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src/cpu/ppc/vm/assembler_ppc.hpp@b384ba33c9a0 (annotated)

src/cpu/ppc/vm/assembler_ppc.hpp

Thu, 17 Jul 2014 15:40:04 -0700

author
kvn
date
Thu, 17 Jul 2014 15:40:04 -0700
changeset 7132
b384ba33c9a0
parent 6538
56e7f5560e60
child 7222
f6bde7889409
permissions
-rw-r--r--

8050942: PPC64: implement template interpreter for ppc64le
Reviewed-by: kvn, goetz
Contributed-by: asmundak@google.com

goetz@6458 1 /*
goetz@6458 2 * Copyright (c) 2002, 2013, Oracle and/or its affiliates. All rights reserved.
goetz@6458 3 * Copyright 2012, 2013 SAP AG. All rights reserved.
goetz@6458 4 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
goetz@6458 5 *
goetz@6458 6 * This code is free software; you can redistribute it and/or modify it
goetz@6458 7 * under the terms of the GNU General Public License version 2 only, as
goetz@6458 8 * published by the Free Software Foundation.
goetz@6458 9 *
goetz@6458 10 * This code is distributed in the hope that it will be useful, but WITHOUT
goetz@6458 11 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
goetz@6458 12 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
goetz@6458 13 * version 2 for more details (a copy is included in the LICENSE file that
goetz@6458 14 * accompanied this code).
goetz@6458 15 *
goetz@6458 16 * You should have received a copy of the GNU General Public License version
goetz@6458 17 * 2 along with this work; if not, write to the Free Software Foundation,
goetz@6458 18 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
goetz@6458 19 *
goetz@6458 20 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
goetz@6458 21 * or visit www.oracle.com if you need additional information or have any
goetz@6458 22 * questions.
goetz@6458 23 *
goetz@6458 24 */
goetz@6458 25
goetz@6458 26 #ifndef CPU_PPC_VM_ASSEMBLER_PPC_HPP
goetz@6458 27 #define CPU_PPC_VM_ASSEMBLER_PPC_HPP
goetz@6458 28
goetz@6458 29 #include "asm/register.hpp"
goetz@6458 30
goetz@6458 31 // Address is an abstraction used to represent a memory location
goetz@6458 32 // as used in assembler instructions.
goetz@6458 33 // PPC instructions grok either baseReg + indexReg or baseReg + disp.
goetz@6458 34 // So far we do not use this as simplification by this class is low
goetz@6458 35 // on PPC with its simple addressing mode. Use RegisterOrConstant to
goetz@6458 36 // represent an offset.
goetz@6458 37 class Address VALUE_OBJ_CLASS_SPEC {
goetz@6458 38 };
goetz@6458 39
goetz@6458 40 class AddressLiteral VALUE_OBJ_CLASS_SPEC {
goetz@6458 41 private:
goetz@6458 42 address _address;
goetz@6458 43 RelocationHolder _rspec;
goetz@6458 44
goetz@6458 45 RelocationHolder rspec_from_rtype(relocInfo::relocType rtype, address addr) {
goetz@6458 46 switch (rtype) {
goetz@6458 47 case relocInfo::external_word_type:
goetz@6458 48 return external_word_Relocation::spec(addr);
goetz@6458 49 case relocInfo::internal_word_type:
goetz@6458 50 return internal_word_Relocation::spec(addr);
goetz@6458 51 case relocInfo::opt_virtual_call_type:
goetz@6458 52 return opt_virtual_call_Relocation::spec();
goetz@6458 53 case relocInfo::static_call_type:
goetz@6458 54 return static_call_Relocation::spec();
goetz@6458 55 case relocInfo::runtime_call_type:
goetz@6458 56 return runtime_call_Relocation::spec();
goetz@6458 57 case relocInfo::none:
goetz@6458 58 return RelocationHolder();
goetz@6458 59 default:
goetz@6458 60 ShouldNotReachHere();
goetz@6458 61 return RelocationHolder();
goetz@6458 62 }
goetz@6458 63 }
goetz@6458 64
goetz@6458 65 protected:
goetz@6458 66 // creation
goetz@6458 67 AddressLiteral() : _address(NULL), _rspec(NULL) {}
goetz@6458 68
goetz@6458 69 public:
goetz@6458 70 AddressLiteral(address addr, RelocationHolder const& rspec)
goetz@6458 71 : _address(addr),
goetz@6458 72 _rspec(rspec) {}
goetz@6458 73
goetz@6458 74 AddressLiteral(address addr, relocInfo::relocType rtype = relocInfo::none)
goetz@6458 75 : _address((address) addr),
goetz@6458 76 _rspec(rspec_from_rtype(rtype, (address) addr)) {}
goetz@6458 77
goetz@6458 78 AddressLiteral(oop* addr, relocInfo::relocType rtype = relocInfo::none)
goetz@6458 79 : _address((address) addr),
goetz@6458 80 _rspec(rspec_from_rtype(rtype, (address) addr)) {}
goetz@6458 81
goetz@6458 82 intptr_t value() const { return (intptr_t) _address; }
goetz@6458 83
goetz@6458 84 const RelocationHolder& rspec() const { return _rspec; }
goetz@6458 85 };
goetz@6458 86
goetz@6458 87 // Argument is an abstraction used to represent an outgoing
goetz@6458 88 // actual argument or an incoming formal parameter, whether
goetz@6458 89 // it resides in memory or in a register, in a manner consistent
goetz@6458 90 // with the PPC Application Binary Interface, or ABI. This is
goetz@6458 91 // often referred to as the native or C calling convention.
goetz@6458 92
goetz@6458 93 class Argument VALUE_OBJ_CLASS_SPEC {
goetz@6458 94 private:
goetz@6458 95 int _number; // The number of the argument.
goetz@6458 96 public:
goetz@6458 97 enum {
goetz@6458 98 // Only 8 registers may contain integer parameters.
goetz@6458 99 n_register_parameters = 8,
goetz@6458 100 // Can have up to 8 floating registers.
goetz@6495 101 n_float_register_parameters = 8,
goetz@6495 102
goetz@6495 103 // PPC C calling conventions.
goetz@6495 104 // The first eight arguments are passed in int regs if they are int.
goetz@6495 105 n_int_register_parameters_c = 8,
goetz@6495 106 // The first thirteen float arguments are passed in float regs.
goetz@6495 107 n_float_register_parameters_c = 13,
goetz@6495 108 // Only the first 8 parameters are not placed on the stack. Aix disassembly
goetz@6495 109 // shows that xlC places all float args after argument 8 on the stack AND
goetz@6495 110 // in a register. This is not documented, but we follow this convention, too.
goetz@6495 111 n_regs_not_on_stack_c = 8,
goetz@6458 112 };
goetz@6458 113 // creation
goetz@6458 114 Argument(int number) : _number(number) {}
goetz@6458 115
goetz@6458 116 int number() const { return _number; }
goetz@6458 117
goetz@6458 118 // Locating register-based arguments:
goetz@6458 119 bool is_register() const { return _number < n_register_parameters; }
goetz@6458 120
goetz@6458 121 Register as_register() const {
goetz@6458 122 assert(is_register(), "must be a register argument");
goetz@6458 123 return as_Register(number() + R3_ARG1->encoding());
goetz@6458 124 }
goetz@6458 125 };
goetz@6458 126
goetz@6511 127 #if !defined(ABI_ELFv2)
goetz@6458 128 // A ppc64 function descriptor.
goetz@6458 129 struct FunctionDescriptor VALUE_OBJ_CLASS_SPEC {
goetz@6458 130 private:
goetz@6458 131 address _entry;
goetz@6458 132 address _toc;
goetz@6458 133 address _env;
goetz@6458 134
goetz@6458 135 public:
goetz@6458 136 inline address entry() const { return _entry; }
goetz@6458 137 inline address toc() const { return _toc; }
goetz@6458 138 inline address env() const { return _env; }
goetz@6458 139
goetz@6458 140 inline void set_entry(address entry) { _entry = entry; }
goetz@6458 141 inline void set_toc( address toc) { _toc = toc; }
goetz@6458 142 inline void set_env( address env) { _env = env; }
goetz@6458 143
goetz@6458 144 inline static ByteSize entry_offset() { return byte_offset_of(FunctionDescriptor, _entry); }
goetz@6458 145 inline static ByteSize toc_offset() { return byte_offset_of(FunctionDescriptor, _toc); }
goetz@6458 146 inline static ByteSize env_offset() { return byte_offset_of(FunctionDescriptor, _env); }
goetz@6458 147
goetz@6458 148 // Friend functions can be called without loading toc and env.
goetz@6458 149 enum {
goetz@6458 150 friend_toc = 0xcafe,
goetz@6458 151 friend_env = 0xc0de
goetz@6458 152 };
goetz@6458 153
goetz@6458 154 inline bool is_friend_function() const {
goetz@6458 155 return (toc() == (address) friend_toc) && (env() == (address) friend_env);
goetz@6458 156 }
goetz@6458 157
goetz@6458 158 // Constructor for stack-allocated instances.
goetz@6458 159 FunctionDescriptor() {
goetz@6458 160 _entry = (address) 0xbad;
goetz@6458 161 _toc = (address) 0xbad;
goetz@6458 162 _env = (address) 0xbad;
goetz@6458 163 }
goetz@6458 164 };
goetz@6511 165 #endif
goetz@6458 166
goetz@6458 167 class Assembler : public AbstractAssembler {
goetz@6458 168 protected:
goetz@6458 169 // Displacement routines
goetz@6458 170 static void print_instruction(int inst);
goetz@6458 171 static int patched_branch(int dest_pos, int inst, int inst_pos);
goetz@6458 172 static int branch_destination(int inst, int pos);
goetz@6458 173
goetz@6458 174 friend class AbstractAssembler;
goetz@6458 175
goetz@6458 176 // Code patchers need various routines like inv_wdisp()
goetz@6458 177 friend class NativeInstruction;
goetz@6458 178 friend class NativeGeneralJump;
goetz@6458 179 friend class Relocation;
goetz@6458 180
goetz@6458 181 public:
goetz@6458 182
goetz@6458 183 enum shifts {
goetz@6458 184 XO_21_29_SHIFT = 2,
goetz@6458 185 XO_21_30_SHIFT = 1,
goetz@6458 186 XO_27_29_SHIFT = 2,
goetz@6458 187 XO_30_31_SHIFT = 0,
goetz@6458 188 SPR_5_9_SHIFT = 11u, // SPR_5_9 field in bits 11 -- 15
goetz@6458 189 SPR_0_4_SHIFT = 16u, // SPR_0_4 field in bits 16 -- 20
goetz@6458 190 RS_SHIFT = 21u, // RS field in bits 21 -- 25
goetz@6458 191 OPCODE_SHIFT = 26u, // opcode in bits 26 -- 31
goetz@6458 192 };
goetz@6458 193
goetz@6458 194 enum opcdxos_masks {
goetz@6458 195 XL_FORM_OPCODE_MASK = (63u << OPCODE_SHIFT) | (1023u << 1),
goetz@6458 196 ADDI_OPCODE_MASK = (63u << OPCODE_SHIFT),
goetz@6458 197 ADDIS_OPCODE_MASK = (63u << OPCODE_SHIFT),
goetz@6458 198 BXX_OPCODE_MASK = (63u << OPCODE_SHIFT),
goetz@6458 199 BCXX_OPCODE_MASK = (63u << OPCODE_SHIFT),
goetz@6458 200 // trap instructions
goetz@6458 201 TDI_OPCODE_MASK = (63u << OPCODE_SHIFT),
goetz@6458 202 TWI_OPCODE_MASK = (63u << OPCODE_SHIFT),
goetz@6458 203 TD_OPCODE_MASK = (63u << OPCODE_SHIFT) | (1023u << 1),
goetz@6458 204 TW_OPCODE_MASK = (63u << OPCODE_SHIFT) | (1023u << 1),
goetz@6458 205 LD_OPCODE_MASK = (63u << OPCODE_SHIFT) | (3u << XO_30_31_SHIFT), // DS-FORM
goetz@6458 206 STD_OPCODE_MASK = LD_OPCODE_MASK,
goetz@6458 207 STDU_OPCODE_MASK = STD_OPCODE_MASK,
goetz@6458 208 STDX_OPCODE_MASK = (63u << OPCODE_SHIFT) | (1023u << 1),
goetz@6458 209 STDUX_OPCODE_MASK = STDX_OPCODE_MASK,
goetz@6458 210 STW_OPCODE_MASK = (63u << OPCODE_SHIFT),
goetz@6458 211 STWU_OPCODE_MASK = STW_OPCODE_MASK,
goetz@6458 212 STWX_OPCODE_MASK = (63u << OPCODE_SHIFT) | (1023u << 1),
goetz@6458 213 STWUX_OPCODE_MASK = STWX_OPCODE_MASK,
