1 /*
2 * Copyright (c) 2016, Oracle and/or its affiliates. All rights reserved.
3 * Copyright (c) 2016 SAP SE. All rights reserved.
4 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
5 *
6 * This code is free software; you can redistribute it and/or modify it
7 * under the terms of the GNU General Public License version 2 only, as
8 * published by the Free Software Foundation.
9 *
10 * This code is distributed in the hope that it will be useful, but WITHOUT
11 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
12 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
13 * version 2 for more details (a copy is included in the LICENSE file that
14 * accompanied this code).
15 *
16 * You should have received a copy of the GNU General Public License version
17 * 2 along with this work; if not, write to the Free Software Foundation,
18 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
19 *
20 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
21 * or visit www.oracle.com if you need additional information or have any
22 * questions.
23 *
24 */
25
26 #ifndef CPU_S390_VM_REGISTER_S390_HPP
27 #define CPU_S390_VM_REGISTER_S390_HPP
28
29 #include "asm/register.hpp"
30 #include "vm_version_s390.hpp"
31
32 class Address;
33 class VMRegImpl;
34
35 typedef VMRegImpl* VMReg;
36
37 // Use Register as shortcut.
38 class RegisterImpl;
39 typedef RegisterImpl* Register;
40
41 // The implementation of integer registers for z/Architecture.
42
43 // z/Architecture registers, see "LINUX for zSeries ELF ABI Supplement", IBM March 2001
44 //
45 // r0-r1 General purpose (volatile)
46 // r2 Parameter and return value (volatile)
47 // r3 TOC pointer (volatile)
48 // r3-r5 Parameters (volatile)
49 // r6 Parameter (nonvolatile)
50 // r7-r11 Locals (nonvolatile)
51 // r12 Local, often used as GOT pointer (nonvolatile)
52 // r13 Local, often used as toc (nonvolatile)
53 // r14 return address (volatile)
54 // r15 stack pointer (nonvolatile)
55 //
56 // f0,f2,f4,f6 Parameters (volatile)
57 // f1,f3,f5,f7 General purpose (volatile)
58 // f8-f15 General purpose (nonvolatile)
59
60 inline Register as_Register(int encoding) {
61 return (Register)(long)encoding;
62 }
63
64 class RegisterImpl: public AbstractRegisterImpl {
65 public:
66 enum {
67 number_of_registers = 16,
68 number_of_arg_registers = 5
69 };
70
71 // general construction
72 inline friend Register as_Register(int encoding);
73
74 inline VMReg as_VMReg();
75
76 // accessors
77 int encoding() const { assert(is_valid(), "invalid register"); return value(); }
78 const char* name() const;
79
93
94 CONSTANT_REGISTER_DECLARATION(Register, noreg, (-1));
95
96 CONSTANT_REGISTER_DECLARATION(Register, Z_R0, (0));
97 CONSTANT_REGISTER_DECLARATION(Register, Z_R1, (1));
98 CONSTANT_REGISTER_DECLARATION(Register, Z_R2, (2));
99 CONSTANT_REGISTER_DECLARATION(Register, Z_R3, (3));
100 CONSTANT_REGISTER_DECLARATION(Register, Z_R4, (4));
101 CONSTANT_REGISTER_DECLARATION(Register, Z_R5, (5));
102 CONSTANT_REGISTER_DECLARATION(Register, Z_R6, (6));
103 CONSTANT_REGISTER_DECLARATION(Register, Z_R7, (7));
104 CONSTANT_REGISTER_DECLARATION(Register, Z_R8, (8));
105 CONSTANT_REGISTER_DECLARATION(Register, Z_R9, (9));
106 CONSTANT_REGISTER_DECLARATION(Register, Z_R10, (10));
107 CONSTANT_REGISTER_DECLARATION(Register, Z_R11, (11));
108 CONSTANT_REGISTER_DECLARATION(Register, Z_R12, (12));
109 CONSTANT_REGISTER_DECLARATION(Register, Z_R13, (13));
110 CONSTANT_REGISTER_DECLARATION(Register, Z_R14, (14));
111 CONSTANT_REGISTER_DECLARATION(Register, Z_R15, (15));
112
113 // Use ConditionRegister as shortcut
114 class ConditionRegisterImpl;
115 typedef ConditionRegisterImpl* ConditionRegister;
116
117 // The implementation of condition register(s) for the z/Architecture.
