER_DECLARATION(FloatRegister, F62 , (62));
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318
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319
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320 #ifndef DONT_USE_REGISTER_DEFINES
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321 #define fnoreg ((FloatRegister)(fnoreg_FloatRegisterEnumValue))
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322 #define F0 ((FloatRegister)( F0_FloatRegisterEnumValue))
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323 #define F1 ((FloatRegister)( F1_FloatRegisterEnumValue))
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324 #define F2 ((FloatRegister)( F2_FloatRegisterEnumValue))
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325 #define F3 ((FloatRegister)( F3_FloatRegisterEnumValue))
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326 #define F4 ((FloatRegister)( F4_FloatRegisterEnumValue))
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327 #define F5 ((FloatRegister)( F5_FloatRegisterEnumValue))
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328 #define F6 ((FloatRegister)( F6_FloatRegisterEnumValue))
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329 #define F7 ((FloatRegister)( F7_FloatRegisterEnumValue))
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330 #define F8 ((FloatRegister)( F8_FloatRegisterEnumValue))
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331 #define F9 ((FloatRegister)( F9_FloatRegisterEnumValue))
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332 #define F10 ((FloatRegister)( F10_FloatRegisterEnumValue))
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333 #define F11 ((FloatRegister)( F11_FloatRegisterEnumValue))
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334 #define F12 ((FloatRegister)( F12_FloatRegisterEnumValue))
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335 #define F13 ((FloatRegister)( F13_FloatRegisterEnumValue))
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336 #define F14 ((FloatRegister)( F14_FloatRegisterEnumValue))
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337 #define F15 ((FloatRegister)( F15_FloatRegisterEnumValue))
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338 #define F16 ((FloatRegister)( F16_FloatRegisterEnumValue))
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339 #define F17 ((FloatRegister)( F17_FloatRegisterEnumValue))
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340 #define F18 ((FloatRegister)( F18_FloatRegisterEnumValue))
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341 #define F19 ((FloatRegister)( F19_FloatRegisterEnumValue))
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342 #define F20 ((FloatRegister)( F20_FloatRegisterEnumValue))
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343 #define F21 ((FloatRegister)( F21_FloatRegisterEnumValue))
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344 #define F22 ((FloatRegister)( F22_FloatRegisterEnumValue))
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345 #define F23 ((FloatRegister)( F23_FloatRegisterEnumValue))
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346 #define F24 ((FloatRegister)( F24_FloatRegisterEnumValue))
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347 #define F25 ((FloatRegister)( F25_FloatRegisterEnumValue))
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348 #define F26 ((FloatRegister)( F26_FloatRegisterEnumValue))
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349 #define F27 ((FloatRegister)( F27_FloatRegisterEnumValue))
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350 #define F28 ((FloatRegister)( F28_FloatRegisterEnumValue))
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351 #define F29 ((FloatRegister)( F29_FloatRegisterEnumValue))
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352 #define F30 ((FloatRegister)( F30_FloatRegisterEnumValue))
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353 #define F31 ((FloatRegister)( F31_FloatRegisterEnumValue))
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354 #define F32 ((FloatRegister)( F32_FloatRegisterEnumValue))
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355 #define F34 ((FloatRegister)( F34_FloatRegisterEnumValue))
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356 #define F36 ((FloatRegister)( F36_FloatRegisterEnumValue))
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357 #define F38 ((FloatRegister)( F38_FloatRegisterEnumValue))
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358 #define F40 ((FloatRegister)( F40_FloatRegisterEnumValue))
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359 #define F42 ((FloatRegister)( F42_FloatRegisterEnumValue))
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360 #define F44 ((FloatRegister)( F44_FloatRegisterEnumValue))
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361 #define F46 ((FloatRegister)( F46_FloatRegisterEnumValue))
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362 #define F48 ((FloatRegister)( F48_FloatRegisterEnumValue))
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363 #define F50 ((FloatRegister)( F50_FloatRegisterEnumValue))
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364 #define F52 ((FloatRegister)( F52_FloatRegisterEnumValue))
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365 #define F54 ((FloatRegister)( F54_FloatRegisterEnumValue))
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366 #define F56 ((FloatRegister)( F56_FloatRegisterEnumValue))
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367 #define F58 ((FloatRegister)( F58_FloatRegisterEnumValue))
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368 #define F60 ((FloatRegister)( F60_FloatRegisterEnumValue))
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369 #define F62 ((FloatRegister)( F62_FloatRegisterEnumValue))
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370 #endif // DONT_USE_REGISTER_DEFINES
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371
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372 // Maximum number of incoming arguments that can be passed in i registers.