goetz@6458 214 MTCTR_OPCODE_MASK = ~(31u << RS_SHIFT),
goetz@6458 215 ORI_OPCODE_MASK = (63u << OPCODE_SHIFT),
goetz@6458 216 ORIS_OPCODE_MASK = (63u << OPCODE_SHIFT),
goetz@6458 217 RLDICR_OPCODE_MASK = (63u << OPCODE_SHIFT) | (7u << XO_27_29_SHIFT)
goetz@6458 218 };
goetz@6458 219
goetz@6458 220 enum opcdxos {
goetz@6458 221 ADD_OPCODE = (31u << OPCODE_SHIFT | 266u << 1),
goetz@6458 222 ADDC_OPCODE = (31u << OPCODE_SHIFT | 10u << 1),
goetz@6458 223 ADDI_OPCODE = (14u << OPCODE_SHIFT),
goetz@6458 224 ADDIS_OPCODE = (15u << OPCODE_SHIFT),
goetz@6458 225 ADDIC__OPCODE = (13u << OPCODE_SHIFT),
goetz@6458 226 ADDE_OPCODE = (31u << OPCODE_SHIFT | 138u << 1),
goetz@6458 227 SUBF_OPCODE = (31u << OPCODE_SHIFT | 40u << 1),
goetz@6458 228 SUBFC_OPCODE = (31u << OPCODE_SHIFT | 8u << 1),
goetz@6458 229 SUBFE_OPCODE = (31u << OPCODE_SHIFT | 136u << 1),
goetz@6458 230 SUBFIC_OPCODE = (8u << OPCODE_SHIFT),
goetz@6458 231 SUBFZE_OPCODE = (31u << OPCODE_SHIFT | 200u << 1),
goetz@6458 232 DIVW_OPCODE = (31u << OPCODE_SHIFT | 491u << 1),
goetz@6458 233 MULLW_OPCODE = (31u << OPCODE_SHIFT | 235u << 1),
goetz@6458 234 MULHW_OPCODE = (31u << OPCODE_SHIFT | 75u << 1),
goetz@6458 235 MULHWU_OPCODE = (31u << OPCODE_SHIFT | 11u << 1),
goetz@6458 236 MULLI_OPCODE = (7u << OPCODE_SHIFT),
goetz@6458 237 AND_OPCODE = (31u << OPCODE_SHIFT | 28u << 1),
goetz@6458 238 ANDI_OPCODE = (28u << OPCODE_SHIFT),
goetz@6458 239 ANDIS_OPCODE = (29u << OPCODE_SHIFT),
goetz@6458 240 ANDC_OPCODE = (31u << OPCODE_SHIFT | 60u << 1),
goetz@6458 241 ORC_OPCODE = (31u << OPCODE_SHIFT | 412u << 1),
goetz@6458 242 OR_OPCODE = (31u << OPCODE_SHIFT | 444u << 1),
goetz@6458 243 ORI_OPCODE = (24u << OPCODE_SHIFT),
goetz@6458 244 ORIS_OPCODE = (25u << OPCODE_SHIFT),
goetz@6458 245 XOR_OPCODE = (31u << OPCODE_SHIFT | 316u << 1),
goetz@6458 246 XORI_OPCODE = (26u << OPCODE_SHIFT),
goetz@6458 247 XORIS_OPCODE = (27u << OPCODE_SHIFT),
goetz@6458 248
goetz@6458 249 NEG_OPCODE = (31u << OPCODE_SHIFT | 104u << 1),
goetz@6458 250
goetz@6458 251 RLWINM_OPCODE = (21u << OPCODE_SHIFT),
goetz@6458 252 CLRRWI_OPCODE = RLWINM_OPCODE,
goetz@6458 253 CLRLWI_OPCODE = RLWINM_OPCODE,
goetz@6458 254
goetz@6458 255 RLWIMI_OPCODE = (20u << OPCODE_SHIFT),
goetz@6458 256
goetz@6458 257 SLW_OPCODE = (31u << OPCODE_SHIFT | 24u << 1),
goetz@6458 258 SLWI_OPCODE = RLWINM_OPCODE,
goetz@6458 259 SRW_OPCODE = (31u << OPCODE_SHIFT | 536u << 1),
goetz@6458 260 SRWI_OPCODE = RLWINM_OPCODE,
goetz@6458 261 SRAW_OPCODE = (31u << OPCODE_SHIFT | 792u << 1),
goetz@6458 262 SRAWI_OPCODE = (31u << OPCODE_SHIFT | 824u << 1),
goetz@6458 263
goetz@6458 264 CMP_OPCODE = (31u << OPCODE_SHIFT | 0u << 1),
goetz@6458 265 CMPI_OPCODE = (11u << OPCODE_SHIFT),
goetz@6458 266 CMPL_OPCODE = (31u << OPCODE_SHIFT | 32u << 1),
goetz@6458 267 CMPLI_OPCODE = (10u << OPCODE_SHIFT),
goetz@6458 268
goetz@6458 269 ISEL_OPCODE = (31u << OPCODE_SHIFT | 15u << 1),
goetz@6458 270
goetz@6458 271 MTLR_OPCODE = (31u << OPCODE_SHIFT | 467u << 1 | 8 << SPR_0_4_SHIFT),
goetz@6458 272 MFLR_OPCODE = (31u << OPCODE_SHIFT | 339u << 1 | 8 << SPR_0_4_SHIFT),
goetz@6458 273
goetz@6458 274 MTCRF_OPCODE = (31u << OPCODE_SHIFT | 144u << 1),
goetz@6458 275 MFCR_OPCODE = (31u << OPCODE_SHIFT | 19u << 1),
goetz@6458 276 MCRF_OPCODE = (19u << OPCODE_SHIFT | 0u << 1),
goetz@6458 277
goetz@6458 278 // condition register logic instructions
goetz@6458 279 CRAND_OPCODE = (19u << OPCODE_SHIFT | 257u << 1),
goetz@6458 280 CRNAND_OPCODE = (19u << OPCODE_SHIFT | 225u << 1),
goetz@6458 281 CROR_OPCODE = (19u << OPCODE_SHIFT | 449u << 1),
goetz@6458 282 CRXOR_OPCODE = (19u << OPCODE_SHIFT | 193u << 1),
goetz@6458 283 CRNOR_OPCODE = (19u << OPCODE_SHIFT | 33u << 1),
goetz@6458 284 CREQV_OPCODE = (19u << OPCODE_SHIFT | 289u << 1),
goetz@6458 285 CRANDC_OPCODE = (19u << OPCODE_SHIFT | 129u << 1),
goetz@6458 286 CRORC_OPCODE = (19u << OPCODE_SHIFT | 417u << 1),
goetz@6458 287
goetz@6458 288 BCLR_OPCODE = (19u << OPCODE_SHIFT | 16u << 1),
goetz@6458 289 BXX_OPCODE = (18u << OPCODE_SHIFT),
goetz@6458 290 BCXX_OPCODE = (16u << OPCODE_SHIFT),
goetz@6458 291
goetz@6458 292 // CTR-related opcodes
goetz@6458 293 BCCTR_OPCODE = (19u << OPCODE_SHIFT | 528u << 1),
goetz@6458 294 MTCTR_OPCODE = (31u << OPCODE_SHIFT | 467u << 1 | 9 << SPR_0_4_SHIFT),
goetz@6458 295 MFCTR_OPCODE = (31u << OPCODE_SHIFT | 339u << 1 | 9 << SPR_0_4_SHIFT),
goetz@6458 296
goetz@6458 297
goetz@6458 298 LWZ_OPCODE = (32u << OPCODE_SHIFT),
goetz@6458 299 LWZX_OPCODE = (31u << OPCODE_SHIFT | 23u << 1),
goetz@6458 300 LWZU_OPCODE = (33u << OPCODE_SHIFT),
kvn@7132 301 LWBRX_OPCODE = (31u << OPCODE_SHIFT | 534 << 1),
goetz@6458 302
goetz@6458 303 LHA_OPCODE = (42u << OPCODE_SHIFT),
goetz@6458 304 LHAX_OPCODE = (31u << OPCODE_SHIFT | 343u << 1),
goetz@6458 305 LHAU_OPCODE = (43u << OPCODE_SHIFT),
goetz@6458 306
goetz@6458 307 LHZ_OPCODE = (40u << OPCODE_SHIFT),
goetz@6458 308 LHZX_OPCODE = (31u << OPCODE_SHIFT | 279u << 1),
goetz@6458 309 LHZU_OPCODE = (41u << OPCODE_SHIFT),
kvn@7132 310 LHBRX_OPCODE = (31u << OPCODE_SHIFT | 790 << 1),
goetz@6458 311
goetz@6458 312 LBZ_OPCODE = (34u << OPCODE_SHIFT),
goetz@6458 313 LBZX_OPCODE = (31u << OPCODE_SHIFT | 87u << 1),
goetz@6458 314 LBZU_OPCODE = (35u << OPCODE_SHIFT),
goetz@6458 315
goetz@6458 316 STW_OPCODE = (36u << OPCODE_SHIFT),
goetz@6458 317 STWX_OPCODE = (31u << OPCODE_SHIFT | 151u << 1),
goetz@6458 318 STWU_OPCODE = (37u << OPCODE_SHIFT),
goetz@6458 319 STWUX_OPCODE = (31u << OPCODE_SHIFT | 183u << 1),
goetz@6458 320
goetz@6458 321 STH_OPCODE = (44u << OPCODE_SHIFT),
goetz@6458 322 STHX_OPCODE = (31u << OPCODE_SHIFT | 407u << 1),
goetz@6458 323 STHU_OPCODE = (45u << OPCODE_SHIFT),
goetz@6458 324
goetz@6458 325 STB_OPCODE = (38u << OPCODE_SHIFT),
goetz@6458 326 STBX_OPCODE = (31u << OPCODE_SHIFT | 215u << 1),
goetz@6458 327 STBU_OPCODE = (39u << OPCODE_SHIFT),
goetz@6458 328
goetz@6458 329 EXTSB_OPCODE = (31u << OPCODE_SHIFT | 954u << 1),
goetz@6458 330 EXTSH_OPCODE = (31u << OPCODE_SHIFT | 922u << 1),
goetz@6458 331 EXTSW_OPCODE = (31u << OPCODE_SHIFT | 986u << 1), // X-FORM
goetz@6458 332
goetz@6458 333 // 32 bit opcode encodings
goetz@6458 334
goetz@6458 335 LWA_OPCODE = (58u << OPCODE_SHIFT | 2u << XO_30_31_SHIFT), // DS-FORM
goetz@6458 336 LWAX_OPCODE = (31u << OPCODE_SHIFT | 341u << XO_21_30_SHIFT), // X-FORM
goetz@6458 337
goetz@6458 338 CNTLZW_OPCODE = (31u << OPCODE_SHIFT | 26u << XO_21_30_SHIFT), // X-FORM
goetz@6458 339
goetz@6458 340 // 64 bit opcode encodings
goetz@6458 341
goetz@6458 342 LD_OPCODE = (58u << OPCODE_SHIFT | 0u << XO_30_31_SHIFT), // DS-FORM
goetz@6458 343 LDU_OPCODE = (58u << OPCODE_SHIFT | 1u << XO_30_31_SHIFT), // DS-FORM
goetz@6458 344 LDX_OPCODE = (31u << OPCODE_SHIFT | 21u << XO_21_30_SHIFT), // X-FORM
goetz@6458 345
goetz@6458 346 STD_OPCODE = (62u << OPCODE_SHIFT | 0u << XO_30_31_SHIFT), // DS-FORM
goetz@6458 347 STDU_OPCODE = (62u << OPCODE_SHIFT | 1u << XO_30_31_SHIFT), // DS-FORM
goetz@6458 348 STDUX_OPCODE = (31u << OPCODE_SHIFT | 181u << 1), // X-FORM
goetz@6458 349 STDX_OPCODE = (31u << OPCODE_SHIFT | 149u << XO_21_30_SHIFT), // X-FORM
goetz@6458 350
goetz@6458 351 RLDICR_OPCODE = (30u << OPCODE_SHIFT | 1u << XO_27_29_SHIFT), // MD-FORM
goetz@6458 352 RLDICL_OPCODE = (30u << OPCODE_SHIFT | 0u << XO_27_29_SHIFT), // MD-FORM
goetz@6458 353 RLDIC_OPCODE = (30u << OPCODE_SHIFT | 2u << XO_27_29_SHIFT), // MD-FORM
goetz@6458 354 RLDIMI_OPCODE = (30u << OPCODE_SHIFT | 3u << XO_27_29_SHIFT), // MD-FORM
goetz@6458 355
goetz@6458 356 SRADI_OPCODE = (31u << OPCODE_SHIFT | 413u << XO_21_29_SHIFT), // XS-FORM
goetz@6458 357
goetz@6458 358 SLD_OPCODE = (31u << OPCODE_SHIFT | 27u << 1), // X-FORM
goetz@6458 359 SRD_OPCODE = (31u << OPCODE_SHIFT | 539u << 1), // X-FORM
goetz@6458 360 SRAD_OPCODE = (31u << OPCODE_SHIFT | 794u << 1), // X-FORM
goetz@6458 361
goetz@6458 362 MULLD_OPCODE = (31u << OPCODE_SHIFT | 233u << 1), // XO-FORM
goetz@6458 363 MULHD_OPCODE = (31u << OPCODE_SHIFT | 73u << 1), // XO-FORM
goetz@6458 364 MULHDU_OPCODE = (31u << OPCODE_SHIFT | 9u << 1), // XO-FORM
goetz@6458 365 DIVD_OPCODE = (31u << OPCODE_SHIFT | 489u << 1), // XO-FORM
goetz@6458 366
goetz@6458 367 CNTLZD_OPCODE = (31u << OPCODE_SHIFT | 58u << XO_21_30_SHIFT), // X-FORM
goetz@6458 368 NAND_OPCODE = (31u << OPCODE_SHIFT | 476u << XO_21_30_SHIFT), // X-FORM
goetz@6458 369 NOR_OPCODE = (31u << OPCODE_SHIFT | 124u << XO_21_30_SHIFT), // X-FORM
goetz@6458 370
goetz@6458 371
goetz@6458 372 // opcodes only used for floating arithmetic
goetz@6458 373 FADD_OPCODE = (63u << OPCODE_SHIFT | 21u << 1),
goetz@6458 374 FADDS_OPCODE = (59u << OPCODE_SHIFT | 21u << 1),
goetz@6458 375 FCMPU_OPCODE = (63u << OPCODE_SHIFT | 00u << 1),
goetz@6458 376 FDIV_OPCODE = (63u << OPCODE_SHIFT | 18u << 1),
goetz@6458 377 FDIVS_OPCODE = (59u << OPCODE_SHIFT | 18u << 1),
goetz@6458 378 FMR_OPCODE = (63u << OPCODE_SHIFT | 72u << 1),
goetz@6458 379 // These are special Power6 opcodes, reused for "lfdepx" and "stfdepx"
goetz@6458 380 // on Power7. Do not use.
goetz@6458 381 // MFFGPR_OPCODE = (31u << OPCODE_SHIFT | 607u << 1),
goetz@6458 382 // MFTGPR_OPCODE = (31u << OPCODE_SHIFT | 735u << 1),
goetz@6458 383 CMPB_OPCODE = (31u << OPCODE_SHIFT | 508 << 1),
goetz@6458 384 POPCNTB_OPCODE = (31u << OPCODE_SHIFT | 122 << 1),
goetz@6458 385 POPCNTW_OPCODE = (31u << OPCODE_SHIFT | 378 << 1),
goetz@6458 386 POPCNTD_OPCODE = (31u << OPCODE_SHIFT | 506 << 1),
goetz@6458 387 FABS_OPCODE = (63u << OPCODE_SHIFT | 264u << 1),
goetz@6458 388 FNABS_OPCODE = (63u << OPCODE_SHIFT | 136u << 1),
goetz@6458 389 FMUL_OPCODE = (63u << OPCODE_SHIFT | 25u << 1),
goetz@6458 390 FMULS_OPCODE = (59u << OPCODE_SHIFT | 25u << 1),
goetz@6458 391 FNEG_OPCODE = (63u << OPCODE_SHIFT | 40u << 1),
goetz@6458 392 FSUB_OPCODE = (63u << OPCODE_SHIFT | 20u << 1),
goetz@6458 393 FSUBS_OPCODE = (59u << OPCODE_SHIFT | 20u << 1),
goetz@6458 394
goetz@6458 395 // PPC64-internal FPU conversion opcodes
goetz@6458 396 FCFID_OPCODE = (63u << OPCODE_SHIFT | 846u << 1),
goetz@6458 397 FCFIDS_OPCODE = (59u << OPCODE_SHIFT | 846u << 1),
goetz@6458 398 FCTID_OPCODE = (63u << OPCODE_SHIFT | 814u << 1),
goetz@6458 399 FCTIDZ_OPCODE = (63u << OPCODE_SHIFT | 815u << 1),
goetz@6458 400 FCTIW_OPCODE = (63u << OPCODE_SHIFT | 14u << 1),
goetz@6458 401 FCTIWZ_OPCODE = (63u << OPCODE_SHIFT | 15u << 1),
goetz@6458 402 FRSP_OPCODE = (63u << OPCODE_SHIFT | 12u << 1),
goetz@6458 403
goetz@6458 404 // WARNING: using fmadd results in a non-compliant vm. Some floating
goetz@6458 405 // point tck tests will fail.