118
119 class ConditionRegisterImpl: public AbstractRegisterImpl {
120 public:
121
122 enum {
123 number_of_registers = 1
124 };
125
126 // accessors
127 int encoding() const {
128 assert(is_valid(), "invalid register"); return value();
129 }
130
131 // testers
132 bool is_valid() const {
142 // construction.
143 inline friend ConditionRegister as_ConditionRegister(int encoding);
144
145 inline VMReg as_VMReg();
146 };
147
148 inline ConditionRegister as_ConditionRegister(int encoding) {
149 assert(encoding >= 0 && encoding < ConditionRegisterImpl::number_of_registers, "bad condition register encoding");
150 return (ConditionRegister)(long)encoding;
151 }
152
153 // The condition register of the z/Architecture.
154
155 CONSTANT_REGISTER_DECLARATION(ConditionRegister, Z_CR, (0));
156
157 // Because z/Architecture has so many registers, #define'ing values for them is
158 // beneficial in code size and is worth the cost of some of the
159 // dangers of defines.
160 // If a particular file has a problem with these defines then it's possible
161 // to turn them off in that file by defining
162 // DONT_USE_REGISTER_DEFINES. Register_definition_s390.cpp does that
163 // so that it's able to provide real definitions of these registers
164 // for use in debuggers and such.
165
166 #ifndef DONT_USE_REGISTER_DEFINES
167 #define noreg ((Register)(noreg_RegisterEnumValue))
168
169 #define Z_R0 ((Register)(Z_R0_RegisterEnumValue))
170 #define Z_R1 ((Register)(Z_R1_RegisterEnumValue))
171 #define Z_R2 ((Register)(Z_R2_RegisterEnumValue))
172 #define Z_R3 ((Register)(Z_R3_RegisterEnumValue))
173 #define Z_R4 ((Register)(Z_R4_RegisterEnumValue))
174 #define Z_R5 ((Register)(Z_R5_RegisterEnumValue))
175 #define Z_R6 ((Register)(Z_R6_RegisterEnumValue))
176 #define Z_R7 ((Register)(Z_R7_RegisterEnumValue))
177 #define Z_R8 ((Register)(Z_R8_RegisterEnumValue))
178 #define Z_R9 ((Register)(Z_R9_RegisterEnumValue))
179 #define Z_R10 ((Register)(Z_R10_RegisterEnumValue))
180 #define Z_R11 ((Register)(Z_R11_RegisterEnumValue))
181 #define Z_R12 ((Register)(Z_R12_RegisterEnumValue))
182 #define Z_R13 ((Register)(Z_R13_RegisterEnumValue))
183 #define Z_R14 ((Register)(Z_R14_RegisterEnumValue))
184 #define Z_R15 ((Register)(Z_R15_RegisterEnumValue))
185
186 #define Z_CR ((ConditionRegister)(Z_CR_ConditionRegisterEnumValue))
187 #endif // DONT_USE_REGISTER_DEFINES
188
189 // Use FloatRegister as shortcut
190 class FloatRegisterImpl;
191 typedef FloatRegisterImpl* FloatRegister;
192
193 // The implementation of float registers for the z/Architecture.
