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annotate src/share/vm/opto/regmask.hpp @ 7788:dbbe8ce3bfa5
commands: accept 'server0' as a vm, accept version number which have '-...' suffix (-internal, -ea...)
author | Gilles Duboscq <duboscq@ssw.jku.at> |
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date | Wed, 13 Feb 2013 18:33:54 +0100 |
parents | a7114d3d712e |
children | 2c673161698a |
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0 | 1 /* |
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2 * Copyright (c) 1997, 2012, Oracle and/or its affiliates. All rights reserved. |
0 | 3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. |
4 * | |
5 * This code is free software; you can redistribute it and/or modify it | |
6 * under the terms of the GNU General Public License version 2 only, as | |
7 * published by the Free Software Foundation. | |
8 * | |
9 * This code is distributed in the hope that it will be useful, but WITHOUT | |
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License | |
12 * version 2 for more details (a copy is included in the LICENSE file that | |
13 * accompanied this code). | |
14 * | |
15 * You should have received a copy of the GNU General Public License version | |
16 * 2 along with this work; if not, write to the Free Software Foundation, | |
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. | |
18 * | |
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19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA |
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20 * or visit www.oracle.com if you need additional information or have any |
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21 * questions. |
0 | 22 * |
23 */ | |
24 | |
1972 | 25 #ifndef SHARE_VM_OPTO_REGMASK_HPP |
26 #define SHARE_VM_OPTO_REGMASK_HPP | |
27 | |
28 #include "code/vmreg.hpp" | |
29 #include "libadt/port.hpp" | |
30 #include "opto/optoreg.hpp" | |
31 #ifdef TARGET_ARCH_MODEL_x86_32 | |
32 # include "adfiles/adGlobals_x86_32.hpp" | |
33 #endif | |
34 #ifdef TARGET_ARCH_MODEL_x86_64 | |
35 # include "adfiles/adGlobals_x86_64.hpp" | |
36 #endif | |
37 #ifdef TARGET_ARCH_MODEL_sparc | |
38 # include "adfiles/adGlobals_sparc.hpp" | |
39 #endif | |
40 #ifdef TARGET_ARCH_MODEL_zero | |
41 # include "adfiles/adGlobals_zero.hpp" | |
42 #endif | |
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43 #ifdef TARGET_ARCH_MODEL_arm |
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44 # include "adfiles/adGlobals_arm.hpp" |
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45 #endif |
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46 #ifdef TARGET_ARCH_MODEL_ppc |
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47 # include "adfiles/adGlobals_ppc.hpp" |
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48 #endif |
1972 | 49 |
0 | 50 // Some fun naming (textual) substitutions: |
51 // | |
52 // RegMask::get_low_elem() ==> RegMask::find_first_elem() | |
53 // RegMask::Special ==> RegMask::Empty | |
54 // RegMask::_flags ==> RegMask::is_AllStack() | |
55 // RegMask::operator<<=() ==> RegMask::Insert() | |
56 // RegMask::operator>>=() ==> RegMask::Remove() | |
57 // RegMask::Union() ==> RegMask::OR | |
58 // RegMask::Inter() ==> RegMask::AND | |
59 // | |
60 // OptoRegister::RegName ==> OptoReg::Name | |
61 // | |
62 // OptoReg::stack0() ==> _last_Mach_Reg or ZERO in core version | |
63 // | |
64 // numregs in chaitin ==> proper degree in chaitin | |
65 | |
66 //-------------Non-zero bit search methods used by RegMask--------------------- | |
67 // Find lowest 1, or return 32 if empty | |
68 int find_lowest_bit( uint32 mask ); | |
69 // Find highest 1, or return 32 if empty | |
70 int find_hihghest_bit( uint32 mask ); | |
71 | |
72 //------------------------------RegMask---------------------------------------- | |
73 // The ADL file describes how to print the machine-specific registers, as well | |
74 // as any notion of register classes. We provide a register mask, which is | |
75 // just a collection of Register numbers. | |
76 | |
77 // The ADLC defines 2 macros, RM_SIZE and FORALL_BODY. | |
78 // RM_SIZE is the size of a register mask in words. | |
79 // FORALL_BODY replicates a BODY macro once per word in the register mask. | |