goetz@6458 406 FMADD_OPCODE = (59u << OPCODE_SHIFT | 29u << 1),
goetz@6458 407 DMADD_OPCODE = (63u << OPCODE_SHIFT | 29u << 1),
goetz@6458 408 FMSUB_OPCODE = (59u << OPCODE_SHIFT | 28u << 1),
goetz@6458 409 DMSUB_OPCODE = (63u << OPCODE_SHIFT | 28u << 1),
goetz@6458 410 FNMADD_OPCODE = (59u << OPCODE_SHIFT | 31u << 1),
goetz@6458 411 DNMADD_OPCODE = (63u << OPCODE_SHIFT | 31u << 1),
goetz@6458 412 FNMSUB_OPCODE = (59u << OPCODE_SHIFT | 30u << 1),
goetz@6458 413 DNMSUB_OPCODE = (63u << OPCODE_SHIFT | 30u << 1),
goetz@6458 414
goetz@6458 415 LFD_OPCODE = (50u << OPCODE_SHIFT | 00u << 1),
goetz@6458 416 LFDU_OPCODE = (51u << OPCODE_SHIFT | 00u << 1),
goetz@6458 417 LFDX_OPCODE = (31u << OPCODE_SHIFT | 599u << 1),
goetz@6458 418 LFS_OPCODE = (48u << OPCODE_SHIFT | 00u << 1),
goetz@6458 419 LFSU_OPCODE = (49u << OPCODE_SHIFT | 00u << 1),
goetz@6458 420 LFSX_OPCODE = (31u << OPCODE_SHIFT | 535u << 1),
goetz@6458 421
goetz@6458 422 STFD_OPCODE = (54u << OPCODE_SHIFT | 00u << 1),
goetz@6458 423 STFDU_OPCODE = (55u << OPCODE_SHIFT | 00u << 1),
goetz@6458 424 STFDX_OPCODE = (31u << OPCODE_SHIFT | 727u << 1),
goetz@6458 425 STFS_OPCODE = (52u << OPCODE_SHIFT | 00u << 1),
goetz@6458 426 STFSU_OPCODE = (53u << OPCODE_SHIFT | 00u << 1),
goetz@6458 427 STFSX_OPCODE = (31u << OPCODE_SHIFT | 663u << 1),
goetz@6458 428
goetz@6458 429 FSQRT_OPCODE = (63u << OPCODE_SHIFT | 22u << 1), // A-FORM
goetz@6458 430 FSQRTS_OPCODE = (59u << OPCODE_SHIFT | 22u << 1), // A-FORM
goetz@6458 431
goetz@6458 432 // Vector instruction support for >= Power6
goetz@6458 433 // Vector Storage Access
goetz@6458 434 LVEBX_OPCODE = (31u << OPCODE_SHIFT | 7u << 1),
goetz@6458 435 LVEHX_OPCODE = (31u << OPCODE_SHIFT | 39u << 1),
goetz@6458 436 LVEWX_OPCODE = (31u << OPCODE_SHIFT | 71u << 1),
goetz@6458 437 LVX_OPCODE = (31u << OPCODE_SHIFT | 103u << 1),
goetz@6458 438 LVXL_OPCODE = (31u << OPCODE_SHIFT | 359u << 1),
goetz@6458 439 STVEBX_OPCODE = (31u << OPCODE_SHIFT | 135u << 1),
goetz@6458 440 STVEHX_OPCODE = (31u << OPCODE_SHIFT | 167u << 1),
goetz@6458 441 STVEWX_OPCODE = (31u << OPCODE_SHIFT | 199u << 1),
goetz@6458 442 STVX_OPCODE = (31u << OPCODE_SHIFT | 231u << 1),
goetz@6458 443 STVXL_OPCODE = (31u << OPCODE_SHIFT | 487u << 1),
goetz@6458 444 LVSL_OPCODE = (31u << OPCODE_SHIFT | 6u << 1),
goetz@6458 445 LVSR_OPCODE = (31u << OPCODE_SHIFT | 38u << 1),
goetz@6458 446
goetz@6458 447 // Vector Permute and Formatting
goetz@6458 448 VPKPX_OPCODE = (4u << OPCODE_SHIFT | 782u ),
goetz@6458 449 VPKSHSS_OPCODE = (4u << OPCODE_SHIFT | 398u ),
goetz@6458 450 VPKSWSS_OPCODE = (4u << OPCODE_SHIFT | 462u ),
goetz@6458 451 VPKSHUS_OPCODE = (4u << OPCODE_SHIFT | 270u ),
goetz@6458 452 VPKSWUS_OPCODE = (4u << OPCODE_SHIFT | 334u ),
goetz@6458 453 VPKUHUM_OPCODE = (4u << OPCODE_SHIFT | 14u ),
goetz@6458 454 VPKUWUM_OPCODE = (4u << OPCODE_SHIFT | 78u ),
goetz@6458 455 VPKUHUS_OPCODE = (4u << OPCODE_SHIFT | 142u ),
goetz@6458 456 VPKUWUS_OPCODE = (4u << OPCODE_SHIFT | 206u ),
goetz@6458 457 VUPKHPX_OPCODE = (4u << OPCODE_SHIFT | 846u ),
goetz@6458 458 VUPKHSB_OPCODE = (4u << OPCODE_SHIFT | 526u ),
goetz@6458 459 VUPKHSH_OPCODE = (4u << OPCODE_SHIFT | 590u ),
goetz@6458 460 VUPKLPX_OPCODE = (4u << OPCODE_SHIFT | 974u ),
goetz@6458 461 VUPKLSB_OPCODE = (4u << OPCODE_SHIFT | 654u ),
goetz@6458 462 VUPKLSH_OPCODE = (4u << OPCODE_SHIFT | 718u ),
goetz@6458 463
goetz@6458 464 VMRGHB_OPCODE = (4u << OPCODE_SHIFT | 12u ),
goetz@6458 465 VMRGHW_OPCODE = (4u << OPCODE_SHIFT | 140u ),
goetz@6458 466 VMRGHH_OPCODE = (4u << OPCODE_SHIFT | 76u ),
goetz@6458 467 VMRGLB_OPCODE = (4u << OPCODE_SHIFT | 268u ),
goetz@6458 468 VMRGLW_OPCODE = (4u << OPCODE_SHIFT | 396u ),
goetz@6458 469 VMRGLH_OPCODE = (4u << OPCODE_SHIFT | 332u ),
goetz@6458 470
goetz@6458 471 VSPLT_OPCODE = (4u << OPCODE_SHIFT | 524u ),
goetz@6458 472 VSPLTH_OPCODE = (4u << OPCODE_SHIFT | 588u ),
goetz@6458 473 VSPLTW_OPCODE = (4u << OPCODE_SHIFT | 652u ),
goetz@6458 474 VSPLTISB_OPCODE= (4u << OPCODE_SHIFT | 780u ),
goetz@6458 475 VSPLTISH_OPCODE= (4u << OPCODE_SHIFT | 844u ),
goetz@6458 476 VSPLTISW_OPCODE= (4u << OPCODE_SHIFT | 908u ),
goetz@6458 477
goetz@6458 478 VPERM_OPCODE = (4u << OPCODE_SHIFT | 43u ),
goetz@6458 479 VSEL_OPCODE = (4u << OPCODE_SHIFT | 42u ),
goetz@6458 480
goetz@6458 481 VSL_OPCODE = (4u << OPCODE_SHIFT | 452u ),
goetz@6458 482 VSLDOI_OPCODE = (4u << OPCODE_SHIFT | 44u ),
goetz@6458 483 VSLO_OPCODE = (4u << OPCODE_SHIFT | 1036u ),
goetz@6458 484 VSR_OPCODE = (4u << OPCODE_SHIFT | 708u ),
goetz@6458 485 VSRO_OPCODE = (4u << OPCODE_SHIFT | 1100u ),
goetz@6458 486
goetz@6458 487 // Vector Integer
goetz@6458 488 VADDCUW_OPCODE = (4u << OPCODE_SHIFT | 384u ),
goetz@6458 489 VADDSHS_OPCODE = (4u << OPCODE_SHIFT | 832u ),
goetz@6458 490 VADDSBS_OPCODE = (4u << OPCODE_SHIFT | 768u ),
goetz@6458 491 VADDSWS_OPCODE = (4u << OPCODE_SHIFT | 896u ),
goetz@6458 492 VADDUBM_OPCODE = (4u << OPCODE_SHIFT | 0u ),
goetz@6458 493 VADDUWM_OPCODE = (4u << OPCODE_SHIFT | 128u ),
goetz@6458 494 VADDUHM_OPCODE = (4u << OPCODE_SHIFT | 64u ),
goetz@6458 495 VADDUBS_OPCODE = (4u << OPCODE_SHIFT | 512u ),
goetz@6458 496 VADDUWS_OPCODE = (4u << OPCODE_SHIFT | 640u ),
goetz@6458 497 VADDUHS_OPCODE = (4u << OPCODE_SHIFT | 576u ),
goetz@6458 498 VSUBCUW_OPCODE = (4u << OPCODE_SHIFT | 1408u ),
goetz@6458 499 VSUBSHS_OPCODE = (4u << OPCODE_SHIFT | 1856u ),
goetz@6458 500 VSUBSBS_OPCODE = (4u << OPCODE_SHIFT | 1792u ),
goetz@6458 501 VSUBSWS_OPCODE = (4u << OPCODE_SHIFT | 1920u ),
goetz@6458 502 VSUBUBM_OPCODE = (4u << OPCODE_SHIFT | 1024u ),
goetz@6458 503 VSUBUWM_OPCODE = (4u << OPCODE_SHIFT | 1152u ),
goetz@6458 504 VSUBUHM_OPCODE = (4u << OPCODE_SHIFT | 1088u ),
goetz@6458 505 VSUBUBS_OPCODE = (4u << OPCODE_SHIFT | 1536u ),
goetz@6458 506 VSUBUWS_OPCODE = (4u << OPCODE_SHIFT | 1664u ),
goetz@6458 507 VSUBUHS_OPCODE = (4u << OPCODE_SHIFT | 1600u ),
goetz@6458 508
goetz@6458 509 VMULESB_OPCODE = (4u << OPCODE_SHIFT | 776u ),
goetz@6458 510 VMULEUB_OPCODE = (4u << OPCODE_SHIFT | 520u ),
goetz@6458 511 VMULESH_OPCODE = (4u << OPCODE_SHIFT | 840u ),
goetz@6458 512 VMULEUH_OPCODE = (4u << OPCODE_SHIFT | 584u ),
goetz@6458 513 VMULOSB_OPCODE = (4u << OPCODE_SHIFT | 264u ),
goetz@6458 514 VMULOUB_OPCODE = (4u << OPCODE_SHIFT | 8u ),
goetz@6458 515 VMULOSH_OPCODE = (4u << OPCODE_SHIFT | 328u ),
goetz@6458 516 VMULOUH_OPCODE = (4u << OPCODE_SHIFT | 72u ),
goetz@6458 517 VMHADDSHS_OPCODE=(4u << OPCODE_SHIFT | 32u ),
goetz@6458 518 VMHRADDSHS_OPCODE=(4u << OPCODE_SHIFT | 33u ),
goetz@6458 519 VMLADDUHM_OPCODE=(4u << OPCODE_SHIFT | 34u ),
goetz@6458 520 VMSUBUHM_OPCODE= (4u << OPCODE_SHIFT | 36u ),
goetz@6458 521 VMSUMMBM_OPCODE= (4u << OPCODE_SHIFT | 37u ),
goetz@6458 522 VMSUMSHM_OPCODE= (4u << OPCODE_SHIFT | 40u ),
goetz@6458 523 VMSUMSHS_OPCODE= (4u << OPCODE_SHIFT | 41u ),
goetz@6458 524 VMSUMUHM_OPCODE= (4u << OPCODE_SHIFT | 38u ),
goetz@6458 525 VMSUMUHS_OPCODE= (4u << OPCODE_SHIFT | 39u ),
goetz@6458 526
goetz@6458 527 VSUMSWS_OPCODE = (4u << OPCODE_SHIFT | 1928u ),
goetz@6458 528 VSUM2SWS_OPCODE= (4u << OPCODE_SHIFT | 1672u ),
goetz@6458 529 VSUM4SBS_OPCODE= (4u << OPCODE_SHIFT | 1800u ),
goetz@6458 530 VSUM4UBS_OPCODE= (4u << OPCODE_SHIFT | 1544u ),
goetz@6458 531 VSUM4SHS_OPCODE= (4u << OPCODE_SHIFT | 1608u ),
goetz@6458 532
goetz@6458 533 VAVGSB_OPCODE = (4u << OPCODE_SHIFT | 1282u ),
goetz@6458 534 VAVGSW_OPCODE = (4u << OPCODE_SHIFT | 1410u ),
goetz@6458 535 VAVGSH_OPCODE = (4u << OPCODE_SHIFT | 1346u ),
goetz@6458 536 VAVGUB_OPCODE = (4u << OPCODE_SHIFT | 1026u ),
goetz@6458 537 VAVGUW_OPCODE = (4u << OPCODE_SHIFT | 1154u ),
goetz@6458 538 VAVGUH_OPCODE = (4u << OPCODE_SHIFT | 1090u ),
goetz@6458 539
goetz@6458 540 VMAXSB_OPCODE = (4u << OPCODE_SHIFT | 258u ),
goetz@6458 541 VMAXSW_OPCODE = (4u << OPCODE_SHIFT | 386u ),
goetz@6458 542 VMAXSH_OPCODE = (4u << OPCODE_SHIFT | 322u ),
goetz@6458 543 VMAXUB_OPCODE = (4u << OPCODE_SHIFT | 2u ),
goetz@6458 544 VMAXUW_OPCODE = (4u << OPCODE_SHIFT | 130u ),
goetz@6458 545 VMAXUH_OPCODE = (4u << OPCODE_SHIFT | 66u ),
goetz@6458 546 VMINSB_OPCODE = (4u << OPCODE_SHIFT | 770u ),
goetz@6458 547 VMINSW_OPCODE = (4u << OPCODE_SHIFT | 898u ),
goetz@6458 548 VMINSH_OPCODE = (4u << OPCODE_SHIFT | 834u ),
goetz@6458 549 VMINUB_OPCODE = (4u << OPCODE_SHIFT | 514u ),
goetz@6458 550 VMINUW_OPCODE = (4u << OPCODE_SHIFT | 642u ),
goetz@6458 551 VMINUH_OPCODE = (4u << OPCODE_SHIFT | 578u ),
goetz@6458 552
goetz@6458 553 VCMPEQUB_OPCODE= (4u << OPCODE_SHIFT | 6u ),
goetz@6458 554 VCMPEQUH_OPCODE= (4u << OPCODE_SHIFT | 70u ),
goetz@6458 555 VCMPEQUW_OPCODE= (4u << OPCODE_SHIFT | 134u ),
goetz@6458 556 VCMPGTSH_OPCODE= (4u << OPCODE_SHIFT | 838u ),
goetz@6458 557 VCMPGTSB_OPCODE= (4u << OPCODE_SHIFT | 774u ),
goetz@6458 558 VCMPGTSW_OPCODE= (4u << OPCODE_SHIFT | 902u ),
goetz@6458 559 VCMPGTUB_OPCODE= (4u << OPCODE_SHIFT | 518u ),
goetz@6458 560 VCMPGTUH_OPCODE= (4u << OPCODE_SHIFT | 582u ),
goetz@6458 561 VCMPGTUW_OPCODE= (4u << OPCODE_SHIFT | 646u ),
goetz@6458 562
goetz@6458 563 VAND_OPCODE = (4u << OPCODE_SHIFT | 1028u ),
goetz@6458 564 VANDC_OPCODE = (4u << OPCODE_SHIFT | 1092u ),
goetz@6458 565 VNOR_OPCODE = (4u << OPCODE_SHIFT | 1284u ),
goetz@6458 566 VOR_OPCODE = (4u << OPCODE_SHIFT | 1156u ),
goetz@6458 567 VXOR_OPCODE = (4u << OPCODE_SHIFT | 1220u ),
goetz@6458 568 VRLB_OPCODE = (4u << OPCODE_SHIFT | 4u ),
goetz@6458 569 VRLW_OPCODE = (4u << OPCODE_SHIFT | 132u ),
goetz@6458 570 VRLH_OPCODE = (4u << OPCODE_SHIFT | 68u ),
goetz@6458 571 VSLB_OPCODE = (4u << OPCODE_SHIFT | 260u ),
goetz@6458 572 VSKW_OPCODE = (4u << OPCODE_SHIFT | 388u ),
goetz@6458 573 VSLH_OPCODE = (4u << OPCODE_SHIFT | 324u ),
goetz@6458 574 VSRB_OPCODE = (4u << OPCODE_SHIFT | 516u ),
goetz@6458 575 VSRW_OPCODE = (4u << OPCODE_SHIFT | 644u ),
goetz@6458 576 VSRH_OPCODE = (4u << OPCODE_SHIFT | 580u ),
goetz@6458 577 VSRAB_OPCODE = (4u << OPCODE_SHIFT | 772u ),
goetz@6458 578 VSRAW_OPCODE = (4u << OPCODE_SHIFT | 900u ),
goetz@6458 579 VSRAH_OPCODE = (4u << OPCODE_SHIFT | 836u ),
goetz@6458 580
goetz@6458 581 // Vector Floating-Point
goetz@6458 582 // not implemented yet
goetz@6458 583
goetz@6458 584 // Vector Status and Control
goetz@6458 585 MTVSCR_OPCODE = (4u << OPCODE_SHIFT | 1604u ),
goetz@6458 586 MFVSCR_OPCODE = (4u << OPCODE_SHIFT | 1540u ),
goetz@6458 587
goetz@6458 588 // Icache and dcache related instructions
goetz@6458 589 DCBA_OPCODE = (31u << OPCODE_SHIFT | 758u << 1),
goetz@6458 590 DCBZ_OPCODE = (31u << OPCODE_SHIFT | 1014u << 1),
goetz@6458 591 DCBST_OPCODE = (31u << OPCODE_SHIFT | 54u << 1),
goetz@6458 592 DCBF_OPCODE = (31u << OPCODE_SHIFT | 86u << 1),
goetz@6458 593
goetz@6458 594 DCBT_OPCODE = (31u << OPCODE_SHIFT | 278u << 1),
goetz@6458 595 DCBTST_OPCODE = (31u << OPCODE_SHIFT | 246u << 1),
goetz@6458 596 ICBI_OPCODE = (31u << OPCODE_SHIFT | 982u << 1),
goetz@6458 597
goetz@6458 598 // Instruction synchronization
goetz@6458 599 ISYNC_OPCODE = (19u << OPCODE_SHIFT | 150u << 1),
goetz@6458 600 // Memory barriers
goetz@6458 601 SYNC_OPCODE = (31u << OPCODE_SHIFT | 598u << 1),
goetz@6458 602 EIEIO_OPCODE = (31u << OPCODE_SHIFT | 854u << 1),
goetz@6458 603
goetz@6458 604 // Trap instructions
goetz@6458 605 TDI_OPCODE = (2u << OPCODE_SHIFT),
goetz@6458 606 TWI_OPCODE = (3u << OPCODE_SHIFT),
goetz@6458 607 TD_OPCODE = (31u << OPCODE_SHIFT | 68u << 1),
goetz@6458 608 TW_OPCODE = (31u << OPCODE_SHIFT | 4u << 1),
goetz@6458 609
goetz@6458 610 // Atomics.
goetz@6458 611 LWARX_OPCODE = (31u << OPCODE_SHIFT | 20u << 1),
goetz@6458 612 LDARX_OPCODE = (31u << OPCODE_SHIFT | 84u << 1),
goetz@6458 613 STWCX_OPCODE = (31u << OPCODE_SHIFT | 150u << 1),
goetz@6458 614 STDCX_OPCODE = (31u << OPCODE_SHIFT | 214u << 1)
goetz@6458 615
goetz@6458 616 };
goetz@6458 617
goetz@6458 618 // Trap instructions TO bits
goetz@6458 619 enum trap_to_bits {
goetz@6458 620 // single bits
goetz@6458 621 traptoLessThanSigned = 1 << 4, // 0, left end
goetz@6458 622 traptoGreaterThanSigned = 1 << 3,
goetz@6458 623 traptoEqual = 1 << 2,
goetz@6458 624 traptoLessThanUnsigned = 1 << 1,
goetz@6458 625 traptoGreaterThanUnsigned = 1 << 0, // 4, right end
goetz@6458 626
goetz@6458 627 // compound ones
goetz@6458 628 traptoUnconditional = (traptoLessThanSigned |
goetz@6458 629 traptoGreaterThanSigned |
goetz@6458 630 traptoEqual |
goetz@6458 631 traptoLessThanUnsigned |
goetz@6458 632 traptoGreaterThanUnsigned)
goetz@6458 633 };
goetz@6458 634
goetz@6458 635 // Branch hints BH field
goetz@6458 636 enum branch_hint_bh {
goetz@6458 637 // bclr cases:
goetz@6458 638 bhintbhBCLRisReturn = 0,
goetz@6458 639 bhintbhBCLRisNotReturnButSame = 1,
goetz@6458 640 bhintbhBCLRisNotPredictable = 3,
goetz@6458 641
goetz@6458 642 // bcctr cases:
goetz@6458 643 bhintbhBCCTRisNotReturnButSame = 0,
goetz@6458 644 bhintbhBCCTRisNotPredictable = 3
goetz@6458 645 };
goetz@6458 646
goetz@6458 647 // Branch prediction hints AT field
goetz@6458 648 enum branch_hint_at {
goetz@6458 649 bhintatNoHint = 0, // at=00
goetz@6458 650 bhintatIsNotTaken = 2, // at=10
goetz@6458 651 bhintatIsTaken = 3 // at=11
goetz@6458 652 };
goetz@6458 653
goetz@6458 654 // Branch prediction hints
goetz@6458 655 enum branch_hint_concept {
goetz@6458 656 // Use the same encoding as branch_hint_at to simply code.
goetz@6458 657 bhintNoHint = bhintatNoHint,
goetz@6458 658 bhintIsNotTaken = bhintatIsNotTaken,
goetz@6458 659 bhintIsTaken = bhintatIsTaken
goetz@6458 660 };
goetz@6458 661
goetz@6458 662 // Used in BO field of branch instruction.