194
195 inline FloatRegister as_FloatRegister(int encoding) {
196 return (FloatRegister)(long)encoding;
197 }
198
199 class FloatRegisterImpl: public AbstractRegisterImpl {
200 public:
201 enum {
202 number_of_registers = 16,
203 number_of_arg_registers = 4
204 };
205
206 // construction
207 inline friend FloatRegister as_FloatRegister(int encoding);
208
246 #ifndef DONT_USE_REGISTER_DEFINES
247 #define fnoreg ((FloatRegister)(fnoreg_FloatRegisterEnumValue))
248 #define Z_F0 ((FloatRegister)( Z_F0_FloatRegisterEnumValue))
249 #define Z_F1 ((FloatRegister)( Z_F1_FloatRegisterEnumValue))
250 #define Z_F2 ((FloatRegister)( Z_F2_FloatRegisterEnumValue))
251 #define Z_F3 ((FloatRegister)( Z_F3_FloatRegisterEnumValue))
252 #define Z_F4 ((FloatRegister)( Z_F4_FloatRegisterEnumValue))
253 #define Z_F5 ((FloatRegister)( Z_F5_FloatRegisterEnumValue))
254 #define Z_F6 ((FloatRegister)( Z_F6_FloatRegisterEnumValue))
255 #define Z_F7 ((FloatRegister)( Z_F7_FloatRegisterEnumValue))
256 #define Z_F8 ((FloatRegister)( Z_F8_FloatRegisterEnumValue))
257 #define Z_F9 ((FloatRegister)( Z_F9_FloatRegisterEnumValue))
258 #define Z_F10 ((FloatRegister)( Z_F10_FloatRegisterEnumValue))
259 #define Z_F11 ((FloatRegister)( Z_F11_FloatRegisterEnumValue))
260 #define Z_F12 ((FloatRegister)( Z_F12_FloatRegisterEnumValue))
261 #define Z_F13 ((FloatRegister)( Z_F13_FloatRegisterEnumValue))
262 #define Z_F14 ((FloatRegister)( Z_F14_FloatRegisterEnumValue))
263 #define Z_F15 ((FloatRegister)( Z_F15_FloatRegisterEnumValue))
264 #endif // DONT_USE_REGISTER_DEFINES
265
266 // Need to know the total number of registers of all sorts for SharedInfo.
267 // Define a class that exports it.
268
269 class ConcreteRegisterImpl : public AbstractRegisterImpl {
270 public:
271 enum {
272 number_of_registers =
273 (RegisterImpl::number_of_registers +
274 FloatRegisterImpl::number_of_registers)
275 * 2 // register halves
276 + 1 // condition code register
277 };
278 static const int max_gpr;
279 static const int max_fpr;
280 };
281
282 // Single, Double and Quad fp reg classes. These exist to map the ADLC
283 // encoding for a floating point register, to the FloatRegister number
284 // desired by the macroassembler. A FloatRegister is a number between
285 // 0 and 31 passed around as a pointer. For ADLC, an fp register encoding
286 // is the actual bit encoding used by the z/Architecture hardware. When ADLC used
287 // the macroassembler to generate an instruction that references, e.g., a
288 // double fp reg, it passed the bit encoding to the macroassembler via
289 // as_FloatRegister, which, for double regs > 30, returns an illegal
290 // register number.
291 //
292 // Therefore we provide the following classes for use by ADLC. Their
293 // sole purpose is to convert from z/Architecture register encodings to FloatRegisters.
294 // At some future time, we might replace FloatRegister with these classes,
295 // hence the definitions of as_xxxFloatRegister as class methods rather
296 // than as external inline routines.
297
298 class SingleFloatRegisterImpl;
299 typedef SingleFloatRegisterImpl *SingleFloatRegister;
300
301 class SingleFloatRegisterImpl {
309 class DoubleFloatRegisterImpl;
310 typedef DoubleFloatRegisterImpl *DoubleFloatRegister;
311
312 class DoubleFloatRegisterImpl {
313 public:
314 friend FloatRegister as_DoubleFloatRegister(int encoding) {
315 assert(encoding < 32, "bad double float register encoding");
316 return as_FloatRegister(((encoding & 1) << 5) | (encoding & 0x1e));
317 }
318 };
319
320 class QuadFloatRegisterImpl;
321 typedef QuadFloatRegisterImpl *QuadFloatRegister;
322
323 class QuadFloatRegisterImpl {
324 public:
325 friend FloatRegister as_QuadFloatRegister(int encoding) {
326 assert(encoding < 32 && ((encoding & 2) == 0), "bad quad float register encoding");
327 return as_FloatRegister(((encoding & 1) << 5) | (encoding & 0x1c));
328 }
329 };
330
331
332 // Common register declarations used in assembler code.