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373 const int SPARC_ARGS_IN_REGS_NUM = 6;
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374
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375 class ConcreteRegisterImpl : public AbstractRegisterImpl {
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376 public:
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377 enum {
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378 // This number must be large enough to cover REG_COUNT (defined by c2) registers.
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379 // There is no requirement that any ordering here matches any ordering c2 gives
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380 // it's optoregs.
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381 number_of_registers = 2*RegisterImpl::number_of_registers +
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382 FloatRegisterImpl::number_of_registers +
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383 1 + // ccr
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384 4 // fcc
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385 };
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386 static const int max_gpr;
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387 static const int max_fpr;
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388
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389 };
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390
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391 // Single, Double and Quad fp reg classes. These exist to map the ADLC
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392 // encoding for a floating point register, to the FloatRegister number
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393 // desired by the macroassembler. A FloatRegister is a number between
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394 // 0 and 63 passed around as a pointer. For ADLC, an fp register encoding
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395 // is the actual bit encoding used by the sparc hardware. When ADLC used
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396 // the macroassembler to generate an instruction that references, e.g., a
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397 // double fp reg, it passed the bit encoding to the macroassembler via
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398 // as_FloatRegister, which, for double regs > 30, returns an illegal
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399 // register number.
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400 //
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401 // Therefore we provide the following classes for use by ADLC. Their
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402 // sole purpose is to convert from sparc register encodings to FloatRegisters.
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403 // At some future time, we might replace FloatRegister with these classes,
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404 // hence the definitions of as_xxxFloatRegister as class methods rather
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405 // than as external inline routines.
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406
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407 class SingleFloatRegisterImpl;
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408 typedef SingleFloatRegisterImpl *SingleFloatRegister;
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409
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410 inline FloatRegister as_SingleFloatRegister(int encoding);
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411 class SingleFloatRegisterImpl {
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412 public:
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413 friend inline FloatRegister as_SingleFloatRegister(int encoding) {
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414 assert(encoding < 32, "bad single float register encoding");
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415 return as_FloatRegister(encoding);
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416 }
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417 };
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418
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419
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420 class DoubleFloatRegisterImpl;
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421 typedef DoubleFloatRegisterImpl *DoubleFloatRegister;
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422
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423 inline FloatRegister as_DoubleFloatRegister(int encoding);
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424 class DoubleFloatRegisterImpl {
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425 public:
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426 friend inline FloatRegister as_DoubleFloatRegister(int encoding) {
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427 assert(encoding < 32, "bad double float register encoding");
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428 return as_FloatRegister( ((encoding & 1) << 5) | (encoding & 0x1e) );
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429 }
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430 };
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431
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432
|
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433 class QuadFloatRegisterImpl;
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434 typedef QuadFloatRegisterImpl *QuadFloatRegister;
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435
|
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436 class QuadFloatRegisterImpl {
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437 public:
|
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438 friend FloatRegister as_QuadFloatRegister(int encoding) {
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439 assert(encoding < 32 && ((encoding & 2) == 0), "bad quad float register encoding");
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440 return as_FloatRegister( ((encoding & 1) << 5) | (encoding & 0x1c) );
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441 }
|
|
442 };
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