goetz@6458 663 enum branch_condition {
goetz@6458 664 bcondCRbiIs0 = 4, // bo=001at
goetz@6458 665 bcondCRbiIs1 = 12, // bo=011at
goetz@6458 666 bcondAlways = 20 // bo=10100
goetz@6458 667 };
goetz@6458 668
goetz@6458 669 // Branch condition with combined prediction hints.
goetz@6458 670 enum branch_condition_with_hint {
goetz@6458 671 bcondCRbiIs0_bhintNoHint = bcondCRbiIs0 | bhintatNoHint,
goetz@6458 672 bcondCRbiIs0_bhintIsNotTaken = bcondCRbiIs0 | bhintatIsNotTaken,
goetz@6458 673 bcondCRbiIs0_bhintIsTaken = bcondCRbiIs0 | bhintatIsTaken,
goetz@6458 674 bcondCRbiIs1_bhintNoHint = bcondCRbiIs1 | bhintatNoHint,
goetz@6458 675 bcondCRbiIs1_bhintIsNotTaken = bcondCRbiIs1 | bhintatIsNotTaken,
goetz@6458 676 bcondCRbiIs1_bhintIsTaken = bcondCRbiIs1 | bhintatIsTaken,
goetz@6458 677 };
goetz@6458 678
goetz@6495 679 // Elemental Memory Barriers (>=Power 8)
goetz@6495 680 enum Elemental_Membar_mask_bits {
goetz@6495 681 StoreStore = 1 << 0,
goetz@6495 682 StoreLoad = 1 << 1,
goetz@6495 683 LoadStore = 1 << 2,
goetz@6495 684 LoadLoad = 1 << 3
goetz@6495 685 };
goetz@6495 686
goetz@6458 687 // Branch prediction hints.
goetz@6458 688 inline static int add_bhint_to_boint(const int bhint, const int boint) {
goetz@6458 689 switch (boint) {
goetz@6458 690 case bcondCRbiIs0:
goetz@6458 691 case bcondCRbiIs1:
goetz@6458 692 // branch_hint and branch_hint_at have same encodings
goetz@6458 693 assert( (int)bhintNoHint == (int)bhintatNoHint
goetz@6458 694 && (int)bhintIsNotTaken == (int)bhintatIsNotTaken
goetz@6458 695 && (int)bhintIsTaken == (int)bhintatIsTaken,
goetz@6458 696 "wrong encodings");
goetz@6458 697 assert((bhint & 0x03) == bhint, "wrong encodings");
goetz@6458 698 return (boint & ~0x03) | bhint;
goetz@6458 699 case bcondAlways:
goetz@6458 700 // no branch_hint
goetz@6458 701 return boint;
goetz@6458 702 default:
goetz@6458 703 ShouldNotReachHere();
goetz@6458 704 return 0;
goetz@6458 705 }
goetz@6458 706 }
goetz@6458 707
goetz@6458 708 // Extract bcond from boint.
goetz@6458 709 inline static int inv_boint_bcond(const int boint) {
goetz@6458 710 int r_bcond = boint & ~0x03;
goetz@6458 711 assert(r_bcond == bcondCRbiIs0 ||
goetz@6458 712 r_bcond == bcondCRbiIs1 ||
goetz@6458 713 r_bcond == bcondAlways,
goetz@6458 714 "bad branch condition");
goetz@6458 715 return r_bcond;
goetz@6458 716 }
goetz@6458 717
goetz@6458 718 // Extract bhint from boint.
goetz@6458 719 inline static int inv_boint_bhint(const int boint) {
goetz@6458 720 int r_bhint = boint & 0x03;
goetz@6458 721 assert(r_bhint == bhintatNoHint ||
goetz@6458 722 r_bhint == bhintatIsNotTaken ||
goetz@6458 723 r_bhint == bhintatIsTaken,
goetz@6458 724 "bad branch hint");
goetz@6458 725 return r_bhint;
goetz@6458 726 }
goetz@6458 727
goetz@6458 728 // Calculate opposite of given bcond.
goetz@6458 729 inline static int opposite_bcond(const int bcond) {
goetz@6458 730 switch (bcond) {
goetz@6458 731 case bcondCRbiIs0:
goetz@6458 732 return bcondCRbiIs1;
goetz@6458 733 case bcondCRbiIs1:
goetz@6458 734 return bcondCRbiIs0;
goetz@6458 735 default:
goetz@6458 736 ShouldNotReachHere();
goetz@6458 737 return 0;
goetz@6458 738 }
goetz@6458 739 }
goetz@6458 740
goetz@6458 741 // Calculate opposite of given bhint.
goetz@6458 742 inline static int opposite_bhint(const int bhint) {
goetz@6458 743 switch (bhint) {
goetz@6458 744 case bhintatNoHint:
goetz@6458 745 return bhintatNoHint;
goetz@6458 746 case bhintatIsNotTaken:
goetz@6458 747 return bhintatIsTaken;
goetz@6458 748 case bhintatIsTaken:
goetz@6458 749 return bhintatIsNotTaken;
goetz@6458 750 default:
goetz@6458 751 ShouldNotReachHere();
goetz@6458 752 return 0;
goetz@6458 753 }
goetz@6458 754 }
goetz@6458 755
goetz@6458 756 // PPC branch instructions
goetz@6458 757 enum ppcops {
goetz@6458 758 b_op = 18,
goetz@6458 759 bc_op = 16,
goetz@6458 760 bcr_op = 19
goetz@6458 761 };
goetz@6458 762
goetz@6458 763 enum Condition {
goetz@6458 764 negative = 0,
goetz@6458 765 less = 0,
goetz@6458 766 positive = 1,
goetz@6458 767 greater = 1,
goetz@6458 768 zero = 2,
goetz@6458 769 equal = 2,
goetz@6458 770 summary_overflow = 3,
goetz@6458 771 };
goetz@6458 772
goetz@6458 773 public:
goetz@6458 774 // Helper functions for groups of instructions
goetz@6458 775
goetz@6458 776 enum Predict { pt = 1, pn = 0 }; // pt = predict taken
goetz@6458 777
goetz@6458 778 // instruction must start at passed address
goetz@6458 779 static int instr_len(unsigned char *instr) { return BytesPerInstWord; }
goetz@6458 780
goetz@6458 781 // instruction must be left-justified in argument
goetz@6458 782 static int instr_len(unsigned long instr) { return BytesPerInstWord; }
goetz@6458 783
goetz@6458 784 // longest instructions
goetz@6458 785 static int instr_maxlen() { return BytesPerInstWord; }
goetz@6458 786
goetz@6458 787 // Test if x is within signed immediate range for nbits.
goetz@6458 788 static bool is_simm(int x, unsigned int nbits) {
goetz@6458 789 assert(0 < nbits && nbits < 32, "out of bounds");
goetz@6458 790 const int min = -( ((int)1) << nbits-1 );
goetz@6458 791 const int maxplus1 = ( ((int)1) << nbits-1 );
goetz@6458 792 return min <= x && x < maxplus1;
goetz@6458 793 }
goetz@6458 794
goetz@6458 795 static bool is_simm(jlong x, unsigned int nbits) {
goetz@6458 796 assert(0 < nbits && nbits < 64, "out of bounds");
goetz@6458 797 const jlong min = -( ((jlong)1) << nbits-1 );
goetz@6458 798 const jlong maxplus1 = ( ((jlong)1) << nbits-1 );
goetz@6458 799 return min <= x && x < maxplus1;
goetz@6458 800 }
goetz@6458 801
goetz@6458 802 // Test if x is within unsigned immediate range for nbits
goetz@6458 803 static bool is_uimm(int x, unsigned int nbits) {
goetz@6458 804 assert(0 < nbits && nbits < 32, "out of bounds");
goetz@6458 805 const int maxplus1 = ( ((int)1) << nbits );
goetz@6458 806 return 0 <= x && x < maxplus1;
goetz@6458 807 }
goetz@6458 808
goetz@6458 809 static bool is_uimm(jlong x, unsigned int nbits) {
goetz@6458 810 assert(0 < nbits && nbits < 64, "out of bounds");
goetz@6458 811 const jlong maxplus1 = ( ((jlong)1) << nbits );
goetz@6458 812 return 0 <= x && x < maxplus1;
goetz@6458 813 }
goetz@6458 814
goetz@6458 815 protected:
goetz@6458 816 // helpers
goetz@6458 817
goetz@6458 818 // X is supposed to fit in a field "nbits" wide
goetz@6458 819 // and be sign-extended. Check the range.
goetz@6458 820 static void assert_signed_range(intptr_t x, int nbits) {
goetz@6458 821 assert(nbits == 32 || (-(1 << nbits-1) <= x && x < (1 << nbits-1)),
goetz@6458 822 "value out of range");
goetz@6458 823 }
goetz@6458 824
goetz@6458 825 static void assert_signed_word_disp_range(intptr_t x, int nbits) {
goetz@6458 826 assert((x & 3) == 0, "not word aligned");
goetz@6458 827 assert_signed_range(x, nbits + 2);
goetz@6458 828 }
goetz@6458 829
goetz@6458 830 static void assert_unsigned_const(int x, int nbits) {
goetz@6458 831 assert(juint(x) < juint(1 << nbits), "unsigned constant out of range");
goetz@6458 832 }
goetz@6458 833
goetz@6458 834 static int fmask(juint hi_bit, juint lo_bit) {
goetz@6458 835 assert(hi_bit >= lo_bit && hi_bit < 32, "bad bits");
goetz@6458 836 return (1 << ( hi_bit-lo_bit + 1 )) - 1;
goetz@6458 837 }
goetz@6458 838
goetz@6458 839 // inverse of u_field
goetz@6458 840 static int inv_u_field(int x, int hi_bit, int lo_bit) {
goetz@6458 841 juint r = juint(x) >> lo_bit;
goetz@6458 842 r &= fmask(hi_bit, lo_bit);
goetz@6458 843 return int(r);
goetz@6458 844 }
goetz@6458 845
goetz@6458 846 // signed version: extract from field and sign-extend
goetz@6458 847 static int inv_s_field_ppc(int x, int hi_bit, int lo_bit) {
goetz@6458 848 x = x << (31-hi_bit);
goetz@6458 849 x = x >> (31-hi_bit+lo_bit);
goetz@6458 850 return x;
goetz@6458 851 }
goetz@6458 852
goetz@6458 853 static int u_field(int x, int hi_bit, int lo_bit) {
goetz@6458 854 assert((x & ~fmask(hi_bit, lo_bit)) == 0, "value out of range");
goetz@6458 855 int r = x << lo_bit;
goetz@6458 856 assert(inv_u_field(r, hi_bit, lo_bit) == x, "just checking");
goetz@6458 857 return r;
goetz@6458 858 }
goetz@6458 859
goetz@6458 860 // Same as u_field for signed values
goetz@6458 861 static int s_field(int x, int hi_bit, int lo_bit) {
goetz@6458 862 int nbits = hi_bit - lo_bit + 1;
goetz@6458 863 assert(nbits == 32 || (-(1 << nbits-1) <= x && x < (1 << nbits-1)),
goetz@6458 864 "value out of range");
goetz@6458 865 x &= fmask(hi_bit, lo_bit);
goetz@6458 866 int r = x << lo_bit;
goetz@6458 867 return r;
goetz@6458 868 }
goetz@6458 869
goetz@6458 870 // inv_op for ppc instructions
goetz@6458 871 static int inv_op_ppc(int x) { return inv_u_field(x, 31, 26); }
goetz@6458 872
goetz@6458 873 // Determine target address from li, bd field of branch instruction.
goetz@6458 874 static intptr_t inv_li_field(int x) {
goetz@6458 875 intptr_t r = inv_s_field_ppc(x, 25, 2);
goetz@6458 876 r = (r << 2);
goetz@6458 877 return r;
goetz@6458 878 }
goetz@6458 879 static intptr_t inv_bd_field(int x, intptr_t pos) {
goetz@6458 880 intptr_t r = inv_s_field_ppc(x, 15, 2);
goetz@6458 881 r = (r << 2) + pos;
goetz@6458 882 return r;
goetz@6458 883 }
goetz@6458 884
goetz@6458 885 #define inv_opp_u_field(x, hi_bit, lo_bit) inv_u_field(x, 31-(lo_bit), 31-(hi_bit))
goetz@6458 886 #define inv_opp_s_field(x, hi_bit, lo_bit) inv_s_field_ppc(x, 31-(lo_bit), 31-(hi_bit))
goetz@6458 887 // Extract instruction fields from instruction words.
goetz@6458 888 public:
goetz@6495 889 static int inv_ra_field(int x) { return inv_opp_u_field(x, 15, 11); }
goetz@6495 890 static int inv_rb_field(int x) { return inv_opp_u_field(x, 20, 16); }
goetz@6495 891 static int inv_rt_field(int x) { return inv_opp_u_field(x, 10, 6); }
goetz@6495 892 static int inv_rta_field(int x) { return inv_opp_u_field(x, 15, 11); }
goetz@6495 893 static int inv_rs_field(int x) { return inv_opp_u_field(x, 10, 6); }
goetz@6458 894 // Ds uses opp_s_field(x, 31, 16), but lowest 2 bits must be 0.
goetz@6458 895 // Inv_ds_field uses range (x, 29, 16) but shifts by 2 to ensure that lowest bits are 0.
goetz@6495 896 static int inv_ds_field(int x) { return inv_opp_s_field(x, 29, 16) << 2; }
goetz@6495 897 static int inv_d1_field(int x) { return inv_opp_s_field(x, 31, 16); }
goetz@6495 898 static int inv_si_field(int x) { return inv_opp_s_field(x, 31, 16); }
goetz@6495 899 static int inv_to_field(int x) { return inv_opp_u_field(x, 10, 6); }
goetz@6495 900 static int inv_lk_field(int x) { return inv_opp_u_field(x, 31, 31); }
goetz@6495 901 static int inv_bo_field(int x) { return inv_opp_u_field(x, 10, 6); }
goetz@6495 902 static int inv_bi_field(int x) { return inv_opp_u_field(x, 15, 11); }
goetz@6458 903
goetz@6458 904 #define opp_u_field(x, hi_bit, lo_bit) u_field(x, 31-(lo_bit), 31-(hi_bit))
goetz@6458 905 #define opp_s_field(x, hi_bit, lo_bit) s_field(x, 31-(lo_bit), 31-(hi_bit))
goetz@6458 906
goetz@6458 907 // instruction fields
goetz@6458 908 static int aa( int x) { return opp_u_field(x, 30, 30); }
goetz@6458 909 static int ba( int x) { return opp_u_field(x, 15, 11); }
goetz@6458 910 static int bb( int x) { return opp_u_field(x, 20, 16); }
goetz@6458 911 static int bc( int x) { return opp_u_field(x, 25, 21); }
goetz@6458 912 static int bd( int x) { return opp_s_field(x, 29, 16); }
goetz@6458 913 static int bf( ConditionRegister cr) { return bf(cr->encoding()); }
goetz@6458 914 static int bf( int x) { return opp_u_field(x, 8, 6); }
goetz@6458 915 static int bfa(ConditionRegister cr) { return bfa(cr->encoding()); }
goetz@6458 916 static int bfa( int x) { return opp_u_field(x, 13, 11); }
goetz@6458 917 static int bh( int x) { return opp_u_field(x, 20, 19); }
goetz@6458 918 static int bi( int x) { return opp_u_field(x, 15, 11); }
goetz@6458 919 static int bi0(ConditionRegister cr, Condition c) { return (cr->encoding() << 2) | c; }
goetz@6458 920 static int bo( int x) { return opp_u_field(x, 10, 6); }
goetz@6458 921 static int bt( int x) { return opp_u_field(x, 10, 6); }
goetz@6458 922 static int d1( int x) { return opp_s_field(x, 31, 16); }
goetz@6458 923 static int ds( int x) { assert((x & 0x3) == 0, "unaligned offset"); return opp_s_field(x, 31, 16); }
goetz@6458 924 static int eh( int x) { return opp_u_field(x, 31, 31); }
goetz@6458 925 static int flm( int x) { return opp_u_field(x, 14, 7); }
goetz@6458 926 static int fra( FloatRegister r) { return fra(r->encoding());}
goetz@6458 927 static int frb( FloatRegister r) { return frb(r->encoding());}
goetz@6458 928 static int frc( FloatRegister r) { return frc(r->encoding());}
goetz@6458 929 static int frs( FloatRegister r) { return frs(r->encoding());}
goetz@6458 930 static int frt( FloatRegister r) { return frt(r->encoding());}
goetz@6458 931 static int fra( int x) { return opp_u_field(x, 15, 11); }
goetz@6458 932 static int frb( int x) { return opp_u_field(x, 20, 16); }
goetz@6458 933 static int frc( int x) { return opp_u_field(x, 25, 21); }
goetz@6458 934 static int frs( int x) { return opp_u_field(x, 10, 6); }
goetz@6458 935 static int frt( int x) { return opp_u_field(x, 10, 6); }
goetz@6458 936 static int fxm( int x) { return opp_u_field(x, 19, 12); }
goetz@6458 937 static int l10( int x) { return opp_u_field(x, 10, 10); }
goetz@6458 938 static int l15( int x) { return opp_u_field(x, 15, 15); }
goetz@6458 939 static int l910( int x) { return opp_u_field(x, 10, 9); }
goetz@6495 940 static int e1215( int x) { return opp_u_field(x, 15, 12); }
goetz@6458 941 static int lev( int x) { return opp_u_field(x, 26, 20); }
goetz@6458 942 static int li( int x) { return opp_s_field(x, 29, 6); }
goetz@6458 943 static int lk( int x) { return opp_u_field(x, 31, 31); }
goetz@6458 944 static int mb2125( int x) { return opp_u_field(x, 25, 21); }
goetz@6458 945 static int me2630( int x) { return opp_u_field(x, 30, 26); }
goetz@6458 946 static int mb2126( int x) { return opp_u_field(((x & 0x1f) << 1) | ((x & 0x20) >> 5), 26, 21); }
goetz@6458 947 static int me2126( int x) { return mb2126(x); }
goetz@6458 948 static int nb( int x) { return opp_u_field(x, 20, 16); }
goetz@6458 949 //static int opcd( int x) { return opp_u_field(x, 5, 0); } // is contained in our opcodes
goetz@6458 950 static int oe( int x) { return opp_u_field(x, 21, 21); }
goetz@6458 951 static int ra( Register r) { return ra(r->encoding()); }
goetz@6458 952 static int ra( int x) { return opp_u_field(x, 15, 11); }
goetz@6458 953 static int rb( Register r) { return rb(r->encoding()); }
goetz@6458 954 static int rb( int x) { return opp_u_field(x, 20, 16); }
goetz@6458 955 static int rc( int x) { return opp_u_field(x, 31, 31); }
goetz@6458 956 static int rs( Register r) { return rs(r->encoding()); }
goetz@6458 957 static int rs( int x) { return opp_u_field(x, 10, 6); }
goetz@6458 958 // we don't want to use R0 in memory accesses, because it has value `0' then
goetz@6458 959 static int ra0mem( Register r) { assert(r != R0, "cannot use register R0 in memory access"); return ra(r); }
goetz@6458 960 static int ra0mem( int x) { assert(x != 0, "cannot use register 0 in memory access"); return ra(x); }
goetz@6458 961
goetz@6458 962 // register r is target
goetz@6458 963 static int rt( Register r) { return rs(r); }
goetz@6458 964 static int rt( int x) { return rs(x); }
goetz@6458 965 static int rta( Register r) { return ra(r); }
goetz@6458 966 static int rta0mem( Register r) { rta(r); return ra0mem(r); }
goetz@6458 967
goetz@6458 968 static int sh1620( int x) { return opp_u_field(x, 20, 16); }
goetz@6458 969 static int sh30( int x) { return opp_u_field(x, 30, 30); }
goetz@6458 970 static int sh162030( int x) { return sh1620(x & 0x1f) | sh30((x & 0x20) >> 5); }
goetz@6458 971 static int si( int x) { return opp_s_field(x, 31, 16); }
goetz@6458 972 static int spr( int x) { return opp_u_field(x, 20, 11); }
goetz@6458 973 static int sr( int x) { return opp_u_field(x, 15, 12); }
goetz@6458 974 static int tbr( int x) { return opp_u_field(x, 20, 11); }
goetz@6458 975 static int th( int x) { return opp_u_field(x, 10, 7); }
goetz@6495 976 static int thct( int x) { assert((x&8) == 0, "must be valid cache specification"); return th(x); }
goetz@6495 977 static int thds( int x) { assert((x&8) == 8, "must be valid stream specification"); return th(x); }
goetz@6458 978 static int to( int x) { return opp_u_field(x, 10, 6); }
goetz@6458 979 static int u( int x) { return opp_u_field(x, 19, 16); }
goetz@6458 980 static int ui( int x) { return opp_u_field(x, 31, 16); }
goetz@6458 981
goetz@6495 982 // Support vector instructions for >= Power6.