333 REGISTER_DECLARATION(Register, Z_EXC_OOP, Z_R2);
334 REGISTER_DECLARATION(Register, Z_EXC_PC, Z_R3);
335 REGISTER_DECLARATION(Register, Z_RET, Z_R2);
336 REGISTER_DECLARATION(Register, Z_ARG1, Z_R2);
337 REGISTER_DECLARATION(Register, Z_ARG2, Z_R3);
338 REGISTER_DECLARATION(Register, Z_ARG3, Z_R4);
339 REGISTER_DECLARATION(Register, Z_ARG4, Z_R5);
340 REGISTER_DECLARATION(Register, Z_ARG5, Z_R6);
341 REGISTER_DECLARATION(Register, Z_SP, Z_R15);
342 REGISTER_DECLARATION(FloatRegister, Z_FRET, Z_F0);
343 REGISTER_DECLARATION(FloatRegister, Z_FARG1, Z_F0);
344 REGISTER_DECLARATION(FloatRegister, Z_FARG2, Z_F2);
345 REGISTER_DECLARATION(FloatRegister, Z_FARG3, Z_F4);
346 REGISTER_DECLARATION(FloatRegister, Z_FARG4, Z_F6);
347
348 #ifndef DONT_USE_REGISTER_DEFINES
|
1 /*
2 * Copyright (c) 2016, 2017, Oracle and/or its affiliates. All rights reserved.
3 * Copyright (c) 2016, 2017 SAP SE. All rights reserved.
4 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
5 *
6 * This code is free software; you can redistribute it and/or modify it
7 * under the terms of the GNU General Public License version 2 only, as
8 * published by the Free Software Foundation.
9 *
10 * This code is distributed in the hope that it will be useful, but WITHOUT
11 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
12 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
13 * version 2 for more details (a copy is included in the LICENSE file that
14 * accompanied this code).
15 *
16 * You should have received a copy of the GNU General Public License version
17 * 2 along with this work; if not, write to the Free Software Foundation,
18 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
19 *
20 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
21 * or visit www.oracle.com if you need additional information or have any
22 * questions.
23 *
24 */
25
26 #ifndef CPU_S390_VM_REGISTER_S390_HPP
27 #define CPU_S390_VM_REGISTER_S390_HPP
28
29 #include "asm/register.hpp"
30 #include "vm_version_s390.hpp"
31
32 class Address;
33 class VMRegImpl;
34
35 typedef VMRegImpl* VMReg;
36
37
38 // z/Architecture registers, see "LINUX for zSeries ELF ABI Supplement", IBM March 2001
39 //
40 // r0-r1 General purpose (volatile)
41 // r2 Parameter and return value (volatile)
42 // r3 TOC pointer (volatile)
43 // r3-r5 Parameters (volatile)
44 // r6 Parameter (nonvolatile)
45 // r7-r11 Locals (nonvolatile)
46 // r12 Local, often used as GOT pointer (nonvolatile)
47 // r13 Local, often used as toc (nonvolatile)
48 // r14 return address (volatile)
49 // r15 stack pointer (nonvolatile)
50 //
51 // f0,f2,f4,f6 Parameters (volatile)
52 // f1,f3,f5,f7 General purpose (volatile)
53 // f8-f15 General purpose (nonvolatile)
54
55
56 //===========================
57 //=== Integer Registers ===
58 //===========================
59
60 // Use Register as shortcut.
61 class RegisterImpl;
62 typedef RegisterImpl* Register;
63
64 // The implementation of integer registers for z/Architecture.
65
66 inline Register as_Register(int encoding) {
67 return (Register)(long)encoding;
68 }
69
70 class RegisterImpl: public AbstractRegisterImpl {
71 public:
72 enum {
73 number_of_registers = 16,
74 number_of_arg_registers = 5
75 };
76
77 // general construction
78 inline friend Register as_Register(int encoding);
79
80 inline VMReg as_VMReg();
81
82 // accessors
83 int encoding() const { assert(is_valid(), "invalid register"); return value(); }
84 const char* name() const;
85
99
100 CONSTANT_REGISTER_DECLARATION(Register, noreg, (-1));
101
102 CONSTANT_REGISTER_DECLARATION(Register, Z_R0, (0));
103 CONSTANT_REGISTER_DECLARATION(Register, Z_R1, (1));
104 CONSTANT_REGISTER_DECLARATION(Register, Z_R2, (2));
105 CONSTANT_REGISTER_DECLARATION(Register, Z_R3, (3));
106 CONSTANT_REGISTER_DECLARATION(Register, Z_R4, (4));
107 CONSTANT_REGISTER_DECLARATION(Register, Z_R5, (5));
108 CONSTANT_REGISTER_DECLARATION(Register, Z_R6, (6));
109 CONSTANT_REGISTER_DECLARATION(Register, Z_R7, (7));
110 CONSTANT_REGISTER_DECLARATION(Register, Z_R8, (8));
111 CONSTANT_REGISTER_DECLARATION(Register, Z_R9, (9));
112 CONSTANT_REGISTER_DECLARATION(Register, Z_R10, (10));
113 CONSTANT_REGISTER_DECLARATION(Register, Z_R11, (11));
114 CONSTANT_REGISTER_DECLARATION(Register, Z_R12, (12));
115 CONSTANT_REGISTER_DECLARATION(Register, Z_R13, (13));
116 CONSTANT_REGISTER_DECLARATION(Register, Z_R14, (14));
117 CONSTANT_REGISTER_DECLARATION(Register, Z_R15, (15));
118
119
120 //=============================
121 //=== Condition Registers ===
122 //=============================
123
124 // Use ConditionRegister as shortcut
125 class ConditionRegisterImpl;
126 typedef ConditionRegisterImpl* ConditionRegister;
127
128 // The implementation of condition register(s) for the z/Architecture.