80 // The usage is somewhat clumsy and limited to the regmask.[h,c]pp files. | |
81 // However, it means the ADLC can redefine the unroll macro and all loops | |
82 // over register masks will be unrolled by the correct amount. | |
83 | |
84 class RegMask VALUE_OBJ_CLASS_SPEC { | |
85 union { | |
86 double _dummy_force_double_alignment[RM_SIZE>>1]; | |
87 // Array of Register Mask bits. This array is large enough to cover | |
88 // all the machine registers and all parameters that need to be passed | |
89 // on the stack (stack registers) up to some interesting limit. Methods | |
90 // that need more parameters will NOT be compiled. On Intel, the limit | |
91 // is something like 90+ parameters. | |
92 int _A[RM_SIZE]; | |
93 }; | |
94 | |
95 enum { | |
96 _WordBits = BitsPerInt, | |
97 _LogWordBits = LogBitsPerInt, | |
98 _RM_SIZE = RM_SIZE // local constant, imported, then hidden by #undef | |
99 }; | |
100 | |
101 public: | |
102 enum { CHUNK_SIZE = RM_SIZE*_WordBits }; | |
103 | |
104 // SlotsPerLong is 2, since slots are 32 bits and longs are 64 bits. | |
105 // Also, consider the maximum alignment size for a normally allocated | |
106 // value. Since we allocate register pairs but not register quads (at | |
107 // present), this alignment is SlotsPerLong (== 2). A normally | |
108 // aligned allocated register is either a single register, or a pair | |
109 // of adjacent registers, the lower-numbered being even. | |
110 // See also is_aligned_Pairs() below, and the padding added before | |
111 // Matcher::_new_SP to keep allocated pairs aligned properly. | |
112 // If we ever go to quad-word allocations, SlotsPerQuad will become | |
113 // the controlling alignment constraint. Note that this alignment | |
114 // requirement is internal to the allocator, and independent of any | |
115 // particular platform. | |
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116 enum { SlotsPerLong = 2, |
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117 SlotsPerVecS = 1, |
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118 SlotsPerVecD = 2, |
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119 SlotsPerVecX = 4, |
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120 SlotsPerVecY = 8 }; |
0 | 121 |
122 // A constructor only used by the ADLC output. All mask fields are filled | |
123 // in directly. Calls to this look something like RM(1,2,3,4); | |
124 RegMask( | |
125 # define BODY(I) int a##I, | |
126 FORALL_BODY | |
127 # undef BODY | |
128 int dummy = 0 ) { | |
129 # define BODY(I) _A[I] = a##I; | |
130 FORALL_BODY | |
131 # undef BODY | |
132 } | |
133 | |
134 // Handy copying constructor | |
135 RegMask( RegMask *rm ) { | |
136 # define BODY(I) _A[I] = rm->_A[I]; | |
137 FORALL_BODY | |
138 # undef BODY | |
139 } | |
140 | |
141 // Construct an empty mask | |
142 RegMask( ) { Clear(); } | |
143 | |
144 // Construct a mask with a single bit | |
145 RegMask( OptoReg::Name reg ) { Clear(); Insert(reg); } | |
146 | |
147 // Check for register being in mask | |
148 int Member( OptoReg::Name reg ) const { | |
149 assert( reg < CHUNK_SIZE, "" ); | |
150 return _A[reg>>_LogWordBits] & (1<<(reg&(_WordBits-1))); | |
151 } | |
152 | |
153 // The last bit in the register mask indicates that the mask should repeat | |
154 // indefinitely with ONE bits. Returns TRUE if mask is infinite or | |
155 // unbounded in size. Returns FALSE if mask is finite size. | |
156 int is_AllStack() const { return _A[RM_SIZE-1] >> (_WordBits-1); } | |
157 | |
158 // Work around an -xO3 optimization problme in WS6U1. The old way: | |
159 // void set_AllStack() { _A[RM_SIZE-1] |= (1<<(_WordBits-1)); } | |
160 // will cause _A[RM_SIZE-1] to be clobbered, not updated when set_AllStack() | |
161 // follows an Insert() loop, like the one found in init_spill_mask(). Using | |
162 // Insert() instead works because the index into _A in computed instead of | |
163 // constant. See bug 4665841. | |
164 void set_AllStack() { Insert(OptoReg::Name(CHUNK_SIZE-1)); } | |
165 | |
166 // Test for being a not-empty mask. | |
167 int is_NotEmpty( ) const { | |
168 int tmp = 0; | |
169 # define BODY(I) tmp |= _A[I]; | |
170 FORALL_BODY | |
171 # undef BODY | |