goetz@6458 983 static int vra( int x) { return opp_u_field(x, 15, 11); }
goetz@6458 984 static int vrb( int x) { return opp_u_field(x, 20, 16); }
goetz@6458 985 static int vrc( int x) { return opp_u_field(x, 25, 21); }
goetz@6458 986 static int vrs( int x) { return opp_u_field(x, 10, 6); }
goetz@6458 987 static int vrt( int x) { return opp_u_field(x, 10, 6); }
goetz@6458 988
goetz@6458 989 static int vra( VectorRegister r) { return vra(r->encoding());}
goetz@6458 990 static int vrb( VectorRegister r) { return vrb(r->encoding());}
goetz@6458 991 static int vrc( VectorRegister r) { return vrc(r->encoding());}
goetz@6458 992 static int vrs( VectorRegister r) { return vrs(r->encoding());}
goetz@6458 993 static int vrt( VectorRegister r) { return vrt(r->encoding());}
goetz@6458 994
goetz@6458 995 static int vsplt_uim( int x) { return opp_u_field(x, 15, 12); } // for vsplt* instructions
goetz@6458 996 static int vsplti_sim(int x) { return opp_u_field(x, 15, 11); } // for vsplti* instructions
goetz@6458 997 static int vsldoi_shb(int x) { return opp_u_field(x, 25, 22); } // for vsldoi instruction
goetz@6458 998 static int vcmp_rc( int x) { return opp_u_field(x, 21, 21); } // for vcmp* instructions
goetz@6458 999
goetz@6458 1000 //static int xo1( int x) { return opp_u_field(x, 29, 21); }// is contained in our opcodes
goetz@6458 1001 //static int xo2( int x) { return opp_u_field(x, 30, 21); }// is contained in our opcodes
goetz@6458 1002 //static int xo3( int x) { return opp_u_field(x, 30, 22); }// is contained in our opcodes
goetz@6458 1003 //static int xo4( int x) { return opp_u_field(x, 30, 26); }// is contained in our opcodes
goetz@6458 1004 //static int xo5( int x) { return opp_u_field(x, 29, 27); }// is contained in our opcodes
goetz@6458 1005 //static int xo6( int x) { return opp_u_field(x, 30, 27); }// is contained in our opcodes
goetz@6458 1006 //static int xo7( int x) { return opp_u_field(x, 31, 30); }// is contained in our opcodes
goetz@6458 1007
goetz@6458 1008 protected:
goetz@6458 1009 // Compute relative address for branch.
goetz@6458 1010 static intptr_t disp(intptr_t x, intptr_t off) {
goetz@6458 1011 int xx = x - off;
goetz@6458 1012 xx = xx >> 2;
goetz@6458 1013 return xx;
goetz@6458 1014 }
goetz@6458 1015
goetz@6458 1016 public:
goetz@6458 1017 // signed immediate, in low bits, nbits long
goetz@6458 1018 static int simm(int x, int nbits) {
goetz@6458 1019 assert_signed_range(x, nbits);
goetz@6458 1020 return x & ((1 << nbits) - 1);
goetz@6458 1021 }
goetz@6458 1022
goetz@6458 1023 // unsigned immediate, in low bits, nbits long
goetz@6458 1024 static int uimm(int x, int nbits) {
goetz@6458 1025 assert_unsigned_const(x, nbits);
goetz@6458 1026 return x & ((1 << nbits) - 1);
goetz@6458 1027 }
goetz@6458 1028
goetz@6458 1029 static void set_imm(int* instr, short s) {
kvn@6538 1030 // imm is always in the lower 16 bits of the instruction,
kvn@6538 1031 // so this is endian-neutral. Same for the get_imm below.
kvn@6538 1032 uint32_t w = *(uint32_t *)instr;
kvn@6538 1033 *instr = (int)((w & ~0x0000FFFF) | (s & 0x0000FFFF));
goetz@6458 1034 }
goetz@6458 1035
goetz@6458 1036 static int get_imm(address a, int instruction_number) {
kvn@6538 1037 return (short)((int *)a)[instruction_number];
goetz@6458 1038 }
goetz@6458 1039
goetz@6458 1040 static inline int hi16_signed( int x) { return (int)(int16_t)(x >> 16); }
goetz@6458 1041 static inline int lo16_unsigned(int x) { return x & 0xffff; }
goetz@6458 1042
goetz@6458 1043 protected:
goetz@6458 1044
goetz@6458 1045 // Extract the top 32 bits in a 64 bit word.
goetz@6458 1046 static int32_t hi32(int64_t x) {
goetz@6458 1047 int32_t r = int32_t((uint64_t)x >> 32);
goetz@6458 1048 return r;
goetz@6458 1049 }
goetz@6458 1050
goetz@6458 1051 public:
goetz@6458 1052
goetz@6458 1053 static inline unsigned int align_addr(unsigned int addr, unsigned int a) {
goetz@6458 1054 return ((addr + (a - 1)) & ~(a - 1));
goetz@6458 1055 }
goetz@6458 1056
goetz@6458 1057 static inline bool is_aligned(unsigned int addr, unsigned int a) {
goetz@6458 1058 return (0 == addr % a);
goetz@6458 1059 }
goetz@6458 1060
goetz@6458 1061 void flush() {
goetz@6458 1062 AbstractAssembler::flush();
goetz@6458 1063 }
goetz@6458 1064
goetz@6458 1065 inline void emit_int32(int); // shadows AbstractAssembler::emit_int32
goetz@6458 1066 inline void emit_data(int);
goetz@6458 1067 inline void emit_data(int, RelocationHolder const&);
goetz@6458 1068 inline void emit_data(int, relocInfo::relocType rtype);
goetz@6458 1069
goetz@6458 1070 // Emit an address.
goetz@6458 1071 inline address emit_addr(const address addr = NULL);
goetz@6458 1072
goetz@6511 1073 #if !defined(ABI_ELFv2)
goetz@6458 1074 // Emit a function descriptor with the specified entry point, TOC,
goetz@6458 1075 // and ENV. If the entry point is NULL, the descriptor will point
goetz@6458 1076 // just past the descriptor.
goetz@6458 1077 // Use values from friend functions as defaults.
goetz@6458 1078 inline address emit_fd(address entry = NULL,
goetz@6458 1079 address toc = (address) FunctionDescriptor::friend_toc,
goetz@6458 1080 address env = (address) FunctionDescriptor::friend_env);
goetz@6511 1081 #endif
goetz@6458 1082
goetz@6458 1083 /////////////////////////////////////////////////////////////////////////////////////
goetz@6458 1084 // PPC instructions
goetz@6458 1085 /////////////////////////////////////////////////////////////////////////////////////
goetz@6458 1086
goetz@6458 1087 // Memory instructions use r0 as hard coded 0, e.g. to simulate loading
goetz@6458 1088 // immediates. The normal instruction encoders enforce that r0 is not
goetz@6458 1089 // passed to them. Use either extended mnemonics encoders or the special ra0
goetz@6458 1090 // versions.
goetz@6458 1091
goetz@6458 1092 // Issue an illegal instruction.
goetz@6458 1093 inline void illtrap();
goetz@6458 1094 static inline bool is_illtrap(int x);
goetz@6458 1095
goetz@6458 1096 // PPC 1, section 3.3.8, Fixed-Point Arithmetic Instructions
goetz@6458 1097 inline void addi( Register d, Register a, int si16);
goetz@6458 1098 inline void addis(Register d, Register a, int si16);
goetz@6458 1099 private:
goetz@6458 1100 inline void addi_r0ok( Register d, Register a, int si16);
goetz@6458 1101 inline void addis_r0ok(Register d, Register a, int si16);
goetz@6458 1102 public:
goetz@6458 1103 inline void addic_( Register d, Register a, int si16);
goetz@6458 1104 inline void subfic( Register d, Register a, int si16);
goetz@6458 1105 inline void add( Register d, Register a, Register b);
goetz@6458 1106 inline void add_( Register d, Register a, Register b);
goetz@6495 1107 inline void subf( Register d, Register a, Register b); // d = b - a "Sub_from", as in ppc spec.
goetz@6495 1108 inline void sub( Register d, Register a, Register b); // d = a - b Swap operands of subf for readability.
goetz@6458 1109 inline void subf_( Register d, Register a, Register b);
goetz@6458 1110 inline void addc( Register d, Register a, Register b);
goetz@6458 1111 inline void addc_( Register d, Register a, Register b);
goetz@6458 1112 inline void subfc( Register d, Register a, Register b);
goetz@6458 1113 inline void subfc_( Register d, Register a, Register b);
goetz@6458 1114 inline void adde( Register d, Register a, Register b);
goetz@6458 1115 inline void adde_( Register d, Register a, Register b);
goetz@6458 1116 inline void subfe( Register d, Register a, Register b);
goetz@6458 1117 inline void subfe_( Register d, Register a, Register b);
goetz@6458 1118 inline void neg( Register d, Register a);
goetz@6458 1119 inline void neg_( Register d, Register a);
goetz@6458 1120 inline void mulli( Register d, Register a, int si16);
goetz@6458 1121 inline void mulld( Register d, Register a, Register b);
goetz@6458 1122 inline void mulld_( Register d, Register a, Register b);
goetz@6458 1123 inline void mullw( Register d, Register a, Register b);
goetz@6458 1124 inline void mullw_( Register d, Register a, Register b);
goetz@6458 1125 inline void mulhw( Register d, Register a, Register b);
goetz@6458 1126 inline void mulhw_( Register d, Register a, Register b);
goetz@6458 1127 inline void mulhd( Register d, Register a, Register b);
goetz@6458 1128 inline void mulhd_( Register d, Register a, Register b);
goetz@6458 1129 inline void mulhdu( Register d, Register a, Register b);
goetz@6458 1130 inline void mulhdu_(Register d, Register a, Register b);
goetz@6458 1131 inline void divd( Register d, Register a, Register b);
goetz@6458 1132 inline void divd_( Register d, Register a, Register b);
goetz@6458 1133 inline void divw( Register d, Register a, Register b);
goetz@6458 1134 inline void divw_( Register d, Register a, Register b);
goetz@6458 1135
goetz@6458 1136 // extended mnemonics
goetz@6458 1137 inline void li( Register d, int si16);
goetz@6458 1138 inline void lis( Register d, int si16);
goetz@6458 1139 inline void addir(Register d, int si16, Register a);
goetz@6458 1140
goetz@6458 1141 static bool is_addi(int x) {
goetz@6458 1142 return ADDI_OPCODE == (x & ADDI_OPCODE_MASK);
goetz@6458 1143 }
goetz@6458 1144 static bool is_addis(int x) {
goetz@6458 1145 return ADDIS_OPCODE == (x & ADDIS_OPCODE_MASK);
goetz@6458 1146 }
goetz@6458 1147 static bool is_bxx(int x) {
goetz@6458 1148 return BXX_OPCODE == (x & BXX_OPCODE_MASK);
goetz@6458 1149 }
goetz@6458 1150 static bool is_b(int x) {
goetz@6458 1151 return BXX_OPCODE == (x & BXX_OPCODE_MASK) && inv_lk_field(x) == 0;
goetz@6458 1152 }
goetz@6458 1153 static bool is_bl(int x) {
goetz@6458 1154 return BXX_OPCODE == (x & BXX_OPCODE_MASK) && inv_lk_field(x) == 1;
goetz@6458 1155 }
goetz@6458 1156 static bool is_bcxx(int x) {
goetz@6458 1157 return BCXX_OPCODE == (x & BCXX_OPCODE_MASK);
goetz@6458 1158 }
goetz@6458 1159 static bool is_bxx_or_bcxx(int x) {
goetz@6458 1160 return is_bxx(x) || is_bcxx(x);
goetz@6458 1161 }
goetz@6458 1162 static bool is_bctrl(int x) {
goetz@6458 1163 return x == 0x4e800421;
goetz@6458 1164 }
goetz@6458 1165 static bool is_bctr(int x) {
goetz@6458 1166 return x == 0x4e800420;
goetz@6458 1167 }
goetz@6458 1168 static bool is_bclr(int x) {
goetz@6458 1169 return BCLR_OPCODE == (x & XL_FORM_OPCODE_MASK);
goetz@6458 1170 }
goetz@6458 1171 static bool is_li(int x) {
goetz@6458 1172 return is_addi(x) && inv_ra_field(x)==0;
goetz@6458 1173 }
goetz@6458 1174 static bool is_lis(int x) {
goetz@6458 1175 return is_addis(x) && inv_ra_field(x)==0;
goetz@6458 1176 }
goetz@6458 1177 static bool is_mtctr(int x) {
goetz@6458 1178 return MTCTR_OPCODE == (x & MTCTR_OPCODE_MASK);
goetz@6458 1179 }
goetz@6458 1180 static bool is_ld(int x) {
goetz@6458 1181 return LD_OPCODE == (x & LD_OPCODE_MASK);
goetz@6458 1182 }
goetz@6458 1183 static bool is_std(int x) {
goetz@6458 1184 return STD_OPCODE == (x & STD_OPCODE_MASK);
goetz@6458 1185 }
goetz@6458 1186 static bool is_stdu(int x) {
goetz@6458 1187 return STDU_OPCODE == (x & STDU_OPCODE_MASK);
goetz@6458 1188 }
goetz@6458 1189 static bool is_stdx(int x) {
goetz@6458 1190 return STDX_OPCODE == (x & STDX_OPCODE_MASK);
goetz@6458 1191 }
goetz@6458 1192 static bool is_stdux(int x) {
goetz@6458 1193 return STDUX_OPCODE == (x & STDUX_OPCODE_MASK);
goetz@6458 1194 }
goetz@6458 1195 static bool is_stwx(int x) {
goetz@6458 1196 return STWX_OPCODE == (x & STWX_OPCODE_MASK);
goetz@6458 1197 }
goetz@6458 1198 static bool is_stwux(int x) {
goetz@6458 1199 return STWUX_OPCODE == (x & STWUX_OPCODE_MASK);
goetz@6458 1200 }
goetz@6458 1201 static bool is_stw(int x) {
goetz@6458 1202 return STW_OPCODE == (x & STW_OPCODE_MASK);
goetz@6458 1203 }
goetz@6458 1204 static bool is_stwu(int x) {
goetz@6458 1205 return STWU_OPCODE == (x & STWU_OPCODE_MASK);
goetz@6458 1206 }
goetz@6458 1207 static bool is_ori(int x) {
goetz@6458 1208 return ORI_OPCODE == (x & ORI_OPCODE_MASK);
goetz@6458 1209 };
goetz@6458 1210 static bool is_oris(int x) {
goetz@6458 1211 return ORIS_OPCODE == (x & ORIS_OPCODE_MASK);
goetz@6458 1212 };
goetz@6458 1213 static bool is_rldicr(int x) {
goetz@6458 1214 return (RLDICR_OPCODE == (x & RLDICR_OPCODE_MASK));
goetz@6458 1215 };
goetz@6458 1216 static bool is_nop(int x) {
goetz@6458 1217 return x == 0x60000000;
goetz@6458 1218 }
goetz@6458 1219 // endgroup opcode for Power6
goetz@6458 1220 static bool is_endgroup(int x) {
goetz@6495 1221 return is_ori(x) && inv_ra_field(x) == 1 && inv_rs_field(x) == 1 && inv_d1_field(x) == 0;
goetz@6458 1222 }
goetz@6458 1223
goetz@6458 1224
goetz@6458 1225 private:
goetz@6458 1226 // PPC 1, section 3.3.9, Fixed-Point Compare Instructions
goetz@6458 1227 inline void cmpi( ConditionRegister bf, int l, Register a, int si16);
goetz@6458 1228 inline void cmp( ConditionRegister bf, int l, Register a, Register b);
goetz@6458 1229 inline void cmpli(ConditionRegister bf, int l, Register a, int ui16);
goetz@6458 1230 inline void cmpl( ConditionRegister bf, int l, Register a, Register b);
goetz@6458 1231
goetz@6458 1232 public:
goetz@6458 1233 // extended mnemonics of Compare Instructions
goetz@6458 1234 inline void cmpwi( ConditionRegister crx, Register a, int si16);
goetz@6458 1235 inline void cmpdi( ConditionRegister crx, Register a, int si16);
goetz@6458 1236 inline void cmpw( ConditionRegister crx, Register a, Register b);
goetz@6458 1237 inline void cmpd( ConditionRegister crx, Register a, Register b);
goetz@6458 1238 inline void cmplwi(ConditionRegister crx, Register a, int ui16);
goetz@6458 1239 inline void cmpldi(ConditionRegister crx, Register a, int ui16);
goetz@6458 1240 inline void cmplw( ConditionRegister crx, Register a, Register b);
goetz@6458 1241 inline void cmpld( ConditionRegister crx, Register a, Register b);
goetz@6458 1242
goetz@6458 1243 inline void isel( Register d, Register a, Register b, int bc);
goetz@6495 1244 // Convenient version which takes: Condition register, Condition code and invert flag. Omit b to keep old value.