129
130 class ConditionRegisterImpl: public AbstractRegisterImpl {
131 public:
132
133 enum {
134 number_of_registers = 1
135 };
136
137 // accessors
138 int encoding() const {
139 assert(is_valid(), "invalid register"); return value();
140 }
141
142 // testers
143 bool is_valid() const {
153 // construction.
154 inline friend ConditionRegister as_ConditionRegister(int encoding);
155
156 inline VMReg as_VMReg();
157 };
158
159 inline ConditionRegister as_ConditionRegister(int encoding) {
160 assert(encoding >= 0 && encoding < ConditionRegisterImpl::number_of_registers, "bad condition register encoding");
161 return (ConditionRegister)(long)encoding;
162 }
163
164 // The condition register of the z/Architecture.
165
166 CONSTANT_REGISTER_DECLARATION(ConditionRegister, Z_CR, (0));
167
168 // Because z/Architecture has so many registers, #define'ing values for them is
169 // beneficial in code size and is worth the cost of some of the
170 // dangers of defines.
171 // If a particular file has a problem with these defines then it's possible
172 // to turn them off in that file by defining
173 // DONT_USE_REGISTER_DEFINES. Register_definitions_s390.cpp does that
174 // so that it's able to provide real definitions of these registers
175 // for use in debuggers and such.
176
177 #ifndef DONT_USE_REGISTER_DEFINES
178 #define noreg ((Register)(noreg_RegisterEnumValue))
179
180 #define Z_R0 ((Register)(Z_R0_RegisterEnumValue))
181 #define Z_R1 ((Register)(Z_R1_RegisterEnumValue))
182 #define Z_R2 ((Register)(Z_R2_RegisterEnumValue))
183 #define Z_R3 ((Register)(Z_R3_RegisterEnumValue))
184 #define Z_R4 ((Register)(Z_R4_RegisterEnumValue))
185 #define Z_R5 ((Register)(Z_R5_RegisterEnumValue))
186 #define Z_R6 ((Register)(Z_R6_RegisterEnumValue))
187 #define Z_R7 ((Register)(Z_R7_RegisterEnumValue))
188 #define Z_R8 ((Register)(Z_R8_RegisterEnumValue))
189 #define Z_R9 ((Register)(Z_R9_RegisterEnumValue))
190 #define Z_R10 ((Register)(Z_R10_RegisterEnumValue))
191 #define Z_R11 ((Register)(Z_R11_RegisterEnumValue))
192 #define Z_R12 ((Register)(Z_R12_RegisterEnumValue))
193 #define Z_R13 ((Register)(Z_R13_RegisterEnumValue))
194 #define Z_R14 ((Register)(Z_R14_RegisterEnumValue))
195 #define Z_R15 ((Register)(Z_R15_RegisterEnumValue))
196
197 #define Z_CR ((ConditionRegister)(Z_CR_ConditionRegisterEnumValue))
198 #endif // DONT_USE_REGISTER_DEFINES
199
200
201 //=========================
202 //=== Float Registers ===
203 //=========================
204
205 // Use FloatRegister as shortcut
206 class FloatRegisterImpl;
207 typedef FloatRegisterImpl* FloatRegister;
208
209 // The implementation of float registers for the z/Architecture.