172 return tmp; | |
173 } | |
174 | |
175 // Find lowest-numbered register from mask, or BAD if mask is empty. | |
176 OptoReg::Name find_first_elem() const { | |
177 int base, bits; | |
178 # define BODY(I) if( (bits = _A[I]) != 0 ) base = I<<_LogWordBits; else | |
179 FORALL_BODY | |
180 # undef BODY | |
181 { base = OptoReg::Bad; bits = 1<<0; } | |
182 return OptoReg::Name(base + find_lowest_bit(bits)); | |
183 } | |
184 // Get highest-numbered register from mask, or BAD if mask is empty. | |
185 OptoReg::Name find_last_elem() const { | |
186 int base, bits; | |
187 # define BODY(I) if( (bits = _A[RM_SIZE-1-I]) != 0 ) base = (RM_SIZE-1-I)<<_LogWordBits; else | |
188 FORALL_BODY | |
189 # undef BODY | |
190 { base = OptoReg::Bad; bits = 1<<0; } | |
191 return OptoReg::Name(base + find_hihghest_bit(bits)); | |
192 } | |
193 | |
194 // Find the lowest-numbered register pair in the mask. Return the | |
195 // HIGHEST register number in the pair, or BAD if no pairs. | |
196 // Assert that the mask contains only bit pairs. | |
197 OptoReg::Name find_first_pair() const; | |
198 | |
199 // Clear out partial bits; leave only aligned adjacent bit pairs. | |
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200 void clear_to_pairs(); |
0 | 201 // Smear out partial bits; leave only aligned adjacent bit pairs. |
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202 void smear_to_pairs(); |
0 | 203 // Verify that the mask contains only aligned adjacent bit pairs |
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204 void verify_pairs() const { assert( is_aligned_pairs(), "mask is not aligned, adjacent pairs" ); } |
0 | 205 // Test that the mask contains only aligned adjacent bit pairs |
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206 bool is_aligned_pairs() const; |
0 | 207 |
208 // mask is a pair of misaligned registers | |
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209 bool is_misaligned_pair() const { return Size()==2 && !is_aligned_pairs(); } |
0 | 210 // Test for single register |
211 int is_bound1() const; | |
212 // Test for a single adjacent pair | |
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213 int is_bound_pair() const; |
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214 // Test for a single adjacent set of ideal register's size. |
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215 int is_bound(uint ireg) const { |
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216 if (is_vector(ireg)) { |
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217 if (is_bound_set(num_registers(ireg))) |
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218 return true; |
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219 } else if (is_bound1() || is_bound_pair()) { |
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220 return true; |
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221 } |
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222 return false; |
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223 } |
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224 |
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225 // Find the lowest-numbered register set in the mask. Return the |
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226 // HIGHEST register number in the set, or BAD if no sets. |
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227 // Assert that the mask contains only bit sets. |
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228 OptoReg::Name find_first_set(int size) const; |
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229 |
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230 // Clear out partial bits; leave only aligned adjacent bit sets of size. |
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231 void clear_to_sets(int size); |
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232 // Smear out partial bits to aligned adjacent bit sets. |
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233 void smear_to_sets(int size); |
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234 // Verify that the mask contains only aligned adjacent bit sets |