goetz@6495 1245 inline void isel( Register d, ConditionRegister cr, Condition cc, bool inv, Register a, Register b = noreg);
goetz@6495 1246 // Set d = 0 if (cr.cc) equals 1, otherwise b.
goetz@6495 1247 inline void isel_0( Register d, ConditionRegister cr, Condition cc, Register b = noreg);
goetz@6458 1248
goetz@6458 1249 // PPC 1, section 3.3.11, Fixed-Point Logical Instructions
goetz@6495 1250 void andi( Register a, Register s, int ui16); // optimized version
goetz@6458 1251 inline void andi_( Register a, Register s, int ui16);
goetz@6458 1252 inline void andis_( Register a, Register s, int ui16);
goetz@6458 1253 inline void ori( Register a, Register s, int ui16);
goetz@6458 1254 inline void oris( Register a, Register s, int ui16);
goetz@6458 1255 inline void xori( Register a, Register s, int ui16);
goetz@6458 1256 inline void xoris( Register a, Register s, int ui16);
goetz@6458 1257 inline void andr( Register a, Register s, Register b); // suffixed by 'r' as 'and' is C++ keyword
goetz@6458 1258 inline void and_( Register a, Register s, Register b);
goetz@6458 1259 // Turn or0(rx,rx,rx) into a nop and avoid that we accidently emit a
goetz@6458 1260 // SMT-priority change instruction (see SMT instructions below).
goetz@6458 1261 inline void or_unchecked(Register a, Register s, Register b);
goetz@6458 1262 inline void orr( Register a, Register s, Register b); // suffixed by 'r' as 'or' is C++ keyword
goetz@6458 1263 inline void or_( Register a, Register s, Register b);
goetz@6458 1264 inline void xorr( Register a, Register s, Register b); // suffixed by 'r' as 'xor' is C++ keyword
goetz@6458 1265 inline void xor_( Register a, Register s, Register b);
goetz@6458 1266 inline void nand( Register a, Register s, Register b);
goetz@6458 1267 inline void nand_( Register a, Register s, Register b);
goetz@6458 1268 inline void nor( Register a, Register s, Register b);
goetz@6458 1269 inline void nor_( Register a, Register s, Register b);
goetz@6458 1270 inline void andc( Register a, Register s, Register b);
goetz@6458 1271 inline void andc_( Register a, Register s, Register b);
goetz@6458 1272 inline void orc( Register a, Register s, Register b);
goetz@6458 1273 inline void orc_( Register a, Register s, Register b);
goetz@6458 1274 inline void extsb( Register a, Register s);
goetz@6458 1275 inline void extsh( Register a, Register s);
goetz@6458 1276 inline void extsw( Register a, Register s);
goetz@6458 1277
goetz@6458 1278 // extended mnemonics
goetz@6458 1279 inline void nop();
goetz@6458 1280 // NOP for FP and BR units (different versions to allow them to be in one group)
goetz@6458 1281 inline void fpnop0();
goetz@6458 1282 inline void fpnop1();
goetz@6458 1283 inline void brnop0();
goetz@6458 1284 inline void brnop1();
goetz@6458 1285 inline void brnop2();
goetz@6458 1286
goetz@6458 1287 inline void mr( Register d, Register s);
goetz@6458 1288 inline void ori_opt( Register d, int ui16);
goetz@6458 1289 inline void oris_opt(Register d, int ui16);
goetz@6458 1290
goetz@6458 1291 // endgroup opcode for Power6
goetz@6458 1292 inline void endgroup();
goetz@6458 1293
goetz@6458 1294 // count instructions
goetz@6458 1295 inline void cntlzw( Register a, Register s);
goetz@6458 1296 inline void cntlzw_( Register a, Register s);
goetz@6458 1297 inline void cntlzd( Register a, Register s);
goetz@6458 1298 inline void cntlzd_( Register a, Register s);
goetz@6458 1299
goetz@6458 1300 // PPC 1, section 3.3.12, Fixed-Point Rotate and Shift Instructions
goetz@6458 1301 inline void sld( Register a, Register s, Register b);
goetz@6458 1302 inline void sld_( Register a, Register s, Register b);
goetz@6458 1303 inline void slw( Register a, Register s, Register b);
goetz@6458 1304 inline void slw_( Register a, Register s, Register b);
goetz@6458 1305 inline void srd( Register a, Register s, Register b);
goetz@6458 1306 inline void srd_( Register a, Register s, Register b);
goetz@6458 1307 inline void srw( Register a, Register s, Register b);
goetz@6458 1308 inline void srw_( Register a, Register s, Register b);
goetz@6458 1309 inline void srad( Register a, Register s, Register b);
goetz@6458 1310 inline void srad_( Register a, Register s, Register b);
goetz@6458 1311 inline void sraw( Register a, Register s, Register b);
goetz@6458 1312 inline void sraw_( Register a, Register s, Register b);
goetz@6458 1313 inline void sradi( Register a, Register s, int sh6);
goetz@6458 1314 inline void sradi_( Register a, Register s, int sh6);
goetz@6458 1315 inline void srawi( Register a, Register s, int sh5);
goetz@6458 1316 inline void srawi_( Register a, Register s, int sh5);
goetz@6458 1317
goetz@6458 1318 // extended mnemonics for Shift Instructions
goetz@6458 1319 inline void sldi( Register a, Register s, int sh6);
goetz@6458 1320 inline void sldi_( Register a, Register s, int sh6);
goetz@6458 1321 inline void slwi( Register a, Register s, int sh5);
goetz@6458 1322 inline void slwi_( Register a, Register s, int sh5);
goetz@6458 1323 inline void srdi( Register a, Register s, int sh6);
goetz@6458 1324 inline void srdi_( Register a, Register s, int sh6);
goetz@6458 1325 inline void srwi( Register a, Register s, int sh5);
goetz@6458 1326 inline void srwi_( Register a, Register s, int sh5);
goetz@6458 1327
goetz@6458 1328 inline void clrrdi( Register a, Register s, int ui6);
goetz@6458 1329 inline void clrrdi_( Register a, Register s, int ui6);
goetz@6458 1330 inline void clrldi( Register a, Register s, int ui6);
goetz@6458 1331 inline void clrldi_( Register a, Register s, int ui6);
goetz@6458 1332 inline void clrlsldi(Register a, Register s, int clrl6, int shl6);
goetz@6458 1333 inline void clrlsldi_(Register a, Register s, int clrl6, int shl6);
goetz@6458 1334 inline void extrdi( Register a, Register s, int n, int b);
goetz@6458 1335 // testbit with condition register
goetz@6458 1336 inline void testbitdi(ConditionRegister cr, Register a, Register s, int ui6);
goetz@6458 1337
goetz@6458 1338 // rotate instructions
goetz@6458 1339 inline void rotldi( Register a, Register s, int n);
goetz@6458 1340 inline void rotrdi( Register a, Register s, int n);
goetz@6458 1341 inline void rotlwi( Register a, Register s, int n);
goetz@6458 1342 inline void rotrwi( Register a, Register s, int n);
goetz@6458 1343
goetz@6458 1344 // Rotate Instructions
goetz@6458 1345 inline void rldic( Register a, Register s, int sh6, int mb6);
goetz@6458 1346 inline void rldic_( Register a, Register s, int sh6, int mb6);
goetz@6458 1347 inline void rldicr( Register a, Register s, int sh6, int mb6);
goetz@6458 1348 inline void rldicr_( Register a, Register s, int sh6, int mb6);
goetz@6458 1349 inline void rldicl( Register a, Register s, int sh6, int mb6);
goetz@6458 1350 inline void rldicl_( Register a, Register s, int sh6, int mb6);
goetz@6458 1351 inline void rlwinm( Register a, Register s, int sh5, int mb5, int me5);
goetz@6458 1352 inline void rlwinm_( Register a, Register s, int sh5, int mb5, int me5);
goetz@6458 1353 inline void rldimi( Register a, Register s, int sh6, int mb6);
goetz@6458 1354 inline void rldimi_( Register a, Register s, int sh6, int mb6);
goetz@6458 1355 inline void rlwimi( Register a, Register s, int sh5, int mb5, int me5);
goetz@6458 1356 inline void insrdi( Register a, Register s, int n, int b);
goetz@6458 1357 inline void insrwi( Register a, Register s, int n, int b);
goetz@6458 1358
goetz@6458 1359 // PPC 1, section 3.3.2 Fixed-Point Load Instructions
goetz@6458 1360 // 4 bytes
goetz@6458 1361 inline void lwzx( Register d, Register s1, Register s2);
goetz@6458 1362 inline void lwz( Register d, int si16, Register s1);
goetz@6458 1363 inline void lwzu( Register d, int si16, Register s1);
goetz@6458 1364
goetz@6458 1365 // 4 bytes
goetz@6458 1366 inline void lwax( Register d, Register s1, Register s2);
goetz@6458 1367 inline void lwa( Register d, int si16, Register s1);
goetz@6458 1368
kvn@7132 1369 // 4 bytes reversed
kvn@7132 1370 inline void lwbrx( Register d, Register s1, Register s2);
kvn@7132 1371
goetz@6458 1372 // 2 bytes
goetz@6458 1373 inline void lhzx( Register d, Register s1, Register s2);
goetz@6458 1374 inline void lhz( Register d, int si16, Register s1);
goetz@6458 1375 inline void lhzu( Register d, int si16, Register s1);
goetz@6458 1376
kvn@7132 1377 // 2 bytes reversed
kvn@7132 1378 inline void lhbrx( Register d, Register s1, Register s2);
kvn@7132 1379
goetz@6458 1380 // 2 bytes
goetz@6458 1381 inline void lhax( Register d, Register s1, Register s2);
goetz@6458 1382 inline void lha( Register d, int si16, Register s1);
goetz@6458 1383 inline void lhau( Register d, int si16, Register s1);
goetz@6458 1384
goetz@6458 1385 // 1 byte
goetz@6458 1386 inline void lbzx( Register d, Register s1, Register s2);
goetz@6458 1387 inline void lbz( Register d, int si16, Register s1);
goetz@6458 1388 inline void lbzu( Register d, int si16, Register s1);
goetz@6458 1389
goetz@6458 1390 // 8 bytes
goetz@6458 1391 inline void ldx( Register d, Register s1, Register s2);
goetz@6458 1392 inline void ld( Register d, int si16, Register s1);
goetz@6458 1393 inline void ldu( Register d, int si16, Register s1);
goetz@6458 1394
goetz@6458 1395 // PPC 1, section 3.3.3 Fixed-Point Store Instructions
goetz@6458 1396 inline void stwx( Register d, Register s1, Register s2);
goetz@6458 1397 inline void stw( Register d, int si16, Register s1);
goetz@6458 1398 inline void stwu( Register d, int si16, Register s1);
goetz@6458 1399
goetz@6458 1400 inline void sthx( Register d, Register s1, Register s2);
goetz@6458 1401 inline void sth( Register d, int si16, Register s1);
goetz@6458 1402 inline void sthu( Register d, int si16, Register s1);
goetz@6458 1403
goetz@6458 1404 inline void stbx( Register d, Register s1, Register s2);
goetz@6458 1405 inline void stb( Register d, int si16, Register s1);
goetz@6458 1406 inline void stbu( Register d, int si16, Register s1);
goetz@6458 1407
goetz@6458 1408 inline void stdx( Register d, Register s1, Register s2);
goetz@6458 1409 inline void std( Register d, int si16, Register s1);
goetz@6458 1410 inline void stdu( Register d, int si16, Register s1);
goetz@6458 1411 inline void stdux(Register s, Register a, Register b);
goetz@6458 1412
goetz@6458 1413 // PPC 1, section 3.3.13 Move To/From System Register Instructions
goetz@6458 1414 inline void mtlr( Register s1);
goetz@6458 1415 inline void mflr( Register d);
goetz@6458 1416 inline void mtctr(Register s1);
goetz@6458 1417 inline void mfctr(Register d);
goetz@6458 1418 inline void mtcrf(int fxm, Register s);
goetz@6458 1419 inline void mfcr( Register d);
goetz@6458 1420 inline void mcrf( ConditionRegister crd, ConditionRegister cra);
goetz@6458 1421 inline void mtcr( Register s);
goetz@6458 1422
goetz@6458 1423 // PPC 1, section 2.4.1 Branch Instructions
goetz@6458 1424 inline void b( address a, relocInfo::relocType rt = relocInfo::none);
goetz@6458 1425 inline void b( Label& L);
goetz@6458 1426 inline void bl( address a, relocInfo::relocType rt = relocInfo::none);
goetz@6458 1427 inline void bl( Label& L);
goetz@6458 1428 inline void bc( int boint, int biint, address a, relocInfo::relocType rt = relocInfo::none);
goetz@6458 1429 inline void bc( int boint, int biint, Label& L);
goetz@6458 1430 inline void bcl(int boint, int biint, address a, relocInfo::relocType rt = relocInfo::none);
goetz@6458 1431 inline void bcl(int boint, int biint, Label& L);
goetz@6458 1432
goetz@6458 1433 inline void bclr( int boint, int biint, int bhint, relocInfo::relocType rt = relocInfo::none);
goetz@6458 1434 inline void bclrl( int boint, int biint, int bhint, relocInfo::relocType rt = relocInfo::none);
goetz@6458 1435 inline void bcctr( int boint, int biint, int bhint = bhintbhBCCTRisNotReturnButSame,
goetz@6458 1436 relocInfo::relocType rt = relocInfo::none);
goetz@6458 1437 inline void bcctrl(int boint, int biint, int bhint = bhintbhBCLRisReturn,
goetz@6458 1438 relocInfo::relocType rt = relocInfo::none);
goetz@6458 1439
goetz@6458 1440 // helper function for b, bcxx
goetz@6458 1441 inline bool is_within_range_of_b(address a, address pc);
goetz@6458 1442 inline bool is_within_range_of_bcxx(address a, address pc);
goetz@6458 1443
goetz@6458 1444 // get the destination of a bxx branch (b, bl, ba, bla)
goetz@6458 1445 static inline address bxx_destination(address baddr);
goetz@6458 1446 static inline address bxx_destination(int instr, address pc);
goetz@6458 1447 static inline intptr_t bxx_destination_offset(int instr, intptr_t bxx_pos);
goetz@6458 1448
goetz@6458 1449 // extended mnemonics for branch instructions
goetz@6458 1450 inline void blt(ConditionRegister crx, Label& L);
goetz@6458 1451 inline void bgt(ConditionRegister crx, Label& L);
goetz@6458 1452 inline void beq(ConditionRegister crx, Label& L);
goetz@6458 1453 inline void bso(ConditionRegister crx, Label& L);
goetz@6458 1454 inline void bge(ConditionRegister crx, Label& L);
goetz@6458 1455 inline void ble(ConditionRegister crx, Label& L);
goetz@6458 1456 inline void bne(ConditionRegister crx, Label& L);
goetz@6458 1457 inline void bns(ConditionRegister crx, Label& L);
goetz@6458 1458
goetz@6458 1459 // Branch instructions with static prediction hints.