210
211 inline FloatRegister as_FloatRegister(int encoding) {
212 return (FloatRegister)(long)encoding;
213 }
214
215 class FloatRegisterImpl: public AbstractRegisterImpl {
216 public:
217 enum {
218 number_of_registers = 16,
219 number_of_arg_registers = 4
220 };
221
222 // construction
223 inline friend FloatRegister as_FloatRegister(int encoding);
224
262 #ifndef DONT_USE_REGISTER_DEFINES
263 #define fnoreg ((FloatRegister)(fnoreg_FloatRegisterEnumValue))
264 #define Z_F0 ((FloatRegister)( Z_F0_FloatRegisterEnumValue))
265 #define Z_F1 ((FloatRegister)( Z_F1_FloatRegisterEnumValue))
266 #define Z_F2 ((FloatRegister)( Z_F2_FloatRegisterEnumValue))
267 #define Z_F3 ((FloatRegister)( Z_F3_FloatRegisterEnumValue))
268 #define Z_F4 ((FloatRegister)( Z_F4_FloatRegisterEnumValue))
269 #define Z_F5 ((FloatRegister)( Z_F5_FloatRegisterEnumValue))
270 #define Z_F6 ((FloatRegister)( Z_F6_FloatRegisterEnumValue))
271 #define Z_F7 ((FloatRegister)( Z_F7_FloatRegisterEnumValue))
272 #define Z_F8 ((FloatRegister)( Z_F8_FloatRegisterEnumValue))
273 #define Z_F9 ((FloatRegister)( Z_F9_FloatRegisterEnumValue))
274 #define Z_F10 ((FloatRegister)( Z_F10_FloatRegisterEnumValue))
275 #define Z_F11 ((FloatRegister)( Z_F11_FloatRegisterEnumValue))
276 #define Z_F12 ((FloatRegister)( Z_F12_FloatRegisterEnumValue))
277 #define Z_F13 ((FloatRegister)( Z_F13_FloatRegisterEnumValue))
278 #define Z_F14 ((FloatRegister)( Z_F14_FloatRegisterEnumValue))
279 #define Z_F15 ((FloatRegister)( Z_F15_FloatRegisterEnumValue))
280 #endif // DONT_USE_REGISTER_DEFINES
281
282 // Single, Double and Quad fp reg classes. These exist to map the ADLC
283 // encoding for a floating point register, to the FloatRegister number
284 // desired by the macroassembler. A FloatRegister is a number between
285 // 0 and 31 passed around as a pointer. For ADLC, an fp register encoding
286 // is the actual bit encoding used by the z/Architecture hardware. When ADLC used
287 // the macroassembler to generate an instruction that references, e.g., a
288 // double fp reg, it passed the bit encoding to the macroassembler via
289 // as_FloatRegister, which, for double regs > 30, returns an illegal
290 // register number.
291 //
292 // Therefore we provide the following classes for use by ADLC. Their
293 // sole purpose is to convert from z/Architecture register encodings to FloatRegisters.
294 // At some future time, we might replace FloatRegister with these classes,
295 // hence the definitions of as_xxxFloatRegister as class methods rather
296 // than as external inline routines.
297
298 class SingleFloatRegisterImpl;
299 typedef SingleFloatRegisterImpl *SingleFloatRegister;
300
301 class SingleFloatRegisterImpl {
309 class DoubleFloatRegisterImpl;
310 typedef DoubleFloatRegisterImpl *DoubleFloatRegister;
311
312 class DoubleFloatRegisterImpl {
313 public:
314 friend FloatRegister as_DoubleFloatRegister(int encoding) {
315 assert(encoding < 32, "bad double float register encoding");
316 return as_FloatRegister(((encoding & 1) << 5) | (encoding & 0x1e));
317 }
318 };
319
320 class QuadFloatRegisterImpl;
321 typedef QuadFloatRegisterImpl *QuadFloatRegister;
322
323 class QuadFloatRegisterImpl {
324 public:
325 friend FloatRegister as_QuadFloatRegister(int encoding) {
326 assert(encoding < 32 && ((encoding & 2) == 0), "bad quad float register encoding");
327 return as_FloatRegister(((encoding & 1) << 5) | (encoding & 0x1c));
328 }
329 };
330
331
332 //==========================
333 //=== Vector Registers ===
334 //==========================
335
336 // Use VectorRegister as shortcut
337 class VectorRegisterImpl;
338 typedef VectorRegisterImpl* VectorRegister;
339
340 // The implementation of vector registers for z/Architecture.