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235 void verify_sets(int size) const { assert(is_aligned_sets(size), "mask is not aligned, adjacent sets"); } |
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236 // Test that the mask contains only aligned adjacent bit sets |
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237 bool is_aligned_sets(int size) const; |
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238 |
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239 // mask is a set of misaligned registers |
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240 bool is_misaligned_set(int size) const { return (int)Size()==size && !is_aligned_sets(size);} |
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241 |
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242 // Test for a single adjacent set |
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243 int is_bound_set(int size) const; |
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244 |
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245 static bool is_vector(uint ireg); |
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246 static int num_registers(uint ireg); |
0 | 247 |
248 // Fast overlap test. Non-zero if any registers in common. | |
249 int overlap( const RegMask &rm ) const { | |
250 return | |
251 # define BODY(I) (_A[I] & rm._A[I]) | | |
252 FORALL_BODY | |
253 # undef BODY | |
254 0 ; | |
255 } | |
256 | |
257 // Special test for register pressure based splitting | |
258 // UP means register only, Register plus stack, or stack only is DOWN | |
259 bool is_UP() const; | |
260 | |
261 // Clear a register mask | |
262 void Clear( ) { | |
263 # define BODY(I) _A[I] = 0; | |
264 FORALL_BODY | |
265 # undef BODY | |
266 } | |
267 | |
268 // Fill a register mask with 1's | |
269 void Set_All( ) { | |
270 # define BODY(I) _A[I] = -1; | |
271 FORALL_BODY | |
272 # undef BODY | |
273 } | |
274 | |
275 // Insert register into mask | |
276 void Insert( OptoReg::Name reg ) { | |
277 assert( reg < CHUNK_SIZE, "" ); | |
278 _A[reg>>_LogWordBits] |= (1<<(reg&(_WordBits-1))); | |
279 } | |
280 | |
281 // Remove register from mask | |
282 void Remove( OptoReg::Name reg ) { | |
283 assert( reg < CHUNK_SIZE, "" ); | |
284 _A[reg>>_LogWordBits] &= ~(1<<(reg&(_WordBits-1))); | |
285 } | |
286 | |
287 // OR 'rm' into 'this' | |
288 void OR( const RegMask &rm ) { | |
289 # define BODY(I) this->_A[I] |= rm._A[I]; | |
290 FORALL_BODY | |
291 # undef BODY | |
292 } | |
293 | |
294 // AND 'rm' into 'this' | |
295 void AND( const RegMask &rm ) { | |
296 # define BODY(I) this->_A[I] &= rm._A[I]; | |
297 FORALL_BODY | |
298 # undef BODY | |
299 } | |
300 | |
301 // Subtract 'rm' from 'this' | |
302 void SUBTRACT( const RegMask &rm ) { | |
303 # define BODY(I) _A[I] &= ~rm._A[I]; | |
304 FORALL_BODY | |
305 # undef BODY | |
306 } | |
307 | |
308 // Compute size of register mask: number of bits | |
309 uint Size() const; | |
310 | |
311 #ifndef PRODUCT | |
312 void print() const { dump(); } | |
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313 void dump(outputStream *st = tty) const; // Print a mask |
0 | 314 #endif |
315 | |
316 static const RegMask Empty; // Common empty mask | |
317 | |
318 static bool can_represent(OptoReg::Name reg) { | |
319 // NOTE: -1 in computation reflects the usage of the last | |
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320 // bit of the regmask as an infinite stack flag and |
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321 // -7 is to keep mask aligned for largest value (VecY). |
0 | 322 return (int)reg < (int)(CHUNK_SIZE-1); |
323 } | |
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324 static bool can_represent_arg(OptoReg::Name reg) { |
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325 // NOTE: -SlotsPerVecY in computation reflects the need |
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326 // to keep mask aligned for largest value (VecY). |
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327 return (int)reg < (int)(CHUNK_SIZE-SlotsPerVecY); |
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328 } |
0 | 329 }; |
330 | |
331 // Do not use this constant directly in client code! | |
332 #undef RM_SIZE | |
1972 | 333 |
334 #endif // SHARE_VM_OPTO_REGMASK_HPP |