goetz@6458 1460 inline void blt_predict_taken( ConditionRegister crx, Label& L);
goetz@6458 1461 inline void bgt_predict_taken( ConditionRegister crx, Label& L);
goetz@6458 1462 inline void beq_predict_taken( ConditionRegister crx, Label& L);
goetz@6458 1463 inline void bso_predict_taken( ConditionRegister crx, Label& L);
goetz@6458 1464 inline void bge_predict_taken( ConditionRegister crx, Label& L);
goetz@6458 1465 inline void ble_predict_taken( ConditionRegister crx, Label& L);
goetz@6458 1466 inline void bne_predict_taken( ConditionRegister crx, Label& L);
goetz@6458 1467 inline void bns_predict_taken( ConditionRegister crx, Label& L);
goetz@6458 1468 inline void blt_predict_not_taken(ConditionRegister crx, Label& L);
goetz@6458 1469 inline void bgt_predict_not_taken(ConditionRegister crx, Label& L);
goetz@6458 1470 inline void beq_predict_not_taken(ConditionRegister crx, Label& L);
goetz@6458 1471 inline void bso_predict_not_taken(ConditionRegister crx, Label& L);
goetz@6458 1472 inline void bge_predict_not_taken(ConditionRegister crx, Label& L);
goetz@6458 1473 inline void ble_predict_not_taken(ConditionRegister crx, Label& L);
goetz@6458 1474 inline void bne_predict_not_taken(ConditionRegister crx, Label& L);
goetz@6458 1475 inline void bns_predict_not_taken(ConditionRegister crx, Label& L);
goetz@6458 1476
goetz@6458 1477 // for use in conjunction with testbitdi:
goetz@6458 1478 inline void btrue( ConditionRegister crx, Label& L);
goetz@6458 1479 inline void bfalse(ConditionRegister crx, Label& L);
goetz@6458 1480
goetz@6458 1481 inline void bltl(ConditionRegister crx, Label& L);
goetz@6458 1482 inline void bgtl(ConditionRegister crx, Label& L);
goetz@6458 1483 inline void beql(ConditionRegister crx, Label& L);
goetz@6458 1484 inline void bsol(ConditionRegister crx, Label& L);
goetz@6458 1485 inline void bgel(ConditionRegister crx, Label& L);
goetz@6458 1486 inline void blel(ConditionRegister crx, Label& L);
goetz@6458 1487 inline void bnel(ConditionRegister crx, Label& L);
goetz@6458 1488 inline void bnsl(ConditionRegister crx, Label& L);
goetz@6458 1489
goetz@6458 1490 // extended mnemonics for Branch Instructions via LR
goetz@6458 1491 // We use `blr' for returns.
goetz@6458 1492 inline void blr(relocInfo::relocType rt = relocInfo::none);
goetz@6458 1493
goetz@6458 1494 // extended mnemonics for Branch Instructions with CTR
goetz@6458 1495 // bdnz means `decrement CTR and jump to L if CTR is not zero'
goetz@6458 1496 inline void bdnz(Label& L);
goetz@6458 1497 // Decrement and branch if result is zero.
goetz@6458 1498 inline void bdz(Label& L);
goetz@6458 1499 // we use `bctr[l]' for jumps/calls in function descriptor glue
goetz@6458 1500 // code, e.g. calls to runtime functions
goetz@6458 1501 inline void bctr( relocInfo::relocType rt = relocInfo::none);
goetz@6458 1502 inline void bctrl(relocInfo::relocType rt = relocInfo::none);
goetz@6458 1503 // conditional jumps/branches via CTR
goetz@6458 1504 inline void beqctr( ConditionRegister crx, relocInfo::relocType rt = relocInfo::none);
goetz@6458 1505 inline void beqctrl(ConditionRegister crx, relocInfo::relocType rt = relocInfo::none);
goetz@6458 1506 inline void bnectr( ConditionRegister crx, relocInfo::relocType rt = relocInfo::none);
goetz@6458 1507 inline void bnectrl(ConditionRegister crx, relocInfo::relocType rt = relocInfo::none);
goetz@6458 1508
goetz@6458 1509 // condition register logic instructions
goetz@6458 1510 inline void crand( int d, int s1, int s2);
goetz@6458 1511 inline void crnand(int d, int s1, int s2);
goetz@6458 1512 inline void cror( int d, int s1, int s2);
goetz@6458 1513 inline void crxor( int d, int s1, int s2);
goetz@6458 1514 inline void crnor( int d, int s1, int s2);
goetz@6458 1515 inline void creqv( int d, int s1, int s2);
goetz@6458 1516 inline void crandc(int d, int s1, int s2);
goetz@6458 1517 inline void crorc( int d, int s1, int s2);
goetz@6458 1518
goetz@6458 1519 // icache and dcache related instructions
goetz@6458 1520 inline void icbi( Register s1, Register s2);
goetz@6458 1521 //inline void dcba(Register s1, Register s2); // Instruction for embedded processor only.
goetz@6458 1522 inline void dcbz( Register s1, Register s2);
goetz@6458 1523 inline void dcbst( Register s1, Register s2);
goetz@6458 1524 inline void dcbf( Register s1, Register s2);
goetz@6458 1525
goetz@6458 1526 enum ct_cache_specification {
goetz@6458 1527 ct_primary_cache = 0,
goetz@6458 1528 ct_secondary_cache = 2
goetz@6458 1529 };
goetz@6458 1530 // dcache read hint
goetz@6458 1531 inline void dcbt( Register s1, Register s2);
goetz@6458 1532 inline void dcbtct( Register s1, Register s2, int ct);
goetz@6458 1533 inline void dcbtds( Register s1, Register s2, int ds);
goetz@6458 1534 // dcache write hint
goetz@6458 1535 inline void dcbtst( Register s1, Register s2);
goetz@6458 1536 inline void dcbtstct(Register s1, Register s2, int ct);
goetz@6458 1537
goetz@6458 1538 // machine barrier instructions:
goetz@6458 1539 //
goetz@6458 1540 // - sync two-way memory barrier, aka fence
goetz@6458 1541 // - lwsync orders Store|Store,
goetz@6458 1542 // Load|Store,
goetz@6458 1543 // Load|Load,
goetz@6458 1544 // but not Store|Load
goetz@6458 1545 // - eieio orders memory accesses for device memory (only)
goetz@6458 1546 // - isync invalidates speculatively executed instructions
goetz@6458 1547 // From the Power ISA 2.06 documentation:
goetz@6458 1548 // "[...] an isync instruction prevents the execution of
goetz@6458 1549 // instructions following the isync until instructions
goetz@6458 1550 // preceding the isync have completed, [...]"
goetz@6458 1551 // From IBM's AIX assembler reference:
goetz@6458 1552 // "The isync [...] instructions causes the processor to
goetz@6458 1553 // refetch any instructions that might have been fetched
goetz@6458 1554 // prior to the isync instruction. The instruction isync
goetz@6458 1555 // causes the processor to wait for all previous instructions
goetz@6458 1556 // to complete. Then any instructions already fetched are
goetz@6458 1557 // discarded and instruction processing continues in the
goetz@6458 1558 // environment established by the previous instructions."
goetz@6458 1559 //
goetz@6458 1560 // semantic barrier instructions:
goetz@6458 1561 // (as defined in orderAccess.hpp)
goetz@6458 1562 //
goetz@6458 1563 // - release orders Store|Store, (maps to lwsync)
goetz@6458 1564 // Load|Store
goetz@6458 1565 // - acquire orders Load|Store, (maps to lwsync)
goetz@6458 1566 // Load|Load
goetz@6458 1567 // - fence orders Store|Store, (maps to sync)
goetz@6458 1568 // Load|Store,
goetz@6458 1569 // Load|Load,
goetz@6458 1570 // Store|Load
goetz@6458 1571 //
goetz@6458 1572 private:
goetz@6458 1573 inline void sync(int l);
goetz@6458 1574 public:
goetz@6458 1575 inline void sync();
goetz@6458 1576 inline void lwsync();
goetz@6458 1577 inline void ptesync();
goetz@6458 1578 inline void eieio();
goetz@6458 1579 inline void isync();
goetz@6495 1580 inline void elemental_membar(int e); // Elemental Memory Barriers (>=Power 8)
goetz@6458 1581
goetz@6458 1582 // atomics
goetz@6458 1583 inline void lwarx_unchecked(Register d, Register a, Register b, int eh1 = 0);
goetz@6458 1584 inline void ldarx_unchecked(Register d, Register a, Register b, int eh1 = 0);
goetz@6458 1585 inline bool lxarx_hint_exclusive_access();
goetz@6458 1586 inline void lwarx( Register d, Register a, Register b, bool hint_exclusive_access = false);
goetz@6458 1587 inline void ldarx( Register d, Register a, Register b, bool hint_exclusive_access = false);
goetz@6458 1588 inline void stwcx_( Register s, Register a, Register b);
goetz@6458 1589 inline void stdcx_( Register s, Register a, Register b);
goetz@6458 1590
goetz@6458 1591 // Instructions for adjusting thread priority for simultaneous
goetz@6458 1592 // multithreading (SMT) on Power5.
goetz@6458 1593 private:
goetz@6458 1594 inline void smt_prio_very_low();
goetz@6458 1595 inline void smt_prio_medium_high();
goetz@6458 1596 inline void smt_prio_high();
goetz@6458 1597
goetz@6458 1598 public:
goetz@6458 1599 inline void smt_prio_low();
goetz@6458 1600 inline void smt_prio_medium_low();
goetz@6458 1601 inline void smt_prio_medium();
goetz@6458 1602
goetz@6458 1603 // trap instructions
goetz@6458 1604 inline void twi_0(Register a); // for load with acquire semantics use load+twi_0+isync (trap can't occur)
goetz@6458 1605 // NOT FOR DIRECT USE!!
goetz@6458 1606 protected:
goetz@6458 1607 inline void tdi_unchecked(int tobits, Register a, int si16);
goetz@6458 1608 inline void twi_unchecked(int tobits, Register a, int si16);
goetz@6458 1609 inline void tdi( int tobits, Register a, int si16); // asserts UseSIGTRAP
goetz@6458 1610 inline void twi( int tobits, Register a, int si16); // asserts UseSIGTRAP
goetz@6458 1611 inline void td( int tobits, Register a, Register b); // asserts UseSIGTRAP
goetz@6458 1612 inline void tw( int tobits, Register a, Register b); // asserts UseSIGTRAP
goetz@6458 1613
goetz@6458 1614 static bool is_tdi(int x, int tobits, int ra, int si16) {
goetz@6458 1615 return (TDI_OPCODE == (x & TDI_OPCODE_MASK))
goetz@6458 1616 && (tobits == inv_to_field(x))
goetz@6458 1617 && (ra == -1/*any reg*/ || ra == inv_ra_field(x))
goetz@6458 1618 && (si16 == inv_si_field(x));
goetz@6458 1619 }
goetz@6458 1620
goetz@6458 1621 static bool is_twi(int x, int tobits, int ra, int si16) {
goetz@6458 1622 return (TWI_OPCODE == (x & TWI_OPCODE_MASK))
goetz@6458 1623 && (tobits == inv_to_field(x))
goetz@6458 1624 && (ra == -1/*any reg*/ || ra == inv_ra_field(x))
goetz@6458 1625 && (si16 == inv_si_field(x));
goetz@6458 1626 }
goetz@6458 1627
goetz@6458 1628 static bool is_twi(int x, int tobits, int ra) {
goetz@6458 1629 return (TWI_OPCODE == (x & TWI_OPCODE_MASK))
goetz@6458 1630 && (tobits == inv_to_field(x))
goetz@6458 1631 && (ra == -1/*any reg*/ || ra == inv_ra_field(x));
goetz@6458 1632 }
goetz@6458 1633
goetz@6458 1634 static bool is_td(int x, int tobits, int ra, int rb) {
goetz@6458 1635 return (TD_OPCODE == (x & TD_OPCODE_MASK))
goetz@6458 1636 && (tobits == inv_to_field(x))
goetz@6458 1637 && (ra == -1/*any reg*/ || ra == inv_ra_field(x))
goetz@6458 1638 && (rb == -1/*any reg*/ || rb == inv_rb_field(x));
goetz@6458 1639 }
goetz@6458 1640
goetz@6458 1641 static bool is_tw(int x, int tobits, int ra, int rb) {
goetz@6458 1642 return (TW_OPCODE == (x & TW_OPCODE_MASK))
goetz@6458 1643 && (tobits == inv_to_field(x))
goetz@6458 1644 && (ra == -1/*any reg*/ || ra == inv_ra_field(x))
goetz@6458 1645 && (rb == -1/*any reg*/ || rb == inv_rb_field(x));
goetz@6458 1646 }
goetz@6458 1647
goetz@6458 1648 public:
goetz@6458 1649 // PPC floating point instructions
goetz@6458 1650 // PPC 1, section 4.6.2 Floating-Point Load Instructions
goetz@6458 1651 inline void lfs( FloatRegister d, int si16, Register a);
goetz@6458 1652 inline void lfsu( FloatRegister d, int si16, Register a);
goetz@6458 1653 inline void lfsx( FloatRegister d, Register a, Register b);
goetz@6458 1654 inline void lfd( FloatRegister d, int si16, Register a);
goetz@6458 1655 inline void lfdu( FloatRegister d, int si16, Register a);
goetz@6458 1656 inline void lfdx( FloatRegister d, Register a, Register b);
goetz@6458 1657
goetz@6458 1658 // PPC 1, section 4.6.3 Floating-Point Store Instructions
goetz@6458 1659 inline void stfs( FloatRegister s, int si16, Register a);
goetz@6458 1660 inline void stfsu( FloatRegister s, int si16, Register a);
goetz@6458 1661 inline void stfsx( FloatRegister s, Register a, Register b);
goetz@6458 1662 inline void stfd( FloatRegister s, int si16, Register a);
goetz@6458 1663 inline void stfdu( FloatRegister s, int si16, Register a);
goetz@6458 1664 inline void stfdx( FloatRegister s, Register a, Register b);
goetz@6458 1665
goetz@6458 1666 // PPC 1, section 4.6.4 Floating-Point Move Instructions
goetz@6458 1667 inline void fmr( FloatRegister d, FloatRegister b);
goetz@6458 1668 inline void fmr_( FloatRegister d, FloatRegister b);
goetz@6458 1669
goetz@6458 1670 // inline void mffgpr( FloatRegister d, Register b);
goetz@6458 1671 // inline void mftgpr( Register d, FloatRegister b);
goetz@6458 1672 inline void cmpb( Register a, Register s, Register b);
goetz@6458 1673 inline void popcntb(Register a, Register s);
goetz@6458 1674 inline void popcntw(Register a, Register s);
goetz@6458 1675 inline void popcntd(Register a, Register s);
goetz@6458 1676
goetz@6458 1677 inline void fneg( FloatRegister d, FloatRegister b);
goetz@6458 1678 inline void fneg_( FloatRegister d, FloatRegister b);
goetz@6458 1679 inline void fabs( FloatRegister d, FloatRegister b);
goetz@6458 1680 inline void fabs_( FloatRegister d, FloatRegister b);
goetz@6458 1681 inline void fnabs( FloatRegister d, FloatRegister b);
goetz@6458 1682 inline void fnabs_(FloatRegister d, FloatRegister b);
goetz@6458 1683
goetz@6458 1684 // PPC 1, section 4.6.5.1 Floating-Point Elementary Arithmetic Instructions
goetz@6458 1685 inline void fadd( FloatRegister d, FloatRegister a, FloatRegister b);
goetz@6458 1686 inline void fadd_( FloatRegister d, FloatRegister a, FloatRegister b);
goetz@6458 1687 inline void fadds( FloatRegister d, FloatRegister a, FloatRegister b);
goetz@6458 1688 inline void fadds_(FloatRegister d, FloatRegister a, FloatRegister b);
goetz@6458 1689 inline void fsub( FloatRegister d, FloatRegister a, FloatRegister b);
goetz@6458 1690 inline void fsub_( FloatRegister d, FloatRegister a, FloatRegister b);
goetz@6458 1691 inline void fsubs( FloatRegister d, FloatRegister a, FloatRegister b);
goetz@6458 1692 inline void fsubs_(FloatRegister d, FloatRegister a, FloatRegister b);
goetz@6458 1693 inline void fmul( FloatRegister d, FloatRegister a, FloatRegister c);
goetz@6458 1694 inline void fmul_( FloatRegister d, FloatRegister a, FloatRegister c);
goetz@6458 1695 inline void fmuls( FloatRegister d, FloatRegister a, FloatRegister c);
goetz@6458 1696 inline void fmuls_(FloatRegister d, FloatRegister a, FloatRegister c);
goetz@6458 1697 inline void fdiv( FloatRegister d, FloatRegister a, FloatRegister b);
goetz@6458 1698 inline void fdiv_( FloatRegister d, FloatRegister a, FloatRegister b);
goetz@6458 1699 inline void fdivs( FloatRegister d, FloatRegister a, FloatRegister b);
goetz@6458 1700 inline void fdivs_(FloatRegister d, FloatRegister a, FloatRegister b);
goetz@6458 1701
goetz@6458 1702 // PPC 1, section 4.6.6 Floating-Point Rounding and Conversion Instructions
goetz@6458 1703 inline void frsp( FloatRegister d, FloatRegister b);
goetz@6458 1704 inline void fctid( FloatRegister d, FloatRegister b);
goetz@6458 1705 inline void fctidz(FloatRegister d, FloatRegister b);
goetz@6458 1706 inline void fctiw( FloatRegister d, FloatRegister b);
goetz@6458 1707 inline void fctiwz(FloatRegister d, FloatRegister b);
goetz@6458 1708 inline void fcfid( FloatRegister d, FloatRegister b);
goetz@6458 1709 inline void fcfids(FloatRegister d, FloatRegister b);
goetz@6458 1710
goetz@6458 1711 // PPC 1, section 4.6.7 Floating-Point Compare Instructions
goetz@6458 1712 inline void fcmpu( ConditionRegister crx, FloatRegister a, FloatRegister b);
goetz@6458 1713
goetz@6458 1714 inline void fsqrt( FloatRegister d, FloatRegister b);
goetz@6458 1715 inline void fsqrts(FloatRegister d, FloatRegister b);
goetz@6458 1716
goetz@6458 1717 // Vector instructions for >= Power6.