341
342 inline VectorRegister as_VectorRegister(int encoding) {
343 return (VectorRegister)(long)encoding;
344 }
345
346 class VectorRegisterImpl: public AbstractRegisterImpl {
347 public:
348 enum {
349 number_of_registers = 32,
350 number_of_arg_registers = 0
351 };
352
353 // construction
354 inline friend VectorRegister as_VectorRegister(int encoding);
355
356 inline VMReg as_VMReg();
357
358 // accessors
359 int encoding() const {
360 assert(is_valid(), "invalid register"); return value();
361 }
362
363 bool is_valid() const { return 0 <= value() && value() < number_of_registers; }
364 bool is_volatile() const { return true; }
365 bool is_nonvolatile() const { return false; }
366
367 // Register fields in z/Architecture instructions are 4 bits wide, restricting the
368 // addressable register set size to 16.
369 // The vector register set size is 32, requiring an extension, by one bit, of the
370 // register encoding. This is accomplished by the introduction of a RXB field in the
371 // instruction. RXB = Register eXtension Bits.
372 // The RXB field contains the MSBs (most significant bit) of the vector register numbers
373 // used for this instruction. Assignment of MSB in RBX is by bit position of the
374 // register field in the instruction.
375 // Example:
376 // The register field starting at bit position 12 in the instruction is assigned RXB bit 0b0100.
377 int64_t RXB_mask(int pos) {
378 if (encoding() >= number_of_registers/2) {
379 switch (pos) {
380 case 8: return ((int64_t)0b1000) << 8; // actual bit pos: 36
381 case 12: return ((int64_t)0b0100) << 8; // actual bit pos: 37
382 case 16: return ((int64_t)0b0010) << 8; // actual bit pos: 38
383 case 32: return ((int64_t)0b0001) << 8; // actual bit pos: 39
384 default:
385 ShouldNotReachHere();
386 }
387 }
388 return 0;
389 }
390
391 const char* name() const;
392
393 VectorRegister successor() const { return as_VectorRegister(encoding() + 1); }
394 };
395
396 // The Vector registers of z/Architecture.
397
398 CONSTANT_REGISTER_DECLARATION(VectorRegister, vnoreg, (-1));
399
400 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V0, (0));
401 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V1, (1));
402 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V2, (2));
403 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V3, (3));
404 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V4, (4));
405 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V5, (5));
406 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V6, (6));
407 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V7, (7));
408 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V8, (8));
409 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V9, (9));
410 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V10, (10));
411 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V11, (11));
412 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V12, (12));
413 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V13, (13));
414 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V14, (14));
415 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V15, (15));
416 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V16, (16));
417 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V17, (17));
418 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V18, (18));
419 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V19, (19));
420 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V20, (20));
421 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V21, (21));
422 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V22, (22));
423 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V23, (23));
424 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V24, (24));
425 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V25, (25));
426 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V26, (26));
427 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V27, (27));