goetz@6458 1718 inline void lvebx( VectorRegister d, Register s1, Register s2);
goetz@6458 1719 inline void lvehx( VectorRegister d, Register s1, Register s2);
goetz@6458 1720 inline void lvewx( VectorRegister d, Register s1, Register s2);
goetz@6458 1721 inline void lvx( VectorRegister d, Register s1, Register s2);
goetz@6458 1722 inline void lvxl( VectorRegister d, Register s1, Register s2);
goetz@6458 1723 inline void stvebx( VectorRegister d, Register s1, Register s2);
goetz@6458 1724 inline void stvehx( VectorRegister d, Register s1, Register s2);
goetz@6458 1725 inline void stvewx( VectorRegister d, Register s1, Register s2);
goetz@6458 1726 inline void stvx( VectorRegister d, Register s1, Register s2);
goetz@6458 1727 inline void stvxl( VectorRegister d, Register s1, Register s2);
goetz@6458 1728 inline void lvsl( VectorRegister d, Register s1, Register s2);
goetz@6458 1729 inline void lvsr( VectorRegister d, Register s1, Register s2);
goetz@6458 1730 inline void vpkpx( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1731 inline void vpkshss( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1732 inline void vpkswss( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1733 inline void vpkshus( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1734 inline void vpkswus( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1735 inline void vpkuhum( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1736 inline void vpkuwum( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1737 inline void vpkuhus( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1738 inline void vpkuwus( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1739 inline void vupkhpx( VectorRegister d, VectorRegister b);
goetz@6458 1740 inline void vupkhsb( VectorRegister d, VectorRegister b);
goetz@6458 1741 inline void vupkhsh( VectorRegister d, VectorRegister b);
goetz@6458 1742 inline void vupklpx( VectorRegister d, VectorRegister b);
goetz@6458 1743 inline void vupklsb( VectorRegister d, VectorRegister b);
goetz@6458 1744 inline void vupklsh( VectorRegister d, VectorRegister b);
goetz@6458 1745 inline void vmrghb( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1746 inline void vmrghw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1747 inline void vmrghh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1748 inline void vmrglb( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1749 inline void vmrglw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1750 inline void vmrglh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1751 inline void vsplt( VectorRegister d, int ui4, VectorRegister b);
goetz@6458 1752 inline void vsplth( VectorRegister d, int ui3, VectorRegister b);
goetz@6458 1753 inline void vspltw( VectorRegister d, int ui2, VectorRegister b);
goetz@6458 1754 inline void vspltisb( VectorRegister d, int si5);
goetz@6458 1755 inline void vspltish( VectorRegister d, int si5);
goetz@6458 1756 inline void vspltisw( VectorRegister d, int si5);
goetz@6458 1757 inline void vperm( VectorRegister d, VectorRegister a, VectorRegister b, VectorRegister c);
goetz@6458 1758 inline void vsel( VectorRegister d, VectorRegister a, VectorRegister b, VectorRegister c);
goetz@6458 1759 inline void vsl( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1760 inline void vsldoi( VectorRegister d, VectorRegister a, VectorRegister b, int si4);
goetz@6458 1761 inline void vslo( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1762 inline void vsr( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1763 inline void vsro( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1764 inline void vaddcuw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1765 inline void vaddshs( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1766 inline void vaddsbs( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1767 inline void vaddsws( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1768 inline void vaddubm( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1769 inline void vadduwm( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1770 inline void vadduhm( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1771 inline void vaddubs( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1772 inline void vadduws( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1773 inline void vadduhs( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1774 inline void vsubcuw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1775 inline void vsubshs( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1776 inline void vsubsbs( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1777 inline void vsubsws( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1778 inline void vsububm( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1779 inline void vsubuwm( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1780 inline void vsubuhm( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1781 inline void vsububs( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1782 inline void vsubuws( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1783 inline void vsubuhs( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1784 inline void vmulesb( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1785 inline void vmuleub( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1786 inline void vmulesh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1787 inline void vmuleuh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1788 inline void vmulosb( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1789 inline void vmuloub( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1790 inline void vmulosh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1791 inline void vmulouh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1792 inline void vmhaddshs(VectorRegister d, VectorRegister a, VectorRegister b, VectorRegister c);
goetz@6458 1793 inline void vmhraddshs(VectorRegister d,VectorRegister a, VectorRegister b, VectorRegister c);
goetz@6458 1794 inline void vmladduhm(VectorRegister d, VectorRegister a, VectorRegister b, VectorRegister c);
goetz@6458 1795 inline void vmsubuhm( VectorRegister d, VectorRegister a, VectorRegister b, VectorRegister c);
goetz@6458 1796 inline void vmsummbm( VectorRegister d, VectorRegister a, VectorRegister b, VectorRegister c);
goetz@6458 1797 inline void vmsumshm( VectorRegister d, VectorRegister a, VectorRegister b, VectorRegister c);
goetz@6458 1798 inline void vmsumshs( VectorRegister d, VectorRegister a, VectorRegister b, VectorRegister c);
goetz@6458 1799 inline void vmsumuhm( VectorRegister d, VectorRegister a, VectorRegister b, VectorRegister c);
goetz@6458 1800 inline void vmsumuhs( VectorRegister d, VectorRegister a, VectorRegister b, VectorRegister c);
goetz@6458 1801 inline void vsumsws( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1802 inline void vsum2sws( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1803 inline void vsum4sbs( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1804 inline void vsum4ubs( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1805 inline void vsum4shs( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1806 inline void vavgsb( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1807 inline void vavgsw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1808 inline void vavgsh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1809 inline void vavgub( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1810 inline void vavguw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1811 inline void vavguh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1812 inline void vmaxsb( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1813 inline void vmaxsw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1814 inline void vmaxsh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1815 inline void vmaxub( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1816 inline void vmaxuw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1817 inline void vmaxuh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1818 inline void vminsb( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1819 inline void vminsw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1820 inline void vminsh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1821 inline void vminub( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1822 inline void vminuw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1823 inline void vminuh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1824 inline void vcmpequb( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1825 inline void vcmpequh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1826 inline void vcmpequw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1827 inline void vcmpgtsh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1828 inline void vcmpgtsb( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1829 inline void vcmpgtsw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1830 inline void vcmpgtub( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1831 inline void vcmpgtuh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1832 inline void vcmpgtuw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1833 inline void vcmpequb_(VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1834 inline void vcmpequh_(VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1835 inline void vcmpequw_(VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1836 inline void vcmpgtsh_(VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1837 inline void vcmpgtsb_(VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1838 inline void vcmpgtsw_(VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1839 inline void vcmpgtub_(VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1840 inline void vcmpgtuh_(VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1841 inline void vcmpgtuw_(VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1842 inline void vand( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1843 inline void vandc( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1844 inline void vnor( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1845 inline void vor( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1846 inline void vxor( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1847 inline void vrlb( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1848 inline void vrlw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1849 inline void vrlh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1850 inline void vslb( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1851 inline void vskw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1852 inline void vslh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1853 inline void vsrb( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1854 inline void vsrw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1855 inline void vsrh( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1856 inline void vsrab( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1857 inline void vsraw( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1858 inline void vsrah( VectorRegister d, VectorRegister a, VectorRegister b);
goetz@6458 1859 // Vector Floating-Point not implemented yet
goetz@6458 1860 inline void mtvscr( VectorRegister b);
goetz@6458 1861 inline void mfvscr( VectorRegister d);
goetz@6458 1862
goetz@6458 1863 // The following encoders use r0 as second operand. These instructions
goetz@6458 1864 // read r0 as '0'.
goetz@6458 1865 inline void lwzx( Register d, Register s2);
goetz@6458 1866 inline void lwz( Register d, int si16);
goetz@6458 1867 inline void lwax( Register d, Register s2);
goetz@6458 1868 inline void lwa( Register d, int si16);
kvn@7132 1869 inline void lwbrx(Register d, Register s2);
goetz@6458 1870 inline void lhzx( Register d, Register s2);
goetz@6458 1871 inline void lhz( Register d, int si16);
goetz@6458 1872 inline void lhax( Register d, Register s2);
goetz@6458 1873 inline void lha( Register d, int si16);
kvn@7132 1874 inline void lhbrx(Register d, Register s2);
goetz@6458 1875 inline void lbzx( Register d, Register s2);
goetz@6458 1876 inline void lbz( Register d, int si16);
goetz@6458 1877 inline void ldx( Register d, Register s2);
goetz@6458 1878 inline void ld( Register d, int si16);
goetz@6458 1879 inline void stwx( Register d, Register s2);
goetz@6458 1880 inline void stw( Register d, int si16);
goetz@6458 1881 inline void sthx( Register d, Register s2);
goetz@6458 1882 inline void sth( Register d, int si16);
goetz@6458 1883 inline void stbx( Register d, Register s2);
goetz@6458 1884 inline void stb( Register d, int si16);
goetz@6458 1885 inline void stdx( Register d, Register s2);
goetz@6458 1886 inline void std( Register d, int si16);
goetz@6458 1887
goetz@6458 1888 // PPC 2, section 3.2.1 Instruction Cache Instructions
goetz@6458 1889 inline void icbi( Register s2);
goetz@6458 1890 // PPC 2, section 3.2.2 Data Cache Instructions
goetz@6458 1891 //inlinevoid dcba( Register s2); // Instruction for embedded processor only.
goetz@6458 1892 inline void dcbz( Register s2);
goetz@6458 1893 inline void dcbst( Register s2);
goetz@6458 1894 inline void dcbf( Register s2);
goetz@6458 1895 // dcache read hint
goetz@6458 1896 inline void dcbt( Register s2);
goetz@6458 1897 inline void dcbtct( Register s2, int ct);
goetz@6458 1898 inline void dcbtds( Register s2, int ds);
goetz@6458 1899 // dcache write hint
goetz@6458 1900 inline void dcbtst( Register s2);
goetz@6458 1901 inline void dcbtstct(Register s2, int ct);
goetz@6458 1902
goetz@6458 1903 // Atomics: use ra0mem to disallow R0 as base.
goetz@6458 1904 inline void lwarx_unchecked(Register d, Register b, int eh1);
goetz@6458 1905 inline void ldarx_unchecked(Register d, Register b, int eh1);
goetz@6458 1906 inline void lwarx( Register d, Register b, bool hint_exclusive_access);
goetz@6458 1907 inline void ldarx( Register d, Register b, bool hint_exclusive_access);
goetz@6458 1908 inline void stwcx_(Register s, Register b);
goetz@6458 1909 inline void stdcx_(Register s, Register b);
goetz@6458 1910 inline void lfs( FloatRegister d, int si16);
goetz@6458 1911 inline void lfsx( FloatRegister d, Register b);
goetz@6458 1912 inline void lfd( FloatRegister d, int si16);
goetz@6458 1913 inline void lfdx( FloatRegister d, Register b);
goetz@6458 1914 inline void stfs( FloatRegister s, int si16);
goetz@6458 1915 inline void stfsx( FloatRegister s, Register b);
goetz@6458 1916 inline void stfd( FloatRegister s, int si16);
goetz@6458 1917 inline void stfdx( FloatRegister s, Register b);
goetz@6458 1918 inline void lvebx( VectorRegister d, Register s2);
goetz@6458 1919 inline void lvehx( VectorRegister d, Register s2);
goetz@6458 1920 inline void lvewx( VectorRegister d, Register s2);
goetz@6458 1921 inline void lvx( VectorRegister d, Register s2);
goetz@6458 1922 inline void lvxl( VectorRegister d, Register s2);
goetz@6458 1923 inline void stvebx(VectorRegister d, Register s2);
goetz@6458 1924 inline void stvehx(VectorRegister d, Register s2);
goetz@6458 1925 inline void stvewx(VectorRegister d, Register s2);
goetz@6458 1926 inline void stvx( VectorRegister d, Register s2);
goetz@6458 1927 inline void stvxl( VectorRegister d, Register s2);
goetz@6458 1928 inline void lvsl( VectorRegister d, Register s2);
goetz@6458 1929 inline void lvsr( VectorRegister d, Register s2);
goetz@6458 1930
goetz@6458 1931 // RegisterOrConstant versions.
goetz@6458 1932 // These emitters choose between the versions using two registers and
goetz@6458 1933 // those with register and immediate, depending on the content of roc.
goetz@6458 1934 // If the constant is not encodable as immediate, instructions to
goetz@6458 1935 // load the constant are emitted beforehand. Store instructions need a
goetz@6458 1936 // tmp reg if the constant is not encodable as immediate.
goetz@6458 1937 // Size unpredictable.
goetz@6458 1938 void ld( Register d, RegisterOrConstant roc, Register s1 = noreg);
goetz@6458 1939 void lwa( Register d, RegisterOrConstant roc, Register s1 = noreg);
goetz@6458 1940 void lwz( Register d, RegisterOrConstant roc, Register s1 = noreg);
goetz@6458 1941 void lha( Register d, RegisterOrConstant roc, Register s1 = noreg);
goetz@6458 1942 void lhz( Register d, RegisterOrConstant roc, Register s1 = noreg);
goetz@6458 1943 void lbz( Register d, RegisterOrConstant roc, Register s1 = noreg);
goetz@6458 1944 void std( Register d, RegisterOrConstant roc, Register s1 = noreg, Register tmp = noreg);
goetz@6458 1945 void stw( Register d, RegisterOrConstant roc, Register s1 = noreg, Register tmp = noreg);
goetz@6458 1946 void sth( Register d, RegisterOrConstant roc, Register s1 = noreg, Register tmp = noreg);
goetz@6458 1947 void stb( Register d, RegisterOrConstant roc, Register s1 = noreg, Register tmp = noreg);
goetz@6458 1948 void add( Register d, RegisterOrConstant roc, Register s1);
goetz@6458 1949 void subf(Register d, RegisterOrConstant roc, Register s1);
goetz@6458 1950 void cmpd(ConditionRegister d, RegisterOrConstant roc, Register s1);
goetz@6458 1951
goetz@6458 1952
goetz@6458 1953 // Emit several instructions to load a 64 bit constant. This issues a fixed
goetz@6458 1954 // instruction pattern so that the constant can be patched later on.
goetz@6458 1955 enum {
goetz@6458 1956 load_const_size = 5 * BytesPerInstWord
goetz@6458 1957 };
goetz@6458 1958 void load_const(Register d, long a, Register tmp = noreg);
goetz@6458 1959 inline void load_const(Register d, void* a, Register tmp = noreg);
goetz@6458 1960 inline void load_const(Register d, Label& L, Register tmp = noreg);
goetz@6458 1961 inline void load_const(Register d, AddressLiteral& a, Register tmp = noreg);
goetz@6458 1962
goetz@6458 1963 // Load a 64 bit constant, optimized, not identifyable.
goetz@6495 1964 // Tmp can be used to increase ILP. Set return_simm16_rest = true to get a
goetz@6458 1965 // 16 bit immediate offset. This is useful if the offset can be encoded in
goetz@6458 1966 // a succeeding instruction.
goetz@6458 1967 int load_const_optimized(Register d, long a, Register tmp = noreg, bool return_simm16_rest = false);
goetz@6458 1968 inline int load_const_optimized(Register d, void* a, Register tmp = noreg, bool return_simm16_rest = false) {
goetz@6458 1969 return load_const_optimized(d, (long)(unsigned long)a, tmp, return_simm16_rest);
goetz@6458 1970 }
goetz@6458 1971
goetz@6458 1972 // Creation
goetz@6458 1973 Assembler(CodeBuffer* code) : AbstractAssembler(code) {
goetz@6458 1974 #ifdef CHECK_DELAY
goetz@6458 1975 delay_state = no_delay;
goetz@6458 1976 #endif
goetz@6458 1977 }
goetz@6458 1978
goetz@6458 1979 // Testing
goetz@6458 1980 #ifndef PRODUCT
goetz@6458 1981 void test_asm();
goetz@6458 1982 #endif
goetz@6458 1983 };
goetz@6458 1984
goetz@6458 1985
goetz@6458 1986 #endif // CPU_PPC_VM_ASSEMBLER_PPC_HPP

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