428 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V28, (28));
429 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V29, (29));
430 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V30, (30));
431 CONSTANT_REGISTER_DECLARATION(VectorRegister, Z_V31, (31));
432
433 #ifndef DONT_USE_REGISTER_DEFINES
434 #define vnoreg ((VectorRegister)(vnoreg_VectorRegisterEnumValue))
435 #define Z_V0 ((VectorRegister)( Z_V0_VectorRegisterEnumValue))
436 #define Z_V1 ((VectorRegister)( Z_V1_VectorRegisterEnumValue))
437 #define Z_V2 ((VectorRegister)( Z_V2_VectorRegisterEnumValue))
438 #define Z_V3 ((VectorRegister)( Z_V3_VectorRegisterEnumValue))
439 #define Z_V4 ((VectorRegister)( Z_V4_VectorRegisterEnumValue))
440 #define Z_V5 ((VectorRegister)( Z_V5_VectorRegisterEnumValue))
441 #define Z_V6 ((VectorRegister)( Z_V6_VectorRegisterEnumValue))
442 #define Z_V7 ((VectorRegister)( Z_V7_VectorRegisterEnumValue))
443 #define Z_V8 ((VectorRegister)( Z_V8_VectorRegisterEnumValue))
444 #define Z_V9 ((VectorRegister)( Z_V9_VectorRegisterEnumValue))
445 #define Z_V10 ((VectorRegister)( Z_V10_VectorRegisterEnumValue))
446 #define Z_V11 ((VectorRegister)( Z_V11_VectorRegisterEnumValue))
447 #define Z_V12 ((VectorRegister)( Z_V12_VectorRegisterEnumValue))
448 #define Z_V13 ((VectorRegister)( Z_V13_VectorRegisterEnumValue))
449 #define Z_V14 ((VectorRegister)( Z_V14_VectorRegisterEnumValue))
450 #define Z_V15 ((VectorRegister)( Z_V15_VectorRegisterEnumValue))
451 #define Z_V16 ((VectorRegister)( Z_V16_VectorRegisterEnumValue))
452 #define Z_V17 ((VectorRegister)( Z_V17_VectorRegisterEnumValue))
453 #define Z_V18 ((VectorRegister)( Z_V18_VectorRegisterEnumValue))
454 #define Z_V19 ((VectorRegister)( Z_V19_VectorRegisterEnumValue))
455 #define Z_V20 ((VectorRegister)( Z_V20_VectorRegisterEnumValue))
456 #define Z_V21 ((VectorRegister)( Z_V21_VectorRegisterEnumValue))
457 #define Z_V22 ((VectorRegister)( Z_V22_VectorRegisterEnumValue))
458 #define Z_V23 ((VectorRegister)( Z_V23_VectorRegisterEnumValue))
459 #define Z_V24 ((VectorRegister)( Z_V24_VectorRegisterEnumValue))
460 #define Z_V25 ((VectorRegister)( Z_V25_VectorRegisterEnumValue))
461 #define Z_V26 ((VectorRegister)( Z_V26_VectorRegisterEnumValue))
462 #define Z_V27 ((VectorRegister)( Z_V27_VectorRegisterEnumValue))
463 #define Z_V28 ((VectorRegister)( Z_V28_VectorRegisterEnumValue))
464 #define Z_V29 ((VectorRegister)( Z_V29_VectorRegisterEnumValue))
465 #define Z_V30 ((VectorRegister)( Z_V30_VectorRegisterEnumValue))
466 #define Z_V31 ((VectorRegister)( Z_V31_VectorRegisterEnumValue))
467 #endif // DONT_USE_REGISTER_DEFINES
468
469
470 // Need to know the total number of registers of all sorts for SharedInfo.
471 // Define a class that exports it.
472
473 class ConcreteRegisterImpl : public AbstractRegisterImpl {
474 public:
475 enum {
476 number_of_registers =
477 (RegisterImpl::number_of_registers +
478 FloatRegisterImpl::number_of_registers)
479 * 2 // register halves
480 + 1 // condition code register
481 };
482 static const int max_gpr;
483 static const int max_fpr;
484 };
485
486
487 // Common register declarations used in assembler code.
488 REGISTER_DECLARATION(Register, Z_EXC_OOP, Z_R2);
489 REGISTER_DECLARATION(Register, Z_EXC_PC, Z_R3);
490 REGISTER_DECLARATION(Register, Z_RET, Z_R2);
491 REGISTER_DECLARATION(Register, Z_ARG1, Z_R2);
492 REGISTER_DECLARATION(Register, Z_ARG2, Z_R3);
493 REGISTER_DECLARATION(Register, Z_ARG3, Z_R4);
494 REGISTER_DECLARATION(Register, Z_ARG4, Z_R5);
495 REGISTER_DECLARATION(Register, Z_ARG5, Z_R6);
496 REGISTER_DECLARATION(Register, Z_SP, Z_R15);
497 REGISTER_DECLARATION(FloatRegister, Z_FRET, Z_F0);
498 REGISTER_DECLARATION(FloatRegister, Z_FARG1, Z_F0);
499 REGISTER_DECLARATION(FloatRegister, Z_FARG2, Z_F2);
500 REGISTER_DECLARATION(FloatRegister, Z_FARG3, Z_F4);
501 REGISTER_DECLARATION(FloatRegister, Z_FARG4, Z_F6);
502
503 #ifndef DONT_USE_REGISTER_DEFINES
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